Keep up with and reap the benefits of INDUSTRY 4.0 revolution with ESCOM Enhanced Solutions
Book your place in the trends of the future with our innovative technology approach compatible with industry 4.0 - Self - Powered - Wireless, Batteryless - Ultra Low Power Management - Smart & Green Technology
Never Ending Energy Harvesting
Energy is Everywhere, found all around us. Energy harvesting methods are used to capture these ambient sources and convert into reliable electrical energy for low-energy, wireless, self-powered industrial sensors.
We empower industries with advanced energy harvesting solutions that efficiently capture and convert ambient energy into a reliable power source for wireless, batteryless sensors. Our cutting-edge technology eliminates the need for expensive endless cables, connectors, switches and carrier platforms, providing a sustainable and cost-effective solution for your needs. Say goodbye to the limitations of traditional sensors
Wireless Data Transmission
Transform the data into valuable information and transmit by wireless technologies Our wireless and batteryless sensor technology bring you the independence of wires.
No need to transfer power or data via wire Data collected from batteryless Bluetooth Sensors Network (BSN) are transferred over WiFi or Low Power BLE Technology, converted, and transmitted to the Server via Sensor Hub Module within complete wireless scheme to integrate into your system with various industrial interface options
Sensor Nodes
Self-powered, wireless sensing technology, combined with engineering expertise and rich analytics provides real-time information for our customers needs. Operating without batteries, wireless sensors lead the way of new standard collecting data for the large-scale Internet of Things. Let our sensor nodes contribute to your enterprise
Combine all your requirements with our highly accurate, robust sensing elements or let us to create sensor fusion to widen your application interface. ESCOM Enhanced Solutions’s sensor platform collect the signals from sensors, convert, process complex datasets and transform into valuable information for your ecosystem.
Innovating the Future of Industrial Solutions
Unlock the potential of self-powered, wireless sensors and real-time data analytics with ESCOM Enhanced Solutions. Our innovative energy harvesting, low power consumption, and wireless data transmission technologies are paving the way for a smarter and more inspiring future. Explore our cutting-edge solutions and revolutionize the way you collect and process data in your industrial or domestic applications.
Low Energy Consumption
Highly efficient PM modules that condition and manage the power generated from energy harvesters.
Self-powered wireless batteryless sensor solutions are what we need to collect and process data in smart industrial systems. We combined energy harvesters with electronics that are ultra-low power, resistant to high temperature, sensitive in desired measuring range and reliable wireless communication in our self-powered modules.
Since most energy harvesters in very small volumes only provide very small amounts of power, it is necessary to accumulate over time while the system is dormant and lose only a small amount in the process. Our expertise is to combine low-loss PMS (Power Management System) with our energy harvesting technology.
We integrate a low-loss full-wave rectifier bridge with a high-efficiency buck converter to create a complete energy harvesting solution optimized for wireless batteryless IoT systems. A full-wave AC-DC bridge rectifies the AC inputs from harvester. The rectified output is stored in a capacitor and can be used as an energy store for the low current converter.
Extremely low sleep current (max 2.5 uA) and working current (7 uA) are used in combination with periodic and timed wake up to minimize average power consumption.
5°C
Minimum Condition
Minimum required Δ T is 5 °C for power generation .
19 nW
Power Consumption per Data
Minimum power consumption per data package of ESCOM-ES products, wireless and battery-less sensors.
500 ms
Sampling Rate
Minimum sampling rate of ESCOM-ES products, wireless and battery-less sensors.
138 µW
Ultra Low Power
Average power consumption of ESCOM-ES products, wireless and battery-less sensors.
ESCOM-Es wireless sensors excels with its self-sustaining thermal generator, allowing it to operate efficiently without external batteries, unlike competitors that rely solely on battery power. Its power consumption is remarkably low, consuming only 19 nWh per data transfer and 138 µW at a 500ms interval, which is significantly lower compared to alternatives consuming up to 780 µW at longer intervals. The sensor supports a broad range of sensing elements, including RTD, Thermocouples, and Digital Sensors, providing greater flexibility than options that are limited to fewer types. Additionally, Wit-es offers rapid 500ms sampling rates and can function effectively in temperature difference as low as 5°C, making it suitable for a wider range of conditions.
Compare Features with Global Brands
Wit-es is highly efficient with a power consumption of only 19 nWh per data transfer and 138 µW at a 500ms interval, offering significant energy savings compared to competitors that consume up to 780 µW at longer intervals.
Feature 01
Wit-es utilizes a self-sustaining thermal generator, which reduces the need for external batteries and minimizes maintenance, unlike competitors that rely solely on battery power.
Feature 04
Wit-es can operate effectively in temperature differences as low as 5°C, making it suitable for a wider range of environments compared to competitors that require a minimum temperature difference of 35°C or have unspecified limits.
Feature 03
Wit-es features a rapid sampling rate of 500ms, ensuring real-time data updates, whereas competitors offer slower refresh rates ranging from 10 minutes to 16 seconds.
Feature 02
Specs | ESCOM-ES | Brand1 | Brand2 | Brand3 |
|---|---|---|---|---|
Power Input | Thermal Generator | Thermal + Battery | Battery | Battery |
Minimum Condition for Cont. Running | Min > 5°C * | Min > 35°C | N/A | N/A |
Sampling Refresh Rate (Update Time) | 500ms * | 16 sec | 1 min to 3 days | 10 min |
Power Consumption | 138 µW * @500ms interval | 5 mW | 780 µW @1hr interval | 575 µW @10min interval |
Consumption Per Data Transfer | 19 nWh * | --- | 780 µWh | 85 µWh |
Supported Sensing Elements | RTD - Thermocouple - Digital Sensor | RTD - Thermocouple | Thermocouple | Thermocouple |
Degree of Protection | IP67 | IP67 | IP67 | IP67 |
Explosionproof | ATEX - IECEx ** | ATEX - IECEx | ATEX - IECEx | --- |
* Tested and reported with NOH University Electronic Measurement lab 10/2023
** ATEX is in test stage and not yet certified