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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: -
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. Build your quote here:
wireless strain sensor demonstration and tutorial
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The Leap wireless flood detection transceiver utilizes an orange-colored liquid sensing cable that can cover a large area. If water contacts the cable, at any point along its length, the Leap wireless sensor will report that a liquid is present. The software can be configured to send text, email, and telephone alerts when water is detected. A configuration screen allows for entering saturation levels to report the level of wetness. 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: -
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 125ºC (257ºF).
- Readings as fast as every 10 seconds for each of the 9 sensors.
- Field replaceable batteries.
- Data logging capability when the transceiver node is not linked to a gateway.
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This unique Leap wireless sensor can install in the threaded grease zerk hole in bearings. Remove the grease zerk, install the sensor, then re-install the zerk back into the sensor. Grease guns may be used to continue grease the bearing using the zerk mounted on the Leap sensor. Mounting adapters also facilitate easy installation on any type of machine. Accelerometer readings (in all 3 axes) are taken at 5 KHz, then edge-processed into the top predictors of failures. Temperature and 3-axis vibration sensors are mounted in the stainless steel base. Send text, email, and phone alerts when temperature vibration limits are exceeded. Data integrates easily into PLCs or other plant monitoring software. Bulk accelerometer reading downloads are also available as an option. Contact us to talk to an expert and find the best solution. Part of the breakthrough Leap Sensors® system. Build your quote here: -
Track production counts, downtime events, OEE, stop counts, total downtime, and line rate using just a wireless photo eye sensor and our proprietary edge node logic. Works as a conveyor belt stop sensor, while also tracking 10 manufacturing KPIs. The sensor transceiver node wirelessly transmits the data across the production floor to a gateway, which collects the data and passes it to the Leap SensorManager user software, PLC, or other plant monitoring software. Quickly download data to an Excel spreadsheet to analyze downtime.- Calculates the time between each product's pass to identify when downtime occurs and its duration.
- Triggers text, email, and telephone alerts when the downtime exceeds certain user-set limits.
- Count-reset button on top of the enclosure resets the count at the end of a shift.
- Displays current state of the line, up or down.
- Tracks line rate, total downtime and uptime along with Overall Equipment Effectiveness (OEE) since the last count reset.
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This groundbreaking sensor integrates a current switch (or other on/off contact) to track machine availability. This sensor is the ideal solution for many applications monitoring on/off, true/false, open/close types of discrete conditions. Edge computing at the sensor node calculates the amount of time electrical current is flowing above a set threshold, as well as the time not running. It then counts the number of transitions, along with the percentage of time equipment is active. The system triggers text, email, and telephone alerts when the downtime exceeds certain user-set limits. A count-reset button on top of the enclosure resets the count at the end of a shift. Resets can also be configured to automatically be triggered at a certain time.- Works as a idle machine sensor, while also tracking 7 manufacturing KPIs, including: machine utilization, production counts, downtime events, OEE, stop counts, total downtime, and total active time.
- Current state of the equipment, up or down, is also displayed.
- Because the sensor node must always be on to detect any transition, it is powered by a 120V wall transformer via jack at the bottom of the enclosure.
- The sensor transceiver node wirelessly transmits the data via a gateway to the Leap SensorManager user software, PLC, or other plant monitoring software.
- Quickly download data to an Excel spreadsheet to use in machine availability calculations, or display the data on your production floor using our custom dashboard option.
- Ideal for monitoring machine utilization and ROI on large capital investments.
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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 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: -
Sensor transceiver node designed to integrate with a wide range of piezometers that have a mV/V, 4-20 mA, or 0-5 V or 0-12V output. Wireless piezometers are typically used for monitoring fluid pressures or pore water pressure in embankments, boreholes, standpipes, reservoirs, and tanks. Maximum pressure ranges from 100 kPa to 6 MPa. Contact us to find the best piezometer configuration for your specific application. Part of the breakthrough Leap Sensors® system. 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: -
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:
