XDB403 series high temperature pressure transmitters adopt imported diffused silicon pressure core, industrial explosion proof shell with heat sink and buffer tube, LED display table, high stability and high reliability piezoresistive pressure sensor and high-performance transmitter-specific circuit. After automatic computer testing, temperature compensation, the millivolt signal of the sensor is converted into standard voltage and current signal output, which can be directly connected to the computer, control instrument, display instrument etc., and can carry out long-distance signal transmission.
XDB406 series pressure transmitters feature advanced sensor elements with a compact structure, high stability, small size, low weight, and low cost. They are easily installed and suitable for mass production. With a wide measuring range and multiple output signals, they are widely used in refrigeration, air conditioning equipment, and air compressors. These transmitters are compatible replacements for products from brands like Atlas, MSI, and HUBA, offering versatility and cost-effectiveness.
XDB407 series of pressure transmitters feature imported ceramic pressure sensitive chips with high precision and high stability.
They convert liquid pressure signals into a reliable 4-20mA standard signal through an amplifying circuit. Therefore, the combination of high-quality sensors, exquisite packaging technology, and a meticulous assembly process ensures excellent quality and performance.
XDB 316 series pressure transducers utilize piezoresistive technology, use ceramic core sensor and all stainless steel structure. They are featured with small and delicate design, specially used for IoT industry. As part of the IoT ecosystem, Ceramic Pressure Sensors offer digital output capabilities, making it easier to interface with microcontrollers and IoT platforms. These sensors can seamlessly communicate pressure data to other connected devices, enabling real-time monitoring and data analysis. With their compatibility with standard communication protocols like I2C and SPI, they effortlessly integrate into complex IoT networks.
XDB413 is a robust and dependable hygienic pressure transmitter with a strain gauge sensor core. Its sturdy design, strict quality standards, fully welded stainless steel construction, hard flat diaphragm, wide measurement range, and on-site display make it ideal for precise pressure control in challenging high-viscosity or particle-laden fluids.
XDB414, designed for spraying equipment, features micro-melting technology with silicon strain sensor, imported pressure-sensitive components, digital compensation amplification circuits with microprocessors, stainless steel laser packaging, and integrated RF and electromagnetic interference protection. It excels in precision, reliability, compactness, vibration resistance, and anti-interference capabilities.
XDB600 series micro differential pressure transmitters accurately measure gas pressure and differential pressure using an imported silicon piezoresistive core. With a durable aluminium alloy shell, they offer two pressure interfaces (M8 threaded and cock structures) for direct installation in pipelines or connection via a booster pipe.
XDB601 series micro differential pressure transmitters accurately measure gas pressure and differential pressure using an imported silicon piezoresistive core. With a durable aluminium alloy shell, they offer two pressure interfaces (M8 threaded and cock structures) for direct installation in pipelines or connection via a booster pipe.
XDB602 intelligent pressure/differential pressure transmitter boasts a modular microprocessor-based design with advanced digital isolation technology, ensuring exceptional stability and resistance to interference. It incorporates built-in temperature sensors for improved accuracy, reduced temperature drift, and robust self-diagnostic capabilities. Users can easily calibrate and configure the transmitter through a HART communication manual operator.”
The diffused silicon differential pressure transmitter is composed of a dual-isolation differential pressure sensor and an integrated amplification circuit. It features high stability, excellent dynamic measurement performance, and other advantages. Equipped with a high-performance microprocessor, it performs correction and compensation for sensor non-linearity and temperature drift, enabling accurate digital data transmission, on-site equipment diagnostics, remote bidirectional communication, and other functions. It is suitable for measuring and controlling liquids and gases. This transmitter comes in various range options to meet the requirements of different users.
The intelligent monocrystalline silicon pressure transmitter uses an advanced German MEMS technology-produced monocrystalline silicon sensor chip and a globally unique monocrystalline silicon suspended design, achieving internationally leading high accuracy and excellent stability under extreme overpressure conditions. Embedded with a German signal processing module, it perfectly combines static pressure and temperature compensation, providing extremely high measurement precision and long-term stability across a wide range of static pressures and temperature changes.
The intelligent monocrystalline silicon pressure transmitter uses an advanced German MEMS technology-produced monocrystalline silicon sensor chip and a globally unique monocrystalline silicon suspended design, achieving internationally leading high accuracy and excellent stability under extreme overpressure conditions. Embedded with a German signal processing module, it perfectly combines static pressure and temperature compensation, providing extremely high measurement precision and long-term stability across a wide range of static pressures and temperature changes. The intelligent monocrystalline silicon pressure transmitter can accurately measure pressure and convert it into a 4-20mA DC output signal. This transmitter can be operated locally via three buttons, or through a universal handheld operator, configuration software, displaying and configuring without affecting the 4-20mA DC output signal.
XDB606 intelligent monocrystalline silicon differential pressure transmitter features advanced German MEMS technology and a unique monocrystalline silicon double beam suspension design, ensuring top-tier accuracy and stability, even under extreme overvoltage conditions. It incorporates a German signal processing module, allowing precise static pressure and temperature compensation, thus offering exceptional measurement accuracy and long-term reliability across varying conditions. Capable of precise differential pressure measurement, it outputs a 4-20mA DC signal. The device facilitates local operation via three buttons or remotely using manual operators or configuration software, maintaining consistent 4-20mA output.
The intelligent monocrystalline silicon transmitter, leveraging advanced German MEMS technology, features a unique suspension design and sensor chip for top-notch accuracy and stability, even under extreme pressures. It integrates a German signal processing module for precise static pressure and temperature compensation, ensuring high measurement accuracy and durability. Capable of converting pressure into a 4~20mA DC signal, this transmitter supports both local (three-button) and remote (manual operator, software, smartphone app) operations, facilitating seamless display and configuration without impacting the output signal.
The intelligent monocrystalline silicon remote level transmitter utilizes advanced MEMS technology from Germany to achieve high accuracy and stability under high overpressure. It features a unique double-beam suspended design and is embedded with a German signal processing module. This transmitter accurately measures differential pressure and converts it into a 4~20mA DC output signal. It can be operated locally using three buttons or remotely via a universal manual operator, configuration software, or smartphone app, allowing for display and configuration without affecting the output signal.
