XDB316 IoT Ceramic Pressure Sensors Senders

Features Ceramic core mini sensor can be built-in devices and all stainless steel structure Small and delicate design, specially used for IoT industry Shock-proof for applications with vibrations (in compliance with DIN IEC68) Reliable and resistant thanks to its stainless stainless-steel measuring body and convenient function test Applications Intelligent IoT industry Specifications Pressure range: 0~25 bar (optional)Accuracy:±1.0%FSSupply voltage:5VCD, 12VCD, 3.3VCDOutput: 0.5-4.5V, 0-5V, 1-5V, 0.4-2.4V, I2COperating temperature: -20~105℃Compensation temperature:-20~85℃Operating current: ≤3mATemperature drift (zero & sensitivity): ≤±0.03%FS/℃Long-term stability: ≤±0.2%FS/yearResponse time: ≤3msOverload pressure: 150%FSBurst pressure: 300%FSCycle life: 500,000 timesPressure connection: NPT1/8Electrical connection: Terminal/direct cableHousing material: 304 Stainless steelWater-proof level: IP65Explosion-proof level: ExiaⅡCT6Weight: 0.10kgCable length: 1.0m by default Product Dimensions Installation & Tips 1. Prevent the sensor from contacting with corrosive or overheated media, and prevent dross from depositing in the conduit;2. When measuring liquid pressure, the pressure tap should be opened on the side of the process pipeline to avoid sedimentation and accumulation of slag;3. When measuring gas pressure, the pressure tap should be opened at the top of the process pipeline, and the transmitter should also be installed on the upper part of the process pipeline, so that the accumulated liquid can be easily injected into the process pipeline;4. The pressure guiding pipe should be installed in a place with small temperature fluctuations;5. When measuring steam or other high-temperature media, it is necessary to connect a condenser such as a buffer pipe (coil), and the working temperature of the sensor should not exceed the limit;6. When freezing occurs in winter, anti-freezing measures must be taken for the transmitter installed outdoors to prevent the liquid in the pressure port from expanding due to freezing and causing damage to the sensor;7. When measuring the liquid pressure, the installation position of the transmitter should avoid the impact of the liquid (water hammer phenomenon), so as to avoid the sensor from being damaged by over pressure;8. Do not touch the diaphragm with hard objects on the sensor probe, as it will damage the diaphragm;9. When wiring, ensure that the pins are defined, and no short circuit occurs, which may easily lead to circuit damage;10. Do not use a voltage higher than 36V on the sensor, which may easily cause damage. (The 5-12V specification cannot have an instantaneous voltage higher than 16V)11. Make sure that the electrical plug is installed in place. Pass the cable through the waterproof joint or flexible tube and tighten the sealing nut to prevent rainwater from leaking into the transmitter housing through the cable.12. When measuring steam or other high-temperature media, in order to connect the transmitter and the pipe together, a heat dissipation pipe should be used, and the pressure on the pipe should be used to transmit to the sensor. When the measured medium is water vapor, an appropriate amount of water should be injected into the cooling pipe to prevent the superheated steam from directly contacting the transmitter and causing damage to the sensor.13. In the process of pressure transmission, some points should be paid attention to: there should be no air leakage at the connection between the transmitter and the cooling pipe; be careful when opening the valve, so as not to directly impact the measured medium and damage the sensor diaphragm; the pipeline must be kept unblocked, Prevent deposits in the pipe from popping out and damaging the sensor diaphragm.