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C A N S A T

A Deployable Edge-Intelligent Sensing & Telemetry Platform

Distributed Edge Compute with Integrated Telemetry

Built for real environments, CanSAT delivers edge intelligence directly at the source—processing sensor data locally, reducing latency, and enabling autonomous operation even in low-connectivity conditions.

CanSAT

CanSAT is a compact, self-contained sensing and edge-computing platform inspired by satellite architectures and designed for real-world environmental monitoring, remote data acquisition, and autonomous field deployments. Housed in a rugged cylindrical form factor, it integrates compute, sensing, power management, storage, and long-range communication into a single deployable unit.

Built for real environments. Built for data. Built to operate autonomously.

  • All-in-one sensing, compute, and telemetry system
  • Edge processing with real-time decision capability
  • Designed for outdoor, mobile, and remote deployments
CanSAT Full Set
Rs. 5499
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32-Channel Sensor I/O Pipeline

Dedicated analog and digital input paths supporting simultaneous multi-sensor sampling without external multiplexers.

9-DOF Motion & Vibration Analysis

Accelerometer, gyroscope, and magnetometer enable orientation tracking, vibration profiling, and dynamic motion analysis.

GNSS-Time Synchronized Data

GPS provides geolocation and absolute time reference for spatially and temporally aligned datasets.

2S 5000 mAh Energy System

High-capacity battery with regulated multi-rail power delivery for compute, sensing, and communication subsystems.

Standalone Human Interface
Integrated OLED, rotary encoder, buttons, LEDs, buzzer, and vibration motor for local control and feedback.
Payload Expansion Interface
Exposed GPIO, I²C, SPI, UART, servo, and motor drivers for custom payloads and actuation modules.

The Unique Capabilities & Advantages of CanSAT

Dual-Domain Edge Computing

CanSAT combines a real-time microcontroller with a Linux-based edge processor, enabling deterministic control tasks to run alongside advanced analytics, image processing, and AI workloads.

Integrated Atmospheric & Motion Profiling

A tightly coupled sensor stack captures pressure, temperature, humidity, UV, VOC, and full 9-DOF motion data, enabling high-resolution environmental and dynamic analysis in real deployments.

Synchronized Sensor Fusion

All onboard sensors operate within a unified timing framework, allowing multi-modal datasets to be time-aligned for accurate correlation, fusion, and post-processing.

Long-Range, Low-Power Telemetry

Sub-GHz LoRa communication enables reliable data transmission over kilometer-scale distances with minimal power consumption, ideal for remote and off-grid monitoring.

Autonomous Power Architecture

A high-capacity battery system with integrated charging, monitoring, and solar input enables extended, unattended operation with intelligent power management.

GPS-Referenced Data Collection

Built-in GNSS provides precise location and time stamping, ensuring spatially and temporally accurate datasets for mobile and distributed sensing applications.

Onboard Data Logging & Offline Operation

Local microSD storage supports high-frequency data logging, allowing CanSAT to continue operating and recording data even when communication links are unavailable.

Image translation

AI image generators can translate images from one domain to another, such as transforming a daytime scene

GPS-Synchronized Multi-Sensor Data Acquisition  

CanSAT implements a GNSS-referenced timing and positioning layer that synchronizes environmental, motion, and system data streams to a common spatial and temporal frame. By combining onboard GPS time signals with continuous sensor sampling, the platform enables accurate correlation of pressure, temperature, IMU, and telemetry data across time and location.

This architecture supports real-world applications such as atmospheric profiling, mobile asset monitoring, trajectory reconstruction, and distributed sensing—where precise time and position alignment are critical for data validity and post-analysis.

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Time Reference Drift

GNSS-locked timestamps for sensor fusion and motion analysis

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Geotagged Data Streams

Every measurement linked to absolute location and time

9-DOF Motion & Vibration Sensing

CanSAT integrates a multi-parameter atmospheric sensing suite capable of continuously measuring pressure, temperature, humidity, UV exposure, and volatile organic compounds. This sensor stack enables layered environmental profiling and micro-climate analysis in real-world conditions.By combining atmospheric data with motion, location, and time references, CanSAT supports high-resolution environmental monitoring, air-quality assessment, and localized weather and exposure studies.

5-Parameter Environmental Sensing
Pressure, temperature, humidity, UV index, and VOC levels
Barometric Altitude Resolution
Fine-grained altitude and pressure variation detection

Reliable Long-Range Telemetry for Remote Environments

CanSAT integrates a Sub-GHz LoRa communication system engineered for low-power, long-range data transmission in connectivity-limited and off-grid environments. The platform enables stable, energy-efficient telemetry over kilometer-scale distances, supporting autonomous sensing, event-driven alerts, and continuous remote monitoring without reliance on cellular or high-bandwidth networks.

Designed for distributed sensor deployments and field instrumentation, the telemetry layer supports burst-based data transfer and seamless integration with fixed or mobile ground stations.

Kilometer-Scale Range
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The trials of every day
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product gallerySome views of the product

exploded technical drawingsAdvanced hardware packet on a pocket size device

Product Technical Specifications

Processing & Power
  • Atmega2560 processor
  • 60+ integrated pinouts
  • Solar power input support
  • 2S 5000mAh LiPo battery
  • Mini USB power & programming
  • LED status indicators
Environmental Sensing
  • Ambient pressure sensing
  • Ambient & touch temperature sensing
  • Humidity sensing
  • Light detection sensing
  • MQ gas sensor for CO detection
Motion & Orientation
  • 3-axis accelerometer
  • 3-axis gyroscope
  • 3-axis magnetometer
  • Motion & orientation tracking
User Interface & Feedback
  • Adjustable control knob
  • Physical control buttons
  • Magnetic signaling buzzer
  • 1.14-inch OLED display
Storage & Expansion
  • MicroSD card storage
  • Quick payload connector
  • IO communication data pins
  • External sensor integration
Communication & Tracking
  • GPS location tracking
  • Xbee wireless transceiver
  • Xbee ground station module
  • Long-range communication support
Actuation
  • Servo driver support
  • Precision motion control
  • Actuation experiment capability

how it worksFrom Programming to Deployment with CanSAT

CanSAT is designed to support complete real-world workflows—from system configuration and sensor setup to autonomous field deployment and data analysis—using a single integrated edge-intelligent platform.

01
Configure

CanSAT is configured and programmed through USB-C or wireless interfaces. Users set sensor sampling rates, communication modes, power profiles, and application logic. Real-time control runs on the ESP32 while advanced processing and analytics execute on the onboard edge processor.

02
Deploy

Once deployed, CanSAT operates autonomously as a self-contained sensing system. Integrated sensors continuously capture environmental, atmospheric, motion, and system data while onboard processing evaluates data locally in real time.

03
Transmit & Log

Key data and alerts are transmitted using long-range Sub-GHz LoRa telemetry. At the same time, high-resolution datasets are stored locally on the microSD card to ensure complete data capture during intermittent connectivity.

04
Monitor & Analyze

Data can be monitored live through a ground station or retrieved after deployment for detailed analysis. All measurements are time- and location-referenced using integrated GPS for accurate correlation and interpretation.

Explore Launchpad

applicationsDeployment Scenarios

Environmental Monitoring

Continuously measure temperature, humidity, air quality, and UV exposure in outdoor and remote environments.

Atmospheric Profiling

Analyze pressure, altitude, and environmental variation for localized weather and atmospheric studies.

Remote Asset Monitoring

Track vibration, environmental conditions, and operational health of infrastructure and equipment.

What’s inside the box:

1. CanSAT
2. Modular Casing
3. Battery
4. Programming Cable
5. Expansion Cable
6. Manual

Fun with the CanSAT module

faqEverything You Need to Know About CanSAT

CanSAT is a compact, deployable edge-intelligent sensing platform that integrates multi-sensor data acquisition, onboard processing, long-range telemetry, and autonomous power management in a single system.

CanSAT is designed for environmental monitoring, atmospheric profiling, remote asset monitoring, mobile sensing, edge computing research, and off-grid deployments.

CanSAT includes environmental, atmospheric, motion, optical, and acoustic sensors such as temperature, humidity, barometric pressure, UV, VOC, a 9-DOF IMU, camera, and microphone.

CanSAT is configured and programmed via USB-C or wireless interfaces, allowing users to define sensor behavior, communication modes, power profiles, and edge processing logic.

CanSAT supports Sub-GHz LoRa for long-range telemetry, Wi-Fi and Bluetooth for local connectivity, GPS for positioning, and optional cellular communication.

CanSAT operates on a high-capacity Li-Po battery with USB-C charging and optional solar input, enabling autonomous operation in off-grid environments.

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