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Optical Heart Monitor Jump Drive Group 6

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Gantt Chart. Questions. Pulse Oximeter. Typically a 2 LED system ... Only care about heart rate, not oxygenation levels. ... commercial heart rate monitor PCB ... – PowerPoint PPT presentation

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Title: Optical Heart Monitor Jump Drive Group 6


1
Optical Heart Monitor / Jump DriveGroup 6
  • Sponsor Calit2
  • Mentor Paul Blair, Ph.D.
  • Team Kari Nip, Matt Chandrangsu, Jeffrey Chi

2
Agenda
  • Design Specifications
  • Weekly Progress
  • Gantt Chart
  • Questions

3
Pulse Oximeter
  • Typically a 2 LED system
  • One red LED (660nm wavelength), one infared LED
    (910nm).
  • Absorption of these wavelengths is different in
    oxyhemoglobin and deoxygenated hemoglobin.
  • We only use 1 LED
  • Only care about heart rate, not oxygenation
    levels.
  • Still use a 2 LED device, as it is more readily
    available

4
ADC Specs
  • 10 Bit resolution
  • 65-260 µs Conversion Time
  • Up to 15 ksps at Maximum Resolution
  • Through Nyquist theory, the maximum signal input
    frequency is 7.5 kHz
  • Input heart beat signal (approx. 60 Hz)
  • Previous data found at 250 sps

5
HR Circuitry OpAmp Specifications
  • LM358 chip has two independent operational
    amplifiers on it
  • 100dB voltage gain
  • 3V 32V supply voltage range
  • 2mV input offset voltage
  • 1MHz bandwidth

6
HR Circuitry Sensor

light
7
HR Circuitry
  • Received a commercial heart rate monitor PCB to
    investigate
  • Compared PSPICE simulations to circuit data
  • Familiarized with Eagle Layout editor

8
HR Circuitry PSPICE Simulation
9
HR Circuitry Circuit data
10
HR Circuitry Simulation vs. lab
  • At the maximum points of both output and input
    signal
  • Voltage gain (simulated) 13.655
  • Voltage gain (circuit) 9.337

11
HR Circuitry Eagle layout
12
HR Circuitry Plans
  • Continue working with Eagle Layout editor
  • Refine PCB layout
  • Better component placement
  • Shorter traces
  • Use of vias to make PCB layout more concise

13
Signal Filtering
  • Input Signal and Matched Filter

14
Signal Filtering
  • Convolution of matched filter (f) and input
    signal (g)

15
Signal Filtering Plans
  • Make filtered function square wave signal
  • Develop further understanding of Matlab functions
  • Create filtering program in C

16
File Allocation Table
  • 0-10 File name (8 bytes) with extension (3 bytes)
  • 11 Attribute - a bitvector. Bit 0 read only. Bit
    1 hidden. Bit 2 system file. Bit 3 volume
    label. Bit 4 subdirectory. Bit 5 archive. Bits
    6-7 unused.
  • 12-21 Reserved (see below)
  • 22-23 Time (5/6/5 bits, for hour/minutes/doublesec
    onds)
  • 24-25 Date (7/4/5 bits, for year-since-1980/month/
    day)
  • 26-27 Starting cluster (0 for an empty file)
  • 28-31 Filesize in bytes

17
Interfacing with USB
  • Completed code to control LEDs on development
    board with button presses.
  • Currently researching USB storage code to find
    which functions to leverage.
  • Upcoming Tasks
  • First Going to merge LED control code with
    storage code.
  • Second Implement button press controlled file
    modification

18
Gantt Chart
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