Programmable Chip EEG

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The Programmable Chip EEG

Welcome to the PCEEG Wiki, where everyone can add to this EEG brain-computer interface!

PCEEG, What it is and why it can be the best

  • The The Programmable Chip EEG gets its name because its hardware and software can be adjusted digitally from a home pc.
  • The Programmable Chip EEG is a Modular Multi-channel electroencephalograph.
  • This can be used for a brain-computer interface with biofeedback using a flex sensor or servo to detect fingure movements.
  • The LT1168 Programmable-Gain Precision Instrumentation Amplifier is used to amplify the weak electric signals coming from the brain through electrodes attached to the scalp, and has internal protection circuitry for the user.
  • Several matched LT1114 Low Power Precision OP-Amps are used for amplification and filtering of the signals.
  • ESD Protection in LT1168 Programmable-Gain Precision Instrumentation Amplifier Chips have been chosen that fallow the human body model of esd protection this can be seen in the 1168 datasheet.
  • To reduce noise in the readout of the analog part of this circuit, a common-mode feedback is passed back into the body by the driver right leg circuit, for example, 60Hz noise from nearby A/C power wiring.
  • The analog signal prossesing board will digitize the signal and pass the data to the control board. The control board is based on the AVR Mega168 which will, further process the signals, and provide an interface to a computer.
  • we are using the AVR Mega 168 or Mega8.
  • AVR C and the AVR Mega 168 allows for a complete open source system...

News

The design is switching from LT switcher CAD (aka LTspice SwitcherCAD) to EAGLE CAD, because the auto-router is excellent for open-source productivity. It will allow the design to evolve faster and with less work with a wider selection of PCB Manufacturers.

The robot arm interface by Miguel Nicolelisis very inspiring. He used implanted electrodes to monitor and allow monkeys to control a robot arm as if it was their own. Could the PCEEG do the same with its electrodes on the scalp. Only the future will show.

Status

  • Editing the code of the Open EEG and Monolith EEG to be more portable and utilize avr-libc libraries more.
  • Using the open Boarduno design to prototype the design.

Hardware Overview

Here is a diagram of how the analog signal processing boards and the microprocessor board will come together. Pceeg.jpg Here is how the analog signal prossesing board will come together. Newpceeghddesign.png

Description of How it Works

The daughter signal prossesing board is responcible for filtering and digitising the signals from the body, then the signals are passed to the control board that is the motherboard. The motherboard then can pass the signal to a larger computer.

The differential analog signal is amplified by the instramentation amplifier. Then the signal is digitised by a analog to digital converter. The a/d converter has aproxamitly 20 bits acuracy so the signal does not have to be conditioned or filtered as much.

The common mode signal is inverted summed and sent back to the body to decrese common mode signal thsi is done by the driver right leg circuit.

Then the analog signals are simultaniously digitized and the digital values can be clocked to the controler motherboard.

The controler board is based off the open Boarduno design that is the mother board of the system and the signal prossesing daughter boards plug into is the Atmel AVR Mega 168 using AVR GCC.

Parts used in the PCEEG:

ESD Protection in 1168

Chips have been chosen that fallow the human body model of esd protection this can be seen in the 1168 datasheet.


To reduce noise in the readout of the analog part of this circuit, a common-mode feedback is passed back into the body by the driver right leg circuit. Band reject filter may also be used (to reject, for example, 60Hz noise from nearby A/C power wiring).

The analog signal prossesing board will digitise the signal and pass the data to the control board. The control board is based on the UBW which will, further process the signals, and provide an interface to a computer & lcd display.

A/D Converters

The programmable chip EEG needs an A/D converter to convert the analog signal (at the output of the instrumentation amplifier) into digital bits. We expect this project to require at least 20 bit ADC. It will amplify the signal less requiring less analog signal processing and use the more sensitive a/d converter to make up for less amplification and cause less signal attenuation.

  • $12.00 The ads1255 or ads1256 by ti is a great a2d converter it has programmable gain and digital low pass filtering with 24 bits of resolution 30KSPS. It is a 20-SSOP so it can be soldered by a hotplate or hot air rework tool.

The newest system is a dc amplifier without a high-pass, and all the low-pass filtering is digital

DCDC converter

The design is based on the modular eeg and monolith eeg they use a TMV0505S, but it is not available in many places. It will be replaced with NMV0505SA. This converter has a rather high output voltage (6-7 V) at very light loads. Therefore, when building the digital board measure the voltage in the +5V/3 of modular eeg designnet, e.g. at IC103 pin 8.

The voltage should be LESS than 6V. If not, you must reduce the value of R127 (near the LED), in order to present the DCDC converter with a higher load.

Software Tools

  • EAGLE CAD is being used to create the first PCB. surface mount is used to save space.
  • gEDA tools may be a option for opening this design to a wider audience.
  • Maxima a computer algebra system s used for graphing and math displays.
  • SPI interface code for a/d converters from TI for developers

How You Can Help

  1. . get the tools

Open Source Circuit Design

ideas for future work

Currently most EEGs (and EKGs) have "passive electrodes" -- it's a conductive button pressed against the skin, with a long wire that takes the faint signal to the amplifier in the box.

A few EEGs have "active electrodes" -- the amplifier is on top of the conductive button, and sends a strong analog signal down the long wire to the ADC in the box.

User:DavidCary is thinking about going one step further: put the amplifier and the ADC on the electrode, sending out digital packets to the box. Can I do all that with a single chip -- an 8-pin PSoC? Also, instead of each electrode having its own dedicated wire to the data collection box, all the PSoCs are connected in a string (or some other network), forwarding packets from one to the next, so no matter how many electrodes are connected, only about 4 wires (2 power + 2 digital data) are connected. I haven't decided yet whether it's better to have every node do both -- sample data and forward packets -- or if I should split them up, with PSoCs sampling data and sending it to a hub, and hubs (perhaps not PSoCs) forwarding data from a few local PSoCs and from other hubs. --DavidCary 08:50, 10 October 2007 (PDT)


Open source (public) results!

PHP will be used to create a database of users and what they sample and choose to share with the open source community.

The database will give statistical analysis on users recordings.

Also the extension of SETI called BIONIC could be used as a distributed library creation of artifacts and data mining.

Please contribute and make the PCEEG a great tool for researching brain computer interfaces.


See also: