A616Td (Replacement To The Q64Td); Performance Comparison - Mitsubishi Electric MELSEC-A/QnA Series Handbook

4
TEMPERATURE INPUT MODULE REPLACEMENT

4.2 A616TD (Replacement to the Q64TD)

4.2.1 Performance comparison

(1) Performance comparison list
Item
Temperature sensor input
Digital output
value
Output Detected
temperature
value
Applicable thermocouple
Measured temperature range
accuracy
Overall accuracy
Maximum conversion speed
Isolation method
Number of temperature sensor
input points
Number of occupied I/O points
External connection system
Applicable wire size
Applicable solderless terminal
Internal current consumption
(5VDC)
Weight
*1 Calculate the accuracy in the following method.
(Accuracy) = (Conversion accuracy) + (Temperature characteristics) × (Operating ambient temperature variation)
+ (Cold junction compensation accuracy)
An operating ambient temperature variation indicates a deviation of the operating ambient temperature from the 25±5°C
range.
4
- 3
A616TD (When using the A60MXT and A60MXTN together)
(0 to 4000) (Data part: 12 bits)
(-2000 to 18000: value up to the first decimal place × 10)
Refer to the table in Section 4.2.1 (2).
Measured temperature range accuracy ±0.5°C
Between the input terminal and programmable controller power supply: photocoupler isolation
Between channels: non-isolation (1M resistor isolation)
15 points/module (A60MXT, A60MXTN)
(The A60MXT and A60MXTN can be mounted up to seven in total to one A616TD.)
(I/O assignment: special 32 points)
(Applicable tightening torque: 39 to 59N•cm)
V1.25-3, V1.25-YS3A, V2-S3, V2-YS3A
-200 to 1800°C
16-bit signed binary
16-bit signed binary
Refer to Section 4.2.1 (2).
Refer to Section 4.2.1 (2).
50ms/channel
32 points
38-point terminal block
2
0.75 to 2mm
1.0A
0.85kg