100% Original Ultrasonic Liquid Level Sensor - Polyurethane and Other High Viscosity Medium Measurement Capacitive Liquid Level Sensor – MEOKON
100% Original Ultrasonic Liquid Level Sensor - Polyurethane and Other High Viscosity Medium Measurement Capacitive Liquid Level Sensor – MEOKON Detail:
Measurement range (guide rod length L):
100…1000mm (bottom dead zone≤20mm)
Measuring medium: liquid
Pressure resistance: 10bar
Media density: ≥0.3g/cm
Power supply voltage: 16…28Vdc
No-load current consumption: ≤30mA, when powered by 24Vdc
Switch output
Output type: PNP / NPN optional normally open normally closed can be set
Output current: <500mA
Voltage drop: 10Kohm
Linearity: ≤±1.5% of range
Wiring protection: reverse phase, overload, short circuit protection
Display: OLED liquid crystal display
Temperature
Working temperature: -20…80ºC
Medium temperature: -20…100ºC
(high temperature type: -50…200ºC, higher temperature can be customized)
Storage temperature: -30…80ºC
Material
Shell: stainless steel 304
Probe rod: PTFE
Protection class: IP67
Outlet method: M12×1 connector directly attached
Application:
- Water, water as the base medium
- Oils, oil-based media, cooling lubricants
- powder
Product detail pictures:
Related Product Guide:
All we do is often involved with our tenet " Purchaser to start with, Rely on initially, devoting over the food stuff packaging and environmental defense for 100% Original Ultrasonic Liquid Level Sensor - Polyurethane and Other High Viscosity Medium Measurement Capacitive Liquid Level Sensor – MEOKON , The product will supply to all over the world, such as: Niger, British, Bangladesh, The president and all the company members would like to provide professional products and services for customers and sincerely welcome and cooperate with all native and foreign customers for a bright future.
By Andrew Forrest from Ukraine - 2018.10.31 10:02
The enterprise has a strong capital and competitive power, product is sufficient, reliable, so we have no worries on cooperating with them.
By Hedda from US - 2018.12.28 15:18