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This Leap wireless sensor has eight standard mini thermocouple connectors that can connect to any type of thermocouple (type K is standard). Because thermocouples can be used over a wide temperature range and thermocouples come in a huge range of probe types, this sensor addresses many harsh industrial applications.-
This unique wireless sensor remotely measures the depth of a liquid in a tank or pond using a submersible pressure sensor. The Leap Sensor transceiver node uses edge computing to convert the pressure measurement to liquid depth. Completely battery-powered - no external power source needed. Optional water- and weather-proof enclosure protects the sensor transceiver node. Optional direct-to-cellular technology for remote locations. Data is sent directly to a cloud server. Contact us for the best combination of pressure sensor and other options for your application. Part of the breakthrough Leap Sensors® system. Build your quote here: -
Integrate almost any strain sensor into a Leap Sensors wireless transceiver node for structural health monitoring (SHM) on bridges, overpasses, support beams, and more. Easy to install on existing structures. Be up & running in just a few minutes.Wireless Strain Demonstration and Tutorial
Contact us to find the best strain sensor configuration for your specific application.
Part of the breakthrough Leap Sensors® system.
Strain sensors are not included. Contact us and one of our experts can recommend strain gauges for your application. We offer easy-to-install spot-weld-on strain sensors. We also have a Micro Measurements battery-powered spot welder available for rent.
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The wireless Range Extender acts as a repeater to extend the wireless transmission distance between sensor nodes and the gateway. When a sensor is out of range of the gateway, one or two range extenders may be placed between the two devices to bridge the wireless transmission gap. Range Extenders are powered by 5VDC from a 120VAC wall transformer. Part of the breakthrough Leap Sensors® system. Build your quote here: -
Integrate any sensor with an RS485, RS485 Modbus, or RS232 output into the Leap Sensors system to convert it to a wireless sensor. The sensor is powered by the battery in the Leap transceiver node with a power supply that can be specified from 3.6V to 24 volts. No external power source is needed. Contact us to let us help you make your selected RS485 or RS232 sensor wireless. Part of the breakthrough Leap Sensors® system. Build your quote here: -
Wireless transceiver node designed to integrate with any ring force transducer that has one of these outputs: mV/V, 4-20 mA, or 0-10V. The Leap transceiver node provides power to the ring force transducer. Ideal for monitoring preloads, testing equipment, clamping forces, and remote ongoing force and load monitoring. Contact us to find the best ring force transducer configuration for your specific application. Part of the breakthrough Leap Sensors® system. Build your quote here: -
This unique wireless pressure sensor has the best of both worlds - a mechanical gauge from WIKA integrated into a wireless sensor node. Get the advantages of wireless monitoring alerts, live data, and data storage, while still being able to check current pressure at a glance. Standard WIKA Bourdon tube pressure gauge scale ranges 0 to 1.6 bar to 0 to 400 bar. Other options available. Contact Us to integrate an application-specific pressure sensor with the Leap Sensors wireless system. See the data sheet for detailed specifications. Part of the breakthrough Leap Sensors® system. Build your quote here: -
The Leap wireless pressure transceiver can integrate with every type of WIKA pressure transducer - 4-20mA, 0-10V, and I2C outputs. The external industrial sensor may be powered by an optional 12 or 24V power supply driven from the over-sized Leap Sensor node battery. No external power source is needed with the 12/24V power supply option (LP-1PXX). See below for other options to configure this industrial wireless sensor node to your exact needs. Contact us to find the best combination or let us know which WIKA sensor you would like us to integrate. See the data sheet for detailed specifications. Part of the breakthrough Leap Sensors® system. Build your quote here: -
This unique motor sensor combines 3 different sensors in one multi-sensor node: temperature, vibration, and electrical current. Get continuous remote monitoring of these key predictors of motor failure. Receive alerts via text, email, or phone. Avoid costly downtime and gain operating insight. It's like having X-ray vision into your key processes.Video Demonstration and Tutorial - Wireless Motor and Rotating Equipment Sensor - Vibration, Temperature, Electric Current
- The only system currently available that combines all three types sensors on one transceiver node. Get sophisticated monitoring at a real-world price.
- Installs quickly & safely: temperature sensor and vibration sensor (accelerometer) install quickly with industrial-strength magnets or screw mount. Current sensor is a split-core amp clamp.
- The standard vibration sensor takes a simple yet highly effective and proven approach by sampling at 5KHz and edge-computing the data to report RMS acceleration, RMS velocity, and peak acceleration.
- Store data & manage alerts with our SensorManager.com software, or integrate into your own PLC or other software.
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This vibration and temperature module connects over the CAN bus to the Wireless Motor Monitor transceiver node and send temperature and vibration data. Part of the breakthrough Leap Sensors® system for the IIoT. Build your quote here: -
Wireless transceiver node with an RS485 Modbus RTU interface can read up to 10 Modbus registers to track valuable machine monitoring data. Can be used with almost any Modbus RTU sensor and communication device. Contact us to discuss best options for your application. Connect the transceiver node to a variable frequency drive (VFD) to collect data such as electric current draw, voltage levels, RPM, temperatures, and error conditions. Ideal for predictive maintenance or automated process auditing. Due to the high-power consumption of the Modbus RTU interface, this transceiver node typically uses a external power source to power the node. Battery power is an option if data sampling and transmitting is done every few hours. Part of the breakthrough Leap Sensors® system. Build your quote here: -
Wireless transceiver node designed to integrate with all types of load cell sensors.Wireless Load Cell Demonstration and Tutorial
Contact us to find the best load cell configuration for your specific application. Part of the breakthrough Leap Sensors® system. Build your quote here:wireless strain sensor demonstration and tutorial