AP26 micro differential pressure sensor and transmitter is assembled with silicon piezoresistive differential pressure core. The differential pressure transmitter adopts aluminum alloy structure. The two pressure ports are Ø6 gas pipe joints, which can be directly installed on the measuring pipe or connected through a pressure pipe.
The differential pressure transmitter has simple installation, compact and lightweight structure. The differential pressure transmitter is widely used in boiler air supply, underground ventilation and other electric power, coal industry, ultra-clean workshop automatic detection pressure process control.
* Ø6 trachea joint, easy to install
* Measure the differential pressure value of tiny gas
* Wide operating temperature range
* High comprehensive precision
Measuring Range | 0~100Pa…100Kpa……10MPa(optional) | |
Overload Capability | 1.5~2 times full-scale pressure | |
Burst Pressure | 4xFS | |
Durability | ﹥1×107 cycle | |
Pressure Type | Gauge/Differential | |
Measuring medium | Dry and clean gases and liquids compatible with 304 stainless steel | |
Response time | ≤4ms | |
Resolution | Min. resolution 0.5Pa | |
Accuracy (linear,hysteresis, repeatability) | Typical:±0.5%FS Typical:±1%FS(<250Pa) |
Maximum:±1%FS Maximum:±2%FS(<250Pa) |
Long-term stability | Typical:±0.2%FS/year | Maximum:±0.3%FS/year |
Zero temperature drift | Typical:±0.02%FS/℃ | Maximum:±0.05%FS/℃ |
Sensitivity temperature drift | Typical:±0.02%FS/℃ | Maximum:±0.05%FS/℃ |
AP26 | G | 01KN | A1 | F2 | W2 |
Model | Pressure type | Pressure Range | Output | Thread size | Electrical connection |
AP26
|
G = gauge or wind pressure D = differential pressure |
002C= ±200Pa G/D 005C= ±500Pa G/D 01KC= ±1KPa G/D 02KC= ±2KPa G/D 05KC= ±5KPa G/D 10KC= ±10KPa G/D 005N= -500Pa G/D 01KN= -1KPa G/D 02KN= -2KPa G/D 05KN= -5KPa G/D 10KN= -10KPa G/D 20KN= -20KPa G/D 002P= 200Pa G/D 005P= 500Pa G/D 01KP=1KPa G/D 02KP= 2KPa G/D 05KP= 5KPa G/D 10KP= 10KPa G/D 20KP= 20KPa G/D 40KP= 40KPa G/D 001B= 100KPa G/D 002B= 200KPa G/D …………………… |
A1=4~20mA V1=1~5V V2=0~5V V3=0.5~4.5V(8~30VDC supply) V4=0.5~4.5V (5VDCsupply) |