Version 1.0
Produced in June 2002
R
Sharp Programmable Controller
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Module name |
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JW-20FL5 |
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JW-20FLT |
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JW-50FL |
F L - n e t |
Z-336J |
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User's Manual |
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Thank you for purchasing the FL-net module (board) for use with the sharp programmable controller.
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JW-20FL5 |
(Installed PC) |
FL-net module |
JW-20FLT |
JW20H/30H |
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JW-50FL |
JW50H/70H/100H |
FL-net board |
Z-336J |
J-board |
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Please familiarize yourself with the module by reading this user's manual thoroughly.
Keep this manual handy. We are confident that this manual will be helpful whenever you face a problem.
In addition to this manual, the following manuals are available for your further study.
- JW-20FL5/20FLT |
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FL-net user's manual (this manual) |
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- JW-50FL |
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FL-net user's manual (this manual) |
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- Z-336J |
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FL-net user's manual (this manual) |
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- JW20H/30H |
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Control module |
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User's manual - hardware version |
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- JW50H/70H/100H |
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Programming manual |
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User's manual - hardware version |
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Control module |
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Programming manual |
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- J-board Z-300 series |
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CPU board |
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Z-311J/312J user's manual - hardware version |
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Z-313J* user's manual - hardware version |
- J-board Z-500 series |
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CPU board |
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Z-511J*User's manual - hardware version |
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* Z-313J and Z-511J (CPU boards) are manufactured on request. |
Note
-Should you have any questions or inquires, please feel free to contact one of our dealers, or our service department.
-Copying this manual in part of in total is prohibited.
-The contents of this manual may be revised without notice.
Read this manual and attached documents carefully before installation, operation, maintenance and checking in order to use the machine correctly. Understand all of the machine knowledge, safety information, and cautions before starting to use. In this instruction manual, safety precautions are ranked into "danger" and "caution" as follows.
Danger |
: Wrong handling may possibly lead to death or heavy injury. |
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Caution |
: Wrong handling may possibly lead to medium or light injury. |
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Even in the case of |
Caution |
, a serious result may be experienced depending on |
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the circumstances. Anyway, important points are mentioned. Be sure to observe them |
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strictly. |
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The picture signs of prohibit and compel are explained below.
: It means don'ts. For example, prohibition of disassembly is indicated as (). : It means a must. For example, obligation of grounding is indicated as ( ).
1) Installation
Caution
-Use in the environments specified in the user's manual.
Electric shock, fire or malfunction may be caused when used in the environments of high temperature, high humidity, dusty or corrosive atmosphere, vibration or impact.
-Install according to the user's manual.
Wrong installation may cause drop, breakdown, or malfunction.
-Never admit wire chips or foreign matters.
Or fire, breakdown or malfunction may be caused.
2)Wiring
Compel
-Be sure to ground for programmable controller.
Unless grounded, electric shock or malfunction may be caused.
Caution
-Connect the rated power source.
Connection of a wrong power source may cause a fire.
-Wiring should be done by qualified electrician.
Wrong wiring may lead to fire, breakdown or electric shock.
Caution
-Make sure to follow the descriptions in the instruction manual and user manual when wiring and installing a module/board.
Make sure to supply the electricians with the wiring and installation requirements.
If the wiring or installation do not meet the specifications, there may be a drop in the modules ability to reject noise, or the modules may malfunction.
3)Use
Danger
-Don't touch the terminal while the power is being supplied or you may have an electric shock.
-Assemble the emergency stop circuit and interlock circuit outside of the programmable controller. Otherwise breakdown or accident damage of the machine may be caused by the trouble of the programmable controller.
Caution
-Change of program during operation, or "Run" or "stop" during operation should be done with particular care by confirming safety. Misoperation may lead to damage or accident of the machine.
-Turn on the power source in the specified sequence. Turning ON with wrong sequence may lead to machine breakdown or accident.
4)Maintenance
Prohibit
-Don't disassemble or modify the modules.
Or fire, breakdown or malfunction may be caused.
Caution
-Turn OFF the power source before detaching or attaching the module/board. Or electric shock, malfunction or breakdown may be caused.
■ User's Manual
Chapter 1: Outline
Chapter 2: Handling Precautions
Chapter 3: System Configuration
Chapter 4: Name and Function of Each Part Chapter 5: Installation
Chapter 6: Connection/Wiring
Chapter 7: Use Guide
Chapter 8: Cyclic Transfer
Chapter 9: Message Transfers
Chapter 10: Communication Control
Chapter 11: SEND/RECEIVE Function
Chapter 12: Parameters
Chapter 13: Troubleshooting
Chapter 14: Specifications
Chapter 15: Appendix
Alphabetical Index
Chapter 1: Outline ...................................................................................................... |
1-1 |
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Chapter 2: Handling Precautions ............................................................................. |
2-1 |
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Chapter 3: System Configuration ............................................................................. |
3-1 |
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Chapter 4: Name and Function of Each Part .................................................... |
4-1 to 4 |
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4-1 JW-20FL5 ..................................................................................................................................... |
4-1 |
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4-2 JW-20FLT ..................................................................................................................................... |
4-2 |
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4-3 Z-336J ........................................................................................................................................... |
4-3 |
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4-4 JW-50FL ....................................................................................................................................... |
4-4 |
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Chapter 5: Installation ........................................................................................ |
5-1 to 8 |
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5-1 Installation of JW-20FL5/20FLT .................................................................................................... |
5-1 |
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5-2 Installation of Z-336J .................................................................................................................... |
5-2 |
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[1] Maximum number of boards to mount ........................................................................................ |
5-3 |
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[2] Address allocation of I/O relay .................................................................................................... |
5-4 |
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(1) |
When mounted on Z-311J/312J .......................................................................................... |
5-4 |
(2) |
When mounted on Z-313J ................................................................................................... |
5-5 |
(3) |
When mounted on Z-511J ................................................................................................... |
5-6 |
5-3 Installation of JW-50FL ................................................................................................................. |
5-8 |
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Chapter 6: Connection/Wiring ........................................................................... |
6-1 to 9 |
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6-1 Installing an Ethernet cable .......................................................................................................... |
6-1 |
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[1] Equipment layout ........................................................................................................................ |
6-1 |
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[2] Wiring ......................................................................................................................................... |
6-1 |
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6-2 Connection .................................................................................................................................... |
6-2 |
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[1] Connection of JW-20FL5 ............................................................................................................ |
6-2 |
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(1) |
Connecting the transciever cable ........................................................................................ |
6-2 |
(2) |
Wiring the power source ...................................................................................................... |
6-3 |
[2] When connecting to a JW-20FLT ............................................................................................... |
6-4 |
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[3] Connection of Z-336J ................................................................................................................. |
6-5 |
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(1) |
When connecting to a 10BASE5 ......................................................................................... |
6-5 |
(2) |
When connecting to a 10BASE-T ........................................................................................ |
6-7 |
[4] Connection of JW-50FL .............................................................................................................. |
6-8 |
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(1) |
When connecting to a 10BASE5 ......................................................................................... |
6-8 |
(2) |
When connecting to a 10BASE-T ........................................................................................ |
6-9 |
Chapter 7: Use Guide ........................................................................................ |
7-1 to 30 |
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7-1 Ethernet ........................................................................................................................................ |
7-1 |
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[1] 10BASE5 system ....................................................................................................................... |
7-1 |
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[2] 10BASE-T system ...................................................................................................................... |
7-4 |
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[3] IP addresses on an Ethernet ...................................................................................................... |
7-5 |
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7-2 FL-net ........................................................................................................................................... |
7-6 |
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[1] Description of the FL-net ............................................................................................................ |
7-6 |
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[2] The number of modules and their node numbers ...................................................................... |
7-8 |
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[3] Data communication type ........................................................................................................... |
7-9 |
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(1) |
Cyclic transfer .................................................................................................................... |
7-10 |
(2) |
Message transfer ............................................................................................................... |
7-10 |
[4] Transfer data volume ................................................................................................................ |
7-10 |
(1) |
Cyclic transfer .................................................................................................................... |
7-10 |
(2) |
Message transfer ................................................................................................................ |
7-11 |
[5] Transfer cycle ............................................................................................................................ |
7-11 |
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[6] Data area and memory ............................................................................................................. |
7-12 |
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[7] Communication management table .......................................................................................... |
7-13 |
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(1) |
Local node management table .......................................................................................... |
7-13 |
(2) |
Participating node management table ............................................................................... |
7-14 |
(3) |
Network management table .............................................................................................. |
7-14 |
[8] Cyclic transfer and data area ................................................................................................... |
7-15 |
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(1) |
Outline of the cyclic transfer process ................................................................................ |
7-15 |
(2) Common memory .............................................................................................................. |
7-16 |
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(3) Area 1 and area 2 .............................................................................................................. |
7-17 |
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(4) |
Guarantee of simultaneity ................................................................................................. |
7-18 |
[9] Message transfers ................................................................................................................... |
7-19 |
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(1) |
Outline of the message transfer process ........................................................................... |
7-19 |
(2) Table of support messages ............................................................................................... |
7-20 |
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(3) |
Details of the support messages ....................................................................................... |
7-21 |
Chapter 8: Cyclic Transfer ................................................................................ |
8-1 to 13 |
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8-1 Setting procedures ........................................................................................................................ |
8-3 |
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8-2 Areas that can be allocated as the common memory area ........................................................... |
8-4 |
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(1) |
For the JW20H or J-board (Z-300 series) ........................................................................... |
8-4 |
(2) |
For the JW30H or J-board (Z-500 series) ........................................................................... |
8-5 |
(3) |
For the JW50H/70H/100H ................................................................................................... |
8-6 |
8-3 Parameter settings for cyclic transfers .......................................................................................... |
8-7 |
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[1] Word addresses used for the top address.................................................................................. |
8-8 |
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(1) |
For the JW20H or J-board (Z-300 series) ........................................................................... |
8-8 |
(2) |
For the JW30H or J-board (Z-500 series) ........................................................................... |
8-9 |
(3) |
For the JW50H/70H/100H .................................................................................................. |
8-11 |
8-4 Communication time ................................................................................................................... |
8-13 |
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[1] Token round time ...................................................................................................................... |
8-13 |
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[2] Round time when a communication error occurs ..................................................................... |
8-13 |
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Chapter 9: Message Transfers ......................................................................... |
9-1 to 47 |
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9-1 Message sending procedures and data reception details ............................................................ |
9-2 |
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9-2 Transmission buffer....................................................................................................................... |
9-4 |
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[1] Allocation of available areas for the transmission buffer ............................................................ |
9-5 |
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(1) |
For the JW20H or J-board (Z-300 series) ........................................................................... |
9-5 |
(2) |
For the JW30H or J-board (Z-500 series) ........................................................................... |
9-6 |
(3) |
For the JW50H/70H/100H ................................................................................................... |
9-7 |
9-3 Message transaction codes and execution conditions ................................................................. |
9-8 |
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9-4 Use of virtual address space and PC memory space ................................................................... |
9-9 |
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(1) |
For the JW20H or J-board (Z-300 series) ......................................................................... |
9-10 |
(2) |
For the JW30H or J-board (Z-500 series) .......................................................................... |
9-11 |
(3) |
For the JW50H/70H/100H ................................................................................................. |
9-14 |
9-5 Computer link function ................................................................................................................ |
9-16 |
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[1] Setting the computer link to send and receive data ................................................................. |
9-17 |
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[2] Basic format of computer link commands ................................................................................ |
9-19 |
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(1) |
Communication format ...................................................................................................... |
9-19 |
(2) |
Memory address expression format .................................................................................. |
9-20 |
(3) Execution condition ........................................................................................................... |
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9-21 |
(4) Table of commands ........................................................................................................... |
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9-22 |
[3] Descriptions of each command ................................................................................................ |
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9-23 |
[4] Computer link error code table ................................................................................................. |
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9-42 |
[5] Two-layer communication with the Ethernet ............................................................................. |
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9-43 |
9-6 Remote programming and remote monitor functions ................................................................. |
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9-45 |
[1] Function .................................................................................................................................... |
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9-45 |
[2] Example operation ................................................................................................................... |
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9-46 |
Chapter 10: Communication Control .............................................................. |
10-1 to 6 |
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[1] Participating nodes list flag ....................................................................................................... |
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10-2 |
[2] Operation status flag ................................................................................................................ |
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10-3 |
[3] Error status flag ........................................................................................................................ |
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10-4 |
[4] Local node management table ................................................................................................. |
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10-5 |
[5] Participating node management table ...................................................................................... |
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10-6 |
[6] Network management table ..................................................................................................... |
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10-6 |
Chapter 11: SEND/RECEIVE function .............................................................. |
11-1 to 8 |
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11-1 Operation of SEND/RECEIVE instruction .................................................................................. |
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11-2 |
[1] SEND ........................................................................................................................................ |
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11-2 |
(1) When the module is used (host PC: JW30H, J-board (Z-500 series)) ............................... |
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11-2 |
(2) When the module is used (host PC: JW50H/70H/100H) ..................................................... |
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113 |
[2] RECEIVE ................................................................................................................................... |
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11-5 |
(1) When the module is used (host PC: JW30H, J-board (Z-500 series)) ............................... |
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11-5 |
(2) When the module is used (host PC: JW50H/70H/100H) .................................................... |
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11-6 |
11-2 Timeout time for SEND/RECEIVE instructions .......................................................................... |
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11-8 |
Chapter 12: Parameters .................................................................................... |
12-1 to 5 |
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12-1 Table of parameters .................................................................................................................. |
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12-1 |
12-2 Details of each of the parameters ............................................................................................. |
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12-2 |
(1) Enable/disable the use of the transmission buffer (Setting parameter address 37(8)) ..... |
12-2 |
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12-3 How to set parameters .............................................................................................................. |
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12-3 |
[1] When the JW-20FL5/20FLT or Z-366J is used ......................................................................... |
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12-3 |
[2] When the JW-50FL is used ...................................................................................................... |
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12-4 |
Chapter 13: Troubleshooting ........................................................................... |
13-1 to 6 |
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13-1 Before you conclude that the machine is faulty ........................................................................ |
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13-1 |
13-2 General network problems and countermeasures .................................................................... |
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13-2 |
[1] Problems concerning the network and appropriate countermeasures (when unable to communi- |
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cate) ......................................................................................................................................... |
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13-2 |
[2] Problems concerning the network and appropriate countermeasures (when communications are |
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unstable) ................................................................................................................................... |
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13-3 |
[3] How to check an IP address using the Ping function on a personal computer ........................ |
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13-4 |
13-3 General precautions related to the FL-net ................................................................................ |
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13-5 |
13-4 Error indicators on the display panel ........................................................................................ |
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13-6 |
Chapter 14: Specifications ............................................................................... |
14-1 to 5 |
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14-1 JW-20FL5/20FLT ...................................................................................................................... |
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14-1 |
[1] General specifications .............................................................................................................. |
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14-1 |
[2] Communication specifications .................................................................................................. |
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14-1 |
[3] External dimension drawings ................................................................................................... |
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14-2 |
14-2 Z-336J ....................................................................................................................................... |
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14-3 |
[1] General specifications .............................................................................................................. |
14-3 |
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[2] Communication specifications .................................................................................................. |
14-3 |
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[3] External dimension drawings ................................................................................................... |
14-3 |
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14-3 JW-50FL ................................................................................................................................... |
14-4 |
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[1] General specifications .............................................................................................................. |
14-4 |
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[2] Communication specifications .................................................................................................. |
14-4 |
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[3] External dimension drawings ................................................................................................... |
14-5 |
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Chapter 15: Appendix ..................................................................................... |
15-1 to 63 |
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15-1 System configuration guide ...................................................................................................... |
15-1 |
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[1] Brief description of the Ethernet ............................................................................................... |
15-1 |
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[2] 10BASE5 Specifications ........................................................................................................... |
15-2 |
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[3] 10BASE-T Specifications ......................................................................................................... |
15-3 |
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[4] Other Ethernet Specifications ................................................................................................... |
15-4 |
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(1) |
10BASE2 ........................................................................................................................... |
15-4 |
(2) |
Optical Ethernet Specifications ......................................................................................... |
15-4 |
15-2 Examples of system configurations .......................................................................................... |
15-5 |
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[1] Small scale configuration ......................................................................................................... |
15-5 |
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[2] Basic configuration ................................................................................................................... |
15-6 |
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[3] Configuration of a large-scale network ..................................................................................... |
15-7 |
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[4] Configuration of a long distance distribution system ................................................................ |
15-8 |
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[5] Configuration of local concentrations ....................................................................................... |
15-9 |
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[6] Configuration combining local and long distance distribution ................................................. |
15-10 |
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[7] Principles of the FL-net system ............................................................................................... |
15-11 |
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[8] Differences between a general-purpose Ethernet and FL-net ................................................ |
15-11 |
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15-3 Definition of network systems ................................................................................................. |
15-12 |
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[1] Communication protocol standards ........................................................................................ |
15-12 |
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[2] Hierarchical structure of the communication protocols ........................................................... |
15-12 |
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[3] Physical implementations of an FL-net .................................................................................. |
15-13 |
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[4] IP addresses on the FL-net .................................................................................................... |
15-13 |
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[5] FL-net sub net mask ............................................................................................................... |
15-14 |
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[6] TCP/IP, UDP/IP protocols ....................................................................................................... |
15-14 |
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[7] FL-net port number ................................................................................................................. |
15-14 |
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[8] FL-net data format .................................................................................................................. |
15-15 |
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(1) |
Outline of the FL-net data format .................................................................................... |
15-15 |
(2) |
FL-net header format ....................................................................................................... |
15-17 |
[9] FL-net transaction code .......................................................................................................... |
15-17 |
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15-4 Network control of the FL-net ................................................................................................. |
15-19 |
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[1] Token control of the FL-net ..................................................................................................... |
15-19 |
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(1) |
Token ............................................................................................................................... |
15-19 |
(2) |
Flow of the token ............................................................................................................. |
15-20 |
(3) |
Token and data ................................................................................................................ |
15-21 |
(4) |
Interval between frames (minimum allowable interval between frames) ......................... |
15-22 |
[2] Joining and leaving an FL-net network ................................................................................... |
15-23 |
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(1) |
Participation in the FL-net ............................................................................................... |
15-23 |
(2) |
Leaving an FL-net network .............................................................................................. |
15-25 |
[3] Node status control ................................................................................................................ |
15-26 |
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[4] FL-net Local node management table .................................................................................... |
15-26 |
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[5] FL-net Participating node management table ........................................................................ |
15-27 |
[6] Status management of the FL-net .......................................................................................... |
15-28 |
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[7] Control message sequence number of the FL-net ................................................................. |
15-28 |
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15-5 Parts needed to build a network ............................................................................................. |
15-29 |
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[1] Parts needed to configure an Ethernet ................................................................................... |
15-29 |
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[2] Parts related to 10BASE5 ...................................................................................................... |
15-30 |
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(1) |
Transceiver ...................................................................................................................... |
15-30 |
(2) |
Coaxial cable ................................................................................................................... |
15-35 |
(3) |
Coaxial connectors .......................................................................................................... |
15-35 |
(4) |
Relay connector .............................................................................................................. |
15-36 |
(5) |
Terminator (terminating resistor) ..................................................................................... |
15-36 |
(6) |
Ground terminal of a coaxial cable .................................................................................. |
15-37 |
(7) Transceiver cable ............................................................................................................ |
15-37 |
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(8) |
10BASE5/10BASE-T converter ....................................................................................... |
15-38 |
(9) |
Coaxial/optical converter, repeater .................................................................................. |
15-39 |
[3] 10BASE-T related items ......................................................................................................... |
15-40 |
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(1) |
Hub .................................................................................................................................. |
15-40 |
(2) |
10BASE-T cable .............................................................................................................. |
15-41 |
(3) |
10BASE-T/optical converter, repeater ............................................................................. |
15-41 |
15-6 Installation of an FL-net network ............................................................................................. |
15-42 |
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[1] Wiring 10BASE5 coaxial cable ............................................................................................... |
15-42 |
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[2] 10BASE-T (UTP) .................................................................................................................... |
15-56 |
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15-7 Grounding the FL-net system ................................................................................................. |
15-58 |
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[1] Outline of the grounding procedures for the FL-net system ................................................... |
15-58 |
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[2] Wiring power lines and grounding equipment ........................................................................ |
15-59 |
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[3] Wiring the power lines and grounding the network equipment in an FL-net .......................... |
15-60 |
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[4] Installation of network equipment in an FL-net ....................................................................... |
15-61 |
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[5] Wiring and grounding through wiring ducts and conduits ....................................................... |
15-62 |
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15-8 FL-net installation check sheet ............................................................................................... |
15-63 |
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Alphabetical Index ............................................................................................... |
I-1 to 3 |
An FL-net module (JW-20FL5/20FLT, JW-50FL, FL-net board (Z-336J)) is an interface module use to connect a programmable controller (JW20H/30H, JW50H/70H/100H), J-board to an FL-net. FL-net is an open network that connects production equipment and controllers from multiple FA (factory automation) venders, to create a unified production process. This network works as an intermediary between information networks and production networks, and makes it possible to connect control devices (such as personal computers or programmable controllers, hereafter referred to as PCs), to numeric control devices (CNCs), and robot controllers (RCs). The Ethernet is used as a world standard communication method to allow communication between pieces of OA (Office Automation) equipment.
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Personal |
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Personal |
Personal |
Server |
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EWS |
computer |
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computer |
computer |
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WAN |
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Information network (Ethernet) |
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Gateway |
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FL-net |
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Nut |
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Image |
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Robot |
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PC |
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runner |
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NC |
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Printer |
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BCR |
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ID |
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Graphic |
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controller |
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Field network |
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Personal |
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panel |
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computer |
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Sensor |
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actuator |
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FL-net employs an FA link protocol as an application layer.
Features of the FA link protocol
1 Uses the Ethernet UDP/IP communication protocol.
2Using a Master-less, Token method, the system prevents data transmission conflicts and guarantees the transfer of data within a specified time.
3 Employs a shared memory system (shares information between each of the nodes).
4 Nodes can automatically enter and leave the network.
Features of the JW-20FL5/20FLT, JW-50FL, Z-336J
1 FL-net compatible (uses the FA link protocol)
2 Supports cyclic transfers and message transfers.
3Supports exchange of data between SHARP PCs using the SEND/RECEIVE function. (A unique function of SHARP equipment)
4Allows remote programming and remote monitor functions between SHARP PCs. (A unique function of SHARP equipment)
-FL-net is an open network that was standardized by the Japan FA Open Systems Promotion Group (JOP) in the Manufacturing Science Technology Center (MSTC).
-Ethernet is a registered trademark of XEROX CORPORATION, USA.
1-1
Make sure to follow the precautions bellow who using the JW-20FL5/20FLT, JW-50FL (hereafter referred to as this module) and Z-336J (hereafter referred to as this board).
(1) Installation
-Do not install or store this unit in the following conditions. 1 Locations close to a heating element
2 Sudden temperature changes which may cause condensation
3 Corrosive or inflammable gas
4 Vibration or hard jolts
-The minimum distance between nodes is specified in the regulations. (2.5 m when the 10BASE5 is used.) When connecting devices, be sure to maintain these minimum distances.
Cables used for 10BASE5 systems have marks every 2.5 m. Position each transceiver directly on one of these marks.
-Mount the transceivers on electrically insulated objects, such as a wooden mounting block.
-Prior to installing or detaching the JW20H/30H or JW50H/70H/100H, make sure to turn OFF the power supply to the PCs.
-Prior to connect the board, make sure to turn OFF the power to the J-board.
-Isolate the hub case electrically from the control panel chassis.
(2)Treatment
JW-20FL5/20FLT and JW-50FL
2 |
-For ventilation, holes are provided in the cabinet to prevent a temperature rise. Do not block the ventilation holes. Good ventilation is necessary.
-Never allow a liquid such as water and chemical solution and a metallic object like a copper wire inside this module to avoid a possible hazard. Otherwise, it may be a cause of machine
trouble.
-When a trouble or abnormal condition such as overheat, fume, or smoke is met, stop the operation immediately, and call your dealer or our service department.
Z-336J
A J-board is a PC board which contains sensitive electronic parts. Therefore, be careful when handling it.
1Before touching the board with your hand, make sure to discharge all static electricity from your body.
2 Do not touch the board if your hands are dirty or wet.
3 Do not put the board down on a conductive object (such as a metal plate).
(If a J-board with a CPU is placed on a conductive object, the battery terminals may be short circuited and the back up memory will be lost.)
4Do not handle any switches, connectors, or terminal blocks on the J-board using excessive force.
(3)Grounding
-Connect the J-board FG terminal (on the terminal block on the CPU board) to an independent class 3 ground. Do not share the ground with high voltage equipment.
-The hexagonal standoffs (supplied with each board) for assembling the J-board are used for connecting the ground (FG). Make sure to tighten them securely.
(4)Wiring precautions
-Install the communication lines at a distance of 60 cm or more away from motor power lines or high voltage lines.
-Do not route wires near equipment that generates electrical noise.
-Use category 5 10BASE-T shielded twisted pair cable.
-Use an isolated shield transformer to provide power to the hubs.
-We recommend using a transceiver cable that is 2 m or shorter.
2-1
[Connection example]
Personal
computer
Terminator |
FL-net |
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10BASE5 coaxial cable (max. 500 m) |
Transceiver |
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Transceiver |
J-board |
JW20H/30H |
JW50H/70H/100H |
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NC |
Hub |
cable |
21 |
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RC |
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10BASE-T |
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twisted pair cable |
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JW-20FL5 |
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Other |
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Z-336J |
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(max. 100 m) |
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JW-50FL |
maker’s |
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RC |
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PC |
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J-board |
JW20H/30H |
JW50H/70H |
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21 |
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JW-20FLT |
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Z-336J |
JW-50FL |
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- A basic system (segment) configuration consists of a 10BASE5 coaxial cable between 10m and 500 m long with nodes connected to this cable. (A maximum of 100 nodes can be connected per segment)
- If the distance between nodes exceeds 500 m, use a repeater (maximum length 2,500 m).
See 7-1[1] 10BASE5 system.
Note: 10BASE5 coaxial cable, transceivers, transceiver cables, terminators, hubs, and 10BASE-T twisted pair cable is supplied and installed by the customer.
3 |
3-1
Chapter 4: Name and Function of Each Part
4-1 JW-20FL5
1Display panel
JW-20FL5
LNTXRX12V TPEHE
S7S6S5S4S3S2S1S0 |
6Module No. switch |
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(Factory setting: 0) |
2Connector for programmer |
4 Connector for shield |
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switch for 10BASE5 |
3Connector for 10BASE5 |
ON |
S |
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H |
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I |
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E |
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L |
512 VDC power supply input terminal |
D |
OFF |
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(Factory setting: ON) |
FG |
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7Reset switch |
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1 0
9
8
2
7
34 |
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6 |
5 |
4 |
(Front) (Rear)
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Name |
Function |
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Display panel |
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Displays the JW-20FL5 operating status using LEDs. |
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LN |
Lights when communicating normally. |
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TX |
Blink at transmitting data. |
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RX |
Blink at receiving data. |
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1 |
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12 V |
Lights when 12 VDC is supplied. (Only when 10BASE5 is used.) |
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T |
Lights at test mode. (Normally, this is not used.) |
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PE |
Lights at parameter setting error. |
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HE |
Lights at this module error. |
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S0 to S7 |
Displays the station number when operating normally. Displays an error |
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code if an error occurs. |
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2 |
Connector for programmer |
Connect a JW-14PG programmer or similar equipment to set the |
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parameters on the JW-20FL5. |
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3 |
Connector for 10BASE5 |
Connect the 10BASE5 transceiver cable. |
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Make sure to slide the lock securely to the "lock" position. |
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Connector for |
ON |
The shield on the coaxial cable and the FG (base) terminal on this |
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module will be shorted together. |
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4 |
Shield switch |
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The shield on the coaxial cable is not shorted to the base. |
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for 10BASE5 |
OFF |
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- Ground the FG line on the 12 VDC connector separately. |
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12 VDC power supply |
When 10BASE5 is used, connect a commercially available DC power |
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5 |
supply that is designed to supply power to transceivers. The DC power |
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input terminal |
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supply must provide 12VDC ±5% and 0.5 A or more. |
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6 |
Module No. switch |
Specify a module number from 0 to 6. |
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- Be careful do not use the same number for another option module. |
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7 |
Reset switch |
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Only used by SHARP engineers. Users should not press this switch. |
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4-1
Chapter 4: Name and Function of Each Part
4-2 JW-20FLT
1Display panel
JW-20FLT
LNTXRX12V TPEHE
S7S6S5S4S3S2S1S0
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5Module No. switch |
2Connector for programmer |
(Factory setting: 0) |
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4 Connector for shield switch for 10BASE-T
4 |
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ON |
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S |
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3Connector for 10BASE-T |
H |
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I |
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E |
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L |
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D |
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OFF |
(Factory setting: ON)
6Reset switch
(Front)
1 |
2 |
34 |
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90 |
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5 |
8 |
7 |
6 |
(Rear)
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Name |
Function |
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Display panel |
Displays the JW-20FLT operating status using LEDs. |
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LN |
Lights when communicating normally. |
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TX |
Blink at transmitting data. |
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RX |
Blink at receiving data. |
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1 |
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12 V |
Cannot be used with the JW-20FLT. |
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T |
Lights at test mode. (Normally, this is not used.) |
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PE |
Lights at parameter setting error. |
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HE |
Lights at this module error. |
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S0 to S7 |
Displays the station number when operating normally. Displays an error |
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code if an error occurs. |
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2 Connector for programmer |
Connect a JW-14PG programmer or similar equipment to set the |
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parameters on the JW-20FLT. |
3Connector for 10BASE-T Connect the 10BASE-T twisted pair.
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Connector for |
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ON |
The shield on the twisted pair cable will be shorted to the FG (base) of |
4 |
Shield switch |
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this module. |
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for 10BASE-T |
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OFF |
The shield on the twisted pair cable is not shorted to the base. |
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5 |
Module No. switch |
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Specify a module number from 0 to 6. |
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- Be careful do not use the same number for another option module. |
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6 |
Reset switch |
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Only used by SHARP engineers. Users should not press this switch. |
4-2
Chapter 4: Name and Function of Each Part
4-3 Z-336J
9Switch SWA |
0Switch SW1 |
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O F F |
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O F F |
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Factory setting |
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Factory setting |
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: ON |
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: ON |
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1 |
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1 |
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SWA |
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SW1 |
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O F F |
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7 |
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6 |
9 |
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ON |
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LN |
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0 |
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1 |
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4 |
1 |
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SWA |
SW1 |
TX |
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RX |
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2 |
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12V |
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T |
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S7 |
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S6 |
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S5 |
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S4 |
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S2 |
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S3 |
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S1 |
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S0 |
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1Display panel |
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LN |
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TX |
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RX |
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12V |
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T |
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S7 |
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S6 |
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S5 |
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SW6 |
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S4 |
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S3 |
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ON |
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S2 |
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S1 |
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S0 |
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8Reset switch
7Module No. switch SW4
(Factory setting: 0)
2Connector for programmer
3Connector for 10BASE-T
4
4Connector for 10BASE5
5Switch SW6
612 VDC power supply input terminal
SW6 FG0V12V
(Factory setting: ON)
ON
|
Name |
Function |
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Display panel |
Displays this board operating status using LEDs. |
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LN |
Lights when communicating normally. |
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TX |
Blink at transmitting data. |
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RX |
Blink at receiving data. |
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1 |
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12 V |
Lights when 12 VDC is supplied. (Only when 10BASE5 is used.) |
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T |
Lights at test mode. (Normally, this is not used.) |
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PE |
Lights at parameter setting error. |
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HE |
Lights at this board error. |
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S0 to S7 |
Displays the station number when operating normally. Displays an error |
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code if an error occurs. |
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2 Connector for programmer |
Connect a JW-14PG programmer or similar equipment to set the |
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parameters on this board. |
3Connector for 10BASE-T Connect the 10BASE-T coaxial cable.
4 |
Connector for 10BASE5 |
Connect the 10BASE5 coaxial cable. |
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Make sure to slide the lock securely to the "lock" position. |
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The shield on the cable between a 10BASE-T connector and a |
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ON |
10BASE5 connector and the FG (base) on this module will be shorted |
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5 |
Switch SW6 |
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together. |
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The shield on the cable between a 10BASE-T connector and a |
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OFF |
10BASE5 connector is not shorted to the base. |
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- Ground the FG line on the 12 VDC connector separately. |
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12 VDC power supply |
When 10BASE5 is used, connect a commercially available DC power |
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6 |
supply that is designed to supply power to transceivers. The DC power |
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input terminal |
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supply must provide 12VDC ±5% and 0.5 A or more. |
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7 |
Module No. switch |
Specify a module number from 0 to 6. |
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- Be careful do not use the same number for another option board. |
||||
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8 |
Reset switch |
Only used by SHARP engineers. Users should not press this switch. |
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Number of communication |
Specify the number of communication boards actually installed |
||
9 |
boards |
(including the Z-336J). |
||
|
Switch SWA |
- See pages 5-3 to 5-7. |
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0 |
Switch SW1 |
No need to set this switch for the Z-336J. (Always set to OFF (default).) |
4-3
Chapter 4: Name and Function of Each Part
4-4 JW-50FL
4 |
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JW-50FL |
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1 LED indicator |
LNK |
S0 |
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TX |
S1 |
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RX |
S2 |
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DC12V |
S3 |
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S4 |
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TEST |
S5 |
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PER |
S6 |
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HER |
S7 |
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2 Connector for |
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9 |
3 |
6 |
programmer |
P |
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O |
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1 |
2 |
4 |
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R |
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0 |
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5 |
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8 |
7 |
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G |
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8 Switch SW3 |
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SW3 |
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R |
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M |
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A |
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M |
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(Factory setting: 0) |
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E |
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R |
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3 Connector for |
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7 Switch SW3 |
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10BASE5 |
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10B5 |
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(Factory setting: ON) |
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4 Connector for |
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10BASE-T |
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5 12 VDC power |
10B-T |
|
OFF ON |
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supply input terminal |
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SW2 |
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12VIN |
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( ) |
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( ) |
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6 Reset switch |
FG |
|
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|
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RESET |
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Name |
|
|
|
Function |
|
|
|
Display panel |
Displays the JW-50FL operating status using LEDs. |
||
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|
|
|
|
LNK |
Lights at operating. Lights OFF at stopping. |
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TX |
Blink at transmitting data. |
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RX |
Blink at receiving data. |
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1 |
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12 VDC |
Lights when 12 VDC is supplied. (Only when 10BASE5 is used.) |
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TEST |
Lights at test mode. |
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PER |
Lights at parameter setting error. |
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HER |
Lights at this module error. |
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S0 to S7 Indicates status of connection status monitor flag. |
||
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2 |
Connector for programmer |
When using a remote monitor or remote programming function, connect |
||
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|
|
a JW-14PG programmer. |
|
3 |
Connector for 10BASE5 |
Connect the 10BASE5 transceiver cable. |
||
Make sure to slide the lock securely to the "lock" position. |
||||
|
|
|
4Connector for 10BASE-T Connect 10BASE-T twisted-pair cable.
|
12 VDC power supply |
When 10BASE5 is used, connect a commercially available DC power |
||
5 |
supply that is designed to supply power to transceivers. The DC power |
|||
input terminal |
||||
|
supply must provide 12VDC 5% and 0.5 A or more. |
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||
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6 |
Reset switch |
Only used by SHARP engineers. Users should not press this switch. |
||
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ON |
Turn ON when the shields on the 10BASE-T connectors or 10BASE5 |
|
|
|
connectors are connected to the FG (base) of the JW-50FL. |
||
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||
|
Switch SW2 |
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7 |
|
Turn OFF when the shields on the 10BASE-T connectors or 10BASE5 |
||
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OFF |
connectors are not connected to the FG. |
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- Ground the FG line on the 12 VDC connector separately. |
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8 |
Switch SW3 |
Specify a parameter address (in system memory) from 0 to 4. |
||
- See page 12-4. |
||||
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|
|
Note: Only 10BASE5 or 10BASE-T protocol is used. Mixed use of these two types is not permitted.
4-4
Chapter 5: Installation
This section describes the installation procedures for the JW-20FL5/20FLT (hereafter referred to as the module) on the JW20H/30H basic rack panel.
Turn off the power to the JW20H/30H.
Set the module No. switch on the back of the module.
(Back of the communication module)
5 |
Module No. switch
Insert the mounting rib on the module into the rib insert holes on the JW20H/30H basic rack panel and push in. Then, tighten module-mounting screws at the top of the module using a Phillips-head
(+) screwdriver.
Intermediate plate |
|
(Installation example) |
Ventilation hole |
or control panel |
|
|
Module mounting screw |
Basic rack panel |
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Module insert guide |
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Basic rack panel |
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Power supply module |
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Module rib Phillips-head |
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insert hole |
screwdriver |
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Module rib |
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This module |
|
The module |
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||
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Control module (The figure shows a JW-20FL5.) |
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JW-21CU/22CU, JW-31CUH1/32CUH1 |
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|
JW-33CUH1/33CUH2/33CUH3 |
Notes
-The module cannot be installed into an expansion rack panel.
-More than two communication modules can be installed on the same control module (basic rack panel for the JW20H/30H). However, be careful not to use the same module No. switch setting for any other module (including JW-20FL5/20FLT).
-Make sure to tighten the module mounting screws securely. Loose screws may cause a malfunction.
5-1
Chapter 5: Installation
Board dimensions and assembled dimensions of the Z-336J are shown below.
Board dimensions
5 |
5 100
5 |
[Unit: mm] |
Boss hole: 4-φ4
170 |
180 |
The dimensions on the left do not include metal fittings. |
5 110
Assembled dimensions
|
[Unit: mm] |
25.0 |
* CPU board (when Z-311J/312J is mounted) |
|
|
21.6 |
|
D2 |
When installing the Z-336J under the CPU board. |
D |
|
D2 |
|
D2 |
|
15.0 |
|
|
In the case metal fixing A is used. |
*The CPU board can only be installed at the upper most position.
-For details about assembly/installation dimensions, see the manuals below.
J-board Z-311J/312J User's Manual: Hardware Version. J-board Z-313J User's Manual: Hardware Version. J-board Z-511J User's Manual: Hardware Version.
Dimensions D and D2 correspond to D and D2 "board sizes" of the manuals above.
- Make sure to ensure there is conductivity between the installation metal and installation section.
5-2
Chapter 5: Installation
This paragraph describes the maximum number of Z-336J boards to install on the J-board and allocation of I/O relays.
Allocation of I/O relays |
|
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When mounted on the Z-311J/312J |
See the next page. |
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When mounted on the Z-313J |
See page 5-5. |
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When mounted on the Z-511J |
See page 5-6. |
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The Z-336J is a kind of communication board of the J-board. Maximum number of boards mounted on the J-board shall be the total number of communication boards mounted.
J-board |
CPU board |
Total number of boards able to be mounted including |
|
Z-336J and other communication boards |
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|
Z-311J |
Maximum 2 |
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- When the total current flow at 5 V of each mounted |
||
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||
Z-300 series |
Z-312J |
board exceeds 800 mA, the number of boards shall be |
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|
limited. |
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Z-313J * |
Maximum 1 |
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Z-500 series |
Z-511J * |
Maximum 2 |
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Types of communication boards
Module name |
Specifications |
Z-331J * |
Data link or computer link, satellite I/O link master station |
|
|
Z-332J |
Data link or computer link |
|
|
Z-333J |
Satellite I/O link master station |
|
|
Z-334J * |
ME-NET board (with branch line extension function) |
|
|
Z-335J |
Satellite net board |
|
|
Z-336J |
FL-net board |
|
|
Z-337J |
DeviceNet board |
|
|
* Manufactured on request.
5 |
5-3
Chapter 5: Installation
This section describes I/O relay addresses allocated to the Z-336J.
(1)When mounted on Z-311J/312J
The total number of Z-336J boards able to be mounted including other communication boards is two at maximum. Below the switch settings of the Z-336J and allocation of I/O relay are shown.
When using one communication board (Z-336J)
Set switch SWA for number of communication boards on the Z-336J as follows.
5 |
Setting of |
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|||
switch SWA |
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||||
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ON |
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ON |
|
|||
on the Z-336J |
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||||
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I/O relay address |
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Address to set |
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336J |
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(optional)* |
0000 |
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R = 0, S = 0 |
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Z-336J |
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|||
- |
|
0001 |
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Z |
Dummy |
0002 |
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of |
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R = 0, S = 1 |
||||
(vacant) |
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0003 |
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||||||
Allocation relayI/O |
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Dummy |
0006 |
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Dummy |
0004 |
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R = 0, S = 2 |
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(vacant) |
0005 |
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(vacant) |
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R = 0, S = 3 |
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0007 |
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When using two communication boards
*Though it is allocated as optional, it will be a dummy area not functionally used.
Depending on at which position the Z-336J is used, the allocation of I/O relay varies.
Setting of switch SWA on the Z-336J
336J-Z |
Z-336J |
|
|
(optional)* |
|
of |
Dummy |
|
(vacant) |
||
Allocation relayI/O |
||
Dummy |
||
|
(vacant) |
|
|
Dummy |
|
|
(vacant) |
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|
Use Z-336J as first unit |
Use Z-336J as 2nd unit |
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ON |
ON |
|
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OFF |
ON |
|
|||
I/O relay address |
|
Address to set |
I/O relay address |
|
Address to set |
|||||
|
|
|||||||||
0000 |
|
|
R = 0, S = 0 |
0010 |
|
|
R = 0, S = 4 |
|||
0001 |
|
|
0011 |
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|||||
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|||||
0002 |
|
|
R = 0, S = 1 |
0012 |
|
|
R = 0, S = 5 |
|||
0003 |
|
|
0013 |
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|
|||||
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|||||
0004 |
|
|
R = 0, S = 2 |
0014 |
|
|
R = 0, S = 6 |
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0005 |
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0015 |
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0006 |
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R = 0, S = 3 |
0016 |
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R = 0, S = 7 |
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0007 |
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0017 |
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Examples of allocation
Below the switch setting and I/O allocation when using two Z-336J is shown.
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Mounted |
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SW1 |
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SWA |
I/O relay |
Address to set |
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position |
(RACKNO) |
(SW2) |
address |
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Z-336J |
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SW2 |
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0020, 0021 |
R=1, S=0 |
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Z-336J |
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0022, 0023 |
R=1, S=1 |
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1 |
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1 2 3 |
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1 2 |
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4 |
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Z-322J |
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0024, 0025 |
R=1, S=2 |
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0026, 0027 |
R=1, S=3 |
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3 |
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Z-322J |
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SW2 |
0030, 0031 |
R=2, S=0 |
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Z-311J |
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2 |
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0032, 0033 |
R=2, S=1 |
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/312J |
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2 |
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1 2 |
3 |
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1 |
2 |
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1 |
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0034, 0035 |
R=2, S=2 |
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0036, 0037 |
R=2, S=3 |
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SWA |
0000, 0001 |
R=0, S=0 |
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0002, 0003 |
R=0, S=1 |
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3 |
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1 2 3 |
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1 2 |
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0004, 0005 |
R=0, S=2 |
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0006, 0007 |
R=0, S=3 |
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SWA |
0010, 0011 |
R=0, S=4 |
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ON |
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0012, 0013 |
R=0, S=5 |
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4 |
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1 2 3 |
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1 2 |
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OFF |
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0014, 0015 |
R=0, S=6 |
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0016, 0017 |
R=0, S=7 |
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5-4
Chapter 5: Installation
(2)When mounted on Z-313J
The number of boards available mounted on the Z-336J including other communication boards is one at maximum.
Below shows the switch setting of the Z-313J and Z-336J as well as I/O relay allocation of the Z- 336J.
Switch setting
The set switch SWA on the Z-313J and the number of communication boards setting switch SWA of the Z-336J are as shown below.
- Z-313J |
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- Z-336J |
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Switch SWA |
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Switch SWA |
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1 |
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2 |
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1 |
2 |
ON |
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ON |
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OFF |
ON |
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Allocation of I/O relay
I/O relay address of the Z-336J shall be allocated as shown below.
Allocation |
I/O relay address |
Address to set |
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details |
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Z-336J |
0010 |
R = 0, S = 4 |
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(optional)* |
0011 |
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Dummy |
0012 |
R = 0, S = 5 |
* Though it is allocated as optional, |
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(vacant) |
0013 |
it will be a dummy area not |
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functionally used. |
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Dummy |
0014 |
R = 0, S = 6 |
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(vacant) |
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0015 |
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Dummy |
0016 |
R = 0, S = 7 |
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(vacant) |
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0017 |
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Allocation examples
Below shows switch setting and I/O relay allocation when using one Z-336J.
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Mounted |
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SW1 |
SWA |
I/O relay |
Address to set |
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Z-336J |
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position RACKNO. SW2 address |
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Z-325J |
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SWA |
0000, 0001 |
R=0, S=0 |
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0002, 0003 |
R=0, S=1 |
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4 |
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Z-325J |
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NO |
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1 |
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1 2 |
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0004, 0005 |
R=0, S=2 |
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Z-313J |
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3 |
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0006, 0007 |
R=0, S=3 |
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2 |
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SW2 |
0020, 0021 |
R=1, S=0 |
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1 |
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0022, 0023 |
R=1, S=0 |
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1 |
2 3 |
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1 |
2 |
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2 |
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0024, 0025 |
R=1, S=1 |
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0026, 0027 |
R=1, S=2 |
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0030, 0031 |
R=1, S=3 |
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SW2 |
0032, 0033 |
R=2, S=0 |
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3 |
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0034, 0035 |
R=2, S=0 |
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1 2 |
3 |
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1 |
2 |
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0036, 0037 |
R=2, S=1 |
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0040, 0041 |
R=2, S=2 |
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0042, 0043 |
R=2, S=3 |
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ON |
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SWA |
0010, 0011 |
R=0, S=4 |
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OFF |
4 |
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0012, 0013 |
R=0, S=5 |
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1 2 3 |
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1 2 |
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0014, 0015 |
R=0, S=6 |
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0016, 0017 |
R=0, S=7 |
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5 |
5-5
Chapter 5: Installation
5 |
(3)When mounted on Z-511J
The number of boards available mounted on the Z-336J including other communication boards is two at maximum.
Below shows the switch setting of the Z-511J and Z-336J as well as I/O relay allocation of the Z- 336J.
When using one communication board (Z-336J)
Switch setting
The set switches SW1 and SWA on the Z-511J and the number of communication boards setting switch SWA on the Z-336J are as follows.
- Z-511J |
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- Z-336J |
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Switch SW1 |
Switch SWA |
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Switch SWA |
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1 |
2 3 |
1 |
2 |
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1 |
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2 |
OFF |
OFF OFF |
ON |
ON |
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OFF |
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ON |
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Allocation of I/O relay
I/O relay address of the Z-336J shall be allocated as shown below.
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Allocation |
I/O relay address |
Address to set |
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details |
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Z-336J |
0010 |
R = 0, S = 4 |
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(optional)* |
0011 |
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Dummy |
0012 |
R = 0, S = 5 |
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(vacant) |
0013 |
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Dummy |
0014 |
R = 0, S = 6 |
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(vacant) |
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0015 |
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Dummy |
0016 |
R = 0, S = 7 |
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(vacant) |
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0017 |
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Allocation examples |
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*Though it is allocated as optional, it will be a dummy area not functionally used.
Below shows switch setting and I/O relay allocation when using one Z-336J.
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Mounted |
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SW1 |
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SWA |
I/O relay |
Address to set |
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position |
(RACKNO) |
(SW2) |
address |
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Z-336J |
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SWA |
0000, 0001 |
R=0, S=0 |
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Z-322J |
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0002, 0003 |
R=0, S=1 |
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1 |
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1 2 3 |
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1 2 |
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4 |
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Z-322J |
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0004, 0005 |
R=0, S=2 |
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0006, 0007 |
R=0, S=3 |
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3 |
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Z-511J |
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SW2 |
0020, 0021 |
R=1, S=0 |
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2 |
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1 2 3 |
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0022, 0023 |
R=1, S=1 |
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2 |
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1 2 |
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1 |
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0024, 0025 |
R=1, S=2 |
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0026, 0027 |
R=1, S=3 |
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SW2 |
0030, 0031 |
R=2, S=0 |
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0032, 0033 |
R=2, S=1 |
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3 |
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1 2 3 |
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1 2 |
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0034, 0035 |
R=2, S=2 |
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0036, 0037 |
R=2, S=3 |
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SW2 |
0010, 0011 |
R=0, S=4 |
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ON |
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0012, 0013 |
R=0, S=5 |
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4 |
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1 2 3 |
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1 2 |
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OFF |
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0014, 0015 |
R=0, S=6 |
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0016, 0017 |
R=0, S=7 |
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5-6
Chapter 5: Installation
When using two communication boards (Z-336J)
Switch setting
The set switches SW1 and SWA on the Z-551J and the number of communication boards setting switch SWA on the Z-336J are as follows.
- Z-511J
Switch SW1 |
Switch SWA |
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1 |
2 3 |
1 |
2 |
OFF |
OFF OFF |
ON |
ON |
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- Z-336J
Use Z-336J |
Use Z-336J |
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as 1st unit |
as 2nd unit |
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Switch SWA |
Switch SWA |
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1 |
2 |
1 |
2 |
ON |
ON |
OFF |
ON |
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Allocation of I/O relay |
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I/O relay address of the Z-336J shall be allocated as shown below. |
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Allocation |
Use Z-336J as 1st unit |
Use Z-336J as 2nd unit |
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details |
I/O relay address |
Address to set |
I/O relay address |
Address to set |
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Z-336J |
0000 |
R = 0, S = 0 |
0010 |
R = 0, S = 4 |
5 |
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(optional)* |
0001 |
0011 |
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Dummy |
0002 |
R = 0, S = 1 |
0012 |
R = 0, S = 5 |
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(vacant) |
0003 |
0013 |
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Dummy |
0004 |
R = 0, S = 2 |
0014 |
R = 0, S = 6 |
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(vacant) |
0005 |
0015 |
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Dummy |
0006 |
R = 0, S = 3 |
0016 |
R = 0, S = 7 |
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(vacant) |
0007 |
0017 |
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* Though it is allocated as optional, it will be a dummy area not functionally used.
Allocation examples
Below shows switch setting and I/O relay allocation when using two Z-336Js.
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Mounted |
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SW1 |
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SWA |
I/O relay |
Address to set |
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position |
(RACKNO) |
(SW2) |
address |
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Z-336J |
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SWA |
0020, 0021 |
R=1, S=0 |
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Z-336J |
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1 2 3 |
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0022, 0023 |
R=1, S=1 |
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1 |
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1 2 |
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4 |
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Z-322J |
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0024, 0025 |
R=1, S=2 |
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0026, 0027 |
R=1, S=3 |
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3 |
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Z-511J |
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SWA |
0030, 0031 |
R=2, S=0 |
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2 |
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1 2 3 |
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0032, 0033 |
R=2, S=1 |
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2 |
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1 2 |
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1 |
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0034, 0035 |
R=2, S=2 |
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0036, 0037 |
R=2, S=3 |
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SWA |
0000, 0001 |
R=0, S=0 |
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0002, 0003 |
R=0, S=1 |
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3 |
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1 2 3 |
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1 2 |
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0004, 0005 |
R=0, S=2 |
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0006, 0007 |
R=0, S=3 |
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SWA |
0010, 0011 |
R=0, S=4 |
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ON |
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0012, 0013 |
R=0, S=5 |
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4 |
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1 2 3 |
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1 2 |
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OFF |
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0014, 0015 |
R=0, S=6 |
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0016, 0017 |
R=0, S=7 |
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5-7
Chapter 5: Installation
5-3 JW-50FL
(1)Installation of cable for option module
Install the optional cable on the basic rack panel that installed JW-50FL.
Cable type for option module
Cable for option module |
Maximum number of JW-50FL |
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that can be installed |
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ZW-2CC |
2 |
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ZW-4CC |
4 |
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ZW-6CC |
5 |
Note * |
5 |
*If the ZW-6CC is used, a maximum of 6 optional modules can be installed. However, a limit of 5 optional modules can be used with JW-50FL, due to a parameter (address area) setting limitation.
Rack panel type
Model name of the rack |
Cable for option module |
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( : Can be installed |
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panel on which optional |
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: Cannot be installed) |
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cable is installed |
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ZW-2CC ZW-4CC ZW-6CC |
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JW-4BU |
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JW-6BU |
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JW-8BU |
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JW-13BU |
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(2)Installation of JW-50FL
Attach the rack panel using the two attachment screws.
Before installation or removal, make sure to shut OFF the power supply to the PC.
Install on rack panel JW-4BU
Module |
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Rack panel |
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Appearance when ZW-2CC optional cable is installed
Phillips screwdriver
-This module can be installed in any one of the optional slots.
Be careful not to bend the connector pins on the module by applying too much force to them.
5-8
Chapter 6: Connection/Wiring
Workers who will install or hook up an Ethernet cable must have special training and knowledge, such as the safety procedures and standards required by this technology (JIS X5252).
We recommend that you contact a specialist for perform any installation or hook up. (Sharp Document Systems Co., Ltd. is providing the Ethernet installation work service, and supplying network products from Allied System Co., Ltd.)
[1]Equipment layout
-The minimum distance between nodes is specified in the regulations. (2.5 m when the 10BASE5 is used.) When connecting devices, be sure to maintain these minimum distances.
Cables used for 10BASE5 systems have marks every 2.5 m. Position each transceiver directly on one of these marks.
-Mount the transceivers on electrically insulated objects, such as a wooden mounting block.
-Separate (60 cm or more) the data transmission cables from power cables.
-Do not run cables near any noise generating source.
-Both ends of the coaxial cable must be terminated with a termination resistance. Make sure to install termination resistance on each end.
6 |
6-1
Chapter 6: Connection/Wiring
This paragraph describes how to connect 10BASE5 cable to the JW-20FL5.
1 Slide the lock on the 10BASE5 connector (on the JW-20FL5) up.
6 |
Slide lock |
JW-20FL5 |
RESET
2Insert the connector so that the two locking posts on the cable connector match the holes on the slide lock.
Locking post
RESET
Locking post
Transceiver cable
3 Slide the lock down to lock the cable connector.
RESET
6-2
Chapter 6: Connection/Wiring
(2)Wiring the power source
When a 10BASE5 is used, 12 VDC power should be supplied to the transceiver.
Supply power to the 12 VDC power supply input terminal using a commercial constant voltage power supply unit.
Item |
Specifications |
JW-20FL5 |
Supply voltage |
12 VDC –5% |
LN TX RX 12V T PE HE |
Current capacity |
0.5 A minimum. |
S7 S6 S5 S4 S3 S2 S1 S0 |
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12 VDC power supply input terminal |
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Black wire (-) |
ON |
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* Fuse (0.6 A) |
S |
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H |
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I |
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E |
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L |
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D |
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Red wire (+) |
OFF |
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Twisted pair wires |
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12 VDC |
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FG |
RESET
* Use a fuse melt with time lag |
Case |
Green wire |
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(ground) |
Cable
(Accessory: Connector, cable length 1.5 m)
6 |
Remarks
-Use a power supply that is dedicated for use by the JW-20FL5.
-Do not reverse the positive and negative connections to the power terminals. Reversing the polarity may damage the JW-20FL5.
6-3
Chapter 6: Connection/Wiring
Connect a 10BASE-T twisted pair cable to the 10BASE-T connector on the JW-20FLT.
10BASE-T twisted pair cable
10BASE-T connector
6 |
6-4
Chapter 6: Connection/Wiring
[3]Connection of Z-336J
(1)When connecting to a 10BASE5
This paragraph describes how to connect 10BASE5 cable to the Z-336J.
Connecting the transceiver cable
O F F |
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2 |
1 |
ON |
LN |
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SW1SWA |
TX |
Slide lock |
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RX |
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12V |
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T |
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10BASE5 connector |
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S7 |
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PE |
1 |
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S5 |
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HE |
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S6 |
↑↓ |
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S2 |
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S4 |
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S3 |
3 |
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S1 |
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S0 |
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Z-336J |
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Cable connector |
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2 |
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SW6 |
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ON |
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Transceiver cable |
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Locking post |
6 |
1 Slide the lock on the 10BASE5 connector (on the Z-336J) up.
2Insert the connector so that the two locking posts on the cable connector match the holes on the slide lock.
3 Slide the lock down to lock the cable connector.
6-5