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  • 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 thermocouple.(Standard products comes with K-Type thermocouples). Because thermocouples can be used over a wide temperature range and thermocouples come in a huge range of probe types, this sensor addresses many industrial applications - and is one of our most popular industrial wireless sensors. Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • This Leap wireless sensor has a standard mini thermocouple connectors that can connect to any thermocouple.  (Standard products comes with K-Type thermocouples).  Other thermocouple types are also available - type-B, type-S, and others. Because thermocouples can be used over a wide temperature range and thermocouples come in a huge range of probe types, this sensor addresses many industrial applications - and is one of our most popular industrial wireless sensors. 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:
  • 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, and receive alerts via text and/or email. Avoid costly downtime and gain operating insight. It's like having X-ray vision into your key processes. This motor condition monitoring sensor is ideal for an IoT predictive maintenance program/cbm maintenance.
    • 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.
    Part of the breakthrough Leap Sensors® system for the IIoT.  

    Watch the video tutorial below.  (Demonstration starts at 10:00 mark).

      Build your quote here:
  • The Leap vibration sensor can measure G-forces of +/-16G and can sample at up to 5 KHz. Customized options include - vibration, tilt, and shock events. The  accelerometer quickly mounts to the motor with magnets. The standard vibration sensor takes a simple yet highly effective approach in monitoring maximum and average g-force trends in all 3 axis.  The accelerometer has optional advanced on-board "edge computing" FFT capabilities, when needed. 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.  An change in AC current to industrial equipment can be an early indication to plan downtime to prevent failures during production.
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  • The Leap wireless pressure transceiver can integrate with every type of WIKA pressure transducer - 4-20mA, 0-10V, and I2C outputs. Contact us to find the best combination or let us know which WIKA sensor you would like us to integrate. Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • The 4-20 mA sensor is one of the most versatile sensors in the Leap Sensors line. It can be integrated with any standard industrial sensor that has a 4-20 mA output, making wireless monitoring possible for countless applications. Breakthrough features include:
    • Battery power provided by the Leap transceiver node - no external power source is needed.
    • Edge computing at the sensor level converts the mA output to the proper unit of measure, such as PSI, volts, or temperature (F).
    Note: wireless 4-20 mA sensors may include consulting services to assure effectiveness for your specific application. Part of the breakthrough Leap Sensors® system for the IIoT.   Build your quote here:
  • Thermocouple Temperature - Vibration - Amp Clamp Electrical Current This breakthrough sensor monitors 3 separate motors (or other rotating equipment such as bearings or gearboxes) and 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, and receive alerts via text and/or email. Avoid costly downtime and gain operating insight. It's like having X-ray vision into your key processes. This motor condition monitoring sensor is ideal for an IoT predictive maintenance program/cbm maintenance.
    • 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.
    Part of the breakthrough Leap Sensors® system for the IIoT.   Watch the video tutorial below.  (Demonstration starts at 10:00 mark).
      Build your quote here:
  • The Leap wireless differential pressure gauge measures low pressures between two barbed ports that are located on the sides of the enclosure. This powerful sensor is often used to replace Magnehelic gauges when continuous wireless monitoring and alerts are needed. The wireless sensor has an optional LCD pressure display and an optional red LED that can be set to blink when pressure thresholds are exceeded.

    Watch the video demonstration.

      Leverage the Leap SensorManager software to send text, email, or telephone alerts when a pressure 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. Ideal for these processes:
    • Exhaust vacuum relative to atmospheric pressure in wafer fab and other manufacturing processes.
    • Clean room differential pressures between rooms.
    • Food processing differential pressures between rooms.
    Contact us to specify exactly what you need. Part of the breakthrough Leap Sensors® system.   Build your quote here:
  • This groundbreaking sensor integrates proximity sensors to count products as they come off the production line. A count-reset button on top of the enclosure resets the count at the end of a shift. With edge computing, the sensor also calculates the time between each product's pass to identify when downtime occurs and its duration. It can then trigger text, email, and telephone alerts when the downtime exceeds certain user-set limits. Set email, text, and telephone alerts when downtime time limits are exceeded (with internet-connected systems). The sensor transmits the data wirelessly across the production floor to a gateway that collects the data and passes the data to the Leap SensorManager user software, PLC, or other plant monitoring software. Data can quickly be downloaded to an Excel spreadsheet to analyze downtime.

    Watch the video demonstration:

      Part of the breakthrough Leap Sensors® system.   Build your quote here:
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