TeleHealth Hardware: Difference between revisions
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**5V, 100ma or less |
**5V, 100ma or less |
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**USB |
**USB |
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**Price, less than |
**Price, less than 5usd |
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* The PIC18F4550, a commonly used MCU supporting multiple channels of 10b ADC and USB, is now being looked at. Our current design borrows heavily from the CREATE USB |
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* [[User:Mchua]] and [[User:Nlee]] have offered assistance |
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* [[User:Mchua]] will likely be handling the programming |
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* BIG STRUGGLING POINT |
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* X.Looking at the C8051F321 until an alternative is found.X |
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* Now looking at the PIC18F2455/2550/4455/4550, a commonly used MCU supporting multiple channels of 10b ADC and USB |
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== Power Supply == |
== Power Supply == |
Revision as of 04:01, 5 February 2008
Introduction
There are currently several groups working on Health sensors for the XO. Some are a simple as a temperature gauge that can be plugged into the audio-in port and used with Measure. But the eventual goal of Health Hardware is a $10USD USB device that can act as a full TeleHealth remote sensor package for pulse, temperature, blood oximeter, and many other simple sensors. This along with built in tools like the Webcam and Microphone it will allow doctors and Health Professionals to diagnose patients from hundreds of miles away. This would greatly stretch the abilities of limited resources for healthcare.
Sensors
EKG
Simple 3 lead EKG for arrhythmia and trauma diagnosis. Also facilitates pedagogical exercises into
- Four parts:
- Connection: Electrodes connecting device to person
- Amplification: Multiplies the voltage of the heart's electrical signal into something computer-usable
- Opto-Isolation: Protection circuits
- USB ADC: Inputs data to the XO
- Main Chipset : The AD8541/2/4 series op-amps fulfill the target specs perfectly.
Target Specs
- Low frequency: -3 db @ 0.1 Hz
- High frequency: -3 db @ 45 Hz
- Patient leakage current: <10 µA with acquisition module connected (meets AAMI standard SCL 1278)
- Chassis leakage current: <100 µA (meets AAMI standard SCL 1278)
- Common mode rejection: 130 dB minimum with balanced leads. With 5Kohm imbalance 100dB
- A/D conversion: 10-12 bits
- Impedance: 100 Mohm, defibrillator-protected (optional for the XO)
- Signal Dynamic range: 10 mV
- Electrode offset tolerance: + - 320 mV dc (this is due to the fact the electrodes get polarized)
EKG Schematic Tentative design similar to the above specs.
Status
- Current problems include tuning op-amps and prototyping.
- Determine efficient alternatives to the classical electrodes.
Pulse Oximeter
An invaluable piece of medical equipment relaying information about pulse and oxygen saturation by analyzing the output of two filtered photo-diodes in two different frequencies. The pulse oximeter operates on the theory that oxygenated and deoxygenated hemoglobin have different absorption and reflection frequencies. The same principle can be applied to any other small organic molecule with identifiable spectra, with proper calibration.
Hardware
Currently nonfunctional design consists of a MAX4006 photodiode signal amplifier connected to a photodiode. A red and IR Led are driven by the MCU alternately. The data from the photodiode will be transmitted to the XO and collated, where, after calibration, it will provide information in both graphical waveforms and numerical statistics.
- Main Chipset: MAX4006 Op-Amp
Problems
- Once again, op-amp tuning
Stethoscope
A simple microphone and audio amplifier to pick up heart, lung and bowel sounds.
Hardware
- Button Mic
- Audio amplifier
- Shielded twisted-pair cable
- Mic plug
ADC
- MCU Specs
- Speed: 25+ MIPS
- 5 or more channels of ADC
- 10 or 12 bits of ADC
- 5V, 100ma or less
- USB
- Price, less than 5usd
- The PIC18F4550, a commonly used MCU supporting multiple channels of 10b ADC and USB, is now being looked at. Our current design borrows heavily from the CREATE USB
- User:Mchua will likely be handling the programming
Power Supply
Due to the nature of medical instrumentation as necessitating high-precision power supply, some combination of a regulator chip, fuse, and smoothing capacitor are needed.
Hardware
- Main Chipset: LP2982
- LP2982 5, 4.5, or 3v regulator
- Over-voltage protector
- Fuse
- USB Connector
- Shielding
Get Involved
Your help is very welcome in this project. If you would like to participate in the Health Jam in Seattle around early April we are looking for organizers and participants.
- Provide talent, time, or treasure:
- If you have experience designing medical instrumentation, and are willing to mentor or assist high school age students...
- If you have extra time and are able to send emails, track down sample components, or raise awareness...
- If you don't know what to do with your old soldering iron, oscilloscope, or components collection...
- Program! We're in need of interested Python programmers.
- Provide expertise! Provide a critique of the procedure and component selection outlined above. We can always use an extra head, especially if you have any experience in the fields of telehealth or telemedicine
People
DyD has been working on designing (and learning everything needed to design) a TeleHealth Module for several months
Mel Chua has been working on the project as well, and is organizing a Health Jam in April to complete the project
Seth Woodworth is the man on the ground in Seattle getting resources organized for the upcoming Health Jam