MIK-2051D monocrystalline silicon differential pressure transmitter Introduction: This single crystal silicon pressure/differential pressure transmitter. The transmitter adopts a modular design with a microprocessor as the core and advanced digital isolation technology as the auxiliary in the circuit design, making the instrument highly anti-interference and stable. At the same time, the transmitter is compensated with a built-in temperature sensor to improve measurement accuracy, reduce temperature drift, and have characteristics such as good long-term stability, high reliability, and strong self diagnosis ability. Structurally, users can easily calibrate, set up, and configure the transmitter through a Hart communication manual operator; Widely used in industrial fields such as petroleum, chemical, power, metallurgy, water management, and brewing. Features: 1. High anti-interference stability 2. Safer and faster 3. Equipped with temperature compensation for low drift 4. High precision and fast response Technical parameters: Measurement medium: gas, steam, liquid Accuracy: ± 0.1%; ± 0.075%; (Limited to partial range of the entire machine only) (including linearity, backlash, and repeatability from zero) Stability: ± 0.1%/3 years Static pressure effect: ± 0.05%/10MPa Power supply: (15-36) VDC Power impact: ± 0.001%/10V, negligible Environmental temperature: (-40~85) ℃ Measurement medium temperature: (-40~120) ℃ Storage temperature: (-40~85) ℃ Display: LCD Display module temperature: (-20~70) ℃ Output: Two wire (4-20) mA, compliant with NAMIRNE43 specifications, with the option of linear or square root output for superimposed digital signals (Hart protocol). Output signal limit: Low alarm mode Imin (minimum): 3.9mA High alarm mode Imax (maximum): 21mA
Introduction: This single crystal silicon pressure/differential pressure transmitter. The transmitter adopts a modular design with a microprocessor as the core and advanced digital isolation technology as the auxiliary in the circuit design, making the instrument highly anti-interference and stable. At the same time, the transmitter is compensated with a built-in temperature sensor to improve measurement accuracy, reduce temperature drift, and have characteristics such as good long-term stability, high reliability, and strong self diagnosis ability. Structurally, users can easily calibrate, set up, and configure the transmitter through a Hart communication manual operator; Widely used in industrial fields such as petroleum, chemical, power, metallurgy, water management, and brewing.
