BLUE JAY ZP-05 Isolated HART Intelligent Temperature Transmitter Instruction Manual
- June 10, 2024
- BLUE JAY
Table of Contents
BLUE JAY ZP-05 Isolated HART Intelligent Temperature Transmitter
Instruction Manual
Product Introduction
ZP-05 isolated HART intelligent temperature transmitter (round card) is usedfor the signal input of resistance temperature detector (RTD) and thermocouple (TC) and 4 – 20mA analog output of the two-wire system, and can be installed in the sensor(Form B) through the HART protocol configuration.
Appearance Structure Diagram
Installation Schematic Diagram
Configuration Schematic Diagram
Wiring Diagram
Note:
- For input of the two-wire heating resistor. terminals 1 and 2 must be shorted:
- three wire heating resistance input: the resistance of the three wires should be the same as far as possible, each wireThe resistance cannot exceed 102;
- thermocouple input. compensation wire should be directly connected to the instrument input wiring terminal,Do not connect wires of other materials in the middle. otherwise it will cause measuring errors.
Technical Parameters
Input|
---|---
Input signal| Resistance temperature detector (RTD), thermocouple (TC)
Cold-junction compensation| -20 -60℃
temperature scope|
Compensation precision| ±1 ℃
Output|
Output signal| 4-20mA, overlaid HART protocol
Load resistance| RL≤(Ue-12)/0.021
Output current of upper and lower
limit overflow alarm| IH=21mA, IL=3.8mA
Power supply|
Supply voltage| DC12-40V
Other parameters|
Temperature drift| 0.0075%FS/℃
Response time| Reach to 90% of the final value for700ms
Used environmental temperature| -40 – 80℃
Storage temperature| -40 – 100℃
Insulation strength (between input
and output)| 1500Vrms (1 min, without spark)
Insulation resistance (between
input and output)| ≥100MΩ(under the 500 VDC)
Aseismicity| 4g/2 – 150Hz
Installation angle| Unlimited
Installation area| B-type top cassette installation
Electromagnetic compatibility| Conform to GB/T18268 industrial equipment
application
requirements (IEC 61326-1)
Input type and transmission accuracy:
Model| Type| Measurement scope| Minimum measurement scope|
Conversion accuracy **** (larger value)
---|---|---|---|---
Resistancetemperature detector| Pt100| -200~850℃| 20℃| ±0.1%range Or±0.2℃
Cu50| -50~150℃| 20℃| ±0.1%range Or±0.2℃
(RTD)| | | |
Thermocouple (TC)| B| 100~1820℃| 500℃| ±0.1%range Or±1.5℃
E| -100~1000℃| 50℃| ±0.1%range Or±0.5℃
J| -100~1200℃| 50℃| ±0.1%range Or±0.5℃
K| -180~1372℃| 50℃| ±0.1%range Or±0.5℃
N| -180~1300℃| 50℃| ±0.1%range Or±0.5℃
R| -50~1768℃| 500℃| ±0.1%range Or±1.5℃
S| -50~1768℃| 500℃| ±0.1%range Or±1.5℃
T| -200~400℃| 50℃| ±0.1%range Or±0.5℃
Notes:
- The above accuracy data was obtained by testing at an ambient temperature of 20 °C ± 2 °C.
- The output precision “%” is relative to the set range.
- The cold end compensation error needs to be added to the thermocouple measurement, and the internal cold end compensation error is ≤±1°C.
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