Predictive Maintenance

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Our wireless sensors for predictive maintenance monitor temperature, vibration, current, and more to help you predict equipment failure before it happens. Avoid costly unexpected shutdowns and get more insight into your critical processes.

  • This unique Leap wireless sensor attaches to the top of a silicon wafer for fabrication process monitoring. It is less than 5mm thick, so it fits in wafer processing ovens and other critical fab equipment. The sensor has 9 ultra-small, high-accuracy RTD sensors that are adhered to the surface of the wafer, giving you better accuracy than a wireless thermocouple wafer sensor (tc wafer sensor).
    • 3-wire RTD connection supports long cables while maintaining temperature accuracy during rapid heating.
    • The entire sensor is rated to operate up to at least 125C (257F).
    • Readings as fast as every 3 seconds for each of the 9 sensors.
    • Field replaceable batteries.
    • Data logging capability when the transceiver node is not linked to a gateway.
    This wireless sensor is ideal for monitoring:
    • Silicon wafer processing
    • Temperature chuck testing/verification
    • Scientific experiments
    • Paint and coatings curing
    • Temperature profiling over a surface
        Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • This Leap vibration and temperature device node could not be easier to install. The ultra-strong magnet mounts the device node to the equipment in seconds.  Vibration and temperature is conducted through the magnet to the accelerometer and temperature sensor. Ideal for monitoring large gearboxes, bearings, and motors to detect impending failures. 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

    wireless motor monitor video demonstration
    • 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.
    This motor condition monitoring sensor is ideal for an IoT predictive maintenance program or condition-based monitoring & maintenance.   Part of the breakthrough Leap Sensors® system for the IIoT. Build your quote here:
  • Ideal for monitoring temperature with a non-contact IR sensor. Standard model measures temperatures from -20C to 1000C with a 20:1 field of view. Contact us if you need an application specific wireless sensor with different specifications.   Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • This Leap Sensor comes with a fast-to-install split-core AC amp clamp to sense the AC electrical current going to equipment. Amp clamps are a powerful industrial tool to monitor power usage and to monitor equipment for conditions that predict impending failures.  A change in AC current to industrial equipment can be an early indication to plan downtime to prevent failures during production. A wide range of amp clamps can be integrated with the Leap system.  Contact us with your specific needs.    
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    Prices, Quotes, Questions...

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    Price for 0-50A AC RMS current transformer.  Contact us for pricing on other current transformer options.
  • This wireless sensor communicates via a cellular transmission for remote temperature & flood monitoring.  The internal antenna keeps the transceiver node small and resistant to damage. Sensor transceiver node combines standard mini k-type thermocouple connector for temperature sensing (wide temperature range) and a water sensor for flood detection. No gateway required – ideal for remote locations where standard sensors won’t work. Sensor node transmits via cellular link directly to cloud-based user interface. Receive alerts by email or text. “Practically battery-free”™ - Long battery life (up to 10 years, depending on application & transmission interval). Customize to your specific needs, including options to transmit only when designated thresholds are exceeded.     Part of the breakthrough Leap Sensors system.   Build your quote here:
  • This wireless sensor communicates via a cellular transmission for remote temperature & flood monitoring. Sensor transceiver node combines standard mini k-type thermocouple connector for temperature sensing (wide temperature range) and a water sensor for flood detection or to detect water inside an enclosure. No gateway required – ideal for remote locations where standard sensors won’t work. Sensor node transmits via cellular link directly to cloud-based user interface. Receive alerts by email or text. “Practically battery-free”™ - Long battery life (up to 10 years, depending on application & transmission interval). Customize to your specific needs, including options to transmit only when designated thresholds are exceeded.     Part of the breakthrough Leap Sensors system.   Build your quote here:
  • Wireless rtd temperature sensor is embedded in ultra-strong magnet to mount the transceiver node to your equipment in seconds. Ideal for monitoring large gearboxes, bearings, and motors for overheating. Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • Vibration sensor can measure G-forces . Vibration sensor takes a simple yet highly effective approach in monitoring maximum and average g-force trends of +/-16G and can sample at up to 5 KHz on all 3 axes. The accelerometer has optional advanced on-board edge computing FFT capabilities. Customized options include vibration, tilt, and shock events. Up to 8 vibration modules can be attached to one transceiver node.  The vibration module also includes a temperature sensor.

    Video Demonstration and Tutorial

    wireless motor monitor video demonstration

    Transceiver Node Configuration

    Vibration+Temperature Modules:  The number of vibration/temperature modules (1-8) connected to the Vibration Transceiver Node can be selected on the vibration module page. Build your quote here:
  • Breakthrough technology uses CAN bus to "daisy chain" multiple small strain gauge sensor modules to one wireless Leap transceiver node. Anywhere from 1 to 16 strain gauge modules can be added to the bus. Each CAN strain module can support 2 full-bridge resistive strain gauge sensors, for a total of up to 32 full-bridge strain gauges per transceiver node. Edge processing at the strain sensor level assures a high-quality conversion of the sensor voltage reading to a digital reading, which can then be reliably sent via the CAN bus to the wireless transceiver node. Industrial CAN bus cables can be over 600 feet long. Ideal for wireless monitoring of strain in multiple points along structural components such as I-beams, girders, hanging structures, support columns, railways etc., as well as industrial applications such as rotating shafts in engines, turbines, etc.

    Wireless Strain Demonstration and Tutorial

    wireless strain sensor demonstration and tutorial

    wireless strain sensor demonstration and tutorial

    Contact us to find the best strain sensor configuration for your specific application.     Part of the breakthrough Leap Sensors® system.   Multiple strain sensing modules attach to the transceiver node over a CAN bus. Each module can support two full-bridge strain sensors. The strain modules are ordered separately. Contact Us and an Application Engineer will work with you to provide a detailed final quote that meets your specific application. 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:
  • Wireless transceiver node designed to integrate with all types of load cell sensors.

    Wireless Load Cell Demonstration and Tutorial

    wireless strain sensor demonstration and tutorial

    wireless strain sensor 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:
  • 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

    wireless strain sensor demonstration and tutorial

    wireless strain sensor 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. 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

    wireless strain sensor 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. 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

    wireless strain sensor demonstration and tutorial

    wireless strain sensor 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. Build your quote here:
  • Sensor transceiver node designed to integrate with a wide range of linear position sensors and crack monitors with common outputs such as 0-5V, 4-20 mA, and RS485. The crack monitor is powered from the battery in the Leap transceiver node. When combined with a wireless transmitter, these sensors are very effective at monitoring changes in cracks or other movement over time in remote locations.     Part of the breakthrough Leap Sensors® system.   The linear sensor that meets your specific requirements will be integrated and tested with this device node. Contact us to find the best linear position configuration for your specific application. This external linear crack sensor is not included in this price but will be included in a final quote. Build your quote here:
  • The Leap wireless pressure transceiver can integrate with every type of sensor with an I2C output.  The sensor is powered by the Leap Sensor device battery 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 I2C sensor wireless.     Part of the breakthrough Leap Sensors® system.   Contact us with the details of the I2C that you want to attach to the Leap Transceiver Node. Build your quote here:
  • The Leap wireless oil leak detection transceiver utilizes a blue-colored oil-sensing cable that can cover a large area. If oil contacts the cable at any point along its length, the Leap wireless transceiver will report that oil is present. The software can be configured to send text, email, and telephone alerts when oil is detected. Contact us with questions - or to request a custom length of the water detecting cable.     Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • The Leap ultra-low temperature sensor system gives continuous remote monitoring of the internal temperature of your ultra-low temperature (ULT) freezer (-80C). Set alerts via phone, text, or email to know about issues even if you're not on-site. Streamline auditing processes. Ideal for temperature-critical applications such as laboratories, medical facilities, vaccine storage, medicine storage. This remote monitoring system for ULT freezers is designed with key features that are only available in the Leap product line:
    • High accuracy sensing in the calibrated range from -80C to 5C. Calibration target temperatures are -80C, -65C, and +5C.
    • Optional door-open sensor.
    Note: This temperature sensor is connected to a cable that should not be bent when below -50C. Contact us to find the best combination of features for your facility.     Build your quote here:
  • The Leap wireless transceiver can integrate with most sensors with a CAN bus interface.  The sensor is powered by the Leap Sensor device battery 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 CAN bus sensor wireless.     Part of the breakthrough Leap Sensors® system.   Contact us with the details of the CAN sensor that you want to integrate with the Leap wireless sensor system. Build your quote here:
  • This very unique wireless sensor works by comparing the readings from one device node to another user-selected device node - then reporting the local pressure, local temperature - then differential pressure and temperature as compared to a user selected sensor. For example, sensor A is located outside at ambient temperature and pressure.  Sensor B is located in a clean room under positive pressure and Sensor C is located in a different part of the cleanroom under a higher positive pressure.  Sensor B could be configured to report its pressure and temperature and the differential pressure between Sensor B and Sensor A.  (See the screen shot).  Sensor C could be configured to report its pressure and temperature and the differential pressure and temperature between sensor C and sensor B. Sensor readings are reported in PSIA. Leverage the Leap SensorManager software to send text, email, or telephone alerts when a pressure, temperature, or delta-pressure or delta-temperature threshold is exceeded. Integrate the data from the differential pressure sensors into other software using our web-based API, Modbus, DNP3, or other data interface protocols. The wireless sensor can be configured with pressure sensors that have different ranges, resolutions, and accuracies for different applications. See the specification below for more information on the different options. Pressure sensors can be configured to specific applications.  The pressure and temperature sensors in the photos have the pressure and temperature sensor sealed inside the enclosure with a pressure port in the back of the enclosure.   Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • This Leap wireless sensor has two standard mini thermocouple connectors that can connect to any K-type thermocouple.   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.   Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • The Leap wireless pressure transceiver can integrate with every type of sensor with a 0 - 5 V output.  The sensor is powered by the Leap Sensor device battery with a power supply that can be specified from 0 to 24 volts.  No external power source is needed.   Contact us to let us help you make your selected 0 - 5 V sensor wireless. Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • The Pressurized Dew Point (PDP) wireless sensor monitors the dew point temperature inside compressed air lines. Because water condenses at a higher temperature when the air is pressurized, the sensor sends an alert when the temperature inside the air lines is nearing the dew point. This provides the plant maintenance team ample warning to take action to head off major equipment malfunctions and damage. This Leap sensor integrates the Michell Easidew EA2 Moisture Meter.     Part of the breakthrough Leap Sensors® system.   Build your quote here:
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