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Doppler Ultrasound Flow Detector

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Diode Mixer: LT551. Band-Pass Filter: MAX263. Digital Filter (Provided) ... 1KHz - 3GHz Mixer. Manufacturer: Linear Technology. Device: LT5512 ... – PowerPoint PPT presentation

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Title: Doppler Ultrasound Flow Detector


1
Doppler Ultrasound Flow Detector
Sponsoring Organization University of
Connecticut Electrical and Computer
Engineering Department
  • Team Members
  • Timea Mate (EE)
  • Alfred Hajati (EE)
  • Joel Henry (EE)
  • Advisor Quing Zhu

2
Overview
  • Background
  • Statement of Problem
  • Proposed Solution
  • Design Specification
  • Timeline
  • Design Budget
  • Conclusion Q A

3
Background
  • The analysis of blood flow patterns is of great
    importance in assessing Cardiovascular disease.

4
Background (contd)
  • Flow meters are also vital in the detection and
    diagnosis of COPD (Chronic Obstructive Pulmonary
    Disease).
  • These diseases affect the respiratory system and
    some examples are
  • Asthma
  • Bronchitis
  • Lung Cancer
  • Emphysema

5
Background (contd)
  • Doppler Ultrasonography
  • Diagnostic procedure that changes sound waves
    into an image that can be viewed on a monitor
  • May help diagnose
  • blood clots
  • Detects heart valve issues
  • Assessing blood flow in stroke patients
  • viewing the heart to monitor carotid artery
    diseases.

6
Statement of Problem
  • The need to build and implement an Ultrasonic
    Doppler Flow Detector that will measure direction
    and monitor the speed of blood flow.

7
Proposed Solution
Skin Surface
Blood Flow
8
Proposed Solution
9
Design Specifications
  • Main Components
  • Crystal Oscillator HS-49U
  • Transducer Driver (Provided)
  • Ultrasonic Transducer Panametrics
  • Pre-amplifier AD600
  • Diode Mixer LT551
  • Band-Pass Filter MAX263
  • Digital Filter (Provided)
  • Speaker, Pump Labview Interface Graphical
    Output

10
Design Specifications
  • Crystal Oscillator HC-49U
  • Frequency 8 MHz max
  • Load Capacitance 20 F
  • Extended temperature range

11
Design Specifications
  • Transducer Driver
  • Power Amplifier is needed to provide the high
    voltage pulses required to drive the Transducer.
  • For safety reasons, the power amplifier will be
    provided by the sponsor (Electrical engineering
    Department).

12
Design Specifications
  • Ultrasonic Transducer
  • Panametrics Dual Element
  • Transducer
  • Two Crystal Elements
  • Sends a Crossed-Beam Sound Path
  • Improves Near Surface Resolution
  • Reduces Direct Back-Scattering Noise
  • Nominal Element Size 0.25 (6mm)

13
Design Specifications
  • Transducer (contd)
  • Two basic quantities are measured
  • Time of sound travel through the object
    Amplitude of received sound
  • T c ts /2
  • dB 20 log10(A1/A2)
  • Sound Filed
  • Two Zones
  • Near Field
  • Far Field

14
Design Specifications
  • Angle Beam Transducer

15
Preamplifier
  • A high preamplifier input impedance (100?)is
    needed to avoid the signal from the transducer
    being damped.
  • Assuming the peak transducer signal is typically
    a few mVolts and the peak input signal for the
    AD600 is around the same level, than the gain for
    the preamplifier should be 60dB resulting in 1V.

16
Design Specification
  • Ultra-Low Noise Preamplifier
  • High gain means also high noise gain.
  • The challenge here is to build a low noise
    preamplifier to maximize performance.
  • Review data sheets before buying the Op-amp for
    the lowest voltage and current noise spectral
    densities.
  • Minimize the noise figure and maximize the
    signal-to noise-ratio (SNR).

17
AD604 LNA
  • 2 channels with independent gain control
  • Gain 0dB 40dB per channel
  • Low input noise 1.4 nV/?Hz
  • Low distortion -60dBcTHD at 1V output
  • High bandwidth dc to 35MHz (-3dB)
  • Low power 125 mW (maximum) per amplifier

18
AD604 LNA
  • 2 channel 16-lead PDIP (N)
  • The SNR for 1V rms output and a 1MHz noise
    bandwidth is typically 76dB
  • Each amplifier can drive 100? load impedance with
    low distortion.
  • Operating temperature 0C to 70C

19
AD600 LNA
  • By changing VG, we can control the gain of the
    LNA
  • A1HI is the input signal for the LNA
  • A1OP is the output from the LNA
  • A1OP G A1HI

20
AD600 LNA
  • The gain of the AD600 can be calculated by
  • Gain (dB) 32 VG 20
  • We can solve for VG
  • VG (V) Gain(dB) 20 / 32
  • Example Find the VG for a gain of 30 dB?
  • VG 30-20/32 0.3125 V
  • To achieve a gain of 60dB or 70dB, which is
    greater than the maximum gain of one AD600
    channel, a second AD600 channel cascaded in
    series with the first one is needed.

21
AD600 LNA
  • For an 80 dB gain
  • GA1 32VG1 20 32 2.5 - 1.841 20
    41.07dB
  • GA2 32VG2 20 32 2.5 - 1.908 20
    38.93dB
  • Total Gain GA1 GA2 41.07dB 38.93dB
    80dB

22
1KHz - 3GHz Mixer
  • Manufacturer Linear Technology
  • Device LT5512
  • Supply Voltage (VCC1, VCC2, IF, IF) 5.5V
  • Enable Voltage 0.3V to VCC 0.3V
  • LO to LODifferential Voltage 1.5V (6dBm
    equivalent)
  • RF to RF Differential Voltage 0.7V (11dBm
    equivalent)
  • Operating temp -40C to 85C
  • Storage Temperature Range -65C to 125C

23
Design Specification
  • Dielectric BandPass Filter
  • Maxim Pin Programmable BandPass and Universal
    Filter
  • MAX263 Q 64 Mode 4 Clock f 40Hz
    2.0 MHz
  • Center f 0.4Hz 20kHz

24
Design Specification
  • LabView Interface
  • Our Doppler Shift will be inputted in LabView to
    graph the actual output and to display and
    measure speed.

25
(No Transcript)
26
Budget

27
Budget
  • Consumer price
  • Market Comparison
  • Vascular Doppler Meter 470 655
  • Fetal Doppler Meter 390 - 715
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