Install guide, Input map and configuration (edt), Rtd/resistance – Spectrum Controls 1794sc-IF8IU User Manual

Install Guide

Publication 0100152‐01 Rev. A (1794sc‐IF8IU) December 2008 

Wire Connections for the Isolated Universal
Input Module

Terminal Base Unit Wiring Connections

Channel

Number

1794-TB3G and 1794-TB3GS Terminal Base Units

Signal
Return
(R)

Input +

(IN+)

Input

(-)

I Return

(-)

0 A-0 A-1 A-2 A-3

1 A-4 A-5 A-6 A-7

2 A-8 A-9 A-10 A-11

3 A-12 A-13 A-14 A-15

4 B-17 B-18 B-19 B-20

5 B-21 B-22 B-23 B-24

6 B-25 B-26 B-27 B-28

7 B-29 B-30 B-31 B-32

1Terminals 16, 33, and 40…45 are chassis ground.

Example of RTD/Resistance Wiring to a 1794-TB3G
Terminal Base Uni

t

Example of Thermocouple Wiring to a 1794-TB3G Terminal

Base Unit

Example of Voltage Wiring to a 1794-TB3G Terminal Base
Unit

Example of Current Wiring to a 1794-TB3G Terminal
Base

Input Map and Configuration (EDT)

The following information is presented for experienced users only. Refer
to the user manual, publication 0300239-01, for complete information on
programming and configuring your module.

Input Map (Read)

Usage (16 bit words):

I:0 Channel 0 input Data.
I:1 Channel 1 input Data.
I:2 Channel 2 input Data.
I:3 Channel 3 input Data.
I:4 Channel 4 input Data.
I:5 Channel 5 input Data.
I:6 Channel 6 input Data.
I:7 Channel 7 input Data.
15

14

13

12

11

10

9

8

7 6 5 4 3 2 1 0

S:0 OverRange (CH0/Bit 8, CH1/Bit 9, …)

UnderRange (CH0/Bit 0, CH1/Bit 1, …)

S:1 User HI Alarms (CH0/Bit8, CH1/Bit9, …) User LO Alarms(CH0/Bit0, CH1/Bit1, …)
S:2 Reserved CJC

Alarm

Broken Input Alarms

S:3 Reserved Diagnostics

CJC Alarm

Bit 9

Bit 8

CJC Alarm:

0 0 No

Errors

0

1

CJC1 is broken.

1

0

CJC2 is broken.

1

1

Both CJC1 and CJC2 are broken.

EDT Configuration Table

Usage (16 bit words):

15 14 13

12 11 10 9 8 7 6 5 4 3 2 1 0

C:0 R

1

R

1

F7 F6 F5 F4

R

1

R

1

R

1

F3 F2 F1 F0 R

1

C:1 °F

Ch0

DC
Ch0

BIM
Ch0

R

1

Data Format
Ch0

Input Filter
Ch0

Input Type CH0

C:2 °F

Ch1

DC
Ch1

BIM
Ch1

R

1

Data Format
Ch1

Input Filter
Ch1

Input Type CH1

C:3 °F

Ch2

DC
Ch2

BIM
Ch2

R

1

Data Format
Ch2

Input Filter
Ch2

Input Type CH2

C:4 °F

Ch3

DC
Ch3

BIM
Ch3

R

1

Data Format
Ch3

Input Filter
Ch3

Input Type CH3

C:5 °F

Ch4

DC
Ch4

BIM
Ch4

R

1

Data Format
Ch4

Input Filter
Ch4

Input Type CH4

C:6 °F

Ch5

DC
Ch5

BIM
Ch5

R

1

Data Format
Ch5

Input Filter
Ch5

Input Type CH5

C:7 °F

Ch6

DC
Ch6

BIM
Ch6

R

1

Data Format
Ch6

Input Filter
Ch6

Input Type CH6

C:8 °F

Ch7

DC
Ch7

BIM
Ch7

R

1

Data Format
Ch7

Input Filter
Ch7

Input Type CH7

C:9

CH0 User Low Alarm Threshold

C:10 CH0 User High Alarm Threshold
C:11 CH0 User Alarm Deadband
C:12 CH1 User Low Alarm Threshold
C:13 CH1 User High Alarm Threshold
C:14 CH1 User Alarm Deadband
C:15 CH2 User Low Alarm Threshold
C:16 CH2 User High Alarm Threshold
C:17 CH2 User Alarm Deadband
C:18 CH3 User Low Alarm Threshold
C:19 CH3 User High Alarm Threshold
C:20 CH3 User Alarm Deadband
C:21 CH4 User Low Alarm Threshold

Usage (16 bit words):

15 14 13

12 11 10 9 8 7 6 5 4 3 2 1 0

C:22 CH4 User High Alarm Threshold
C:23 CH4 User Alarm Deadband
C:24 CH5 User Low Alarm Threshold
C:25 CH5 User High Alarm Threshold
C:26 CH5 User Alarm Deadband
C:27 CH6 User Low Alarm Threshold
C:28 CH6 User High Alarm Threshold
C:29 CH6 User Alarm Deadband
C:30 CH7 User Low Alarm Threshold
C:31 CH7 User High Alarm Threshold
C:32 CH7 User Alarm Deadband
C:33 CH0_Cal_Offset
C:34 CH1_Cal_Offset
C:35 CH2_Cal_Offset
C:36 CH3_Cal_Offset
C:37 CH4_Cal_Offset
C:38 CH5_Cal_Offset
C:39 CH6_Cal_Offset
C:40 CH7_Cal_Offset
C:41 CH0_CJC_Offset
C:42 CH1_CJC_Offset
C:43 CH2_CJC_Offset
C:44 CH3_CJC_Offset
C:45 CH4_CJC_Offset
C:46 CH5_CJC_Offset
C:47 CH6_CJC_Offset
C:48 CH7_CJC_Offset

1

Reserved for future expansion

F0 through F7 (Channel n Fault Mode)

State Function
0 Disabled
1

Broken input testing enabled

Input Type

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

Range:

0 0 0 0 0 B

Type

Thermocouple

0 0 0 0 1 C

Type

Thermocouple

0 0 0 1 0 E

Type

Thermocouple

0 0 0 1 1 J

Type

Thermocouple

0 0 1 0 0 K

Type

Thermocouple

0 0 1 0 1 N

Type

Thermocouple

0 0 1 1 0 R

Type

Thermocouple

0 0 1 1 1 S

Type

Thermocouple

0 1 0 0 0 T

Type

Thermocouple

0 1 0 0 1 100

Ω Pt α 0.385

0 1 0 1 0 200

Ω Pt α 0.385

0 1 0 1 1 500

Ω Pt α 0.385

0 1 1 0 0 1000

Ω Pt α 0.385

0 1 1 0 1 100

Ω Pt α 0.3916

0 1 1 1 0 200

Ω Pt α 0.3916

0 1 1 1 1 500

Ω Pt α 0.3916

1 0 0 0 0 1000

Ω Pt α 0.3916

1 0 0 0 1 10

Ω Cu α 0.426

1 0 0 1 0 100

Ω Ni α 0.618

1 0 0 1 1 120

Ω Ni α 0.672

1 0 1 0 0 604

Ω NiFe α 0.518

1 0 1 0 1 R

0

to

150

Ω

1 0 1 1 0 R

0

to

1000

Ω

1 0 1 1 1 R

0

to

3000

Ω

1 1 0 0 0 +/-

50

mV

1 1 0 0 1 +/-

100

mV

1 1 0 1 0 0

to

5V

1 1 0 1 1 1

to

5V

1 1 1 0 0 +/-

10V

1 1 1 0 1 0

to

10V

1 1 1 1 0 4

to

20

mA

1 1 1 1 1 0

to

20

mA

Input Filter

Bit 7

Bit 6

Bit 5

ADC Filter:

0 0 0 4.17

Hz

0 0 1 10.0

Hz

0 1 0 16.7

Hz

0 1 1 19.6

Hz

1 0 0 62.0

Hz

1 0 1 470.0

Hz

1 1 0 *Unused
1 1 1 *Unused

Data Format

Bit 10

Bit9

Bit 8

Format:

0 0 0 Engineering

Units

0

0

1

Engineering Units X10

0 1 0 Raw/Proportional

Counts

0

1

1

Scaled for PID

1

0

0

Percent of Full Scale

1 0 1

1

CJC EU

1 1 0

1

CJC Scaled for PID

1 1 1

1

CJC Percent of Full Scale

1

If selected, the CJC format will override all ranges/formats and report the

indicated CJC value for this channel. Channel zero will report CJC0
directly. Channel 7 will report CJC1 directly. All others will be distributed
values between CJC0 and CJC1 based on channel position.

BIM Ch n (Broken Input Mode Channel n)

Bit 13

Bit 12

1

Broken Input Mode:

0

0

Zero analog value on broken input.

0

1

Set analog value to Max scale on broken input.

1

0

Set analog value to Min scale on broken input.

1 1 Previous

Value

DC Ch n (Disable CJC for Channel n)

State Function
0 CJCs

Enabled

1

1 CJCs

Disabled

1

1

This field is only used if the input type is a

thermocouple and the format is not a CJC
format. No compensation is performed on the
thermocouple when disabled.

˚F Ch n (Temperature Units for Channel n)

State Function
0 Degrees

C

1 Degrees

F

Type of Input 

Connect The Following 

R 

IN+ 

IN‐ 

I 

Shield

1

RTD/Res 2‐wire 

1 

2 

RTD/Res 3‐wire 

0 

1 

2 

Thermocouple 

1 

2 

V/mV Source 

1 

2 

mA Source 

1 

2 

3 

1

Shield can be connected to chassis ground terminals 16, 33,  

and 40…45. 

Input 

CJC Sensor 

+ 

Chassis 

Ground 

‐ 

CJC 

Tail

1 

CJC1 

C37 

C38 

C39 

A1 

CJC2 

C‐46 

C‐47 

C‐48 

B31 

1

Terminals 37, 38, and 39, and 46, 47, and 48 are for cold junction 

compensation (with 38 and 47 chassis GND).  Connect the tail of CJC 1 
to terminal 1 and CJC2 to terminal 31 if channels 0…3 or 0…7 are 
configured for thermocouples. 

The power supply in the current loop to the current inputs
(I/O) of the devices may only be an Isolated Secondary
Limited Voltage, Class 2, or Limited Voltage/Current power
supply. 

+

mV

-

+

mA

-

RTD/Resistance 

2‐wire 

0 
2 

3‐wire 

Thermocouple 

1 

2 

+ 

‐ 

mV Source 

1 

2 

 mA Source 

1 

2 
3 

1 

0 
2 

1 

Jumper 

Numbers 0, 1, 2, and 3 are wiring numbers
of the sensor used. For terminal numbers
corresponding to R, IN+, IN-, I, refer to
Terminal Base Unit Wiring Connections
below.