Interface 9825 Digital Indicator User Manual
- July 13, 2024
- Interface
Table of Contents
Interface 9825 Digital Indicator
Product Usage Instructions
After unpacking the product, follow these inspection procedures:
- Check for any damage during transit.
- Verify all items in the carton including:
- 9825 Digital Indicator
- 9825 Installation & User Manual
- External Connecting Terminals – Product Qualification Certificate
- Clamping Strips & Anchor Nuts
- 9825 External Power Supply
- 9825 Grounding Cable Assembly
The 9825 digital indicator uses panel installation with a front panel thickness limit of 4mm. Follow these steps for installation:
- Remove mounting screws and clamping strips from the indicator.
- Push the indicator into the cabinet opening.
- Reinsert the clamping strips and tighten the mounting screws.
FAQ
- Q: What should I do if I encounter issues during installation?
- A: If you face any challenges during installation or usage, please refer to the detailed instructions provided in the Installation & User Manual. If the problem persists, contact our customer support for assistance.
Info Icons
Note
- “Note” means essential information that will help you use the device more effectively.
Caution
- “Caution” means this may cause damage to your device or data loss if you do not follow the instructions.
Warning
- “Warning” means potential danger. Example: property damage, personal injury or even death.
Pre Installation Warnings
Warning
This device must be installed and connected by a professional electrical staff
with the power supply disconnected for safe and dependable operation.
Warning
This device cannot be used in an unsafe enviornment. Example: Where explosion
protection is required.
Unpacking & Installation
Unpacking
Please follow these inspection procedures after unpacking the product:
- Check the product to ensure that there was no damage in transit.
- Check the following list and confirm that all the items are in the carton:
- 9825 Digital Indicator
- External Connecting Terminals
- Clamping Strips & Anchor Nuts
- 9825 External Power Supply
- 9825 Grounding Cable Assembly
- 9825 Installation & User Manual
- Product Qualification Certificate
Storage & Installation
The 9825 indicator must be stored in a dry, dust-free environment before use.
Storage temperature is -20°C to +65°C (-4°F to +149°F), working environment
temperature is -10°C to +104°F (+14°F to +104°F), relative humidity no more
than 95% (Non-Condensing).
The 9825 digital indicator uses panel installation, which requires the
thickness of the cabinet’s front panel to be no more than 4mm. Before
installation, remove the two mounting screws from the indicator’s clamping
strips, then remove the clamping strips. Push the indicator into the opening
on the cabinet, then reinsert the clamping strips. Gently tighten the two
mounting screws.
Indicator structure and physical dimensions (mm)
Connections
Power Connections
The 9825 has an input range of 9VDC to 36VDC. The maximum electrical power
consumption of the 9825 is 6W (8W Peak). The unit is shipped with an external
24VDC linear power supply and a grounding cable assembly. The GND Terminal
should be routed to the grounding lug on the rear of the 9825 housing and then
to earth using the provided grounding cable assembly to optimize signal
stability.
Use the screw-down terminals to secure the power supply leads and grounding
cable to the 3-position connector in the following configuration:
Pin Assignment
- = VDC +
- = VDC –
- = GND
Warning
Verify that the power supply connections are correct before powering on.
Note
Make sure that the power cord does not pose a potential obstacle or tripping
hazard. Only use approved accessories and peripherals.
Load Cell Connections
The 9825 indicator uses a 6-wire load cell signal connection. This indicator provides a 4.5-volt DC excitation voltage to the load cell(s). The voltage difference between +SIG and -SIG is about 0 ~ 9mV when connected to a load cell with a 2mV/V output, and about 0 ~ 13.5mV when connected to a load cell with a 3mV/V output. The 9825 indicator can drive up to six (6) 350-ohm load cells (or the equivalent resistance of all load cells connected in parallel is higher than 87Ω).
If the application requires the 9825 to be connected to multiple load cells,
please use a junction box.
Note
This product does not contain a junction box. If a junction box is necessary
for your application, we recommend Interface Model JB104SS as an approved
accessory.
The load cell cable requires a shield which must be properly grounded to ensure maximum stability. High-quality cable is recommended. Be sure to route the load cell cable away from high voltage/power cables. The maximum length allowed for the load cell or junction box cable is shown in the following table:
Sensor Input Terminal Pin Assignment
Four-wire analog (Load Cell) or (Junction Box) Connection
Six-Wire Analog (Load Cell) or (Junction Box) Connection:
Serial I/O Device Connections
The 9825 indicator comes standard with one USB port.
USB Port Connections
The 9825 indicator comes standard with a MINI-USB port that can be connected
to a PC. This USB port is designed for data communication and firmware
upgrades.
Analog Output Connections
- Use the JP1 pin header on the internal analog option board to configure the analog output for current output (4-20mA, 0-24mA) or voltage output (0-10V, 0-5V). Please note that voltage and current outputs cannot be used at the same time. We suggest using a PLC or PC to monitor the analog output calibration.
- Configure the voltage or current output as follows. Output type is selected in the Analog Out Setup menu, under the Output Type submenu.
Voltage output: Select either 0-5V or 0-10V. Use the Analog + & Analog – terminals.
Current output: Select either 0-24mA or 4-20mA. Use the Analog + & Analog – terminals.
Relay Input/Output Control Connections
The Output Connections
- The 9825 optional I/O control port is relay-based and can be used with an AC or DC power supply. The DC power supply range is 24VDC to 100VDC. The AC power supply range is up to 220VAC.
- The COM terminal can be connected to the positive or negative of the power supply. The maximum power output of each relay is 90W / 5A.
Output control interfaces and load connection diagram:
Output control interfaces and PLC connection diagram:
The Input Connections
The input interfaces are isolated, passive inputs. The interfaces can be
connected to many control control keys (Buttons), and the wiring is as
follows.
Basic Operation
Power On
The display will show the Interface logo followed by the Device Mode and
Firmware Version. After that, the current force value will be displayed.
Display Details
The 9825 utilizes a 128 x 32 dot OLED display with an adjustable LED
backlight. The table below summarizes the display annunciators.
Keypad Details
Keypad Functions
Tare (Exit, ↑ )
- When in display mode (Tare Function)
- Pressing this key sets the force value to zero (sets are).
- If the tare is already set, pressing this key removes the tare.
- When in the setup menu (Exit Function)
- Return to a previous menu.
- Increase the value when used as a directional key ( ↑ ).
- Hold to exit the setup menu.
PK/Val ( ↓ )
- When in display mode (PK/Val Function)
- Cycle among real-time, peak, and valley display modes.
- When in the setup menu ( ↓ Function)
- Enter sub-menu.
- Decrease a value when used as a directional key ( ↓ ).
Reset ( ← )
- When in display mode (Reset Function)
- Resets peak and valley values.
- When in the setup menu ( ← Function)
- Moves left when used as a directional key.
- Used to toggle FAST ANALOG mode.
Menu (Enter)
- When in display mode (Menu Function)
- Hold this key until the buzzer sounds to enter the setup menu.
- When in the setup menu (Enter Function)
- Saves the current setting.
System Configuration
Menu Tree
Warning
Do not access the Advanced Menu unless instructed to do so by a qualified
technician.
Menu Description
Menu | Sub-Menu | Description | Default | Options |
---|---|---|---|---|
Data | Sampling Rate | Number of Samples per | 30Hz | 30, 40, 50, 60, 75, 80, 100, |
120, 150,
Capture| | second.| | 170, 200, 240, 300, 400, 600, 1200Hz
| FIR Filter (Finite Impulse Response)| Reduces the influence of nearby
electrical or mechanical noise sources.| On| Off, On
SMA Filter (Simple Moving Average)| Smooths signal by averaging samples over a
given span.| 1| Integer values from 1 to 100
Select Unit Type| Force, Torque, Electric, Distance, NONE.| Force Torque
Electric Distance| LB, MT, KLB, ozf, KN, N, t, g, KG
oz-in, kg.m, kg. cm, kg.mm, N.m, cN.m, mN.m, lb-ft, lb-in
mV/V, V in, mm,
Units| Cal Basic Unit| Select engineering units displayed| Force| defines what
units are available in “select unit type”
| Nominal Capacity| Sets display output range| 100,000| Integer values from 1
to 100,000
Disp Resolution| Set decimal placement and increments| 1:100,000| Menu options
are based on Nominal Capacity value
Calibration| Live or Key-In| Set calibration type| Live| Live, Key-In
---|---|---|---|---
| Set Pos Span| Set span from zero
to positive capacity
| | Press ↓ and enter to start the sequence
Fixture
Press ↓ to start sequence
Set Neg Span| Set span from zero
to negative capacity
|
Set Zero Point| Set zero|
Cal Stability| A greater value can produce higher accuracy calibration points
but will require a more stable mV/V input signal during
calibration as well.
| 1| Integer values from 0 to 320 represent the number of samples averaged
when capturing a calibration point. Larger values = greater stability required
USB Setup| Baud Rate| Serial communication rate in bits per
second
| 9600| 2400, 4800, 9600, 19200, 38400,
57600,115200
| Bit / Parity| Set Binary format
and check bit
| 8-bit
None
| 8-bit None, 8-bit Even, 7-bit
Even, 7-bit Odd
Port Mode| Set port mode| Demand| Demand, Continuous
Protocol| Set Protocol (see protocol descriptions in the
appendix)
| Contact| Codec, ASCII
Analog Out| Output Type| Set Analog output
type
| 0-10V| 4-20mA, 0-10V, 0-5V, 0-24mA
| Scale Output| | | Adjust Low and High points
using keypad
Fine Tune| | | Adjust 0%, 50%, 100% output
points using keypad
Relay| IO Application| | None| None, Setpoint, Alarm
| Input Point n
(Setpoint)
| | 4000| Adjust values using the keypad
Input Hysteresis n
(Setpoint)
| | 200
Input High Point
(Alarm)
| | 5000
Input Low Point
(Alarm)
| | 3000
Custom In-1| | None| None, Reset Key, Tare Key, Print
Key
System| Version / Date| Display firmware
version and date
| | Press ↓ to view
| Unique ID| Display Unique ID|
Power-On Tare| | Disable| Off, On
Sys Reset| Reset to default settings.| | Press ↓ to execute
Advanced Menu| Password Required| | Enter Password 336699 to
access the Advanced Menu
Calibration Procedures
Calibration Overview:
- The 9825 Indicator can be calibrated by using either a Live calibration method or a Key-In calibration method. It is important to set the Nominal Capacity Value before beginning calibration.
Live Calibration
The Live calibration method produces the best possible system accuracy. This method requires one of the following:
- The load cell being paired with the 9825 Indicator will be connected to the instrument while a series of nominal force loads are applied to calibrate the instrument.
- A load simulator will be connected to the 9825 Indicator while a series of simulated mV/V loads are applied to calibrate the instrument.
Live calibration is accomplished by setting the Positive Span, Negative Span and Zero. To execute a Live calibration, follow the steps below:
- Press and hold the Menu button to enter the setup menu. A beep will sound as the setup menu is activated.
- Using the → (Menu) button, scroll until Calibration is displayed on the screen. Press the ↓ (Pk/Val) button to enter the calibration sub-menus.
- Using the → (Menu) button, scroll until Set Pos (or Neg) Span is displayed on the screen. Press the ↓ (Pk/Val) button to initiate the calibration process.
- The term Fixture will show on the screen. At this point the load cell should be set into its fixturing, but with no additional calibration loads applied. If a simulator is being used for the Live calibration, connect the simulator, but set its value to 0mV/V. Press the Menu (Enter) button to save this point.
- After the Fixture value has been set, the term C1 (calibration point #1) will appear on the screen. The user should set the numerical field so that it displays the nominal force load that is about to be applied. Once this value has been input and the applied force load has stabilized, pressing the Menu (Enter) button will capture this point.
- The C2 term will then appear. If the user would like to add another calibration point (up to six are possible) they can repeat the actions in Step 5. If the user would like to end the calibration, they should leave the numerical field as 0 and press the Menu (Enter) button.
Note: if the calibration is unsuccessful, an error message will appear: –
“Err2”: There is not enough signal from the load cell. This is most commonly
caused by incorrect wiring or a damaged load cell.
Repeat this process in the opposing polarity, then proceed to Zero
calibration.
Zero Calibration
- Press and hold the Menu button to enter the setup menu. A beep will sound as the setup menu is activated.
- Using the → (Menu) button, scroll until Calibration is displayed on the screen. Press the ↓ (Pk/Val) button to enter the calibration sub-menus.
- Using the → (Menu) button, scroll until Set Zero Point is displayed on the screen.
- At this point, the Zero Calibration is ready to begin. Be sure the load cell is connected and in an unloaded state. If using a simulator, be sure that the simulator is set to 0mV/V. Press the ↓ (Pk/Val) button to initiate the Zero Calibration. Dashed lines will be displayed at the bottom right of the screen to indicate that the 9825 is capturing the zero point.
Key-In Calibration
The Key-In calibration method is typically only used in emergency cases when
the indicator cannot receive a Live calibration. The Key-In method uses a
single point to establish the span of the load cell. It ignores load cell
nonlinearity and any asymmetry between the opposing loading modes.
To execute a Key-In calibration, follow the steps below:
-
Press and hold the Menu button to enter the setup menu. A beep will sound as the setup menu is activated.
-
Using the → (Menu) button, scroll until Calibration is displayed on the screen. Press the ↓ (Pk/Val) button to enter the calibration sub-menus.
-
The Live or Key-In sub-menu is the first Calibration sub-menu and should be displayed on the screen. Press the ← (Reset) button to change the flashing value from Live to Key-In. Press the Menu (Enter) button to save this setting.
-
Press the → (Menu) button to change the sub-menu to Rated Output. Press the ↓
(Pk/Val) button to enter the Rated Output sub-menu. -
Enter the sensitivity of the load cell into the numerical field. This is typically the mV/V output of the load cell at its rated capacity. Press the Menu (Enter) button to save this value.
-
Press the → (Menu) button to change the sub-menu to Sensor Capacity. Press the ↓ (Pk/Val) button to enter the Sensor Capacity sub-menu.
-
Enter the rated capacity of the load cell into the numerical field. Press the Menu
(Enter) button to save this value. -
Press the → (Menu) button to change the sub-menu to Set Zero Point. Users should perform a Zero Calibration as detailed above.
Industrial Interfaces
USB Interface Communication
The 9825 indicator can connect to a PC via a USB cable. First, a USB driver
must be installed on the PC to access the 9825. Measurement data can be
accessed by using a terminal emulation application such as HyperTerminal. The
USB Port output has Two fixed strings: ASCII and Condec.
Analog Output Interface
Analog Output Calibration
The mode of the Analog Output can be selected from its Output Type sub-menu.
There are four modes of analog output: 4-20mA, 0-24mA, 0-5V and 0-10V. Please
refer to the wiring section for the proper jumper setting of the optional
analog output board. To calibrate the Analog Output, follow the steps below:
Scale Output
- While within the Analog Output menu, scroll to Scale Output and press the ↓ (Pk/Val) button to initiate the Scale Output sequence.
- Scale Output is set by inputting a Low and High force value. To set a given value, use the numerical field on the screen to input the desired force. The first character can be used to switch the sign convention from + to – and back. Press the ↓ (Pk/Val) button to save the setting.
Fine Tune
Before performing this part of the device setup, the Analog Output of the 9825
should be connected to whatever instrument will be accepting and measuring the
analog signal.
-
In the Analog Output setup menu, scroll to Fine Tune and press the ↓ (Pk/Val) button to initiate the Fine Tune sequence.
-
The screen will display “0%”, which indicates the lowest point of the analog scale. For voltage outputs, this is 0VDC. For current outputs, this is either 0mA (0-24mA) or 4mA (4-20mA).
-
By adjusting the numerical value on the screen, the Analog output will be fine-tuned. The digit furthest to the left creates the greatest change in output, while the digit furthest to the right creates the smallest change in output. Adjust this number until the measured value on the connected meter or PLC shows the minimum point on the analog scale. Press Menu (Enter) to save this value and proceed.
-
Repeat this process for the 50% point. For a 0-5V setting the output will be 2.5V. For a
4- 20mA setting the output will be 12mA and so on. -
Repeat this process for the 100% point.
Notes
- The analog output mode setup to 4mA-20mA: If the load 0kg, the voltage output is 0. If the load is the full range of the scale, then the voltage output is 24 mA.
- The analog output mode setup to 0-10V: If the load 0kg, the voltage output is 0. If the load is the full range of the scale, then the voltage output is 10.8V.
SetPoint Application
The following conditions should occur when you use the SetPoint application:
- When the load is less than the value of “Input Point 1”:
- The symbol will show on the display.
- The OUT-1 relay will close.
- Otherwise, the symbol will show on the display and the OUT-1 relay will open.
- When the load is less than the value of “Input Point 2”, But greater than the value of “Input Point1”:
- The symbol will show on the display.
- The OUT-2 relay will close.
- Otherwise, the symbol will show on the display and the OUT-2 relay will open.
- When the load is less than the value of “Input Point 3”, but greater than the value of “Input Point2”:
- The symbol will show on the display.
- The OUT-3 relay will close.
- Otherwise, the symbol will show on the display and the OUT-3 relay will open.
- When the load is less than the value of “Input Point 4”, but greater than the value of “Input Point 3”:
- The symbol will show on the display.
- The OUT-4 relay will close.
- Otherwise, the symbol will show on the display and the OUT-4 relay will open.
Alarm Application
Loads of the four configurable Alarm points must follow this formula:
Input ExtraHigh > Input HighPoint > Input LowPoint > Input ExtraLow
- When the load is less than the value of “Input ExtraHigh”:
- The symbol will show on the display
- The alarm will sound
- The OUT-1 relay will close
- The display will send a warning message
- Otherwise, the symbol will show on the display and the OUT-1 relay will open.
- When the load is less than the value of “Input ExtraHigh”, but greater than the value of “Input HighPoint”:
- The symbol will show on the display
- The alarm will sound
- The OUT-2 relay will close
- The display will send a warning message
- Otherwise, the symbol will show on the display and the OUT-2 relay will open.
- When the load is less than the value of “Input LowPoint”, but greater than the value of “Input ExtraLow”:
- The symbol will show on the display
- The alarm will sound
- The OUT-3 relay will close
- The display will send a warning message
- Otherwise, the symbol will show on the display and the OUT-3 relay will open.
- When the load is less than the value of “Input ExtraLow”:
- The symbol will show on the display
- The alarm will sound
- The OUT-4 relay will close
- The display will send a warning message
- Otherwise, the symbol will show on the display and the OUT-4 relay will open.
Indicator Info
Software Version:
This information can be accessed from the main menu under
Menu_System_Version/Date
- Software Version:
- Last Update:
Appendix
- Appendix 1: Command Output Format 1 – Continuous Mode (ASCII)
- In this mode of communication, the indicator transmits the data frame continuously. The load value in the frame is expressed in ASCII.
Appendix 2: Command Output Format 1 – Demand Mode (ASCII)
This host device (PC) will output demand command through the serial ports when
the scale is in the normal loading status.
The demand command format is shown below:
The serial output data format is as follows:
Appendix 3: Condec Format Output (Condec)
Condec Demand Output
Demand Commands
- “P” > Print
- “T” > Tare
- “Z” > Zero
- “G” > Gross
- “N” > Net
Condec Continuous Output
Note: The starting address 40001 of MODBUS is not suitable for SIEMENS soft.
APPENDIX 4: FAST MODE
The 9825 features a fast analog-to-digital converter. However, the OLED
display update rate limits the effective bandwidth unless the display is set
to FAST MODE.
- When active, the display updates 5 times per second and these update takes 20 ms.
- During the 20 ms updates, the analog output freezes at the current value. Also, the peak/valley does not update during that time.
- To allow faster analog update and peak valley response, the FAST MODE should be enabled.
EXAMPLE DATA TRACE WITH FAST MODE = OFF.
NOTE 20 ms flat spots in data occur every 200 ms.
EXAMPLE DATA TRACE WITH FAST MODE = ON
Note smooth response with no flat spots.
Specifications
EXCITATION
Excitation Voltage – VDC| 4.5
Current – mA| 100
PERFORMANCE
Maximum Display Counts| ±999,999
Internal Resolution Counts| 1,000,000
Signal Input Range – mV/V| ±4.5
Sensitivity – μV/count| 0.03
Readings Per Second – MAX| 1000
Latency| Variable up to 20ms (Affects Analog out & Peak/Valley)
Filter Settings| Off, Static, Dynamic FIR, and/or Moving Average
Serial Interfaces| USB 2.0 standard
ENVIRONMENTAL
Operating Temperature
| °C| -10 to +45
°F| +14 to 113
Relative Humidity – % MAX| at °C| 10% to 90%, non-condensing
at °F| 10% to 90%, non-condensing
POWER
Supply
| ****
VDC
| ****
24 VDC with supplied 120V 60Hz, AC/ DC adapter or 9-36 VDC external supply
Power Consumption| W| 6 RMS, 8 Peak
Switching frequency of internal PSU| 300kHz
Provides isolation| 6kV
MECHANICAL
Dimensions – W x H x D
| mm| 106 x 66 x 150
in| 4.17 x 2.6 x 5.91
Weight
| g| 68
lbs| 1.5
Display – mm(in)
| 128 x 32 OLED dot matrix display. Font size is 9.5 (0.37) H and 6.5 (0.26) W
Panel Cutout – W x H
| mm| 91 x 46
in| 3.58 x 1.81
FAST ANALOG OUTPUT – kHz
| VDC 0-5, 0-10, 2.5+/-2.5, 5+/-5
mA 4-20, 0-24, 12+/-8, 12 +/-12
Warranty
All indicator products from Interface Inc., (‘Interface’) are warranted
against defective material and workmanship for a period of (1) one year from
the date of dispatch. If the ‘Interface’ product you purchase appears to have
a defect in material or workmanship or fails during normal use within the
period, please contact your Distributor, who will assist you in resolving the
problem. If it is necessary to return the product to ‘Interface’ please
include a note stating name, company, address, phone number and a detailed
description of the problem. Also, please indicate if it is a warranty repair.
The sender is responsible for shipping charges, freight insurance, and proper
packaging to prevent breakage in transit. ‘Interface’ warranty does not apply
to defects resulting from the action of the buyer such as mishandling,
improper interfacing, operation outside of design limits, improper repair, or
unauthorized modification. No other warranties are expressed or implied.
‘Interface’ specifically disclaims any implied warranties of merchantability
or fitness for a specific purpose. The remedies outlined above are the buyer’s
only remedies.
‘Interface’ will not be liable for direct, indirect, special, incidental, or
consequential damages whether based on the contract, tort, or other legal
theory.
Any corrective maintenance required after the warranty period should be
performed by ‘Interface’ approved personnel only.
www.interfaceforce.com.