Projects...

ARM M4 cortex based Coagulometer

  1. Measuring device for various parameters of blood/ serum like PT/ APTT etc.
  2. Dual technology – Optical and Mechanical
  3. Based on Cortex M4 controller with capacitive touch panel display. Running on Azure RTOS ThreadX.
  4. Completely developed in house – Interfaced with various optical and mechanical sensors..

LoRa based wearable device for safety

  1. End to end development – Wearable, built in with various sensors
  2. Collects the vitals like Heart rate, Body temperature, Immobility and fall detection. Device in the watch form factor – also shows the time, Date and appropriate alert
  3. Data collected by LoRa application server and suitable feedback/ necessary action is taken from backend software
  4. Cortex M4, µCos RTOS platform





Multi channel ECG - DAS

  1. Used ARM7 to interface and collect the data
  2. Store the data on MMC/SD card. Bluetooth interface to mobile phone which in turn connected to cloud.
  3. Targeted for remote/ village health centers
  4. Data collected at village health centers and analyzed by expert/ specialized doctors using data from cloud

“Bio-Acoustic-Guard”

  1. Animal/ Bird/ Pest/ control with “specially designed sound” – using ornithology studies. This product/ application is intended to be used in agriculture fields to “keep away” animals/ bird/ pests etc.
  2. Also used in airport for clearing bird movement around runway before takeoff/ landing.
  3. AES512 bit encryption is used to protect the audio clips
  4. Cortex M3, Bare-metal and RTOS, AES encryption, SW based MP3 decoder.

CAN - Automotive

  1. Designed and developed devices reading the various OBD II parameters of various commercial vehicles
  2. CAN interfaced with 11/ 29 bit extended IDE’s and different speeds from 125 kbps to 500 kbps
  3. Directly interacted with CAN bus of the vehicle to determine various parameters like gear number, parking brake, ignition etc.
  4. Used STM controller with CAN Transceivers.
    Visited various customer vehicles to validate the correct reading of OBD and CAN data (with analyzers)
  5. Initial trials – the debug output was enabled to monitor the behavior of the device (so that user can capture this data and send it for debug if required)

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Have any questions? We are always open to talk about your business, new projects, creative opportunities and how we can help you.