GE Network Router Series 90 70 User Manual

GEFanuc Automation  
Programmable Control Products  
Series 90 -70  
I/O Link  
Interface Module  
GFK–0644A  
February 1993  
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Preface  
Content of this Manual  
This book is a reference to the features, operation, installation, and configuration of the  
GE Fanuc Series 90 -70 I/ O Link Interface Module (IC697BEM721).  
Chapter 1. Introduction: Describes the functions and features of the Series 90-70 I/ O  
Link Interface Module.  
Chapter 2. Installation: Includes basic setup procedures.  
Chapter 3. Series 90-70 PLC Configuration: Shows how to add an I/ O Link Interface  
Module to the Series 90-70 PLC system.  
Chapter 4. Series 90-70 PLC Programming: Explains how to configure, monitor, and  
control the I/ O Link Interface Module.  
Related Publications  
Logicmaster 90-70 Users’s Manual (GFK–0263). Reference manual for system operators  
and others using the Logicmaster 90-70 software to program, configure, monitor, or  
control a Series 90-70 PLC and/ or a remote drop.  
Power Mate Connection, Programming, Maintenance Manual (GFZ–61613). Reference  
manual to setting up, programming, operating, and maintaining a Power Mate system.  
Series Zero Connection Manuals. For 0 and 00-TC, TF, TTC, MC, MF, GCC, GSC, and PC  
controls, the connection manual is GFK–61393. For 0-L and 00-L controls, the connection  
manual is GFZ-61573.  
Series Zero Operator Manuals. For 0 and 00-TC, TF, TTC, and GCC controls, the operator  
manual is GFZ-61394. For 0 and 00-MC, MF, and GSC controls, the operator manual is  
GFZ-61404. For 0-PC and 00-PC controls, the operator manual is GFZ-61594. For 0-L and  
00-L controls, the operator manual is GFZ-61574.  
Series 15 Connection Manual (GFZ-61213E).  
Series 15 Operator/Programming Manual (GFZ-61213E).  
Series 16 Connection Manual (GFZ-61874E).  
Series 16 Operator Manuals. For the 16-MA control, the operator manual is GFZ-61874. For  
16-TA and 16-TTA controls, the operator manual is GFZ-61804.  
Series 16 Maintenance Manual (GFZ-61805).  
We Welcome Your Comments and Suggestions  
At GE Fanuc automation, we strive to produce quality technical documentation. After  
you have used this manual, please take a few moments to complete and return the  
Reader s Comment Card located on the next page.  
Jeanne Grimsby  
senior technical writer  
iii  
GFK–0644A  
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Contents  
Chapter 1  
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1
System Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Application Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Module Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Module Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Cable Types for the I/ O Link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Optical Adapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Operation of the I/ O Link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Getting Started . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1
3
4
5
6
8
9
14  
Chapter 2  
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
15  
Installing the I/ O Link Interface Module in the Rack . . . . . . . . . . . . . . . . . . .  
Removing the I/ O Link Interface Module from the Rack . . . . . . . . . . . . . . .  
Connecting the I/ O Link Interface Module to Other Devices . . . . . . . . . . . .  
Serial Port Pin Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Optical Adapter Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
15  
16  
17  
18  
20  
Chapter 3  
Chapter 4  
Logicmaster 90-70Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
21  
ProgrammingGuide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
23  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Selecting a Program Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Adding the Program Block Logic to an Application Program . . . . . . . . . . . .  
Calling the Program Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Program (%P) References for the I/ O Link Program Blocks . . . . . . . . . . . . .  
Global (%G) References for the I/ O Link Program Blocks . . . . . . . . . . . . . . .  
ConfiguringI/ OLinks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Controlling the I/ O Link Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Monitoring Link Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
23  
24  
24  
25  
26  
27  
28  
30  
32  
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GFK–0644A  
Series 90 -70 I/O Link Interface Module Users Manual - February 1993  
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restart lowapp ARestart oddapp: ARestarts for autonumbers that do not restart in  
each chapter. figure bi level 1, reset table_big level 1, reset chap_big level 1, reset1  
Lowapp Alwbox restart evenap:A1app_big level 1, resetA figure_ap level 1, reset  
table_ap level 1, reset figure level 1, reset Figure 1. table level 1, reset Table 1.  
these restarts oddbox reset: 1evenbox reset: 1must be in the header frame of  
chapter 1. a:ebx, l 1 resetA a:obx:l 1, resetA a:bigbx level 1 resetA a:ftr level 1 resetA  
c:ebx, l 1 reset1 c:obx:l 1, reset1 c:bigbx level 1 reset1 c:ftr level 1 reset1  
Reminders for autonumbers that need to be restarted manually (first instance will  
always be 4) let_in level 1: A. B. C. letter level 1:A.B.C. num level 1: 1. 2. 3.  
num_in level 1: 1. 2. 3. rom_in level 1: I. II. III. roman level 1: I. II. III. steps level 1:  
1. 2. 3.  
Chapter 1 Introduction  
section level 1 1  
figure bi level 1  
table_big level 1  
1
System Overview  
The Series 90–70 I/ O Link Interface Module (IC697BEM721) is used to interface a Series  
90–70 PLC to GE Fanuc and Fanuc products which may also be placed on the  
proprietary Fanuc I/ O Link. The Fanuc I/ O Link is a serial interface that provides  
high–speed exchange of I/ O data between a master device and up to 16 slaves.  
SERIES 90–70 PLC  
POWER MATE POWER MATE  
SLAVE 0 SLAVE 1  
a44979  
MASTER  
WORKMASTER II  
PROGRAMMER  
FANUC  
I/O LINK  
(LINK #1)  
POWER MATE POWER MATE POWER MATE  
SLAVE 0 SLAVE 1 SLAVE 2  
MASTER  
FANUC  
I/O LINK  
(LINK #2)  
Up to four I/ O Link Interface Modules can be installed in a Series 90–70 PLC. They can  
be located in the CPU rack and in expansion racks. Each I/ O Link Interface Module can  
be used in either master or slave mode.  
Two I/ O Link Interface Modules are shown in the example system illustrated  
above––one in the CPU rack and the other in an expansion rack. Each module is set up  
as a master with its own I/ O Link. In this example, both of the I/ O Link Interface  
Modules exchange data with Power Mate CNCs. Usually, when there are multiple I/ O  
Link Modules in the same PLC, they are on separate I/ O Links as shown here. However,  
it is possible to have more than one I/ O Link Interface Module in the Series 90–70  
connected to the same link, if that suits the needs of the application.  
1
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1
Master or Slave Operation  
When used as a master, an I/ O Link Interface Module can receive up to 1024 discrete  
inputs from devices on the I/ O Link, and send up to 1024 discrete outputs. Potential  
slave devices include the Series 90–30 PLC and the Power Mate CNC.  
When used as a slave, the Series 90–70 I/ O Link Interface Module can receive up to 64  
discrete inputs from the master, and send up to 64 discrete outputs. The master may be  
another Series 90–70 PLC, a Series 15, Series 16, or Series 18 CNC, a Series 0 Model C  
CNC, or an F–D Mate CNC. The Series 90–70 PLC and Series 0 CNC can be used as  
either master or slave.  
In the example system shown below, the Series 90–70 PLC shown at the top functions  
as an area controller for three machine cells. The area controller has two I/ O Link  
Interface Modules, each of which operates as an I/ O Link master.  
AREA CONTROLLER  
a45002  
SERIES 90–70 PLC  
SERIES 0 CNC  
I/O LINK  
CELL #3  
SERIES 90–70 PLC  
I/O LINK  
POWER MATE POWER MATE  
I/O LINK  
I/O LINK  
POWER MATE POWER MATE  
SERIES 0 CNC  
SERIES 90–30 PLC  
SERIES 90–30 PLC  
SERIES 90–30 PLC  
CELL #1  
CELL #2  
In this system, the left I/ O Link from the area controller goes to cell 1, where a Series 0  
CNC, two single–axis Power Mate CNCs, and a Series 90–30 PLC are the slaves. They  
control the operations of a large machine and its auxiliary equipment. The right I/ O Link  
from the area controller goes to another Series 90–70 PLC. That PLC serves as a slave  
on the link to the area controller, and as a master on two other links to smaller machine  
cells. In cell 2, a Series 0 CNC and a Series 90–30 PLC are the slaves. In machine cell 3,  
the slaves are a Series 90–30 PLC and two Power Mate CNCs.  
GFK-0644A  
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Series 90 -70 I/O Link Interface Module Users Manual – February 1993  
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1
Application Software  
The Series 90–70 I/ O Link Interface Module is provided with two application software  
diskettes (catalog number IC641SWP708), a 3-inch and a 5-inch diskette. The content  
of these diskettes is the same.  
This application software can be used to integrate up to four I/ O Link Interface Modules  
into the PLCs application program. There are three Program Blocks on a diskette. Each  
will transfer I/ O data between the module and the PLC, perform diagnostics functions,  
and transfer application program commands to the module.  
One Program Block is selected as being most appropriate for the application, and added  
to the application program. Additional application program logic can be created to  
perform the following functions:  
1. To specify the number of I/ O Link Interface Modules present in the PLC.  
2. To specify, for each I/ O Link Interface Module:  
A. A rack and slot location in the Series 90–70 PLC.  
B. Master or slave operation.  
3. And, for each I/ O Link Interface Module that will be a master:  
A. To assign a data length and I/ O addresses for each slave on its link.  
B. To control operation of the link and monitor module and link status.  
Chapter 4 explains how to select the best Program Block for your system, and how to  
incorporate it in an application program.  
GFK–0644A  
Chapter 1 Introduction  
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1
Module Description  
An I/ O Link Interface Module occupies one module slot in a Series 90–70 PLC rack. It  
can be installed in any rack, in any slot except rack 0 slot 1, which is reserved for the CPU  
Module.  
a45015  
MODULE OK  
LINK ACTIVE  
LINK CFG  
RESET  
PUSHBUTTON  
MODEL 70  
BEM 721  
MODEL 70  
BEM 721  
MODULE OK  
MODULE OK  
LINK ACTIVE  
LINK ACTIVE  
LINK CFG  
LINK CFG  
ON OR BLIN K = OK  
ON OR BLIN K = OK  
PUSH TO RESET  
I/O LINK  
PUSH TO RESET  
I/O LINK  
INTERFACE  
INTERFACE  
MODULE FUNCTION  
MODULE FUNCTION  
SERIES 90–70  
SERIAL I/O LINK  
INTERFACE  
SERIES 90–70  
SERIAL I/O LINK  
INTERFACE  
: MASTER MODE  
: MASTER MODE  
: SLAVE MODE  
RS–422/485  
RS–422/485  
SERIAL PORT  
SERIAL PORT  
RS–422/485  
CONNECTOR  
NEXT  
NEXT  
(JD1A)  
(JD1A)  
PREVIOUS  
(JD1A)  
RS–422/485  
RS–422/485  
SERIAL PORT  
SERIAL PORT  
RS–422/485  
CONNECTOR  
NOT  
NOT  
USED  
USED  
NEXT  
(JD1A)  
MODULE  
MODULE  
IC697BEM721  
LABEL  
IC697BEM721  
LABEL  
44A726758–125R01  
44A726758–126R01  
LEDs  
The I/ O Link Interface Module has three LEDS that show its operating, configuration,  
and communications status.  
Module OK:  
Link Active:  
Link Cfg:  
indicates the modules operating status.  
indicates the modules communications status.  
indicates whether I/ O Link configuration has occurred.  
GFK-0644A  
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1
ResetPushbutton  
The Reset pushbutton provides a convenient means of reset if a failure occurs. If the  
module is being used as a master, pushing the Reset button resets both the module and  
operation of the link. The application program must be used to re–initialize the link. If  
the module is being used as a slave and a fault has caused the module to stop operating,  
pushing the Reset button resets the module while the rest of the link continues to  
function.  
Note  
The Reset pushbutton should not be used if the link is operating  
normally. Pressing Reset during normal operation causes the link to  
stop operating. The diagnostic program logic interprets this as an  
external link failure.  
Serial Ports  
The front of the module has two 20–pin, D connector, RS–422/ 485 serial ports. These  
ports are used for connection to the I/ O Link.  
Module Specifications  
Physicaldimensions:  
6.3in x 9.19in (160mm x 233mm).  
Occupies single slot in Series 90–70 rack.  
Moduletype:  
Series 90–70PLC module, providing I/ O Link commu-  
nications with up to 16 slave devices in master mode.  
Current requirementfrom +5–volt bus  
1.0Amp without Optical Adapter.  
0.2Amp per Optical Adapter.  
LEDs:  
ModuleOK,I/ O Link Active,I/ OLinkConfigured  
ResetI/ OLink  
Pushbutton:  
I/O Points:  
In master mode  
In slave mode  
1024inputs,1024outputsmaximum  
64inputs,64outputs maximum  
Environmental:  
Operatingtemperature  
Storagetemperature  
Humidity  
0ºC to +60ºC (32ºF to +140ºF)  
–40ºC to +85ºC (–40ºF to +185ºF)  
5% to 95% (non–condensing)  
3.5mm displacement 5–9Hz  
1 G 10–200Hz  
Vibration and shock  
15G for 11mSduration  
RS–422/485 Serial Ports:  
1.5MHz transmission rate.  
GFK–0644A  
Chapter 1 Introduction  
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1
Cable Types for the I/O Link  
The following cables and connectors can be used to complete the I/ O Link between  
devices.  
Item  
CatalogNumber  
Vendor  
Description  
Cable  
A03B–0807–K801  
GE Fanuc  
5 meter length with connectors on both ends.  
Connects between master and slave device, or  
between two slave devices.  
Cable  
Cable  
A03B–0807–K802  
AMW2076  
GE Fanuc  
10 meter length with connectors on both ends.  
Connects between master and slave device, or  
between two slave devices.  
OKI  
Electric  
Cable  
10–pair shielded cable without connectors, for  
making custom–length cable. Connects  
between master and slave device, or between  
two slavedevices.  
Connector  
Connector  
A02B–0120–K301  
GE Fanuc  
20–pin connector with solder lug. Consists of  
the two following parts.  
PCR–E20FS  
Honda  
20–pin female connector with solder lug.  
Connectorcover.  
PRC–V20L  
Honda  
Cable  
A03B–0807–K803  
GE Fanuc  
1 meter length with connectors on both ends.  
Connects between master or slave and Optical  
Adapter. This cable can only be used with an  
OpticalAdapter;do not useit for master/ slave  
orslave/ slaveconnections.  
Optical  
Adapter  
A138–154–B001  
A66L–6001–009  
GE Fanuc  
GE Fanuc  
Required for opticalfiber cable.  
Cable  
Optical fiber cable for use with Optical  
Adapter.  
#L10R03  
#L15R03  
#L20R03  
#L30R03  
#L40R03  
#L50R03  
#L60R03  
#L80R03  
#L90R03  
#L100R03  
10m  
15m  
20m  
30m  
40m  
50m  
60m  
80m  
90m  
100m  
GFK-0644A  
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1
Cable Lengths on the I/O Link  
The maximum distance between the master and the first slave, and between successive  
slaves, depends on whether electrical or optical cable is used.  
The maximum length of an electrical cable link is 10 meters (33 feet).  
The maximum length of an optical fiber cable is 100 meters (330 feet).  
Electrical and optical cables can be used in the same I/ O Link.  
a45006  
10m  
MASTER  
SLAVE  
0
10m  
1m  
SLAVE  
1
OPTICAL ADAPTER  
OPTICAL FIBER CABLE  
100m  
OPTICAL ADAPTER  
1m  
SLAVE  
2
10m  
SLAVE  
03  
SLAVE  
15  
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Chapter 1 Introduction  
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1
Optical Adapter  
An Optical Adapter (A138–154–B001) can be used to interface the electrical cable of the  
I/ O Link with optical cable.  
a45007  
OPTICAL  
CONNECTOR  
ELECTRICAL  
CONNECTOR  
JD1  
COP1  
Use pairs of adapters in applications where:  
distances of up to 100 meters (330 feet) are required between any two devices on the  
I/ OLink.  
the I/ O Link runs between different cabinets, and it is not possible to connect the  
2
cabinets with a wire of 5.5mm or thicker.  
excessive electromagnetic noise may affect the cable. This includes noise from  
machinery such as a welding machine, and noise–generating cable such as power  
cable that runs for long distances with the I/ O Link cable.  
GFK-0644A  
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1
Operation of the I/O Link  
The I/ O Link consists of a full duplex communications channel. Physically, the link  
consists of two twisted pairs of wire and a signal ground conductor. These wires are  
contained in a cable that has an over–all shield. Signals are of the differential type and a  
wire pair is used for each signal. Signal levels are compatible with specification EIA  
RS–422/ RS–485. The signal baud rate is 1.5 Mbaud maximum.  
Input and Output Data  
The master on an I/ O Link can send 1024 outputs and receive up to 1024 inputs from  
slave devices. A slave can send and receive either 32 or 64 inputs and outputs. For each  
link device, inputs and outputs have the same meaning:  
Input Data is data received from the link.  
Output Data is data sent to the link.  
So the same set of data is considered output data by the device that sends it and input  
data by the device that receives it.  
a45008  
MASTER  
INPUTS  
SLAVE  
INPUTS  
OUTPUTS  
OUTPUTS  
For each Series 90–70 I/ O Link Interface Module used as a master, %I and %Q  
references and data lengths for each slave are assigned within the application Program  
Block, using Logicmaster 90. Instructions for doing this are given in chapter 4. For other  
types of devices on the link, references and data lengths are assigned differently. For  
details on how a specific type of device handles its I/ O Link data, you should refer to the  
Users Manual for that device.  
GFK–0644A  
Chapter 1 Introduction  
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1
Data Sent by the Master  
The master sends output data for all slave devices together. If a Series 90–70 PLC is the  
master on an I/ O Link, it simply places the data to be sent into the %Q output references  
assigned to the I/ O Link Interface Module.  
Slaves receive the data in order of their positions on the link. Each slave in turn reads  
out its configured amount of data, and passes the remainder on to the next slave. To a  
slave, data received from the master is input data. If a Series 90–70 PLC is a slave, it  
obtains the data received from the master by reading the %I input references assigned to  
the I/ O Link Interface Module.  
a45009  
MASTER  
SLAVE  
1
SLAVE  
2
SLAVE  
3
INPUTS  
INPUTS  
INPUTS  
OUTPUTS  
OUTPUTS  
OUTPUTS  
1
2
3
OUTPUTS  
2
3
OUTPUTS  
3
OUTPUTS  
Data Returned by Slaves  
The master continuously reads the output data from each slave. If a Series 90–70 PLC is  
a slave, it provides this data by placing it into the %Q references configured for the I/ O  
Link Interface Module. If a Series 90–70 PLC is the master, it reads the data from the %I  
references assigned to the I/ O Link Interface Module.  
a45004  
MASTER  
SLAVE  
1
SLAVE  
2
SLAVE  
3
INPUTS  
MASTER  
SLAVE  
1
SLAVE  
2
SLAVE  
3
OUTPUTS  
The master identifies each set of data it receives with respect to the slaves position on  
the link. To the master, data received from slaves is input data.  
GFK-0644A  
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1
Inputs and Outputs Hold Last State  
The inputs and outputs of the I/O Link Interface Module will hold their last states if one of  
the following events occurs:  
the link is broken.  
the master resets.  
the slave resets.  
the Series 90-70 PLC is put into STOP mode.  
the Series 90-70 PLC is powered-down.  
When the disruption is corrected, the module initializes all inputs and outputs to zero,  
then quickly resets them to their actual states.  
GFK–0644A  
Chapter 1 Introduction  
11  
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1
Faults on the I/O Link  
A. The Series 90–30 PLC, Series 90–70 PLC, and Power Mate CNC without a separate  
encoder port handle faults as described below. The following information applies  
only if there are no other types of devices on the link.  
If one of the following faults occurs, communications stop at the fault location. If  
there are prior devices on the link, they are still able to transfer data with the master.  
If there are subsequent devices on the link, however, they cannot.  
Power is removed from any device.  
There is a fault in the I/ O Link cable such as an open or shorted wire.  
A module fault, software fault, or hardware fault occurs in the master or slave.  
POWER  
REMOVED  
HERE  
a45010  
MASTER  
SLAVE  
1
SLAVE  
2
SLAVE  
3
DATA  
If the master is a Series 90–70 PLC and one of the following faults occurs,  
communications continue on the rest of the link.  
A slave has been set up for the wrong amount of data.  
A Series 90–30 slave is in Stop mode.  
The sequence of slaves on the link is not the same as the sequence expected by  
the master.  
PLACED  
IN STOP  
MODE  
a45011  
MASTER  
SLAVE  
2
SLAVE  
1
SLAVE  
3
DATA  
B. If the link is connected to any other type of device, including a Power Mate CNC  
that has a separate encoder port, a fault on any device causes the entire link to shut  
down as a safety precaution. If that happens, follow this procedure to restore link  
operation.  
1. Correct the condition that caused the fault.  
2. With the master inactive on the link, clear system errors by power cycling each  
CNC slave (turn power off, then on again).  
3. Cycle power to each Series 90–30 I/ O Link module, to clear the Logicmaster  
fault table.  
4. Reset the I/ O link from the master.  
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1
Diagnostics  
The application Program Block automatically provides the Series 90–70 PLC with  
diagnostic information about the I/ O Link Interface Module, and about link operation if  
the module is operating as a master. The diagnostic information is placed into %P  
references assigned to that I/ O Link Interface Module. Additional program logic can be  
created to read these %P references for monitoring the following:  
Whether an invalid configuration has been provided during link initialization. The  
link will not operate until a valid configuration has been supplied.  
Whether the I/ O Link Module is operating properly.  
Whether input data is being received.  
Whether a link fault has occurred.  
Chapter 4 explains how to add these diagnostics to an application program.  
LinkControl  
In addition, the Program Block automatically reads other %P references in the Series  
90–70 PLC to receive commands from the application program. These %P references  
can be used to instruct the I/ O Link Interface Module to do the following:  
Operate as a master or a slave.  
Disable or enable the input and/ or output update between the master and slave(s).  
Start or restart link operation.  
Reset or stop link operation.  
Use of these program references is also explained in chapter 4.  
GFK–0644A  
Chapter 1 Introduction  
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1
Getting Started  
To install and configure a Series 90–70 I/ O Link Interface Module, follow these basic  
steps:  
1. Install the module and complete the I/O Link  
Follow the instructions in chapter 2 to install the Series 90–70 I/ O Link Module.  
After installing the other devices on the link (as instructed in their individual User s  
Manuals), complete the I/ O Link cabling. This is also described in chapter 2.  
2. Add the I/O Link Module to the Series 90–70 PLC Configuration  
Follow the instructions in chapter 3 to complete the Logicmaster 90 configuration  
screen for an I/ O Link Interface Module.  
3. Select and install an application Program Block from the diskette  
Chapter 4 explains how to choose the most appropriate Program Block from an  
application diskette, and how to add it to a Program Folder.  
4. Complete the program logic for the I/O Link Module  
This is also explained in chapter 4.  
GFK-0644A  
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Chapter 2 Installation  
section level 1 1  
figure bi level 1  
table_big level 1  
2
This chapter tells how to install an I/ O Link Interface Module, and how to complete the  
I/ O Link that joins the module to other devices.  
Installing the I/O Link Interface Module in the Rack  
The I/ O Link Interface Module must not be located to the left of any board that  
generates interrupts (such as a PCM, Genius Bus Controller, Analog, GEnet LAN, or  
Ethernet module).  
Caution  
Rack power MUST be OFF when installing or removing the I/O Link  
Module.  
1. Grasp the module firmly with your hand and insert it into the card guide.  
2. Align the modules printed circuit board with the connector on the rack backplane  
and slide it towards the connector until it has started to seat.  
3. Place one thumb on the left side of the top plastic flange and the other thumb on the  
left side of the bottom plastic flange. Push the board into the connector until the top  
and bottom latches click onto the rack rails.  
4. Visually inspect the board to be sure it has seated properly.  
Caution  
Make sure no exposed wiring touches any conductive material. Such  
contact could damage the module, and other units to which it is  
connected.  
15  
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2
5. A CPU module must be present in rack 0 slot 1 before applying power to the I/O Link  
InterfaceModule. Turn on power, and observe the LEDs.  
LED Name LED Status  
Indication  
Module OK  
On  
TheI/ O LinkInterface Module has passed its powerup  
diagnostics and the hardware is operating properly.  
OFF  
The module has failed a diagnostic test, or a run–time failure  
has been detected.  
LinkActive  
Link Cfg  
On  
The module is communicating with the I/ O Link.  
OFF  
A failure has occurred with the I/ O Link, and  
communicationsarenotpossible.  
ON  
I/ OLinkconfiguration hasoccurred, and the module is ready  
tocommunicate.  
OFF  
The module has not been configured for link operation.  
Note  
If a CPU is powered up for the first time after being received from the  
factory (or for the first time after its configuration has been cleared or its  
battery has been removed), and there is an I/ O Link Interface Module  
present in one of the racks of the PLC, a “Loss of Module” diagnostic is  
generated in the PLC.  
To proceed, clear the fault and download a configuration to the CPU.  
See chapter 3 for configuration instructions. Once the CPU has been  
configured, the “Loss of Module” diagnostic will only occur if the  
module subsequently fails or is removed.  
Removing the I/O Link Interface Module from the Rack  
1. Remove power from the rack.  
2. Squeeze the rack clips on the back of the cover to disengage the clips from the rack  
rail.  
3. Pull the module firmly to remove it from the backplane connector.  
4. Slide the board along the card guide and remove it from the rack. Avoid contact with  
neighboring boards and wiring.  
GFK-0644A  
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2
Connecting the I/O Link Interface Module to Other Devices  
Using the appropriate cable, connect the devices on the I/ O Link. Notice that the cables  
are marked JD1A on one end and JD1B on the other.  
Ports on the I/O Link Module  
The functions of the ports on the I/ O Link Interface Module depend on whether the  
module is used as a master or as a slave.  
a45016  
Series 90-70  
I/O Link  
Series 90-70  
I/O Link  
Interface Module  
(as slave)  
Interface Module  
(as master)  
JD1A  
JD1B  
JD1B  
JD1A  
not  
used  
If the system also includes a Series 90–30 PLC, you will notice that the port functions for  
the Series 90–30 I/ O Link Interface Module are the same as the port functions on the  
Series 90–70 I/ O Link Interface Module when it is used as a slave.  
I/O Link Module Used as a Master  
If the module will be used as a master, connect the cable from the first slave to the upper  
port. The lower port is not used in master mode.  
a45017  
JD1A  
JD1B  
JD1B  
not  
used  
GFK-0644A  
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2
I/O Link Module Used as a Slave  
If the module will be used as a slave, connect the cable from the previous device (either  
the master or another slave) to the upper port. If the module is followed by another  
slave on the link, connect the cable from that device to the lower port.  
a45018  
JD1A  
JD1B  
JD1A  
JD1B  
Order of the Devices on the Link  
The devices on an I/ O Link must be installed in the order expected by the master. If the  
Series 90–70 PLC is the master, be sure to connect the devices on a link in the order that  
agrees with the information provided to the application Program Block.  
Serial Port Pin Assignments  
Pin #  
Signal  
Pin #  
Signal  
1
2
SIN  
*SIN  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
0volts  
0volts  
0volts  
0volts  
0volts  
0volts  
3
SOUT  
*SOUT  
4
5
6
7
8
+5 volts  
+5 volts  
9
+5 volts  
10  
The +5–volt output from each connector powers the fiber optic link modules for long  
distance applications. The +5–volt output is not used otherwise.  
GFK-0644A  
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2
Cable Diagram, No Optical Adapter  
The following illustration shows connection details for electrical cable used between a  
master and slave or between two slave devices. This cable (A03B–0807–K801,  
A03B–0807–K802, or cable made using AMW 2076 and connectors A02B–0120–K301)  
does not include the +5–volt signal. Optical Adapter cable, which includes the +5 volt  
signal, must not be used to directly connect master and slave devices.  
a45019  
JD1A  
01  
JD1B  
11  
SIN  
01  
02 SIN*  
03  
SIN  
8SIN  
0V  
0V  
0V  
0V  
0V  
0V  
0V  
0V  
11  
12  
13  
02  
03  
04  
05  
06  
07  
08  
09  
10  
PCR–E20FS  
12  
13  
14  
15  
16  
17  
18  
19  
20  
SOUT  
*SOUT  
SOUT  
04 SOUT* 14  
05  
06  
07  
08  
09  
10  
15  
16  
17  
18  
19  
20  
JD1A  
JD1B  
SIN  
SIN  
(1)  
(2)  
(3)  
(3) SOUT  
(4) SOUT*  
(1) SIN  
(2) SIN*  
(11) 0V  
*
*SOUT (4)  
MASTER  
OR  
SLAVE  
0V (11)  
SLAVE  
0V (12)  
0V (13)  
0V (14)  
(12) 0V  
(13) 0V  
(14) 0V  
The differential signals, SIN/ *SIN, and SOUT/ *SOUT must be connected using twisted  
pair wires.  
Caution  
The I/O Link cables shield must be connected to chassis ground in  
your system. Use the grounding cable (44A729227) provided.  
GFK-0644A  
Chapter 2 Installation  
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2
Optical Adapter Installation  
The Optical Adapter is an optional component used to interface the electrical cable to  
optical cable.  
An Optical Adapter must be installed in a sealed enclosure. Avoid contact with other  
electrical components or wiring, which could short the unit. Use the adapter s casing  
screws to make earth ground connection. The electrical potential of the earth ground  
used for the adapter must be the same as that of the I/ O Link to which it is connected.  
CableConnections  
Connection between two optical adapters is made using optical fiber cable  
A66L–6001–009. Lengths of 10 to 100 meters are available. Connect the optical fiber  
cable to COP1 on the adapter unit.  
a45014  
OPTICAL  
I/O LINK  
ADAPTOR  
OPTICAL  
I/O LINK  
ADAPTOR  
UNIT  
UNIT  
ELECTRICAL  
CABLE  
OPTICAL  
CABLE  
ELECTRICAL  
CABLE  
JD1A  
JD1  
COP1  
COP1  
JD1  
JD1B  
Connection between a master or slave device and an Optical Adapter is made using  
electrical cable A03B–0807–K803, which is a one–meter cable with connectors on both  
ends. Connect this cable to JD1 on the adapter. A connection diagram is shown below.  
Cable Diagram, Electrical Cable to Optical Adapter  
Cable A03B–0807–K803 provides the +5–volt signal required by the Optical Adapter.  
Do not use this cable to directly connect master or slave devices; use it only with an  
Optical Adapter.  
a45020  
UNIT SIDE  
JD1A, JD1B  
ADAPTER SIDE  
JD1  
SIN  
*SIN  
SOUT  
*SOUT  
+%V  
+5V  
+5V  
0V  
(01)  
(03) SOUT  
SIN  
SIN  
0V  
0V  
0V  
0V  
0V  
0V  
01  
02  
03  
04  
05  
06  
07  
08  
09  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
*
(02)  
(03)  
(04)  
(09)  
(18)  
(20)  
(11)  
(12)  
(13)  
(14)  
(15)  
(16)  
(04) SOUT  
(01) SIN  
(02) SIN*  
(09) +5V  
(18) +5V  
(20) +5V  
(11) 0V  
(12) 0V  
(13) 0V  
(14) 0V  
(15) 0V  
(16) 0V  
*
SOUT  
SOUT  
*
0V  
0V  
0V  
0V  
+5V  
+5V  
+5V  
0V  
Note  
The +5–volt output on the Series 90–70 I/ O Link Module is fused with  
a 0.5 Amp fuse. The fuse is not field replaceable.  
GFK-0644A  
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Chapter 3 Logicmaster 90-70 Configuration  
section level 1 1  
figure bi level 1  
table_big level 1  
3
This chapter explains the Logicmaster 90–70 software configuration steps related to a  
Series 90–70 I/ O Link Interface Module. For the I/ O Link Module, this configuration only  
designates the location of the module; it does not assign I/O references. After the module itself has  
been installed” using Logicmaster 90, you will set up and initialize the I/O Link as explained in  
chapter 4.  
ConfigurationSteps  
1. In the LM90 configuration software, select I/ O Configuration.  
2. Display the configuration screen for the rack where the module will be located. The  
Next Page and Prev Page keys are used to move between rack configuration screens.  
3. In the correct rack display, move the reverse video cursor to the modules intended  
slot. (Use the left and right cursor keys to move the cursor).  
Note  
DO NOT locate an I/ O Link Interface Module to the left of any board that  
generates interrupts (such as a PCM, Genius Bus Controller, Analog, GEnet  
LAN, or Ethernet module).  
21  
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3
4. If you are using version 4 of Logicmaster, press F1 (vme) to display the catalog list  
shown below. Select Foreign VME from the list.  
If you are using version 3 of Logicmaster instead press F2 (vme) to display the  
catalog list. From the list, select Foreign VME (no interrupt).  
5. No further configuration is required; press Rack (Shift–F1) or the Escape key to  
return to the rack display.  
GFK-0644A  
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Chapter 4 ProgrammingGuide  
section level 1 1  
figure bi level 1  
table_big level 1  
4
This chapter explains how to incorporate logic for one to four I/ O Link Interface  
Modules in an application program for the Series 90–70 PLC. Programming instructions  
for other devices on the link are not included.  
Overview  
The Program Blocks on the diskettes provided with the I/ O Link Interface Module will  
transfer input and output data between the Series 90–70 PLC and up to four I/ O Link  
Interface Modules. The Program Blocks also monitor diagnostics from each I/ O Link  
Interface Module in the PLC, and provide a mechanism for controlling link operation  
from the application program.  
One Program Block is selected for the application, and added to the application program  
using the Librarian function of Logicmaster 90–70.  
Logic must be added to the application program to call the Program Block, which will  
execute once each time it is called. Normally, it is called once per PLC sweep.  
The Program Block utilizes a range of %P references, set aside in PLC memory, to  
exchange data with the Series 90–70 PLC. The application program interfaces with the  
Program Block by reading and writing the same %P references. The Program Block also  
makes use of a small group of %G references. These do not require any application  
program interaction. However, it is important to be sure that these %G references are  
not used for any other purpose.  
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4
Selecting a Program Block  
There are three Program Blocks on a diskette. Select the Program Block that provides  
the level of functionality and performance required for the application.  
Program Block  
Identifier  
Number of I/O  
Link Modules  
Maximum Number  
of References  
Compatible CPUs  
LINK73X  
LINK77X  
LINK78X  
1
2
4
512points  
2048points  
4096points  
731/ 7327,71/ 7727,81/ 782  
771/ 7727,81/ 782  
781/ 782  
The LINK73X Program Block provides the fastest update speed and has the lowest  
memory requirements, but is limited to a single I/ O Link Interface Module per 90–70  
system and 512 I/ O points. LINK77X provides up to two I/ O Link Interface Modules per  
90–70 PLC and 2048 I/ O points, but it is slightly slower and requires more memory.  
LINK78X accommodates up to four I/ O Link Interface Modules per PLC and provides  
up to 4096 I/ O points. Its update rate is slower than the other two Program Blocks, and  
it uses more memory.  
For the 731/ 732 CPU, the LINK73X Program Block is required. For the 771/ 772CPU,  
either LINK73X or LINK77X can be used. For the 781/ 782 CPU, any of the three  
Program Blocks can be used. Remember that the smaller Program Blocks will give better  
performance.  
Addingthe Program Block Logic to an Application Program  
To add a Program Block to an application program, follow these steps:  
1. Copy the selected Program Block library file from the diskette to the Logicmaster  
90–70 library directory(suchas:c:\ lm90\ p70\ p70_lib).  
2. Using the Librarian function (available with Logicmaster 90–70 version 3.0 or later),  
import the Program Block into the working folder.  
3. If the application program will use nicknames for the Program Block %P references  
(see page 27), include the nicknames in the Variable Declaration Table. The  
nicknames are provided as three .SDE files in the program folder on the application  
software diskette: LINK73SX.SDE, LINK77SX.SDE, and LINK78SX.SDE. To include  
the appropriate file, go to the Variable Declarations in the working folder, select  
“include”, and enter the path and filename (such as: c:\ link\ link73sx.sde).  
4. Complete the application program logic as described on the following pages.  
GFK-0644A  
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4
Calling the Program Block  
To call the LINKxxX block, place a Call instruction as close as possible to the start of the  
main program. To assure consistent mapping of link I/ O data, do not use permissive  
logic to the call. Include at least one call to the LINKxxX block each program sweep, to  
assure that the link status is routinely updated and the link retry mechanism is enabled.  
This is discussed in more detail later in the chapter.  
Example Call Instruction  
In this example, the Call instruction calls Program Block LINK73X.  
[
[
INTERRUPTS  
START OF PROGRAM BLOCK ]  
]
CALL LINK73X  
Using Multiple Calls to the Program Block  
For most applications, the main program will include only one Call instruction to the  
LINKxxX Program Block. However, it is possible to use multiple calls in the program. For  
example, a call might be used at a particular place in the program to update inputs, outputs,  
or both. In this way, the Program Block call would serve as a “DoI/ O” instruction.  
In applications with long communications windows or in Constant Sweep Time mode, a  
call to LINKxxX might be used at the beginning of the program to update only inputs,  
with another call at the end to update only outputs.  
When using multiple calls to the LINKxxX Program Block, all additional calls after the first  
should use the set status of the “Link Active” status bit as a permissive to their execution.  
GFK–0644  
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4
Program (%P) References for the I/O Link Program Blocks  
The I/ O Link Program Blocks use the program registers (%P) shown below. The  
references for devices 1 to 15 are used only if the I/ O Link Module is a master, and it has  
more than one slave.  
Information in Reference  
Program Reference  
Nickname  
Number ofI/ O Link Modules  
(1–4)  
%P0001  
numlink  
1stModule  
2nd Module  
3rd Module  
4th Module  
Nickname  
Nickname  
Nickname  
Nickname  
Program  
Ref.  
Program  
Ref.  
Program  
Ref.  
Program  
Ref.  
Rack location # (0–7)  
Slot location # (2–9)  
%P0002  
%P0003  
%P0004  
%P0005  
%P0006  
L1rack  
L1slot  
L1stat  
L1cntrl  
L1dev0  
%P0054  
%P0055  
%P0056  
%P0057  
%P0058  
L2rack  
L2slot  
L2stat  
L2cntrl  
L2dev0  
%P0106  
%P0107  
%P0108  
%P0109  
%P0110  
L3rack  
L3slot  
L3stat  
L3cntrl  
L3dev0  
%P0158  
%P0159  
%P0160  
%P0161  
%P0162  
L4rack  
L4slot  
L4stat  
L4cntrl  
L4dev0  
Status word (see page 32.)  
Control word (see page 30.)  
Device 0 (or I/ O Link Module used as  
slave), slave data length (32 or 64)  
” slave start address of %I  
%P0007  
%P0008  
L1dev0I  
L1dev0Q  
%P0059  
%P0060  
L2dev0I  
L2dev0Q.  
%P0111  
%P0112  
L3dev0I  
L3dev0Q  
%P0163  
%P0164  
L4dev0I  
L4dev0Q  
” slave start address of %Q  
Device 1, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0009  
%P0010  
%P0011  
L1dev1  
L1dev1I  
L1dev1Q  
%P0061  
%P0062  
%P0063  
L2dev1  
L2dev1I  
L2dev1Q  
%P0113  
%P0114  
%P0115  
L3dev1  
L3dev1I  
L3dev1Q  
%P0165  
%P0166  
%P0167  
L4dev1  
L4dev1I  
L4dev1Q  
Device 2, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0012  
%P0013  
%P0014  
L1dev2  
L1dev2I  
L1dev2Q  
%P0064  
%P0065  
%P0066  
L2dev2  
L2dev2  
IL2dev2Q  
%P0116  
%P0117  
%P0118  
L3dev2  
L3dev2I  
L3dev2Q  
%P0168  
%P0169  
%P0170  
L4dev2  
L4dev2I  
L4dev2Q  
Device 3, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0015  
%P0016  
%P0017  
L1dev3  
L1dev3I  
L1dev3Q  
%P0067  
%P0068  
%P0059  
L2dev3  
L2dev3I  
L2dev3Q  
%P0119  
%P0120  
%P0121  
L3dev3  
L3dev3I  
L3dev3Q  
%P0171  
%P0172  
%P0173  
L4dev3  
L4dev3I  
L4dev3Q  
Device 4, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0018  
%P0019  
%P0020  
L1dev4  
L1dev4I  
L1dev4Q  
%P0070  
%P0071  
%P0072  
L2dev4  
L2dev4I  
L2dev4Q  
%P0122  
%P0123  
%P0124  
L3dev4  
L3dev4I  
L3dev4Q  
%P0174  
%P0175  
%P0176  
L4dev4  
L4dev4I  
L4dev4Q  
Device 5, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0021  
%P0022  
%P0023  
L1dev5  
L1dev5I  
L1dev5Q  
%P0073  
%P0074  
%P0075  
L2dev5  
L2dev5I  
L2dev5Q  
%P0125  
%P0126  
%P0127  
L3dev5  
L3dev5I  
L3dev5Q  
%P0177  
%P0178  
%P0179  
L4dev5  
L4dev5I  
L4dev5Q  
Device 6, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0024  
%P0025  
%P0026  
L1dev6  
L1dev6I  
L1dev6Q  
%P0076  
%P0077  
%P0078  
L2dev6  
L2dev6I  
L2dev6Q  
%P0128  
%P0129  
%P0130  
L3dev6  
L3dev6I  
L3dev6Q  
%P0180  
%P0181  
%P0182  
L4dev6  
L4dev6I  
L4dev6Q  
Device 7, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0027  
%P0028  
%P0029  
L1dev7  
L1dev7I  
L1dev7Q  
%P0079  
%P0080  
%P0081  
L2dev7  
L2dev7I  
L2dev7Q  
%P0131  
%P0132  
%P0133  
L3dev7  
L3dev7I  
L3dev7Q  
%P0183  
%P0184  
%P0185  
L4dev7  
L4dev7I  
L4dev7Q  
Device 8, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0030  
%P0031  
%P0032  
L1dev8  
L1dev8I  
L1dev8Q  
%P0082  
%P0083  
%P0084  
L2dev8  
L2dev8I  
L2dev8Q  
%P0134  
%P0135  
%P0136  
L3dev8  
L3dev8I  
L3dev8Q  
%P0186  
%P0187  
%P0188  
L4dev8  
L4dev8I  
L4dev8Q  
Device 9, slave data length (32 or 64)  
” slave start address of %I  
” slave start address of %Q  
%P0033  
%P0034  
%P0035  
L1dev9  
L1dev9I  
L1dev9Q  
%P0085  
%P0086  
%P0087  
L2dev9  
L2dev9I  
L2dev9Q  
%P0137  
%P0138  
%P0139  
L3dev9  
L3dev9I  
L3dev9Q  
%P0189  
%P0190  
%P0191  
L4dev9  
L4dev9I  
L4dev9Q  
Device 10, slave data length (32 or 64) %P0036  
L1dev10  
L1dv10I  
L1dv10Q  
%P0088  
%P0089  
%P0090  
L2dev10  
L2dv10I  
L2dv10Q  
%P0140  
%P0141  
%P0142  
L3dev10  
L3dv10I  
L3dv10Q  
%P0192  
%P0193  
%P0194  
L4dev10  
L4dv10I  
L4dv10Q  
” slave start address of %I  
%P0037  
” slave start address of %Q  
%P0038  
Device 11, slave data length (32 or 64) %P0039  
L1dev11  
L1dv11I  
L1dv11Q  
%P0091  
%P0092  
%P0093  
L2dev11  
L2dv11I  
L2dv11Q  
%P0143  
%P0144  
%P0145  
L3dev11  
L3dv11I  
L3dv11Q  
%P0195  
%P0196  
%P0197  
L4dev11  
L4dv11I  
L4dv11Q  
” slave start address of %I  
%P0040  
” slave start address of %Q  
%P0041  
Device 12, slave data length (32 or 64) %P0042  
L1dev12  
L1dv12I  
L1dv12Q  
%P0094  
%P0095  
%P0095  
L2dev12  
L2dv12I  
L2dv12Q  
%P0146  
%P0147  
%P0148  
L3dev12  
L3dv12I  
L3dv12Q  
%P0198  
%P0199  
%P0200  
L4dev12  
L4dv12I  
L4dv12Q  
” slave start address of %I  
%P0043  
” slave start address of %Q  
%P0044  
Device 13, slave data length (32 or 64) %P0045  
L1dev13  
L1dv13I  
L1dv13Q  
%P0097  
%P0098  
%P0099  
L2dev13  
L2dv13I  
L2dv13Q  
%P0149  
%P0150  
%P0151  
L3dev13  
L3dv13I  
L3dv13Q  
%P0201  
%P0202  
%P0203  
L4dev13  
L4dv13I  
L4dv13Q  
” slave start address of %I  
%P0046  
” slave start address of %Q  
%P0047  
Device 14, slave data length (32 or 64) %P0048  
L1dev14  
L1dv14I  
L1dv14Q  
%P0100  
%P0101  
%P0102  
L2dev14  
L2dv14I  
L2dv14Q  
%P0152  
%P0153  
%P0154  
L3dev14  
L3dv14I  
L3dv14Q  
%P0204%  
P0205  
%P0206  
L14ev14  
L4dv14I  
L4dv14Q  
” slave start address of %I  
%P0049  
” slave start address of %Q  
%P0050  
Device 15, slave data length (32 or 64) %P0051  
L1dev15  
L1dv15IL1d %P0104  
v15Q %P0105  
%P0103  
L2dev15  
L2dv15I  
L2dv15Q  
%P0155  
%P0156  
%P0157  
L3dev15  
L3dv15I  
L3dv15Q  
%P0207  
%P0208  
%P0209  
L4dev15  
L4dv15I  
L4dv15Q  
” slave start address of %I  
%P0052  
” slave start address of %Q  
%P0053  
GFK-0644A  
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4
Using Nicknames for the %P References  
If you want to use the %P nicknames listed in the table, add them to the Variable  
Declaration Table (see page 24).  
Global (%G) References for the I/O Link Program Blocks  
The %P references listed in the previous table are used for link configuration, control,  
and monitoring. They will be included in the application program as explained on  
subsequent pages.  
An I/ O Link Program Block also uses certain %G references for its own operations.  
These %G references should not be included in the application program. They should be  
reserved for the exclusive use of the Program Block.  
Program Block Identifier  
%G References to be  
Reserved  
LINK73X  
LINK77X  
%G1025 – %G1040  
%G1025 – %G1040  
%GA1025 – %GA1040  
%GB1025 – %GB1040  
%G1025 – %G1040  
LINK78X  
%GA1025 – %GA1040  
%GB1025 – %GB1040  
%GC1025 – %GC1040  
%GD1025 – %GD1040  
GFK–0644  
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4
ConfiguringI/O Links  
In the application program, use Move and Block Move instructions to configure the I/ O  
Links in the system by placing the required data in the appropriate %P program  
references.  
ConfigurationLogic, Example  
Use Move instructions to supply the number of I/ O Link Interface Modules (1), and the  
rack location (0), and slot location (5) of that module.  
|
+–––––+  
+–––––+  
+–––––+  
+––––––––+MOVE_+–––––––––––––––––+MOVE_+–––––––––––––––––+MOVE_+–  
|
|
| INT |  
| NUMLINK  
| INT |  
| L1RACK  
| INT |  
| | L1SLOT  
|
|
| CONST –+IN Q+–%P00001 CONST –+IN Q+–%P00002 CONST –+IN Q+–%P00003  
| +00001 | LEN |  
+00000 | LEN |  
|00001|  
+00005 | LEN |  
|00001|  
|
|
|
|00001|  
+–––––+  
+–––––+  
+–––––+  
Block Move instructions can supply the data lengths and beginning %I and %Q  
addresses for six slaves on the link, which is link 1 in this example.  
|
+–––––+  
+–––––+  
+–––––+  
+––––––––+BLKMV+–––––––––––––––––+BLKMV+–––––––––––––––––+BLKMV+–  
|
|
| INT |  
| L1DEV0  
| INT |  
| L1DEV2  
| INT |  
| | L1DEV4  
|
|
| CONST –+IN1 Q+–%P00006 CONST –+IN1 Q+–%P00012 CONST –+IN1 Q+–%P00018  
| +00032 | LEN |  
+00032 | LEN |  
|00001|  
+00032 | LEN |  
|00001|  
|
|
|00001|  
|
|
|
|
|
|
| CONST –+IN2 |  
CONST –+IN2 |  
CONST –+IN2 |  
| +00001 |  
|
|
+00097 |  
|
|
|
+00151 |  
|
|
|
|
|
| CONST –+IN3 |  
CONST –+IN3 |  
CONST –+IN3 |  
| +00001 |  
|
|
+00097 |  
|
|
|
+00151 |  
|
|
|
|
|
| CONST –+IN4 |  
CONST –+IN4 |  
CONST –+IN4 |  
| +00064 |  
|
|
+00032 |  
|
|
|
+00064 |  
|
|
|
|
|
| CONST –+IN5 |  
CONST –+IN5 |  
CONST –+IN5 |  
| +00033 |  
|
|
+00129 |  
|
|
|
+00215 |  
|
|
|
|
|
| CONST –+IN6 |  
CONST –+IN6 |  
CONST –+IN6 |  
| +00033 |  
|
|
+00129 |  
|
|
|
+00215 |  
|
|
|
|
|
| CONST –+IN7 |  
CONST –+IN7 |  
CONST –+IN7 |  
| +00000 |  
|
+00000 |  
|
+00000 |  
|
|
+–––––+  
+–––––+  
+–––––+  
The first Block Move configures the length and beginning %I and %Q addresses of  
devices 0 and 1. The second Block Move configures devices 2 and 3. The third Block  
Move configures devices 4 and 5. To simplify programming, IN7 in these Block Moves is  
not used. If there were more I/ O Links, or more devices on link 1, they would be  
configured in the same manner.  
GFK-0644A  
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4
ConfigurationGuidelines  
To configure the I/ O Link(s) in a PLC system, enter constant data values into the  
appropriate %P registers. These values determine:  
The number of I/ O Link Interface Modules in the PLC.  
The rack and slot location of each I/ O Link Interface Module.  
The data length for each slave device (32 or 64 for a Power Mate).  
The beginning address in PLC %I memory for input data.  
The beginning address in PLC %Q memory for output data.  
This must be done before the start command is issued to any I/ O Link Interface Module  
(as explained later in this chapter).  
Program references for the I/ O Link Program Blocks are listed in the table opposite.  
Specify the Number of I/O Link Modules  
The total number of modules specified in %P must be compatible with the Program  
Block being used:  
A. for LINK73X, %P00001 must be 1  
B. for LINK77X, %P00001 may be 1 or 2  
C. for LINK78X, %P00001 may be 1 to 4  
Configuring the I/O Link Module as a Master  
If the I/ O Link Interface Module is a master, specify a data length and references for each  
slave on the I/ O Link. The data length (I/ O count) for each device must be 0, 32, or 64.  
No other values are correct.  
The starting %I and %Q addresses must be compatible with the Program Block being used:  
A. for LINK73X, the range is (1 to 481) or (1 to 449)  
B. for LINK77X, the range is (1 to 2017) or (1 to 1985)  
C. for LINK78X, the range is (1 to 4065) or (1 to 4033)  
Configure all devices to have consecutive numbers; do not leave any “holes” in the  
configuration for a module. If a 0 is configured for a slaves data length, the data lengths  
of all subsequent slaves on the same link must also be 0.  
Note  
All %P references from %P0009 through %P0209 which are not used for the  
application must be set to 0 before the link is activated.  
Configure all %I and %Q starting addresses at word boundaries.  
Configuring the I/O Link Module as a Slave  
If the module is a slave, configure it to be Device 0. Specify its data length (32 or 64) and  
references.  
Assign a starting %I and %Q address for the module that is compatible with the  
Program Block being used. The %I and %Q addresses must begin on word boundaries.  
Set to 0 the unused %P references for devices 1 through 15. See “Configuring theI/ O  
Link Module as a Master ”, above.  
GFK–0644  
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4
Controllingthe I/O Link Module  
Operation of the module is controlled by setting or clearing bits in the control word,  
which is located at:  
%P00005 for link 1  
%P00057 for link 2  
%P00109 for link 3  
%P00161 for link 4  
The bits in the control word for each I/ O Link Interface Module contain the following  
information:  
MSB  
LSB  
unlabelled bits not used  
16 15 14 13 12 11 10 9  
8
7
6
5
4
3
2
1
Disable output update = 1  
Disable input scan = 1  
reserved (must be 0)  
Reset/stop link = 1  
Start link = 1  
Always set to 0  
Master = 1  
Slave=0  
These are one–shot commands. Do not repeatedly write to these bits––that would  
unnecessarily increase program PLC sweep time and cause unexpected link results.  
Set Master or Slave Mode (bit 16)  
Set the most significant bit of the control word as part of the configuration routine that  
loads all of the other %P registers with the correct values. To use the module as a master,  
set this bit to 1. To use the module as a slave, set it to 0.  
Start/Restart (bit 15)  
After loading a valid configuration into the appropriate %P registers, write a 1 into  
control bit 15 using a one–shot permissive. The module confirms receipt of the start  
command by resetting this bit to a 0.  
If the module is being used as a master, setting this bit to 1 starts the module and the  
link. It can also be used to restart the link after a link reset has occurred.  
If the module is being used as a slave, use this bit to start or restart the module itself (not  
the link).  
Reset or Stop (bit 13)  
To stop or reset the module, write a 1 to control bit 13, using a one–shot permissive. The  
module confirms receipt of the command by resetting bit 13 to a 0. The status shows  
Error Code 6, indicating that a reset was issued and the fault bit was not set.  
GFK-0644A  
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4
If the module is a master, this bit resets or stops both the module and the I/ O Link. If  
the module is a slave, setting this bit to 1 resets or stops only the module itself, not the  
I/ OLink.  
Disable or Enable the Input Update (bit 10)  
To disable the input update portion of the I/ O scan, write a 1 to control bit 10. This might  
be done during program debugging, or if the program uses multiple calls to the  
LINKxxX Program Block. Disabling the input update causes the module to ignore new  
inputs it receives. To re–enable input updates, clear control bit 10 by writing a 0 to it.  
Remember that input data is considered to be output data by the device that sends it  
(see page 26 for an explanation of input and output data).  
If the module is a master, setting this bit to 1 causes all input references assigned to  
devices on the link to hold their last states. The slaves continue to send data to the  
master, but the new data is ignored by the master; no data is written to the input table.  
If the module is a slave, setting this bit to 1 causes the input references assigned to the  
module to hold their last states. The master continues to send data to the slave, but the  
new data is ignored by the slave. No data is written to the input table.  
Disable or Enable the Output Update (bit 9)  
Disabling the output update keeps the module from updating outputs; it does not keep  
the module from sending them. If outputs are disabled, the module keeps sending its last  
set of output data repeatedly. This might be desirable during program debugging, or if  
the program uses multiple calls to the Program Block.  
Remember that output data is considered to be input data by the device that receives it.  
To disable the output update, write a 1 to control bit 9. To re–enable output updates,  
clear control bit 9 by writing a 0 to it.  
If the module is a master, disabling the output update means that no new data will be  
sent to any slaves on the link. They will continue to receive the same set of data from  
the master repeatedly.  
If the module is a slave, disabling the output update means that no new data will be sent  
to the master. It will continue to receive the same set of data from that specific slave  
repeatedly.  
GFK–0644  
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4
Monitoring Link Operation  
For each link, the Program Block uses a specific program register (%P) for status data.  
These are:  
%P00004 for link 1  
%P00056 for link 2  
%P00108 for link 3  
%P00160 for link 4  
Monitor the status word for information about:  
A. the operation of the interface module  
B. the operation of the link  
C. detailed error codes to help diagnose problems  
Bits in the status word for an I/ O Link contain the following information:  
MSB  
LSB  
unlabelled bits not used  
16 15 14 13 12 11 10 9  
8
7
6
5
4
3
2
1
reserved  
Error code  
Fault active = 1  
Link failed = 1  
Link active = 1  
Board OK = 1  
Bits 9 to 12 of the status word are reserved; they should be zeros.  
Monitor the Module (bit 16)  
This bit shows the status of module operation, and of link operation if the module is a  
master. The application program should monitor this bit. If it is 0, the program should  
take appropriate action such as ignoring any I/ O or status information from the module.  
The Program Block automatically sets bit 16 to 1 when the module passes its powerup  
diagnostics, the correct rack and slot are placed in the %P configuration registers, and  
VME backplane communications have been established.  
The Program Block resets bit 16 to 0 if a module hardware fault is detected, or backplane  
communications are interrupted.  
Pressing the I/ O Link Interface Modules Reset pushbutton does not clear this bit. The  
Program Block will only try to reinitialize the module after completing powerup  
diagnostics. An automatic retry will occur only after link faults; the user must restart the link  
after a hardware reset.  
Monitor Communications Status (bit 15)  
Monitor status bit 15 to check the status of communications on the link. If this bit is a 0,  
input data is NOT being received, and appropriate action should be taken. The Program  
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4
Block automatically sets this bit to 1 shortly after the application program sets control bit  
15 (start bit) to a 1.  
If the module is a master, bit 15 is 1 if all link devices are providing input data and are  
ready to receive output data. The Program Block automatically resets this bit to a 0 if any  
link fault occurs.  
If the module is a slave, bit 15 is 1 if the module is ready to exchange data with the  
master.  
Monitor for Link Failure (bit 14)  
If the module is a master, after a link fault occurs, and the specified number of retries  
have failed, the Program Block sets this bit to a 1. It is necessary to manually intervene  
to find the cause of the failure. Look at the error code in the least significant byte of the  
status word. Error codes are listed in the next table.  
After the problem is corrected, reinitialize and restart the link. The Program Block  
automatically clears status bit 13 when a restart is attempted.  
Monitor for an Invalid Configuration or Link Fault (bit 13)  
The application program should monitor this bit to verify operation of the I/ O Link.  
If status bit 13 is a 1, either an invalid configuration was provided during link  
initialization, or a fault has occurred on an active link. The Program Block sets this bit to  
a 1 immediately after the problem occurs.  
If the problem occurs during initialization, initialization stops. It will be necessary to  
enter a valid configuration into the %P registers before initialization can continue. The  
error code in the least significant byte of the status word will indicate what the  
configuration problem is.  
If the module is a master and the problem is an active link fault, the Program Block  
automatically tries to restart the link the specified number of times.  
The Program Block automatically clears this bit when the link becomes active again. If  
this bit continually cycles on and off, the link wiring and devices should be inspected. The  
application program can keep track of the number of link faults over time, and take appropriate  
action if too many faults occur.  
GFK–0644  
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4
Error Codes: Troubleshooting  
The less significant byte of an I/ O Link status register contains an error code supplied by  
the Program Block. Error codes are listed below and on the next page.  
Error  
Code  
Descriptionof  
Error  
RecommendedAction  
0
1
No error  
None  
I/ OLinkmodule  
hardware fault  
Reset the module by pressing the pushbutton or cycling power. If the  
problem persists, replace the module.  
2
ExternalI/ Olink  
failure  
This fault can be caused by pressing the Reset pushbutton while the link is  
operating. If that is not the cause, inspect all cabling and examinecarefully  
each link device. Reset the link. If the problem persists, remove devices  
from the link one at a time to isolate the defective unit. This error code may  
also be caused by a hardware problem on the I/ O Link Interface Module.  
3
4
Configuration error Try to reinitialize the link interface. If the problem persists, contact the GE  
Fanuc PLC service hotline (phone number: 1–800–978–5747).  
Link interface is not Check that the I/ O Link Interface Module is installed in the rack and slot  
responding  
location specified in the %P configuration data. Also determine if the  
module is inserted completely in the backplane, and the VME bus is  
operating to other modules in that rack. Make sure that the Logicmaster  
configuration has been correctly completed for the module as described in  
chapter 4. Reset the module by cycling power on the rack. If the problem  
persists, replace the link module.  
6
9
Link Reset  
This code indicates that a reset has occurred, or that the application program  
has reset the link by writing a 1 to control bit 13. The fault bit (status bit 12)  
is not set. The I/ O Link Module automatically resets control bit 13 to 0 to  
acknowledge that it has received the command.  
Invalid Number of  
I/ OLinkModules  
This code means that the number of I/ O Link Interface Modules is not in the  
range of 0–2 or 0–4, as specified in program reference %P0001.  
GFK-0644A  
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4
ConfigurationError Codes  
Error Codes 10 to 91, listed below, describe configuration errors. If the I/ O Interface  
Module is being used as a slave, only Error Codes 10, 11, 12, 28, and 44 are used.  
Error Descriptionof Error  
Code  
RecommendedAction  
Error Description ofError  
Code  
RecommendedAction  
10  
Invalid rack ID  
Must be in range 0–7  
44  
Dev. 0, invalid %Q  
startingaddress  
Must not be greater  
thanmaximumI/ Odata  
length.  
45  
46  
47  
48  
49  
50  
51  
52  
53  
54  
55  
56  
57  
58  
59  
Dev. 1  
Dev. 2  
Dev. 3  
Dev. 4  
Dev. 5  
Dev. 6  
Dev. 7  
Dev. 8  
Dev. 9  
Dev. 10  
Dev. 11  
Dev. 12  
Dev. 13  
Dev. 14  
Dev. 15  
11  
12  
Invalid slot ID  
Must be in range 2–9  
Must be 0, 32, or 64.  
60  
Link devices not de-  
fined with consecu-  
tiveaddresses  
Alldata length register  
values must be 0, fol-  
lowing the first occur-  
rence of 0.  
Dev. 0, Invalid data  
length  
61  
62  
Dev. 0, configured  
Link doesnt operate.  
but not responding.  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
Dev. 1  
Dev. 2  
Dev. 3  
Dev. 4  
Dev. 5  
Dev. 6  
Dev. 7  
Dev. 8  
Dev. 9  
Dev. 10  
Dev. 11  
Dev. 12  
Dev. 13  
Dev. 14  
Dev. 15  
Dev. 1  
Link continues to oper-  
ate with dev. 0  
63  
64  
65  
66  
67  
68  
69  
70  
71  
72  
73  
74  
75  
76  
Dev. 2  
Dev. 3  
Dev. 4  
Dev. 5  
Dev. 6  
Dev. 7  
Dev. 8  
Dev. 9  
Dev. 10  
Dev. 11  
Dev. 12  
Dev. 13  
Dev. 14  
Dev. 15  
Link continues to oper-  
ate with previous de-  
vices.  
28  
Dev. 0, invalid %I  
startingaddress  
Must not be greater  
thanmaximumI/ Odata  
length.  
77  
1 extra(undefined)  
device on the link  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
Dev. 1  
Dev. 2  
Dev. 3  
Dev. 4  
Dev. 5  
Dev. 6  
Dev. 7  
Dev. 8  
Dev. 9  
Dev. 10  
Dev. 11  
Dev. 12  
Dev. 13  
Dev. 14  
Dev. 15  
78  
2 extra(undefined)  
devices on the link  
79  
80  
81  
82  
83  
84  
85  
86  
87  
88  
89  
90  
91  
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
GFK–0644  
Chapter 4 Programming Guide  
35  
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Index  
A
DoI/ O, 24  
B
E
C
Calling the Program Block, 24  
F
Catalog Number  
Optical Adapter, 6  
Configuration error, 34  
Configuration example, 28  
G
Constant Sweep Time CPU mode, 24  
H
Hardware fault error, 34  
Hotline phone number, 34  
I
I/ Ocapacity, 1  
I/ O Link Modules, number of, 3  
I/ O Links, number of, 23  
D
GFK-0644A  
36  
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Index  
Installation, Optical Adapter, 20  
O
Optical Adapter, 8 , 20  
L
P
Link failure error, 34  
LINK73X,links and I/ O, 23  
LINK77X,links and I/ O, 23  
LINK78X,links and I/ O, 23  
R
M
S
N
System overview, 1  
37  
GFK-0644A  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Index  
T
V
GFK-0644A  
38  
Download from Www.Somanuals.com. All Manuals Search And Download.  

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