four channel ultrasonic receiver team c brian markus (team lead) danny viselman chen jia
TRANSCRIPT
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FOUR CHANNEL ULTRASONIC RECEIVER
TEAM CBRIAN MARKUS (TEAM LEAD)
DANNY VISELMAN
CHEN JIA
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OVERVIEW• Design and create a Four Channel Ultrasonic Receiver,
capable of receiving signals between 30 kHz and 50 kHz.
• Capable of receiving a chirp signal as well as a constant frequency signal (Beacon).
• Will work with Team B’s Ultrasonic Transmitter.
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SYSTEM DESIGN
Level 0
Level 1
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SYSTEM DESIGN (CONT.)
Level 2
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TESTING/EVALUATION• Will use breadboards to build the system. Currently one channel is
built and we have been testing it.
• Initially used a function generator as the input signal to the system.
• Eventually we collaborated with Team B and used their transmitter to receive their beacon signal as well as their chirp signal and recorded the results.
• Once the board is milled we will build all four channels on the PCB and verify that each function simultaneously.
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TESTING/EVALUATION (CONT.)
Figure 1 - Output of the mixer time domain and frequency domain, as well as the 33.5 kHz oscillator waveform
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TESTING/EVALUATION (CONT.)
Figure 2 - Time and frequency output of receiver system (blue and pink, respectively) and transmitted signal from transmitter (yellow)
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TESTING/EVALUATION (CONT.)
Figure 3 - Transmitted signal (yellow), received signal (pink) and beat frequency output (blue) at a distance of 53 cm
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SCHEMATIC
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SINGLE CHANNEL
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BOARD LAYOUT
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SOFTWARE PROCESS
• Local Oscillator
• SPI Protocol• 16 bit binary number to calculate frequency
written to Arduino in Hexadecimal• Digital Amplifier
• 3 bit binary number to write gains of 0,1,2,4,8,16,32,64 Volts/Volt
• Synchronization with transmitter board.
• Rising edge of TTL signal will start transmission process and finish after a predetermined transmission time.
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SIGNAL PROCESSING
• Four different signal into the ADC
• Use “fast” analog read (1us)
• Use FFT libraries to analyze the four frequencies
• Extract Amplitude and Phase information
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Q5: The project organization (WBS, schedule, and org chart) is specific and sufficiently detailed. The project is well planed.
Q7: Project risk has been identified and an good mitigation plan is in place.
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PROJECT MILESTONES
• Signal Acquisition
• Mixer/LO/Filter/Amplifier Hardware design
• Over-voltage protection
• Embedded system design (software) (halfway done)
• Testing and evaluation
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ORGANIZATION CHART
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GANTT CHART
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RISK MITIGATION
High risks:
1. High volume of components
2. Voltage/Current limiting
3. Micro-solder required
4. Vulnerable components involved
5. Collaboration amongst team members and with the transmitter team is crucial.
6. Time limit
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SOLUTIONS:• Be careful, careful, careful, careful and careful
• Using breadboard for testing and data collecting process before soldering the actual PCB
• Schematic design
• One time micro-solder board, no more budget and time for any more duplicates
• Communicate with team B, regardless whether they want to talk to us or not
• try to not loss too many micro parts
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QUESTIONS ?