PATLITE WDB-D80S-PRO Wireless Data Acquisition System WD PRO Series Instruction Manual

June 9, 2024
PATLITE

WDB-D80S-PRO Wireless Data Acquisition System WD PRO Series

GA0000937_06
Wireless Data Acquisition System WD PRO Series
TYPE WDB-D80S-PRO TYPE WDT-6LR-Z2-PRO
Instruction Manual
[Web Version]

Notice to Customer
Thank for your purchasing our PATLITE products. The WDB-D80S-PRO and WDT- 6LR-Z2-PRO are WD PRO Series products. For the WDR-LE-Z2, refer to “WDT-4LR-Z2 /WDT-5LR-Z2/WDT-6LR-Z2 Instruction Manual.” For the WDR-L(E)-Z2-PRO(-L), refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2 /WDR-L(E) -Z2-PRO(-L) Instruction Manual.”
Request the installation and wiring be performed by a professional contractor if construction work is involved.
Prior to installation, read this manual thoroughly before using this product to ensure correct use.
Re-read this manual before conducting maintenance, inspections, repairs, and so on. If you have any questions about this product, please contact our service and repair desk.
When using the system operation software WDSWIN01, use version 1.03 or later.
To the Contractor
Prior to installation, read this manual thoroughly to ensure it is installed correctly.
Return this manual to the customer.

Page

1. Before you begin

5

2. Contents

11

3. Models

12

4. Part Names and Dimensions

13

5. Operation Overview

14

6. Installation

20

7. Operation

27

8. Function Details

47

9. Troubleshooting

60

10. Specifications

62

65 11. Replacement and Optional Parts

Wireless Data Acquisition System – WD PRO Series Instruction Manual
Table of Contents
5 1. Before you begin
1.1 About Safety Symbols …………………………………………………………………………………………………… 5 1.2 Safety Precautions ……………………………………………………………………………………………………… 6
11 2. Contents
2.1 About the Contents …………………………………………………………………………………………………… 11 2.1.1 WDB- D80S-PRO (Contact Input – Serial Communication Base Unit) ……………………………………………… 11 2.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter) ……………………………………………………………………… 11
12 3. Models
3.1 About Models…………………………………………………………………………………………………………… 12 3.1.1 WDB-D80S- PRO (Contact Input – Serial Communication Base Unit) ……………………………………………… 12 3.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter) ……………………………………………………………………… 12
13 4. Part Names and Dimensions
4.1 About Part Names and Dimensions …………………………………………………………………………………… 13 4.1.1 WDB-D80S-PRO (Contact Input – Serial Communication Base Unit) ……………………………………………… 13 4.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter) ……………………………………………………………………… 13
14 5. Operation Overview
5.1 About the WD System ………………………………………………………………………………………………… 14 5.2 System Configuration ………………………………………………………………………………………………… 14
5.2.1 Glossary ………………………………………………………………………………………………………… 14 5.2.2 System Configuration …………………………………………………………………………………………… 15 5.2.2.1 WD System Configuration at Run Time ………………………………………………………………………… 15 5.2.2.2 WD System Configuration at Maintenance ……………………………………………………………………… 16 5.3 WD System Operation Overview ……………………………………………………………………………………… 17 5.4 About Visualization Application Software ……………………………………………………………………………… 17 5.4.1 CSV Data ……………………………………………………………………………………………………… 17 5.4.2 Socket Communication ………………………………………………………………………………………… 17 5.5 Function List …………………………………………………………………………………………………………… 18 5.5.1 LED Unit and Buzzer Unit Control Functions ……………………………………………………………………… 18 5.5.2 Contact Input Line Functions …………………………………………………………………………………… 18 5.5.3 RS-232C Communication Functions ……………………………………………………………………………… 18 5.5.4 Wireless Data Communication Function ………………………………………………………………………… 19
20 6. Installation
6.1 Before Installation ……………………………………………………………………………………………………… 20 6.1.1 What is the WD Wireless Network? ……………………………………………………………………………… 20 6.1.1.1 About the WD Wireless Network ……………………………………………………………………………… 20 6.1.1.2 About Selecting a Wireless Channel …………………………………………………………………………… 20 6.1.1.3 Example Wireless Channel Selection…………………………………………………………………………… 20
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Wireless Data Acquisition System – WD PRO Series Instruction Manual
6.1.2 About Grouping and ExtendedPanID …………………………………………………………………………… 21 6.1.3 About the MAC Address ………………………………………………………………………………………… 22 6.1.4 How many WDT you can connect to WDR ……………………………………………………………………… 22 6.2 About the Installation Environment …………………………………………………………………………………… 22 6.2.1 Installation Environment Main Points …………………………………………………………………………… 22 6.2.2 About the Influence of Surrounding Radio Waves ………………………………………………………………… 23 6.2.3 Distance Between Devices ……………………………………………………………………………………… 24 6.2.4 Ensuring Line of Sight …………………………………………………………………………………………… 24 6.2.5 WDR Installation Position and Obstacles ………………………………………………………………………… 24 6.2.6.About the Signal Tower Power Supply Status …………………………………………………………………… 24 6.3 Equipment Settings …………………………………………………………………………………………………… 25 6.3.1 Setup Information ……………………………………………………………………………………………… 25 6.3.2 Equipment Settings ……………………………………………………………………………………………… 26 6.4 Equipment Installation ………………………………………………………………………………………………… 26 6.4.1 WDB-D80S, WDT-PRO Installation ……………………………………………………………………………… 26 6.4.2 Checking Connections to WDR ………………………………………………………………………………… 26
27 7. Operation
7.1 WDB-D80S Installation ………………………………………………………………………………………………… 27 7.1.1 Installing and Removing WDB-D80S……………………………………………………………………………… 27 7.1.1.1 Wiring RS-232C Cable from Bottom of Main Unit ……………………………………………………………… 29 7.1.1.2 Wiring RS-232C Cable from Cable Gland ……………………………………………………………………… 30 7.1.1.3 When Not Using the RS-232C Cable …………………………………………………………………………… 31 7.1.1.4 Wiring Method When Using Pole Bracket and Pole (Accessories) ……………………………………………… 32 7.1.2 Replacing Mounting Bolts (M4 M3) on the Main Unit…………………………………………………………… 33 7.1.3 Detaching the Terminal Block Connector ………………………………………………………………………… 33 7.1.4 WDB-DB0S wiring ……………………………………………………………………………………………… 34 7.1.4.1 Wiring When Lighting Control and External Input, and Clear Input Control are on Different Equipment …………… 34 7.1.4.2 Wiring When Lighting Control and External Input, and Clear Input Control are on Different Equipment …………… 36 7.1.4.3 Terminal Block Connector (RS-232C Interface) Wiring ………………………………………………………… 37
7.2 WDT-PRO Installation ………………………………………………………………………………………………… 38 7.2.1 Installing and Removing WDT-PRO ……………………………………………………………………………… 38 7.2.1.1 Installing and Removing WDB-D80S …………………………………………………………………………… 38 7.2.1.2 Attaching the LED Unit and Buzzer Unit ………………………………………………………………………… 39
7.3 Using WDB-D80S, WDT-PRO ………………………………………………………………………………………… 41 7.3.1 Setting up WDB-D80S, WDT-PRO Main Unit……………………………………………………………………… 41 7.3.1.1 Setting up the Main Unit ……………………………………………………………………………………… 41 7.3.1.2 Setup Items …………………………………………………………………………………………………… 41 7.3.1.3 Required Equipment …………………………………………………………………………………………… 42 7.3.2 WDB-D80S DIP Switch Operations ……………………………………………………………………………… 42 7.3.3 Checking the WDB-D80S Status Lamp …………………………………………………………………………… 43 7.3.4 Checking Operations with WDT-PRO Indicator …………………………………………………………………… 44 7.3.5 Initializing WDB-D80S, WDT-PRO ……………………………………………………………………………… 45
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Wireless Data Acquisition System – WD PRO Series Instruction Manual
7.3.6 Differences with WDT-LR Setup Items …………………………………………………………………………… 46
47 8. Function Details
8.1 LED Unit and Buzzer Unit Control Functions ………………………………………………………………………… 47 8.1.1.Signal Tower Control Functions ………………………………………………………………………………… 47 8.1.2 Remote Control Functions ……………………………………………………………………………………… 48 8.1.3 Release Remote Control Function ……………………………………………………………………………… 49
8.2 Contact Input Line Functions ………………………………………………………………………………………… 50 8.2.1 Determine Signal Tower Control Input Function …………………………………………………………………… 50 8.2.2 Determine External Input Line Function ………………………………………………………………………… 52 8.2.3 Function to Determine Simultaneous Input of Signal Tower Control Line and External Input Line ……………………… 53 8.2.4 Determine Clear Input Line Function……………………………………………………………………………… 53 8.2.5 Simple Counter Function ………………………………………………………………………………………… 54
8.3 RS-232C Communication Functions ………………………………………………………………………………… 55 8.3.1 Communication Setup Function ………………………………………………………………………………… 55 8.3.2 Receive Data Function…………………………………………………………………………………………… 55 8.3.3 Data Transmission Function……………………………………………………………………………………… 56
8.4 Wireless Data Communication Functions……………………………………………………………………………… 56 8.4.1 Mesh Network Transmission …………………………………………………………………………………… 56 8.4.2 Information Transmission Function ……………………………………………………………………………… 57 8.4.2.1 About Timing of Input Information Transmissions ……………………………………………………………… 57 8.4.2.2 About Periodic Transmissions ………………………………………………………………………………… 57 8.4.2.3 About Information Transmitted to WDR ………………………………………………………………………… 57 8.4.2.4 About Format of Information Transmitted to WDR ……………………………………………………………… 58 8.4.2.5 About WDT-LR Format ………………………………………………………………………………………… 58 8.4.3 Retentive Status Function ……………………………………………………………………………………… 59 8.4.4 Receive Information Function …………………………………………………………………………………… 59
60 9. Troubleshooting
9.1 Troubleshooting………………………………………………………………………………………………………… 60 9.1.1 Contact Input – Serial Communication Base Unit ………………………………………………………………… 60 9.1.2 WDT- 6LR-Z2-PRO (WD PRO Transmitter) ……………………………………………………………………… 61
62 10. Specifications
10.1. Specifications ………………………………………………………………………………………………………… 62 10.1.1 Contact Input – Serial Communication Base Unit ………………………………………………………………… 62 10.1.2 WD PRO Transmitter …………………………………………………………………………………………… 64
65 11. Replacement and Optional Parts
11.1 Replacement Parts …………………………………………………………………………………………………… 65 11.2 Optional Parts ………………………………………………………………………………………………………… 65
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Wireless Data Acquisition System – WD PRO Series Instruction Manual

1. Before you begin

1. Before you begin
1.1 About Safety Symbols
To prevent injuries to the user and other personnel, as well as to prevent damage to assets, note the following:

The following symbols classify warnings and cautions, and describe the level of harm and damage that will occur when the corresponding instructions are ignored.
WARNING This symbol indicates, “Failure to follow the instructions may lead to death or serious injury.”
CAUTION This symbol indicates, “Failure to follow the instructions may lead to injury or property damage.” The following symbols classify and describe the content of associated messages.
Prohibited This symbol identifies “Prohibited” operations that should never be carried out.
Mandatory This symbol identifies “Mandatory” instructions that should always be carried out.
This symbol identifies general “Caution” related information.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

1. Before you begin

1.2 Safety Precautions

Prohibited Mandatory

WARNING
This Wireless Data Acquisition System (hereby referred to as “this product”) gets various data and wirelessly transfers this data from a transmitter to a receiver. Do not use this product for any other purpose.
Do not use this product in the vicinity of implanted cardiac pacemakers and other medical equipment, as this product’s radio waves may affect the performance of these devices.
Do not use or install the receiver in locations where liquids such as water is present, oil will splatter, or locations that are humid or dusty. Failure to follow these instructions could result in fire, electric shock or product failure.
To prevent accidents, do not use this product other than for its intended purpose and do not run operations or maintenance other than those described in this manual.
This product is not intended for use where high reliability is required and where human life is involved, such as medical equipment, atomic energy equipment and machinery, aviation and aerospace, transportation, and control of other equipment. If this product is used for these applications, we cannot be held responsible in the event of injury or property damage.
Do not modify or disassemble this product. Failure to follow these instructions could result in fire or electric shock.
Do not use this product when there is condensation. Failure to follow these instructions could result in fire or electric shock.
Do not allow liquids to enter the receiver, and do not allow it to have contact with metallic objects. Failure to follow these instructions could result in fire or electric shock.
Request the installation and wiring be performed by a professional contractor if construction work is involved. Failure to follow this instruction could result in fire, electric shock or falls.
Turn off the power before performing any electric wiring or product installation. Failure to follow this instruction could result in electric shock.
Always use a power supply within the operating voltage range. Failure to follow this instruction could result in fire or product failure.
In places such as aircraft and hospitals, turn off this product where usage of wireless devices is prohibited and where its radio waves affect surrounding equipment.
We cannot foresee all circumstances concerning the handling and dangers associated with this product. Therefore, not every possible danger is indicated in this instruction manual. To prevent accidents when operating or maintaining the product, in addition to the safety guidelines identified in the instructions of this manual, follow all general safety guidelines.
In the unlikely event that there is an abnormal situation such as smoke or odors emitting from the product, immediately cut the power supplied to the product. Failure to follow this instruction could result in fire or electric shock.
Take the following precautions to prevent electric shock, short-circuit, or damage. Disconnect the power before wiring, repairs, or replacing a fuse. Use this product under suitable conditions. If the body or unit becomes damaged, replace it.

6

Wireless Data Acquisition System – WD PRO Series Instruction Manual

1. Before you begin

Prohibited Mandatory

CAUTION
Do not install this product near other electrical appliances. If you install this product near a facsimile, personal computer, television, microwave oven, or equipment using a motor, this product may not operate properly.
Do not use this product with the O-ring or waterproof gasket removed. This will lower waterproofing performance. Failure to follow this instruction could result in product failure.
Do not use this product in applications that require a high-degree of reliability or real-time performance. If there are communication problems, this product cannot retrieve accurate data.
Do not use this product near fire, in hot or humid environments, or where corrosive or flammable gas is present. Failure to follow this instruction could result in product malfunction.
Do not use or store this product in the following locations. Failure to follow this instruction could result in product malfunction or failure. Environments with poor breathability and ventilation. Near equipment that generate strong electrical or strong magnetic fields. Places exposed to direct sunlight. Locations subject to shock and vibration. Near heating appliances. Environments where there is dust or iron powder. Locations where the product may fall and break. Locations exposed to salty sea air.
Attach the cap (included) to the cable gland. Waterproofing performance is lowered if the cap is not attached. Failure to follow this instruction could result in product failure.
When the RS-232C cable is not passed through the cable gland, attach the sealing plug (included). Waterproofing performance is lowered if the sealing plug is not attached. Failure to follow this instruction could result in product failure.
Do not touch the connector terminals inside the unit when attaching or removing each unit or head cover. Failure to follow this instruction could result in product failure.
Do not apply voltage to the flashing common line or external input common line. Failure to follow this instruction will result in product failure.
Operate this product only after thorough testing in the customer environment. Pay close attention to the polarity of the power supply before connection. Connecting the power supply
incorrectly could result in product failure.
To clean this product, wipe with a soft cloth dampened with water. Do not wipe with cleaners containing thinners, benzine, gasoline, or oil.
To maintain dust and waterproofing performance, always use this product with the transmitter, LED unit, and head cover or buzzer unit securely attached.
When removing covers or packing, which are attached to this product, be careful not to snag the product. Failure to follow this instruction could result in product failure.

7

Wireless Data Acquisition System – WD PRO Series Instruction Manual

1. Before you begin

CAUTION
Although this product has a high level of security, there is the potential for third-parties to intercept communications as this product uses radio waves.
When using this product, pay close attention to the following: Due to the nature of radio waves, communication can be disabled even over insignificant distances as a
result of noise or other environmental factors. Do not use this product near chemicals. This product could melt or become deformed if any chemicals
adhere to it. To prevent static electricity, discharge the static electrical charge in your body before starting work. (You
can discharge static electricity by touching your hand on grounded metal objects.) Perform daily inspections. As a precaution, use this product in conjunction with other equipment to handle potential problems.
Operation under the following conditions could cause the wireless communication distance to become shorter than specified, and increase reaction times: Metal obstructions, such as steel doors or reinforced concrete, are between the transmitter and receiver. Transmitter or receiver is mounted on a metal surface. Powerful radio waves are nearby, such as those emitted by broadcasting stations. Power lines or other high-voltage lines are nearby.
About the Operating Environment We tested the product with out of the box computers in a normal operating environment. However,
depending on your operating environment, which includes the computer main unit, peripheral devices and applications in use, there may be cases where this product will not run properly.
The software copyrights are held by our company. Do not use this software in other products, or duplicate or modify a portion or all the software without prior written permission.
Disposing this product When disposing of this product, follow the rules and regulations on how to handle recyclable materials as
outlined in your community.
About this manual The contents of this manual are subject to change without notice. Images in this manual are for illustration purposes only, and may appear different from the actual product.
Additionally, for ease of explanation, the illustration may hide a portion of the product. This manual is copyrighted. No part of the manual, including drawings or technical information, can be
copied or duplicated in any manner, without prior consent. When transferring ownership of this product, include the instruction manual (digest version). If you have any questions or need further information, contact your nearest PATLITE sales representative.
We cannot warrant against breakdowns caused by disassembling this product, natural disasters, or handling of this product that is contrary to any warnings or precautions contained herein. Avoid using this product in ways other than those described in this manual.
We cannot be held responsible for damages and injuries caused by failing to pay attention, or failing to follow precautions, during operation and maintenance.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

1. Before you begin

Conformity requirements for the UL Standard – Maximum surrounding air temperature rating of 50 – This product is designed for use on a flat surface for a Type 1 Enclosure. – For use in Pollution Degree 2 Environment. – Use a “class 2” power supply specified in the guidelines under UL1310.
FCC notation requirement This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
FCC CAUTION Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. Note:This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However,there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on,the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. (Responsible party in U.S.A.) PATLITE U.S.A. Corporation, R20130 S. Western Ave. Torrance, CA90501, U.S.A.
EU Declaration of Conformity We PATLITE Corporation, 4-1-3, Kyutaromachi, Chuo-ku, Osaka-shi, Osaka 541-0056 JAPAN declare under our sole responsibility that the product described below is in compliance the following directives. – Product Name: Wireless Data Acquisition System WD PRO Transmitter – Company Logo: – Directive: Electromagnetic Compatibility Directive(EMC): 2014/30/EU – RoHS Directive: 2011/65/EU – Radio Equipument Directive: 2014/53/EU – Low Voltage Directive (LVD): 2014/35/EU Visit our homepage at https://www.patlite.com/ce/wd_07539.html to download “EU Declaration of Conformity”.

La operación de este equipo está sujeta a las siguientes dos condiciones: (1) es posible que este equipo o dispositivo no cause interferencia perjudicial y (2) este equipo o dispositivo debe aceptar cualquier interferencia, incluyendo la que pueda causar su operación no deseada.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

1. Before you begin

. .

This telecommunication equipment conforms to the standard or technical requirements of NBTC.

. .. 2498

.

.

.

.

.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

2. Contents

2. Contents

2.1 About the Contents 2.1.1 WDB-D80S-PRO (Contact Input – Serial Communication Base Unit)

Main Unit: 1

Hexagon Nut with Flange (M4)

Accessories
Hexagon Nut with Flange (M3)

Hexagon Bolt (M3)

Instruction Manual (digest version): 1 copy

3 Cap for Cable Gland

6
Sealing Plug for Cable Gland

3
Terminal Block Connector

1

1

1

2.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter)
Main Unit: 1 Instruction Manual (digest version): 1 copy

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Wireless Data Acquisition System – WD PRO Series Instruction Manual
3. Models
3.1 About Models 3.1.1 WDB-D80S-PRO (Contact Input – Serial Communication Base Unit)

3. Models

Model
W D B – Model Number

Format

Number of

Number of

External Contact External Contact Communication

Inputs

Outputs

Series

D

8

0

S -PRO

D Digital

S Serial communication

3.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter)

Model

Size

W D T – Model Number 6 L R –

Wireless Type
Z2

Series
-PRO

6LR 60 LR Signal Tower

Z2 Zigbee2007Pro 2.4GHz

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

4. Part Names and Dimensions

4. Part Names and Dimensions

4.1 About Part Names and Dimensions

4.1.1 WDB-D80S-PRO (Contact Input – Serial Communication Base Unit)

60 19
75

Head cover Nameplate Body

Cable gland

Direct Mount Bracket 35

12 Waterproof gasket

Front View

Lead Wire ULI061 AWG24 (Wire length: 1300 mm)

Cap for cable gland (accessory)
Sealing plug for cable gland (accessory)
(12) (Unit: mm) Side View

4.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter)

70
60 Front View

O ring Case
Indicator

Nameplate

MAC Address

Rear View

(Unit: mm)

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

5. Operation Overview

5. Operation Overview

5.1 About the WD System

To collect data available on equipment in your facility, the WD system transmits associated information (such as equipment operation data) to a host computer over the WD wireless network. By using visualization application software, you can use collected information to accurately view the capacity utilization rate, trigger improvement activities, and optimize operations. This application is not limited to production facilities and can be applied to other areas.
5.2 System Configuration

5.2.1 Glossary

Term WD System WD Wireless Network

Description Name for the system as a whole. Can include multiple WD wireless networks and the host. A part of the wireless network that consists of one WDR and multiple WDT (up to 30 units).

WDR

Receiver on a WD wireless network. Receives information from multiple WDT and transmits to the host.
Model: WDR-LE-Z2, WDR-L-Z2-PRO(-L), WDR-LE-Z2-PRO(-L)

WDS

Application software for WDT and WDR settings, and for collecting Signal Tower information in the WD system as CSV log data.
Model: WDS-WIN01

WDT

Transmitter on a WD wireless network. Collects various information from a Signal Tower and transmits the information wirelessly to WDR.
Models: WDT-5E-Z2, WDT-6M-Z2, WDT-4LR-Z2,WDT-5LR-Z2, WDT-6LR-Z2,
WDT-6LR-Z2-PRO

WDT-LR

Transmitter on a WD wireless network. Connect and use with LR Signal Towers. Models: WDT-4LR-Z2,WDT-5LR-Z2, WDT-6LR-Z2

WDT-PRO

WD PRO transmitter on a WD wireless network. Information retrieved from a WD PRO Series Base Unit is wirelessly transmitted to WDR.
Model: WDT-6LR-Z2-PRO

WDB-D80S

Contact Input – Serial Communication Base Unit on the WD wireless network. Transmits the status of the Signal Tower control line, status of the external input line, and serial communication data to WDT-PRO.
Model: WDB-D80S-PRO

Signal Tower Input Information Input information of the Signal Tower collected by the WD system.

Host

Equipment for operation of the WD system.

Visualization Application Software*

Application software installed on the host PC. Use this application to display information collected by the WD system in a gantt chart or graph. Must be provided by the customer.

Maintenance PC

At maintenance, personal computer for setting up the WDT, WDT-PRO, WDB-D80S, and WDR.

*For visualization application software, refer to “5.4 About Visualization Application Software( P.17)”.
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Wireless Data Acquisition System – WD PRO Series Instruction Manual

5.2.2 System Configuration 5.2.2.1 WD System Configuration at Run Time
Configuration diagram
WD System

WD wireless network

WDT (maximum 30 units)

LAN

WDR

WD wireless network
WDT (maximum 30 units)
WDR

WD wireless network
WDT (maximum 30 units)
WDR

5. Operation Overview
Host PC
WDS
Visualization Application

Configuration

Item

Number of configuration items

Models

WDT

1 to 30 units*1 per receiver

WDT-5E-Z2/WDT-6M-Z2/WDT-4LR-Z2/ WDT-5LR-Z2/WDT-6LR-Z2/WDT-6LR-Z2PRO (this product)

WDR

1 to 20 units*2

WDR-LE-Z2 / WDR-L(E)-Z2-PRO(-L)

WDS

1

WDS-WIN01 *Version 1.03 or later

Host PC*3

1 unit

1 For information, refer to “6.1.4 How many WDT you can connect to WDR( P.22)”. 2 When collecting CSV log data with WDS-WIN01. *3 When connecting the WDR directly to the host PC with a LAN cable, use a cross cable.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual
5.2.2.2 WD System Configuration at Maintenance Configuration diagram
WD System
WDT-PRO / WDB-D80S

WDR

LAN (Cross Cable) or USB Cable

5. Operation Overview
Maintenance PC

micro-USB Connector Socket

micro-USB Cable

WDS

Bottom

Configuration Item
WDT-PRO WDB-D80S WDR WDS Maintenance PC LAN Cable1 2 USB Cable3 4 micro- USB Cable3 5

Number of configuration items
Units as required
1 unit 1
1 unit 1 1 1

Models WDT-6LR-Z2-PRO WDB-D80S-PRO WDR-LE-Z2 / WDR-L(E)-Z2-PRO(-L) WDS-WIN01 *Version 1.03 or later

  • 1 When configuring the WDR LAN settings, connect with a LAN cable. 2 When connecting the WDR directly to the host PC with a LAN cable, use a cross cable. 3 Use USB and micro-USB cables that are 3m or shorter. 4 Do not connect LAN and USB cables at the same time. 5 Use the micro-USB cable with this product’s power supply only. The USB driver may be installed on the maintenance PC,
    but this is not an issue.
    WARNING

When using a USB connection between this product and a computer, do not let the product’s power supply contact the computer or peripheral devices.
Failure to follow this instruction could result in burns and ignite the product. For example, when grounding the positive
terminal of this product’s power supply, do not frame ground the computer, which is connected to this product via USB. Depending on the computer, some negative terminals on the USB port are attached to the connector’s outer shell. When such a computer is connected to this product, the computer’s FG (housing) and negative terminal of this product’s USB port are connected. In this state, if the computer is attached to the metal portions where the positive terminal of this product’s power supply is grounded, 24 V will be applied to this product’s negative terminal on the USB port, which will lead to fire.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

5. Operation Overview

5.3 WD System Operation Overview
WDT transmits Signal Tower information via the WDR to the WDS on the host PC. WDS collects the information and stores it as CSV log data. Load the data into visualization application software. The visualization application software can also directly load the WDR Signal Tower information.

5.4 About Visualization Application Software

CAUTION
The customer needs to provide the visualization application software. Select a visualization application software suitable for customer visualization requirements.
There are two ways the WD system passes collected information to the visualization application software: 1) CSV Data 2) Socket Communication.
5.4.1 CSV Data

WD System
Transmit Signal Tower information

WDS
Read Signal Tower Input Information and save as CSV Data

Visualization Application Software
Visualization of CSV Data

No.

Visualization Application Software Preparation

References

1

When using software packages from PATLITE partners that support the WD system

Please contact our sales office.

2 When customer develops their own solution

Refer to this manual Refer to “WDS-WIN01 Instruction Manual”

5.4.2 Socket Communication

WD System
Transmit Signal Tower information

Visualization Application Software
Visualization of Signal Tower input information

No.

Visualization Application Software Preparation

References

1

When using software packages from PATLITE partners that support the WD system

Please contact our sales office.

2 When customer develops their own solution

Refer to this manual Refer to “Application Notes”*

  • For information, contact your nearest PATLITE sales representative.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

5. Operation Overview

5.5 Function List

5.5.1 LED Unit and Buzzer Unit Control Functions
Runs control of LED and buzzer units connected to WDT-PRO. There are two types: Control based on the Signal Tower control line, and remote control from the host.

Function

Description

References

Signal Tower Control Functions

Functions that control LED or buzzer

8.1.1.Signal Tower Control Functions(P.47)

units with the Signal Tower control line.

Remote Control Functions

Functions that perform remote control of LED or buzzer units from the host.

8.1.2 Remote Control Functions(P.48)

Release Remote Control Functions

Function that enables operation transition from Remote Control Function to Signal Tower Control Function.

8.1.3 Release Remote Control Function(P.49)

5.5.2 Contact Input Line Functions
Determines the input status of the Signal Tower control line, external input line, and clear input line.

Function

Description

References

Determine Signal Tower Control Input Function

Function for determining the signal input status of the Signal Tower control line.

8.2.1 Determine Signal Tower Control Input Function(P.50)

Determine External Input Line Function

Function to detect changes in state of 8 external input lines and to save that information.

8.2.2 Determine External Input Line Function(P.52)

Determine Simultaneous Input Function

Function to set the sensitivity for determining simultaneous input on the Signal Tower control line and external input line.

8.2.3 Function to Determine Simultaneous Input of Signal Tower Control Line and External Input Line(P.53)

Determine Clear Input Line Function

Function to detect inputs on the clear input line and to save that information. Detects when the clear input line changes from OFF to ON.

8.2.4 Determine Clear Input Line Function(P.53)

Simple Counter Function

Function for saving the accumulated value (counter value) of pulse inputs (incremented 1 at a time) on a signal wire.

8.2.5 Simple Counter Function(P.54)

5.5.3 RS-232C Communication Functions
Runs communication with external equipment, such as a bar code reader, through the RS-232C interface.

Function

Description

References

Communication Setup Function

Function to set up RS-232C communication.

8.3.1 Communication Setup Function(P.55)

Receive Data Function

Function for receiving data transmitted by external equipment, following the receive data file format settings.

8.3.2 Receive Data Function(P.55)

Transmit Data Function

Function for transmitting to external equipment data received from the host.

8.3.3 Data Transmission Function(P.56)

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5. Operation Overview

5.5.4 Wireless Data Communication Function

Wirelessly transmits to WDR the status information of each contact input line or the RS-232C data input. Also receives RS-232C data from the host and transmits to external equipment.

Function

Description

References

Mesh Network Transmission Function

Function that automatically connects the WDT over the optimum communication route to the WDR for transmitting information.

8.4.1 Mesh Network Transmission(P.56)

Transmit Information Function

Function for WDT-PRO to wirelessly transmit to WDR the Signal Tower control line, external input line, data from RS-
232C communication, and counter value.

8.4.2 Information Transmission Function(P.57)

Retentive Status Function

When a transmission failure occurs between the Signal Tower information input and the actual transmission, this function temporarily retains the transmission information in the product.

8.4.3 Retentive Status Function(P.59)

Receive Information Function

Function for the WDT-PRO to receive commands and data wirelessly transmitted from WDR.

8.4.4 Receive Information Function(P.59)

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6. Installation

6. Installation

6.1 Before Installation

6.1.1 What is the WD Wireless Network? 6.1.1.1 About the WD Wireless Network

The WD wireless network operates on the IEEE802.15.4 (ZigBee) compliant 2.4 GHz frequency. Although it runs on the same 2.4 GHz frequency as a wireless LAN (Wi-Fi), because it conforms to IEEE802.15.4 the WD wireless network can operate without a wireless LAN. However, if the frequencies you use overlap, the WD wireless network could experience transmission delays and other communication issues.
The wireless communication is encrypted. The encryption standard used is AES- CCM (Advanced Encryption Standard-Counter with CBC-MAC), with an encryption key of 128 bits.

6.1.1.2 About Selecting a Wireless Channel

The WD wireless network uses 16 wireless channels (CH11 to CH26).

Select a wireless channel to avoid conflict with the frequency band of the LAN wireless channels in your installation environment.

The relationship between frequency bands of channels on the WD wireless network and on the wireless LAN is as follows.

Wireless LAN

Channels in use CH5

CH10

CH4

CH9

CH3

CH8

CH13

CH2

CH7

CH12

CH1

CH6

CH11

WD Wireless Network

Channels in use

CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26

2400 MHz
The frequency of each channel on the WD wireless network is as follows.

2500MHz

Channel
CH11

Mid-range frequency (MHz)

Bandwidth (MHz)

2,405

2

Channel
CH19

Mid-range frequency (MHz)

Bandwidth (MHz)

2,445

2

CH12

2,410

2

CH20

2,450

2

CH13

2,415

2

CH21

2,455

2

CH14

2,420

2

CH22

2,460

2

CH15

2,425

2

CH23

2,465

2

CH16

2,430

2

CH24

2,470

2

CH17

2,435

2

CH25

2,475

2

CH18

2,440

2

CH26

2,480

2

6.1.1.3 Example Wireless Channel Selection
When the wireless LAN uses three channels (CH1, CH6, and CH11), select either CH15, CH20, CH25, or CH26. In most cases, selecting CH25 or CH26 will enable you to avoid the wireless LAN channels.

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6. Installation

6.1.2 About Grouping and ExtendedPanID
The WD system requires grouping each WD wireless network (one WDR with multiple connected WDT). You can define the group by setting the ExtendedPanID property on the WDR and WDT to the same value. The ExtendedPanID consists of 16 single-byte, alphanumeric characters. Setup range: 0000 0000 0000 0000 to FFFF FFFF FFFF FFFE.
You can use any combination of WDT-5E-Z2, WDT-6M-Z2, WDT-4LR-Z2,WDT-5LR-Z2, and WDT-6LR-Z2. The following illustrate how you can set the ExtendedPanID and wireless channels for devices in multiple groups.

WD Network

Group 1

[WDT and WDR Common Settings] ExtendedPanID: 0000 0000 0000 0001 Wireless Channel: CH15

WD Network

Group 2

[WDT and WDR Common Settings] ExtendedPanID: 0000 0000 0000 0002 Wireless Channel: CH20

WD Network

Group 3

[WDT and WDR Common Settings] ExtendedPanID: 0000 0000 0000 0003 Wireless Channel: CH26

WD Network

Group 4

[WDT and WDR Common Settings] ExtendedPanID: 0000 0000 0000 0004 Wireless Channel: CH15

WD Network

Group 5

[WDT and WDR Common Settings] ExtendedPanID: 0000 0000 0000 0005 Wireless Channel: CH20

WD Network

Group 6

[WDT and WDR Common Settings] ExtendedPanID: 0000 0000 0000 0006 Wireless Channel: CH26

If there are multiple channels available for selection, you should use separate wireless channels for each group. By distributing groups over multiple channels, you can reduce the load concentrated on a single wireless channel.
CAUTION
When there are multiple WDR in your system, do not use duplicate ExtendedPanID values. The product may not operate properly. When the WDT ExtendedPanID is 0000 0000 0000 0000, regardless of the ExtendedPanID setting all the WDR may be grouped together. In this scenario, because the grouped wireless network is not stable, set any value other than 0000 0000 0000 0000 during configuration.
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6. Installation

6.1.3 About the MAC Address
Static address assigned to WDT-PRO for identification. This address is called a MAC address (IEEE address). The MAC address is printed on a nameplate on the back of the WDT-PRO.

Nameplate

MAC Address 0123456789ABCDEF

6.1.4 How many WDT you can connect to WDR

The number of WDT units you can connect to a WDR is limited by the frequency of information sent to the WDR. The total transmissions from all WDT connected to the WDR is limited to 120 or less per minute (transmission interval of 0.5 seconds or longer) (When WDR-L(E)-Z2-PRO(-L), limited to 240 or less per minute (transmission interval of 0.25 seconds or longer)). To satisfy this condition, use the following table as a guide and determine the number of connected units.

WDT connection limit

Estimated number of Contact Input Information, RS-232C Input Information, and Clear Input Information transmissions / 1 WDT

30 unit

4 times per minute (8 times per minute *WDR-L(E)-Z2-PRO(-L))

20 unit

6 times per minute (12 times per minute *WDR-L(E)-Z2-PRO(-L))

10 unit

12 times per minute (24 times per minute *WDR-L(E)-Z2-PRO(-L))

5 unit

24 times per minute (48 times per minute *WDR-L(E)-Z2-PRO(-L))

1 unit

120 times per minute (240 times per minute *WDR-L(E)-Z2-PRO(-L))

6.2 About the Installation Environment

6.2.1 Installation Environment Main Points
There are five essential points to consider at installation.

No.

Description

1

There is no influence in radio waves at the installation site. Also, the radio waves at the installation site do not change over time.

References
6.2.2 About the Influence of Surrounding Radio Waves(P.23)

The distance between devices (WDR, WDT) does not exceed 2 recommendations. The recommended distance between all WDT
and WDR is within line of sight.

6.2.3 Distance Between Devices(P.24)

Each device (WDR and WDT) is in line of sight. To ensure good 3 line of sight, the location should not be cluttered and should be
free of any obstacles.

6.2.4 Ensuring Line of Sight(P.24)

WDR placement is appropriate.
4 Install in a location as high as possible. Install away from obstacles that could disrupt radio waves.

6.2.5 WDR Installation Position and Obstacles(P.24)

Each device is always powered, and the mesh network is always

5

available. If power is not available for one of the WDT, the communication path could get interrupted and information may not

be transmitted.

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6. Installation

6.2.2 About the Influence of Surrounding Radio Waves
If the WD wireless network is affected by radio interference from electronics, microwave ovens, or other manufacturing equipment, normal operation may not be possible. Check the radio wave environment before installation and confirm there is no radio interference on the wireless radio bands you are planning to use.

Causes of Radio Interference

Description

Other wireless devices

Wireless devices using the same frequency or frequencies in the same neighborhood.

Noise from other equipment

Noise caused by power supply circuits, electronic circuits, or oscillators.

Noise from the surroundings

Noise from motors and engine equipment Noise from transmission lines, power supply equipment,
and industrial equipment. Noise from microwave ovens and fluorescent lamps.

Surrounding obstacles*

Interference caused by phasing with own radio waves.

*Various obstacles (wall, floor, ceiling, pillar, equipment) may exist in the installation environment. The reception of radio waves changes depending on the relationship between the position of each device (WDR, WDT), obstacles, and the surrounding environment. As shown in the figure below, radio waves transmitted from a single point are delivered to each device (WDR, WDT) from multiple directions, such as when radio waves travel in a direct line, and when radio waves reflect off obstacles. Radio wave interference could be caused by this scenario, and operation may not be possible due to canceling radio waves.

Direct Wave

  • Reflected Wave (Opposite phase)

WDT

Received Wave
The two radio waves cancel each other out

Direct Reflection

Receive WDR

Reflection

Obstacles (wall, floor, ceiling, pillar, building)

When wireless LAN and in-house PHS access points are installed in the surrounding environment, install WDR so they are 5 to 10 m or more away from access points.

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6. Installation

6.2.3 Distance Between Devices
Place the WDT within a 20 m radius (recommended line-of-site distance) of the WDR. If more distance is required, add another WDT.

20 m 20 m

20 m

6.2.4 Ensuring Line of Sight

Good line of sight for each device (WDR, WDT) and free of any obstacles ­ hereafter referred to as the Fresnel Zone ­ is required. The Fresnel zone is a three-dimensional space, whose size is estimated as shown in the following illustration.

If you cannot establish the Fresnel zone, sometimes the available communication distance may be shorter than usual due to obstacles inhibiting communication.

D

Fresnel Zone

L Line of sight distance

D Fresnel zone diameter

L

20 m

1.6 m

WDT

WDR

10 m

1.2 m

Figure 1

Obstacles (wall, floor, ceiling, pillar, building)

WDT

Figure 2

WDR Fresnel Zone

CAUTION
When installing on a metal plate or concrete wall, install the devices in the Fresnel zone so they are free of any obstacles.

6.2.5 WDR Installation Position and Obstacles
When onto a pillar such as the I-beam in a building, install the WDR in a direction that promotes the propagation of radio waves.
When using the WDR in a box, use a resin box with radio wave permeability.

6.2.6.About the Signal Tower Power Supply Status
To operate this product, you need to constantly supply power to the power line. For information, refer to “7.1.4 WDBDB0S wiring( P.34)”.
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Wireless Data Acquisition System – WD PRO Series Instruction Manual

6. Installation

6.3 Equipment Settings

This section describes the steps for setting up and installing equipment. Refer to “7 Operation”, as well as instruction manuals of related products.

6.3.1 Setup Information
Have the information for the settings below prepared beforehand.

Information required
Information about the equipment to connect

Description
Equipment name and other equipment identification information

Information about the Signal Tower

Model, operation information

WDT-PRO and WDR common setup information

Wireless Settings

ExtendedPanID Settings Frequency Channel Settings

References


6.1.2 About Grouping and ExtendedPanID(P.21)
6.1.1 What is the WD Wireless Network?(P.20)

WDT-PRO setup information

Operation Settings

Format of Signal Tower Settings Input Information Transmission Timing Setting
RS-232C Communication Settings
Simple Counter Settings
Determine Signal Tower Input Setting

8.4.2 Information Transmission Function(P.57)
8.3.1 Communication Setup Function(P.55)
8.2.5 Simple Counter Function(P.54)
8.2.1 Determine Signal Tower Control Input Function(P.50)

WDB-D80S setup information

Operation Settings

Power Supply Settings
Determine Simultaneous Input Sensitivity Setting

Wireless Settings

Input Information Transmission Format Setting
Receive Data File Format Setting
Network Startup Method

*1
8.2.3 Function to Determine Simultaneous Input of Signal Tower Control Line and External Input Line(P.53)
8.4.2 Information Transmission Function(P.57)
8.3.2 Receive Data Function(P.55)

IP Address

WDR setup information LAN Communication Subnet Mask

*2

Setting

Default Gateway

DNS Server Port Number

  • 1 For this product’s settings, use [Power Supply Wire]. For information, refer to “WDS-WIN01 Instruction Manual”. * 2 For WDR setup information, refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2 Instruction Manual”, “WDT-4LR-Z2/WDT5LR-Z2/WDT-6LR-Z2/WDR- L(E)-Z2-PRO(-L) Instruction Manual”.

NOTICE
Information about settings is required not only for installing equipment, but also when adding equipment, maintaining the system, relocating, and for efficient and accurate work. Prepare the setup information before starting installation.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

6. Installation

6.3.2 Equipment Settings
“6.3.1 Setup Information”Use the setup information, refer to “6.3.1.Setup Information”, to prepare the equipment. For system configuration when setting up equipment, refer to “5.2.2.2 WD System Configuration at Maintenance( P.16)”.
Use the system configuration software WDS-WIN01 for equipment settings. Install WDS-WIN01 on the maintenance PC and set up the equipment. For using WDS-WIN01, refer to “WDS-WIN01 Instruction Manual”. The setup procedure is as follows.

Step

Operation

References

1

Prepare required equipment and create the

maintenance environment.

Refer to “WDS-WIN01 Instruction Manual”

Refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2

2

Set up communication settings between WDR and maintenance PC.

Instruction Manual”

Refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2/WDR-

3

Set up WDB-D80S and WDT-PRO.

L(E)-Z2-PRO Instruction Manual”

4

Set up the WDR settings.

7.3.1 Setting up WDB-D80S, WDT-PRO Main Unit(P.41)

6.4 Equipment Installation

CAUTION
When deciding the installation location of each device, carefully review the following procedure regarding installation location. The installation location could cause problems such as unstable operation or communication failure. Install devices only after equipment setup is complete.

6.4.1 WDB-D80S, WDT-PRO Installation
The installation process is as follows.

Step

Operation

1

Install WDB-D80S to the mounting surface.

2

Wire the WDB-D80S.

3

Attach WDT-PRO to WDB-D80S.

4

Attach the LED and buzzer units to WDT-PRO.

References
7.1.1 Installing and Removing WDB-D80S(P.27) 7.1.4 WDB-DB0S wiring(P.34) 7.2.1.1 Installing and Removing WDB-D80S(P.38) 7.2.1.2 Attaching the LED Unit and Buzzer
Unit(P.39)

6.4.2 Checking Connections to WDR
The checking process is as follows.

Step

Operation

Check the product’s wireless status.

1

Turn on this product and WDR.

Use the WDT-PRO indicator to check the

wireless status.

Check the settings for this product and WDR. 2 Use WDS-WIN01 to check the content of
setup items.

References
7.3.4 Checking Operations with WDT-PRO Indicator(P.44) Refer to “WDS-WIN01 Instruction Manual”

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7. Operation
7.1 WDB-D80S Installation
7.1.1 Installing and Removing WDB-D80S
NOTICE
Requirements for the mounting location. Minimal vibrationStrongLevel Install this product in the upright position. If you need to install on an uneven surface and waterproofing is required, use a sealant in the gap between the product and mounting surface. For IP65 rating requirement, when clamping brackets to the mounting surface, apply sealant to the screw or nut portion and the wire distribution hole. When using the RS-232C cable, fix it in place so it is not subjected to bending or pulling.

About the RS-232C Cable There are two wiring methods for the RS-232C cable, “Wiring RS-232C Cable from Bottom of Main Unit” and
“Wiring RS-232C Cable from Cable Gland”. The RS-232C cable is offered as an accessory (Part number WDX-SC01) but you can use any commercially
available product. Use a cable with lead wires that have a wire diameter of AWG24 to 28. When using the cable gland wiring method, use a cable with a 4.5 to 6.5 mm diameter.
*When providing your own, strip one end of the cable as shown below.

70 mm

Mounting Hole Dimension Diagram The position of the mounting holes is different between using M4 bolts and M3 bolts.

When using M4 bolts: 4 (3 places) When using M3 bolts: 3 (3 places)

Wire Distribution Hole (12)

120°

120°

Product Front

3

M4

4

40

M3

3

30

mm

When using M4 bolts: 40 When using M3 bolts: 30

Product Outer Dimension

Nameplate Location

(Unit: mm)

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

Wiring Caution
CAUTION
When securing the cable, secure with extra cable length. If there is not enough extra cable length, then it could prevent you from removing this product from the direct mount bracket.

Body
Direct Mount Bracket

Cable As there is sufficient extra cable length, you can remove this product.

Body
Direct Mount Bracket

Cable If there is not enough extra cable length, then it could prevent you from removing this product.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.1.1 Wiring RS-232C Cable from Bottom of Main Unit

In the mounting location, drill holes for mounting and wiring the product.
Mounting Hole Dimension Diagram(P.27)

  • When using a pole bracket and pole, drilling holes is
    unnecessary. Rotate the body counterclockwise and detach from the direct mount bracket.
    Apply the sealing plug and cap to the cable gland, and rotate the cap clockwise to attach.

Body

  • When the sealing plug pops out of the cap, use your hand to push the sealing plug back in.
    Recommended Torque 0.6 N·m (approximate)
    Use nuts to secure the direct mount bracket in the mounting position.

Direct Mount Bracket

Recommended Torque 0.6 N·m (approximate) 7.1.2 Replacing Mounting Bolts (M4 M3) on the
Main Unit(P.33)

  • Do not secure when using a pole bracket and pole.
    Cut the RS-232C cable’s lead wires so 40 mm remains, then strip them.

Strip 6 to 7 mm

Terminal Block Connector (accessory)

Cable gland

Sealing plug (accessory)
Cap (accessory)

40 mm Cut

(about 30 mm)

Pass the wires (gray or black) and RS-232C

cable through the wire distribution hole.

  • When using a pole bracket and pole, refer to “7.1.1.4 Wiring Method When Using Pole Bracket and Pole (Accessories)( P.32)”.
    Wire the RS-232C cable to the terminal block connector and attach to the body.
    7.1.3 Detaching the Terminal Block
    Connector(P.33)
    7.1.4 WDB-DB0S wiring(P.34)
    Attach the body to the direct mount bracket, reversing the steps for detaching.

If required, apply sealant around the mounting and wire distribution holes.

  • Maximum board
    thickness: 7 mm.

  • This illustration presents an overview of installation and does not reflect the installation status at each step.

  • RS-232C cable is not included.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.1.2 Wiring RS-232C Cable from Cable Gland

In the mounting location, drill holes for mounting and wiring the product.
Mounting Hole Dimension Diagram(P.27)

  • When using a pole bracket and pole, drilling holes is
    unnecessary. Rotate the body counterclockwise and detach from the direct mount bracket.
    Use nuts to secure the direct mount bracket in the mounting position.

Body

Terminal Block Connector (accessory)

Recommended Torque 0.6 N·m (approximate) 7.1.2 Replacing Mounting Bolts (M4 M3) on the
Main Unit(P.33)
*Do not secure when using a pole bracket and pole.
Pass the wires (gray or black) through the wire distribution hole.

  • When using a pole bracket and pole, refer to “7.1.1.4 Wiring Method When Using Pole Bracket and Pole (Accessories)( P.32)”.
    Strip the RS-232C cable’s lead wires.
    Strip 6 to 7 mm

70 mm

Pass the cap through to the RS-232C cable, and

push in from the cable gland.

Wire the RS-232C cable to the terminal block connector and attach to the body.

7.1.3 Detaching the Terminal Block Connector(P.33)

7.1.4 WDB-DB0S wiring(P.34)
Tighten the cap clockwise on the insulation portion of the RS-232C cable, with 5 mm of the insulation portion protruding from the direct
mount bracket.

Recommended Torque Caution: Attaching using any

0.6 N·m (approximate)

other method than that shown above may reduce

waterproofing performance.

Attach the body to the direct mount bracket,

reversing the steps for detaching.

If required, apply sealant around the mounting and wire distribution holes.

30

Direct Mount Bracket

Cable gland

Cap
(accessory)

  • Maximum board thickness:7 mm.

  • This illustration presents an overview of installation and does not reflect the installation status at each step.

  • RS-232C cable is not included.

Fixed position of RS-232C sheathed cable

about 5 mm
Caution: If the rubber bushing in the cable gland comes off, carefully re- attach to return it to its original state.

CAUTION
When using the SZK-003W wall bracket
(accessory), wiring from the cable gland is not possible.

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.1.3 When Not Using the RS-232C Cable
In the mounting location, drill holes for mounting and wiring the product.
Mounting Hole Dimension Diagram(P.27) * When using a pole bracket and pole, drilling holes is unnecessary.
Rotate the body counterclockwise and detach from the direct mount bracket.
Apply the sealing plug and cap to the cable gland, and rotate the cap clockwise to attach.

  • When the sealing plug pops out of the cap, use your hand to push the sealing plug back in.
    Recommended Torque 0.6 N·m (approximate)
    Use nuts to secure the direct mount bracket in the mounting position.
    Recommended Torque 0.6 N·m (approximate) 7.1.2 Replacing Mounting Bolts (M4 M3) on the
    Main Unit(P.33)
  • Do not secure when using a pole bracket and pole.
    Pass the wires (gray or black) through the wire distribution hole.
  • When using a pole bracket and pole, refer to “7.1.1.4 Wiring Method When Using Pole Bracket and Pole (Accessories)( P.32)”.
    Attach the body to the direct mount bracket, reversing the steps for detaching.
    If required, apply sealant around the mounting and wire distribution holes.

Body

Direct Mount Bracket

Cable gland

Sealing plug (accessory)
Cap (accessory)

*Maximum board thickness: 7 mm

  • This illustration presents an overview of installation and does not reflect the installation status at each step.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.1.4 Wiring Method When Using Pole Bracket and Pole (Accessories)

Wiring RS-232C Cable from Bottom of Main Unit

Insert the pole ring into the pole bracket.

Pass the RS-232C cable below the pole mount.

Pass the RS-232C cable in from the pole marker side, and pull out the cable from the pole bracket side.
Insert the pole into the pole bracket, lining up the indentations.

Pole Bracket Pole ring
Pole

In two positions, use the tapping screws to secure the pole bracket and pole.

Landmark

Front Direction Tapping screws

Tapping screws

Pole Bracket
Pole Ring Insertion Direction

Slanting

Front

Pole

Direction Bracket

Line up the indented sections

Recommended Torque 1.4 N·m
Thread the wire (gray or black) in the pole bracket side, and pull out the wire from the pole marker side.

Mounting Pole Base

Pole

  • This illustration presents an overview of installation and does not reflect the installation status at each step.

When Not Using the RS-232C Cable
Insert the pole ring into the pole bracket.
Insert the pole into the pole bracket, lining up the indentations.
In two positions, use the tapping screws to secure the pole bracket and pole.
Recommended Torque 1.4 N·m
Thread the wire (gray or black) in the pole bracket side.
Pull out the wire (gray or black) from the pole marker side.

Tapping screws

Front Tapping screws Direction

Pole Bracket
Pole Ring Insertion Direction

Pole Bracket Pole ring
Pole
Landmark

Slanting

Front Direction

Pole Bracket
Line up the indented sections

Pole

  • This illustration presents an overview of installation and does not reflect the installation status at each step.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

How to Attach the Pole Bracket and Direct Mount Bracket
Use nuts in 3 places to affix the pole bracket and direct mount bracket.

Recommended Torque 0.6Nm

Pole Bracket

7. Operation Direct Mount Bracket

Nut (M4)

7.1.2 Replacing Mounting Bolts (M4 M3) on the Main Unit
M4 bolts are attached to the direct mount bracket by factory default. When using M3 bolts to attach this product, follow the instructions below to replace the M4 bolts with M3 bolts.

Remove the waterproof packing at the bottom of

the direct mount bracket.

Detach the M4 nuts (3 locations) and M4 bolts

(3 locations) with a nut driver.*

M4 bolt

M3 bolt

M3 Bolt Mounting Position

  • Criteria: 7mm across, outer dimension of socket 11 mm or less
    Detach the M3 nuts (accessory, 3 locations) and M3 bolts (accessory, 3 locations) with a nut driver.*

Use the inner holes (3 locations). Direct Mount Bracket

  • Criteria: 5.5 mm across, outer dimension of socket 9 mm or less
    Recommended Torque 0.6 N·m (approximate)
    Attach the waterproof packing.
    Caution: When attaching the waterproof packing, pay close attention to set the correct orientation and cause no damage. This will lower waterproofing performance. Failure to follow this instruction could result in product failure.

M4 nut

M3 nut

Cable gland side

Waterproof gasket

  • This illustration presents an overview of installation and does not reflect the installation status at each step.

7.1.3 Detaching the Terminal Block Connector

Attach
View of the body from the bottom

With its levers pushed up,

push the terminal block

connector into the body.

When pushing the terminal

block connector in place,

the lever temporarily moves

down, before it moves back

Push the lever up

up and locks in place.

Detach
Terminal Block Connector

33

As illustrated, lower the levers on the left and right sides of the terminal block connector to release the lock, then pull out the terminal block connector.

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.4 WDB-DB0S wiring
There are two types of wiring for this product, lead wiring and terminal connector wiring.
CAUTION
Unused lead wires do not have to be connected to external contacts. But in so doing, insulate the leads of unconnected lead wires, one by one. Failure to follow this instruction could result in a short-circuit and product damage. Do not pull lead wires, or stuff them into the main body. Failure to follow this instruction will result in product failure. To protect external equipment, install a fuse on the power supply side. Be sure wiring is carried out correctly. Failure to follow these instructions could result in burning internal circuits or fire.
NOTICE
When extending the wires, consider the voltage drop along with appropriate length and diameter of wires. Be sure the power is disconnected before any wiring. When using an external contact with a transistor, consistently use either NPN type or PNP type transistors. You cannot use a mix of NPN type and PNP type transistors.

7.1.4.1 Wiring When Lighting Control and External Input, and Clear Input Control are on Different Equipment
Wiring example for each type of external contact. If you have any questions about a special application for this product, please contact your nearest PATLITE sales representative.

  • Wiring example for attaching LED and buzzer units. * To both turn on the lamp and flash the lamp, you need to prepare separate external contacts for turning the lamp on and for
    flashing the lamp.

External Contact Classification Contact Relay

External Input/Clear Input
External Contact

Do Not Apply Voltage!

Tube color: Black

Clear Input External Input 1 External Input 2 External Input 3 External Input 4

Black Red Orange Green Blue

External Input 5 White

External Input 6 External Input 7 External Input 8

Purple Amber Brown

External Input Common line Gray

Do Not Apply Voltage!

Tube color: Gray

Flashing Common Line Brown

LED Red

Red

LED Amber

Orange

LED Green

Green

LED Blue

Blue

LED White

White

Buzzer

Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Fuse 1A

Flashing/ Buzzer External Contact
Light on/ Buzzer External Contact
24 VDC (Class 2) (No polarity)

34

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

External Contact Classification NPN type transistor

External Input/Clear Input
External Contact

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

Do Not Apply Voltage!

*You can replace each transistor with a contact relay.

Do Not Apply Voltage!

Tube color: Gray

Flashing Common Line Brown

LED Red

Red

LED Amber

Orange

LED Green

Green

LED Blue

Blue

LED White

White

Buzzer

Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Fuse 1A

24 VDC (Class 2)

Flashing/ Buzzer External Contact
Light on/ Buzzer External Contact
Circuit schematic C B E

Possible to replace with a contact relay

External Contact Classification PNP type transistor

External Input/Clear Input
External Contact

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

Do Not Apply Voltage!

*You can replace each transistor with a contact relay.

Do Not Apply Voltage!

Tube color: Gray

Flashing Common Line Brown

LED Red

Red

LED Amber

Orange

LED Green

Green

LED Blue

Blue

LED White

White

Buzzer

Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Fuse 1A 24 VDC (Class 2)

Flashing/ Buzzer External Contact
Light on/ Buzzer External Contact
Circuit schematic C
B E

35

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.4.2 Wiring When Lighting Control and External Input, and Clear Input Control are on Different Equipment

External Contact Classification Contact Relay

External Input/Clear Input
External Contact

Do Not Apply Voltage!

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

Do Not Apply Voltage!

Tube color: Gray

Flashing Common Line LED Red LED Amber LED Green LED Blue LED White Buzzer

Brown Red Orange Green Blue White Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Fuse 1A

24 VDC (Class 2) (No polarity)

Flashing/ Buzzer External Contact
Light on/ Buzzer External Contact

External Contact Classification NPN type transistor

Do Not Apply Voltage!

External Input/Clear Input
External Contact

Do Not Apply Voltage!

Tube color: Black

Clear Input

Black

External Input 1 Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

*You can replace each transistor with a contact relay.

External Contact Classification PNP type transistor

Tube color: Gray

Flashing Common Line Brown

LED Red

Red

LED Amber

Orange

LED Green

Green

LED Blue

Blue

LED White

White

Buzzer

Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Fuse 1A

24 VDC (Class 2)

Do Not Apply Voltage!

External Input/Clear Input
External Contact

Do Not Apply Voltage!

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

*You can replace each transistor with a contact relay.

Tube color: Gray

Flashing Common Line Brown

LED Red

Red

LED Amber

Orange

LED Green

Green

LED Blue

Blue

LED White

White

Buzzer

Purple

Power Supply Wire Power Supply Wire

Gray Amber

RS-232C Connection

Fuse 1A

24 VDC (Class 2)

36

Flashing/ Buzzer External Contact
Light on/ Buzzer External Contact
Circuit schematic C B E
Flashing/ Buzzer External Contact
Light on/ Buzzer External Contact
Circuit schematic C B E

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.1.4.3 Terminal Block Connector (RS-232C Interface) Wiring

Terminal Block Connector Pin Arrangement

135

T

R

S

r

e

i

a

q

g

1 2

n s m i t D a t a

u
TXest D T o S
RXend D

n a l G r o u n d

Transmit Data Receive Data

3 RTS

Request To Send

246

4 CTS R

C

D

e

l

i

c

e

s

5 6

e i v e

a r T o

c o n n e

GND (SG) D
a t
NC a

S e n d

c t e d *

Clear To Send Signal Ground Not Connected (do not use)

Terminal Block Connector Wiring
In the slot of the terminal block, insert a flatblade screwdriver and push. (At a slight angle)
Insert the stripped lead wire* into the insertion slot.

  • Recommended specifications for lead wires are as follows. Linear (stranded wire) AWG24 to 28
    Use copper wires with temperature rating of 75 ºC or higher. Pull out the screwdriver from the slot. Check if the lead wire is locked into place.

Slot

NOTICE
Use a flat-blade screwdriver with a blade-edge width of 2.5 mm or less and thickness of 0.4 mm or less. Do not push the slot harder than necessary with the screwdriver. Failure to follow this instruction could result in
product damage.
Strip 6 to 7 mm of the insulation from the lead wire. When removing the lead wire, do not simply pull the wire to remove it. Make sure you first push the slot down with a
flat-blade screwdriver to release the lock.

Wiring When Using WDX-SC01 Serial Cable (accessory)

135

Orange+Red Dot Mark White+Black Dot Mark Light Gray+Black Dot Mark

Terminal Block Connector

Serial Cable WDX-SC01 Wiring Diagram

Light Gray+Black Dot Mark Orange+Red Dot Mark Orange+Black Dot Mark

12345

246

Do not connect
White+Red Dot Mark Orange+Black Dot Mark

D-SUB connector (9 pin, male)
37

White+Black Dot Mark White+Red Dot Mark

6789

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.2 WDT-PRO Installation
7.2.1 Installing and Removing WDT-PRO
When installing or removing WDT-PRO, follow the instructions below to attach and detach parts (such as the LED unit and buzzer unit) from the LR Signal Tower.
WARNING
Before any work is done, disconnect the power.

CAUTION
Attach the WDT-PRO directly on top of WDB-D80S. Other units cannot be connected. The maximum number of attachments per Signal Tower is five LED units + one buzzer unit. Do not attach units beyond that. Do not apply excessive force to units. Failure to follow this instruction could result in product damage. Do not touch the connectors on the units or the LED in LED units. Failure to follow this instruction could result in product damage. Securely lock each unit when attaching. Failure to secure units could result in product damage.
7.2.1.1 Installing and Removing WDB-D80S

Attach
Align WDT-PRO with the positioning mark on the WDB-D80S and turn clockwise to lock.

Detach
While holding the WDB-D80S, turn WDT-PRO counterclockwise to release the lock, then lift up.

How to Read the Positioning Mark

[When Locked] WDT-PRO

Condition when locked

WDT-PRO

Positioning Mark Positioning Mark WDB-D80S

WDT-PRO

Positioning Mark WDB-D80S

WDB-D80S
[When Unlocked] WDT-PRO
WDB-D80S

Condition when unlocked

38

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7.2.1.2 Attaching the LED Unit and Buzzer Unit

Attach or detach units one at a time.
Buzzer Unit
LED Unit
Install one unit at a time

CAUTION
Buzzer Unit LED Unit WDT-PRO

WDT-PRO WDB-D80S

WDB-D80S

Install one unit at a time

7. Operation

If WDT-PRO does not attach properly to WDB-D80S, confirm the tab of the cylinder-shaped part at the top of WDT-PRO is fitted correctly into the groove. If the tab is outside the groove as shown in the figure (right), refer to the figure below on how to reposition it. Additionally, depending on how it is detached, the tab may come out of the groove as shown in the figure (right) when detaching the WDT-PRO from WDB-D80S. Attaching while the tab is still in this state may cause damage.

Cylinder-shaped Part

Nameplate

Tab Groove Top View

Cannot Connect Condition

Tab Groove
Tab Groove

NOTICE
If WDT-PRO does not attach properly to WDB-D80S, turn the cylinder-shaped part in the middle of the bottom surface counterclockwise. Next, turn the cylinder- shaped part until it snaps into place, then attach it to WDB-D80S.

Nameplate

Cylinder-shaped Part

Tab and Groove

Cylinder-shaped Part

Cylinder-shaped Part

Nameplate
Top View (Attachable)

Tab and Groove

Nameplate

Cylinder-shaped Part

Bottom View

39

Wireless Data Acquisition System – WD PRO Series Instruction Manual

Order of Attaching/Detaching Units Attach and detach units in the following order.

Buzzer Unit

LED Unit

WDT-PRO

LED Unit

LED Unit

WDT-PRO

WDB-D80S

WDB-D80S

Attaching Units

WDB-D80S

7. Operation

Buzzer Unit

LED Unit

LED Unit

LED Unit

WDT-PRO

WDT-PRO

WDB-D80S

WDB-D80S

Detaching Units

40

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.3 Using WDB-D80S, WDT-PRO

7.3.1 Setting up WDB-D80S, WDT-PRO Main Unit

7.3.1.1 Setting up the Main Unit

WDS-WIN01 configuration software is required. Download the software from our website. Install the software on the computer that will be used to set up and configure the system. (Member registration is required for downloading from the home page.)
For information about usage and setup, refer to “WDS-WIN01 Instruction Manual”.

7.3.1.2 Setup Items

Setup items are as follows.

Setup Item

Wireless Settings

ExtendedPanID Settings
Frequency Channel Settings

WDS-WIN01 Setup Items
ExtendedPanID
Frequency Channel

Default Value 0000 0000 0000 0000

Save Destination*2

References
6.1.2 About Grouping and ExtendedPanID(P.21)

Select all

6.1.1 What is the WD Wireless Network?(P.20)

Format of Signal Tower Settings
Input Information Transmission Timing Setting

Format of Signal Tower
Transmission mode

Standard On change

WDT-PRO

8.4.2 Information Transmission Function(P.57)

Periodic Transmission

Periodic Transmission

None

RS-232C

Communication

Settings

Baud rate Data Length

Baud rate Data Length

9600 8

8.3.1 Communication Setup Function(P.55)

Parity

Parity

None

Operation Settings

Stop Bit
Simple Counter Settings

Stop Bit Counter Settings

Determine Signal Determine Signal Tower Input Setting Tower Input

Power Supply Settings

Power Supply Settings

1 Do not use Flashing (medium) Power Supply Wire

Determine

Determine

Simultaneous Input Simultaneous Input

Sensitivity Setting Sensitivity Setting

High sensitivity

Input Information Transmission Format Setting
Receive Data File Format Setting

Input Information Transmission Method

WDT-LR Format

Receive Data File Direct Communication

Format

Format

WDB-D80S

8.2.5 Simple Counter Function(P.54)
8.2.1 Determine Signal Tower Control Input Function(P.50)
*1
8.2.3 Function to Determine Simultaneous Input of Signal Tower Control Line and External Input Line(P.53)
8.4.2 Information Transmission Function(P.57)
8.3.2 Receive Data Function(P.55)

  • 1 For this product’s settings, select [Power Supply Wire]. For information, refer to “WDS-WIN01 Instruction Manual”. * 2 Save destination is different for each setting.
    41

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.3.1.3 Required Equipment

For system configuration when setting up equipment, refer to “5.2.2.2 WD System Configuration at Maintenance( P.16)”. Use the system configuration software WDS-WIN01 for equipment settings.
Install WDS-WIN01 on the maintenance PC and set up the equipment. For information about using WDSWIN01, refer to “WDS-WIN01 Instruction Manual”.
The setup procedure is as follows.

Step 1 2 3

Operation
Prepare required equipment and create the maintenance environment. Set up communication settings between WDR and maintenance PC.
Set up the WDT-PRO and WDB-D80S settings.

References Refer to “WDS-WIN01 Instruction Manual”
Refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2 Instruction
Refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2/ WDR-L(E)-Z2-PRO Instruction Manual”

4

Set up the WDR settings.

7.3.1 Setting up WDB-D80S, WDT-PRO Main Unit(P.41)

7.3.2 WDB-D80S DIP Switch Operations
CAUTION
Do not use excessive force on this product. Failure to follow this instruction could result in deformed frame and product damage. Do not use sharp tipped objects with this product. Operation may become impossible as scratches develop on switches and switch contacts are interfered with. Do not set ON switches 2 to 4. The product’s DIP switches are located where you detach the direct mount bracket from the WDB-D80S.

DIP Switches

Switch number

DIP Switch Settings

Switch number

Description

Initialize setting values

1

OFF: Normally use with this setting OFF.

ON: Initializes the value for various settings.

OFF (static)
2 * Do not change.

OFF (static)
3 * Do not change.

OFF (static)
4 * Do not change.

42

Initial Settings OFF OFF OFF OFF

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.3.3 Checking the WDB-D80S Status Lamp
The product’s status lamp is located where you detach the direct mount bracket from the WDB-D80S.

LED1

LED2

Status Lamp

Status Lamp States

State*

LED1

Normal Status

Green light on Red light on

Flashing green

Error Status

Alternating RedGreenRedGreen
Light off

Light off

Green light on

LED2 Light off Green light on
Alternating RedGreenRedGreen Green light on Flashing red Flashing red

Status Operating in normal mode. Operating in initialization mode.
WDB-D80S DIP switches set up incorrectly.
Error has occurred in WDB-D80S. Error has occurred in WDT-PRO.

  • Operation modes shown by the status lamp are [Normal Status] and [Error Status]. * When the status lamp lights indicate an error status, refer to “9.1 Troubleshooting( P.60)”.

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Wireless Data Acquisition System – WD PRO Series Instruction Manual
7.3.4 Checking Operations with WDT-PRO Indicator
Check this product’s indicator on the WDT-PRO main unit.
WDT-PRO

7. Operation

Indicator

Indicator Light Status

Status

Indicator Light

Green pulse*1

Display Quality of Wireless Communication

Amber pulse*1

Red pulse*1

Status
Indicates a good status. This status indicates the product can communicate directly with the WDR without relying on other WDT.
(If the WDT and WDR are close together (within tens of centimeters), WDT may display a red pulse. For an accurate display, use units with a separation of about 1 m.)
Direct wireless connection with the WDR is not good, but the connection with nearby WDT is good. If nearby WDT have a green pulse, that WDT is used as a repeater for communication.
Connection is not good with any WDR or WDT in the WD wireless network.

Red light on

Product is waiting to join the WD Network.

Operation Status
Error Status*3

Flashing blue
Light blue light on
Flashing light blue*2 Alternating RedGreenRedGreen Flashing red

When the WDT-PRO receives a specific command from the host, flashes blue for approximately 10 seconds.
When WDB-D80S receives data from external equipment via RS-232C communication, indicator is light blue for about 2 seconds.
When WDT-PRO completes transmission of data received via RS-232C communication to the host, indicator flashes light blue for about 2 seconds.
Operating in initialization mode.
WDB-D80S DIP switches set up incorrectly or error has occurred in WDTPRO.

Flashing amber

Error has occurred in the connected base unit.

Purple light on

WDB-D80S DIP switches set up incorrectly.

  • 1 Pulse is where the lamp fades between bright and dark repeatedly. 2 Flashes light blue only when the input information transmission timing is set to [On change]. (“8.4.2 Information
    Transmission Function( P.57)”)
    3 When the indicator light shows an error status, refer to “9.1 Troubleshooting( P.60)”.
    44

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7.3.5 Initializing WDB-D80S, WDT-PRO
The initialization procedure is as follows. Step Set WDB-D80S DIP switch 1 ON.

Operation

1

7. Operation

Turn ON the power supply.

2

After a few seconds, the WDT-PRO indicator alternates RedGreenRedGreen…

Status lamps on the WDB-D80S, LED1 is red and LED2 is green.

3

Turn OFF the power supply.

Set WDB-D80S DIP switch 1 OFF.

4

5

Initialization is complete.

  • For the list of settings that are initialized, refer to “7.3.1 Setting up WDB-D80S, WDT-PRO Main Unit( P.41)”.

45

Wireless Data Acquisition System – WD PRO Series Instruction Manual

7. Operation

7.3.6 Differences with WDT-LR Setup Items
There are some differences in the setup items and setup methods between this product (WDB-D80S, WDT-PRO) and WDT-LR. For WDT-LR setup information, refer to “WDT-4LR-Z2/WDT-5LR-Z2/WDT-6LR-Z2 Instruction Manual”.

Setup Item / Setup Method

Item

Description

WDT-4LR-Z2

This Product

WDT-5LR-Z2/WDT-6LR-Z2 (WDB-D80S, WDT-PRO)

References

Simple Counter

Specify Signal Tower control line to count

Use WDS-WIN01 to select a Signal Tower control line.
With the Main Unit DIP switches you can select the blue signal line.

Use WDS-WIN01 to
select a Signal Tower control line. There is no function with the product DIP switches to select the blue signal line.

8.2.5 Simple Counter Function(P.54)

Transmit Information

Select format of Signal Tower information

Using the Main Unit DIP switches, you can select either Standard Format or Extended Format.

Periodic Transmission Setting

Using the Main Unit DIP switches * you can select one of the following items.
No Yes

Transmit Information

Input Information Transmission Format Setting

This function is not available. Same as setting this product (WDB-D80S, WDT- PRO) to [WDT-LR Format].

In WDS-WIN01, when using WDT-LR Format, you can select either [Standard Format] or [Extended Format].
Using the Main Unit DIP switches you can select one of the following items. No Unit Information Input Information/Signal
Tower Information (compatible with WDTLR Periodic Transmission [ON])
Using WDS-WIN01 you can select one of the following items.
WDT-LR Format
WDT-PRO Format

8.4.2 Information Transmission Function(P.57)
8.4.2 Information Transmission Function(P.57)

*Unit information cannot be selected with WDT-LR DIP switches.

46

Wireless Data Acquisition System – WD PRO Series Instruction Manual

8. Function Details

8. Function Details

8.1 LED Unit and Buzzer Unit Control Functions

8.1.1.Signal Tower Control Functions
Functions that control LED or buzzer units with the Signal Tower control line. For wiring methods, refer to “7.1.4 WDB-DB0S wiring( P.34)”.

LED unit control

Light on/Flashing (control with flashing common line*1) / Light off

Buzzer unit control

Buzzer on/Continuous2 (control with flashing common line1) / Buzzer off

  • 1 Repeatedly 500ms light on / 500 ms light off. * 2 When using the flashing common line to control the buzzer unit, set the buzzer pattern to [Continuous beep].

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

Tube color: Gray

Flashing Common Line Brown

LED Red LED Amber

Red Orange

LED Green

Green

LED Blue

Blue

LED White

White

Buzzer

Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Signal Tower Control Line You can control supported LED and buzzer units individually.

47

Wireless Data Acquisition System – WD PRO Series Instruction Manual

8. Function Details

8.1.2 Remote Control Functions
Remote Control Functions*2 uses specific commands from the host to perform remote control of LED or buzzer units. Control is possible when receiving specific commands from the host. These functions operate with a higher priority than Signal Tower Control Functions.

WDB-D80S WDT-PRO

Host PC

Based on the control instruction, change to the specified color and buzzer status

Control Instruction

Signal Tower Control Line

Control on/off Status of each color+buzzer

LED unit control Buzzer unit control Control Status Response

Control the following states individually for each color. Light on/Flashing/Light off/Triple flash1/control from Signal Tower control line
Buzzer on/Continuous
3/Buzzer off/control from Signal Tower control line
When a specific command is received from the host, response command that includes the status of the LED unit or buzzer unit that is under remote control.

  • 1 Triple flash does not work on LR6-E-MZ. 2 Cannot use with WDS-WIN01. 3 When using continuous buzzer to control the buzzer unit, set the buzzer pattern to [Continuous beep].

NOTICE
The operation status of LED and buzzer units, controlled with remote control functions from the host, is not transmitted back to the host as Signal Tower information as the control is not carried out by Signal Tower control inputs.
While LED and buzzer units are controlled with remote control functions from the host, and inputs change on the Signal Tower control line, that Signal Tower information is transmitted to the host.

48

Wireless Data Acquisition System – WD PRO Series Instruction Manual

8. Function Details

8.1.3 Release Remote Control Function

Function that enables operation transition from “8.1.2 Remote Control Function” to “8.1.1 Signal Tower Control Function”. Run this function using one of the following methods.

No.

Operation

Result

1 Set the clear input line from OFF to ON.

When the command is started (refer to “8.1.2 Remote Control 2 Functions”) specify the enable control time. Remote control is released
after the enable control time elapses from when control started.
Remote control is released after a specific command is received from 3 the host. And when release remote control is run, a specific command
is transmitted to the host notifying it no longer has control.

The remote control function is released, and a release control notification is transmitted to the host.

WDB-D80S WDT-PRO

Host PC

Set up time elapses Transmit release control command

ON Clear Input

Release Control Notification

49

Wireless Data Acquisition System – WD PRO Series Instruction Manual

8. Function Details

8.2 Contact Input Line Functions

8.2.1 Determine Signal Tower Control Input Function

There are two types for determining Signal Tower control line inputs, [Normal] and [Flashing]. Select the setting in WDS-WIN01. If there is no flashing state to get, use [Normal].

Setting*1

Determination

Description

Normal

Light on Light off

When the Signal Tower control line input status changes OFFON, the result is “light on” and the information is transmitted.
When the Signal Tower control line input status changes ONOFF, the result is “light off” and the information is transmitted.

Flashing Determination2 3

Flashing Light on

When the Signal Tower control line input status repeatedly alternates ONOFFONOFF…, the result is “flashing” and the information is transmitted. Select from the following 3 determination speeds in WDS-WIN01. Flashing (short)Flashing (medium)Flashing (long)
When the Signal Tower control line input status changes OFFON, the result is “light on” and the information is transmitted.

Light off

When the Signal Tower control line input status changes ONOFF, the result is “light off” and the information is transmitted.

  • 1 The default setting is [Flashing (medium)].

  • 2 Flashing is determined when there are two status changes within a defined period. This period is called “SS seconds”. You

can select “SS seconds” from three different time periods.

Input

ON OFF

Flashing (short): SS seconds = 0.7 seconds

Shorter Shorter Shorter Shorter than SS than SS than SS than SS

Flashing (medium): SS seconds = 1.5 seconds

Result

Flashing (long): SS seconds = 2.5 seconds

Light off (buzzer off) Light flashing (buzzer on)

  • 3 There is not [Flashing] status in the buzzer signal. When determined as flashing, the buzzer on information is transmitted. The status and determination operations are as follows. Information in brackets “( )” represent buzzer operation.

Setting

Determination

Change in state

Light on Light off light on

Description
Input
ON OFF

Operation result

100 ms or longer

Result

Light off (buzzer off)

Light on (buzzer on)

Normal

Light off Light on light off

Input
ON OFF

Result

Light on (buzzer on)

100 ms or longer
Light off (buzzer off)

50

Wireless Data Acquisition System – WD PRO Series Instruction Manual

Setting

Determination

Change in state

Light off flashing Flashing
Light on flashing

Light off light on

Flashing Determination

Light on

Flashing Light on

Light on light off Light off
Flashing light off

8. Function Details

Description
Input
ON OFF

Operation result

Result

Shorter Shorter Shorter Shorter than SS than SS than SS than SS

Light off (buzzer off) Light flashing (buzzer on)

Input
ON OFF
Result

Shorter Shorter Shorter Shorter than SS than SS than SS than SS
Light on (buzzer on) Light flashing (buzzer on)

Input
ON OFF
Result

SS+100 ms or longer

Light off (buzzer off)

Light on (buzzer on)

Input
ON OFF

Result

Shorter than SS

Shorter than SS

Shorter than SS

SS+100 ms or longer

Light flashing (buzzer on) Light on (buzzer on)

Input
ON OFF
Result

SS+100 ms or longer
Light on (buzzer on) Light off (buzzer off)

Input
ON

OFF

Shorter than SS

Shorter than SS

Shorter than SS

SS+100 ms or longer

Result

Light flashing (buzzer on) Light off (buzzer off)

CAUTION
Input a signal based on the above timing for the determination operation. Determination may not be possible using any other timing than the above determination operation.

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8. Function Details

8.2.2 Determine External Input Line Function
On detecting a change in state in one of the 8 external input lines, this function determines the input status.

External Input Line

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

Tube color: Gray

Flashing Common Line
LED Red LED Amber LED Green LED Blue LED White Buzzer

Brown Red Orange Green Blue White Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

Even though external input lines cannot be determined as “flashing”, the timing for determination differs depending on the setting of Determine Signal Tower Control Line Input. The determination operation for each setting is as follows.

Setting

Change in state

Description Operation result

External Input 1 OFFON

External Input 1
ON OFF

Result

External Input 1 [OFF]

100 ms or longer
External Input 1 [ON]

Normal

External Input 1 ONOFF

External Input 1
ON OFF

Result

External Input 1 [ON]

100 ms or longer
External Input 1 [OFF]

External Input 1 OFFON
Flashing Determination
External Input 1 ONOFF

External Input 1
ON OFF

SS+100 ms or longer

Result

External Input 1 [OFF]

External Input 1 [ON]

External Input 1
ON OFF

SS+100 ms or longer

Result

External Input 1 [ON]

External Input 1 [OFF]

  • “SS” refers to the determine flashing period as used in “8.2.1 Determine Signal Tower Control Input Function( P.50)”.
    CAUTION
    Input a signal based on the above timing for the determination operation. Determination may not be possible using any other timing than the above determination operation.
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8. Function Details

8.2.3 Function to Determine Simultaneous Input of Signal Tower Control Line and External Input Line
When multiple changes in Signal Tower control lines and external input lines occur at the same time, use this function to adjust the period for determining simultaneous input. Select from 3 levels of adjustment [High sensitivity], [Medium sensitivity], and [Low sensitivity].

Input Red
ON OFF

Input Green
ON OFF

Result Red

Light off

Result Green

Light on

T (input deviation)
Light on Light off

Result* High sensitivity Medium sensitivity Low sensitivity

T up to 20ms up to 40ms up to 60 ms

  • The default setting is [High sensitivity].

CAUTION
When state changes of multiple inputs are not determined to be simultaneous, make adjustments with this function. Even after adjustments, if simultaneous input does not occur, adjust by making a change in the actual input.

8.2.4 Determine Clear Input Line Function
On detecting a change in state in the clear input line, this function determines the input status. Use with “8.1.3 Release Remote Control Function( P.49)”.

Clear Input Line

Tube color: Black

Clear Input

Black

External Input 1

Red

External Input 2

Orange

External Input 3

Green

External Input 4

Blue

External Input 5

White

External Input 6

Purple

External Input 7

Amber

External Input 8

Brown

External Input Common line Gray

Tube color: Gray

Flashing Common Line
LED Red LED Amber LED Green LED Blue LED White Buzzer

Brown Red Orange Green Blue White Purple

Power Supply Wire Gray Power Supply Wire Amber

RS-232C Connection

The determine clear input operation occurs when the clear input line changes from OFF to ON.

CAUTION
Maintain each of the clear input line’s OFF and ON states for 100 ms or longer. It is difficult to determine state changes when they occur faster than 100 ms.

  • The timing for clear input line determination does not change, regardless of the setting of Determine Signal Tower Control Line Input.

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8. Function Details

8.2.5 Simple Counter Function

Count up the number of pulse inputs (increment 1 at a time) on a single Signal Tower control line and store the accumulated value (counter value) on WDT-PRO.

At startup the counter value is 0 (initial value).

The value range of the counter is 0 to 4,294,967,295.
Pulse inputs are determined using the following criteria.
Input
ON OFF

Result

100 ms or longer 100 ms or longer

Evaluating

Count up

NOTICE
When counting up exceeds the upper limit, the counter value returns to 1. When the power is shut down, the counter value is cleared to 0. In WDS-WIN01, you can reset the counter value to 0 (initial value). Regardless of changes in states, the Signal Tower information in the counter settings is not transmitted. The Signal Tower
information is treated as if the light is off and buzzer is off.

  • Use WDS-WIN01 to select the Signal Tower control line for a simple counter. * The default setting for the simple counter is [Do not setup].

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8. Function Details

8.3 RS-232C Communication Functions
Function for transmitting and receiving data between external equipment and the RS-232C interface.

8.3.1 Communication Setup Function
Sets up RS-232C communication. Parameters you can set are as follows.

Item*

Setup Value

Baud rate

4800/9600/19200/38400/57600/115200 bps

Data Length

7 bits/8 bits

Parity

None/Even/Odd

Stop Bit

1 bit/2 bits

  • Select the settings in WDS-WIN01.

Initial Settings 9600 bps 8 bits None 1 bit

8.3.2 Receive Data Function
Following the data file format settings, this product receives data via RS- 232C communication. You can select supported file formats from 3 types*1.
Maximum receive data size is 60 bytes. Only the first 60 bytes are received when the data size exceeds 60 bytes. When the receive data size is greater than 30 bytes, the data is divided into 2 and transmitted to the host.
Receive Data File Format

Direct Communication Format*2

Data received from RS-232C devices is transmitted directly to WDR.

Bar Code Reader (Denso Wave) Communication Format*3

Receive format compliant with Denso Wave [models AT20B-SM(R) and AT21BSM(R)].
With this format, the header code, terminator code, and BCC are deleted from the received data and transmitted to WDR.

Bar Code Reader (generic) Communication Format*3

Communication format for other bar code readers. With this format, the header code and terminator code are deleted from the received data and transmitted to WDR.

  • 1 Select the setting in WDS-WIN01. 2 The default setting is [Direct Communication Format]. 3 When using the bar code reader communication format, set up bar code readers as follows. The following is a set up
    example with a Denso Wave bar code reader.

Communication method

Header

Terminator

BCC Transfer

Bar Code Reader (Denso Wave) Communication

STX

Format

CR

Allow Transfer

Bar Code Reader (generic) Communication Format

STX

CR

Prevent Transfer

CAUTION
Do not use this product in applications where data is continuously transmitted. This product does not respond (such as ACK) to transmissions sent to the host. Use with sufficient spacing between data transmissions. (Approximately once every 5 seconds)

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8. Function Details

8.3.3 Data Transmission Function
This product transmits to external equipment data received from the host. Maximum transmission data size is 40 bytes. Transmitting data sizes greater than that will return an error. The following is an illustration of transmissions to external equipment.

RS-232C Transmission Command

External Equipment

Transmission Data RS-232C Cable

Transmission Data (Maximum 40 bytes)

8.4 Wireless Data Communication Functions
8.4.1 Mesh Network Transmission
Function that automatically connects the WDT over the optimum communication route to the WDR for transmitting information. A dense mesh status increases communication redundancy. The following is an illustration showing the mesh status.

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8. Function Details

8.4.2 Information Transmission Function
Function for wirelessly transmitting to WDR the status information of each contact input line or the RS-232C data input. The following is an illustration showing the wireless transmission.

External Equipment

Input Information

Wireless Transmission

8.4.2.1 About Timing of Input Information Transmissions

For the timing of input information transmissions, you can select from the following two types of settings.

Setting*

Description

On change

Directly transmit the change in status on each contact input line or the information input over RS-232C.

Response

Transmit information as a response to a request from the host.

  • Select the settings in WDS-WIN01. * The default setting is [On change].

8.4.2.2 About Periodic Transmissions

WDT-PRO can be set up to automatically transmit information at defined intervals. About 40 seconds when the input information transmission format is [WDT-PRO format]. About 10 seconds when the input information transmission format is [WDT-LR format].
If the number of information transmissions is as low as a few times per hour, the communication is more stable if you select [Unit Information] or [Input Information/Signal Tower Information]. With this setting, you can select from the following 3 types.

Setting

Description

None

Periodic transmissions are not performed.

Unit Information

Periodically transmits product information such as the firmware version.

Input Information/

Periodically transmits input information such as the Signal Tower control line, external input line,

Signal Tower Information and counter value of Signal Tower control line inputs.

8.4.2.3 About Information Transmitted to WDR

Input information transmitted by WDT-PRO to WDR is as follows. Status of Signal Tower Control Line 6 contacts (red, amber, green, blue, white, and buzzer)

Status of External Input Line

8 contacts (external inputs 1 to 8)

RS-232C Communication Data

Maximum 60 bytes

Counter value of Signal Tower control line inputs

0 to 4,294,967,295

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8. Function Details

8.4.2.4 About Format of Information Transmitted to WDR

The format of input information transmitted by WDT-PRO to WDR is as follows.

Setting*

Description

WDT-PRO Format

In a single operation this command can get the Signal Tower control line, external input line, and counter value of Signal Tower control line inputs. This command can also get RS-232C communication data information.

WDT-LR Format

From the input information transmission contents, this command can get 1 of the sets of information. (WDT-LR compatible format)

  • Select the settings in WDS-WIN01. * The default setting is [WDT-LR Format].

8.4.2.5 About WDT-LR Format

When the input information transmission format is [WDT-LR Format], select from the following 2 types of formats.

Setting*

Description

Extended Format

You can set 6 types for the Signal Tower control line input status.

Standard Format

Format compatible with WDT-5E-Z2 and WDT-6M-Z2. From the 5 types (red, amber, green, blue, and white), you can set 4 for the Signal Tower
control line input status.

  • Select the setting in WDS-WIN01. * The default setting is [Standard].

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9. Troubleshooting

8.4.3 Retentive Status Function
Retentive Status Function is for temporarily saving transmission information in this product. Temporarily saved information is transmitted to WDR, in order, from oldest to newest. The maximum amount of information that can be saved temporarily is as follows. When Input Information Transmission Format is [WDT-LR Format]

Signal Tower Control Line Information

32

External Input Line Information

32

RS-232C Communication Data (60 byte transmission)

5

When Input Information Transmission Format is [WDT-PRO Format]

Signal Tower Control Line and External

32

Input Line Information

32

RS-232C Communication Data (60 byte transmission)

5

NOTICE
When the maximum size of information is exceeded, information is deleted beginning with the oldest.

8.4.4 Receive Information Function
Function for the WDT-PRO to wirelessly receive from the host remote control commands for the LED and buzzer unit, or data to transmit to external equipment connected to WDB-D80S. The following is an illustration of transmissions to external equipment.

External Equipment

Transmission Data

Transmission Data

RS-232C Cable

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9. Troubleshooting

9. Troubleshooting

9.1 Troubleshooting

9.1.1 Contact Input – Serial Communication Base Unit

Issue
Cannot attach the WDT-6LR/5LR-Z2.
Cannot control LED or buzzer units with the Signal Tower control line input.

Checklist
You can attach the WD PRO transmitter (WDT-6LR-Z2-PRO) to WDBD80S-PRO, but not other transmitters.
“8.1.2 Remote Control Functions” may be running operations. To release remote control, refer to “8.1.3 Release Remote Control Function”.

Status lamp does not turn on.

Check if the main unit is installed correctly. Check if wiring for the power supply is correct.

Status lamp LED1 is red and LED2 is green.

Starting up in initialization mode. If operations are normal, turn off DIP switch 1.

The status lamp lights up as one of the following.
LED1: Flashing green LED1, LED2: Alternating
RedGreenRedGreen LED1: Light off, LED2: Green light

Running in mode that is not normal. For normal operation, turn off all DIP switches.

Status lamp LED1 is off and LED2 is red.

Turn off the power on this product’s main unit then turn the power back on.
If the lighting condition of the status lamp still does not change, there may be an issue with the configuration on WDB-D80S. Initialize the product and set up again.
If the lighting condition of the status lamp still does not change, the WDB- D80S may have failed. Please contact your local sales representative.

Status lamp LED1 is green and LED2 is flashing red.

Turn off the power on this product’s main unit then turn the power back on.
If the WDT-PRO lighting condition still does not change, there may be an issue with the configuration on WDT-PRO. Initialize the product and set up again.
If the lighting condition of the status lamp still does not change, the WDT- PRO may have failed. Please contact your local sales representative.

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9. Troubleshooting

9.1.2 WDT-6LR-Z2-PRO (WD PRO Transmitter)

Issue Indicator does not light up.

Checklist
Check if it is installed correctly. Check if WDB-D80S wiring for the power supply is correct.

The indicator is flashing red. (not pulsing)

WDB-D80S DIP switches may be set up incorrectly. For normal operation, turn off all DIP switches then turn the power back on.
If it continues to flash red, it may be an indication that the WDT-PRO settings are corrupted. Initialize the product and set up again.
If it continues to flash red, it may be an indication that the WDT-PRO may have failed. Please contact your local sales representative.

The indicator is flashing amber. (not pulsing)

WDB-D80S DIP switches may be set up incorrectly. For normal operation, turn off all DIP switches then turn the power back on.
If it continues to flash amber, it may be an indication that the WDB-80S settings are corrupted. Initialize the product and set up again.
If it continues to flash amber, it may be an indication that the WDBD80S may have failed. Please contact your local sales representative.

The indicator does not change from a red light to a red pulse.

Wireless connection with WDR is in progress.
Depending on the radio wave environment, it may take some time to complete the connection. Check the indicator again after about 5 minutes.
Check if the WDR is working properly. The ExtendedPanID in the WDR must match the wireless channel
setting for a connection. Make sure the settings are correct. Check for any sources of noise (such as microwave ovens) in the
surrounding area that could impede wireless communication.

The indicator flashes blue.

When the host transmits a call out command to the WDT, the indicator flashes blue for about 10 seconds.

The indicator flashes alternating between green and Starting up in initialization mode. If operations are normal, set the

red.

WDB-D80S DIP switch 1 to [OFF].

The indicator light is purple.

Running in mode that is not normal. For normal operation, turn off all WDB- D80S-PRO DIP switches.

The host cannot determine if the WDT is available.

If a wireless connection cannot be completed, the host cannot check if the WDT is available. Check if the indicator on the target WDT is pulsing, to indicate connection is complete.

Cannot get the buzzer input information.

Cannot get buzzer input information with [Standard Format] when the Input Information Transmission Format is [WDT-LR Format]. Either use [Extended Format] or change the Input Information Transmission Format to [WDT-PRO Format].

Counter value is not increasing.

In WDS-WIN01, select the Signal Tower control line for the simple counter.

Cannot get RS-232C communication data.

Make sure the communication settings and receive data file format settings are correct. To check if WDT-PRO is transmitting RS232C communication data, see if the indicator light changes light blueflashing light blue. If it does not flash light blue, RS-232C communication data is not being transmitted to the host. Check if the WDT-PRO and WDR have a wireless connection. If you still cannot get RS-232C communication data, make sure the communication settings and receive data file format settings are correct.

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10. Specifications

10. Specifications

10.1. Specifications

10.1.1 Contact Input – Serial Communication Base Unit

Item Model

WDB-D80S-PRO

Description

Rated Voltage

24 VDC

Operating Voltage Range
Rated Current Consumption (Maximum)
Ambient Operating Temperature

21.6 to 26.4 VDC Main Unit: 110 mA*When WDT-6LR-Z2-PRO is connected at 24 VDC Each LED unit color: 42 mABuzzer unit: 42 mA -10 to +50

Ambient Operating Humidity Storage Ambient Temperature

85% RH or less, no condensation -20 to +60

Storage Ambient Humidity

85% RH or less, no condensation

Mounting Location

Indoors

Mounting Direction

Upright

Protection Rating

IP65 (IEC 60529)/ NEMA TYPE 4X, TYPE 13

Environmental Conditions

Upright

Insulation Resistance

5 M or more at 500 VDC between the live part and non-current carrying metallic part

Withstand Voltage

500 VAC for 1 minute, between the live part and non-current carrying metallic part

Mass (Tolerance: ±10%) Status Lamp

300 g
LED x 2 (Lights turn red and green, installed on the device for displaying operation status)

Operation Unit

DIP Switches

Compliance Standards Accessories References

UL 508, CAN/CSA C22.2 No.14-18 FCC Part 15 Subpart B Class B EN 55032 Class B, EN 55035, EN IEC 63000 KN 61000-6-2 /6-4
Hexagon Nut with Flange (M4) x 3 Hexagon Nut with Flange (M3) x 6 Hexagon Bolt (M3) x 3 Cap for cable gland x 1 Sealing plug for cable gland x 1 Terminal Block Connector x 1
Conforms to the CE Requirements UL/cUL Recognized Component (File No.E215660)

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10. Specifications

External Interface Item
Power Supply Wire

Description UL1061 AWG24 x 2 (24 VDC, GND)

Signal Wire

UL1061 AWG24 x 17

Contact Input Line

Signal Tower Control Line
External Input Line
Clear Input Line

6 contacts (external relay/NPN/PNP) 1 8 contacts (external relay/NPN/PNP) 1 1 contacts (external relay/NPN/PNP) *1

Flashing Common Line

1 contact (60±2/minute)

External Input Common Line

1 contact

RS-232C Communication method
USB

Screwless terminal block (6 contacts) supported lead wire: AWG24 to 28 (stranded wire)
Transmission method: Full duplex Synchronization method: Asynchronous Baud rate: 4800/9600/19200/38400/57600/115200 bps Data length: 7 bits/8 bits Parity: None/Even/Odd Stop Bit: 1 bit / 2 bits Maximum cable length possible for connection: 15 m
micro-USB connector (B terminal)*2

  • 1 Input Reaction Time: 100 ms or longer, Signal Wire Current: 6 mA or less * 2 Use only for maintenance. 5.2.2.2 WD System Configuration at Maintenance(P.16)

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10. Specifications

10.1.2 WD PRO Transmitter

Item Model

WDT-6LR-Z2-PRO

Description

Ambient Operating Temperature

-10 to +50

Ambient Operating Humidity Storage Ambient Temperature

85% RH or less, no condensation -20 to +60

Storage Ambient Humidity

85% RH or less, no condensation

Mounting Location

Indoors

Protection Rating

IP65 (IEC 60529)/ NEMA TYPE 4X, TYPE 13

Environmental Conditions

Upright

Mass (Tolerance: ±10%)

90 g

Wireless Standard

IEEE 802.15.4 compliant

Communication Frequency

2405 to 2480 MHz (16 channels)

Wireless Communication

Transmission/Receiving Method Communication Method

Direct Sequence (DS-SS) Format Zigbee2007 compliant, with ZigbeePro Stack

Transmission Output

Maximum 3 m or less (at the antenna feed)

Communication Distance

Line of sight, approximately 30 m (reference value)

Display Unit

Indicator for status display

Operation Unit Compliance Standards References

None
Japan Radio Law (ARIB STD-T66 Conformity)2 UL 508, CAN/CSA C22.2 No.14-18 FCC Part 15 Subpart B Class B, Subpart C2 EN 55032 Class B, EN 55035, EN 62368-1 EN 300328, EN 301 489-1/-17, EN 62479, EN 50663, EN IEC 63000 KN 301 489-1/-17, NCC*2 NBTC announcement on telecommunication equipment that has
exempted for certificate date 18 December 2017 NOM-208-SCFI-2016, IFT-008-2015
Conforms to the CE Requirements UL/cUL Recognized Component (File No.E215660)

1 Maximum number of tiers for LED Units 2 Built-in certified wireless module

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Wireless Data Acquisition System – WD PRO Series Instruction Manual

11. Replacement and Optional Parts

11.1 Replacement Parts

Various parts are available to the customer for exchange or replacement.

O ring 60

Head cover 60W

11. Replacement and Optional Parts

5 pieces

1 pieces

11.2 Optional Parts

This product includes the following related products, compatible units, and optional parts.

Related products

Compatible Units

Software WDS-WIN01

Receiver
WDR-LE-Z2 WDR-L(E)-Z2-PRO(-L)

LED Unit
LR6-E- / LR6-E- Z / LR6-E-MZ

Buzzer Unit LR6-BW

Optional parts Serial Cable WDX-SC01

  • Replace the square with R, Y, G, B, or C.

Wallmount Bracket

SZK-003W

SZK-001U

Mounting Bracket SZW-002W

Mounting Pole Base

SZ-016A

SZ-010

Pole Bracket SZP-004W

Pole POLE- 00A21

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8. Function Details

Head office Germany

G2J
www.patlite.com/ www.patlite.com/ www.patlite.eu/ www.patlite-ap.com/ www.patlite.cn/ www.patlite.co.kr/ www.patlite.tw/ www.patlite.co.th/ www.patlite.com.mx/

66

References

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