Looking for Gy-61 Module? GY-61 ADXL335 – Triple Axis Linear Accelerometer Module is available at Zbotic with fast shipping across India.
The ADXL335 is a small, thin, low power, complete 3-axis accelerometer with signal conditioned voltage outputs. The product measures acceleration with a minimum full-scale range of ±3 g. It can measure the static acceleration of gravity in tilt-sensing applications, as well as dynamic acceleration resulting from motion, shock, or vibration. This breakout board comes with an on-board voltage regulator and works at 5V.
Specifications:
- Three-axis magnetic field accelerometer module.
- Interface: Analog quantity output.
- impact or vibration acceleration in dynamic
- Compact size, low power supply.
- Used for game systems, mobile devices, etc.
- Operating Temperature: -40’C~ +85’C
- Dimension: 0.59 in x 0.59 in x 0.43 in (1.5 cm x 1.5 cm x 1.1 cm)
- Weight : 5 gm
- Build in Logic level converter for I2C
- Designed for 5V logic level
- All sensors connected to the I2C bus
- Free-Fall Detection
Applications:
- FPV, RC and Robots systems
- GPS navigation systems
- Impact recognition and logging
- Gaming and virtual reality input devices
- Motion-activated functions
- Intelligent power saving for handheld devices
- Vibration monitoring and compensation
- Free-fall detection
- 6D-orientation detection.
Package Include:
- 1 X ADXL335 3-axis Analog Output Accelerometer Module angular transducer 3v-5v.
Tutorial:
GY-61 ADXL335 – Triple Axis Linear Accelerometer Module Overview
The GY-61 ADXL335 is a compact, low-power breakout board featuring an Analog Devices ADXL335 3-axis accelerometer. It delivers conditioned voltage outputs for each axis, allowing precise measurement of static tilt and dynamic motion up to ±3 g.
Key Features of GY-61 ADXL335 – Triple Axis Linear Accelerometer Module
- Three-axis acceleration sensing with a full-scale range of ±3 g
- Conditioned analog voltage outputs for X, Y and Z axes
- On-board 5 V voltage regulator—compatible with common microcontroller power supplies
- Ultra-compact PCB footprint and low power consumption (350 µA operational current)
- Ideal for tilt, motion, shock or vibration detection in embedded projects
- Genuine product with fast shipping from Zbotic across India
Applications and Use Cases
- Tilt-angle detection in robotics and balancing platforms
- Motion control input for DIY drones and RC vehicles
- Vibration monitoring in machinery and structural health systems
- Shock event logging in packaging tests and impact sensors
- Gesture and motion sensing for custom gaming controllers
How to Use GY-61 ADXL335 – Triple Axis Linear Accelerometer Module
Begin by wiring the module’s VIN pin to a stable 5 V supply and GND to your system ground. Connect the X, Y and Z output pins to the analog inputs of your microcontroller. After powering up, allow the device to stabilize, then read the voltage levels on each axis and apply a calibration offset in your code to convert voltages into acceleration values.
Why Buy from Zbotic?
- Genuine Products: All items sourced from authorized distributors
- Fast Shipping: Orders ship within 24 hours with tracking (non backordered products)
- Free Shipping: Free delivery on qualifying orders
- COD Available: Cash on Delivery, UPI, cards, net banking
- Technical Support: Expert help for setup and troubleshooting
- Easy Returns: Hassle-free replacement for defective products
Frequently Asked Questions
What supply voltage does the GY-61 ADXL335 require?
The module includes an on-board regulator and operates from a 5 V input. It delivers midpoint analog outputs around 1.65 V at 0 g and swings approximately ±300 mV per g on each axis.
How do I calibrate the accelerometer outputs?
Place the module flat and record the zero-g voltage on each axis (approximately half of VCC). Use these baseline values in your code to offset raw readings, then derive acceleration by scaling the voltage difference against the sensor’s sensitivity (~300 mV/g).
Can I interface the GY-61 ADXL335 with an Arduino?
Yes. Connect VIN to 5 V, GND to Arduino ground, and X, Y, Z outputs to analog inputs A0–A2. Read analog values, apply calibration offsets, and convert counts to g-units in your sketch.
Technical Specifications
| Model | GY-61 |
|---|---|
| SKU | AI1534 |
| Weight | 0.0 kg |
| Availability | Out of Stock |
Applications & Use Cases
The GY-61 ADXL335 - Triple Axis Linear Accelerometer Module is a versatile imu, accelerometer, magnetometer & gyroscope used across a wide range of applications including electronics projects, DIY builds, prototyping, and educational experiments.
Common use cases:
- Integrating into a custom electronics project
- Learning and experimenting with circuits
- Replacing or upgrading components in existing setups
This product is ideal for electronics enthusiasts, engineers, and students.
Technical Tip: Always verify voltage and current requirements before connecting to your circuit. Check datasheets for detailed specifications and pin configurations.
Shipping & Delivery
- Free shipping on orders above ₹999 across India
- Dispatched within 1-3 business days
- Expected delivery: 3-7 business days depending on location
- Secure packaging to ensure safe transit of electronic components
Nikita Solanki (verified owner) –
Outstanding accuracy from this GY-61 ADXL335 – Triple Axis Linear. Compared with a professional instrument, readings match closely.
Karan Patel (verified owner) –
Nice GY-61 ADXL335 – Triple Axis Linear. Readings are mostly accurate. Good enough for my hobby project.
Piyush Gill (verified owner) –
Bought this GY-61 ADXL335 – Triple Axis Linear for my college project. Accurate readings, easy to code. Very happy!
Darshan Bisht (verified owner) –
Great quality GY-61 ADXL335 – Triple Axis Linear. Calibrated it easily and the accuracy is impressive.
Arun Khanna (verified owner) –
Outstanding accuracy from this GY-61 ADXL335 – Triple Axis Linear. Compared with a professional instrument, readings match closely.
Rishabh Banerjee –
Good GY-61 ADXL335 – Triple Axis Linear. Works as described. Calibration needed some patience but results are good.
Raj Bhat (verified owner) –
Very satisfied with this GY-61 ADXL335 – Triple Axis Linear. Library support is good and it’s easy to interface.
Nakul Das (verified owner) –
Great GY-61 ADXL335 – Triple Axis Linear. Using it in my smart agriculture system. Reliable measurements every time.
Aditya Bhatt –
Perfect for my weather station. This GY-61 ADXL335 – Triple Axis Linear gives consistent readings day and night.
Yogesh Parekh (verified owner) –
Very satisfied with this GY-61 ADXL335 – Triple Axis Linear. Library support is good and it’s easy to interface.
Shreyas Saxena (verified owner) –
This GY-61 ADXL335 – Triple Axis Linear is excellent for the price. My data logging project is working perfectly now.
Suresh Reddy (verified owner) –
Love this GY-61 ADXL335 – Triple Axis Linear. Response time is fast and readings are stable.
Rohan Panchal –
Love this GY-61 ADXL335 – Triple Axis Linear. Response time is fast and readings are stable.
Uday Tandon (verified owner) –
Good quality GY-61 ADXL335 – Triple Axis Linear. Some variation in readings but within acceptable range.
Ashwin Solanki –
This GY-61 ADXL335 – Triple Axis Linear is a must-have for sensor projects. Plug and play with Arduino.
Urmi Dubey (verified owner) –
Perfect for my weather station. This GY-61 ADXL335 – Triple Axis Linear gives consistent readings day and night.
Vinay Rao (verified owner) –
Excellent GY-61 ADXL335 – Triple Axis Linear! Readings are accurate and consistent. Perfect for my project.
Nikita Ghosh (verified owner) –
This GY-61 ADXL335 – Triple Axis Linear is a must-have for sensor projects. Plug and play with Arduino.
Hitesh Saini (verified owner) –
Perfect for my weather station. This GY-61 ADXL335 – Triple Axis Linear gives consistent readings day and night.
Prashant Mishra (verified owner) –
Outstanding accuracy from this GY-61 ADXL335 – Triple Axis Linear. Compared with a professional instrument, readings match closely.
Isha Chauhan (verified owner) –
Love this GY-61 ADXL335 – Triple Axis Linear. Response time is fast and readings are stable.