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Automated Logic S6104, Technical Instructions, Page: 13 / 16

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Automated Logic S6104 Technical Instructions Download Page 13

Revised 7/30/02 • S6104

13

© 2002 Automated Logic Corporation

Point Identifiers

A point can be identified in WebCTRL by its 
point number and point type; in SuperVision, 
a point is identified by its channel number. On 
both systems, expander number zero 
represents I/O points on the S6104.

Point Identifiers in WebCTRL

Enter the point identifiers in Eikon for 
WebCTRL before the FB is made or on the FB’s 
Properties page in WebCTRL. Set the type, 
number, and minimum and maximum 
present values for each point on the S6104. 
Select a physical point type from the point 
type field and enter the number of the input or 
output. To scale a linear signal type, enter the 
appropriate minimum and maximum present 
values on the microblock’s dialog box.

Channel Numbers in SuperVision

The following tables show the valid channel 
numbers for each point on the S6104. The 
offset and gain values used depend on the 
type of sensor or actuator attached to the I/O 
point. You can select the channel number, 
offset, and gain using SuperVision’s Point 
Help feature or Configure Points utility. 
Alternatively, you can preconfigure the points 
by manually entering the channel number, 
offset, and gain in Eikon using the values 
shown in the following tables.            

    

 Figure 16. Sample GFB for the S6104

Table 6. Analog Output Channel Numbers

Point

Signal Type

Channel 
Number

Range

Offset

Gain

AO 1

Analog

41

0 to 10VDC

0.00

0.0625

AO 2

Analog

42

0 to 10VDC

0.00

0.0625

AO 3

Analog

43

0 to 10VDC

0.00

0.0625

AO 4

Analog

44

0 to 10VDC

0.00

0.0625

Table 7. Digital Output Channel Numbers

Point

Signal Type

Channel 
Number

DO 1

Digital
HOA Status

11
81

DO 2

Digital
HOA Status

12
82

DO 3

Digital
HOA Status

13
83

DO 4

Digital
HOA Status

14
84

DO 5

Digital
HOA Status

15
85

DO 6

Digital
HOA Status 

16
86

Table 8. Universal Input Channel Numbers

Point

Signal Type

Channel
Number

†Range Offset

Gain

UI 1

Thermistor

31

-17° to 213° F
-27° to 100.6° C

0.00
0.00

15.88
15.69

mA or Volts

31

0 to 20mA
0 to 5V

§

§

Digital

21

Summary of Contents for S6104

Page 1: ...ounting 3 Addressing 3 Power Wiring 4 Network Communications 4 Using the S6104 on an ARC156 Segment 5 Using the S6104 on a Legacy CMnet 5 Connecting the S6104 to the Network 5 Communicating with the W...

Page 2: ...log outputs A single board provides the power circuitry microprocessor and non volatile memory stores data even during a power failure The Access Port allows communication with WebCTRL or SuperVision...

Page 3: ...Outputs 6 digital outputs Form A 3A max Analog Outputs 4 analog outputs 0 to 10VDC 20mA source capability Output resolution 8 bit D A Communication For WebCTRL 156 kbps BACnet over ARCNET and 9600 bp...

Page 4: ...he S6104 has an operating range of 21 6VAC to 26 4VAC If voltage measured at the module s power input terminals is outside this range the module may not work properly 1 Turn the module s power off Thi...

Page 5: ...lect jumper must also be set to Access NOTE Setting the CMnet jumper to Legacy disables the industry standard BACnet over ARCNET ARC156 protocol for the network segment and enables the proprietary ALC...

Page 6: ...ommunication speed is fixed at 1200 baud 1 Connect the computer s serial port to the EIA 232 port of the APT using a standard straight through cable 2 Set the APT s Mode Select switch to TTL see Figur...

Page 7: ...rt when finished to allow the S6104 to receive inputs from the LogiStat Communicating Through the Access Port Using SuperVision When using SuperVision you can connect a workstation or portable compute...

Page 8: ...ource to power the 4 20mA transducer The B terminal is capable of supplying 18 to 24VDC but the total current of all B terminals must not exceed 200mA If the voltage measured from the B terminal to Gn...

Page 9: ...e of sensor used Make sure the jumper is positioned correctly and be sure to grip the jumper by the sides only See Figure 10 Figure 8 Input Wiring 15 16 17 18 20 19 14 13 12 11 10 9 8 7 6 5 4 3 2 1 IN...

Page 10: ...pin 2 Temp of the LogiStat Port The LogiStat Plus also provides the slidepot position and TLO inputs through pin 3 Sw The LogiStat Pro provides temperature setpoint adjust and TLO inputs through seria...

Page 11: ...mode by setting the HOA switches see Figure 1 on page 2 for the switches location Table 5 on page 12 shows the status of the digital output based on the output s configuration and the HOA switch posit...

Page 12: ...put s operation lock the output to a known condition using the Function Block s Properties page in WebCTRL or Parameter page in SuperVision Be sure the equipment operates as specified Writing GFBs for...

Page 13: ...pend on the type of sensor or actuator attached to the I O point You can select the channel number offset and gain using SuperVision s Point Help feature or Configure Points utility Alternatively you...

Page 14: ...ute Download button If any downloads failed they are listed in the Failures section under the tree in the UI 2 Thermistor 32 17 to 213 F 27 to 100 6 C 0 00 0 00 15 88 15 69 mA or Volts 32 0 to 20mA 0...

Page 15: ...SC key type MO module address 15 and press Enter 3 Transfer memory to the module In SuperVision v3 0 click Tools Troubleshooting Transfer Memory to Module In SuperVision v2 6b download memory for This...

Page 16: ...imal Figure 17 S6104 LED locations Table 9 LED Signals Run LED Error LED Condition 2 flashes per second Off Normal 2 flashes per second 1 flash then pause Normal but module is alone on the CMnet this...

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