EEG
EMG
EOG
ECG
Discover Neuroscience with EXG Synapse
Dive into the world of brain-computer interfacing with our DIY kit.
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For All Explorers
Simple and Comprehensive: Whether you're studying, researching, or just passionate about neuroscience, Synapse is your perfect companion. -
Build and Discover
Affordable and Complete: Get hands-on with brain-computer interface technology at an incredible value—only INR 1,200 for the full kit. -
Community Driven
Collaborate and Innovate: With open-source accessibility, join a community dedicated to pushing the boundaries of neuroscience.
Synapse: Your Complete Neuroscience Toolkit
The Neuphony Synapse, priced at just INR 1,200/- is the ideal toolkit for anyone passionate about brain science—from students to professionals.
Kit Contents
The Kit comes with everything you need to get started, including sensors and accessories for seamless biosignal acquisition.
Visualization and Streaming
Easily visualize your data with our visualizer or integrate it into larger projects with Lab Streaming Layer support.
Open Source Projects
Access our Github repository for various biosignal acquisition examples and start creating your own projects.
Technical Specifications of Neuphony Headband
Innovate Human-Computer Interface Solutions using a Single Product
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Signal Compatibility
Biopotential Range: Explain that Synapse works with ECG, EEG, EOG, and EMG signals. -
Device Integration
Wide Compatibility: Detail how it connects with various microcontrollers like Arduino and ESP32. -
Custom Analysis
Flexible Analysis Options: Mention the ability to customize signal output for varied research needs.
Packages and Bundles
Unleash your curiosity with the EXG Synapse Explorer Edition
- PCB: 1 unit
- Jumper Cable (F2F & MtoF: 10 pcs each)
- Snap Cable: 3 Units
- Straight Pin Header: 6 units
- Angeled Pin Header: 6 units
- Resistors (1MR, 1.5MR, 1.8MR, 2.1MR): 1 Unit each
- Capacitors (3nF, 0.1uF, 0.2uF, 0.5uF): 1 Unit each
- Medical EXG Sensors: 6 Units
- Head Strap: 1 Unit
INR 1,200/- Only
I̶N̶R̶ ̶1̶5̶0̶0̶/̶-̶
Ignite innovation with the powerful EXG Synpase Innovator Bundle
- PCB: 1 unit
- Jumper Cable (F2F & MtoF: 10 pcs each)
- Snap Cable: 3 Units
- Straight Pin Header: 6 units
- Angeled Pin Header: 6 units
- Resistors (1MR, 1.5MR, 1.8MR, 2.1MR): 1 Unit each
- Capacitors (3nF, 0.1uF, 0.2uF, 0.5uF): 1 Unit each
- Head Strap: 1 Unit
- Medical EXG Sensors: 18 Units
INR 1,600/- Only
I̶N̶R̶ ̶2̶0̶0̶0̶/̶-̶
For the dedicated pioneers pushing the boundaries of neuroscience
- PCB: 1 unit
- Jumper Cable (F2F & MtoF: 10 pcs each)
- Snap Cable: 3 Units
- Straight Pin Header: 6 units
- Angeled Pin Header: 6 units
- Resistors (1MR, 1.5MR, 1.8MR, 2.1MR): 1 Unit each
- Capacitors (3nF, 0.1uF, 0.2uF, 0.5uF): 1 Unit each
- Head Strap: 1 Unit
- Medical EXG Sensors: 18 Units
- ESP 32 Microcontroller: 1 Unit
- Micro USB Cable: 1 Unit
- NuPrep Gel (25gms): 1 Unit
- Wet Wipes: 1 Pack
INR 2,200/- Only
I̶N̶R̶ 2̶6̶0̶0̶/-̶
Do it Yourself with
Ready to Use
Neuphony EXG Synapse
Kits
and innovators, effortlessly capture EMG, ECG, EEG, and EOG signals.
Explore the brain and muscles—it’s hands-on and exciting
Step by Step Guide to Setup & Use
EXG Synapse Kit
Neuphony Synapse is an easy to setup device which can be used to access ECG, EMG, EOG & EEG data. The following video shows how you can setup, program and test the results in real-time.
EXG Synapse: Fuel for Innovation in Education
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Explore Biopotential Data
Capture and analyze diverse body signals for health and tech applications with Synapse. Perfect for student projects in ECG, EMG, EOG, and EEG. -
Project Pathways
From health monitors to interactive tech, Synapse provides the data for various creative and practical student projects. -
Accessible Technology
Get started on your neuroscience journey with Synapse, priced for accessibility and designed for versatility.
Bring Your Innovative Neuroscience Ideas to Life with EXG Synapse
Explore and Learn with "HCI & Biofeedback Kit" Ready in a Box
Discover the fusion of technology and wellness with our “HCI” Ready Kit in a Box, featuring a biofeedback kit designed to deepen your understanding and engagement with human-computer interaction.
Innovate Human Computer Interface Solutions using a Single Product
Neuphony Synapse has comprehensive biopotential signal compatibility, covering ECG, EEG, EOG, and EMG, ensures a versatile solution for various physiological monitoring applications. It seamlessly pairs with any MCU featuring ADC, expanding compatibility across platforms like Arduino, ESP32, STM32, and more. Enjoy flexibility with an optional bypass of the bandpass filter allowing tailored signal output for diverse analysis.
A Realm of Possibilities for Student Projects and Use-Cases
Neuphony Synapse applications extend to a diverse range of captivating biosensing projects.
Heart Rate Variability Monitor
Create a device that uses ECG data to monitor and analyze heart rate variability, providing insights into stress levels and overall cardiovascular health.
Gesture-Controlled Prosthetics
Create a prosthetic limb or robotic device that responds to muscle movements (EMG), offering amputees or individuals with mobility challenges enhanced control.
Sleep Quality Analyzer
Create a system that analyzes EOG data to track eye movements during sleep, providing insights into sleep quality and identifying sleep disorders.
BCI for Assistive Technology
Build a BCI system that translates EEG data into commands, allowing individuals with paralysis to control devices like computers or wheelchairs.
Setting up the Synapse for Each Biosignal
How to Setup Synapse?
EXG Synapse has configuration options in terms of gain and bandpass filter bandwidth. The user can modify these values depending on the use case. Here is an image showing the resistor pad R9(for gain) and capacitor pad C2(for filter bandwidth).
Programming the Arduino
Flashing Code on ESP32 To flash the required code on ESP32, you need to install Arduino IDE and setup for flashing to an ESP32. You can follow this guide if you don’t find your board listed in Arduino. Once your board is added to Arduino, you can go to this GitHub repository, here you will find all the necessary files for acquiring the data using EXG Synapse. Navigate to the EEG folder and then to Arduino, and download required .ino file. Now compile and upload the code on your board.
Expected Results and Graphs
How to Setup Synapse?
EXG Synapse has configuration options in terms of gain and bandpass filter bandwidth. The user can modify these values depending on the use case. Here is an image showing the resistor pad R9(for gain) and capacitor pad C2(for filter bandwidth). Please read the following Setup Guide carefully.
Programming the Arduino
Flashing Code on ESP32 To flash the required code on ESP32, you need to install Arduino IDE and setup for flashing to an ESP32. You can follow this guide if you don’t find your board listed in Arduino. Once your board is added to Arduino, you can go to this GitHub repository, here you will find all the necessary files for acquiring the data using EXG Synapse. Navigate to the EEG folder and then to Arduino, and download required .ino file. Now compile and upload the code on your board.
Expected Results and Graphs
How to Setup Synapse?
EXG Synapse has configuration options in terms of gain and bandpass filter bandwidth. The user can modify these values depending on the use case. Here is an image showing the resistor pad R9(for gain) and capacitor pad C2(for filter bandwidth). Please read the following Setup Guide carefully.
Programming the Arduino
Flashing Code on ESP32 To flash the required code on ESP32, you need to install Arduino IDE and setup for flashing to an ESP32. You can follow this guide if you don’t find your board listed in Arduino. Once your board is added to Arduino, you can go to this GitHub repository, here you will find all the necessary files for acquiring the data using EXG Synapse. Navigate to the EEG folder and then to Arduino, and download required .ino file. Now compile and upload the code on your board.
Expected Results and Graphs
How to Setup Synapse?
EXG Synapse has configuration options in terms of gain and bandpass filter bandwidth. The user can modify these values depending on the use case. Here is an image showing the resistor pad R9(for gain) and capacitor pad C2(for filter bandwidth). Please read the following Setup Guide carefully.
Programming the Arduino
Flashing Code on ESP32 To flash the required code on ESP32, you need to install Arduino IDE and setup for flashing to an ESP32. You can follow this guide if you don’t find your board listed in Arduino. Once your board is added to Arduino, you can go to this GitHub repository, here you will find all the necessary files for acquiring the data using EXG Synapse. Navigate to the EEG folder and then to Arduino, and download required .ino file. Now compile and upload the code on your board.
Expected Results and Graphs
Neuphony EXG Synapse in Action
ElectroCardiography (ECG)
Electrocardiography (ECG) unveils the intricate dance of the heart through the creation of an electrocardiogram (ECG or EKG). This visual representation illustrates the voltage fluctuations over time, capturing the heart’s electrical activity. By strategically placing electrodes on the skin’s surface, ECG records the nuanced electrical changes accompanying the cardiac muscle’s depolarization and subsequent repolarization during each heartbeat.
The ECG wave recorded with Neuphony EXG Synapse can be found in the following figure.
ElectroCardiography (ECG)
Electrocardiography (ECG) unveils the intricate dance of the heart through the creation of an electrocardiogram (ECG or EKG). This visual representation illustrates the voltage fluctuations over time, capturing the heart’s electrical activity. By strategically placing electrodes on the skin’s surface, ECG records the nuanced electrical changes accompanying the cardiac muscle’s depolarization and subsequent repolarization during each heartbeat.
The ECG wave recorded with Neuphony EXG Synapse can be found in the following figure.
Electrooculography (EOG)
Electrooculography (EOG) emerges as a sophisticated method for gauging the corneo-retinal standing potential, a dynamic electrical charge bridging the front and back of the human eye. The consequential signal derived from this technique is aptly labeled EOG.
The EOG wave recorded with Neuphony EXG Synapse can be found in the following figure.
Electromyography (EMG)
Electromyography (EMG) stands as a sophisticated technique designed to assess and document the intricate electrical activity generated by skeletal muscles. This diagnostic marvel extends beyond, offering a profound examination of muscle health and the neural pathways governing them, specifically the motor neurons. EMG findings unravel potential issues related to nerve function, muscular well-being, or disruptions in the communication between nerves and muscles.
The ECG wave recorded with Neuphony EXG Synapse can be found in the following figure.
Do it Yourself with Ready to Use EXG Synapse Kits
Dive into DIY neuroscience with EXG Synapse Kits! Perfect for students and innovators, effortlessly capture EMG, ECG, EEG, and EOG signals.
Explore the brain and muscles—it’s hands-on and exciting