Part no.: 4223 LevelLite
• High accuracy (1%)
• 5 different bolt and thread mounting options
• Voltage output
• Ideal for fuel and other liquids
The Gill 4223 liquid level sensor is a lightweight, solid-state capacitive liquid level sensor available in an almost unlimited combination of length and mounting arrangements, all delivered in short lead times. It is compatible with a wide range of liquids and is able to operate in high temperatures.
The sensor is a form fit and function replacement for the R-Series sensors as well as bringing the flexibility to be adapted to a broad range of mechanical mounting configurations. Standard stock adaptors are available for 1, 2, 3 & 5 bolt mounting as well as metric and imperial male thread designs.
"*" indicates required fields
Gill
Gill
Gill
Gill
Rotary encoders are used in a variety of applications to provide feedback on position, speed, direction, or angle. There are several different encoder types…
TMR: A New Revolution in Magnetic Rotary Encoders
Abstract: Tunnel magnetoresistance (TMR) sensing is an exciting new chapter for magnetic-based rotary encoders. Requiring less current, while offering higher signal strength, many of the inherent short comings of Hall Effect based sensors can be addressed.
Potentiometers That Make Sense for Sensing
Despite their perceived simplicity, potentiometers can still be an appropriate option in today’s ever-complicated automation industry. Fundamentally a variable resistor, modern potentiometers also offer more traditional outputs such as voltage and current which are common to more expensive sensors.
Osico Oil-Mon: The Ultimate Oil Quality Sensor for Real-Time Monitoring
In the world of industrial machinery and high-tech equipment, maintaining optimal lubrication is not just a matter of efficiency—it’s a necessity for reliability and longevity. Particle contamination, water intrusion, and oxidation can transform lube oil from a machine’s lifeblood into its most insidious foe. While periodic lab analyses provide snapshots of oil health, imagine the possibilities if these critical parameters could be monitored continuously, in real time.