RICE LAKE 682 Synergy Plus Digital Weight Indicator Instruction Manual

June 14, 2024
RICE LAKE

RICE LAKE logo 2 682 Synergy Plus
Digital Weight Indicator
Firmware Version 1.05
Technical Manual

682 Synergy Plus Digital Weight Indicator

RICE LAKE 682 Synergy Plus Digital Weight Indicator

© Rice Lake Weighing Systems. All rights reserved.
Rice Lake Weighing Systems® is a registered trademark of Rice Lake Weighing Systems.
All other brand or product names within this publication are trademarks or registered trademarks of their respective companies.
All information contained within this publication is, to the best of our knowledge, complete and accurate at the time of publication. Rice Lake Weighing Systems reserves the right to make changes to the technology, features, specifications and design of the equipment without notice.
The most current version of this publication, software, firmware and all other product updates can be found on our website: www.ricelake.com
Revision History
This section tracks and describes manual revisions for awareness of major updates.

Revision Date Description
A April 8, 2022 Initial manual release with the launch of the product;

firmware version 1.00
B| October 28, 2022| Softkey descriptions, custom stream format procedure example and cord grip cable diameter ranges added; print format table and User menu updated; AC/DC models now use same parts kit; firmware version 1.02
C| December 28, 2022| Content updates for DC power cable wiring and batching switch wiring; OIML certificate number added; firmware version 1.03
D| November 8, 2023| Firmware version 1.05; Regulatory parameters and EPD commands expanded; Added power cord details; Updated serial scale input capacities; Added CPU board updates; Updated replacement parts list

Table i. Revision Letter History
Technical training seminars are available through Rice Lake Weighing Systems.
Course descriptions and dates can be viewed at www.ricelake.com/training or obtained by calling 715-234-9171 and asking for the training department.

Visit our website www.RiceLake.com

Introduction

This manual is intended for use by service technicians responsible for installing and servicing 682 digital weight indicators.
Configuration and calibration of the indicator can be accomplished using the Revolution® configuration utility or the indicator
front panel keys. See Section 4.0 on page 39 and Section 6.0 on page 67 for information about configuration and calibration.
Manuals are available from Rice Lake Weighing Systems at www.ricelake.com/manuals
Warranty information is available at www.ricelake.com/warranties

1.1 Safety
Safety Signal Definitions:
DANGER: Indicates an imminently hazardous situation that, if not avoided, will result in death or serious injury. Includes hazards that are exposed when guards are removed.
WARNING: Indicates a potentially hazardous situation that, if not avoided, could result in serious injury or death. Includes hazards that are exposed when guards are removed.
CAUTION: Indicates a potentially hazardous situation that, if not avoided, could result in minor or moderate injury.
IMPORTANT: Indicates information about procedures that, if not observed, could result in damage to equipment or corruption to and loss of data.
General Safety
Do not operate or work on this equipment unless this manual has been read and all instructions are understood.
Failure to follow the instructions or heed the warnings could result in injury or death. Contact any Rice Lake Weighing Systems dealer for replacement manuals.
WARNING: Failure to heed could result in serious injury or death.
Some procedures described in this manual require work inside the indicator enclosure. These procedures are to be performed by qualified service personnel only.
Do not allow minors (children) or inexperienced persons to operate this unit.
Do not operate without the enclosure completely assembled.
Do not place fingers into slots or possible pinch points.
Do not use this product if any of the components are cracked.
Do not make alterations or modifications to the unit.
Do not remove or obscure warning labels.
Do not submerge.
Do not use solvents or aggressive substances to clean the indicator.
Do not exceed the rated specification of the unit.
Only connect unit to equipment certified to IEC 60950, IEC 62368, IEC 61010 or similar.
Do not use for purposes other than weight taking.
Before opening the unit, ensure the power cord is disconnected from the power source.
Disconnect all power before servicing. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death.
For permanently connected equipment, a readily accessible disconnect device shall be incorporated in the building installation wiring.
Pluggable units must be installed near the socket/outlet and be easily accessible.
Use copper or copper-clad aluminum conductors only.
Never remove or obscure warning labels (PN 219129).
1.2 FCC Compliance
United States
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
Canada
This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.
1.3 Operating Modes
Weigh Mode
Weigh mode is the default mode of the indicator. The indicator displays gross or net weights as required.
User Mode
User mode is accessible by pressing on the front panel. Access to the Audit, User, Tare, MAC ID, Fieldbus Version and
Version menus is available when in User mode. Access to the User menu can be password protected (Section 3.4.22 on page 38). The User menu includes the Setpoint (limited), Accumulator, Time and Date menus.
Setup Mode
Many of the procedures described in this manual, require the indicator to be in Setup mode.
See Section 4.0 on page 39 for the procedure to enter Setup mode and the parameters available. Setup mode is accessible by pressing the setup switch or by pressing on the front panel when the audit jumper is in the ON position. Access to the Setup menu can also be password protected (Section 3.4.22 on page 38).
NOTE: See Section 4.5.5 on page 52 for the menu location and description of the password parameters.
1.4 Option Cards
The 682 has a single option card slot which can support the Synergy Series Option Cards. The Synergy Series Option Card kits include instructions for installation and setup.

  • Single Analog Output Option Card Kit (PN 195084)
  • Relay Option Card Kit (PN 211709)
  • Dual Serial Option Card Kit (PN 211710)

1.5 RJ45 Option
The 682 is available with an external RJ45 option. This external RJ45 connector is located on the backplate of the 682 and provides quick access to Ethernet TCP/IP 10Base-T/100Base-TX communication (Section 2.5.11 on page 20). 682 indicators without the RJ45 option access Ethernet using the J8 connector on the CPU board inside of the enclosure.

Installation

This section describes procedures for connecting power, load cells, digital I/O and data communication cables to a 682 indicator. An assembly drawing and parts list are included for the service technician.
WARNING
** Risk of electrical shock.
Disconnect power before servicing.
CAUTION: Risk of explosion if battery is replaced by an incorrect type. Dispose of used batteries according to state and local regulations.
WARNING:** Failure to heed the following statements could result in serious injury or death.

  • Procedures requiring work inside the product enclosure must be performed by qualified service personnel only.
  • Use a grounding wrist strap to protect components from electrostatic discharge (ESD) damage when working inside the product enclosure.
  • The power outlet must be near the equipment and must be easily accessible.

2.1 Unpacking
Immediately after unpacking, visually inspect the 682 to ensure all components are included and undamaged. The shipping carton contains the indicator, this manual and a parts kit. If parts were damaged in shipment, notify Rice Lake Weighing Systems and the shipper immediately.
2.1.1 Product Dimensions
This section includes exterior product dimensions of the 682 enclosure and universal stand.

RICE LAKE 682 Synergy Plus Digital Weight Indicator -
Dimensions

A B C D E F G H
11.6 in (294.7 mm) 9.5 in (241.3 mm) 10.0 in (254.0 mm) 6.0 in (152.4 mm)
8.6 in (218.5 mm) 3.5 in (88.9 mm) 4.0 in (101.6 mm) 4.5 in (114.3 mm)

2.2 Mounting Instructions
The 682 includes a universal mount stand. The stand can be mounted on a wall, tabletop or a flat surface.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Dimensions
2

A B C D E F G H
6.0 in (152.4 mm) 3.01 in (76.5 mm) 2.01 in (51.1 mm) Ø 1.5 in (38.1 mm)
3.0 in (76.2 mm) 1.51 in (38.4 mm) 0.37 in (9.4 mm) Ø 0.28 in (7.1 mm)

NOTE: The universal mount stand comes attached to the 682. Rice Lake Weighing Systems recommends removing the 682 from the stand prior to mounting.

  1. Using the mount as a template, mark the screw locations.
  2. Drill holes for the screws.
  3. Secure the universal mount using the appropriate 1/4-inch or M6 hardware (not included).
  4. Reattach the 682 to the universal mount stand.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Dimensions
3

NOTE: The parts kit includes rubber grommets to insert into the four screw holes of the universal mount stand for a non-mounted application.
2.3 Backplate Removal
Remove the backplate of the 682 to connect cables and gain access to the 682 board and power supply.
WARNING: Before opening the unit, ensure the power cord is disconnected from the power outlet.

  1. Place the 682 facedown on an anti-static work mat.
  2. Remove the screws holding the backplate to the enclosure.
  3. Lift the backplate away from the enclosure and disconnect the ground wire from the backplate.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Backplate
Removal

NOTE: The 682 ships with only four screws securing the backplate. The remaining backplate screws are included in the parts kit. For reassembly, torque backplate screws to 12 in-lb (1.4 N-m).
2.4 Torque Ratings
Refer to Table 2-3 throughout installation and use of product to maintain proper torque ratings for 682 components.

Component Torque Rating
Backplate Screw 12 in-lb (1.4 N-m)
Setup Screw 10 in-lb (1.1 N-m)
Power Supply Bracket 4 in-lb (0.46 N-m)
Cord Grip Nut (to enclosure) 33 in-lb (3.7 N-m)
Cord Grip Dome Nut (around cable) 22 in-lb (2.5 N-m)
Optional RJ45 Panel Nut 20 in-lb (2.3 N-m)

Table 2-3. Component Torque Ratings
2.5 Cable Connections
The 682 provides five cord grips at the bottom of the enclosure for cabling into the indicator. One of the cord grips is used for the power supply and the other four are used to accommodate the load cell cable and the serial, digital inputs and outputs, Ethernet, micro USB or the optional analog output communications cables. A version of the 682 with an external RJ45 connector and cap is available. Cable plugs are included in the parts kit and must be installed in open cord grips to prevent moisture from entering the enclosure. Use the attached cap to seal the optional RJ45 connector when not in use. See the following sections to install cables as required for the application. The recommended cable strip length is 0.25 in (7 mm) for all 682 connectors. See Figure 2-5 for the recommended assignments for the 682 cord grips.
IMPORTANT: Prohibit open/bare wires outside of enclosure. Ensure stripped portion of cables are entirely inside cord grips.
Properly seal cord grips to prevent moisture damage inside of the enclosure. Cable plugs must be installed in unused cord grips. Cord grip dome nuts, around a cable or a plug, must be torqued to 22 in-lb (2.5 N-m). The cord grip nut against the enclosure must be torqued to 33 in-lb (3.7 N-m).
WARNING: Only connect unit to equipment certified to IEC 60950, IEC 62368, IEC 61010 or similar.

RICE LAKE 682 Synergy Plus Digital Weight Indicator -
equipment

NOTE: The recommended cable strip length is 0.25 in (7 mm) for all 682 connectors.
2.5.1 Cable Diameter Ranges
Refer to Table 2-4 for minimum and maximum cable diameter sizes for use with the 682 cord grips.

Cord Grip Diameter Range
PG-9 (PN 15626) 0.138 – 0.315 in (3.5 – 8 mm)
PG-11 (PN 68600) 0.197 – 0.394 in (5 – 10 mm)

Table 2-4. Cord Grip Cable Diameter Ranges
2.5.2 Cable Shield Grounding
Except for the power cord, all cables routed through the cord grips must be shield grounded against the enclosure.

  • Use hardware provided in parts kit to install shielding clamps on the grounding bracket at the bottom of the enclosure.
  • Install only the necessary amount of shielding clamps for the cord grips to be used.
  • Remove the insulated jackets and shielding per the following instructions.

Shielding Procedure

  1. Install the shielding clamps on the grounding rail using the clamp screws. Finger tighten the screws at this time.
  2. Route the cables through the cord grips and the shielding clamps to determine the cable lengths required to reach the appropriate cable connectors.
  3. Mark cables to remove the insulated jacket as described below for Foil Shielded Cables and Braid Shielded Cables.

Foil Shielded Cables
Use the following procedure to shield ground foil shielded cables.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - shielded
cables

  1. Strip the insulated jacket and foil 1/2 in (15 mm) past the shielding clamp.
  2. Strip another 1/2 in (15 mm) of the insulated jacket, leaving the foil shielding exposed.
  3. Fold the foil shielding back on the cable where the cable passes through the clamp.
  4. Ensure the silver (conductive) side of the foil is turned outward.
  5. Wrap the shield wire around the cable, ensuring it contacts the foil where the cable passes through the clamp.
  6. Torque shielding clamp screw to 10 in-lb (1.1 N-m), ensuring clamp is around the cable and contacting the shield wire.

Braid Shielded Cables
Use the following procedure to shield ground braid shielded cables.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Braid Shielded
Cable

  1. Strip the insulated jacket and braided shielding from a point just past the shielding clamp.
  2. Strip another 1/2 in (15 mm) of the insulated jacket, leaving braid exposed where the cable passes through the clamp.
  3. Torque shielding clamp screw to 10 in-lb (1.1 N-m), ensuring the clamp is contacting the braided shielding of the cable.

2.5.3 AC Power Cable
AC versions of the 682 are shipped with the AC power cable already installed.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - AC Power
Cable

NOTE: The AC power cable is grounded to the threaded grounding hole on the back panel of the enclosure between the cord grip and the power supply connections rather than using Pin 3. This is a UL requirement.

Pin Description Wire Color Cable Part No.
1 120 VAC (Line In) Brown or Black 180842
2 AC Neutral Blue or White
3 Ground N/C or Green/Yellow
4 DC Out (-V) Black 199514
5 DC Out (+V) Red

Table 2-5. AC Power Supply Pin Assignments

NOTE: Colors may vary depending on manufacturer of AC power cable. Utilize testing procedures to ensure proper installation.
2.5.4 DC Power Cable
DC models of the 682 do not include a power supply cable. Use the following steps to ground and connect a DC power cable.

  1. Insert a 3-wire power cable (not included) into the enclosure through the power cable cord grip (Section 2.5 on page 14).
    NOTE: The recommended wire gauge range for the power supply cable is 8-18 AWG. The recommended cable strip length is 0.25 in (7 mm) for all 682 connectors. See Section 2.4 on page 13 for proper torque ratings for the power cable cord grip and Section 2.5.1 on page 14 for the allowed cable diameter range.

  2. Connect the three wires of the power cable to the DC power supply board input screw terminal (I/P). See Table 2-6 for the input terminal (I/P) pin assignments.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - DC Power
Cable

Connector Pin Function
Input Terminal (I/P) 1 DC Input V+
2 DC Input V-
3 Ground    (FG)
Connector Pin Function
--- --- ---
Output Terminal (O/P) 1 DC Output V-
2 DC Output V+

Pre-installed wiring connects power supply board to CPU board.

Table 2-6. DC Power Pin Assignments
IMPORTANT: A 3-wire power cable is required and the ground wire must be connected to the specified pin assignment on the DC power supply board.
2.5.5 Load Cell Cables
To attach the cable from a load cell or junction box, route cable to the J1 connector (Section 2.6 on page 21). Connector for the cable is included in the parts kit. See Table 2-7 for wiring the load cell cable from the load cell or junction box to connector.
A snap-on ferrite core from the parts kit must be applied to the load cell cable within 1 in (25 mm) of the load cell or within 1 in (25 mm) of the junction box on the homerun cable. The cable must be sent through the ferrite core twice.

Connector Pin Function
J1 1 +SIG
2 –SIG
3 +SENSE
4 –SENSE
5 +EXC
6 –EXC

IMPORTANT: For 4-wire connections on Rev J2 CPU boards, short pin 3 to 5 and pin 4 to 6.

Table 2-7. J1 Pin Assignments (Load Cell)
NOTE: The Sense parameter is set to 4-wire by default and must be configured to match the load cell cable to function properly.
For a 4-wire installation leave pins 3 and 4 empty on the connector.
For a 6-wire installation set the Sense parameter to 6-WIRE in the Configuration menu (Section 4.5.1 on page 42).
2.5.6 RS-232 Serial Communications
The J3 connector (Section 2.6 on page 21) provides a connection point for RS-232 serial communications. Two RS-232 ports are available. See Table 2-8 for the pin assignments for the J3 connector.

Connector Pin RS-232 Port 1 RS-232 Port 2
J3 1 GND
2 RX1
3 TX1
4 GND
5 RX2
6 TX2

Table 2-8. J3 Pin Assignments (RS-232)
2.5.7 RS-485/422 Serial Communications
The J4 connector (Section 2.6 on page 21) provides a connection point for RS-485/422 serial communications. Both full duplex (four-wire) and half duplex (two-wire) are supported through the J4 connector. See Table 2-9 for the pin assignments for the J4 connector.

Connector Pin 4-Wire (Full Duplex) 2-Wire (Half Duplex)
J4 1 GND GND
2 A
3 B
4 Y Y
5 Z Z

Table 2-9. J4 Pin Assignments (RS-485/422)
The Duplex parameter in the Serial menu (Section 4.5.4.1 on page 46) defaults to FULL and must be set to HALF for half duplex applications.
2.5.8 Digital I/O
The Digital I/O port, J5 connector (Section 2.6 on page 21), provides a connection to both digital inputs and outputs.
Digital inputs can be set to provide many functions, including most keypad functions except MENU, numeric keypad and softkeys. Digital inputs are active low (0 VDC) and inactive high (5 VDC). Use the Digital I/O menu to configure the digital inputs.
Digital outputs are used to control relays which drive other equipment. Outputs are designed to sink, rather than source current.
Each output is an open collector circuit, capable of sinking 20 mA when active. Digital outputs are active when low or at 0 VDC, with reference to the 5 VDC supply.
Use the Digital I/O menu to set the function of the Digital I/O pins to OUTPUT and then use the Setpoints menu to configure the digital outputs. See Table 2-10 for the pin assignments for the J5 connector.

Connector Pin Signal
J5 1 5 VDC, 250 mA max
2 GND
3 DIO1
4 DIO2
5 DIO3
6 DIO4

Table 2-10. J5 Pin Assignments (Digital I/O)
2.5.9 Memory Card Slot

The memory card slot, J6 connector (Section 2.6 on page 21), accepts microSD cards and provides storage space for configuration settings (Section 12.3 on page 96) and Truck IDs. The 682 comes with an 8 GB microSD card (PN 164939) and the memory card slot supports up to a 2 TB microSD card.
NOTE: The microSD card only functions with the 682. It is not formatted in FAT32 and will not be recognized by a PC. Ensure indicator firmware versions match before transferring a microSD card from one indicator to another.
2.5.10 Micro USB Device Communications
The Micro USB port, J7 connector (Section 2.6 on page 21), provides a connection point to a PC only. It appears as a Virtual COM Port and is assigned a “COMx” designation. Applications communicate through the port like a standard RS-232 communications port.
The driver must be installed on the PC before the Micro USB device port can be used. With the PC and 682 powered on, connect a USB cable from the PC to the Micro USB connector (J7) on the 682. The PC recognizes if a device has been connected, and attempts to install the driver needed to make it work. The driver can also be downloaded from www.ricelake.com.
NOTE: With a PC connected to the Internet and running Windows 7 or later, the operating system may install the necessary drivers automatically.
When the individual drivers are installed, a new COM Port designation is assigned for each physical USB port the 682 is connected to on the PC.
For example, if the PC has two physical RS-232 COM Ports, they most likely are designated COM1 and COM2. When connecting the 682 to a USB port on the PC, it is assigned the next available port designation, or in this case, COM3. When plugging into the same physical USB port on the PC, the port designation is again COM3. If plugging into another physical USB port on the PC, it is assigned the next available designation, in this case COM4.
After the drivers are installed, use Windows® Device Manager to determine the COM Port designation which was assigned to the USB port, or open an application to be used with the 682, such as Revolution, to see which ports are available.
Configuration of the Micro USB port is done in the USB sub-menu under Communications when in Setup mode.
The port’s input trigger can be configured as either a command port for EDP commands and printing, or as a data streaming port. Other settings include line terminator, end-of-line delay, echo, and response (Section 4.5.4.2 on page 48).
NOTE: If a computer application has an open communications connection through the Micro USB device port and the physical cable connection is interrupted, a soft reset must be performed on the 682 or the power must be cycled to the 682; the connection in the computer application must be disconnected and then reconnected before it continues to communicate with the 682.
NOTE: For the Micro USB device port, it does not matter what the settings are for baud, data bits, parity and stop bits in the computer software. The port communicates in the same way regardless of these settings.
NOTE: This port is not a host port and is not to be connected to other devices such as keyboards, memory sticks or printers.
2.5.11 Ethernet
The 682 features Ethernet TCP/IP 10Base-T/100Base-TX communication using the J8 connector (Section 2.6 on page 21), and can support two simultaneous connections, one as a server, the other as a client. An external RJ45 option is available.
Through an Ethernet network, software applications can communicate with the 682 using the EDP command set (Section 12.0 on page 95), the web server (Section 8.0 on page 73) allows for remote viewing and the use of certain function keys, or data can be streamed continuously from the 682, or printed on demand.
The Ethernet port supports both DHCP and manual configuration of settings such as the IP and netmask. In addition, the TCP Port number and the Default Gateway can be configured using the Ethernet sub-menu under Communications when in Setup mode. For more information on configuring the Ethernet port see Section 4.5.4.3 on page 49.
Physical connection to the 682 Ethernet port can be made directly from a PC to the 682 (AdHoc Network), or through a network router or switch. The port supports auto-sensing MDI/MDIX cable configuration, allowing either straight- through or crossover
cables to be used. See Table 2-11 for the pin assignments for the J8 connector.

Connector|

Pin

| Signal
---|---|---
J8| 1| TX+
2| TX-
3| RX+
4| RX-

Table 2-11. J8 Pin Assignments (Ethernet)
NOTE:
When looking into the enclosure from the backside of the indicator, pin 1 of the J8 connector is at the bottom.
See Table 2-12 and Table 2-13 for the pin assignments when connecting an RJ45 Ethernet cable to the J8 connector.
There are two Ethernet wire standards (T568A and T568B). If the type of cable is unknown, use the wiring option in Table 2-12.
The auto-sensing feature of the Ethernet port allows either of the wiring options to work. Trim the unused wires to get them out of the way.

RJ45 Pin| Wire Color (T568A)| Wire Diagram (T568A)| 10Base-T Signal 100Base-TX Signal| J8 Pin
---|---|---|---|---
1| White/Green| | Transmit+| 1
2| Green| | Transmit-| 2
3| White/Orange| | Receive+| 3
4| Blue| | Unused| NA
5| White/Blue| | Unused| NA
6| Orange| | Receive-| 4
7| White/Brown| | Unused| NA
8| Brown| | Unused| NA

Table 2-12. Ethernet Cable Pin Assignments for T568A

RJ45 Pin| Wire Color (T568B)| Wire Diagram (T568B)| 10Base-T Signal 100Base-TX Signal| J8 Pin
---|---|---|---|---
1| White/Orange| | Transmit+| 1
2| Orange|
| Transmit-| 2
3| White/Green| | Receive+| 3
4| Blue|
| Unused| NA
5| White/Blue| | Unused| NA
6| Green|
| Receive-| 4
7| White/Brown|
| Unused| NA
8| Brown| __| Unused| NA

Table 2-13. Ethernet Cable Pin Assignments for T568B
2.6 CPU Board
This section identifies the locations of the connectors and status LEDs on the 682 CPU board.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - CPU
Board

Connectors

  • Load Cell (J1)
  • RS-232 1-2 (J3)
  • RS-485/422 (J4)
  • Digital I/O (J5)
  • Memory Card Slot (J6) – microSD
  • Digital I/O (J5)
  • Memory Card Slot (J6) – microSD
  • Power (J10)
  • Option Slot (J22/J23)

Status LEDs

  • 3.3V Power (LED1)
  • +5V Power (LED2)
  • -5V Power (LED3)
  • Heartbeat (LED4)
  • Wi-Fi/Bluetooth® Power (LED20)
  • Wi-Fi/Bluetooth® Active (LED21)

2.6.1 Option Card Port
The 682 has a single option card slot which uses the J22 and J23 connectors. Instructions to install, setup or replace an option card are provided with the option card.
2.6.2 Load Cell Compensation Jumper
The load cell compensation jumper, J29 (Section 2.6 on page 21), must be set ON for load cells with balanced bridges and set to OFF for load cells with unbalanced bridges. When OFF, the compensation jumper has the effect of lowering the excitation voltage. Uncompensated unbalanced load cells can cause instability or calibration errors.
Use the following procedure to determine the correct jumper position if the load cell type is unknown.

  1. Disconnect load cell from indicator and use an ohmmeter to measure the following:
    • +EXC to +SIG, +EXC to –SIG
    • –EXC to +SIG, –EXC to –SIG
    NOTE: Measured values between the excitation line and each of the signal lines should be within 2–3 Ω.

  2. If the +EXC measurements are ≥ 5% larger than the –EXC measurements, set the compensation jumper in the OFF position to compensate for the unbalanced load cell.
    If the +EXC measurements are < 5% greater (or are less) than the –EXC measurements, set the jumper in the ON position for the balanced load cell.

2.7 Backplate Attachment
Once work inside of the enclosure is complete, reattach the backplate ground wire to the backplate. Position the backplate over the enclosure and install the ten backplate screws. Use the torque pattern in Figure 2-11 to prevent distorting the backplate gasket. Torque screws to 12 in-lb (1.4 N-m).

NOTE: Torqued screws may become less tight as the gasket is compressed during the torque pattern; a second torque is required using the same pattern and torque value.
2.8 Sealing the Indicator (Optional)
Insert a lead wire seal through three fillister screws. This restricts access of the setup switch, electronics, electrical contacts and Legal for Trade configuration parameters.
NOTE: The audit jumper (J24) must be set to off to require pressing the setup switch for access to configuration parameters. See Section 2.6 on page 21 for the location of the audit jumper on the CPU board.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Sealing the
Indicator

  1. Reposition the two fillister head backplate screws to the lower right and lower right-center screws locations.
  2. Torque the two backplate screws and setup screw as specified in Section 2.4 on page 13.
  3. Navigate the sealing wire through the fillister head screws on the backplate and the fillister head screw at the bottom of the enclosure, as shown in Figure 2-12.
  4. Seal the wire to secure.

2.9 Parts Kit Components

Part No. Description Qty.
15631 Cable tie, 3 inch nylon 4
15650 Mount, cable tie 3/4 inch 2
193230 Screw, machine M4-0.7 x 10 Phillips pan head SST 4
194219 Screw, machine M4-0.7 x 10 Phillips drilled cheese head SST 2
194446 Ferrite core, snap on Fair-Rite 220 ohm 1
19538 Post plug, slotted black plastic stem, 1/4 x 1, seals inside cord grip

3
195993| Connector, 6 position screw terminal pluggable 3.50 mm black| 3
195995| Connector, 4 position screw terminal pluggable 3.50 mm black| 1
195998| Connector, 5 position screw terminal pluggable 3.50 mm black| 1
214338| Screw, machine M4-0.7 x 10 Phillips pan head, zinc with external tooth washer SEMS| 4
42149| Bumper, rubber grommet 0.50 (OD) x 0.281 (ID)| 4
53075| Clamp, ground cable shield, radius 0.078 inch| 4
67550| Clamp, ground cable shield, radius 0.125 inch| 2
75062| Washer, bonded sealing #8 7/16 (0.4375) OD SST| 6
94422| Label, capacity 0.40 x 5.00| 1

Table 2-14. AC and DC Models Parts Kit (PN 194477)
2.10 Replacement Parts

2.10.1 682 AC Models

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Replacement
Parts

Ref# Part# Description
1 190231 Enclosure, 682 Plus indicator LCD display
2 190232 Overlay, 682 Plus membrane switch with numeric keys
3 68600 Cord grip, PG-11
4 68599 Seal ring, PG-11
5 68601 Nut, PG-11, Black nylon
6 15626 Cord grip, PG-9, plastic
7 30375 Seal ring, PG-9 nylon
8 15627 Lock nut, PG-9, plastic
9 202248 Display, 5-inch LCD, 500 NIT, 800 X 480
10 199474 Machine screw M3-0.5 X 5 Phillips head, zinc SEMS with external

tooth washer
11| 211701| CPU board assembly XJUI CBUUFSZ BOE NFNPSZ DBSE JOTUBMMFE, ROHS
12| 71408| Battery, CR2032 3V lithium
13| 164939| Memory, 8G NicroSDHC Class 4
14| 206442| Machine screw, M3-0.5 x 10 Phillips head, zinc SEMS with external tooth washer
15| 193108| Setup switch assembly
16| 15650| Mount, cable tie, 3/4 inch
17| 15631| Cable tie, 3 inch nylon
18| 192439| Bracket, power supply
19| 193281| Power supply, 12V, 15W
20| 16892| Label, ground protective earth IEC
21| 15601| Ground wire, 6 inch w/ no. 8 eye connector
22| 180856| Washer, M4 internal tooth
23| 214338| Machine screw, M4-0.7 x 10 Phillips head, zinc SEMS with external tooth washer
24| 180826| Nut, KEP M4 x 0.7 external tooth lock washer
25| 193337| Cable assembly, power harness, 2 position, flying lead
26| 206509| Antenna, 2.4/5 GHz strip RF, PCB trace 100 mm cable
27| 206510| Antenna, 2.4/5 GHz strip RF, PCB trace 200 mm cable
28| 207345| Overlay, 682 antenna cover black
29| 192562| Backplate with GORE vent hole
30| 84388| Gasket, backplate
31| 88733| Vent, breather sealed Gortex membrane
32| 88734| Nut, breather vent M12 x 1 thread
33| 46381| Washer, bonded sealing SST #10 x 0.50 OD
34| 180861| Machine screw, M5 x 0.8 x 10 mm slotted drilled cheese head
35| 193230| Machine screw, M4 x 0.7 x 10 Phillips pan head
36| 75062| Washer, bonded sealing #8, 7/16 OD
37| 29635| Tilt stand, SST
38| 103988| Washer, nylon 0.515 – 0.52
39| 180825| Knob, M6 x 1 threaded, 32-mm diameter
40| 53307| Label, 4.0 x 2.875
41| 53308| Label, 1.25 x 1.25 8000T
42| 180842| Power cord assembly, N&MA 5-15
180850| Power cord assembly, Europe CEE7/7
196900| Power cord assembly, UK plug BS1363, pigtail w/ring terminal
196901| Power cord assembly, Australia/New Zealand 3112 plug, pigtail w/ring terminal
Additional Parts Specific to 682 Indicator with RJ45 Option
43| 198676| Backplate with GORE vent hole, RJ45 option
NOTE: Replaces 192562 in RJ45 option
44| 200296| RJ45 cable assembly, RJ45 bulkhead to four position 3.50 mm spacing connector
45| 180856| Washer, M4 internal tooth
46| 180826| Nut, KEP M4 x 0.7 external tooth lock washer

Table 2-15. 682 AC Models Replacement Parts List
2.10.2 682 DC Models![RICE LAKE 682 Synergy Plus Digital Weight Indicator

Ref# Part# Description
1 190231 Enclosure, 682 Plus indicator LCD display
2 192439 Bracket, power supply
3 199474 Machine screw M3-0.5 X 5 Phillips head, zinc SEMS with

external tooth washer
4| 202248| Display, 5-inch LCD, 500 NIT, 800 X 480
5| 84388| Gasket, backplate
6| 190232| Overlay, 682 Plus membrane switch with numeric keys
7| 29635| Tilt stand, SST
8| 103988| Washer, nylon 0.515 – 0.52
9| 180825| Knob, M6 x 1 threaded, 32-mm diameter
10| 211701| CPU board assembly with battery and memory card installed, ROHS
11| 71408| Battery, CR2032 3V lithium
12| 207345| Overlay, 682 antenna cover black
13| 211928| Backplate,682 DC with Gore vent hole
14| 30375| Seal ring, PG-9
15| 68599| Seal ring, PG-11
16| 15626| Cord grip, PG-9
17| 68600| Cord grip, PG-11
18| 15627| Lock nut, PG-9
19| 68601| Lock nut, PG-11
20| 193108| Setup switch assembly
21| 193337| Cable assembly, power harness, 2 position, flying lead
22| 46381| Washer, bonded sealing SST #10 x 0.50 OD
23| 75062| Washer, bonded sealing #8, 7/16 OD
24| 180861| Machine screw, M5 x 0.8 x 10 mm slotted drilled cheese head
25| 88733| Vent, breather sealed Vortex membrane
26| 88734| Nut, breather vent M12 x 1 thread
27| 206442| Machine screw, M3-0.5 x 10 Phillips head, zinc SEMS with external tooth washer
28| 214338| Machine screw, M4-0.7 x 10 Phillips head, zinc SEMS with external tooth washer
29| 193230| Machine screw, M4 x 0.7 x 10 Phillips pan head
30| 206510| Antenna, 2.4/5 GHz strip RF, PCB trace 200 mm cable
31| 206509| Antenna, 2.4/5 GHz strip RF, PCB trace 100 mm cable
32| 15601| Ground wire, 6 inch w/ no. 8 eye connector
33| 180856| Washer, M4 internal tooth
34| 180826| Nut, KEP M4 x 0.7 external tooth lock washer
35| 16892| Label, ground protective earth IEC
127(: &XUUHQW FDVHV KDYH D JURXQG V\PERO HQJUDYHG RQ WKH EDFNSODFH iQVWHDG RI D GHFDO.
36| 53307| Label, 4.0 x 2.875
37| 53308| Label, 1.25 x 1.25 8000T
38| 15650| Mount, cable tie, 3/4 inch
39| 15631| Cable tie, 3 inch nylon
40| 164939| Memory, 8G Nicro SDHC Class 4
41| 209417| Power supply, DC/DC +12V, 9-36VDC input 30 watt
42| 202064| Spacer, round nylon M3x0.250 OD x 0.260
43| 202061| Nut, M3x0.5 hex KEP SST

Table 2-16. 682 DC Models Replacement Parts List

Operation

The front panel consists of a full color LCD display with 0.5-in (12.7-mm) tall weight digits. The front panel also includes 24 flat membrane panel, tactile feel buttons, which include six primary scale function buttons, a numeric keypad, five configurable softkeys and a power button. The message area of the display can hold up to three lines of text, which can include process, error or system messages.
3.1 Front Panel
This section provides an example of the 682 front panel and describes all the buttons and their functions.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Front
Panel

Figure 3-1. Front Panel Example

Button Function
Turns the unit ON/OFF:

If ON, press and hold for eight seconds to turn unit OFF
If OFF, press and hold for two seconds to turn unit ON
| The Menu button is used to access User mode. See Section 4.1.1 on page 39 for more information on setting up the Menu button to access Setup mode parameters.
| Sets the current gross weight to zero, provided the amount of weight to be removed or added is within the specified zero range and the scale is not in motion. The zero band is defaulted to 1.9% of full scale, but can be configured for up to 100% of full scale. Also used as the up button to navigate menus.
| Switches the weight display to an alternate unit. The alternate unit is defined in the Configuration menu, and could be kg, g, lb, oz, TN or t. Also used as the left button to navigate menus or to toggle to another digit when editing a value.
| Sends on-demand print format out the configured port, provided the conditions for standstill are met. RS-232 Port 1 (RS232-1) is the default print port. Also used as the right button to navigate menus or to toggle to another digit when editing a value.
| Performs one of several predetermined tare functions dependent on the mode of operation selected in the TARE FN parameter. Also acts as an enter button for numeric or parameter entry.
| Switches the display mode from gross to net, or from net to gross. If a tare value has been entered or acquired, the net value is the gross weight minus the tare. Used as the down button to navigate menus.
| Clears current value in a numeric entry or clears the currently selected digit in an alphanumeric entry.
| Configurable softkeys that can be set to perform a variety of functions. See Section 3.4.19 on page 37 to configure softkeys. Also used to select the bottom row of keyboard options located above the softkeys.

Table 3-1. Front Panel Buttons and Descriptions
3.2 Status Annunciators

The 682 display uses status annunciators to provide additional information about the value being displayed.

Item Description
GROSS Gross displays at the left side of the numeric weight area when

indicator is in gross weight display mode.
NET| Net displays at the left side of the numeric weight area when indicator is in net weight display mode.
| The center of zero annunciator indicates the current gross weight reading is within ± 0.25 display divisions of the acquired zero, or is within the center of zero band. A display division is the resolution of the displayed weight value, or the smallest incremental increase or decrease which can be displayed or printed.
| The standstill annunciator indicates the scale is at standstill or within the specified motion band. Some operations, including zero, tare and print, can only be done when the standstill annunciator is displayed.
Units| The current unit displays at the right side of the numeric weight area and specifies which unit of measure is being used.
T| Tare (T) annunciator indicates a push-button tare weight has been acquired and stored in memory.
PT| Preset Tare (PT) annunciator indicates a preset tare weight has been keyed in or entered and stored in memory.
| Wi-Fi annunciator displays at the top right of the display when the Enabled parameter in the WiFi & Bluetooth menu (Section 4.5.4.4 on page 50) is set to WiFi or Both.
| Bluetooth® annunciator displays at the top right of the display when the Enabled parameter in the WiFi & Bluetooth menu (Section 4.5.4.4 on page 50) is set to Bluetooth or Both.

Table 3-2. Display Status Annunciators
3.3 General Navigation
The front panel scale function buttons are also used to navigate through the menu structure.

  • and move left and right (horizontally) in a menu level
  • and move up and down to different menu levels
  • enters a menu or parameter and selects/saves highlighted parameter settings or values
  • exits a parameter and selects/saves highlighted parameter settings or values
  • to access User mode, to leave a parameter without making changes, or to return to Weigh mode
  • Use the numeric keypad to enter a value and press to accept the value (Section 3.3.1)

3.3.1 Numeric Value Entry
Several parameters in the menu structure require the entry of a numeric value rather than the making of a selection.
Follow this procedure to enter a numeric value:

  1. Press or to enter into a parameter. The current parameter value displays.
  2. Press to clear the current value.
  3. Use the numeric keypad to enter a new value.
  4. If necessary, press to toggle the value between negative and positive.
  5. Press to save the new value. The next parameter in the menu displays.
    NOTE: Pressing also saves the new value, but the indicator returns up to the current parameter, rather than to the next parameter in the menu.

3.3.2 Alphanumeric Entry
Several parameters in the menu structure require the entry of an alphanumeric value rather than the making of a selection.
When these parameters are entered a full keyboard appears on the display. The front panel scale function buttons are used to navigate the keyboard and select alphanumeric options. The softkeys are used to interact with keyboard options.

  • and move left and right (horizontally) on the keyboard

  • and move up and down (vertically) on the keyboard

  • selects the keyboard option that is highlighted and adds it to the alphanumeric string at the top of the display
    1# – Changes keyboard view to numbers and special characters abc/ABC – Capitalize or lowercase keyboard letters; also switches keyboard view from numbers back to letters
    – Deletes individual digit in the alphanumeric string
    – Return key is not used for the 682

  • selects the keyboard option located above the softkey
    Cancel – Exits back to menu without saving changes
    Save – Save changes and exits back to menu
    – Moves cursor left and right within the alphanumeric string
    – Inserts a space into the alphanumeric string

  • deletes the entire alphanumeric string

  • leaves the parameter without saving the changes

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Parameter
Name

3.4 General Indicator Operation
This section provides procedures for basic 682 operations.
3.4.1 Zero Scale

  1. In Gross mode, remove all weight from the scale and wait for to display.
  2. Press , displays to indicate the scale is zeroed.

NOTE: The scale must be stable and within the configured zero range for the scale to be zeroed.
3.4.2 Print Ticket

  1. Wait for to display.
  2. Press to send data to the configured port(s). The default print destination is RS-232 Port 1.

If does not display and is pressed, the print action only occurs if the scale comes out of motion within three seconds. If the scale stays in motion for over three seconds, the press is ignored.
NOTE: Auxiliary Format 1-4 can be printed using softkeys (Section 3.4.19 on page 37) or by pressing the corresponding format number on the numeric keypad, followed by the PRINT key. For example, to print Auxiliary Format 2, press the 2 key, followed by the PRINT key.
3.4.3 Toggle Units
Press to toggle between primary, secondary and tertiary units, if configured. The current unit displays.
3.4.4 Toggle Gross/Net Mode
NET mode is available when a tare value has been entered or acquired (Net = Gross minus Tare). If tare has not been entered or acquired, the display remains in GROSS mode. GROSS or NET is indicated on the left side of the display to indicate the current mode. If a tare has been applied, the current tare weight displays in the lower middle of the weight display area.
Press to toggle the display mode between GROSS mode and NET mode.
3.4.5 Acquire Tare

  1. Place a container on the scale and wait for to display.
  2. Press to acquire the tare weight of the container. The net weight displays and the Net is indicated on the left side of the display. A “T” displays in the lower middle of the weight display area, followed by the current Tare weight.

3.4.6 Remove Stored Tare Value

  1. Remove all weight from the scale and wait for to display. The display reads the negative tare value and displays.
    NOTE: Press to zero the scale, if is not displayed.

  2. Press (or in OIML mode). Display changes to gross weight and Gross is indicated on the display.

3.4.7 Preset Tare (Keyed Tare)
Tare Function (Section 4.5.1 on page 42) must be set to Keyed Tare or Both for the preset tare feature to function.

  1. Remove all weight from the scale and wait for and to display.
  2. With the scale displaying zero weight, use the numeric keypad to enter the tare weight value and press .
  3. The display changes to net weight and Net is indicated on the display. A “PT” displays in the lower middle of the weight display area, followed by the current Preset Tare weight.

NOTE: Press again while displays, or enter a keyed tare of zero to remove the preset tare value.
3.4.8 Display a Stored Tare

  1. Press . Audit displays.
  2. Press or until Tare displays.
  3. Press . Display Tare displays.
  4. Press . The stored tare value displays.
  5. Press twice to return to Weigh mode.

NOTE: If there is not a tare in the system, the value displayed is zero.
3.4.9 Clear a Stored Tare

  1. Press . Audit displays.
  2. Press or until Tare displays.
  3. Press . Display Tare displays.
  4. Press . Clear Tare displays.
  5. Press or to clear the stored tare value. OK displays.
  6. Press twice to return to Weigh mode.

3.4.10 View Audit Trail Counters
The audit trail calibration and configuration counters can be viewed in User mode.

  1. Press . Audit displays.
  2. Press . Legally Relevant Version displays.
  3. Press . Calibration Counter displays.
  4. Press . The audit trail calibration counter number displays.
  5. Press . Calibration Counter displays.
  6. Press . Configuration Counter displays.
  7. Press . The audit trail configuration counter number displays.
  8. Press twice to return to Weigh mode.

3.4.11 View Legally Relevant Version

  1. Press . Audit displays.
  2. Press . Legally Relevant Version displays.
  3. Press . The current version number displays.
  4. Press twice to return to Weigh mode.

3.4.12 Display Accumulator

  1. Press . Audit displays.
  2.  Press . User displays.
  3. Press . Setpoint displays.
  4. Press or until Accumulator displays.
  5. Press . Display Accumulator displays.
  6. Press . The accumulator value displays.
  7. Press twice to return to Weigh mode.

3.4.13 Print Accumulator

  1. Press . Audit displays.
  2. Press . User displays.
  3. Press . Setpoint displays.
  4. Press or until Accumulator displays.
  5. Press . Display Accumulator displays.
  6. Press . Print Accumulator displays.
  7. Press or to print the accumulator value. OK displays.
  8. Press twice to return to Weigh mode.

3.4.14 Clear Accumulator

  1. Press . Audit displays.
  2. Press . User displays.
  3. Press . Setpoint displays.
  4. Press or until Accumulator displays.
  5. Press . Display Accumulator displays.
  6. Press . Clear Accumulator displays.
  7. Press or to clear the accumulator value. OK displays.
  8. Press twice to return to Weigh mode.

3.4.15 View and Edit Time Value
To view and edit the current time:

  1. Press . Audit displays.

  2. Press . User displays.

  3. Press . Setpoint displays.

  4. Press or until Time displays.

  5. Press to view the current set time.RICE LAKE 682 Synergy Plus Digital Weight Indicator - current set timeb

  6. To edit the time value use the following method:
    • and to move left and right through the time settings
    • and to edit the currently highlighted time setting number
    • Use available softkeys:
    ◦ Cancel – Exit without saving
    ◦ Date – Switch to view date value
    ◦ Done – Save and exit time value

  7. Once back to the menu, press to return to Weigh mode.

NOTE: Time is backed up by the internal battery and is not lost if the main power is interrupted. See Section 4.5.5 on page 52 for time formatting options.
3.4.16 View and Edit Date Value
To view and edit the current date:

  1. Press . Audit displays.

  2. Press . User displays.

  3. Press . Setpoint displays.

  4. Press or until Date displays.

  5. Press to view the current set date.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Selection Box

  6. To edit the date value use the following method:
    • and to move left and right through the date settings
    • and to edit the currently highlighted date setting number
    • Use available softkeys:
    ◦ Cancel – Exit without saving
    ◦ Time – Switch to view time value
    ◦ Done – Save and exit date value

  7. Once back to the menu, press to return to Weigh mode.

NOTE: Date is backed up by the internal battery and is not lost if the main power is interrupted. See Section 4.5.5 on page 52 for date formatting options.
3.4.17 Ethernet, Wi-Fi and Bluetooth® MAC IDs
The Ethernet MAC ID, Wi-Fi MAC ID and Bluetooth® MAC ID can be viewed through the top-level menu (Section 4.2 on page 40). MAC addresses display in the following format: 88:88:88:88:88:88.

  1. Press . Audit displays.
  2. Press or until MAC ID displays.
  3. Press . Ethernet MAC ID displays.
  4. Press to view the Ethernet MAC ID.
  5. Press . WiFi MAC ID displays.
  6.  Press to view the Wi-Fi MAC ID.
  7. Press . Bluetooth MAC ID displays.
  8. Press to view the Bluetooth® MAC ID.
  9. Press twice to return to Weigh mode.

3.4.18 View Configured Setpoint Values
See Section 14.0 on page 111 more information.

  1. Press . Audit displays.

  2. Press . User displays.

  3. Press . Setpoint displays.

  4. Press . The lowest configured setpoint number displays (e.g. Setpoint 1).

  5. Press or to navigate to the desired setpoint number (1-8).
    NOTE: Only configured setpoint numbers display. See Section 4.5.8 on page 58 for the complete setpoint menu.

  6. Press . Value displays.

  7. Press again to view the current configured setpoint value.
    NOTE: Displayed setpoints are editable by default, since Access defaults to On. Change Access settings if Setpoint value needs to be read only (Access = Off) or hidden (Access = Hidden).

  8. To edit the setpoint value use the following method:
    • Press to clear the current value
    • Use the numeric keypad to enter the new value
    • Press to accept the new value once correct

  9. Press to return to Weigh mode.

3.4.19 Configure Softkeys
Up to 15 softkeys can be configured to perform a variety of functions. See Section 4.5.11 on page 63 for softkey configuration
and softkey descriptions. Configuring softkeys requires access to Setup mode (Section 4.1 on page 39).

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.

  2. Press or until Softkey displays.

  3. Press . Softkey 1 displays.

  4. Press or to navigate to the desired softkey number (1-15).

  5. Press . The current softkey setting is highlighted.

  6. Press or to navigate to the desired softkey setting, if necessary.

  7. Press to accept the highlighted softkey setting.

  8. Repeat steps for all needed softkeys.
    NOTE: If 6 or more softkeys are enabled, left and right arrows appear in the outside softkey locations to allow navigation between available softkeys.

  9. Press to return to Weigh mode.

3.4.20 Alibi Storage
Alibi storage is a database of past print transactions listed by date. It allows previous print transactions to be recalled and reprinted. Alibi storage is enabled in the Program menu (Section 4.5.5 on page 52) while the indicator is in Setup mode. Print transactions can be viewed from the front panel of the 682 by configuring a softkey (Section 3.4.19) to Alibi. Pressing the Alibi softkey displays the Alibi Storage screen.
Alibi storage is saved in the board’s flash memory (no external memory is required) and data is validated with a cyclic redundancy check (CRC). There is space for 128 KB of data or 2000 print transactions. If the space limit is hit, the first 4 KB of print transactions are deleted to free up space.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Storage
Screen

Alibi Storage Softkeys

  • Page Up – Returns to the previous five print transactions
  • Page Down – Advances to the next five print transactions
  • Reprint – Prints the selected print transaction
  • Purge Oldest – Deletes the oldest 4 KB of print transactions
  • Cancel – Exits the Alibi Storage screen and returns to Weigh mode

3.4.21 Enter New Unit ID
Entering a new Unit ID requires access to Setup mode (Section 4.1 on page 39).

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.
  2. Press or until Program displays.
  3. Press . Power Up Mode displays.
  4. Press or until Unit ID displays.
  5. Press . The current unit ID value displays with the on-screen keyboard.
  6. Edit the value using the alphanumeric entry procedure (Section 3.3.2 on page 30).
  7. Press Cancel softkey to exit without saving.
    – Or Press Save softkey to save and exit when the value is correct. Once back to the menu, press to return to Weigh mode.

3.4.22 Passwords
The User and Setup menus and can be password protected. See Section 1.3 on page 10 for a description of the User and Setup modes and what menus are included in each. Use the follow procedure to configure passwords:

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.

  2. Press or until Program displays.

  3. Press . Power Up Mode displays.

  4. Press or until Password displays.

  5. Press . User displays.

  6. Press or to navigate to the desired password.

  7. Press . The current password displays with the on-screen keyboard.

  8. Edit the value using the alphanumeric entry procedure (Section 3.3.2 on page 30).

  9. Press Cancel softkey to exit without saving.
    – Or Press Save softkey to save and exit when the value is correct.

  10. Once back to the menu, press to return to Weigh mode.

3.4.23 Reset Configuration
Defaulting the 682 configuration requires access to Setup mode (Section 4.1 on page 39).

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.
  2. Press . Default Configuration displays.
  3. Press . No displays.
  4. Press . Yes displays.
  5. Press or to reset the configuration setting. OK displays.
  6. Press twice to return to Weigh mode.

Configuration

There are two types of configuration parameters in the 682, Setup mode parameters (or Legal for Trade configuration) and User mode parameters (or non-legal configuration). Setup mode parameters are accessed by pressing the setup switch (Section 4.1).
User mode parameters are accessed by pressing the menu button and do not require pressing the setup switch. Some User mode parameters can be password protected (Section 3.4.22 on page 38).
The following sections provide graphic representations of the 682 menu structures. Most menu diagrams are accompanied by a table which describes all parameters and parameter values associated with the menu. The factory default setting appears at the top of each column in bold type.
The Audit, User, Tare, MAC ID, Fieldbus Version and Version menus can be accessed by pressing the MENU button. The Audit, Tare, MAC ID, Fieldbus Version and Version menus are read only. The Setpoint (limited), Accumulator, Time and Date menus are available in the User menu and can be password protected (Section 3.4.22 on page 38).
NOTE: The User mode setpoints menu displays the setpoint value of configured setpoints and is accessible with the menu button. Complete configuration of setpoints is available in Setup mode within the Setup menu.
The Setup menu is accessed by pressing the setup switch (Section 4.1) and can also be password protected.
NOTE: All weight related parameters must be configured prior to calibrating the unit.
4.1 Setup Switch
In order to configure the 682, it must be placed in Setup mode with the setup switch or with the audit jumper (Section 4.1.1).
The setup switch is accessed through a small hole on the bottom of the enclosure. Remove the setup switch screw and insert a non-conductive tool into the access hole to press the setup switch.
IMPORTANT: Use caution when inserting the non-conductive tool into the enclosure. Insert the tool about 3/4 in (19 mm), until the switch is engaged. Do not use excessive force which could damage the switch.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Icon
13

When the 682 is placed in Setup mode, the Setup menu is accessed and Configuration displays. See Section 4.5 on page 42 for a detailed breakdown of this menu. Torque the setup switch screw to 10 in-lb (1.1 N-m) when reinserting.
4.1.1 Audit Jumper
The audit jumper (J24) turns Setup mode access through the menu ON and OFF. Access to Setup mode is allowed without pressing the setup switch when the audit jumper is in the ON position. Access to Setup mode requires pressing the setup switch when the audit jumper is in the OFF position. See Section 2.6 on page 21 for the location of the audit jumper on the CPU board.
NOTE: In certain Legal for Trade applications it is necessary to seal the indicator to restrict access to the setup switch (Section 2.8 on page 23). Breaking of the seal terminates the Legal for Trade status of the indicator.
4.2 Main Menu
This section provides a flow chart and descriptions for the 682 top-level Main menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Main
Menu

Menu Description
Audit Displays the legally relevant firmware version and allows access to

view/print audit trail information; see Section 4.3
User| See Section 4.4 on page 41 for menu structure and parameter descriptions of the User menu
Setup| See Section 4.5 on page 42 for menu structure and parameter descriptions of the Setup menu; only accessible by pressing the setup switch, or through the menu if the audit jumper is in the ON position
Tare| Displays and clears stored tare value; see Section 4.6 on page 64
MAC ID| Displays the MAC addresses for Ethernet, Wi-Fi and Bluetooth® (read only)
Fieldbus Version| Displays the connected Fieldbus module’s firmware version (read only); displays V0.00.00 if no Fieldbus module is connected
Version| Displays the installed firmware version number (read only)

Table 4-1. Main Menu Descriptions
4.3 Audit Menu
This section provides a flow chart and descriptions for the Audit menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Audit
Menu

Parameter Description
Legally Relevant Version Legally relevant firmware version number (read only)
Calibration Counter Displays total number of calibration events (read only)
Configuration Counter Displays total number of configuration events (read

only)
Dump Audit| Sends the audit parameters to the configured audit destination ports (Section 4.5.6 on page 55)

Table 4-2. Audit Menu Descriptions

4.4 User Menu
This section provides a flow chart and descriptions for the User menu. The User menu and can be password protected.
See Section 3.4.22 on page 38 for the procedure to set a User menu password.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - User
Menu

Parameter Description
Setpoint Displays the setpoint value of configured setpoints; read only

unless access parameter for the setpoint is set to ON; Setpoint menu is empty if no setpoints are configured; setpoints are fully configurable in the setup menu while the indicator is in Setup mode
Accumulator| Displays, prints and clears accumulated weight value; see Section 4.4.1
Time| Displays the current set time; allows the time to be edited (24-hour) using the navigation keys and softkeys; see Section 3.4.15 on page 34 for editing procedure
Date| Displays the current set date; allows the date to be edited using the navigation keys and softkeys; see Section 3.4.16 on page 35 for editing procedure

Table 4-3. User Menu Descriptions
4.4.1 Accumulator Menu
This section provides a flow chart and descriptions for the Accumulator menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Accumulator
Menu

Parameter Description
Display Accumulator Displays the accumulator value (read only)
Print Accumulator Prints the accumulator value using the Accumulator Format

(ACCFMT) print format to the specified port(s)
Clear Accumulator| Clears the accumulator value

Table 4-4. Accumulator Menu Parameters
4.5 Setup Menu
This section provides a flow chart and descriptions for the Setup menu. The Setup menu and can be password protected. See Section 3.4.22 on page 38 for the procedure to set a Setup menu password.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Setup
Menu

Menu Description
Configuration See Section 4.5.1 for menu structure and parameter descriptions

of the Configuration menu
Scale Format| See Section 4.5.2 on page 44 for menu structure and parameter descriptions of the Scale Format menu
Calibration| See Section 4.5.3 on page 45 for menu structure and parameter descriptions of the Calibration menu
Communications| See Section 4.5.4 on page 46 for menu structure and parameter descriptions of the Communications menu
Program| See Section 4.5.5 on page 52 for menu structure and parameter descriptions of the Program menu
Print Format| See Section 4.5.6 on page 55 for menu structure and parameter descriptions of the Print Format menu
Stream Format| See Section 4.5.7 on page 57 for menu structure and parameter descriptions of the Stream Format menu
Setpoint| See Section 4.5.8 on page 58 for menu structure and parameter descriptions of the Setpoint menu
Digital I/O| See Section 4.5.9 on page 62 for menu structure and parameter descriptions of the Digital I/O menu
Analog Output| See Section 4.5.10 on page 62 for menu structure and parameter descriptions of the Analog Output menu
Softkey| See Section 4.5.11 on page 63 for menu structure and parameter descriptions of the Softkey menu
Default Configuration| See Section 3.4.23 on page 38 for instructions to reset the configuration settings

Table 4-5. Setup Menu Descriptions
4.5.1 Configuration Menu
This section provides a flow chart and descriptions for the Configuration menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Configuration
Menu

Menu Description
Capacity Maximum rated capacity of the scale; Enter value:

0.0000001–9999999.0, 10000.0 (default)
Zero Track Band| Automatically zeros the scale when within the range specified, as long as the input is within the Zero Range (%) and scale is at standstill; When weight is within the zero band, the center of zero annunciator displays; Max legal value depends on local regulations; Specify the zero tracking band in ± display divisions; Enter value: 0.0–100.0, 0.0 (default)
Zero Range (%)| The total amount the scale can be zeroed; Zero range represents a percentage of capacity; The default value of 1.9 represents ±1.9% around the calibrated zero point, for a total range of 3.8%; A value of 0.0 prevents zeroing; Maximum legal value depends on local regulations; Enter value: 0.0–100.0, 1.9 (default)
Menu| Description
---|---
Initial Zero Range (%)| When the indicator is turned on and the weight value is between the ± percent range specified by Calibrated Zero, the indicator automatically zeros off the weight; Enter value: 0.0–100.0, 0.0 (default)
Motion Band| Sets the level, in display divisions, at which scale motion is detected; If motion is not detected for the time defined by Standstill Time, the standstill symbol lights; Some operations, including print, tare and zero, require the scale to be at standstill; Maximum legal value varies depending on local regulations; If this parameter is set to 0, the standstill annunciator is always lit and operations requiring standstill are performed regardless of scale motion; If 0 is selected, Zero Track Band must also be set to 0; Enter value: 0–100, 1 (default)
Overload| Determines the point at which the display blanks and the overload error message displays (^^^^^^^); Maximum legal value varies depending on local regulations; Settings: Full Scale + 2% (default), Full Scale + 1D, Full Scale + 9D, Full Scale
Sample Rate| Selects measurement rate, in samples per second, of the analog- to-digital converter; Lower sample rate values provide greater signal noise immunity; Settings: 6.25HZ, 7.5HZ, 12.5HZ, 15HZ, 25HZ, 30HZ (default), 50HZ, 60HZ, 100HZ, 120HZ
Filter Chain Type| Sets the filter type to be used; Settings:
Av erage Only (default) – Digital Rolling Average Filter (Section 16.7.1 on page 126); Uses Digital Filter Stage 1-3, Digital Filter Sensitivity and Digital Filter Threshold
Adaptive Only – Adaptive Filter (Section 16.7.2 on page 127); Uses Adaptive Filter Sensitivity and Adaptive Filter Threshold
Damping Only – Damping Filter (Section 16.7.3 on page 128); Uses Damping Value
Raw – No filtering
Digital Filter Stage 1-3| Sets the digital filtering rate used to reduce the effects of environmental influences from the immediate area of the scale; Settings indicate the number of A/D conversions per update which are averaged to obtain the displayed reading; a higher number gives a more accurate display by minimizing the effect of a few noisy readings, but slows down the response time of the indicator; Settings: 1, 2, 4 (default), 8, 16, 32, 64, 128, 256
Digital Filter Sensitivity| Specifies the number of consecutive A/D readings which fall outside the Filter Threshold before filtering is suspended;
Settings: 2OUT (default), 4OUT, 8OUT, 16OUT, 32OUT, 64OUT, 128OUT
Digital Filter Threshold| Sets a threshold value, in display divisions; when a number of consecutive A/D readings (Digital Filter Sensitivity) falls outside of this threshold value (when compared to the output of the filter), filtering is suspended and the A/D value is sent straight through the filter; Filtering is not suspended if the threshold is set to NONE; _Settings: NONE (_default), 2D, 5D, 10D, 20D, 50D, 100D, 200D, 250D
Adaptive Filter Sensitivity| Controls the stability and response time of the scale; Settings:
Light (default) – Fastest response to small weight changes, but less stable
Medium – Has a quicker response time than heavy, but more stable than light
Heavy – Results in an output which is more stable but settles slowly; small changes in weight data (a few grads) on the scale base are not seen quickly
Adaptive Filter Threshold| Sets the adaptive filter weight threshold value (in display divisions); a weight change exceeding the threshold resets the filtered values; must be set above the noise disturbances in the system (if set to zero, the filter is disabled);
Enter value: 0–2000, 10 (default)
Damping Value| Sets the damping time constant (in 0.1 sec intervals); Enter value: 1–2560, 10 (default)
Rattle Trap| Enables Rattle Trap filtering; Effective at eliminating vibration effects, environmental influences and mechanical interference from nearby machinery, may increase response time over standard digital filtering; Settings: Off (default), On
Tare Function| Enables or disables push-button and keyed tare; Settings:
Both (default) – Both push button and keyed tares are enabled
No Tare – No tare allowed (gross mode only) Push Button Tare – Push button tares enabled Keyed Tare – Keyed tares enabled
Standstill Time| Specifies the length of time the scale must be out of motion, before the scale is considered to be at standstill (in 0.1 sec intervals); Enter value: 0–600, 10 (default)
Sense| Specifies the type of load cell cable connected to the J1 connector (Section 2.5.5 on page 17); this parameter must be set correctly to match the actual load cell cable connection to ensure the load cell functions properly with the indicator; Settings: 4- WIRE (default), 6-WIRE

Table 4-6. Configuration Menu Descriptions (Continued)
4.5.2 Scale Format Menu
This section provides a flow chart and descriptions for the Scale Format menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Format
Menu

Parameter Description
Primary Scale format and units settings for the Primary format; Sub-

Parameters:
Format – Sets the decimal point and the display divisions for the Primary display weight format;
_Settings: 8888881 (Primary default), 8888882, 8888885, 8888810, 8888820, 8888850, 8888100, 8888200, 8888500, _88.88881, 88.88882, 88.88885, 888.8881, 888.8882, 888.8885, 8888.881, 8888.882, 8888.885, 88888.81, 88888.82, 88888.85, 888888.1, 888888.2, 888888.5
For example, select 8888.885 if a count by of 0.005 is needed or select 8888820 if a count by of 20 is needed (the 8 s serve as placeholders and show a breakdown of how digits will display);
Units – Sets the units type; _Settings: LB (Primary default), KG, OZ, TN, T, G, NONE
_Split Mode – See Section 5.0 on page 65 for more information; Only displays under Primary;
Settings: Off (default), Multi-Range, Multi-Interval
Secondary and Tertiary| Scale format and units settings for the Secondary and Tertiary format; Sub-Parameters:
Format – Sets the decimal point and the display divisions for the Secondary and Tertiary display weight format;
Settings: 8888881, 8888882, 8888885, 8888810, 8888820, 8888850, 8888100, 8888200, 8888500, 88.88881, 88.88882, 88.88885, 888.8881, 888.8882, 888.8885, 8888.881, 8888.882, 8888.885, 88888.81, 88888.82, 88888.85, 888888.1, _888888.2, 888888.5 (Secondary and Tertiary default)
_For example, select 8888.885 if a count by of 0.005 is needed or select 8888820 if a count by of 20 is needed (the 8 s serve as placeholders and show a breakdown of how digits will display); Units – Sets the units type; _Settings: LB, KG (Secondary and Tertiary default), OZ, TN, T, G, NONE _Enabled – Enables the front panel UNITS button to toggle between the Primary, Secondary and Tertiary formats; Only displays under Secondary and Tertiary; Settings: ON (Secondary default), OFF (Tertiary default)
Custom Unit 1-3| Available custom units that can be set as the Secondary and Tertiary units to convert weight of the Primary unit; Sub-Parameters:
Label – Available to enter a name for custom units; maximum length is 2 alphanumeric characters; blank by default Multiplier – Conversion factor/multiplier applied to the primary units to convert weight for custom units; 1.0 (default)
For example, to configure a custom unit to gallons (with primary units set to lb), set the custom unit multiplier to 8

Table 4-7. Scale Format Menu Parameters

4.5.3 Calibration Menu
This section provides a flow chart and descriptions for the Calibration menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Calibration
Menu

Parameter Description
Zero Calibration Executes the zero calibration process (Section 6.1 on page
  1. Zero Counts| Displays the raw count value at the zero weight; A zero calibration generates this raw count value; Manually changing this count value
    changes the zero weight and negates the zero calibration
    Test Weight| Sets the test weight value for the span calibration (Section 6.1 on page 67); Enter value: 0.000001–9999999.999999, 10000.0 (default)
    Span Calibration| Executes the span calibration process (Section 6.1.1 on page
  2. Span Counts| Displays the raw count value at the span weight; A span calibration generates this raw count value; Manually changing this count value
    changes the span weight and negates the span calibration
    Linear Calibration| Linear or multi-point calibration is performed by entering up to four additional calibration points (Section 6.1.2 on page 68);
    Points 1-4 have the following sub-parameters:
    Linear Point # Weight – Sets the test weight value for the linear calibration point
    Calibrate Linear Point # – Executes the linear calibration process for the point; generates the raw count value for the test weight value for Point #
    Linear Point # Counts – Displays the raw count value at the linear point weight; A linear calibration generates this raw count value; Manually changing this count value changes the linear point weight and negates the linear calibration for the point
    Remeron| Removes an offset value from the zero and span calibrations (Section 6.2.3 on page 68)
    Last Zero| Takes last push button zero in the system (from Weigh mode) and uses it as the new zero reference point, after which a new span
    calibration must be performed; this calibration cannot be performed when calibrating a scale for the first time (Section 6.2.1 on page 68)
    Temp Zero| Temporarily zeros the displayed weight of a non-empty scale, after a span calibration was performed;
    The difference between the temporary zero and the previously calibrated zero value is used as an offset (Section 6.2.2 on page 68)

Table 4-8. Calibration Menu Parameter
4.5.4 Communications Menu
This section provides a flow chart and descriptions for the Communications menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Communications
Menu

Menu Description
Serial Supports RS-232 and RS-485/422 serial communications (Section 4.5.4.1)
USB Intended to be connected to a PC only; appears as a Virtual COM Port and

is assigned a “Commix” designation; Applications communicate through the port like a standard RS-232 communications port (Section 4.5.4.2 on page 48)
Ethernet| Features Ethernet TCP/IP 10Base-T/100Base-TX communication and can support two simultaneous connections, one as a server, the other as a client (Section 4.5.4.3 on page 49)
WiFi & Bluetooth| Supports Wi-Fi and Bluetooth® communications (Section 4.5.4.4 on page 50)
Fieldbus| Supports Fieldbus network protocol communications if Fieldbus module is connected (Section 4.5.4.5 on page 51)

4.5.4.1 Serial Menu
This section provides a flow chart and descriptions for the Serial menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Serial
Menu

Parameter Description
RS-232 Port 1-2 Configurable parameters for RS-232 serial communications

ports; Sub-Parameters:
Trigger – Sets the input trigger type; Settings:
Command (default) – Allows operation of EDP commands and printing
Stream Industrial – Scale data is updated up to configured sample rate; Allows operation of EDP commands and printing
Stream Legal for Trade – Scale data is updated at configured display update rate; Allows operation of EDP commands and printing
Remote – Configures the port to operate as a serial scale input
NOTE: When in STRIND, STRLFT or REMOTE, if the COMM port is set to RS485, the port does not stream data.
Baud – Sets the transmission speed for the port; Settings: 1200, 2400, 4800, 9600 (default), 19200, 28800, 38400,  57600, 115200
Bits – Sets number of data bits transmitted or received by the port and specifies the parity bit to odd, even or none;
_Settings: 8NONE (default), 8EVEN, 8ODD, 7EVEN, 7ODD
_Stop Bits – Sets the number of stop bits transmitted or received by the port; _Settings: 1 (default), 2
_Line Terminator – Sets the termination character for data sent from the port; _Settings: CR/LF (default), CR
_End of Line Delay – Sets the delay period from when a formatted line is terminated to the beginning of the next formatted serial output (0.1-second intervals); _Enter value: 0–255, 0 (default)
_Echo – Specifies if characters received by the port are echoed back to the sending unit; _Settings: On (default), Off
_Response – Specifies if the port transmits replies to serial commands; Settings: On (default), Off

Table 4-10. Serial Menu Parameters

Parameter Description
RS-485 Configurable parameters for RS-485/422 serial communications port;

Sub-Parameters:
Trigger – Sets the input trigger type; Settings:
Command (default) – Allows operation of EDP commands and printing
Stream Industrial – Scale data is updated up to configured sample rate; Allows operation of EDP commands and printing
Stream Legal for Trade – Scale data is updated at configured display update rate; Allows operation of EDP commands and printing
Remote – Configures the port to operate as a serial scale input
Fieldbus – Configures the port to operate for Fieldbus; Automatically configures all port parameters for Fieldbus and hides the port parameters in the menu
NOTE: When in Stream Industrial (STRIND), Stream Legal for Trade (STRLFT) and REMOTE, the port only streams data if the Address is set to 0 (RS-422 mode).
Baud – Sets the transmission speed for the port; Settings: 1200, 2400, 4800, 9600 (default), 19200, 28800, 38400,  57600, 115200
Bits – Sets number of data bits transmitted or received by the port and specifies the parity bit to odd, even or none;
_Settings: 8NONE (default), 8EVEN, 8ODD, 7EVEN, 7ODD
_Stop Bits – Sets the number of stop bits transmitted or received by the port; _Settings: 1 (default), 2
_Line Terminator – Sets the termination character for data sent from the port; _Settings: CR/LF (default), CR
_End of Line Delay – Sets the delay period from when a formatted line is terminated to the beginning of the next formatted serial output (0.1-second intervals); _Enter value: 0–255, 0 (default)
_Echo – Specifies if characters received by the port are echoed back to the sending unit; _Settings: On (default), Off
_Response – Specifies if the port transmits replies to serial commands; _Settings: On (default), Off
_Address – Specifies address used to connect to the port; Must be set to 0 for RS-422; _Enter value: 0–255, 0 (default)
_Duplex – Specifies FULL (4-wire) or HALF (2-wire) duplex used to connect to the port; Settings: FULL (default), HALF
Serial Option Card Port 1-2| Configurable parameters for the serial option card ports; Sub-Parameters:
Port Type – Sets the serial port type; _Settings: RS-232 (default), RS-485
_Trigger – Sets the input trigger type; Settings:
Command (default) – Allows operation of EDP commands and printing
Stream Industrial – Scale data is updated up to configured sample rate; Allows operation of EDP commands and printing
Stream Legal for Trade – Scale data is updated at configured display update rate; Allows operation of EDP commands and printing
Remote – Configures the port to operate as a serial scale input
Fieldbus – Configures the port to operate for Fieldbus; Automatically configures all port parameters for Fieldbus and hides the port parameters in the menu
Baud – Sets the transmission speed for the port; _Settings: 1200, 2400, 4800, 9600 (default), 19200, 28800, 38400, _57600, 115200
Bits – Sets number of data bits transmitted or received by the port and specifies the parity bit to odd, even or none;
_Settings: 8NONE (default), 8EVEN, 8ODD, 7EVEN, 7ODD
_Stop Bits – Sets the number of stop bits transmitted or received by the port; _Settings: 1 (default), 2
_Line Terminator – Sets the termination character for data sent from the port; _Settings: CR/LF (default), CR
_End of Line Delay – Sets the delay period from when a formatted line is terminated to the beginning of the next formatted serial output (0.1-second intervals); _Enter value: 0–255, 0 (default)
_Echo – Specifies if characters received by the port are echoed back to the sending unit; _Settings: On (default), Off
_Response – Specifies if the port transmits replies to serial commands; _Settings: On (default), Off
_Address – Specifies address used to connect to the port (RS-485 only); Must be set to 0 for RS-422;
_Enter value: 0–255, 0 (default)
_Duplex – Specifies FULL (4-wire) or HALF (2-wire) duplex used to connect to the port (RS-485 only);
Settings: FULL (default), HALF

4.5.4.2 USB Menu
This section provides a flow chart and descriptions for the USB menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - USB
Menu

Parameter Description
Trigger Sets the input trigger type; _Settings:

_ Command (default) – Sets input trigger to command; allows operation of EDP commands and can print  Stream Industrial – Scale data is updated up to configured sample rate; allows operation of EDP commands and printing Stream Legal
For Trade
– Scale data is updated at configured display update rate; allows operation of EDP commands and printing
Remote – Configures the port to operate as a serial scale input
Line Terminator| Sets the termination character for data sent from the port; Settings: CR/LF (default), CR
End of Line Delay| Sets the delay period from when a formatted line is terminated to the beginning of the next formatted serial output (0.1-second intervals); Enter value: 0–255, 0 (default)
Echo| Specifies if characters received by the port are echoed back to the sending unit; Settings: On (default), Off
Response| Specifies if the port transmits replies to serial commands; Settings: On (default), Off

Table 4-11. USB Menu Parameters
4.5.4.3 Ethernet Menu
This section provides a flow chart and descriptions for the Ethernet menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Ethernet
Menu Figure 4-13. Ethernet Menu

Parameter Description
Ethernet MAC ID Displays the Ethernet MAC address (read only):

00:00:00:00:00:00
DHCP| Dynamic Host Configuration Protocol (static allocation of IP address when OFF); Settings: On (default), Off
Enabled| Enables Ethernet communications; Settings: Off (default), On
IP Address| IP Address; Enter value: 0.0.0.0 (default)
Subnet| Subnet Mask; Enter value: 255.255.255.0 (default)
Gateway| Default Gateway; Enter value: 0.0.0.0 (default)
Ethernet Server| Allows the 682 to receive external EDP commands; Sub- parameters:
Trigger – Sets the input trigger type; _Settings: Command (default), Stream Industrial, Stream Legal For Trade, Remote _Port – Specifies IP Address port to open to establish communications; Enter value: 1025–65535, 10001 (default) Name – Host name for Ethernet Server; _Enter characters: Alphanumeric entry up to 30 characters, 0 (default)
_Line Terminator – Sets the termination character for data sent from the port; _Settings: CR/LF (default), CR
_Echo – Specifies if characters received by the port are echoed back to the sending unit; _Settings: Off (default), On
_Response – Specifies if the port transmits replies to serial commands; Settings: On (default), Off
Ethernet Client| Allows the 682 to send EDP commands to external devices; Sub-parameters:
Trigger – Sets the input trigger type; _Settings: Command (default), Stream Industrial, Stream Legal For Trade, Remote
_Remote IP Address – Sets the remote IP Address; _Enter value: 0.0.0.0 (default)
_Remote Port – Specifies IP Address port to look for to establish communications; _Enter value: 1025–65535, 10001 (default)
_Line Terminator – Sets the termination character for data sent from the port; _Settings: CR/LF (default), CR
_Echo – Specifies if characters received by the port are echoed back to the sending unit; _Settings: On (default), Off
_Response – Specifies if the port transmits replies to serial commands; _Settings: On (default), Off
_End of Line Delay – Sets the delay period from when a formatted line is terminated to the beginning of the next formatted serial output (0.1-second intervals); _Enter value: 0–255, 0 (default)
_Disconnect Time – Sets the disconnect timeout (in seconds); Enter value: 0–60, 0 (default)
Http Server| Enables the remote HTTP web server (Section 8.0 on page 73); Settings: Off (default), On

Table 4-12. Ethernet Menu Parameters

4.5.4.4 WiFi & Bluetooth Menu
This section provides a flow chart and descriptions for the Wi-Fi and Bluetooth® menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - WiFi & Bluetooth
Menu

Parameter Description
Enabled Enables the wireless module and specifies Wi-Fi and/or Bluetooth®

communication; Settings: OFF (default), WiFi, Bluetooth, Both
Trigger| Sets the input trigger type; Settings: Settings: Command (default), Stream Industrial, Stream Legal For Trade, Remote Command (default) – Sets the input trigger to command; allows operation of EDP commands and can print Stream Industrial – Scale data is updated up to configured sample rate; allows operation of EDP commands and printing
Stream Legal for Trade – Scale data is updated at configured display update rate; allows operation of EDP commands and printing
Remote – Configures the port to operate as a serial scale input
Line Terminator| Sets the termination character for data sent from the port; Settings: CR/LF (default), CR
End of Line Delay| Sets the delay period from when a formatted line is terminated to the beginning of the next formatted serial output (0.1-second intervals); Enter value: 0–255, 0 (default)
Echo| Specifies if characters received by the port are echoed back to the sending unit; Settings: On (default), Off
Response| Specifies if the port transmits replies to serial commands; Settings: On (default), Off

Table 4-13. WiFi & Bluetooth Menu Parameters
4.5.4.5 Fieldbus Menu
This section provides a flow chart and descriptions for the Fieldbus menu. The Fieldbus menu specifies the Network Protocol and associated settings. Fieldbus is enabled in the Serial menu (Section 4.5.4.1 on page 46).

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Fieldbus
Menu

Parameter Description
Network Protocol Enables network protocol; Settings: EtherNet/IP

(default), Modbus, PROFIBUS, PROFINET, CANopen, DeviceNet, EtherCAT
Byte/Word Swap| Enables Byte or Word swap, Both enables Byte and Word; If values are not being returned this parameter could possibly correct it; Settings: None (default), Byte, Word, Both
EtherNet/IP Parameters| Sub-Parameters:
Auto IP – Automatically get network parameters from the network (DHCP); Settings: Off (default), On
IP Address – Hidden if Auto IP is set to On; Enter value: 0.0.0.0 (default) Subnet – Hidden if Auto IP is set to On; Enter value: 255.255.255.0 (default) Gateway – Hidden if Auto IP is set to On; Enter value: 0.0.0.0 (default)
Modbus TCP Parameters| Sub-Parameters:
Auto IP – Automatically get network parameters from the network (DHCP); Settings: Off (default), On
IP Address – Hidden if Auto IP is set to On; Enter value: 0.0.0.0 (default) Subnet – Hidden if Auto IP is set to On; Enter value: 255.255.255.0 (default) Gateway – Hidden if Auto IP is set to On; Enter value: 0.0.0.0 (default)
PROFIBUS Parameters| Sub-Parameters:
Node Address – Enter value: 1-126, 1 (default)
PROFINET Parameters| Sub-Parameters:
Auto IP – Automatically get network parameters from the network (DHCP); Settings: Off (default), On
IP Address – Hidden if Auto IP is set to On; Enter value: 0.0.0.0 (default) Subnet – Hidden if Auto IP is set to On; Enter value: 255.255.255.0 (default) Gateway – Hidden if Auto IP is set to On; Enter value: 0.0.0.0 (default)
CANopen Parameters| Sub-Parameters:
Node Address – Enter value: 1-128, 1 (default)
Node Rate – Settings: 1 MB (default), 10 KB, 20 KB, 50 KB, 100 KB, 125 KB, 250 KB, 500 KB, 800 KB
DeviceNet Parameters| Sub-Parameters:
Node Address – Enter value: 1-64, 1 (default)
Node Rate – Settings: 125 KB, 250 KB, 500 KB (default)
Ether CAT Parameters| Sub-Parameters:
None – No sub-parameters are needed for Ether CAT

Table 4-14. Fieldbus Menu Parameters
4.5.5 Program Menu
This section provides a flow chart and descriptions for the Program menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Program
Menu

Parameter Description
Power Up Mode When the indicator is turned on, it performs a display test,

then enters a warm up period; Settings: GO (default) – Performs display test, then enters Weigh mode after brief warm up period DELAY – Performs display test, then enters a warm up period of 30 seconds
•   If no motion is detected during warm up period, indicator enters Weigh mode when warm up period ends
•   If motion is detected, the 30 second timer is reset and the warm up period is repeated
Language| Specifies the text language for the 682 indicator; Applies to Weigh mode only; _Settings: English (default), Spanish, French, _German, Dutch, Portuguese, Italian
Regulatory Mode| Specifies the regulatory agency having jurisdiction over the scale site; the value specified for this parameter affects the function of the front panel tare and zero keys; _Settings: NTEP (default), OIML, Measurement Canada, Australia, Industrial, None
_OIML, NTEP, Measurement Canada and Australia modes allow a tare to be acquired at a weight greater than zero; None allows tares to be acquired at any weight value
OIML, NTEP, Measurement Canada and Australia modes allow a tare to be cleared only if the gross weight is at no load; None allows tares to be cleared at any weight value
NTEP, OIML and Australia modes allow a new tare to be acquired even if a tare is already present; In Measurement Canada mode, the previous tare must be cleared before a new tare can be acquired
None, NTEP and Measurement Canada modes allow the scale to be zeroed in either gross or net mode as long as the current weight is within the specified Zero Range (%); In OIML and Australia modes, the scale must be in gross mode before it can be zeroed; pressing the ZERO key in net mode clears the tare
Australia mode does not display capacity and count-by with the weight value
Industrial provides a set of sub-parameters to allow customization of tare, clear and print functions in non-Legal for Trade scale installations
Industrial Settings| Displays when Regulatory Mode parameter is set to Industrial; See Section 4.5.5.1 on page 54
Alibi| Alibi can be toggled On/Off; if On, print transactions are stored in the Alibi Storage database (data validated with CRC) and can be viewed from the front panel of the 682 by configuring a softkey (Section 3.4.19 on page 37) to Alibi; if Off, print transactions are not stored; Alibi data is stored in flash memory, no external memory is required; there is space for 128 KB of data or up to approximately 2000 print transactions; if the limit is hit, the first 4 KB of print transactions are deleted to free up space; Settings: Off (default), On
Truck Program| Configurable parameters for Truck In/Out applications; Sub- Parameters:
Mode – Truck modes track Truck IDs and weights with keyed tares and value swapping features in six preset modes; See Section 7.0 on page 70; _Settings: Off (default), Mode 1, Mode 2, Mode 3, Mode 4, Mode 5, Mode 6
_ID Overwrite – Allows duplicate Truck IDs to replace stored Truck IDs when enabled; Settings: Disable (default), Enable
Parameter| Description
---|---
Password| Configurable passwords to secure the User and Setup menus; ensure the audit jumper (J24) is in the ON position when using the Setup password; 999999 can be entered to overwrite either password if forgotten, overwriting the password clears configuration and calibration settings (use Revolution to backup settings before overwriting); Sub-Parameters:
User – User menu password secures the user menu with configured password;
Enter characters: Up to 16 alphanumeric characters
Setup – Setup menu password secures the setup menu with configured password;
Enter characters: Up to 16 alphanumeric characters
Consecutive Number| Allows sequential numbering for print operations; the value is incremented following each print operation that includes in the ticket format; Enter value: 0–9999999, 0 (default)
Consecutive Number Start| Specifies the initial consecutive number value used when the consecutive number is reset by activating Clear Consecutive Number digital input or sending KCLRCN EDP command; Enter value: 0–9999999, 0 (default)
Unit ID| Specifies the unit identification with an alphanumeric value; Enter characters: Up to 8 alphanumeric characters, 1 (default)
Contact| Contact Information; See Section 4.5.5.2 on page 55
Accumulator| Accumulation can be toggled On/Off; if On, accumulation occurs on print operation; if Off, an accumulation does not occur;
Settings: Off (default), On
Return to Zero Grads| Number of graduations from the zero base at which the accumulator re-arms itself; only visible if the Accumulator parameter is set to On; Enter value: 0.0–100.0, 0.4 (default)
Weighment Threshold| Weight value that must be exceeded for the weight to be counted as a weighment; Enter value: 0.0–9999999.0, 1000.0 (default)
Number of Weighments| Displays the total number of weighments (read only)
Maximum Weight| Displays the maximum weight/weighment achieved (read only)
Date of Maximum Weight| Displays the date and time the maximum weight/weighment occurred (read only)
Date| Allows setting of the date format and date separator character
Date Format – Settings: MMDDYY (default), DDMMYY, YYMMDD, YYDDMM
Date Separator – Settings: Slash (default), Dash, Semi, Dot
Time| Allows setting of the time format and the separator character
Time Format – Settings: 12HOUR (default), 24HOUR
Time Separator – Settings: Colon (default), Comma, Dot
Keyboard Lock| Disables the keyboard except for the menu and power key; Settings: Off (default), On
Lock All Keys Except Zero| Disables the keyboard except for the zero, menu and power keys; Settings: Off (default), On
Key Hold| Allows setting of the key hold time and interval Key Hold Time – How long a key needs to be held before a key hold action is initiated (in tenths of a second); 20 equals 2 seconds; Enter value: 10–50, 20 (default)
Key Hold Interval – The amount of time between increments during a key hold (in twentieths of a second); 2 equals a tenth of a second (10 increments per second during a key hold); Enter value: 1–100, 2 (default)
Locale| Enables location gravity compensation; Settings:
Off (default) – gravity compensation disabled
On – calculates gravity compensation using the origin and destination latitudes and elevations
Factor – uses origin and destination gravity factors to find gravity compensation
Origin Latitude| Origin latitude (to nearest degree) for gravity compensation; displays when Locale parameter is set to On; Enter value: 0–90, 45 (default)
Origin Elevation| Origin elevation (in meters) for gravity compensation; displays when Locale parameter is set to On; Enter value: -9999–9999, 345 (default)
Destination Latitude| Destination latitude (to nearest degree) for gravity compensation; displays when Locale parameter is set to On; Enter value: 0–90, 45 (default)
Destination Elevation| Destination elevation (in meters) for gravity compensation; displays when Locale parameter is set to On; Enter value: -9999–9999, 345 (default)
Origin Gravity| Origin gravity factor (in m/s2) for gravity compensation; displays when Locale parameter is set to Factor; Enter value: 9.00000–9.99999, 9.80665 (default)
Destination Gravity| Destination gravity factor (in m/s2) for gravity compensation; displays when Locale parameter is set to Factor; Enter value: 9.00000–9.99999, 9.80665 (default)
Persistent Tare| Tare persists through a power cycle; Settings: Off (default), On
Remote Print Destination| Specifies if the 682 (Local) or another indicator (Remote) handles the print key; Settings: Remote (default), Local

Table 4-15. Program Menu Parameters

4.5.5.1 Industrial Settings Menu
This section provides a flow chart and descriptions for the Industrial Settings menu. The Industrial Settings menu only displays if the Regulatory Mode parameter is set to Industrial.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Industrial Settings
Menu

Parameter Description
Audit Agency Audit trail display agency format; Settings: NTEP (default),

Measurement Canada, None, OIML
Weight Source for Print| Display or scale weight source for print; Settings: Display (default), Captured Scale Zero
Remove Tare on Zero| Remove tare on zero; Settings: No (default), Yes
Allow Keyed Tare| Always allow keyed tare; Settings: Yes (default), No
Multiple Tare Action| Replaces existing tare when the tare key is pressed; Settings: Replace (default), Remove, Nothing
Allow Negative Tare| Allow negative or zero tare; Settings: No (default), Yes
Allow Clear Tare Key| Allow clear key to clear tare or accumulator when displayed; Settings: Yes (default), No
Negative Total| Allow total scale to display negative value; Settings: No (default), Yes
Allow Print in Motion| Allow print while in motion; Settings: No (default), Yes
Add PT to Keyed Tare Print| Add preset tare (PT) to keyed tare print; Settings: Yes (default), No
Zero Base for Overload| Zero base for overload calculation; Settings: Calibrated Zero (default), Captured Scale Zero
Auto-Zero Tracking on Net Zero| Perform auto zero tracking on net zero; Settings: No (default), Yes
Manual Clear Tare| Allow manual clearing of the tare value; Settings: Yes (default), No
Tare in Motion| Allow tare in motion; Settings: No (default), Yes
Zero in Motion| Allow scale to be zeroed while in motion; Settings: No (default), Yes
Underload Weight| Underload weight value in display divisions; Enter value: 1–9999999, 20 (default)

Table 4-16. Industrial Settings Menu Parameters
4.5.5.2 Contact Information Menu
This section provides a flow chart and descriptions for the Contact Information menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Contact Information
Menu

Parameter Description
Company Contact company name; _Enter characters: Alphanumeric entry up to 30

characters_
Address 1-3| Contact company address lines; Enter characters: Alphanumeric entry up to 20 characters (for each line)
Name 1-3| Contact names; Enter characters: Alphanumeric entry up to 30 characters (for each line)
Phone 1-3| Contact phone numbers; Enter characters: Alphanumeric entry up to 20 characters (for each line)
Email| Contact email address; Enter characters: Alphanumeric entry up to 40 characters
Last Calibration| Last calibration date; Enter value: 8-digit number (MMDDYYYY)
Next Calibration| Next calibration date; Enter value: 8-digit number (MMDDYYYY)

Table 4-17. Contact Information Menu Parameters
4.5.6 Print Format Menu

This section provides a flow chart and descriptions for the Print Format menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Contact Information
Menu 2

Parameter Description
Gross Format Gross demand print format string

Format – _Enter characters: Alphanumeric entry up to 1,000 characters, GROSS

(default) _Destination Port 1-2 – Destination ports; _Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None _( _Port 2 default)_ Net Format| Net demand print format string Format – _Enter characters: Alphanumeric entry up to 1,000 characters, GROSS TARENET (default) _Destination Port 1-2 – Destination ports; _Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None _( _Port 2 default)_

Table 4-18. Print Format Menu Parameters

Parameter Description
Audit Format Audit destination print ports where the audit parameters are

sent when an Audit Dump is done
Destination Port 1-2 – Dump audit destination ports; Settings: RS-232 Port 1 (Port 1 default), RS-232 Port 2, RS-485,
TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default)
Accumulator Format| Accumulator print format string
Format – Enter characters: Alphanumeric entry up to 1,000 characters, ACCUM (default) Destination Port 1-2 – Destination ports; Settings: RS-232 Port 1 (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default)
Setpoint Format| Setpoint print format string
Format – Enter characters: Alphanumeric entry up to 1,000 characters,

(default) Destination Port 1-2 – Destination ports; Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default) Header Format| Ticket header format strings Header Format 1 – Header 1 Format String; Enter characters: Alphanumeric entry up to 1,000 characters, COMPANY NAMESTREET ADDRESSCITY, ST ZIP (default) Header Format 2 – Header 2 Format String; Enter characters: Alphanumeric entry up to 1,000 characters, COMPANY NAMESTREET ADDRESSCITY, ST ZIP (default) Auxiliary Format 1-4| Auxiliary print format strings Format 1-4 – Enter characters: Alphanumeric entry up to 1,000 characters, GROSS (default) Destination Port 1-2 – Destination ports; Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default) **NOTE: Auxiliary Formats can be printed using softkeys (** **Section 3.4.19 on page 37** **) or by pressing the corresponding format number on the numeric keypad, followed by the PRINT key. For example, to print Auxiliary Format 2, press the 2 key,** **followed by the PRINT key.** Truck Format| Truck print format string Format – Enter characters: Alphanumeric entry up to 1,000 characters, REG ID: : (default) Destination Port 1-2 – Destination ports; Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default) Truck Weigh In Format| Truck weigh in print format string Format – Enter characters: Alphanumeric entry up to 1,000 characters, IDGROSS (default) Destination Port 1-2 – Destination ports; Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default) Truck Weigh Out Format| Truck weigh out print format string Format – Enter characters: Alphanumeric entry up to 1,000 characters, IDGROSSTARENET (default) Destination Port 1-2 – Destination ports; Settings: **RS-232 Port 1** (Port 1 default), RS-232 Port 2, RS-485, TCP Client 1, TCP Server, USB, Serial Option Card Port 1, Serial Option Card Port 2, WiFi & Bluetooth, None (Port 2 default)

Table 4-18. Print Format Menu Parameters (Continued)
4.5.7 Stream Format Menu
This section provides a flow chart and descriptions for the Stream Format menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Stream Format
Menu

Parameter Description
Format Specifies the stream format used for streaming output of scale data or

specifies the expected input for a serial scale; Settings:
RLWS (default) – Rice Lake Weighing Systems stream format (Section 16.5.1 on page 122)
Cardinal – Cardinal stream format (Section 16.5.2 on page 122)
Weigh-Tronox – Avery Weigh-Tronox stream format (Section 16.5.3 on page 123)
Toledo – Mettler Toledo stream format (Section 16.5.4 on page 123) Minebea – Minebea stream format (Section 16.5.5 on page 124) Custom – Custom stream format
NOTE: Custom parameter is for input only. When set to remote, the port does not stream data (see Table 4-10 on page 46 )
Units| Specifies whether the streaming unit tokens remain static or dynamically updated with the configured units; Static uses set Primary/Secondary unit tokens and Dynamic defaults to configured units of the scale; Settings: STATIC (default), DYNAIMIC
Custom| Specifies the custom stream format; only displays if SFORMAT is set to CUSTOM; see Section 16.6 on page 124 for available stream format tokens; Enter characters: Alphanumeric entry up to 1,000 characters
Gross Token| Mode token when streaming the gross weight; Enter characters: Alphanumeric entry up to 8 characters, G (default)
Tare Token| Mode token when streaming the tare weight; Enter characters: Alphanumeric entry up to 8 characters, T (default)
Net Token| Mode token when streaming the net weight; Enter characters: Alphanumeric entry up to 8 characters, N (default)
Positive Token| Polarity token when the weight is positive; Settings: Space (default), None, +
Negative Token| Polarity token when the weight is negative; Settings: Space, None, (default)
Primary Token| Units token when streaming primary units; Enter characters: Alphanumeric entry up to 8 characters, L (default)
Secondary Token| Units token when streaming secondary units; Enter characters: Alphanumeric entry up to 8 characters, K (default)
Tertiary Token| Units token when streaming tertiary units; Enter characters: Alphanumeric entry up to 8 characters, K (default)
Zero Token| Status token when the weight is at center of zero; Enter characters: Alphanumeric entry up to 2 characters, Z (default)
Motion Token| Status token when the weight is in motion; Enter characters: Alphanumeric entry up to 2 characters, M (default)
Out of Range Token| Status token when the weight is out of range; Enter characters: Alphanumeric entry up to 2 characters, O (default)
Ok Token| Status token when the weight is OK (not invalid, out-of-range, at zero or in-motion);
Enter characters: Alphanumeric entry up to 2 characters (default is a space)
Invalid Token| Status token when streaming an invalid weight; Enter characters: Alphanumeric entry up to 2 characters, I (default)

Table 4-19. Stream Format Menu Parameters

4.5.8 Setpoint Menu
The following sections provide flow charts and descriptions for the Setpoint menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Setpoint
Menu

Parameter Description
Setpoint Configuration Access to configuration parameters and settings for up

to eight setpoints; Settings: Setpoint 1-8
Kind – Setpoint Kind; Settings: Off (default), Gross, Net, Negative Gross, Negative Net, Accumulate, Positive Relative, Negative Relative, Percent Relative, Pause, Delay, Wait Standstill, Counter, Auto-Jog, Center of Zero, In Motion, In Range, Batch in Process, Timer, Concurrent, Time Of Day, Always, Never
Batching| Batch sequence runs when set to Auto or Manual; Settings:
Off (default)
Auto – Allows the batch sequence to repeat automatically once it has been started Manual – Requires a Batch Start input/command to run the batch sequence

Table 4-20. Setpoints Menu Parameters
4.5.8.1 If Kind = Gross, Net, Negative Gross, Negative Net, Positive Relative, Negative Relative, Percent Relative

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Percent
Relative

4.5.8.2 If Kind = Accumulate, Delay, Wait Standstill, Auto-Jog, Time Of Day

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Time Of
Day

4.5.8.3 If Kind = Pause, Counter, Center of Zero, In Motion, In Range, Batch in Process, Timer, Concurrent

RICE LAKE 682 Synergy Plus Digital Weight Indicator -
Concurrent

Parameter Description
Value For weight-based setpoints: Enter value: 0.0–9999999.0, 0.0

(default)
For time-based setpoints: Enter value: 0.0–65535.0, 0.0 (default)
For Counter setpoints: Enter value: 0.0–65535.0, 0.0 (default)
Trip| Specifies whether the setpoint is satisfied when the weight is higher or lower than the setpoint value, within a band established around the value, or outside of the band; in a batch sequence with Trip = Higher, the associated digital output is active until the setpoint value is reached or exceeded; with Trip = Lower, the output is active until the weight goes below the setpoint value;
Settings: Higher (default), Lower, Inland, Out band
Band Value| For setpoints with Trip = Inland or Out band, specifies a weight equal to half the band width; The band established around the setpoint value is Value ± Band Value; Enter value: 0.0–9999999.0, 0.0 (default)
Hysteresis| Specifies a band around the setpoint value which must be exceeded before the setpoint, once off, can trip on again; Enter value: 0.0–9999999.0, 0.0 (default)
Proact| Allows the digital output associated with a setpoint to shut off before the setpoint is satisfied to allow for material in suspension; Settings:
Off (default)
On – Adjusts setpoint trip value up or down (depending on the Trip parameter setting) from setpoint value using a fixed value specified on the Proact Value parameter
Learn – Can be used to automatically adjust the Proact value after each batch; it compares the actual weight at standstill to the target setpoint value and adjusts the Proact Value by the Proact Adjust (%) value times the difference after each batch
Start| Specifies starting setpoint number; do not specify number of the Timer or Concurrent setpoint itself; Timer or Concurrent setpoint begins when starting setpoint begins; Enter value: 1–8, 1 (default)
End| Specifies ending setpoint number; do not specify number of the Timer or Concurrent setpoint itself; Timer or Concurrent setpoint stops when ending setpoint begins; Enter value: 1–8, 1 (default)
Time| For Time Of Day setpoints, specifies the time at which the setpoint becomes active; the format used to enter the time (12hour or 24hour) is based on the value specified for the Time Format parameter in the Program menu (HHMM); Enter value: 0000 (default)
Duration| For Time Of Day setpoints; specifies the length of time the digital output associated with this setpoint changes state; value is entered in hours, minutes and seconds (HHMMSS); Enter value: 000000 (default)
Proact Value| Specifies the proact value for setpoints with Proact set to On or Learn; depending on the Trip setting specified for the setpoint, the setpoint trip value is adjusted up or down by the Proact Value; Enter value: 0.0–9999999.0, 0.0 (default)
Proact Adjust (%)| Setpoints with Proact set to Learn, specifies a decimal representation of the percentage of error correction applied (50.0 = 50%, 100.0 = 100%) each time a Proact adjustment is made; Enter value: 0.0–100.0, 50.0 (default)
Proact Stability (seconds)| Setpoints with Proact set to Learn, specifies the time, in 0.1-sec intervals, to wait for standstill before adjusting the Proact value; setting this parameter to a value greater than zero disables the learn process if standstill is not achieved in the specified interval (in tenths of a second); Enter value: 0–65535, 0 (default)
Proact Count| Setpoints with Proact set to Learn, specifies the number of batches after which the proact value is recalculated; the default value, 1, recalculates the proact value after every batch cycle; Enter value: 1–65535, 1 (default)
Parameter| Description
---|---
Relative Setpoint Number| For relative setpoints, specifies the number of the relative setpoint; Enter value: 1–8, 1 (default)
Target weight for this setpoint is determined as follows:
Positive Relative setpoints, the value of the relative setpoint plus the value (Value parameter) of the Positive Relative setpoint Negative Relative setpoints, the value of the relative setpoint minus the value of the Negative Relative setpoint
Percent Relative setpoints, the percentage (specified on Value parameter of the Percent Relative setpoint) of the target value of the relative setpoint
Alarm| Specify On to display the word Alarm on the primary display while the setpoint is active (batch setpoints) or while the setpoint is not tripped (continuous setpoints); Settings: Off (default), On
Clear Accumulator| Specify On to clear the accumulator when the setpoint is satisfied; Settings: Off (default), On
Clear Tare| Specify On to clear the tare when the setpoint is satisfied; Settings: Off (default), On
Push Accumulator| Specify On to update the accumulator and perform a print operation when the setpoint is satisfied; specify On Quiet to update the accumulator without printing; Settings: Off (default), On, On Quiet
Push Print| Specify On to perform a print operation when the setpoint is satisfied; specify Wait Standstill to wait for standstill after setpoint is satisfied before printing; Settings: Off (default), On, Wait Standstill
Push Tare| Specify On to perform an acquire tare operation when the setpoint is satisfied; Settings: Off (default), On

NOTE: Push Tare acquires the tare regardless of the value specified for the Regulatory Mode parameter in the Program menu

Digital Output Slot| Lists all available digital I/O slots; this parameter specifies the slot number of the digital I/O card referenced by the Digital Output setpoint; Slot 0 for on-board DIO, Slot 1 for Optional Relay Board; Settings: None (default), 0, 1
Digital Output| Lists all digital output bit numbers available for the specified Digital Output Slot; this parameter is used to specify the digital output bit associated with this setpoint; use the Digital I/O menu to assign bit function to Output; Enter value: 1–4, 1 (default)
NOTE: For continuous setpoints, the digital output becomes active (low) when the condition is met; for batch setpoints, the digital output is active until the setpoint condition is met
Sense| Specifies whether the value of the digital output associated with this setpoint is inverted when the setpoint is satisfied;
Settings: Normal (default), Invert
Batch| Specifies whether the setpoint is used as a batch (On) or continuous (Off) setpoint; Settings: Off (default), On
Branch| Specifies the setpoint number to which the batch sequence is to branch, if the current setpoint is not satisfied upon initial evaluation (0 = do not branch); Enter value: 0–8, 0 (default)
Enable| Specifies if setpoint parameters display in User mode; Settings: On (default), Off
Access| Specifies the access allowed to setpoint parameters in User mode; Settings:
On (default) – Values can be displayed and changed
HIDE – Values cannot be displayed or changed
OFF – Values can be displayed but not changed
Alias| Name for the setpoint; Enter characters: Alphanumeric entry up to 8 characters, SETPT# (default)

Table 4-21. Kind Parameter Descriptions (Continued)
4.5.9 Digital I/O Menu
This section provides a flow chart and descriptions for the Digital I/O menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Digital I O
Menu

Parameter Description
Bit 1-4 _Digital I/O Bit 1-4 – Specifies the mode and function of the

digital I/O pins; Settings: Off (default), Print, Zero, Tare, Units, Primary, Secondary, Clear, Display Accumulator, Display Tare, Clear Accumulator, Clear Tare, Net/Gross, Gross, Net,
Clear Consecutive Number, Keyboard Lock, Batch Run, Batch Start, Batch Pause, Batch Reset, Batch Stop, Output, Softkey 1-15_

4.5.10 Analog Output Menu
This section provides a flow chart and descriptions for the Analog Output menu. The Analog Output menu is only functional if the analog output option card is installed. If the option card is not installed, the menu is visible, but not functional. If the analog
output option card is installed, configure all other indicator functions and calibrate the indicator before configuring the analog output. Instructions to install and setup the analog output option card are provided with the option card kit (PN 195084).

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Analog Output
Menu

Parameter Description
Source Specifies the scale tracked by the analog output; Only appears if the

Regulatory Mode parameter is set to Industrial;
Settings: Scale 1 (default), Remote
Mode| Specifies the weight data, gross or net, tracked by the analog output when the Source parameter is assigned to a scale;
Settings: Gross (default), Net
Output| Specifies the type/range of the output; Settings: 0-10V (default), 0-20MA, 4-20MA
Error Action| Specifies how the analog output responds to system error conditions; Settings:
Full Scale (default) – Set to full scale (10 V or 20 mA)
Hold – Holds current value
Zero Scale – Sets to zero value (0 V, 0 mA or 4 mA)
Minimum Weight| Specifies the minimum weight value tracked by the analog output; Enter value: ±9999999.0, 0.0 (default)
Maximum Weight| Specifies the maximum weight value tracked by the analog output; Enter value: ±9999999.0, 10000.0 (default)
Tweak Zero| Adjusts the offset of the analog output zero value; Enter value: 0–65535, 0 (default)
Tweak Span| Adjusts the offset of the analog output span value; Enter value: 0–65535, 59515 (default)

4.5.11 Softkey Menu
This section provides a flow chart and descriptions for the Softkey menu. Softkeys are configured to provide additional operator functions. Configured softkeys are at the bottom of the display and are activated by the physical key directly below them. If six
or more softkeys are enabled, left and right arrows appear in the outside softkeys to allow navigation between available softkeys. See Section 3.4.19 on page 37 for softkey configuration procedure.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Softkey
Menu

Parameter Description
Softkey 1-15 Specifies the operator function assigned to each available

softkey; see Section 3.4.19 on page 37 to configure softkeys; Settings: Blank (default), Time Date, Display Tare, Display Accumulator, Setpoint, Batch Stop, Batch Start, Batch Pause, Batch Reset, Display UID, Alibi, Weigh In, Weigh Out, Truck Rags, Auxiliary Format 1-4

Table 4-24. Softkey Menu Parameters

Softkey Description
Blank No softkey configured (default selection for all); a blank softkey can

be used to create separation between other softkeys
Time/Date| Displays Set System Time with the ability to view and edit the current time value (Section 3.4.15 on page 34); pressing the middle softkey causes the Set System Date (Section 3.4.16 on page 35) to display
Display Tare| Displays the tare value in the message area of the front panel display
Display Accumulator| Displays the accumulator value and count; accumulator can be turned On in the Program menu (Section 4.5.5 on page 52)
Setpoint| Displays the User Setpoint menu (Section 4.4 on page 41), which includes the setpoint value of configured setpoints; Read only unless access parameter for the setpoint is set to ON; menu is empty if no setpoints are configured
Batch Stop| Stops an active batch and turns off all associated digital outputs; requires a Batch Start to resume processing
Batch Start| Starts a batch from the current step if a Batch Run digital input is active or not defined; if a Batch Run digital input is defined and inactive, Batch Start resets the batch to the first step
Batch Pause| Pauses an active batch and turns off all digital outputs except those associated with Concurrent and Timer setpoints; processing is suspended until the indicator receives a Batch Start signal; pressing the Batch Start softkey, BATSTRT digital input or BATSTART serial command resumes the batch and re-energizes all digital outputs turned off by the Batch Pause
Batch Reset| Stops an active batch and resets the current step to the first batch step; all digital outputs associated with batch setpoints are deactivated; if a batch is stopped or paused, Batch Reset resets the current step to the first step
Display UID| Displays the Unit ID in the message area of the front panel display
Alibi| Displays Alibi Storage and allows previous print transactions to be reprinted; Alibi parameter must be set to On in the Program menu (Section 4.5.5 on page 52)
Weigh In| Displays the keyboard truck ID entry screen to log a truck weigh in (Section 7.3 on page 72)
Weigh Out| Displays the keyboard truck ID entry screen to log a truck weigh out (Section 7.4 on page 72)
Truck Rags| Displays the Truck Register (Section 7.2 on page 71)
Auxiliary Format 1-4| Prints using the configured auxiliary print format string to the configured destination port (Section 4.5.6 on page 55)

Table 4-25. Softkey Descriptions
4.6 Tare Menu
This section provides a flow chart and descriptions for the Tare menu.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Softkey Menu
52

Parameter Description
Display Tare Displays the current tare value (read only)
Clear Tare Clears the current tare value

Table 4-26. Tare Menu Parameters

Split Mode Configuration

The 682 supports multi-range and multi-interval scales of either two or three ranges or intervals. The full scale capacity is the second range/interval when just Range 1 is set or the third range/interval when Range 1 and Range 2 are set.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Split Mode
Configuration

Parameter Description
Softkey 1-15 Specifies the operator function assigned to each available

softkey; see Section 3.4.19 on page 37 to configure softkeys; Settings: Blank (default), Time Date, Display Tare, Display Accumulator, Setpoint, Batch Stop, Batch Start, Batch Pause, Batch Reset, Display UID, Alibi, Weigh In, Weigh Out, Truck Rags, Auxiliary Format 1-4

Table 5-1. Split Mode Options

Softkey Description
Blank No softkey configured (default selection for all); a blank softkey can

be used to create separation between other softkeys
Time/Date| Displays Set System Time with the ability to view and edit the current time value (Section 3.4.15 on page 34); pressing the middle softkey causes the Set System Date (Section 3.4.16 on page 35) to display
Display Tare| Displays the tare value in the message area of the front panel display
Display Accumulator| Displays the accumulator value and count; accumulator can be turned On in the Program menu (Section 4.5.5 on page 52)
Setpoint| Displays the User Setpoint menu (Section 4.4 on page 41), which includes the setpoint value of configured setpoints; Read only unless access parameter for the setpoint is set to ON; menu is empty if no setpoints are configured
Batch Stop| Stops an active batch and turns off all associated digital outputs; requires a Batch Start to resume processing
Batch Start| Starts a batch from the current step if a Batch Run digital input is active or not defined; if a Batch Run digital input is defined and inactive, Batch Start resets the batch to the first step
Batch Pause| Pauses an active batch and turns off all digital outputs except those associated with Concurrent and Timer setpoints; processing is suspended until the indicator receives a Batch Start signal; pressing the Batch Start softkey, BATSTRT digital input or BATSTART serial command resumes the batch and re-energizes all digital outputs turned off by the Batch Pause
Batch Reset| Stops an active batch and resets the current step to the first batch step; all digital outputs associated with batch setpoints are deactivated; if a batch is stopped or paused, Batch Reset resets the current step to the first step
Display UID| Displays the Unit ID in the message area of the front panel display
Alibi| Displays Alibi Storage and allows previous print transactions to be reprinted; Alibi parameter must be set to On in the Program menu (Section 4.5.5 on page 52)
Weigh In| Displays the keyboard truck ID entry screen to log a truck weigh in (Section 7.3 on page 72)
Weigh Out| Displays the keyboard truck ID entry screen to log a truck weigh out (Section 7.4 on page 72)
Truck Rags| Displays the Truck Register (Section 7.2 on page 71)
Auxiliary Format 1-4| Prints using the configured auxiliary print format string to the configured destination port (Section 4.5.6 on page 55)

Table 5-2. Split Mode – Sub-Parameters
5.1 Configure a Multi-Range or Multi-Interval Scale
Access to Setup mode (Section 4.1 on page 39) is required.

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.

  2. Press . Scale Format displays.

  3. Press . Primary displays.

  4. Press . Format displays.

  5. Press . Split Mode displays.

  6. Press . The setting options for split mode displays.

  7. Press and to select Multi-Range or Multi-Interval.

  8. Press . Range 1 Capacity displays. See Section 5.0 on page 65 for more information on split mode.

  9. Press . The current Range 1 weight value displays.

  10. Use the numeric keypad to enter a new value, if necessary.

  11. Press to accept value. Range 1 Format displays.

  12. Press . The current Range 1 Format setting displays.

  13. Use and to move to a new setting, if necessary.

  14. Press to accept format setting. Range 2 Capacity displays.
    NOTE: A Range 1 Capacity must be set for a Range 2 Capacity to appear as an option. The full scale capacity is the second range/interval when just Range 1 is set or the third range/interval when Range 1 and Range 2 are set.

  15. Repeat previous steps for Range 2, if necessary.

  16. Press to return to Weigh mode.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Split Mode
Configuration 2

NOTE: When using Multi-Range, the last range/count by reached is held until returning to zero, even when descending through other ranges. When using Multi-Interval, range/count by changes both when ascending and descending.

Calibration

The 682 can be calibrated using the front panel and EDP commands. The following sections describe the procedures required for these calibration methods.
NOTE: The 682 requires a Zero Calibration and Span Calibration to be calibrated. The Linear Calibration points are optional; they must fall between zero and span, but must not duplicate zero or span.

RICE LAKE 682 Synergy Plus Digital Weight Indicator -
Calibration

6.1 Front Panel Calibration
6.1.1 Span Calibration
Use the following procedure to perform a standard span calibration on a connected scale. Access to Setup mode (Section 4.1 on page 39) is required.

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.

  2. Press twice. Calibration displays.

  3. Press . Zero Calibration displays.
    NOTE: See Section 6.2 on page 68 if the application requires a tresero, last zero or temporary zero.

  4. Ensure there is no weight on the scale.

  5. Press to perform a zero calibration. Please Wait displays briefly and then Zero Calibration Complete displays.

  6. Press . Zero Counts displays. See Section 4.5.3 on page 45 for more information on zero counts.

  7. Press . Test Weight displays.

  8. Press . The current test weight value displays.

  9. Use the numeric keypad to enter a new value, if necessary.

  10. Press to accept value. Span Calibration displays and the indicator is ready for test weight.

  11. Place the specified amount of test weight on the scale.

  12. Press to perform a span calibration. Please Wait displays briefly and then Span Calibration Complete displays.

  13. Press . Span Counts displays. See Section 4.5.3 on page 45 for more information on span counts.
    NOTE: Span calibration is complete. To continue with a linear calibration, see Section 6.1.2 on page 68 before returning to Weigh mode.

  14. Press to return to Weigh mode.

6.1.2 Linear Calibration
Linear calibration points provide increased scale accuracy by calibrating the indicator at up to four additional points between the zero and span calibrations. Access to Setup mode (Section 4.1 on page 39) is required.

  1.  Complete steps 1–13 in Section 6.1.1 on page 67.

  2. Press . Linear Calibration displays.

  3. Press . Point 1 displays.

  4. Press . Linear Point 1 Weight displays.

  5. Press . The current test weight value for point 1 displays.

  6. Use the numeric keypad to enter a new value, if necessary.

  7. Press to accept value. Calibrate Linear Point 1 displays and the indicator is ready for test weight.

  8. Place the specified amount of test weight on the scale.

  9. Press to perform a linear point calibration. Please Wait displays briefly and then Point Calibration Complete displays.

  10.  Press . Linear Point 1 Counts displays. See Section 4.5.3 on page 45 for more information on linear point counts.

  11. Press . Point 1 displays.

  12. Press . Point 2 displays.

  13.  Repeat previous steps for points 2-4, if necessary.
    NOTE: The linear calibration for a point is saved once point is calibrated.

  14. Press to return to Weigh mode.

6.2 Alternative Zero Calibrations
During a calibration, the zero value can be replaced with a temporary zero or last zero.
A rezero can be done after calibration. See below for information on alternative zeros.
6.2.1 Last Zero
This takes the last push-button zero in the system (from Weigh mode) and uses it as the new zero reference point, after which a new span calibration must be performed. This calibration cannot be performed when calibrating a scale for the first time. A last zero calibration is typically used on truck scales to allow a scale verification to become a calibration without having to remove the test weights.
6.2.2 Temporary Zero
A temporary zero calibration temporarily zeros the displayed weight of a non- empty scale. After span calibration, the difference between the temporary zero and the previously calibrated zero value is used as an offset.
A temporary zero calibration is typically used on hopper scales to calibrate the span without losing the original zero calibration.
6.2.3 Rezero
A rezero calibration is needed to remove a calibration offset when hooks or chains are required to suspend the test weights.
Once a span calibration is complete, remove the hooks or chains and the test weights from the scale. With all the weight removed, a rezero calibration is used to adjust the zero and span calibration values.
6.3 EDP Command Calibration
Use the following instructions to calibrate the 682 using EDP commands. For information on the EDP commands of the 682, see Section 12.0 on page 95. Access to Setup mode (Section 4.1 on page 39) is required.
NOTE: The indicator must respond with OK after each step or the calibration procedure must be done again.
For commands ending with #s, s is the scale number (1).

  1. Put the indicator in Setup mode (Section 4.1 on page 39).

  2. For a standard calibration, remove all weight from scale (except hooks or chains which are needed to attach weights).

  3. Send the command SC.WZERO#s to perform a standard calibration of the zero point.
    • Send SC.TEMPZERO#s to perform a temporary zero calibration
    • Send SC.LASTZERO#s to perform a last zero calibration

  4. Apply the span calibration weight to the scale.

  5. Send the command SC.WVAL#s=xxxxx, where xxxxx is the value of the span calibration weight applied to the scale.

  6. Send the command SC.WSPAN#s to calibrate the span point. Continue on to step 7 to calibrate additional linear points, or proceed to step 11.

  7. Apply weight equal to the first linear point to the scale.

  8. Send the command SC.WLIN. Vn#s=xxxxx, where n is the linear point number (1-4) and xxxxx is the exact value of the weight applied.

  9. Send the command SC.WLIN. Cn#s to calibrate the linear point, where n is the linear point number (1-4).

  10.  Repeat steps 7–9 for up to four total linear points.

  11.  If hooks or chains were used to attach the weights, remove all weight, including the hooks and chains, and send the command SC.REZERO#s to remove the zero offset.

  12.  Send the command KSAVEEXIT to return to Weigh mode.

Truck Modes

The truck in/out modes are used to handle multiple truck IDs and weights. Truck IDs can be up to 16 alphanumeric characters in length. Six available truck modes combine stored truck IDs, keyed tares and value swapping features in various ways.
NOTE: A microSD card must be installed in the memory card slot (J6) in order for the indicator to store truck IDs in a truck mode. The 682 indicator comes with an 8 GB microSD card installed.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Truck
Modes

Mode Stored IDs Keyed Tares Value Swapping
Mode 1 No Yes Yes
Mode 2 No No Yes
Mode 3 Yes Yes Yes
Mode 4 Yes No Yes
Mode 5 Yes Yes No
Mode 6 Yes No No
Off

Stored ID s – Keeps a database of truck IDs and weigh-in weights in the indicator’s memory. The indicator can automatically store up to 1,000 truck IDs and tares or it can clear the information after printing a weigh-out ticket. For example, if the same truck seldom crosses the scale, it may not be practical to save its truck ID and weigh-in weight. However, if that same truck crosses the scale many times each day, it’s more convenient to store the information in the indicator memory and recall it when needed. Stored truck IDs and weights are available in modes 3, 4, 5 and 6.
NOTE: By default, Stored IDs can not be entered a second time for duplicate weigh-ins. The ID Overwrite parameter can be Enabled to allow duplicate Truck IDs to replace Stored IDs.
Keyed Tares – Allows manual entering of the tare weight using the numeric keypad and the Tare key. Keyed tares are available in modes 1, 3 and 5. To use keyed tares, an incoming truck must be empty at weigh-in, full at weigh-out.
NOTE: Some local regulations require the tare weight to be read from the scale. If so, don’t use the keyed tares feature.
Value Swapping – Ensures that the lowest of the two associated weight values of a truck ID is used as the tare weight.
For example, if a truck crosses the scale fully loaded at weigh-in, then unloads and crosses the scale empty at weigh-out, the indicator automatically assigns the lesser (empty truck) weight as the tare. Value swapping is available in modes 1, 2, 3 and 4.
7.1 Using the Truck Modes
Configuring a truck in/out mode requires access to Setup mode (Section 4.1 on page 39).

  1. Navigate to the Configuration menu within the Setup menu. Configuration displays.

  2. Press or until Program displays.

  3.  Press . Power Up Mode displays.

  4. Press or until Truck Program displays.

  5. Press . Mode displays.

  6. Press . The current truck mode setting is highlighted.

  7. Press or to navigate to the desired truck mode, if necessary.

  8. Press to accept the highlighted truck mode.

  9. Press twice to navigate back up to the Setup menu level. Program displays.

  10. Press or until Softkey displays.

  11.  Press and configure softkeys to Weigh In, Weigh Out and Truck Regs. See Section 3.4.19 on page 37 for procedure on configuring softkeys. These three softkeys are required when using the truck modes.
    NOTE: Softkey 2 and Softkey 4 must be set to Blank in order to achieve the softkey arrangement in Figure 7-2.RICE LAKE 682 Synergy Plus Digital Weight
Indicator - Softkeys

  12. Once softkeys are configured, press to return to Weigh mode.

7.2 Using the Truck Register Display
The Truck Regs display is shown by pressing the Truck Regs softkey in Weigh mode. The display contains an alphabetical list of stored truck IDs, weigh-in weights (in primary units), and the time and date of the weigh-in transaction.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Register
Display

Softkeys shown at the bottom of the Truck Regs display are described below.

  • Page Up – Displays previous page of the truck register.
  • Page Down – Displays next page of the truck register.
  • Cancel – Exits to Weigh mode.
  • Delete – Deletes the highlighted truck ID from the truck register.
  • Delete All – Deletes all truck IDs from the truck register.

The truck register, for the highlighted entry, can be printed to an attached printer by pressing the Print key while the Truck Regs display is shown. The printed register uses the Truck Format print format (Section 4.5.6 on page 55).
7.3 Weigh-In Procedure
In modes 1 and 2, the indicator erases truck ID numbers and tare weights from memory after the transaction. In modes 3–6,the truck ID and weigh-in weight values are saved after the weigh-out ticket has been processed.
The general weigh-in procedure is as follows:

  1. The empty truck moves onto the scale for weigh-in.

  2. Press the Weigh In softkey. The keyboard truck ID entry screen displays.

  3. Enter the truck ID (up to 16 characters) using the alphanumeric entry procedure (Section 3.3.2 on page 30).
    NOTE: The numeric keypad can be used to enter numbers for truck IDs.

  4. Press Cancel softkey to exit without saving.
    – Or Press Save softkey to save and exit when the truck ID is correct.

  5. Display returns to Weigh mode and the indicator prints a weigh-in ticket.
    ID 304812
    GROSS 15000 LB INBOUND
    01/14/2022 10:24 AM

  6. Truck leaves the scale.

7.4 Weigh-Out Procedure
The general weigh-out procedure is as follows:

  1. The loaded truck moves onto the scale for weigh-out.

  2. If truck ID is known, press the Weigh Out softkey, enter the truck ID, and press Save softkey.
    If truck ID is not known, press the Truck Regs softkey to view list of stored truck IDs (Figure 7-3 on page 71). Scroll to the correct truck ID, note the truck ID, then press the Cancel softkey to return to the Weigh mode. From Weigh mode, press Weigh Out softkey, key in the truck ID, then press Save softkey.

  3. Display returns to Weigh mode and the indicator prints a weigh-out ticket. In modes 1 and 2, the truck ID is deleted once the weigh-out ticket is processed.

7.5 Single-Transaction Tare Weights and IDs
One-time transactions are supported in all modes that can be configured to use stored Truck IDs (modes 3–6). This function allows one-time weighing of trucks without adding the truck ID and weigh-in weight to the permanent truck register.
To use this function, press the Weigh In or Weigh Out softkey, then enter a truck ID containing a decimal point. Truck IDs entered with a decimal point as part of the truck ID are erased from the truck register when the transaction is complete.

HTTP Web Server

The 682 web server allows for remote viewing of the current 682 Weigh mode values through a web browser. The web server also allows for the use of certain 682 function keys and the ability to view and update active setpoint values.
8.1 Access Procedure
Configuring the HTTP Web Server requires access to Setup mode (Section 4.1 on page 39).

  1. Connect the 682 Ethernet port (J8) directly to a PC or through a network router or switch.
    NOTE: The web server is not available through Wi-Fi.
    2. Navigate to the Configuration menu within the Setup menu. Configuration displays.

  2. Press . Serial displays.

  3. Press or until Ethernet displays.

  4. Press . Ethernet MAC ID displays.

  5. Press . Http Server displays.

  6. Press . The current setting for Http Server is highlighted. Make sure On is selected and press .

  7. Press or until Enabled displays.

  8. Press . The current setting for Enabled is highlighted. Make sure On is selected and press .

  9. Press to return to Weigh mode to allow the indicator to initialize the updated settings.

  10. Reenter the Setup menu in Setup mode and navigate to the Communications menu. Communications displays.

  11.  Press . Serial displays.

  12. Press or until Ethernet displays.

  13. Press . Ethernet MAC ID displays.

  14.  Press or until IP Address displays.

  15.  Press . The current IP Address displays.

  16. Type the current IP Address into a web browser to access the 682 web server.

  17. Press twice to return to Weigh mode.

8.2 Browser Display
This section provides an example of the 682 web server browser display and describes all the features and their functions.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Browser
Display

Item No. Description
1 Current time and date
2 Unit ID location
3 Dark mode display option toggle; adjusts display for lowlight or nighttime

viewing
4| Current 682 weight display area
5| Remote numeric keypad
6| Remote function keys and softkeys
7| Ability to view and update setpoint values if Access is set to On for the selected setpoint, otherwise selecting the Change button has no effect

Table 8-1. Web Server Display Descriptions
NOTE: Text that appears in the message display area of the 682 is not shown via the web server.

Wi-Fi & Bluetooth® Communications

The 682 is a Wi-Fi and/or Bluetooth® device. The following sections provide details on Wi-Fi and Bluetooth® communications and describe the procedures required to configure these features.
The 682 features a Lantronix® xPico 200 Series wireless module. Visit
www.lantronix.com to view the xPico 200 Series User Guide for detailed instructions on the module.
NOTE: The use of a web browser on a computer or handheld device is needed to access the wireless module’s built-in Web Manager. See Section 3.4.17 on page 36 to view the Wi-Fi and Bluetooth® MAC Addresses from the 682 display.
Soft AP (Access Point) Details

NOTE: The Soft AP only shows up as a 5-GHz network. The connecting device must be capable of using the 5 GHz band to connect to the Soft AP. Setup → Communications → WiFi & Bluetooth → Enabled defaults to Off and must be set to WiFi, Bluetooth or Both to enable Wi-Fi & Bluetooth communications and allow the Soft AP to be available.
9.1 Bluetooth® Communications
To enable Bluetooth® for the 682 indicator, navigate to Setup → Communications → WiFi & Bluetooth → Enabled, and select Bluetooth or Both. This parameter is only accessible in Setup mode (Section 4.1 on page 39).
Once enabled, scan for available Bluetooth® devices on the device that is intended to be paired with the 682 and pair the intended Bluetooth® device with the 682 wireless module’s Bluetooth® connection. The 682 wireless module’s Bluetooth® device name is RLWS_XXXXXXXXXXXX.
NOTE: The X’s in the name represent the entire Bluetooth® MAC address.
9.2 Wi-Fi Communications
The 682 creates a Wi-Fi network that can be connected to with a computer or the location’s network. Configuration of the wireless settings is done through the built-in Web Manager. The Web Manager can be accessed through the built-in Soft AP (Access Point). The Soft AP can be used to connect to a location’s network using the Web Manager. In applications that don’t have a local network to connect to or if the network is not in range, the Soft AP connection can also be used to talk to a 682 by connecting to IP 192.168.0.1, port 10001.
9.2.1 Wi-Fi Setup
The following procedure is for setting up the Wi-Fi network using the wireless module’s built-in Web Manager.

  1. Power on the 682 indicator.

  2. To enable the wireless module and specify wireless communications in the 682 menu:
    • In Setup mode (Section 4.1 on page 39), navigate to Setup → Communications → WiFi & Bluetooth → Enabled, and set to WiFi or Both.
    • Return to Weigh mode to allow the change to initialize.

  3. Scan for available Wi-Fi networks using a computer or handheld device and connect to the Soft AP. It might take a few attempts before the Soft AP appears on the computer or device. The Soft AP only shows up as a 5-GHz network.
    • Soft AP Name: RLWS_XXXXXX
    • Soft AP Password: PASSWORD
    IMPORTANT: It is recommended to change default passwords to limit access and for security.RICE LAKE 682 Synergy Plus Digital Weight Indicator -
recommended NOTE: The X’s in the name represent the last 6 digits of the Wi-Fi MAC address. The serial number on the wireless module’s label is almost the same, other than the last digit being one number/character less than the Wi-Fi MAC address.
    FOR EXAMPLE: If the module’s serial number is “0080A3E8C27A”, then the SSID would be “RLWS_E8C27B”. The MAC address is a Hexadecimal value, so the letter A follows the number 9, and this continues to F before incrementing the next most significant digit and returning to 0.
    NOTE: The wireless module’s serial number is the same as the Bluetooth® MAC address.

  4. Once connected to the Soft AP, use a web browser and enter 192.168.0.1 as the URL address and press Enter.
    NOTE: Once connected to a network, a web browser on that network can connect to the Web Manager by simply navigating to the wireless module’s IP Address (available on the Status page of the Web Manager).

  5. Enter the default login credentials for the Web Manager.
    • Username: admin
    • Password: PASSWORD
    IMPORTANT: It is recommended to change default passwords to limit access and for security.RICE LAKE 682 Synergy Plus Digital Weight Indicator -
security

  6. Press Sign in. The Web Manager loads in the browser and the Status page appears.

  7. Click Quick Connect at the top of the left navigation panel.RICE LAKE 682 Synergy Plus Digital Weight Indicator - navigation panel

  8. A list of wireless networks appear. Click the network name intended to connect the wireless module’s Wi-Fi network to.
    NOTE: If the necessary network does not display, click the Scan button again. It may take a few tries to show the network. If the network is hidden, enter the network name in the box provided.RICE LAKE 682 Synergy Plus
Digital Weight Indicator - provided NOTE: The Web Manager provides notes and information related to the current page in the far right column. Descriptions for options and settings are also provided when hovering over the item in question.

  9. The wireless network information page appears. Enter the network password (if applicable).
    NOTE: Contact location’s IT administrator to obtain network credentials as needed based on the security in place.RICE LAKE 682 Synergy Plus Digital
Weight Indicator - provided 2

  10. Click Submit to apply and save the settings. A message displays at the top of the page to indicate if the new network’s Profile saved successfully. It does not necessarily mean it is connected to the network.
    NOTE: The Apply button only applies the settings for the current session, but does NOT save them.

  11. To verify wireless module is connected to the location’s network, click Status near the top of the left navigation panel.RICE LAKE 682 Synergy Plus Digital Weight Indicator - settings

  12. The Status page displays the network connections on the device under Network Settings.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Status page• If Connected: Interface wlan0 is listed with Connection State showing Connected and the IP Address populated.
    NOTE: The “/24” at the end of the IP Address indicates the number of bits set for the network subnet mask and is not part of the IP Address itself. There are 32 bits in a subnet mask and “/24” indicates the subnet mask is 255.255.255.0.
    • If Not Connected: First try refreshing the browser to see if the information populates, then click WLAN Profiles at the bottom of the left navigation panel to change the network settings and try again.

  13. Connecting to the wireless module’s server with a remote client is now possible.

  14. Using a Terminal Emulation program, such as PuTTY, as a remote client connection to the wireless module’s server over Telnet is possible using the IP Address that was noted in Step 12 and the Local Port number, which by default is 10001.

NOTE: If the card’s IP address changed and there is no longer access to the card through the location’s wireless network, connect to the Soft AP and use the Web Manager to learn the new IP Address.
For more information on features of this card, visit www.lantronix.com to view the xPico 200 Series User Guide.
9.2.2 Server Configuration
The wireless module is configured to be a server by default, with the ability to accept the connection of a client to it.

  • A Server is waiting to Accept a connection from a Client.
  • A Client is looking to Connect to a remote Server (host).

NOTE: Even though a device can be set up for both, typically it is only set up as one or the other.
The following procedure shows where the wireless module’s server settings are found using the Web Manager.
NOTE: Making changes to the Tunnel 1 Accept Configuration settings may impact the wireless module’s connection to the location’s network, established in Wi-Fi Setup (Section 9.2.1 on page 75).

  1. Refer to Steps 1-6 in Section 9.2.1 on page 75 to sign in to the Web Manager.
  2. Click Tunnel in the left navigation panel.RICE LAKE 682 Synergy Plus Digital Weight Indicator - panel
  3. Click Accept towards the top of the Tunnel 1 Status page.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Accept towards
  4. Change the Mode and Local Port settings if needed.RICE LAKE 682 Synergy Plus Digital Weight Indicator - settings if needed
  5. Click Submit at the bottom of the page to apply and save the settings. A message displays at the top of the page to confirm the changes have been saved permanently.

9.2.3 Client Configuration
The wireless module is configured to be a server by default, with the ability to accept the connection of a client to it.

  • A Server is waiting to Accept a connection from a Client.
  • A Client is looking to Connect to a remote Server (host).

The following procedure is for configuring the wireless module as a client, using the Web Manager, to be able to connect the wireless module to an available server connection.

  1. Refer to Steps 1-6 in Section 9.2.1 on page 75 to sign in to the Web Manager.

  2. Click Tunnel in the left navigation panel.RICE LAKE 682 Synergy Plus Digital Weight Indicator - navigation panel 2

  3. Click Connect towards the top of the Tunnel 1 Status page.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Status page.

  4. Use the drop-down to change the Mode setting, and then click [ Edit ] to display available Host 1 settings.
    NOTE: The Web Manager provides notes and information related to the current page in the far right column. Descriptions for options and settings are also provided when hovering over the item in question.RICE LAKE 682
Synergy Plus Digital Weight Indicator - Status page 2

  5. Set the Address and Port as needed to connect to the intended available server connection.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Address and Port

  6. Click Submit at the bottom of the page to apply and save the settings. A message displays at the top of the page to confirm the changes have been saved permanently.
    NOTE: While the wireless module’s server is still available, it is necessary to adjust the server and client mode settings to allow both to function in unison. Even though a device can be set up for both, typically it is only set up as one or the other.
    Refer to the xPico 200 Series User Guide at www.lantronix.com for more information.

9.2.4 Timeout Configuration
The wireless module has an optional Disconnect feature that can be configured to break a connection after a set amount of time. This feature applies to both server and client connections.
The following procedure shows where the wireless module’s timeout setting is found using the Web Manager.

  1. Refer to Steps 1-6 in Section 9.2.1 on page 75 to sign in to the Web Manager.
  2. Click Tunnel in the left navigation panel.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Tunnel
  3. Click Disconnect towards the top of the Tunnel 1 Status page.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Disconnect towards
  4. Enter the desired value in milliseconds for the Timeout setting. A value entry of 0 disables the Disconnect feature.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Disconnect feature
  5. Click Submit at the bottom of the page to apply and save the settings. A message displays at the top of the page to confirm the changes have been saved permanently.

9.3 Wireless Module Specifications
The 682 features a Altronix® xPico 200 Series wireless module. Visit www.lantronix.com to view the latest list of technical specifications on the wireless module.
Wireless Specifications

  • IEEE 802.11 a/b/g up to 54 Mbps; 802.11 n (1×1) up to 150 Mbps
  • 20 and 40 MHz channel width with optional SGI
  • Dual Band 2.4 GHz and 5 GHz, Channels 1-13, UNII-1, 2a, 2e and 3
  • Supports IEEE 802.11 d/h/i
  • Bluetooth®/WLAN Coexistence
  • 802.11r fast roaming

Bluetooth® Specifications

  • Compliant to Bluetooth® Core Specification version 4.2 (BR/EDR/Bluetooth® LE)
  • Bluetooth® LE Central and Peripheral Roles
  • Support for Generic Access Profile (GAP), Generic Attribute Profile (GATT), Device ID Profile
  • Serial Port Profile (SPP)

Data Communication

  • TruPort® Serial Technology – TCP and UDP Server Mode, TCP and UDP Client Mode, Multi-host Connect; TLS Client and Server
  • TruPort® Socket – Multi-host Client and Server Modes, HTTP(S), Sockets, TLS
  • Authenticated SMTP Support – Send email directly from device

Security and Authentication

  • TruPort® Security Software
    ◦ Secure Boot, Secure Firmware-Over-the-Air (FOTA) Updates
    ◦ Secure Key Storage, Encrypted Configuration
    ◦ Secure Connections with SSL/TLS, HTTPS
    ◦ Software Controlled Network Service Ports Enable/Disable
    ◦ Role Based Access Control

  • AES/CCMP and TKIP encryption, WPA/WPA2 Personal

  • WPA2 Enterprise (EAP-TLS, EAP-TTLS, EAP-PEAP, EAP-FAST)

  • SSLv3/TLS 1.2 with PKI and X.509 Certificates (up to 4096-bit Keys)

  • AES Algorithm, 256-bit, 192-bit, 128-bit

Wireless Module Specifications Continued
Management Interfaces

  • Altronix Console Flow™ Cloud Software Platform, REST, MQTT
  • Altronix Discovery Protocol (77FE)
  • Serial Port, Internal Web Server (HTTP/HTTPS)
  • XML Configuration and XML Status (CLI, API)
  • Secure Firmware Upgrade via HTTPS, Console Flow™

Protocol Support

  • DHCP Client, Server (Soft AP), HTTP Server/Client
  • IPv4, TCP/IP, UDP/IP, ARP, ICMP, Auto-IP, DNS
  • SNMP v1/v2
  • IPv6

Wireless Features

  • Concurrent Soft AP + STA (Client), Client, Soft AP
  • Up to 5 simultaneous client connections to Soft AP interface
  • Up to 4 in Concurrent Mode
  • Connect to multiple WLAN networks, WLAN Quick Connect

Certifications & Compliance

  • Type Approvals: USA (FCC Part 15), Canada (IC RSS), EU (RED), Japan (MIC), China (SRRC), AU/NZS
  • Safety: IEC 62368 EN 62368, EN 62311, UL 60950
  • RoHS, REACH
  • FCC ID: R68XPICO200
  • Canada IC: 3867A-XPICO200
  • CMIIT ID: 2017AJ6663(M)

Fieldbus Options Configuration

The 682 can be connected to SCT-2200 Fieldbus options to allow the 682 to communicate with a PLC with the necessary network protocol. The following sections provide details on Fieldbus communications and describe the procedures required to configure the available network protocols.
NOTE: The SCT-2200 Fieldbus options must be running firmware version 1.25 or higher to communicate with the 682.

Part No. Description
182591 Fieldbus, SCT-2200 Ether Net/IP Module
182592 Fieldbus, SCT-2200 PROFINET Module
212772 Fieldbus, SCT-2200 PROFIBUS DP Module
182596 Fieldbus, SCT-2200 Device Net Module
182597 Fieldbus, SCT-2200 CAN open Module
182598 Fieldbus, SCT-2200 Ether CAT Module
196694 Fieldbus, SCT-2200 Modbus TCP Module

Table 10-1. Available SCT-2200 Fieldbus Options for the 682 Indicator
10.1 Fieldbus Option Installation

  1. Remove the backplate of the 682 (Section 2.3 on page 13).
  2. Wire an RJ45 to blunt-end cable (not provided) to the J4 connector on the 682 CPU board (Section 2.6 on page 21).
    NOTE: Maximum RJ45 cable length is 4,000 ft. 682 J4 Pins| SCT-2200 Fieldbus Module RJ45 Pins| Wire Color| Wire Diagram
    ---|---|---|---
    1-3 (Not Used)| 6-8 (Not Used)| –| –
    4 (Y)| 5 (B-)| White/Blue| __
    5 (Z)| 4 (A+)| Blue| __
    –| 1-3 (Not Used)| –| –

Table 10-2. Pin Assignments

  1.  Connect the other end of the cable to one of the RS-485 RJ45 ports on the SCT-2200 Fieldbus module.RICE LAKE 682 Synergy Plus Digital Weight Indicator - Disconnect feature 2
Pin RJ45 Ports
6-8 Not Used
5 B-
4 A+
1-3 Not Used

10.2 682 Fieldbus Configuration
The following procedure details how to configure the 682 for Fieldbus. Once the necessary 682 parameters are configured and installation complete, communication with the SCT-2200 Fieldbus option (firmware version 1.25 or higher) is ready.

  1. Navigate to the Communications menu in Setup mode (Section 4.1 on page 39). Communications displays.

  2. Press . Serial displays.

  3. Press . RS-232 Port 1 displays.

  4. Press or until RS-485 displays.

  5. Press . Trigger displays.

  6. Press . The current setting for the RS-485 Trigger is highlighted.

  7. Ensure Fieldbus is selected and press .
    NOTE: The Trigger parameter for the Serial Option Card Port would be set to Fieldbus when using a serial option card.

  8. Press twice. Serial displays.

  9. Press . Fieldbus displays.

  10. Press . Network Protocol displays.

  11.  Press . The current set Network Protocol is highlighted. Select needed protocol and press .

  12.  Press . Protocol Parameters displays. Edit the protocol specific parameters if necessary.

  13. Press to return to Weigh mode.

IMPORTANT: If the Fieldbus option is not communicating the correct data, adjust the Byte/Word Swap parameter in the indicator. See Section 4.5.4.5 on page 51 for the Fieldbus menu structure and parameter descriptions.
682 Fieldbus Troubleshooting
After configuring the 682 parameters, cycle power to the module if it is wired to the 682.
The EtherNet/IP, Modbus TCP, PROFINET, DevicNet, and CANopen modules have three status LEDs:

  • Green LED = Power — Green Power LED is on when there is power to the module
  • Yellow LED = Status — Yellow Status LED is the RS-485 communication to the 682 If the module is not communicating, the yellow LED blinks rapidly for ~15 seconds then turns off for 1 second. If the module is communicating with the 682, the yellow LED blinks rapidly and does not turn off after ~15 seconds.
  • Red LED = Error — Red Error LED blinks until PLC is connected and communicating with the module, then turns off

The PROFIBUS module has four status LEDs that function differently than the above modules:

  • Red LED = Power — Red Power LED stays on when there is power to the module
  • Yellow LED = PROFIBUS — Yellow PROFIBUS LED stays on once module is connected to the PLC If the module is not connected to the 682, the Yellow PROFIBUS LED blinks rapidly for ~15 seconds, then the Green RX LED blinks 3 times, followed by the Yellow TX LED blinking 3 times. This cycle repeats until module connects.
  • Green LED = RX — Green RX LED and Yellow TX LED blink alternately when module is communicating with the 682
  • Yellow LED = TX — Yellow TX LED and Green RX LED blink alternately when module is communicating with the 682

10.3 EtherNet/IP Configuration
NOTE: The 682 must be configured for Fieldbus and Ether Net/IP:

  • Setup → Communications → Serial → RS-485 or Serial Option Card Port set to Fieldbus
  • Setup → Communications → Fieldbus → Network Protocol set to Ether Net/IP

10.3.1 EDS File Setup
This procedure walks through setting up the Ether Net/IP with an EDS file, preferred method. Use RX Logix to import EDS files.

  1. Select the Module Type Vendor Filter.
  2. Select Hi lsher GmbH.
  3. Select the catalog number NIC 52-RE/EIS and click Change.
  4. Select Exclusive Owner from the drop down list and click OK.

10.3.2 Generic Module Setup
Use the following settings to setup a generic module.

  • Comm Format: Data – DINT
  • Input: Assembly Instance: 101 | Size: 33
  • Output: Assembly Instance: 100 | Size: 32
  • Configuration: Assembly Instance: 8 | Size: 0

10.4 PROFINET Configuration
NOTE: The 682 must be configured for Fieldbus and PROFINET:

  • Setup → Communications → Serial → RS-485 or Serial Option Card Port set to Fieldbus
  • Setup → Communications → Fieldbus → Network Protocol set to PROFINET

Download GSDML files from the Rice Lake Weighing Systems website and configure PROFINET based on Figure 10-2.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - PROFINET
Configuration

NOTE: The following sections apply for both Ether Net/IP and PROFINET.
10.5 Data From the PLC to the Indicator

Register No. Data Registers Byte Order Byte No
0 Command Register 3 0
2 1
1 1 2
0 3
2 Parameter 1 3 4
2 5
3 1 6
0 7
4 Parameter 2 3 8
2 9
5 1 10
0 11
6 Parameter 3 3 12
2 13
7 1 14
0 15
8 Capacity 3 16
2 17
9 1 18
0 19
10 Units 3 20
2 21
11 1 22
0 23
12 Format 3 24
2 25
13 1 26
0 27
14 Calibration Point 3 28
2 29
15 1 30
0 31
16 Calibration Weight 3 32
2 33
17 1 34
0 35

Table 10-3. PLC to Indicator Data
10.5.1 Commands

Command Decimal Description
No Command 0 No action
Zero Scale 1 Zero the scale
Tare Scale 2 Tare the current weight if parameter 1=0, otherwise tare the

value that is in parameter 1
Clear Tare| 3| Clear a tare if one exists
Display Net Mode| 4| Switch the scale from gross mode to net mode
Display Gross Mode| 5| Switch the scale from net mode to gross mode
Write Setpoint| 10| Parameter 1 = setpoint # parameter 2 = value
Read Setpoint| 11| Parameter 1 = setpoint #
Read IO Points| 12| Parameter 1 = IO slot number
Set Output On| 24| Parameter 1 = slot parameter 2 = bit
Set Output Off| 25| Parameter 1 = slot parameter 2 = bit
Write Setup| 27| Write calibration settings and enter calibration mode
Restart Instrument| 34| Restarts the indicator
Perform Zero Calibration| 35| Performs a zero calibration
Perform Span Calibration| 36| Performs a span calibration
Point Calibration| 37| Point value found in parameter 1 (1-3)
Save Calibration| 38| Save the calibration and exit calibration mode
Abort Calibration| 39| Aborts a calibration and clears any errors
Keyboard Enable/Disable| 40| Disable keys (parameter 1 = 0)

Enable keys (parameter 1 = 1)

Read Accumulator| 41| Multivalued 1 = returned accumulator value

Table 10-4. Command Values
10.6 Data From the Indicator to the PLC

NOTE: For EtherNet/IP options ONLY, if a generic module is setup, Header information occupies the first four bytes of data and pushes other data registers down.

Register No. Data Registers Byte Order Byte No
0 Gross Weight 3 0
2 1
1 1 2
0 3
2 Net Weight 3 4
2 5
3 1 6
0 7
4 Scale Status 3 8
2 9
5 1 10
0 11
6 Onboard Digital I/O Status 3 12
2 13
7 1 14
0 15
8 Last Command Processed 3 16
2 17
9 1 18
0 19
10 Command Status 3 20
2 21
11 1 22
0 23
12 Calibration Status 3 24
2 25
13 1 26
0 27
14 Multi-use Value 1 3 28
2 29
15 1 30
0 31
16 Multi-use Value 2 3 32
2 33
17 1 34
0 35

Table 10-5. Indicator to PLC Data
10.6.1 Onboard Digital I/O Status

Bit Description Bit Status
0 Digital I/O Bit 0 = Off

1
2
3
4-31| Future Use

Table 10-6. Onboard Digital I/O Status
10.6.2 Calibration Status

Value Description
0 Calibration not started
1 Calibration Acquisition in process
2 Calibration Acquisition OK
3 Calibration error

Table 10-7. Calibration Status
10.6.3 Command Status

Bytes Description
0-3 Current command status result

Table 10-8. Command Status
The following values named Result of last command received, needs updating after the last command processed value is updated.

Value Description
0 Command successfully performed
1 Not a valid command
2 General error; Trying to tare or zero while scale is in motion
3 Setpoint number does not exist; When trying to read or write to a setpoint

but the setpoint value does not exist
4| Setpoint Kind set to OFF; When trying to read or write to a setpoint, but that setpoint is not configured
5| Setpoint not enabled; When trying to read or write to a setpoint but the setpoint is not enabled
6| Invalid IO; When trying to set any output on or off and that output is not configured
7| Not in Setup mode; When trying to use write setup, zero calibration, span calibration, point calibration, save calibration or abort calibration commands
8| Wrong command; Non-calibration command used during calibration
9| Invalid unit selection
10| Invalid decimal selection
11| Invalid display division selection
12| Calibration point out of range (1–4)
13| Invalid grads value
14| Calibration not allowed for MRMI or serial scale
15| Calibration weight out of range
16| Accumulator is not enabled
17| Audit trail is not enabled; Check the jumper to see that it is in the correct position

Unit Values

Value Unit
0 Use configured unit
1 Lb
2 Kg
3 Oz
4 Tn
5 T
6 G
7 None

Table 10-10. Unit Values
Decimal Point Values

Value Decimal Point
0 Use configured decimal point
1 88.88881
2 88.88882
3 88.88885
4 888.8881
5 888.8882
6 888.8885
7 8888.881
8 8888.882
9 8888.885
10 88888.81
11 88888.82
12 88888.85
13 888888.1
14 888888.2
15 888888.5
16 8888881
17 8888882
18 8888885
19 8888810
20 8888820
21 8888850
22 8888100
23 8888200
24 8888500

Table 10-11. Decimal Point Values
10.6.4 Scale Status

Bit Description Bit Status
0 Net Weight Polarity 0 = Positive
1 Gross Weight Polarity
2 Weight Stability 0 = Stable
3 Underload Condition 0 = OK
4 Overload Condition 0 = OK
5 Push Button Tare Condition 0 = No
6 Keyed Tare Condition 0 = No
7 Gross Center of Zero 0 = COZ**
8 Display Mode 0 = Net
9 Current Units 0 = Primary
10 Heartbeat – delay of 500 ms between on and off 0 = Off
11 Scale Error 0 = Error
12 Accumulator Weight Polarity 0 = Positive
12-31 Future Use

** Center of Zero

Table 10-12. Status Descriptions
10.6.5 Scale Error
NOTE: The scale error bit is always set to 1 unless one of the following errors occurs. At that time, the error bit is set to 0 until the error is cleared.
Error Condition
Configuration signature error
General configuration checksum error
Load cell data checksum error
Backup battery voltage low
Battery backed memory corrupt
Load cell A/D error
Tare data checksum error
Accumulator overflow error
Unable to write to non-volatile memory
Table 10-13. Error Conditions
10.7 Standard Calibration Process

Refer to Table 10-3 on page 87 for parameter data information and Table 10-4 on page 88 for descriptions of calibration commands. See Section 10.6.2 on page 90 and Section 10.6.3 on page 90 for possible command responses during the calibration process.
The standard calibration process requires access to Setup mode (Section 4.1 on page 39).

  1. Set Capacity, Units and Format parameter data values (Table 10-3 on page 87).

  2. Send command 27 to write Capacity, Units and Format parameter data values.
    NOTE: No external button presses are needed to put the indicator into calibration mode with command 27 as long as the Audit Jumper is in the ON position (Section 4.1.1 on page 39).

  3. Remove all weight from the scale.

  4. Send command 35 to perform a zero calibration.

  5. Set the Calibration Weight parameter data value to the needed span weight.

  6. Set the Calibration Point parameter data value to 1.

  7. Place the specified calibration weight on the scale.

  8. Send command 36 to perform a span calibration.

  9. Send command 38 to save and exit calibration mode.

Revolution

The Revolution utility provides a suite of functions used to support configuration, calibration, customization and backup of the 682 software.
Calibration values and scale configuration can both be saved and restored to the 682 using Revolution.
NOTE: For system requirements visit the Revolution product page on Rice Lake Weighing Systems website.
11.1 Connecting to the Indicator
Connect the PC serial port to a 682 comma port, then click Connect in the toolbar. Revolution attempts to establish communications to the indicator. If communication settings need to be adjusted, select Options… from the Tools menu.
Downloading to the Indicator
The Send Configuration to Device function in the Revolution Communications menu allows a Revolution configuration file (with or without scale calibration data) or ticket formats to be sent/downloaded to a connected indicator in Setup mode.
The Send Section to Device function in the Communications menu allows the download of only the currently displayed object, such as a scale configuration.
Because less data is transferred using the Send Section to Device, it is typically faster than a full configuration download, but there is an increased possibility the download fails due to dependencies on other objects. If the download fails, try performing a complete download using the Send Configuration to Device function.
Uploading Configuration to Revolution
The Get Configuration from Device function in the Revolution Communications menu allows the existing configuration of a connected indicator to be saved to a file on the PC. Once saved, the configuration file provides a backup which can be quickly restored to the indicator if needed. Alternatively, the file can be edited within Revolution and sent back to the indicator.
11.2 Saving and Transferring Data
NOTE: Revolution has a module to save and transfer data. It is the preferred method over using ProComm or Hyper Terminal.
11.2.1 Saving Indicator Data to a PC
Configuration data can be saved to a computer connected to the selected port. The PC must be running a communications program such as PROCOMMPLUS® .
When configuring the indicator, ensure the values set for the baud and bits parameters on the serial menu match the baud rate, bits and parity settings configured for the serial port on the PC.
To save all configuration data, first put the communications program into data capture mode, then place the indicator in Setup mode and send the DUMPALL command to the indicator. The 682 responds by sending all configuration parameters to the PC as ASCII-formatted text.
11.2.2 Downloading Configuration Data from PC to Indicator
Configuration data saved on a PC or disc can be downloaded from the PC to an indicator. This procedure is useful when a number of indicators with similar configurations are set up or when an indicator is replaced.
To download configuration data, connect the PC to the selected port as described in Section 11.2.1. Place the indicator in Setup mode and use the PC communications software to send the saved configuration data to the indicator. When transfer is complete, calibrate the indicator as described in Section 6.0 on page 67.
11.3 Updating Firmware
Revolution is used to update the firmware of the 682 indicator. The link to begin this process is available on the Revolution home screen. Updating the firmware defaults the configuration settings.

EDP Commands

The 682 indicator can be controlled by a personal computer connected to one of the indicator communication ports. Control is provided by a set of commands which can simulate front panel key press functions, return and change setup parameters, and perform reporting functions. The commands provide the capability to print configuration data or to save data to an attached personal computer. This section describes the EDP command set and procedures for saving and transferring data using the communication ports. The EDP command set is divided into several groups.
When the indicator processes a command, it either responds with a value (for reporting commands, or when querying parameter settings), or with the message OK. The OK response verifies the command was received and has been executed. If the command is unrecognized, the indicator responds with ?? invalid command. If the command cannot be executed in the current mode, the indicator responds with ?? invalid mode. If the command is recognized, but the value is out of range or an invalid type, the indicator responds with ?? followed by the type and the range.
12.1 Key Press Commands
Key press serial commands simulate pressing keys on the front panel of the indicator. These commands can be used in both setup and Weigh mode. Several of the commands serve as pseudo keys, providing functions which are not represented by a key on the front panel.
For example, to enter a 15 lb tare weight using serial commands:

  1. Type K1 and press Enter (or Return).
  2.  Type K5 and press Enter.
  3. Type KTARE and press Enter.
Command Function
KZERO In Weigh mode, this command acts like pressing the Zero key
KGROSSNET In Weigh mode, this command acts like pressing the Gross/Net

key
KGROSS| Displays Gross mode (pseudo key)
KNET| Displays Net mode (pseudo key)
KTARE| In Weigh mode, this command acts like pressing the Tare key
KUNITS| In Weigh mode, this command acts like pressing the Units key
KPRIM| Displays primary units (pseudo key)
KSEC| Displays secondary units (pseudo key)
KTER| Displays tertiary units (pseudo key)
KPRINT| In Weigh mode, this command acts like pressing the Print key
KSOFT1–5| In Weigh mode, this command acts like pressing the associated softkey
KPRINTACCUM| Prints the accumulator value
KDISPACCUM| Displays the accumulator value
KDISPTARE| Displays the tare value
KCLR| In Weigh mode, this command acts like pressing the Clear key
KCLRCN| Clears consecutive number
KCLRTAR| Clears the tare from the system (pseudo key)
KLEFT| In Setup mode, this command moves Left in the menu
KRIGHT| In Setup mode, this command moves Right in the menu
KUP| In Setup mode, this command moves Up in the menu
KDOWN| In Setup mode, this command moves Down in the menu
KEXIT| In Setup mode, this command exits to Weigh mode
KSAVE| In Setup mode, this command saves the current configuration
KSAVEEXIT| In Setup mode, this command saves the current configuration and exits to Weigh mode
KTIME| Displays the Set System Time screen
KDATE| Displays the Set System Date screen
KTIMEDATE| Displays the Set System Time screen
KCLRACCUM| Clears the accumulator
Command| Function
---|---
Kn| This command acts like pressing numbers 0 (zero) through 9
KDOT| This command acts like pressing the decimal point (.)
KENTER| This command acts like pressing the Enter key
KLOCK=x| In Weigh mode, this command locks specified front panel key; x = KPRINT, KUNITS, KTARE, KGROSSNET, KZERO, K0-K9, KDOT, KCLEAR (example: to lock the Zero key, enter KLOCK=KZERO)
KUNLOCK=x| In Weigh mode, this command unlocks specified front panel key; x = KPRINT, KUNITS, KTARE, KGROSSNET, KZERO, K0-K9, KDOT, KCLEAR (example: to unlock the Print key, enter KUNLOCK=KPRINT)

Table 12-1. Key Press Commands (Continued)
12.2 Reporting Commands
Reporting commands send specific information to the communications port. The commands listed in Table 12-2 can be used in either Setup mode or Weigh mode.

Command Function
DUMPALL Returns a list of all parameter values
DUMPAUDIT Returns the Audit Trail information
KDUMPAUDIT Returns the Audit Trail information on the same port which the EDP

command was sent
AUDIT.LRVERSION| Returns the legally relevant firmware version
AUDIT.CONFIG| Returns the number of times configuration has changed
AUDIT.CALIBRATE| Returns the number of calibrations
AUDITJUMPER| Returns the position of the audit jumper: OK (if the audit jumper is ON) or ?? (if the audit jumper is OFF)
SPDUMP| Returns a list of the setpoint parameter values
VERSION| Returns the installed firmware version
FIELDBUS.VERSION| Returns the connected Fieldbus module’s firmware version; returns V0.00.00 if no Fieldbus module is connected
BUILD| Returns the firmware version and build number
HARDWARE| Returns the option card installed
HWSUPPORT| Returns the CPU board part number
RTCBATTERYSTATUS| Returns the status of the real time clock battery: GOOD or BAD

Table 12-2. Reporting Commands
12.3 SD Card Commands
The following commands can be used to store or restore a backup copy of the indicator configuration to a microSD card. Indicator must be in Setup mode.
NOTE: A microSD card must be installed when using SD Card commands to back up or restore indicator configuration.

Command Function
SDCARD.STORE Store (back up) the current configuration to the installed

microSD card; Answers OK if successful
SDCARD.LOAD| Loads a stored backup configuration from the installed microSD card; Answers OK if successful

Table 12-3. Reset Configuration Command
NOTE: The microSD card only functions with the 682. It is not formatted in FAT32 and will not be recognized by a PC.
Ensure indicator firmware versions match before transferring a microSD card from one indicator to another.
12.4 Reset Configuration Command
The following command can be used to reset the configuration parameters of the 682.

Command Function
RESETCONFIGURATION Restores all configuration parameters to default values (

Setup mode only)

Table 12-4. Reset Configuration Command
NOTE: All scale calibration settings are lost when the RESETCONFIGURATION command is run.
12.5 Scale Parameter Setting Commands
Parameter setting commands allow the current value for a configuration parameter to be displayed or changed.
Current configuration parameter settings can be displayed in Setup mode or Weigh mode using the following syntax: command
Most parameter values can be changed in Setup mode only; setpoint parameters listed in Table 12-15 on page 103 can be changed when in normal Weigh mode.
NOTE: The user must stop the current batch for new values to take effect.
Use the following command syntax when changing parameter values: command=value, where value is either a number or a parameter value. Use no spaces before or after the equal (=) sign. If an incorrect command is typed or an invalid value is specified, the indicator returns ?? followed by the error message.
Example: to set the motion band parameter on Scale #1 to 5 divisions, type the following:
SC.MOTBAND#1=5
To return a list of the available values for parameters with specific values, enter the command and equal sign, followed by a question mark (command=?). The indicator must be in Setup mode to use this function.
After changes are made to configuration parameters using EDP commands, use the KSAVE or KSAVEEXIT commands to commit the changes to memory.

Command Description Values
SC.CAPACITY#n Scale capacity 0.0000001–9999999.0, 10000.0 (default)
SC.ZTRKBND#n Zero track band (in display divisions) 0.0–100.0, 0.0

(default)
SC.ZRANGE# n| Zero range (%)| 0.0–100.0, 1.9 (default)
SC.SPLIT# n| Enables Multi-Range or Multi-Interval modes| OFF (default), MULTIRANGE, MULTIINTERVAL
SC.RANGE1# n SC.RANGE2# n| Sets the capacity of Range 1-2 for the scale in primary units| 0.0-9999999.0, 0.0 (default)
SC.RANGE1.FMT# n SC.RANGE2.FMT# n| Sets the Range 1-2 units format (decimal point and display divisions)| 8888100, 8888200, 8888500, 8888810, 8888820, 8888850, 8888881 (default), 8888882, 8888885, 888888.1, 888888.2, 888888.5, 88888.81, 88888.82, 88888.85, 8888.881, 8888.882, 8888.885, 888.8881, 888.8882, 888.8885, 88.88881, 88.88882, 88.88885
SC.MOTBAND# n| Motion band (in display divisions)| 0–100, 1 (default)
SC.SSTIME# n| Standstill time (in 0.1 second intervals; 10 = 1 second)| 0–600, 10 (default)
SC.SENSE# n| Sets the type of load cell cable connected| 4-WIRE (default), 6-WIRE
SC.OVERLOAD# n| Overload| FS+2% (default), FS+1D, FS+9D, FS
SC.WMTTHRH# n| Weighment threshold| 0.0–9999999.0, 1000.0 (default)
SC.NUMWEIGH# n| Number of weighments (read only)| 0–4294967295
SC.MAX WEIGHT# n| Maximum weighment (read only)| -9999999–9999999
SC.MAX_DATE# n| Date of maximum weighment (read only)| Up to 25 alphanumeric characters
For commands ending with #n , n is the scale number (1)

Table 12-5. Scale Parameter Setting Commands

Command Description Values
SC.DIGFLTR1# n SC.DIGFLTR2# n SC.DIGFLTR3# n Number of A/D samples
averaged for the individual stages (1-3) of the three stage digital filter 1,

2, 4 (default), 8, 16, 32, 64, 128, 256
SC.DFSENS# n| Digital filter cutout sensitivity| 2OUT (default), 4OUT, 8OUT, 16OUT, 32OUT, 64OUT, 128OUT
SC.DFTHRH# n| Digital filter cutout threshold| NONE (default), 2D, 5D, 10D, 20D, 50D, 100D, 200D, 250D
SC.RATLTRAP# n| Rattletrap filtering| OFF (default), ON
SC.SMPRAT# n| Scale A/D sample rate| 6.25HZ, 7.5HZ, 12.5HZ, 15HZ, 25HZ, 30HZ (default), 50HZ, 60HZ, 100HZ, 120HZ
SC.PWRUPMD# n| Power up mode| GO (default), DELAY
SC.TAREFN# n| Tare function| BOTH (default), KEYED, NOTARE, PBTARE
SC.PRI.FMT# n| Primary units format (decimal point and display divisions)| 8888100, 8888200, 8888500, 8888810, 8888820, 8888850, 8888881 (default), 8888882, 8888885, 888888.1, 888888.2, 888888.5, 88888.81, 88888.82, 88888.85, 8888.881, 8888.882, 8888.885, 888.8881, 888.8882, 888.8885, 88.88881, 88.88882, 88.88885
SC.PRI.UNITS# n| Primary units| LB (default), KG, OZ, TN, T, G, NONE
SC. SEC. FMT # n| Secondary units format (decimal point and display divisions)| 8888100, 8888200, 8888500, 8888810, 8888820, 8888850, 8888881, 8888882, 8888885, 888888.1, 888888.2, 888888.5 (default), 88888.81, 88888.82, 88888.85, 8888.881, 8888.882, 8888.885, 888.8881, 888.8882, 888.8885, 88.88881, 88.88882, 88.88885
SC.SEC.UNITS# n| Secondary units| LB, KG (default), OZ, TN, T, G, CUSTOM1, CUSTOM2, CUSTOM3, NONE
SC.SEC.ENABLED# n| Enable the Secondary Units| ON (default), OFF
SC.TER.FMT# n| Tertiary units format (decimal point and display divisions)| 8888100, 8888200, 8888500, 8888810, 8888820, 8888850, 8888881, 8888882, 8888885, 888888.1, 888888.2,  888888.5 (default), 88888.81, 88888.82, 88888.85, 8888.881, 8888.882, 8888.885, 888.8881, 888.8882, 888.8885, 88.88881, 88.88882, 88.88885
SC.TER.UNITS# n| Tertiary units| LB, KG (default), OZ, TN, T, G, CUSTOM1, CUSTOM2, CUSTOM3, NONE
SC.TER.ENABLED# n| Enable the Tertiary Units| OFF (default), ON
SC.CUNITS1# n SC.CUNITS2# n SC.CUNITS3# n| Sets label for available custom units; maximum length is 2 alphanumeric characters| “blank” (default)
SC.CUNITSMULT1# n SC.CUNITSMULT2# n SC.CUNITSMULT3# n| Sets conversion factor/multiplier applied to the primary units to convert weight for custom units| 0.0000001 to 9999999.0, 1.0 (default)
SC.FILTERCHAIN# n| Defines what filter to use| AVGONLY (default), ADPONLY, DMPONLY, RAW
SC.DAMPINGVALUE# n| Sets the damping time constant| 1–2560 (in 0.1 second intervals), 10 (default)
SC.ADTHRESHOLD# n| Adaptive filter weight threshold value| 0–2000 (in display divisions), 10 (default)
SC.ADSENSITIVITY# n| Adaptive filter sensitivity| LIGHT (default), MEDIUM, HEAVY
SC.ACCUM# n| Accumulator enable| OFF (default), ON
SC.WZERO# n| Perform zero calibration| —
SC.TEMPZERO #n| Perform temporary zero calibration| —
SC.LASTZERO #n| Perform last zero calibration| —
SC.WVAL# n| Test weight value| 0.000001–9999999.999999, 10000.0 (default)
SC.WSPAN# n| Perform span calibration| —
SC.WLIN.F1# n – SC.WLIN.F4# n| Actual raw count value for linear points 1–4| 0–16777215, 0 (default)
For commands ending with #n , n is the scale number (1)
Command| Description| Values
---|---|---
SC.WLIN.V1# n – SC.WLIN.V4# n| Test weight value for linear points 1–4 (A setting of 0 indicates the linear point is not used)| 0.000001–9999999.999999, 0.0 (default)
SC.WLIN.C1# n – SC.WLIN.C4# n| Perform linear calibration on points 1–4| —
SC.LC.CD# n| Deadload coefficient raw count value| 0–16777215, 8386509 (default)
SC.LC.CW# n| Span coefficient raw count value| 0–16777215, 2186044 (default)
SC.LC.CZ# n| Temporary zero raw count value| 0–16777215, 2186044 (default)
SC.REZERO# n| Perform the Rezero calibration function| —
SC.INITIALZERO# n| Initial Zero range in % of full scale| 0.0–100.0, 0.0 (default)
SC.RTZGRAD# n| Number of graduations from the zero base at which the accumulator re-arms itself| 0.0–100.0, 0.4 (default)
For commands ending with #n , n is the scale number (1)

Table 12-5. Scale Parameter Setting Commands
12.6 Serial Port Setting Commands

The following commands can be used to configure serial port parameters.

Command Description Values
EDP. TRIGGER # p Port serial input trigger function CMD (default),

STRIND, STRLFT, REMOTE
EDP. BAUD # p| Port baud rate| 1200, 2400, 4800, 9600 (default), 19200, 28800, 38400, 57600, 115200
EDP. BITS # p| Port data bits/parity| 8NONE (default), 8EVEN, 8ODD, 7EVEN, 7ODD
EDP. TERMIN # p| Port line termination character| CR/LF (default), CR
EDP.STOPBITS # p| Port stop bits| 1 (default), 2
EDP. ECHO # p| Port echo| ON (default), OFF
EDP. RESPONSE # p| Port response| ON (default), OFF
EDP. EOLDLY # p| Port end-of-line delay| 0–255 (0.1-second intervals), 0 (default)
EDP.ADDRESS # p| Port RS-485 address (ports 3-5 only)| 0–255, 0 (default)
EDP.DUPLEX # p| Port duplex setting for RS-485 ports (ports 3-5 only)| FULL (default), HALF
EDP.TYPE # p| Serial option card port type (ports 4-5 only)| RS232 (default), RS485
For commands ending with #p , p is the port number (1-5)

Table 12-6. Serial Port Commands
12.6.1 Serial Ports

  • Ports 1 and 2 are the two RS-232 ports
  • Port 3 is the RS-485/422 port
  • Port 4 and 5 are the two RS-232 or RS-485/422 ports on the optional Dual Serial Option Card

12.7 Ethernet and USB Setting Commands
The following commands can be used to configure Ethernet and USB parameters.

Command Description Values
WIRED.MACID Ethernet hardware MAC ID (read only) xx:xx:xx:xx:xx:xx
WIRED.DHCP Enable Ethernet DHCP ON (default), OFF
WIRED.ENABLED Enable wired Ethernet adapter ON, OFF (default)
WIRED.IPADDR Ethernet IP address Valid IP xxx.xxx.xxx.xxx*, 0.0.0.0

(default)
WIRED.SUBNET| Ethernet subnet mask| Valid IP xxx.xxx.xxx.xxx, 255.255.255.0 (default)
WIRED.GATEWAY| Ethernet gateway| Valid IP xxx.xxx.xxx.xxx
, 0.0.0.0 (default)
TCPC1.ECHO| TCP Client 1 echo| ON (default), OFF
TCPC1.EOLDLY| TCP Client 1 end-of-line delay| 0–255 (in 0.1 sec intervals), 0 (default)
TCPC1.IPADDR| TCP Client 1 remote server IP| Valid IP xxx.xxx.xxx.xxx*, 0.0.0.0 (default)
TCPC1.LINETERM| TCP Client 1 line termination| CR/LF (default), CR
TCPC1.PORT| TCP Client 1 remote server port| 1025–65535, 10001 (default)
TCPC1.RESPONSE| TCP Client 1 response| ON (default), OFF
TCPC1.TRIGGER| TCP Client 1 input trigger type| CMD (default), STRIND, STRLFT, REMOTE
TCPC1.DISCTIME| TCP Client 1 disconnect time (in seconds)| 0–60 (0 = do not disconnect), 0 (default)
TCPS.PORT| TCP Server port number| 1025–65535, 10001 (default)
TCPS.HOSTNAME| TCP Server host name| Up to 30 alphanumeric characters, 0 (default)
TCPS.TRIGGER| TCP Server input trigger type| CMD (default), STRIND, STRLFT, REMOTE
TCPS.ECHO| TCP Server echo| ON (default), OFF
TCPS.LINETERM| TCP Server line termination| CR/LF (default), CR
TCPS.RESPONSE| TCP Server response| ON (default), OFF
USB.TRIGGER| USB input trigger type| CMD (default), STRIND, STRLFT, REMOTE
USB.LINETERM| USB line terminator| CR/LF (default), CR
USB.ECHO| USB echo| ON (default), OFF
USB.RESPONSE| USB response| ON (default), OFF
USB.EOLDLY| USB end of line delay (in 0.1 second intervals)| 0–255, 0 (default)
***** A valid IP consists of four numbers, in the range of 0 to 255, separated by a decimal point (127.0.0.1 and 192.165.0.230 are valid IP addresses)

Table 12-7. Ethernet TCP/IP and USB Commands
12.8 Wi-Fi and Bluetooth® Setting Commands
The following commands can be used to configure Wi-Fi and Bluetooth® parameters.

Command Description Values
WIFIBT.ENABLED Enables the wireless module and sets Wi-Fi and/or Bluetooth®

OFF (default), WIFI, BLUETOOTH, BOTH
WIFIBT.TRIGGER| Wi-Fi/Bluetooth® input trigger type| CMD (default), STRIND, STRLFT, REMOTE
WIFIBT.TERMIN| Wi-Fi/Bluetooth® line terminator| CR/LF (default), CR
WIFIBT.ECHO| Wi-Fi/Bluetooth® echo| ON (default), OFF
WIFIBT.RESPONSE| Wi-Fi/Bluetooth® response| ON (default), OFF
WIFIBT.EOLDLY| Wi-Fi/Bluetooth® end of line delay| 0–255 (in 0.1 second intervals), 0 (default)
BLUETOOTH.MACID| Returns MAC address of the Bluetooth® radio (read only)| xx:xx:xx:xx:xx:xx
WIFI.MACID| Returns MAC address of the Wi-Fi radio (read only)| xx:xx:xx:xx:xx:xx

Table 12-8. Wi-Fi and Bluetooth® Commands
12.9 Fieldbus Setting Commands
The following commands can be used to configure Fieldbus parameters.

Command Description Values
FIELDBUS.NETWORK Fieldbus network protocol ETHERNET_IP (default),

MODBUS, PROFIBUS,
PROFINET, CANOPEN, DEVICENET, ETHERCAT
FIELDBUS.SWAP| Byte or Word swap, Both enables Byte and Word| NONE (default), BYTE, WORD, BOTH
FIELDBUS.AUTOIP| Automatically get network parameters from the network (DHCP)| OFF (default), ON
FIELDBUS.CANOPEN.NETWORKRATE| CAN open network node rate| 1MB (default), 10 KB, 20KB, 50KB, 100KB, 125KB, 250KB, 500KB, 800KB
FIELDBUS.CANOPEN.NODE| CAN open node address| 1-128, 1 (default)
FIELDBUS.DEVICENET.NETWORKRATE| Device Net network node rate| 500KB (default), 125KB, 250KB
FIELDBUS.DEVICENET.NODE| Device Net node address| 1-64, 1 (default)
FIELDBUS.ETHERNET_IP.GATEWAY| Ether Net/IP gateway; disabled if Auto IP is ON| 0.0.0.0 (default)
FIELDBUS.ETHERNET_IP.IPADDR| Ether Net/IP IP address; disabled if Auto IP is ON| 0.0.0.0 (default)
FIELDBUS.ETHERNET_IP.SUBNET| Ether Net/IP subnet; disabled if Auto IP is ON| 255.255.255.0 (default)
FIELDBUS.MODBUS.GATEWAY| Modbus TCP gateway; disabled if Auto IP is ON| 0.0.0.0 (default)
FIELDBUS.MODBUS.IPADDR| Modbus TCP IP address; disabled if Auto IP is ON| 0.0.0.0 (default)
FIELDBUS.MODBUS.SUBNET| Modbus TCP subnet; disabled if Auto IP is ON| 255.255.255.0 (default)
FIELDBUS.PROFIBUS.NODE| PROFIBUS node address| 1-126, 1 (default)
FIELDBUS.PROFINET.GATEWAY| PROFINET gateway; disabled if Auto IP is ON| 0.0.0.0 (default)
FIELDBUS.PROFINET.IPADDR| PROFINET IP address; disabled if Auto IP is ON| 0.0.0.0 (default)
FIELDBUS.PROFINET.SUBNET| PROFINET subnet; disabled if Auto IP is ON| 255.255.255.0 (default)

Table 12-9. Fieldbus Commands
12.10 Alibi Setting Commands
The following command can be used to configure Alibi parameters.

Command Description Values
ALIBI.ENABLED Enables the storage of print transactions in the Alibi
database OFF (default), ON
ALIBI.COUNT Returns number of records present
ALIBI.PRINT Prints the alibi record at the specified record number; returns

?? Invalid Index if record doesn’t exist and OK if successful
For Example: ALIBI.PRINT=5 or ALIBI.PRINT=287| –
ALIBI.PURGE| Deletes the oldest 4 KB of records; returns how many records were deleted| –

Table 12-10. Alibi Commands
12.11 Truck Mode Setting Commands
The following commands can be used to configure truck mode parameters.

Command Description Values
TRUCK.MODE Six available preset truck modes, see Section 7.0 on page 70

OFF (default), MODE1, MODE2, MODE3, MODE4,

MODE5, MODE6

TRUCK.IDOVRWRT| Allows duplicate Truck IDs to overwrite stored Truck IDs| DISABLE (default), ENABLE

Table 12-11. Truck Mode Commands
12.12 Stream Setting Commands
The following commands can be used to configure stream format parameters.

Command Description Values
STRM. FORMAT # n Stream format RLWS (default), CARDNAL, WTRONIX,

TOLEDO, CUSTOM
STRM. CUSTOM # n| Custom stream definition| Up to 1,000 alphanumeric characters
STRM. GROSS # n| Mode token when streaming the Gross weight| Up to 8 alphanumeric characters, G (default)
STRM. NET # n| Mode token when streaming the Net weight| Up to 8 alphanumeric characters, N (default)
STRM. PRI # n| Units token when streaming Primary units| Up to 8 alphanumeric characters, L (default)
STRM. SEC # n| Units token when streaming Secondary units| Up to 8 alphanumeric characters, K (default)
STRM. TER # n| Units token when streaming Tertiary units| Up to 8 alphanumeric characters, K (default)
STRM. INVALID # n| Status token when streaming an Invalid weight| Up to 2 alphanumeric characters, I (default)
STRM. MOTION # n| Status token when the weight is in motion| Up to 2 alphanumeric characters, M (default)
STRM. POS # n| Polarity token when the weight is positive| SPACE (default), NONE, +
STRM. NEG # n| Polarity token when the weight is negative| SPACE, NONE, (default)
STRM. OK # n| Status token when the weight is OK (not invalid, out of range, at zero or in-motion)| Up to 2 alphanumeric characters (default is a space)
STRM. TARE # n| Mode token when streaming the tare weight| Up to 8 alphanumeric characters, T (default)
STRM. RANGE # n| Status token when the weight is Out of Range| Up to 2 alphanumeric characters, O (default)
STRM. ZERO # n| Status token when the weight is at Center of Zero| Up to 2 alphanumeric characters, Z (default)
STRM. UNITS #n| Static uses EDP set Primary/Secondary units token;
Dynamic defaults to configured units of the scale| STATIC (default), DYNAMIC
For commands ending with #n , n is the stream format number (1)

Table 12-12. Stream Formatting Commands
12.13 Program Commands
The following commands can be used to configure program parameters.

Command Description Values
PWD.USER Sets user menu password; cannot query the current password Up to 16

alphanumeric characters
PWD.SETUP| Sets setup menu password, cannot query the current password| Up to 16 alphanumeric characters
DATEFMT| Date format| MMDDYY (default), DDMMYY, YYMMDD, YYDDMM
DATESEP| Date separator| SLASH (default), DASH, SEMI, DOT
TIMEFMT| Time format| 12HOUR (default), 24HOUR
TIMESEP| Time separator| COLON (default), COMMA, DOT
CONSNUM| Consecutive numbering| 0–9999999, 0 (default)
CONSTUP| Consecutive number start-up value| 0–9999999, 0 (default)
UID| ID of the indicator| Up to 8 alphanumeric characters, 1 (default)
KYBDLK| Keyboard lock, disables keyboard except for the menu and power key| OFF (default), ON
ZERONLY| Disables keyboard except for the zero, menu and power keys| OFF (default), ON
CONTACT.COMPANY| Contact company name| Up to 30 alphanumeric characters
CONTACT.ADDR1-3| Contact company address| Up to 20 alphanumeric characters (for each line)
CONTACT.NAME1-3| Contact names| Up to 30 alphanumeric characters (for each line)
CONTACT.PHONE1-3| Contact phone numbers| Up to 20 alphanumeric characters (for each line)
CONTACT.EMAIL| Contact email address| Up to 40 alphanumeric characters
CONTACT.LASTCAL| Last calibration date| Date MMDDYYYY as an 8-digit number
CONTACT.NEXTCAL| Next calibration date| Date MMDDYYYY as an 8-digit number
KHOLDTIME| Key hold time (in tenths of a second); 20 equals 2 seconds| 10–50, 20 (default)
KHOLDINTERVAL| Key hold time interval; the amount of time between increments during a key hold (in twentieths of a second); 2 equals a tenth of a second (10 increments per second during a key hold)| 1–100, 2 (default)
LOCALE| Enable gravity compensation| OFF (default), ON, FACTOR
LAT.LOC| Origin latitude (to nearest degree) for gravity compensation| 0–90, 45 (default)
Command| Description| Values
---|---|---
ELEV.LOC| Origin elevation (in meters) for gravity compensation| -9999–9999, 345 (default)
DEST.LAT.LOC| Destination latitude (in degrees) for gravity compensation| 0–90, 45 (default)
DEST.ELEV.LOC| Destination elevation (in meters) for gravity compensation| -9999–9999, 345 (default)
GRAV.LOC| Origin gravity factor (in m/s2) for gravity compensation| 9.00000–9.99999, 9.80665 (default)
DEST.GRAV.LOC| Destination gravity factor (in m/s2) for gravity compensation| 9.00000–9.99999, 9.80665 (default)
PERSISTENTTARE| Determines if a tare remains through a power cycle| OFF (default), ON
REMOTE.PRINTDESTINATION| Determines whether the remote (another indicator) or local (682) indicator prints when the print key is pressed on the remote| REMOTE (default), LOCAL
LANGUAGE| Sets the text language; applies to Weigh mode only| ENGLISH (default), SPANISH, FRENCH, GERMAN, DUTCH, PORTUGUESE, ITALIAN

Table 12-13. Feature Commands (Continued)
12.14 Regulatory Commands
The following commands can be used to configure regulatory parameters.

Command Description Values
REGULAT Regulatory mode NTEP (default), CANADA, INDUST, NONE, OIML,

AUSTRALIA
AUDAGNCY| Audit Agency (Industrial Mode)| NTEP (default), CANADA, NONE, OIML
REG.SNPSHOT| Display or Scale weight source| DISPLAY (default), SCALE
REG.ZTARE| Remove tare on ZERO| NO (default), YES
REG.KTARE| Always allow keyed tare| NO, YES (default)
REG.MTARE| Multiple tare action| REPLACE (default), REMOVE, NOTHING
REG.NTARE| Allow negative tare| NO (default), YES
REG.CTARE| Allow Clear key to clear tare/accumulator| NO, YES (default)
REG.NEGTOTAL| Allow total scale to display negative value| NO (default), YES
REG.PRTMOT| Allow print while in motion| NO (default), YES
REG.PRINTPT| Add PT to keyed tare print| NO, YES (default)
REG.OVRBASE| Zero base for overload calculation| CALIB (default), SCALE
REG.AZTNET| Perform AZT on Net value| NO (default), YES
REG.MANUALCLEARTARE| Allows manual clearing of the tare value| NO, YES (default)
REG.TAREINMOTION| Allows Tare in Motion| NO (default), YES
REG.ZEROINMOTION| Allows scale to be zeroed while in motion| NO (default), YES
REG.UNDERLOAD| Underload weight value in display divisions| 1–9999999, 20 (default)
REG.DISPLAYCAPACITY| Displays configured capacity| NO, YES (default)
REG.DISPLAYCOUNTBY| Displays configured count-by| NO, YES (default)

REG.RTARE| Round the Pushbutton Tare| NO, YES (default)
REG.RKTARE| Round the Keyed Tare| NO, YES (default)
NTEP defaults shown for regulatory command values
*If REGULAT is set to AUSTRALIA, default is set to NO. If set to INDUST, default is set as desired.

Table 12-14. Regulatory Commands
12.15 Setpoint Commands
The following commands can be used to configure setpoint parameters.

Command Description Values
BATCHNG Batching mode OFF (default), AUTO, MANUAL
SP.KIND# n Setpoint kind OFF (default), GROSS, NET, -GROSS, -NET,

ACCUM, POSREL, NEGREL, PCTREL, PAUSE, DELAY, WAITSS, COUNTER, AUTOJOG, COZ, INMOTON, INRANGE, BATCHPR, TIMER, CONCUR, TOD, ALWAYS, NEVER
SP. VALUE # n| Setpoint value| 0.0–9999999.0, 0.0 (default)
SP. TRIP # n| Trip| HIGHER (default), LOWER, INBAND, OUTBAND
Command| Description| Values
---|---|---
SP. BANDVAL # n| Band value| 0.0–9999999.0, 0.0 (default)
SP. HYSTER # n| Hysteresis| 0.0–9999999.0, 0.0 (default)
SP. PREACT # n| Preact type| OFF (default), ON, LEARN
SP. PREVAL # n| Preact value| 0.0–9999999.0, 0.0 (default)
SP. PREADJ # n| Preact adjustment percentage| 0.0–100.0, 50.0 (default)
SP. PRESTAB # n| Preact learn stability (in tenths of a second)| 0–65535, 0 (default)
SP. PCOUNT # n| Preact learn interval| 1–65535, 1 (default)
SP. BATCH # n| Batch step enable| OFF (default), ON
SP. CLRACCM # n| Clear accumulator enable| OFF (default), ON
SP. CLRTARE # n| Clear tare enable| OFF (default), ON
SP. PSHACCM # n| Push accumulate| OFF (default), ON, ONQUIET
SP. PSHPRINT # n| Push print| OFF (default), ON, WAITSS
SP. PSHTARE # n| Push tare| OFF (default), ON
SP. ALARM # n| Alarm enable| OFF (default), ON
SP. ALIAS # n| Setpoint name| Up to 8 alphanumeric characters, SETPT (default)
SP. ACCESS # n| Setpoint access| OFF, ON (default), HIDE
SP. DSLOT # n| Digital output slot (0 for on-board DIO, 1 for the optional relay card)| NONE (default), 0, 1
SP. DIGOUT # n| Digital output| 1–4, 1 (default)
SP. SENSE # n| Digital output sense| NORMAL (default), INVERT
SP. BRANCH # n| Branch destination (0 = do not branch)| 0–8, 0 (default)
SP. RELNUM # n| Relative setpoint number| 1–8, 1 (default)
SP. START # n| Starting setpoint| 1–8, 1 (default)
SP. END # n| Ending setpoint| 1–8, 1 (default)
SP. TIME # n| Trip time| hhmm, 0000 (default)
SP. DURATION # n| Trip duration| hhmmss, 000000 (default)
SP. ENABLE # n| Setpoint enable| OFF, ON (default)
For setpoint commands ending with #n , n is the setpoint number (1-8)

Table 12-15. Setpoints Commands
12.16 Batching Control Commands
The commands listed in Table 12-16 provide batching control through a communications port.

Command Description Values
BATSTART Batch Start If the BATRUN digital input is active or not assigned,

the BATSTART command can be used to start the batch program
BATSTOP| Batch Stop| Stops an active batch and turns off all associated digital outputs; Requires a Batch Start to resume processing
BATPAUSE| Batch Pause| Pauses an active batch and turns off all digital outputs except those associated with Concurrent and Timer setpoints; processing is suspended until the indicator receives a Batch Start signal; pressing the Batch Start digital input, BATSTART serial command, Batch Start softkey or the Start Batch function (in iRite) resumes the batch and re- energizes all digital outputs turned off by the Batch Pause
BATRESET| Batch Reset| Stops the program and resets the batch program to the first batch step; use the BATRESET command after making changes to the batch configuration
BATSTATUS| Batch Status| Returns XYYY where X is S (if the batch is stopped), P (if the batch is paused),

R (if the batch is running); and YYY is the setpoint number the batch is currently on (1-8)

Table 12-16. Batching Control Commands
12.17 Print Format Commands
The following commands can be used to configure print format parameters.

Command Description Values
GFMT GFMT.PORT GFMT.PORT2 Gross demand print format string Each format can

be sent out one or two ports; for the .PORT and .PORT2 commands, specify the port name as one of the following: RS232-1 (PORT default), RS232-2, RS485, TCPC, TCPS, USB, SRLCRD1, SRLCRD2, WIFIBT, NONE (PORT2 default)
Example: To send the Gross format out both the RS-232 Port 2 and the Wi-Fi and Bluetooth® Port at the same time, send:
GFMT.PORT=RS232-2 GFMT.PORT2=WIFIBT
See Section 13.0 on page 108 for information about demand print format strings
NFMT NFMT.PORT
NFMT.PORT2| Net demand print format string
ACCFMT
ACC.PORT ACC.PORT2| Accumulator print format string
SPFMT SPFMT.PORT SPFMT.PORT2| Setpoint print format string
HDRFMT1
HDRFMT2| Ticket header format strings
AUXFMT#1-4 AUX.PORT#1-4
AUX.PORT2#1-4| Auxiliary print format strings
TRFMT TRFMT.PORT TRFMT.PORT2| Truck print format string
TRWINFMT TRWINFMT.PORT
TRWINFMT.PORT2| Truck weigh-in print format string
TRWOUTFMT
TRWOUTFMT.PORT TRWOUTFMT.PORT2| Truck weigh-out print format string
AUD.DEST1 AUD.DEST2| Audit destination print ports

Table 12-17. Print Format Commands
12.18 Digital I/O Commands
The following commands can be used to configure digital I/O parameters.

Command Description Values
DIO .b # s Sets DIO type OFF (default), OUTPUT, PRIM, PRINT, SEC,

TARE, UNITS, ZERO, BATRUN, BATSTART, BATPAUSE, BATRESET, BATSTOP, CLEAR, CLRACC, CLRCN, CLRTAR, DSPACC, DSPTAR, GROSS, KBDLOC, NET, NT/GRS
DOFF .b # s| Sets digital output to OFF| –
DON .b # s| Set digital output to ON| –
DIN .b # s| Returns a bit-weighed integer number based on the state of the DIO pins; the command looks at the raw state of the pins (input or output); if all are inactive, it returns 0; if all are active, it returns 15| –
Valid bit values ( b ) are 1-4; For commands ending with #s , s is the slot assigned to the digital I/O (0); Slot 0 is onboard

Table 12-18. Digital I/O Commands
12.19 Analog Output Commands
The following commands can be used to configure analog output parameters.

Command Description Values
ALG.SOURCE# s Analog output source SCALE1 (default), REMOTE
ALG.MODE# s Mode GROSS (default), NET
ALG.OUTPUT#s Type of output 0-10V (default), 0-20MA, 4-20MA
ALG.ERRACT# s Error action FULLSC (default), HOLD, ZEROSC
ALG.MIN# s Minimum value tracked ±9999999.0, 0.0 (default)
ALG.MAX# s Maximum value tracked ±9999999.0, 10000.0 (default)
ALG.TWZERO# s Adjusts the offset of the analog output zero value 0–65535,

0 (default)
ALG.TWSPAN# s| Adjusts the offset of the analog output span value| 0–65535, 59515 (default)
For commands ending with #s , s is the slot number assigned to the analog output (1)

Table 12-19. Analog Output Commands
12.20 Softkey Setting Commands
The following command can be used to configure the function of the five softkeys.

Command Description Values
SOFTKEY.FUNCTION #s Function assigned to each available softkey NONE

(default), BLANK, TIMEDATE, DSPTAR, DSPACC, SETPOINT, BATSTOP, BATSTRT, BATPAUS, BATRESET, DSPUID, TRUCKWEIGHIN, TRUCKWEIGHOUT, ENTERTRUCKREGS,
PRINTAUXFMT1, PRINTAUXFMT2, PRINTAUXFMT3, PRINTAUXFMT4
For commands ending with #s , s is the softkey number (1-15)

Table 12-20. Softkey Commands
NOTE: See Section 4.5.11 on page 63 for softkey menu location and softkey descriptions.
12.21 Weigh Mode Commands
These commands function in Weigh mode. Non-weight-related commands work in Setup mode.

Command Description Values
P Returns what the indicator is currently displaying
ZZ Returns currently displayed annunciators See Section 16.4 on page 121
CONSNUM Returns current consecutive number value 0–9999999, 0 (default)
UID Sets or returns the unit ID Up to 8 alphanumeric characters, 1

(default)
SD| Sets or returns the current system date| MMDDYY , DDMMYY, YYMMDD, or YYDDMM. Enter six-digit date using the year-month-day order specified for the DATEFMT parameter, using only the last two digits of the year; The current system date is returned by only sending SD
ST| Sets or returns the current system time| HHMM (enter using 24-hour format)
The current system time is returned by only sending ST
STS| Sets or returns the current system time with seconds| HHMMSS (enter using 24-hour format)
The current system time is returned by only sending STS
RS| Resets system| Soft reset; Used to reset the indicator without resetting the configuration to the factory defaults
SX| Starts all serial data streams| —
EX| Stops all serial data streams| —
SX # p| Starts serial data stream for port p| OK or ??
An EX command sent while in Setup mode does not take effect until the indicator is returned to Weigh mode
EX # p| Stops serial data stream for port p
SF # n| Returns a single stream frame from scale n using the standard Rice Lake format.| —
XA # n| Returns the accumulator value in displayed units| nnnnnnnn UU
XAP # n| Returns the accumulator value in primary units
XAS # n| Returns the accumulator value in secondary units
XAT # n| Returns the accumulator value in tertiary units
XG # n| Returns the gross weight in displayed units| nnnnnnnn UU
XGP # n| Returns the gross weight in primary units
XGS # n| Returns the gross weight in secondary units
XGT # n| Returns the gross weight in tertiary units
XN # n| Returns the net weight in displayed units| nnnnnnnn UU
XNP # n| Returns the net weight in primary units
XNS # n| Returns the net weight in secondary units
XNT # n| Returns the net weight in tertiary units
XT # n| Returns the tare weight in displayed units| nnnnnnnn UU
XTP # n| Returns the tare weight in primary units
XTS # n| Returns the tare weight in secondary units
XTT # n| Returns the tare weight in tertiary units
For commands ending with #n , n is the scale number (1); For commands ending with #p , p is the port number (1-6), see Section 12.6.1 on page 99

Table 12-21. Weigh Mode Commands

Print Formatting

The 682 provides multiple print formats, Gross, Net, Accumulator, Setpoint, Header, Auxiliary 1-4, Truck, Truck Weigh-In, and Truck Weigh-Out, which determine the format of the printed output when the Print key is pressed. If a tare has been entered or
acquired, Net is used; otherwise, Gross is used.
Each print format can be customized to include up to 1,000 characters of information, such as company name and address, on printed tickets. Use the print format menu through the indicator front panel, or EDP commands, to customize the print formats.
List of print formats and the associated EDP commands:

  • Gross Format (GFMT)
  • Net Format (NFMT)
  • Accumulator Format (ACCFMT)
  • Setpoint Format (SPFMT)
  • Header Format (HDRFMT1-2)
  • Auxiliary Format 1-4 (AUXFMT#1-4)
  • Truck Format (TRFMT)
  • Truck Weigh-In Format (TRWINFMT)
  • Truck Weigh-Out Format (TRWOUTFMT)
  • Audit Trail Port (AUD.DEST1-2)

13.1 Print Formatting Tokens
Table 13-1 lists tokens which can be used to configure the print formats. Tokens included in the format strings must be enclosed between < and > delimiters. Characters outside of the delimiters are printed as text on the ticket. Text characters can include
ASCII characters, which can be printed by the output device.

Token Description Supported Ticket Formats

General Weight Data Tokens

| Gross weight, current scale| GFMT, NFMT, ACCFMT, SPFMT, AUXFMT, TRFMT, TRWINFMT, TRWOUTFMT | Gross weight, scale n | Net weight, current scale | Net weight, scale n | Tare weight, current scale | Tare weight, scale n | Current scale number **NOTE: For tokens with #n, n is the scale number (1). For tokens with an x, x is the character width of the weight field with padded spaces on the left. If x is not specified, 10 is the assumed default for the weight field. x can be set using one or two digits and sets the minimum number of characters in the weight field, but expands to show all characters for a value that has more characters than the minimum value set with x. ** Example: To format a ticket to provide gross weight for Scale 1 with a minimum of 6 print characters, use the following token: **NOTE: Gross, net and tare weights can be printed in any configured weight unit by adding modifiers to the gross, net, and tare weight tokens: ** **/P (primary units), /D (displayed units), /S (secondary units) or /T (tertiary units). If not specified, the currently displayed unit (/D) is assumed. ** Example: To format a ticket to provide net weight in secondary units, use the following token: **NOTE: Formatted weight strings default to contain a 10-digit weight field (including sign and decimal point), followed by a space and a 2-digit unit identifier. Total field length with unit identifier is 13 characters. For tokens with an x, total field length with unit identifier is x + 3.** Accumulator Tokens | Accumulated weight, current scale; Prints to 15 digits| GFMT, NFMT, ACCFMT, AUXFMT | Accumulated weight, scale n | Average accumulation, current scale | Average accumulation, scale n | Number of accumulations, current scale | Number of accumulations, scale n | Time of last accumulation, current scale | Time of last accumulation, scale n | Date of last accumulation, current scale | Date of last accumulation, scale n **NOTE: For tokens with #n, n is the scale number (1).** **Token**| **Description**| **Supported Ticket Formats** ---|---|--- _Setpoint Tokens_ | Setpoint captured value| SPFMT | Setpoint number | Setpoint name | Setpoint mode (gross or net label) | Setpoint preact value | Setpoint target value _Auditing Tokens_ | Last calibration date| All | Number of calibrations | Number of weighments since last calibration ** _NOTE: Last calibration date ( ) and number of calibrations () are updated anytime a calibration is performed on any of the scales. Number of weighments () is incremented whenever the scale weight exceeds 10% of scale capacity. Scale must return to gross or net _****_zero before the value can be incremented again._** _Formatting and General-Purpose Tokens_ < _nnn_ >| ASCII character ( _nnn_ = decimal value of ASCII character); used for inserting control characters (STX, for example) in the print stream| All | Time | Date | Time and date | Unit ID number (up to 8 alphanumeric characters) | Consecutive number (up to 7 digits)

| Insert header format 1 (HDRFMT1), see Table 13-2 on page 110

| Insert header format 2 (HDRFMT2), see Table 13-2 on page 110 | Carriage return character | Line feed character _| New line ( _nn_ = number of termination ( or ) characters)* _| Space ( _nn_ = number of spaces)* | Toggle weight data format (formatted/unformatted) ** _NOTE: If nn is not specified, 1 is assumed. Value must be in the range 1–99._** _Header Format Tokens_ | Company name (up to 30 characters)| All | Company address, lines 1–3 (up to 30 characters) | Company contact names (up to 20 characters) | Company contact phone numbers (up to 20 characters) | Company contact e-mail address (up to 30 characters) _Truck Format Tokens_ | Truck ID (up to 16 characters)| TRFMT, TRWINFMT, TRWOUTFMT | Gross weight for current ticket in displayed units | Tare weight (inbound) for current ticket in displayed units | Net weight (outbound) for current ticket in displayed units ** _NOTE: TR1, TR2 and TR3 truck ticket weight data includes keywords INBOUND, KEYED and RECALLED, as needed. _** ** _NOTE: TR1, TR2 and TR3 allow for printing secondary and tertiary units. ( )_**

Table 13-1. Print Format Tokens

682 Synergy Plus

Format Default Format String When Used
GFMT GROSS Weigh mode – no tare in system
NFMT GROSSTARENET  Weigh mode –

tare in system
ACCFMT| ACCUM
| Accumulator demand print format string
SPFMT| | Setpoint print operation with Push Print = ON
HDRFMT n| COMPANY NAMESTREET ADDRESSCITY ST ZIP| Header format strings ( n = 1-2)
AUXFMT# n| GROSS| Auxiliary print format strings ( n = 1-4)
TRFMT| REG ID: : | Weigh mode – truck in/out applications
TRWINFMT| IDGROSS| Weigh mode – truck in/out applications
TRWOUTFMT| IDGROSSTARENET

| _Weigh_ mode – truck in/out applications

NOTE: The 1,000 character limit of each print format string includes the output field length of the print formatting tokens, not the token length. For example, if the indicator is configured to display a decimal point, the token generates an output field of 13 characters: the 10 character weight value (including decimal point), one space, and a two-digit units identifier. For tokens with an x (e.g. or <Gx#n>), total field length with unit identifier is x + 3. PT (preset tare) is added to the tare weight if tare was keyed in.

13.2 Customizing Print Formats
The Gross (GFMT), Net (NFMT), Accumulator (ACCFMT), Setpoint (SPFMT), Header (HDRFMT1-2), Auxiliary 1-4 (AUXFMT#1-4), Truck (TRFMT), Truck Weigh-In (TRWINFMT) and Truck Weigh-Out (TRWOUTFMT) formats can be customized using the print format menu via the front panel. See Section 4.5.6 on page 55 for the print format menu structure. To access the print format menu the indicator must be in Setup mode (Section 4.1 on page 39).
The print format menu via the front panel can be used to customize the print formats and to edit the print format strings with the full keyboard that appears on the display when entering a format string. See Section 3.3.2 on page 30 for the alphanumeric entry procedure to edit the print format strings.

13.3 Non-Human Readable Characters
ASCII characters 0 through 31 are non-human readable characters. To include a special character in a print format, the decimal equivalent needs to be used. For example, the special character Esc would be <27> or 60, 50, 55, 62 (less the commas).
Examples of a print release command for a TMU295 in the GROSS format:

Print Format:
GROSS<27>q
Print Format:
GROSS<27><113>

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Readable
Characters

Setpoints

The 682 indicator provides eight configurable setpoints for control of both indicator and external equipment functions.
Setpoints can be configured to perform actions or functions based on specified parameter conditions. Parameters associated with various setpoint kinds can, for example, be configured to perform functions (print, tare, accumulate), to change the state of a digital output controlling indicator or external equipment functions, or to make conditional decisions.

NOTE: Weight-based setpoints are tripped by values specified in primary units only.

14.1 Continuous and Batch Setpoints
682 setpoints can be either continuous or batch.
Continuous setpoints are free-running; the indicator constantly monitors the condition of free-running setpoints at each A/D update. The specified setpoint action or function is performed when the designated setpoint parameter conditions are met. A digital output or function assigned to a free-running setpoint continuously changes state, becoming active or inactive, as defined by the setpoint parameters.
Batch setpoints (Batch = On) which have digital outputs associated to them remain active until the setpoint condition is met.
The setpoint is then latched for the remainder of the batch sequence.
To use batch setpoints, set the Batching parameter in the Setpoint menu. This parameter defines whether a batch sequence is automatic or manual. Auto sequences repeat continuously after receiving a single batch start signal, while Manual sequences only run through once for each batch start signal. The batch start signal can be initiated by a digital input (set to Batch Start), or an EDP command (BATSTART).
For a setpoint to be used as part of a batch sequence, its batch sequence (Batch) parameter must be set to On. If a setpoint is defined and enabled, but its batch sequence parameter is set to Off, the setpoint operates as a continuous setpoint even during batch sequences.

NOTE: In applications which contain both batch setpoint routines and continuous setpoints, it is good practice to keep continuous setpoints separate from the batch sequence.
NOTE: Do not assign them the same digital output.
NOTE: Set the Access parameter On when creating and testing batch routines. Once the batching routine is complete and ready for production, Access can be set to Off to prevent changes to the configured setpoint value, or to Hide to prevent changing or viewing the value.

Parameter Description Batch Continuous
Off Setpoint turned off/ignored
Gross Performs functions based on the gross weight; the target weight entered
is considered a positive gross weight X X
Net Performs functions based on the net weight; the target weight entered is
considered a positive net weight value X X
Negative Gross Performs functions based on the gross weight; the target
weight entered is considered a negative gross weight X X
Negative Net Performs functions based on the net weight; the target weight
entered is considered a negative net weight value X X
Accumulate Compares the value of the setpoint to the source scale

accumulator; the accumulator setpoint is satisfied when the value of the source scale accumulator meets the value and conditions of the accumulator setpoint| X| X
Positive Relative| Performs functions based on a specified value above a referenced setpoint, using the same weight mode as the referenced setpoint| X| X
Negative Relative| Performs functions based on a specified value below a referenced setpoint, using the same weight mode as the referenced setpoint| X| X
Parameter| Description| Batch| Continuous
---|---|---|---
Percent Relative| Performs functions based on a specified percentage of the target value of a referenced setpoint, using the same weight mode as the referenced setpoint; the actual target value of the Percent Relative setpoint is calculated as a percentage of the target value of the referenced setpoint| X| X
Pause| Pauses the batch sequence indefinitely; a Batch Start signal must be initiated to continue the batch process| X|
Delay| Delays the batch sequence for a specified time; the length of the delay (in tenths of a second) is specified on the Value parameter| X|
Wait Standstill| Suspends the batch sequence until the scale is at standstill| X|
Counter| Specifies the number of consecutive batch sequences to perform; place counter setpoints at the beginning of a batch routine| X|
Auto-Jog| Automatically checks the previous weight-based setpoint to verify the setpoint weight value is satisfied in a standstill condition
• If the previous setpoint is not satisfied when at standstill, the Auto- Jog setpoint activates the digital output of the previous weight-based setpoint for a period of time, specified on the Value parameter (in tenths of a second)
• The Auto-Jog process repeats until the previous weight-based setpoint is satisfied when the scale is at standstill
NOTE: The Auto-Jog digital output is typically used to signify an Auto- Jog operation is being performed.
NOTE: Auto-Jog uses the digital output of the previous weight-based setpoint, and should not be assigned to the same digital output as the related weight-based setpoint.| X|
Center of Zero| Monitors for a gross center of zero condition
• The digital output associated with this setpoint kind is activated when the referenced scale is at center of zero
• No value is required for this setpoint| | X
In Motion| Monitors for an in-motion condition
• The digital output associated with this setpoint is activated when scale is not at standstill
• No value is required for this setpoint| | X
In Range| Monitors for an in-range condition
• The digital output associated with this setpoint is activated when the scale is within capacity range
• No value is required for this setpoint| | X
Batch in Process| Batch processing signal:
• The digital output associated with this setpoint is activated whenever a batch sequence is in progress
• No value is required for this setpoint| | X
Timer| Tracks the progress of a batch sequence based on a timer
• The timer value, in tenths of a second, determines the length of time allowed between start and end setpoints
• Start and End parameters are used to specify the start and end setpoints
• If the End setpoint is not reached before the timer expires, the digital output associated with this setpoint is activated| | X
Concurrent| Allows a digital output to remain active over a specified portion of the batch sequence
Type 1 (Value = 0): The digital output associated with this setpoint becomes active when the Start setpoint becomes the current batch step and remains active until the End setpoint becomes the current batch step
Type 2 (Value > 0): If a non-zero value is specified for the Value parameter, the value represents the timer, in tenths of a second, for this setpoint; The digital output associated with this setpoint becomes active when the Start setpoint becomes the current batch step and remains active until the timer expires| | X
Time of Day| Performs functions when the internal clock time of the indicator matches the specified setpoint time| X| X
Always| This setpoint is always satisfied; It is typically used to provide an endpoint for true/false branching batch routines| X|
Never| This setpoint is never satisfied; Used to branch to a designated setpoint in true/false branching batch routines in which the batch does not continue through the normal sequence of batch setpoints| X|

Table 14-1. Setpoint Kinds

14.2 Batch Operations
Batches are controlled by digital inputs or EDP commands.
Batch Run (or BATRUN EDP command)
If a Batch Run digital input is configured, it must be active (low) for a batch to be started, and for it to continue to run. If a batch is running and the input becomes inactive (high), it will stop the batch at the current batch setpoint and turn off all associated digital outputs.
Batch Start (or BATSTART EDP command)
If the Batch Run digital input is active (low), or is not assigned, Batch Start will start a batch, resume a paused batch or resume a stopped batch. If the Batch Run digital input is inactive (high), Batch Start will reset the current batch.
Batch Pause (or BATPAUSE EDP command)
The Batch Pause digital input will pause an active batch, turning off all associated digital outputs EXCEPT those associated with Concurrent and Timer setpoints, while the input is active (low). As soon as the Batch Pause digital input is made inactive (high), the batch will resume. BATPAUSE EDP command works the same, except the batch will not resume until a Batch Start signal is received.
Batch Stop (or BATSTOP EDP command) Stops an active batch at the current setpoint and turns off all associated digital outputs.
Batch Reset (or BATRESET EDP command) Stops and resets an active batch to the beginning of the process.
WARNING: To prevent personal injury and equipment damage, software-based interruptions must always be supplemented by emergency stop switches and other safety devices necessary for the application.

14.2.1 Batching Switch
The batching switch option (PN 19369) comes as a complete unit in an FRP enclosure, with legend plate, emergency stop, and a run/start/abort three-way switch.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Batching
Switch

Both switches are wired into the indicator’s digital I/O terminal as shown in Figure 14-2 on page 114. Each switch uses a separate digital input. Digital I/O Bit 1 must be set to Batch Start and Bit 2 must be set to Batch Run.
Once cables and switches have been connected to the indicator, use the setup switch to place the indicator in Setup mode.
Use the Digital I/O menu (Section 4.5.9 on page 62) to configure digital input and output functions.

682 Synergy Plus

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Synergy
Plus

When configuration is complete, exit Setup mode. Initialize the batch by turning the three-way switch to ABORT, then unlock the STOP button (the STOP button must be in the OUT–RUN position to allow the batch process to run). The batching switch is now ready to use.
WARNING: If no digital input is assigned to Batch Run, batching proceeds as if Batch Run were always on (the batch starts when the three-way switch is turned to RUN, but the STOP button does not function).
To begin a batch process, turn the three-way switch to START momentarily. If the STOP button is pushed during the batch process, the process halts and the button locks in the IN–PAUSE/STOP position.
The START switch is ignored while the STOP button is locked in the IN–PAUSE/STOP position. The STOP button must be turned counterclockwise to unlock it, then released into the OUT–RUN position to enable the three-way switch.

To restart an interrupted batch from the step where it left off:

  1. Unlock STOP button (OUT–RUN position).
  2. Turn three-way switch to START.

To restart an interrupted batch from the first batch step:

  1. Turn three-way switch to ABORT.
  2. Unlock STOP button (OUT–RUN position).
  3. Turn three-way switch to START.

To abort an interrupted batch:

  1. Push the STOP button.
  2. Turn three-way switch to ABORT.
  3. Unlock STOP button (OUT–RUN position). A new batch can now be started.

NOTE: Use this procedure (or Batch Reset) to initialize the new batch routine following any change to the setpoint configuration.

14.3 Batching Examples
14.3.1 Example 1
The following example uses six setpoints to dispense material from a hopper in 100-lb batches and to automatically refill the hopper when its weight drops below 300 lb.
Bits 1 and 2 in the Digital I/O menu (Section 4.5.9 on page 62) are assigned to batch start and batch run functions: Batch Run must be on (low) before the Batch Start input starts the batch.
Slot 0, Bit 1 = Batch Start
Slot 0, Bit 2 = Batch Run
Batching = Manual

Setpoint 1 ensures the hopper has enough material to start the batch. If the hopper weight is 300 lb or higher, setpoint 1 is tripped.

Setpoint 1 Trip = Higher
Kind = Gross Alarm = On
Value = 300 Batch = On

Setpoint 2 waits for standstill, then performs a tare to put the indicator into net mode.
Setpoint 2
Kind = Wait Standstill
Push Tare = On

Setpoint 3 is used as a reference (relative setpoint) for setpoint 4.

Setpoint 3 Trip = Higher
Kind = Net Batch = Off
Value = 0

Setpoint 4 is used to dispense material from the hopper. When the hopper weight falls to 100 lb less than its weight at the relative setpoint (setpoint 3), digital output 1 is set off.

Setpoint 4
Kind = Negative Relative
Value = 100
Trip = Lower
Digital Output = 1
Batch = On
Relative Setpoint Number = 3

Setpoint 5 is used to evaluate the gross amount of material in the hopper after dispensing, and to maintain a minimum material level in the hopper. When the hopper weight falls below 300 lb, digital output 2 becomes active and the hopper is refilled to 1,000 lb.

Setpoint 5
Kind = Gross
Value = 300
Trip = Higher
Hysteresis = 700
Digital Output = 2
Batch = On

Setpoint 6 is used to ensure the operation performed in setpoint 4 is completed within 10 seconds. The Start and End parameters identify the setpoints monitored by the Timer. If the Timer expires before Setpoint 5 starts, Digital Output 4 is turned on as an alarm to signal a process fault.

Setpoint 6
Kind = Timer
Value = 100
Start = 4
End = 5
Digital Output = 4

682 Synergy Plus
14.3.2 Example 2
The following example uses six setpoints to control a two-speed fill operation where both fast and slow feeds are on simultaneously.
Bits 1 and 2 in the Digital I/O menu (Section 4.5.9 on page 62) are assigned to Batch Start and Batch Run functions. Batch Run must be on (low) before the Batch Start input starts the batch.
Slot 0, Bit 1 = Batch Start
Slot 0, Bit 2 = Batch Run
Batching = Manual

Setpoint 1 ensures the scale is empty (0±2 lb).
Setpoint 1
Kind = Gross
Value = 0
Trip = Inland
Band Value = 2
Batch = On

Setpoint 2 checks for the weight of a container (>5 lb) placed on the scale.
Setpoint 2
Kind = Gross
Value = 5
Trip = Higher
Batch = On

Setpoint 3 waits for standstill, then tares the container weight, placing the indicator in net mode.
Setpoint 3
Kind = Wait Standstill
Push Tare = On

Setpoint 4 starts the fast fill operation. When the net weight reaches 175 lb, the setpoint trips and digital output 1 is set off.
Setpoint 4
Kind = Net
Value = 175
Trip = Higher
Digital Output = 1
Batch = On

Setpoint 5 controls the slow fill operation. When the net weight reaches 200 lb, the slow fill is stopped, the indicator waits for standstill and performs a push print operation using the Setpoint Format ticket format.
Setpoint 5
Kind = Net
Value = 200
Trip = Higher
Push Print = Wait Standstill
Digital Output = 2
Batch = On

Setpoint 6 is a continuous setpoint, used to allow the slow feed output to be on at the same time as the fast fill. The slow fill output (Digital Output 2) is turned on when Setpoint 4 (fast fill) starts and remains on until Setpoint 5 begins.
Setpoint 6
Kind = Concurrent
Value = 0
Start = 4
End = 5
Digital Output = 2

Maintenance

The maintenance information in this manual is designed to cover aspects of maintaining and troubleshooting the 682 indicator.
Contact the local Rice Lake Weighing Systems dealer if a problem requires technical assistance.
NOTE: Have the scale model number and serial number available when calling for assistance.

15.1 Maintenance Checkpoints
The scale must be checked frequently to determine when a calibration is required. It is recommended a zero calibration be checked every other day and a calibration checked every week for several months after installation. Observe the results and change the period between calibration checks, depending upon the accuracy desired.
NOTE: Establish a routine inspection procedure. Report changes in the scale function to the individual or department responsible for the scales’ performance.

15.2 Field Wiring
If a problem with the wiring is suspected, check the electrical portion of the scale.

  • Check for proper interconnections between the components of the system
  • Check wiring meets all specifications in the installation drawings
  • Check all wiring and connections for continuity, shorts and grounds using an ohmmeter with the scale off
  • Check for loose connections, poor solder joints, shorted or broken wires and unspecified grounds in wiring; these issues cause erratic readings and shifts in weight readings
  • Check all cable shields to ensure grounding is made at only the locations specified in the installation drawings

15.3 Troubleshooting Tips
Table 15-1 lists general troubleshooting tips for hardware and firmware error conditions.

Symptom Possible Cause Remedy
682 does not power up Bad power supply Check power supply; Check presence of

AC or DC power – breaker tripped or unit unplugged; Power supply outputs around 12 VDC – replace if bad
Battery-backed corrupt error message at startup| Dead battery| Perform configuration reset then check for low battery warning on display;
If battery is low, replace battery, perform another configuration reset, then reload files/configuration
∧∧∧∧∧∧
or
vvvvvvv| Over or under range scale condition| Check scale
Cannot enter Setup mode| Bad switch| Test switch
Serial port not responding| Wiring or Configuration error| Verify proper wiring and ensure port input trigger is set to command
A/D scale out of range| Scale operation Load cell connection Bad load cell| Check source scale for proper mechanical operation Check load cell and cable connection Check 682 operation with load cell simulator Check status of sense settings
Option card failure| Possible defective card or slot| Disconnect power, remove and reinstall card in slot, then apply power again

Table 15-1. Basic Troubleshooting

15.4 Battery Replacement
The battery life varies depending on use. It is recommended to replace the battery every three years, or sooner, if left powered off for extended periods of time to prevent data loss in the event of a power failure.
Use the Revolution configuration utility (Section 11.0 on page 94) or EDP commands (Section 12.0 on page 95) to store a copy of the 682 configuration on a PC before attempting battery replacement. The 682 configuration can be restored from the PC if data is lost.

WARNING: Risk of explosion if battery is replaced with an incorrect type. Dispose of used batteries according to federal, state and local regulations.
IMPORTANT: Use anti-static protection for grounding and to protect components from electrostatic discharge (ESD) when working inside the 682 enclosure. Procedures requiring work inside the 682 must be performed by qualified service personnel only.

RICE LAKE 682 Synergy Plus Digital Weight Indicator - personnel
only

To replace the battery, use the following procedure:

  1. Disconnect power to the indicator.
  2. Remove backplate as described in Section 2.3 on page 13.
  3. Place the tip of a non-conductive flat head screw driver between negative contact and battery.
  4. Twist screw driver to release battery from holder.
  5. Press new replacement battery straight into the battery holder with the positive side up. See Section 2.10 on page 24 for replacement battery details.
  6. Reset the time and date settings of the indicator. See Section 3.4.15 on page 34 to set the time and Section 3.4.16 on page 35 to set the date.

15.5 Board Replacement
Board replacement should only be done by a service technician.
IMPORTANT: Use anti-static protection for grounding and to protect components from electrostatic discharge (ESD) when working inside the 682 enclosure. Procedures requiring work inside the 682 must be performed by qualified service personnel only.

To replace a 682 board, use the following procedure:

  1. Disconnect power to the indicator.
  2. Remove backplate as described in Section 2.3 on page 13.
  3. Label connections for re-installation to board.
  4. Disconnect all connections from the board.
  5. Remove all screws securing the board.
  6. Disconnect the overlay ribbon cable from the J26 connector and the display ribbon cable from the J27 connector on the reverse side of the board as it is lifted from the enclosure.
  7. Use the J1-J5 connectors of the new replacement board to rest the board on the bottom edge of the enclosure opening.RICE LAKE 682 Synergy Plus Digital Weight Indicator - enclosure opening
  8. Press the end of the overlay ribbon cable up against the J26 connector while it is still closed. Open the J26 connector and then close it once the end of the overlay ribbon cable has seated itself inside of the connector.
  9. Line up the display ribbon cable connector with the J27 connector and press the backside of the display ribbon cable end piece, so the connectors click together.
  10. Place the new replacement board into the enclosure and secure with previously removed screws.
  11. Reconnect all connections to the board. See Section 2.6 on page 21 for details on the board connectors.

IMPORTANT: Always verify indicator has been returned back to a safe state with the proper installation of all connections and a complete functions test before reinstalling the backplate and returning the indicator back into service.

Appendix

16.1 Error Messages
The 682 indicator provides a number of error messages. When an error occurs, the message displays on the indicator.
16.1.1 Displayed Error Messages
The 682 provides a number of front panel error messages to assist in problem diagnosis. Table 16-1 lists these messages and their meanings.

Error Message Description
——- Overflow error – Weight value too large to be displayed
∧∧∧∧∧∧ Gross > overload limit – Gross value exceeds overload limit; Check

configuration or signal input level; Overload can be caused by input signal > 45 mV or common mode voltage > 950 mV
vvvvvvv| Gross < underload limit – Gross value exceeds underload limit
Battery low| Displays every 30-seconds when battery is low
Waiting for 30 seconds of standstill| Displays when power up delay is active
Not allowed in motion| Displays when attempting to perform a function while weight is in motion, if in motion is not allowed for that function
Tare in motion not allowed| Displays when attempting to perform a tare while weight is in motion, if in-motion tares are not allowed
Tare not allowed| Displays when attempting to perform a tare, if a tare is not allowed
Negative tare not allowed| Displays when attempting to perform a negative tare, if a negative tare is not allowed
Keyed tare not allowed| Displays when attempting to perform a keyed tare, if a keyed tare is not allowed
Tare exceeding capacity not allowed| Displays when attempting to perform a tare larger than capacity, if it is not allowed
Multiple tares not allowed| Displays when attempting to perform a tare if a tare is already in the system, if tare is not configured to replace or remove
Must be in first interval to tare| Interval is currently within the second or third interval; Perform tare while in the first interval only
Keyed tare value must be in first interval| Keyed tare value is within the second or third interval; Keyed tare value must be within the first interval only
Duplicate ID not allowed| Displays when attempting to enter a Truck ID that already exists, if ID Overwrite is set to Disable
Invalid ID| Displays when attempting to enter an invalid Truck ID; Truck IDs can be up to 16 alphanumeric characters in length
Truck ID not found| Displays when attempting to enter a Truck ID at Weigh Out that has not been previously entered
Truck program disabled| Displays when attempting a Truck Mode function, when Truck Mode is set to Off
Truck program error| Generic error for the truck program
Invalid Index| Displays when attempting to delete a truck ID record with an invalid index
Invalid Weight| Displays when weigh-in/-out procedure weight is invalid
Record read error| Displays when an error occurs while reading from the microSD card or the CRC wasn’t valid on the record
Record write error| Displays when an error occurs while writing to the microSD card
Initial zero failed| Displays when an attempt to perform an initial zero fails, only possible at startup
Please wait| Displays when calibrating
Alarm| Displays when a configured setpoint’s ALARM action occurs

Table 16-1. 682 Error Messages

16.2 Audit Trail Support
Audit trail support provides tracking information for configuration and calibration events. To prevent potential misuse, all configuration and calibration changes are counted as change events.
Audit trail information can be printed from Revolution or by sending the DUMPAUDIT serial command. Revolution can be used to display audit trail information. The audit trail display includes the legally relevant (LR) version number (firmware version for the code which provides audit trail information), a calibration count and a configuration count.
See Section 3.4.10 on page 32 for steps to view the Audit Trail counters.

16.3 Unit Conversion Factors
The 682 has the capability to mathematically convert a weight into many different types of units and instantly display those results with a press of the Units key. Secondary and Tertiary units, along with Custom Units can be configured in the Scale Format menu (Section 4.5.2 on page 44).

NOTE: Multipliers are preconfigured within the indicator, unless a Custom Unit is applied.
Ensure the unit format is set appropriately for the scale capacity in the secondary and tertiary units.

16.4 ZZ EDP Command
The ZZ EDP command can be used to remotely query which annunciators are currently displayed on the indicator front panel.
The ZZ command returns a decimal number representing the LED annunciators currently lit (Table 16-2).
Example: If the annunciator status value returned on the ZZ command is 145, the gross, standstill and lb annunciators are lit.
The number 145 represents the sum of the values for the gross mode annunciator (16), the standstill annunciator (128) and the lb annunciator (1).

Decimal Value Annunciator
1 lb/primary units
2 kg/secondary units
4 Tare entered
8 Keyed tare entered
16 Gross
32 Net
64 Center of zero
128 Standstill

Table 16-2. Status Codes Returned on the ZZ Command

16.5 Continuous Data (Stream) Output Formats
When the trigger setting for a port is set to Stream Industrial (STRIND) or Stream Legal for Trade (STRLFT), data is continuously streamed from the appropriate port in one of the four fixed format options or a custom format option.

Fixed Format Options:

  • Rice Lake Weighing Systems (Section 16.5.1)
  • Cardinal (Section 16.5.2)
  • Avery Weigh-Tronix (Section 16.5.3 on page 123)
  • Mettler Toledo (Section 16.5.4 on page 123)

16.5.1 Rice Lake Weighing Systems Stream Format (RLWS)

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Stream Format
2

16.5.2 Cardinal Stream Format (Cardinal)

RICE LAKE 682 Synergy Plus Digital Weight Indicator -
Cardinal

16.5.3 Avery Weigh-Tronix Stream Format (Weigh-Tronix)

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Avery
Weigh

16.5.4 Mettler Toledo Stream Format (Toledo)

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Stream Format
3

Status Word C: ASCII 20h (space)

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Status
Word

Status Word B:

RICE LAKE 682 Synergy Plus Digital Weight Indicator - Status Word
2

16.5.5 Minebea Stream Format (Minebea)

Data Output Format with 16 Characters (without Data Header) – Normal Operation

Position| 1| 2| 3| 4| 5| 6| 7| 8| 9| 10| 11| 12| 13| 14| 15| 16
| +| | D| D| D| D| D| D| D| D| | U| U| U| CR| LF
or| –| | D| D| D| D| D| D| D| D| | U| U| U| CR| LF
or| | | | | | | | | | | | | | | CR| LR
+/- Plus or minus sign
*  Space
D  Digit or Leter (max. 7 characters plus decimal point) 7 Unit symbol (1 to 3 letters followed by 2-0 spaces) CR    Carriage return
LF  Line feed

Table 16-3. Minebea Stream Data Format

16.6 Custom Stream Formatting
The Custom stream format parameter can be configured in the Stream Format menu via the front panel. See Section 4.5.7 on page 57 for the Stream Format menu structure. The indicator must be in setup mode (Section 4.1 on page 39) to access the Stream Format menu.
Using the Front Panel
Use the Stream Format menu to customize the Custom parameter by changing the ASCII characters in the format string.
Setup ▼to Configuration ►to Stream Format ▼to Format (set to Custom) ►to Custom ▼to format string entry

See Section 3.3.2 on page 30 for the alphanumeric entry procedure to edit the format string.
NOTE: The 682 can send or receive ASCII characters; the character printed depends on the particular ASCII character set implemented for the receiving device. Some characters cannot be displayed on the 682 front panel, see the ASCII character chart in Section 16.9 on page 130 for available characters and see Section 13.3 on page 110 for a description of Non-Human Readable Characters.

For example, enter the following string of format tokens to recreate the standard RLWS stream format as a custom stream format:

<2>

<2> Sends ASCII character 2, or STX.

Sends the Polarity character. Sends 7 weight digits, no leading zeros, with a floating decimal point as needed. Sends the Units. Sends the Mode. Sends the Status. Sends a Carriage Return. Sends a Line Feed.

Custom Stream Format Tokens

Format Identifier Defined By Description
<P[G N T]>

positive or negative polarity for the current or specified (Gross/Net/Tare) weight on the source scale; Possible values are SPACE, NONE, + (for STR. POS # n ) or – (for STR. NEG # n)
<U[P | S | T]>| STRM. PRI # n STRM. SEC # n STRM. TER # n| Units – Specifies primary, secondary or tertiary units for the current or specified weight on the source scale
<M[G | N | T]>| STRM. GROSS # n STRM. NET # n STRM. TARE # n| Mode – Specifies gross, net or tare weight for the current or specified weight on the source scale
| STRM. MOTION # n STRM. RANGE # n STRM. OK # n STRM. INVALID # n STRM. ZERO # n| Status for the source scale – Default values and meanings for each status:
• STR. MOTION # n M In motion
• STR. RANGE # n O Out of range
•  STR. OK # _n _OK
• STR. INVALID # n I Invalid
• STR. ZERO # n Z  COZ

| UID| Unit ID number – Specifies the unit identification number as an alphanumeric value up to 6 characters long <###>| —| To send an ASCII character; ### is a number 0 to 255; for example: <2> sends the ASCII character 2, Start of Text (STX) and the token <13> sends a Carriage Return _XXXX_| —| To send literal characters; _XXXX_ represents literal characters to include in the string by not including < >; for example: SCALE will stream “ **SCALE 1234 L** ” with a weight of 1234 pounds | See descriptions below| Bit fields. Comma-separated sequence of bit field specifiers; Must be exactly 8-bits; minus sign ([–]) inverts the bit B0| —| Always 0 B1| —| Always 1 B2| Configuration| =1 if even parity B3| Dynamic| =1 if MODE=NET B4| Dynamic| =1 if COZ B5| Dynamic| =1 if standstill B6| Dynamic| =1 if gross negative B7| Dynamic| =1 if out of range B8| Dynamic| =1 if secondary/tertiary B9| Dynamic| =1 if tare in system B10| Dynamic| =1 if tare is keyed B11| Dynamic| =00 if MODE=GROSS =01 if MODE=NET =10 if MODE=TARE =11 (not used) B12| Dynamic| =00 if UNITS=PRIMARY =01 if UNITS=SECONDARY =10 if UNITS=TERTIARY =11 (not used) B13| Configuration| =00 (not used) =01 if current DSPDIV=1 =10 if current DSPDIV=2 =11 if current DSPDIV=5 B14| Configuration| =00 (not used) =01 if primary DSPDIV=1 =10 if primary DSPDIV=2 =11 if primary DSPDIV=5 B15| Configuration| =00 (not used) =01 if secondary DSPDIV=1 =10 if secondary DSPDIV=2 =11 if secondary DSPDIV=5 **Format Identifier**| **Defined By**| **Description** ---|---|--- B16| Configuration| =00 (not used) =01 if tertiary DSPDIV=1 =10 if tertiary DSPDIV=2 =11 if tertiary DSPDIV=5 B17| Configuration| =000 if current DECPNT=8888800 =100 if current DECPNT=88888.88 =001 if current DECPNT=8888880 =101 if current DECPNT=8888.888 =010 if current DECPNT=8888888 =110 if current DECPNT=888.8888 =011 if current DECPNT=888888.8  =111 if current DECPNT=88.88888 B18| Configuration| =000 if primary DECPNT=8888800 =100 if primary DECPNT=88888.88 =001 if primary DECPNT=8888880 =101 if primary DECPNT=8888.888 =010 if primary DECPNT=8888888 =110 if primary DECPNT=888.8888 =011 if primary DECPNT=888888.8 =111 if primary DECPNT=88.88888 B19| Configuration| =000 if secondary DECPNT=8888800 =100 if secondary DECPNT=88888.88 =001 if secondary DECPNT=8888880 =101 if secondary DECPNT=8888.888 =010 if secondary DECPNT=8888888 =110 if secondary DECPNT=888.8888 =011 if secondary DECPNT=888888.8 =111 if secondary DECPNT=88.88888 B20| Configuration| =000 if tertiary DECPNT=8888800 =100 if tertiary DECPNT=88888.88 =001 if tertiary DECPNT=8888880 =101 if tertiary DECPNT=8888.888 =010 if tertiary DECPNT=8888888 =110 if tertiary DECPNT=888.8888 =011 if tertiary DECPNT=888888.8 =111 if tertiary DECPNT=88.88888 < _wspec_ [–] [0] _digit_ [.[.][ _digit_ ]]>| Scale weight| Weight for the source scale. **_wspec_** is defined as follows: ** _wspec_** indicates whether the weight is the current displayed weight (W, w), gross (G, g), net (N, n) or tare (T, t) weight; Upper-case letters specify right-justified weights, lower- case are left-justified Optional /P, /S or /T suffixes can be added before the ending delimiter (>) to specify weight display in primary (/P), secondary (/S) or tertiary (/T) units [–] Enter a minus sign (–) to include sign for negative values [0] Enter a zero (0) to display leading zeros digit[.[.][digit]] The first digit indicates the field width in characters; The decimal point only indicates a floating decimal; A decimal point with a following digit indicates fixed decimal with **n** digits to the right of the decimal; Two consecutive decimals send the decimal point even if it falls at the end of the transmitted weight field | —| Carriage return | —| Line feed

Table 16-4. Custom Stream Format Tokens

16.7 Digital Filtering
Digital filtering is used to create a stable scale reading in challenging environments. The 682 allows selection of Digital Rolling Average Filtering (Section 16.7.1), Adaptive Filtering (Section 16.7.2 on page 127), Damping (Section 16.7.3 on page 128) or Raw for no filtering. See Section 4.5.1 on page 42 for configuration menu layout and the location of the Filter Chain Type parameter.
The scale’s sample rate effects all types of filtering. The A/D sample rate is selected by the Sample Rate parameter. The A/D sample rate is the number of weight readings the indicator takes per second. This can be 6.25, 7.5, 12.5, 15, 25, 30, 50, 60 or 120 hertz (readings per second). Set the A/D sample rate to the lowest setting required for the application. Lower settings result in better stability.
16.7.1 Digital Rolling Average Filter (Average Only)
The digital rolling average filter uses mathematical averaging with three stages. These configurable stages control the effect of a single A/D reading on the displayed weight. When an A/D reading outside of a predetermined band is encountered, the digital rolling average filter is overridden and the display jumps directly to the new value.
Digital Filter Stages 1-3
The filter stages can each be set to a value of 1–256. The value assigned to each stage sets the number of readings received from the preceding filter stage before averaging. Setting the filter stages to 1 effectively disables the rolling filter.

A rolling average is passed to successive filtering stages for an overall filtering effect which is effectively a weighted average of the product of the values assigned to the filter stages (Digital Filter Stage 1 x Digital Filter Stage 2 x Digital Filter Stage 3) within a time frame corresponding to the sum of the values (Digital Filter Stage 1 + Digital Filter Stage 2 + Digital Filter Stage 3).
Digital Filter Sensitivity and Digital Filter Threshold
The rolling averaging filter can be used by itself to eliminate vibration effects, but heavy filtering also increases settling time.
The Digital Filter Sensitivity and Digital Filter Threshold parameters can be used to temporarily override filter averaging and improve settling time.

  • Digital Filter Sensitivity specifies the number of consecutive A/D readings which must fall outside the Digital Filter Threshold before filtering is suspended
  • Digital Filter Threshold sets a threshold value, in display divisions; When the specified number of consecutive A/D readings (Digital Filter Sensitivity) fall outside of this threshold, filtering is suspended; Set Digital Filter Threshold to NONE to turn off the filter override

Digital Rolling Average Filter Procedure

  1. In Setup mode, set the rolling filter stage parameters (Digital Filter Stage 1-3) to 1.

  2. Set Digital Filter Threshold to NONE.

  3. Return to Weigh mode.

  4. Remove all weight from scale, then watch the indicator to determine the magnitude of vibration effects on the scale.

  5. Record weight below which all but a few readings fall. This value is used to calculate the Digital Filter Threshold parameter in step 8.
    Example – if a heavy-capacity scale (10,000 x 5 lb) produces vibration-related readings of up to 50 lb, with occasional spikes up to 75 lb, record 50 as the threshold weight value.

  6. Place the indicator in Setup mode and set the filter stage parameters (Digital Filter Stage 1-3) to eliminate the vibration effects on the scale (leave Digital Filter Threshold set to NONE).

  7. Find the lowest effect value for the Digital Filter Stage 1-3 parameters.
    NOTE: If needed, the digital filter cutout sensitivity (Digital Filter Sensitivity) and the digital filter cutout threshold (Digital Filter Threshold) can be used to reset the digital rolling average filter so the response to a rate change is faster.

  8. Calculate the Digital Filter Threshold parameter value by converting the weight value recorded in step 5 to display divisions (Threshold_Weight_Value / Display_Divisions).
    In the example in step 5, with a threshold value of 50, and a display-division value of 5, set the Digital Filter Threshold parameter to 10 display divisions.

  9. Set the Digital Filter Sensitivity parameter high enough to ignore transient peaks. Longer transients (typically caused by lower vibration frequencies) cause more consecutive out-of-band readings; set the Digital Filter Sensitivity parameter higher to counter low frequency transients.

16.7.2 Adaptive Filter (Adaptive Only)
The adaptive filter has two settings, Adaptive Filter Sensitivity and Adaptive Filter Threshold. It maintains a running average of the A/D readings when the weight change remains less than the defined threshold value. The filter automatically applies less value to each successive A/D reading the longer the weight change is less than the threshold value. The amount of value given to the most recent A/D reading is determined by the sensitivity setting.
Adaptive Filter Sensitivity
Adaptive Filter Sensitivity can be set to Heavy, Medium or Light. A Heavy setting results in an output which is more stable to weight changes than the Light setting. A Heavy setting also results in small changes in weight data (a few grads) on the scale base to not be seen as quickly as with the Light setting.
If the difference in typical subsequent weight values on the scale are only a few display divisions, use a Light setting. On a truck scale where the changes in subsequent weight values are 100s of display divisions, a Heavy setting is more appropriate.

Adaptive Filter Threshold
Set the Adaptive Filtering Threshold for the amount of observed instability in the system. This parameter can be set in the range of 0–2000 and is entered as a weight value. When a new sampled weight value is acquired, the adaptive filter compares the new value to the previous (filtered) output value.
If the difference between the new value and the previous output value is greater than the Adaptive Filtering Threshold parameter the adaptive filter is reset to the new weight value.
If the difference between the new value and the previous output value is less than the Adaptive Filtering Threshold parameter, the two values are averaged together using a weighted average. The weighted average is based on the amount of time the system has been stable, and selected Adaptive Filter Sensitivity sensitivity.
With the Adaptive Filtering Threshold set at zero, determine the amount of instability present. Enter this amount of weight instability to set the threshold of the adaptive filter. The adaptive filter is set to OFF, the Adaptive Filtering Threshold parameter is set to zero.

16.7.3 Damping Filter (Damping Only)
The damping filter is a simple filter which adjusts the amount of time it takes for a change in weight to be processed through the scale. The Damping Value parameter is a time interval specified in tenths of a second (10 = 1 second). This Damping Value is used to determine the amount of time it takes for the scale to reach its final weight output. When Damping Value is set to ten, a transition from 0 lb to 500 lb on the scale takes one second. The closer the weight gets to its final amount, the slower the weight changes on the display.

RICE LAKE 682 Synergy Plus Digital Weight Indicator -
Progression

16.8 Regulatory Mode Functions

Regulatory Parameter| Weight On Scale| Tare In System| Front Panel Key Tare| Front Panel Key Zero
---|---|---|---|---
NTEP| Zero| No| “0000000”| Zero
Yes| Clear tare| Zero
Negative| No| No action| Zero
Yes| Clear tare| Zero
Positive| No| Tare| Zero
Yes| Tare| Zero
Canada| Zero| No| “0000000”| Zero
Yes| Clear tare| Clear tare
Negative| No| No action| Zero
Yes| Clear tare| Clear tare
Positive| No| Tare| Zero
Yes| No action| Clear tare
OIML| Zero| No| “0000000”| Zero
Yes| Clear tare| Zero and Clear tare
Negative| No| No action| Zero
Yes| Clear tare| Zero and Clear tare
Positive| No| “0000000”| Zero
Yes| Tare| Zero and Clear Tare
Australia| Zero| No| “0000000”| Zero
Yes| Clear tare| Zero and Clear tare
Negative| No| No action| Zero
Yes| Clear tare| Zero and Clear tare
Positive| No| “0000000”| Zero
Yes| Tare| Zero and Clear Tare
NOTE: Australia mode does not display capacity and count-by with the weight value.
None| Zero| No| “0000000”| Zero
Yes| Clear tare| Clear tare
Negative| No| No action| Zero
Yes| Clear tare| Clear tare
Positive| No| Tare| Zero
Yes| Clear tare| Clear tare

Table 16-5. Tare and Zero Key Functions for Regulatory Mode Parameter Settings

16.9 ASCII Character Chart
Table 16-6 is provided for reference when specifying print format strings. The actual character printed depends on the character mapping used by the output device.

Control| ASCII| Dec| Hex| ASCII| Dec| Hex| ASCII| Dec| Hex| ASCII| Dec| Hex
---|---|---|---|---|---|---|---|---|---|---|---|---
Ctrl-@| NUL| 00| 00| space| 32| 20| @| 64| 40| `| 96| 60
Ctrl-A| SOH| 01| 01| !| 33| 21| A| 65| 41| a| 97| 61
Ctrl-B| STX| 02| 02| “| 34| 22| B| 66| 42| b| 98| 62
Ctrl-C| ETX| 03| 03| #| 35| 23| C| 67| 43| c| 99| 63
Ctrl-D| EOT| 04| 04| $| 36| 24| D| 68| 44| d| 100| 64
Ctrl-E| ENQ| 05| 05| %| 37| 25| E| 69| 45| e| 101| 65
Ctrl-F| ACK| 06| 06| &| 38| 26| F| 70| 46| f| 102| 66
Ctrl-G| BEL| 07| 07| ’| 39| 27| G| 71| 47| g| 103| 67
Ctrl-H| BS| 08| 08| (| 40| 28| H| 72| 48| h| 104| 68
Ctrl-I| HT| 09| 09| )| 41| 29| I| 73| 49| i| 105| 69
Ctrl-J| LF| 10| 0A| *| 42| 2A| J| 74| 4A| j| 106| 6A
Ctrl-K| VT| 11| 0B| +| 43| 2B| K| 75| 4B| k| 107| 6B
Ctrl-L| FF| 12| 0C| ,| 44| 2C| L| 76| 4C| l| 108| 6C
Ctrl-M| CR| 13| 0D| –| 45| 2D| M| 77| 4D| m| 109| 6D
Ctrl-N| SO| 14| 0E| .| 46| 2E| N| 78| 4E| n| 110| 6E
Ctrl-O| SI| 15| 0F| /| 47| 2F| O| 79| 4F| o| 111| 6F
Ctrl-P| DLE| 16| 10| 0| 48| 30| P| 80| 50| p| 112| 70
Ctrl-Q| DC1| 17| 11| 1| 49| 31| Q| 81| 51| q| 113| 71
Ctrl-R| DC2| 18| 12| 2| 50| 32| R| 82| 52| r| 114| 72
Ctrl-S| DC3| 19| 13| 3| 51| 33| S| 83| 53| s| 115| 73
Ctrl-T| DC4| 20| 14| 4| 52| 34| T| 84| 54| t| 116| 74
Ctrl-U| NAK| 21| 15| 5| 53| 35| U| 85| 55| u| 117| 75
Ctrl-V| SYN| 22| 16| 6| 54| 36| V| 86| 56| v| 118| 76
Ctrl-W| ETB| 23| 17| 7| 55| 37| W| 87| 57| w| 119| 77
Ctrl-X| CAN| 24| 18| 8| 56| 38| X| 88| 58| x| 120| 78
Ctrl-Y| EM| 25| 19| 9| 57| 39| Y| 89| 59| y| 121| 79
Ctrl-Z| SUB| 26| 1A| :| 58| 3A| Z| 90| 5A| z| 122| 7A
Ctrl-[| ESC| 27| 1B| ;| 59| 3B| [| 91| 5B| {| 123| 7B
Ctrl-| FS| 28| 1C| <| 60| 3C| | 92| 5C| || 124| 7C
Ctrl-]| GS| 29| 1D| =| 61| 3D| ]| 93| 5D| }| 125| 7D
Ctrl-^| RS| 30| 1E| >| 62| 3E| ^| 94| 5E| ~| 126| 7E
Ctrl-| US| 31| 1F| ?| 63| 3F| | 95| 5F| DEL| 127| 7F

Table 16-6. ASCII Character Chart

Compliance

**** DECLARATIONOF CONFORMITY
Rice Lake Weighing Systems
230 West Coleman Street
Rice Lake, Wisconsin 54868
United States of America

RICE LAKE logo 2

Type: 680, 680HE and 682 indicator series
We declare under our sole responsibility that the products to which this declaration refers to, is in conformity with the following standard(s) or other regulations document(s).

EU Directive| Certificates| Standards Used / Notified Body Involvement
---|---|---
22014/35/EU LVD| –| 680: IEC 61010-1:2010+A1:2016
682, 680HE: EN 62368-1:2014 + A11:2017
2014/30/EU EMC|  –| EN 61326-1:2013, EN 61000-3-3:2013, EN 61000-6-2, EN 61000-6-4,
EN5501 1:2009/A1:2010
2014/53/EU RED| –| EN 301 489-17 V3.2.4, EN 300 328 V2.2.2, EN 301 893 V2.1.1
201 1/65/EU RoHS| –| EN 50581:2012

DECLARATION OFCONFORMITY

Rice Lake Weighing Systems
230 West Coleman Street
Rice Lake, Wisconsin 54868
United States of America

RICE LAKE logo 2

Type: 680, 680HE and 682 indicator series
We declare under our sole responsibility that the products to which this declaration refers to is in conformity with the following standard (s) or other regulations document(s).

UK Regulations| Certificates| Standards Used / Notified Body Involvement
---|---|---
2016/1101 Low Voltage| –| 680: IEC 61010-1:2010+A1:2016
682, 680HE: EN 62368-1:2014 + A11:2017
2016/1091 EMC|  –| EN 61326-1:2013, EN 61000-3-3:2013, EN 61000-6-2, EN 61000-6-4,
EN5501 1:2009/A1:2010
2017/1206 Radio| –| EN 301 489-17 V3.2.4, EN 300 328 V2.2.2, EN 301 893 V2.1.1
2012/3032 RoHS| –| EN 50581:2012

Specifications

Power

AC line voltage: 100–240 VAC
Frequency: 50–60 Hz
DC line voltage: 9–36 VDC

Power Consumption
~3.2 W (AC) with one 350 Ω load cell, 15 W max
~4 W (AC) with four 350 Ω load cells or eight 700 Ω load cells
Excitation Voltage
10 VDC bi-polar (± 5 VDC), 8 x 350 Ω or 16 x 700 Ω load cells

Analog Signal Input Range
-5 mV to +70 mV
Analog Signal Sensitivity

Minimum: 0.3 µV/graduation
Recommended: 1 µV/graduation

A/D Sample Rate
6.25–120 Hz, software selectable

Resolution

Internal: 8,000,000 counts
Display: 1,000,000

System Linearity
Within 0.01% full scale
Digital I/O
Four configurable I/O (5 V logic)
Communication Ports
Two RS-232 (three-wire)
RS-485/422 (two-wire or four-wire)
Micro USB (device)
Ethernet TCP/IP (10/100)
Wi-Fi
Bluetooth®

Status Annunciators
Zero, Stable, Gross/Net, Tare, Wi-Fi, Bluetooth®
Display
Five-inch LCD, 800 x 480 pixels, 500 NIT
Keys /Buttons
Flat membrane panel, tactile feel 18 buttons plus 5 softkeys and power

Temperature Range

Legal: 14° F to 104° F (-10° C to 40° C)
Industrial: 14° F to 122° F (-10° C to 50° C)

Rating / Material

Rating: IP69 (IP66 with RJ45 option)
Material: AISI 304 Stainless Steel

Dimensions (W x H x D)

Indicator and stand:| 11.6 in x 8.6 in x 4.0 in (29.47 cm x 21.85 cm x 10.16 cm)
---|---
Indicator and stand: (with RJ45 option)| 11.6 in x 8.6 in x 4.5 in (29.47 cm x 21.85 cm x 11.43 cm)

Weight
6.25 lb (2.84 kg)
Warranty
Two-year limited warranty
Certifications and Approvals

| NTEP
CoC Number 19-021
Accuracy Class: III / IIIL; nmax: 10000
---|---
Measurement
Canada
Approved| Measurement Canada
Approval AM-6121C
Accuracy Class: III / IIIHD; nmax: 10000
| OIML
File Number: R76/2006-A-NL1-19.56
Accuracy Class: IIII / IIII; nmax: 10000
| UL Listed
File Number: E151461


RICE LAKE logo 2

© Rice Lake Weighing Systems Content subject to change without notice.
230 W. Coleman St.
• Rice Lake, WI 54868
• USA USA:
800-472-6703
• International: +1-715-234-9171
www.ricelake.com
November 8, 2023
PN 204533 Rev D

References

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