SparkFun
Magnetic Imaging Tile - 8x8
· MPN: SEN-26092
Visualise magnetic fields in real time with a dense 8x8 array of Hall-effect sensors. This tile lets you observe nearby magnets, current flow in wires and fi...
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Visualise magnetic fields in real time with a dense 8x8 array of Hall-effect sensors. This tile lets you observe nearby magnets, current flow in wires and fields generated by electric motors as a live magnetic image.
The sensors are highly sensitive, with best imaging performance within 1cm to 2cm of the board surface. A 16-bit AD7680 ADC is fitted on-board, and the raw analogue signal is also exposed for advanced high-speed capture with a suitable microcontroller.
All firmware and visualisation software is open-source and available in the product repository, with examples provided for ChipKit, Arduino and Processing. The board was developed in collaboration with Peter Jansen of the Open Source Science Tricorder Project.
Features:
- Live magnetic imaging: Creates a real-time visual representation of magnetic fields.
- Dense sensor array: Uses an 8x8 grid of 64 high-sensitivity Hall-effect sensors.
- Nearby field analysis: Suited to detailed analysis of close magnetic sources.
- Open-source software: Firmware and visualisation software are available in the product repository.
- High-speed capture: Supports high frame rates depending on the host controller.
- Raw analogue access: Exposes the raw analogue signal for use with a faster internal ADC.
- Tileable design: Designed to be tileable with a 1-pixel gap.
- Power flexibility: Labelled for 3.3V operation, but can also be safely powered with 5V.
Specifications:
- Sensor Array: 8x8 (64) DRV5053VA Hall Effect Sensors
- ADC: 16-bit, 100kSPS (AD7680)
- Magnetic Resolution: ~0.56 µT (5.6 mG) per bit
- Operating Voltage: 3.3V - 5V
- Current Draw: ~150mA @ 3.3V
- Design: Tileable with a 1-pixel gap
- Dimensions: 2.05 in. x 1.35 in. (52 mm x 34 mm)
- Weight: 7.8 g
- Magnetic Sensor Array: 64x DRV5053VA Hall Effect Sensors (-90mV/mT sensitivity).
- Analog-to-Digital Converter: AD7680 (16-bit, 100kSPS).
- Resolution: With a 3.3V reference, the ADC has a resolution of ~50.3µV per bit.
- Magnetic field change detection: approximately 0.56µT (5.6mG) per bit.
- Optimal imaging range: within 1cm to 2cm of the surface
- Standard 32-bit microcontroller performance: over 76 FPS via serial and up to 200 FPS with buffering.
- High-performance microcontroller performance: approximately 2,000 FPS.
- Onboard ADC theoretical maximum: 1,562 FPS (100,000 samples per second / 64 pixels).
- Raw analog signal theoretical limit: ~20,000 FPS.
A useful board for magnetic field experiments, motor and current visualisation, science demonstrations and advanced maker projects needing a compact magnetic sensor array.
Jargon buster
Plain-language definitions for the technical terms used above.
- ADC
- An analogue-to-digital converter reads a changing voltage and turns it into a number the microcontroller can use. It matters when connecting analogue sensors such as light, sound, or variable-resistor sensors.
- fps
- fps means frames per second, or how many video images are captured or displayed each second. A higher fps generally gives smoother motion, which helps when the camera or the scene being viewed is moving.
- microcontroller
- A microcontroller is a small computer on a single chip that runs a stored program and controls connected inputs and outputs such as buttons, sensors, displays and communication interfaces. In a device built around one, it is the part that executes the code and coordinates the device's behaviour.
Find this product in
Sensors & Input
Magnetic Imaging Tile Schematic
Schematic · 1.1 MB · Click any page to view full size
DRV5053VA Hall Effect Sensor Datasheet
Datasheet · 1.4 MB · Click any page to view full size
AD7680 ADC Datasheet
Datasheet · 342.8 KB · Click any page to view full size
74HC590A Binary Counter Datasheet
Datasheet · 1.7 MB · Click any page to view full size
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CD74HC4067 Multiplexer Datasheet
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Supplier page — sparkfun.com
Supplier Description · 787.3 KB · Click any page to view full size
Resources & Downloads
Guides, code examples, and more
Source Code
Open-source libraries, firmware & example projects for this product
This repo houses all of the SFE Fritzing parts for use in diagrams in tutorials. If you create a new part in Fritzing that correlates to an SFE part, please add it here so others may use it and to avoid duplication.
71b17bb
almost 2 years ago
· 339 commits
- kits Include SparkFun Inventor's Kit V4.1 over 2 years ago
- parts Add Horizontal and Vertical Qwiic Connector and Cable to Breadboard Half (Top View) about 6 years ago
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Tutorial, hardware design files, and example code for the Magnetic Imaging Tile - 8x8.
68fdbfb
26 days ago
· 22 commits
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