The following technologies are developed as spin-off during regular R&D activities and are available to industries/ startups on non-exclusive basis.
||UV based area sanitization device to inactivate various micro-organisms including corona viruses
||Tablet computer based, user-friendly portable optical spectroscopic device for screening/ diagnosis of oral cavity cancer
||A low-cost fluorescence imaging device for rapid diagnosis of tuberculosis (TB)
||The Raman probe is meant for in situ measurement of good quality Raman spectra from low Raman-active materials like biological tissues
||Vision Enhancement Module (VEM)
||A low cost fluorescence imaging tool for in-vivo screening/diagnosis of malignant and potentially malignant lesions of human oral cavity
||Laser additive manufacturing system using powder-fed Direct Energy Deposition (LAM-PF-DED)
||Laser Additive Manufacturing (LAM) has brought a paradigm shift to “feature based design and manufacturing” and is being considered as an integral part of fourth industrial revolution
||Bonding and Packaging, and Testing Technology of High Power Laser Diode Arrays for Diode Pumped Solid State Laser Module
||Technology for the bonding and packaging of high-power laser diode arrays
||Sheetal Vahak Yantra (SHIVAY-V)
||Liquid Nitrogen Based Transportable Refrigeration System- Sheetal Vahak Yantra (SHIVAY-V) for transportation pharmaceutical products (including vaccines) at any temperature, up-to minus 70 °C
||Sheetal Vahak Yantra (SHIVAY)
||Liquid Nitrogen Based Transportable Refrigeration System- Sheetal Vahak Yantra (SHIVAY) intended for transportation of fruits vegetables & Pharmaceuticals products caters up-to requirement of minus 40 °C temperatures.
||An import substitute product extensively used for variety of high end microwave circuit applications such as high power solid state amplifiers, patch antennas, mobile base stations etc.
||Agni Rakshak - Raman optical fiber based distributed fire sensor system
||'Agni-Rakshak' is a Raman optical fiber distributed temperature sensor has applications in fire monitoring in hospitals, buildings, road & rail tunnels, stations, cable trays of power cables, high-capacity transformers, coal conveyors, warehouse and storage, cement industry, oil & gas Industry, Nuclear industry and sensitive installations, etc.
||60 kW RF Broadband Dual Directional Coupler
||Directional Coupler is an indispensable measurement tool that provides a convenient and accurate means of sampling of RF energy in high power RF systems.
||High-stability, Current-controlled, Card-based, True-bipolar, Switch-mode Power Converter for Electromagnets
||This is a high-stability, output-current-controlled, switch-mode, true-bipolar power converter for electromagnet, capable of delivering output current of +/- 15 A maximum, with output current stability within +/- 100 ppm of the full-scale current. It operates on 60 V DC maximum input and developed on a single 6U four-layer PCB.
||High-stability, Current-controlled, Card-based, Unipolar, Switch-mode Power Converter for Electromagnets
||The power converter is capable of delivering unipolar output current of 15 A maximum with output current stability within +/- 100 ppm of the full-scale current. It operates on 230 V, 50 Hz ac mains and is developed on a single 6U double-sided PCB.
||Radio Frequency Amplifier Modules (RFAM)
||RF amplifier modules are indispensable part of any high-power system/ transmitter.
||Radio Frequency Directional Power Sensor
||For high power Radio Frequency (RF) systems, power monitoring and sampling, at different junctions is a necessary process for system commissioning, fault debugging and health monitoring
||Rigid Coaxial Transitions
||High power rigid coaxial line RF components like Power Combiners, Directional Couplers, RF Circulator and Rigid Coaxial line sections are integral parts of any High-power RF system
||Variable Collimated Hollow Laser Beam Generator
||Variable Collimated Hollow Laser Beam Generator is a device which has been developed to generate a collimated hollow laser beam of variable diameter from an input laser beam of Gaussian/uniform spatial profile