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| Categories | Pressure Transmitter |
|---|---|
| Brand Name: | HCATM |
| Model Number: | GMP500-O |
| Place of Origin: | XIAN |
| MOQ: | 1 |
| Payment Terms: | L/C, D/A, T/T, Western Union, MoneyGram |
| Delivery Time: | 3 to 7 working days after payment |
| Packaging Details: | Carton |
| Storage humidity: | -40°C-100%°C |
| Measuring range: | -100ka..0~ 10kPa... 100MPa |
| Power supply: | 24V |
Explosion-proof diffused silicon pressure transmitter
A pressure transmitter in the general sense is mainly composed of three parts: a pressure measuring element sensor (also called a pressure sensor), a measuring circuit and a process connection. It can convert the gas, liquid and other physical pressure parameters felt by the load cell sensor into standard electrical signals (such as 4-20mADC, etc.) to provide secondary instruments such as indicator alarms, recorders, regulators, etc. for measurement and indication And process regulation.
Pressure transmitter is a kind of instrument that accepts pressure variable, after sensing conversion, the pressure change is converted into a standard output signal according to a certain ratio. The output signal of the transmitter is transmitted to the central control room for pressure indication, recording or control.
Classification
Pressure transmitters can be divided into general pressure
transmitters (0.001MPa~35MPa) and micro differential pressure
transmitters (0~1.5kPa) according to the measuring range, and
negative pressure transmitters; if they are classified from the
perspective of accuracy, because The accuracy of my country's
national standard is 0.5%. So in recent years, it can be divided
into high-precision pressure transmitters (0.1% or 0.2% or 0.075%)
and general pressure transmitters (0.5%).
Pressure transmitters can be divided into capacitive pressure
transmitters, diffused silicon pressure transmitters, and
monocrystalline silicon pressure transmitters according to sensor
types.
Effect
The pressure transmitter transmits the pressure signal to the
electronic device, and then displays the pressure on the computer.
The principle is roughly:
Turn the mechanical signal of water pressure into an electrical
signal like electric current (4-20mA)
Pressure has a linear relationship with voltage or current,
generally proportional
Therefore, the voltage or current output by the transmitter
increases as the pressure increases.
From this, a relationship between pressure and voltage or current
is obtained
The two pressures of the measured medium of the pressure
transmitter are passed into the high and low pressure chambers. The
pressure of the low pressure chamber adopts atmospheric pressure or
vacuum and acts on the isolation diaphragms on both sides of the δ
element (ie the sensitive element). The filling liquid in the
spacer and the element is transferred to both sides of the
measuring diaphragm. The pressure transmitter is composed of a
measuring diaphragm and the electrodes on both sides of the
insulating sheet to form a capacitor. When the pressures on both
sides are inconsistent, the measurement diaphragm will be
displaced. The displacement is proportional to the pressure
difference. Therefore, the capacitances on both sides are not
equal. Through the oscillation and demodulation link, it is
converted into a signal proportional to the pressure.
Technical Parameters
| Measuring range | -100ka..0~ 10kPa... 100MPa |
| Type of pressure | Gauge pressure, absolute pressure, differential pressure |
| Power supply | 24V |
| output signal | 4-20mA.485. HART |
| Operating temperature | -20°C-85°C |
| Medium temperature | -20°C- 85°C |
| Storage humidity | -40°C-100%°C |
| Zero temperature drift | +0.1%FS (-20°C- 85°C) |
| Sensitivity drift | +0.1%FS (-20°C- 85°C) |
| Overload pressure | 150%FS |
| Mechanical vibration | 20g (20 ~ 5000HZ) |
| Shock | 100g (11ms) |
| Comprehensive accuracy | 0.2,0.5 level optional |
| insulation | 100MΩ/250VDC |
| Response time | s1ms (up to 90%FS) |
| Long-term stability | +0.1%F5/year |
| EMC surge | (IEC61000-4-5) 2KV |
| EMC static | (EC61000-4-2) Touch discharge 8KV, air discharge 15KV |
| Protection level | IP65 |
| Explosion-proof grade | Intrinsically safe explosion-proof Exia CT6. Explosion-proof ExdII CT6 |
| Material | Housing aluminum/stainless steel; isolation diaphragm 316L |
| Media compatible | Various media compatible with stainless steel |
Exquisite workmanship to control the details
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