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Electronic Stethoscope-2

U1 operates as a low-noise microphone preamp with a gain of 3.9, and U1b operates as a low-pass filter with a cutoff frequency of 103Hz. U5 is a power amplifier with a gain of 20 that can drive headphones. The circuit includes a microphone, headphones jack, LED, batteries, and switch. To use it, assemble the circuit, attach the microphone to a stethoscope head with a rubber sleeve, press it to the skin, and avoid moving it while listening to heartbeats.

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subhadeep41
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580 views2 pages

Electronic Stethoscope-2

U1 operates as a low-noise microphone preamp with a gain of 3.9, and U1b operates as a low-pass filter with a cutoff frequency of 103Hz. U5 is a power amplifier with a gain of 20 that can drive headphones. The circuit includes a microphone, headphones jack, LED, batteries, and switch. To use it, assemble the circuit, attach the microphone to a stethoscope head with a rubber sleeve, press it to the skin, and avoid moving it while listening to heartbeats.

Uploaded by

subhadeep41
Copyright
© Attribution Non-Commercial (BY-NC)
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as DOC, PDF, TXT or read online on Scribd
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Electronic Stethoscope-2

By Audioguru

Circuit Description:

� U1a operates as a low-noise microphone preamp. Its gain is only about 3.9 because the high output impedance of the drain
of the FET inside the electret microphone causes U1a�s effective input resistor to be about 12.2K. C2 has a fairly high value
in order to pass very low frequency (about 20 to 30Hz) heartbeat sounds.
� U1b operates as a low-noise Sallen and Key, Butterworth low-pass-filter with a cutoff frequency of about 103Hz. R7 and R8
provide a gain of about 1.6 and allow the use of equal values for C3 and C4 but still producing a sharp Butterworth response.
The rolloff rate is 12dB/octave. C3 and C4 can be reduced to 4.7nF to increase the cutoff frequency to 1KHz to hear respiratory
or mechanical (automobile engine) sounds.
� The U4 circuit is optional and has a gain of 71 to drive the bi-colour LED.
� U5 is a 1/4W power amplifier IC with built-in biasing and inputs that are referred to ground. It has a gain of 20. It can drive
any type of headphones including low impedance (8 ohms) ones.

Parts List:

Part Total Qty. Description

R1 1 10K 1/4W Resistor


R2 1 2.2K 1/4W Resistor
R3, R9 0 Not used
R4 1 47K 1/4W Resistor
R5, R6, R7 3 33K 1/4W Resistor
R8 1 56K 1/4W Resistor
R10 1 4.7K 1/4W Resistor
R11 1 2.2K to 10K audio-taper (logarithmic) volume control
R12 1 330K 1/4W Resistor
R13, R15, R16 3 1K 1/4W Resistor
R14 1 3.9 Ohm 1/4W Resistor
C1, C8 2 470uF/16V Electrolytic Capacitor
C2 1 4.7uF/16V Electrolytic Capacitor
C3, C4 3 0.047uF/50V Metalized plastic-film Capacitor
C5 1 0.1uF/50V Ceramic disc Capacitor
C6, C7 2 1000uF/16V Electrolytic Capacitor
U1 1 TL072 Low-noise, dual opamp
U2, U3 0 Not used
U4 1 741 opamp
U5 1 LM386 1/4W power amp

MIC 1 Two-wire Electret Microphone


J1 1 1/8" Stereo Headphones Jack
LED 1 Red/green 2-wire LED
Batt1, Batt2 2 9V Alkaline Battery
SW 1 2-pole, single throw Power Switch
Misc. 1 Stethoscope head or jar lid, Rubber Sleeve for microphone.

Assembly:

1) Assemble the circuit using Veroboard (stripboard) or a PCB.


2) Use a shielded cable for the microphone as shown on the schematic.
3) Fasten the microphone to the stethoscope head with a rubber isolating sleeve or use a short piece of rubber
tubing on its nipple. A thick jar lid can be used as a stethoscope head. The microphone must be spaced away
from the skin but the stethoscope head must be pressed to the skin, sealing the microphone from background
noises and avoiding acoustical feedback with your headphones.
4) The microphone/stethoscope head must not be moved while listening to heartbeats to avoid friction noises.
5) Protect your hearing. Keep the microphone away from your headphones to avoid acoustical feedback.

Circuit Description:

• U1a operates as a low-noise microphone preamp. Its gain is only about 3.9 because the high output impedance
of the drain of the FET inside the electret microphone causes U1a’s effective input resistor to be about 12.2K.
C2 has a fairly high value in order to pass very low frequency (about 20 to 30Hz) heartbeat sounds.
• U1b operates as a low-noise Sallen and Key, Butterworth low-pass-filter with a cutoff frequency of about 103Hz.
R7 and R8 provide a gain of about 1.6 and allow the use of equal values for C3 and C4 but still producing a
sharp Butterworth response. The rolloff rate is 12dB/octave. C3 and C4 can be reduced to 4.7nF to increase the
cutoff frequency to 1KHz to hear respiratory or mechanical (automobile engine) sounds.
• The U4 circuit is optional and has a gain of 71 to drive the bi-colour LED.
• U5 is a 1/4W power amplifier IC with built-in biasing and inputs that are referred to ground. It has a gain of 20.
It can drive any type of headphones including low impedance (8 ohms) ones.

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