Model | CYX5003 |
Introduction | CYX50 series oil injection core pressure sensors are produced with international advanced high stability and high precision silicon pressure chip, sintered seat with stress optimized design, through patching, gold wire bonding, diaphragm pure plane welding, high vacuum oiling, pressure cycle stress relief, high temperature aging, temperature compensation and other processes. CYX50 series assembly size and sealing method conform to the international 50 clamp interface standard, with good interchangeability. It is mainly used in pharmaceutical, food and other industries with high clean requirements for pressure testing. |
Features | ● measuring range: -100kPa ~ 0kPa ~ 10kPa…6MPa ● pressure type: gauge pressure (G), absolute pressure (A) and seal gauge pressure (S) ● constant current / voltage power supply ● isolated structure, suitable for multiple fluid media ● Φ 50.5mm standard pressure sensor ● all 316L stainless stee |
Technical specifications | Electrical performance ● power supply: ≤ 3.0mA; DC ≤ 10V DC ● electrical connection: 0.2mm2 4-color 100 mm silicone rubber flexible conductor ● common mode voltage output: 50% of current mode input (typical value), 40% of voltage type input (typical value) ● input impedance: 2.7K Ω ~ 5K Ω ● output impedance: 3.0k Ω ~ 6K Ω ● response time (10% ~ 90%): < 1ms ● insulation resistance: 500M Ω / 100V DC ● allowable overvoltage: 1.5 times of full scale Structure performance ● diaphragm material: stainless steel 316L ● shell material: stainless steel 316L ● pressure lead-in tube material: stainless steel 316L ● pin lead: gilded Kovar ● sealing ring: silicone rubber ● net weight: about 160g Environment condition ● vibration: no change at 10gRMS, (20-2000) Hz ● constant acceleration: 100g, 11ms ● media compatibility: liquid or gas compatible with 316L and silicone rubber Reference conditions ● medium temperature: (25 ± 3) ℃ ● ambient temperature: (25 ± 3) ℃ ● humidity: (50% ± 10%) RH ● ambient pressure: (86-106) kPa ● power supply: (1.5 ± 0.0015) mA DC |
