The Muscle Sensor v3 from Advancer Technologies measures, filters, rectifies, and amplifies the electrical activity of a muscle and produces an analog output signal that can easily be read by a microcontroller, enabling novel, muscle-controlled interfaces for your projects. This small board measures 1″ × 1″ and includes six electrodes and a 24″ sensor cable.
This muscle sensor from Advancer Technologies measures a muscle’s activity by monitoring the electric potential generated by muscle cells. This is referred to as electromyography (EMG). The sensor amplifies and processes the complex electrical activity of a muscle and converts it into a simple analog signal that can easily be read by any microcontroller with an analog-to-digital converter (ADC), such as an A-Star or Arduino ? or even a Maestro servo controller as shown in the video above. As the target muscle group flexes, the sensor’s output voltage increases. The exact relationship between the output voltage and the muscle activity can be fine-tuned using an on-board gain potentiometer.
A cable is included for connecting three electrodes to the muscle sensor board. One end of the cable is terminated with a single 3.5 mm audio-style connector that can be plugged directly into the board. The opposite end has three snap-style connectors to make it easy to attach and detach electrodes. Please note that the six included sample electrodes are intended to be single use; replacement electrodes are available directly from Advancer Technologies or from medical supply stores. The board’s power and signal pins have a 0.1″ pitch and work with 0.1″ male headers and 0.1″ female headers.
This sensor’s output signal can be as high as the supply voltage (Vs). If you are using a supply voltage higher than the rest of your system can handle, we recommend using the gain potentiometer to adjust the sensor’s maximum output to an appropriate voltage before connecting the signal line to the rest of your system. Alternatively, you could lower the output voltage using an external circuit such as a voltage divider before connecting it to your microcontroller.
Dimensions: 1″ × 1″ (1.13″ × 1″ including audio-style jack)
Analog voltage output from 0 V to +Vs (supply voltage)
This product needs a positive and negative reference voltage. Two power supplies are required. The sensor has a maximum operating voltage of ±18 V; however, we recommend using no higher than ±9 V to minimize the risk of electric shock. In our experience, supplying ±3.7 V is more than enough to get good performance from the sensor.