The thermal elements and integrated amplifier circuits that make up the explosion-proof temperature transmitter are imported from another country. The platinum thermal resistance temperature amplifier consists of a reference unit, an R/V conversion unit, a linear circuit, reverse connection protection, current limiting protection, a V/I conversion unit, and a number of other components. The nonlinear relationship that exists between temperature and resistance is compensated by the linear circuit, which then outputs a two-wire 4-20mA current signal that is linear with the measured temperature after passing through the V/I conversion circuit. This occurs after the temperature measuring thermal resistance signal has been converted and amplified by the amplifier. Or a three-wire voltage signal that ranges from 1-10V; the explosion-proof transmitter is characterized by its consistent performance, small size, light weight, high frequency response, and ease of installation. It finds widespread application across a variety of industries and research domains, including petrochemicals, thermoelectrics, metallurgy, machinery, food, medicine, and a number of others.

The explosion-proof temperature transmitter has the following features and water depth measurement tool benefits: high-precision cold junction compensation circuit, absolute error of 0. 5°C across the entire temperature range; high flexibility, various process connection forms and extension neck types; and support for user-defined thermal resistance insertion depth. In high-precision measurements, a Pt100 temperature sensor that complies with IEC 60751 (Class A or higher) is used. Additionally, an advanced nonlinear correction circuit ensures that the output signal has a linear relationship with the temperature that is being measured.

The built-in drift self-calibration system guarantees accuracy throughout the entire temperature measurement range. The one-of-a-kind anti-interference circuit design guarantees that the transmitter will continue to function safely and reliably even in an environment with interference. There is also an optional compression spring anti-vibration and proximity difference between ultrasonic and radar level transmitter measurement design, both of which have excellent stability and high precision.

The WZ/P/D platinum thermal resistance temperature transmitter is made up of imported thermal elements and an integrated amplifier circuit. The transmitter has a consistent performance, a small size, a light weight, a high frequency response, and easy installation, and it is utilized in a variety of industries, including the petroleum and chemical industries. It is resistant to moisture and shock, and it is suitable for use in harsh environments; the high-strength aluminum alloy junction box with its special explosion-proof structure can meet the measurement requirements in areas that are classified as explosion-proof.

Explosion-proof temperature transmitters have a wide range of applications, including the following: the aviation and aerospace industries; the navigation and shipbuilding industries; the petroleum and chemical industries; power plants and nuclear power plants; supporting equipment for submersible electric pumps; industrial field process temperature control; and high-precision digital temperature calibrators. The temperature resistance of the cold end of the sensor can reach up to 250 degrees Celsius, and the measurement requirements in explosion-proof areas can be satisfied by using either a thermal resistance thermocouple, 1 or 2 PT100, thermal resistance, or thermal resistance thermocouple.

The platinum thermal resistance temperature transmitter is made up of domestic and foreign-made components, including integrated amplifier circuits and thermal elements. The platinum thermal resistance temperature amplifier consists of a reference unit, an R/V conversion unit, a linear circuit, reverse connection protection, current limiting protection, a V/I conversion unit, and a number of other components. The nonlinear relationship that exists between temperature and resistance is compensated by the linear circuit, which then outputs a two-wire 4-20mA current signal that is linear with the measured temperature after passing through the V/I conversion circuit. This occurs after the temperature measuring thermal resistance signal has been converted and amplified by the amplifier. Or a three-wire voltage signal that ranges from 1-10V; the transmitter is characterized by its consistent performance, small size, light weight, high frequency response, and ease of installation. It finds widespread application across a variety of industries and research domains, including petrochemicals, thermoelectrics, metallurgy, machinery, food, medicine, and a number of others.

The platinum thermal resistance temperature transmitter is made up of thermal elements that were imported as well as integrated amplifier circuits. This transmitter has a consistent performance, a small size, a light weight, a high frequency response, and an easy installation process, and it is utilized in a variety of industries including the chemical, petroleum, and other areas. M12 quick-install waterproof plug, simple to install and troubleshoot, the heat sink replaces the cold end of 12, and the structure is more compact; built-in isolation amplifier, strong anti-interference ability, inclined 45° display screen, and two-point relay alarm that can be investigated for details.

Intelligent temperature transmitter, imported silicon wafer material, no need for calibration, high resolution, intelligent temperature transmitter accurately detects temperature, meets the temperature detection requirements of various applications, the instrument not only has the transmitter's (4 x 20) inputs and outputs, but it also has an intelligent temperature transmitter. It can cooperate with the communication software to directly collect data with the computer or other communication interfaces, and it can save, process, and report the test data. The instrument utilizes cutting-edge micro-power consumption devices. The mA analog signal output function can also increase the RS485 digital communication function. In addition to its flawless software technology, this temperature transmitter has a five-digit LCD backlight display, which is unusual for such devices.