| overview |
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The NHR-5600 series flow integrator controller is designed to collect, display, control, remotely transmit, communicate, print and process various signals such as temperature, pressure, and flow on site, forming a digital acquisition system and control system. It is suitable for flow integrator measurement and control of liquids, general gases, superheated steam, saturated steam, etc.
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 instrument panel |
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| 160 * 80mm (Type A) |
80 * 160mm (Type B) |
96 * 96mm (Type C) |
96 * 48mm (D-type) |
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Parameter function |
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| Note: The above parameters are all parameters of the instrument. If it is not a fully functional instrument, the parameters corresponding to the unselected function will not be displayed. |
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Instrument wiring diagram |
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The specifications and dimensions are A, B, and C type wiring diagrams
Note: The direction of the wiring terminals on the back cover of the horizontal and vertical instruments is different, as shown in schematic diagram 1. |
Figure 1 |
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instrument selection |
NHR-5600□-□/□/□-□/□/□/□/□( )-□-( )
① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ ⑾
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| ① Specification and size |
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| code |
Width * Height * Depth |
code |
Dividing number (measurement range) |
A
B
C
D |
160 * 80 * 110mm (horizontal)
80 * 160 * 110mm (vertical)
96 * 96 * 110mm (Method)
96 * 48 * 110mm (horizontal) |
X
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
55
56 |
NO INPUT SIGNAL
Thermocouple B (400-1800 ℃)
Thermocouple S (0-1600 ℃)
Thermocouple K (0-1300 ℃)
Thermocouple E division (0-1000 ℃)
Thermocouple T division (-200.0-400.0 ℃)
Thermocouple J division (0-1200 ℃)
Thermocouple R scale (0-1600 ℃)
Thermocouple N division (0-1300 ℃)
Thermocouple F2 division (700-2000 ℃)
Thermocouple Wre3-25 division (0-2300 ℃)
Thermocouple Wre5-26 division (0-2300 ℃)
Thermal resistance CU50 (-50.0-150.0 ℃)
Thermal resistance CU53 (-50.0-150.0 ℃)
Thermal resistance CU100 (-50.0-150.0 ℃)
Thermal resistance PT100 (-200.0~650.0 ℃)
Thermal resistance BA1 (-200.0.0~600.0 ℃)
Thermal resistance BA2 (-200.0-600.0 ℃)
Linear resistance 0-400 Ω (-1999~9999)
Remote transmission resistance 0-350 Ω (-1999~9999)
Remote transmission resistor 30-350 Ω (-1999~9999)
0~20mV (-1999~9999)
0~40mV (-1999~9999)
0~100mV (-1999~9999)
-20~20mV (-1999~9999)
-100~100mV (-1999~9999)
0~20mA (-1999~9999)
0~10mA (-1999~9999)
4~20mA (-1999~9999)
0~5V (-1999~9999)
1~5V (-1999~9999)
-5~5V (-1999~9999)
0-10V (-1999~9999) (non switchable)
0-10mA square root (-1999~9999)
4-20mA square root (-1999~9999)
0-5V square root (-1999~9999)
1-5V square root (-1999~9999)
Pulse input (0-10KHz)
Full switch
Special specifications |
| ⑤ Transmission output 1 (OUT1) |
| code |
Output type (load resistance RL) |
X
0
1
2
3
4
5
8 |
no-output
4-20mA(RL≤600Ω)
1-5V(RL≥250KΩ)
0-10mA(RL≤1.2KΩ)
0-5V(RL≥250KΩ)
0-20mA(RL≤600Ω)
0-10V(RL≥4KΩ)
Special specifications |
| ⑥ Transmission output 2 (OUT2) |
| code |
Output type (load resistance RL) |
X
0
1
2
3
4
5
8 |
no-output
4-20mA(RL≤600Ω)
1-5V(RL≥250KΩ)
0-10mA(RL≤1.2KΩ)
0-5V(RL≥250KΩ)
0-20mA(RL≤600Ω)
0-10V(RL≥4KΩ)
Special specifications |
| ⑦ Alarm output (relay contact output) |
| code |
Alarm limit |
X
1
2 |
no-output
1-limit alarm
2-limit alarm |
| ⑧ Communication output/external event input |
| code |
Communication interface/digital input interface |
X
D1
D2
D3
Y |
no-output
RS-485 communication interface (Modbus)
RS232 communication interface (Modbus)
RS232C printing interface
Start, stop, reset |
| ⑨ Feed output |
⑩ Power supply |
| code |
Feed output (output voltage) |
code |
Voltage range |
X
1P
2P |
no-output
1-channel feeding output
2-channel feeding output |
A
D |
AC/DC 100-240V(50/60Hz)
DC 20-29V |
| ⑾ Remarks |
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| remarks: |
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1. When selecting options ③ and ④ and selecting "X" as the input division number, it indicates that there is no compensating flow integrator controller.
2. When selecting, please refer to the wiring diagram to choose the function. Due to the small size of instrument wiring terminals, they may not have full functionality, and some functions can only be selected from one of them on the same group of terminals.
3. When writing the model, it must be complete, and any function items that have not been selected cannot be omitted and must be supplemented with an "X".
Example 1: NHR-5600A-27/X/X-0/X/2/X/X-A (without compensation)
Example 2: NHR-5600A-27/27/14-0/X/2/D1/X-A (temperature and pressure compensation)
4. The input type of the pressure compensation channel only selects voltage or current signals; The input type of the flow channel is only selected as voltage, current, or pulse input, with pulse input only selected for the flow channel.
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