.

TSIO-6019; Analog Input

2 Channels of B/R/T/S/N/K/E/J/T, 30mV (1uV/bit) Input

  • The module allows the direct connection of two thermocouples.

  • The module has 3 status LEDs.
    (1- network status, 2- field device status)

  • The connection of 2 or 3-wire sensor is possible. The default is 3-wire.

 

 

Input Specification
Inputs per module 2 Channels single-ended, non-isolated between channels
LED Indicators 2 green/red for input status
1 green/red for slice status
Sensor Types B/E/J/K/R/S/T/N/ 30mV (1uV/bit)
Resolution 0.1ºC / 1uV
Module Error ±0.1% Full Scale @ 25ºC
±0.3% Full Scale @ 0ºC , 60ºC
Conversion Time 200ms / All Channel
(Time needed to convert an analog input to a digital signal. All channels are converted at the same time within 200ms.)
Diagnostic Over Range (Burn-Out)

General Specification
ID 0x002A4141
Logic Power Dissipation Max. 120mA @ 5.0Vdc
Isolation I/O to Logic: Photocoupler isolation
Isolation Voltage: 1250Vrms/Vac
Field Power: No isolation
Connection 2- or 3-wire
I/O Cables Max. AWG 14
Weight 70g
Module Size 99mm x 12mm x 70mm
(H x W x L)
Environmental Requirements See Environment Requirements

 



Pinouts

Pin No.
Description
0
Input Channel 0+
1
Input Channel 1+
2
Input Channel 0-
3
Input Channel 1-
4
Analog Ground
5
Analog Ground
6
Shield
7
Shield

 

Parameters

Parameter
Access
Bits
Description
Default
0
Read
and
Write
0-7

The selection Sensor type

0x00: Type K, 0.1°C/count
0x01: Type J, 0.1°C/count
0x02: Type T, 0.1°C/count
0x03: Type B, 0.1°C/count
0x04: Type R, 0.1°C/count
0x05: Type S, 0.1°C/count
0x06: Type E, 0.1°C/count
0x07: Type N, 0.1°C/count
0x08: Type L, 0.1°C/count
0x09: Type U, 0.1°C/count
0x0A: Type C, 0.1°C/count
0x0B: Type D, 0.1°C/count
0x80: 10uV Input, -78.0~78.0mV, 10uV/count
0x81: 1uV Input, -32.7~32.7mV, 1uV/count
0x82: 2uV Input, -65.5~65.5mV, 2uV/count
Others: Reserved

0: Type K
1
Read
and
Write
0

Temperature Type
0: Celsius(°C )
1: Fahrenheit(°F )

0: Celsius
(°C )
1

0: Cold Junction Compensation
1: Disable Compensation

0
2-3

Reserved

0
4
Filter Type
0: Normal Filter
1: Enhanced Filter
0: Normal Filter
5-7
Reserved
0

 

Memory

Memory
Access
Bits
Description
Default
0
Read
0-7
Channel 0 Input Data Low 8 bits
1
Read
0-6
Channel 0 Input Data High 7 bits
7
Sign Bit
2
Read
0-7
Channel 1 Input Data Low 8 bits
3
Read
0-6
Channel 1 Input Data High 7 bits
7
Sign Bit
4
Read
and
Write
0-7
Sensor Type (same as parameter 0)
0
5
Read
and
Write
0-7
Temperature Type (same as parameter 1)
0
6
Read
0-1

Alarm Status Bit for individual channels:
Bit 0 corresponds to input channel 0
Bit 01 corresponds to input channel 1

When set(1), the input signal is below the input channel’s minimum range or above the input channel’s maximum range.

And Input Data will be 0x8000(-32678)
2-7
Reserved
0
7
Read
0-1

Burn-Out Bit for individual channels:

Bit 0 corresponds to input channel 0
Bit 1 corresponds to input channel 1

When set(1), the input channel is burn-out.

And Input Data will be 0x8000(-32678)
2-7
Reserved
0
8
Read
0-7
Cold Junction Low 8 bits  
9
Read
0-7
Cold Junction High 8 bits
10
Read
and
Write
0-7
Cold Junction Offset Low 8 bits  
11
Read
and
Write
00-07
Cold Junction Offset High 8 bits

 

I/O Data

 
Input Data
(SynqNet)
with Type B Thermocouple
Resistance
Alarm
0°C
300°C
900°C
1800°C
Data
0x8000
0x0000
0x0BB8
0x02328
0x4650
     
 
Input Data
(SynqNet)
with Type N Thermocouple
Resistance
Alarm
-270°C
-135°C
0°C
300°C
600°C
1300°C
Data
0xE000
0xF574
0xFABA
0x0000
0x0BB8
0x1770
0x32C8

 

Slice Status LED

State
LED
Description
Not Powered,
Not Initialized
OFF The slice is either not powered or has not been initialized.
Normal Communication Green
Slice to network adapter communication is operating normally.
Communication Ready Flashing Green Slice to network adapter communication is ready to be started.
Communication Fault Flashing Red

Slice to network adapter communication has a fault.

Slice Fault Red

The slice has a fault.

 

Channel Status LED

The TSIO-6019 has 2 Channels.

State
LED
Indicates
Nominal Green Normal Operation (Active)
Channel Fault Red Over range

 

 

 

       Legal Notice  |  Tech Email  |  Feedback
      
Copyright ©
2001-2010 Motion Engineering