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Circuit Archives

Sensors & Transducers/ Voltage


Micro Ohm Meter
Clive Bolton

FB75-1

 

Circuit Description

The Audio Micro Ohm Meter uses synchronous detection to measure low value resistances. The circuit provides a variable frequency audio tone to indicate the resistance under test. Such a tone is invaluable when troubleshooting shorted tracks on multi-layer circuit boards.

Timer U4 generates a 9V 1KHz square wave carrier signal that is injected into Rtest at J1. AC amplifier U2A amplifies the signal. The sensitivity of the circuit may be adjusted by potentiometer R16, which changes the AC amplifier gain over a three to one range. The amplitude of the 1KHz waveform at the output of U2A is proportional to the resistance of the resistance under test, Rtest.  

A synchronous detector formed by U1A, U1B, and U2C demodulates the carrier signal. U1A and U1B are driven by out-of-phase signals PHI and –PHI. Signals that are at the same frequency as the PHI and –PHI drive signals are integrated, and others (such as 50Hz or 60Hz) are rejected.  

Timer U3 functions as a voltage-controlled oscillator that converts the demodulated signal into a variable tone output. U2B turns off the tone when the resistance exceeds several ohms to conserve power.  

A voltage output proportional to Rtest may be taken from the output of U2C. Note that any track resistance between the Rtest GND node and the U1 GND node will be included as part of the measurement. If a calibrated output is desired, U2C may be replaced by an instrumentation amplifier to eliminate this common-mode resistance error and +V to U4 should be regulated to make the carrier signal a constant amplitude independent of power supply variations.  

Note that the power and ground connections for U1, CD4066 are not shown on the part symbol, but are shown at the bottom of the schematic, near J2. U1 pin 14 connects to +V, and U1 pin 7 connects to ground.  

The circuit is constructed out of commonly available components. Just about any op amps, timers, or speaker will work. The specific parts were chosen to minimize power consumption without adding a lot of cost. When constructing the circuit, the ground track from Rtest to the carrier oscillator should be run directly to pin 1 of U4 using heavy wire to minimize the series resistance. Also, the ground wire from speaker SP1 should be run separately to the battery to prevent electrical noise from the speaker from entering into the demodulation circuit. The four U2 op amp sections may be interchanged in any way so as to simplify layout, as may the four U1 analog gate sections.  

The circuit runs off of a single 9V battery and draws about 4mA when the tone is OFF and 10 to 20mA when the tone is ON, depending on the type of speaker used. The total parts cost is under $5.

 Parts List  

Reference

Part

Qty

Substitution Notes

C1,C2,C3,C5,C6,C7,C8

0.01uF capacitor, ceramic disk

7

0.01uF, mylar

C4

4.7uF/10V Tantalum or Electrolytic capacitor

1

2.2uF to 22uF at 10V or higher

J1

2 pin connector, to Rtest

1

 

J2

2 pin connector, to 9V Battery

1

 

R1,R2,R3,R5,R6,R12,R15

10k, 5%, 1/4W

7

10k to 15k, 1/4W

R4

220k, 5%, 1/4W

1

180k to 220k, 1/4W

R7,R10,R11,R13,R14

82k, 5%, 1/4W

5

82k to 100k, 1/4W

R8,R9

22 ohm, 1/4W

2

22 ohm to 33 ohm

R16

500K VAR POT, sensitivity adjust

1

500k to 1meg POT

SP1

SPEAKER, 8 ohms or higher

1

 

U1

CD4066B CMOS Analog Gate

1

 

U2

TLC27M4CN Quad Low Pwr Op Amp

 

LM324

U3,U4

LMC555CN Low Power Timer

2

LM555

 

 

 

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