SI-2088 Industrial Pressure Transmitter | Diffusion Silicon

SI-2088 Industrial Pressure Transmitter

SI-2088 industrial pressure transmitter consists of a diffused silicon sensor and a signal module. It uses the piezoresistive effect of semiconductor silicon material to realize the conversion of pressure and electrical signals. The measured pressure acts on the stainless steel diaphragm, and is transmitted to the sensitive element through the silicone oil between the diaphragm and the sensitive element. Since the sensitive element has a good linear relationship with the applied pressure. Therefore, an accurate measurement of the pressure is achieved.

Features of SI-2088 Industrial Pressure Transmitter

  • Threaded installation, direct replacement of traditional pressure gauges;
  • 4-20mA remote transmission, 0~10V and other outputs are optional. Optional HART;
  • Intelligent compensation, on-site display, zero point and slope can be adjusted on site;
  • The shell made of stainless steel and aluminum reaches the protection level of IP67, and explosion-proof products can be provided;
  • Wide measurement range, high precision, equipped with reverse polarity protection and instantaneous overvoltage protection device, optional anti-interference treatment;
  • With self-diagnosis and fault alarm output function;
  • Parameter setting and function configuration can be performed remotely via RS485;
  • Parameter setting and function configuration can be performed on the spot by pressing the button;
  • Range and damping are continuously adjustable on site;

SI-2088 Industrial Pressure Transmitter | Diffusion Silicon Specifications

Pressure range-0.1MPa-0, 0-100MPa range range can be done;
Another micro pressure, special range can be customized
Power supply12~36VDC (conventional power supply)
Pressure typeGauge pressure, absolute pressure, sealed gauge pressure
Measuring mediumLiquid, gas, oil, etc. (compatible with stainless steel)
Output signal4~20mA, RS485, 0~10V, 0~5V, HART protocol, can be customized according to customer requirements
Accuracy class0.5% (default), 0.25% (customizable)
Overload class150%FS~300%FS
Temperature influence±0.1%FS/10℃
Protection classIP65 (plug type)      IP67 (cable type)
Response time≤100ms (up to 90%FS)
Operating temperature-20~75°C (default), -20~300°C (install heat sink)
SI-2088 Industrial Pressure Transmitter Dimensions

SI-2088 Industrial Pressure Transmitter Applications

SI-2088 Industrial Pressure Transmitter is widely used in various industries. Low cost and good measurement effect.

  • Industrial Automation Measurement and Control
  • Environmental protection and water treatment system
  • Pump and compressor industry
  • Other hydraulic and pneumatic field measurements
  • Equipment testing
  • city water system
  • Machinery manufacturing
  • Power metallurgy

Order Guide

SI-2088Industrial Pressure Transmitter-Diffusion Silicon
CodePressure Range
(0~X)KPa-100KPa~0~1KPa…20KPa…100MPa
CodeOutput Signal
B14-20mA
B30-10v
B40-5V
B51-5V
HHART
SRS485
CodeProcess Connection
P1M20*1.5
P21/2NPT external thread
P0Customize
CodeAdditional functions
GGauge pressure (default)
AAbsolute pressure
SSealed gauge pressure
EExplosion-proof
THigh temperature -XX℃
SI-2088  (0-60)MPa B1+H P1 G E

Learn More About Industrial Pressure Transmitter

SI-2088 Industrial Pressure Transmitter is a Diffusion Silicon pressure transmitter.

Diffused silicon pressure transmitters convert pressure signals into electrical signals. Then the electric signal is amplified and filtered by the preamplifier. The A/D conversion module sent to the CPU performs conversion from analog to digital. Finally, the CPU performs data processing and display and PWM output.

The pressure of the measured medium acts directly on the diffused silicon diaphragm of the sensor. Make the diaphragm produce a small displacement proportional to the medium pressure. Under normal working conditions, the maximum displacement of the diaphragm is not more than 0.025mm. After the electronic circuit detects this displacement, it converts this displacement into a standard industrial measurement signal corresponding to this pressure.

When overpressure, the diaphragm is directly attached to the solid ceramic substrate/diffused silicon, because the gap between the diaphragm and the substrate is only 0.1mm. Therefore, the maximum displacement of the diaphragm during overpressure can only be 0.1 mm. Therefore, it is structurally guaranteed that the diaphragm will not be deformed too much. The sensor has good stability and high reliability.

A pressure transducer is an instrument that converts a pressure variable into a standard output signal. There is a certain functional relationship between the pressure variable and the output signal.

According to different working principles, pressure transmitters can be divided into the following types:

(1) piezoresistive pressure transmitter

A piezoresistive transducer applies pressure to the front surface of a diaphragm. Under pressure, the diaphragm deforms to some extent. Thick-film resistors are printed on the back of the pressure-sensitive diaphragm, forming a Wheatstone bridge. Under the piezoresistive effect, the bridge generates a corresponding voltage signal. This signal is proportional to the excitation voltage.

(2) Piezoelectric pressure transmitter

Piezoelectric transducers have a positive piezoelectric effect. The positive high voltage effect is that a certain external force acts on the electrolyte to deform it. Polarization occurs inside the electrolyte, producing different positive and negative charges on its two sides.

When the external force ceases to act, the electrolyte returns to an uncharged state. The polarity of the charge changes with the direction of the force. The electrolyte also deforms when an electric field is applied in the polar direction of the electrolyte. The deformation of the electrolyte will disappear after being offset, which is the inverse piezoelectric effect.

(3) Strain pressure transmitter

The strain gauges are glued together using a special adhesive, which causes mechanical strain. When the force on the object changes, the resistance strain gauge will also deform to a certain extent. This affects the resistance value and changes the voltage across the resistance. However, in this case, the change in resistance value is small.

A strain bridge is usually formed, enlarged by the instrumentation amplifier, and finally passed to the processing circuit display or actuator.

(4) Capacitive pressure transmitter

Capacitive pressure transmitters are divided into two types: electric and pneumatic. The normalized input signal of the former is a DC signal, and the output signal of the latter is gas pressure.

The two pressures of the measured medium are respectively input into the high pressure chamber and the low pressure chamber. Use Friendship Resource Network on the isolation diaphragm on both sides of the sensitive element. The electrodes on the measuring diaphragm and the insulating sheets on both sides form a capacitor.

When the pressure on both sides is different, the module will be displaced, and the current on both sides is also different. Under the action of oscillation and regulation, a current, voltage or digital output signal is formed.

The pressure transmitter converts the measured liquid level, density and pressure signals of liquid, gas or steam into 4-20mA DC current signal output. It can also communicate with HART handheld. Use them for setting, monitoring, etc.

In practical engineering applications, pressure units are often regarded as pressure units. More common pressure units:

Megapascal (MPa); Kilopascal (kPa); Pascal (Pa)
The symbol of megapascal for the pressure unit is MPa; the symbol of kilopascal is kPa, and the symbol of pa is Pa

Pound force/inch2 (lbf/in2, psi)
The unit of pressure is lbf/in2, psi

Millimeters of mercury (mmHg)
The symbol for millimeters of mercury in pressure units is mmHg

inches of mercury (inHg)
The symbol for inches of mercury is inHg

mm water column (mmH2O)
The symbol for millimeters of water in pressure units is mmH2O

inches of water column (inH2O)
The symbol for inches of water column for pressure units is inH2O

Kilogram force/cm2 (kgf/cm2)
The kilogram force/cm2 symbol of the pressure unit is kgf/cm2

Physical atmospheric pressure (atm)
The physical atmospheric symbol for the pressure unit is atm

bar (bar); millibar (mbar)
The symbols bar and mbar for pressure units are bar and mbar

Pressure unit conversion:

0.1Mpa (MPa) = 100Kpa (kilopa) = 1bar (bar) ≈ 0.98atm (standard atmospheric pressure) ≈ 1kgf/cm2 (kg force/cm2) ≈ 14.5psi

Gauge pressure is atmospheric pressure as a reference;
Absolute pressure is a state relative to vacuum;
Sealed gauge pressure is a standard atmospheric pressure encapsulated in the sensor;

We generally refer to pressure transmitters that measure gauge pressure as gauge pressure transmitters. This is also the most commonly used type of pressure.

If you cannot find an answer to your question in our SI-2088 Industrial Pressure Transmitter, you can always contact us and we will be with you shortly.

More Featured Industrial Pressure Transmitters and Sensors

Sino-Inst is a manufacturer of Industrial Pressure Transmitters. The Industrial Pressure Transmitter has a lower cost than other industrial pressure transmitters. At the same time, the Industrial Pressure Transmitter can customize high-performance parameters. Such as ultra-high temperature, ultra-high pressure, or special anti-corrosion materials.

There are many types of pressure sensors, such as resistance strain gauge pressure sensors, semiconductor strain gauge pressure sensors, Silicon piezoresistive pressure sensors, inductive pressure sensors, capacitive pressure sensors, resonant pressure sensors and capacitive sensors.

SI-2088 Industrial Pressure Transmitter | Diffusion Silicon is the most commonly used sensor in industrial practice. A device that converts pressure into pneumatic or electric signals for control and remote transmission. It can convert the physical pressure parameters such as gas and liquid felt by the load cell sensor into a standard electrical signal (such as 4~20mADC, etc.). Measurement, indication and process adjustment are carried out by supplying secondary instruments such as indicating and alarming instruments, recorders, and regulators.

Industrial Pressure Transmitter is widely used in various industrial automatic control environments. It involves water conservancy and hydropower, railway transportation, intelligent building, production automation, aerospace, military industry, petrochemical, oil well, electric power, ship, machine tool, pipeline, medical treatment, food and many other industries.

If you need to purchase an Industrial Pressure Transmitter, or have any technical questions about Industrial Pressure Transmitter, please feel free to contact our engineers.

    Request For Quote



    SI-2088 Industrial Pressure Transmitter | Diffusion Silicon

    SI-2088 industrial pressure transmitter consists of a diffused silicon sensor and a signal module. It uses the piezoresistive effect of semiconductor silicon material to realize the conversion of pressure and electrical signals. The measured pressure acts on the stainless steel diaphragm, and is transmitted to the sensitive element through the silicone oil between the diaphragm and the sensitive element. Since the sensitive element has a good linear relationship with the applied pressure. Therefore, an accurate measurement of the pressure is achieved.

    Product SKU: SI-2088 Industrial Pressure Transmitter | Diffusion Silicon

    Product Brand: Sino-Inst

    Product Currency: USD

    Product Price: 150

    Price Valid Until: 2029-09-09

    Product In-Stock: InStock

    Editor's Rating:
    5