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Dual TLC555 Capacitance Meter 0.1pF Resolution

Two 555 timers turn capacitance into an analog voltage readable on a DMM. With a modern 600.00mV scale, that is readable to 10femtofarad.

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I became an avid user of the 555 timer shortly after Radio Shack started carrying the first 555 timers in the '70s. I didn't like the construction articles I saw in magazines, so I designed my own. I kept showing them to people, they'd ask where I bought it, tell me I am a liar, then ask me how much. I lost track of how many I built.

Originally, I used a 50uA panel meter from Radio Shack for the display. Later, when DMMs became reasonably priced, I started building them without a display, calibrated for a 10M DMM. I still have one of my ugly prototypes from then, not the first one, but close to it. It is in an ugly orange plastic box that I think had perfume in it. Good to 0.1pF on the 200.0mV scale and up to 20uF if you let the meter auto up to 2V on the highest scale.

I recently connected it to my new DMM that has a 600.00mV scale, and found it was stable enough at least in the short term to reliably detect 10fF (femtofarad) or 0.01pF changes.

I have used the same basic circuit for all kinds of capacitive sensing. Touch switches, presence sensor, level sensing for liquids from water, to ink, to gasoline and oil.

I built a multiple capacitive sensor that compared capacitance to operate a servo. I was commissioned to do this for a Halloween skull that would rotate to face anyone approaching.

I designed circuits to allow remote sensing with 2 wires, and a circuit that uses a driven shield to shield a large sensor from parasitic capacitance that would otherwise desensitize it. About 20 years later, someone at NASA thought of the same thing and patented it.

The operation of the circuit is fairly simple. Please note that, although I used a TLC556, which is a dual 555 timer in the circuit, on the schematic the pin numbers assume two separate TLC555 timers.

The first section of the timer, wired as an astable oscillator, provides a steady clock signal with a very short Off pulse, which goes to the Trigger input of the second section of the timer.

The second section of the timer is wired as a monostable. The On time is determined by the resistor selected and the unknown capacitance connected to pins 6 and 7.

The output is therefore a PWM signal with constant clock speed, and the PWM percentage is a linear function of the capacitance being measured.

An RC lowpass filters this PWM to a low ripple DC signal. A ten turn trimpot is used as the Calibration adjustment and goes to the red positive lead of your DMM.

The black negative lead of the DMM goes to a voltage divider which compensates for the PWM output caused by parasitic capacitance. This is done as a front panel control for zeroing, so you can attach test leads and zero them out before connecting a capacitor.

C1 is a mylar capacitor, aka polyester film, as it was a reasonably priced temperature stable capacitor in that range of capacitance.

The low pass capacitor at the output is not critical in value or type. I just used a 4.7uF aluminum electrolytic capacitor.

  • Clearer schematic and block diagram added

    Steven J Greenfield01/05/2022 at 21:56 0 comments

    I have redrawn the schematic so it is more clear. I also drew up a block diagram with waveforms and explanation of circuit operation.

    I welcome questions and comments. 

  • Some parts have drifted

    Steven J Greenfield01/04/2022 at 20:08 0 comments

    It has 5 scales based on capacitance per mV. 1pF, 10pF, 100pF, 1nF, 10nF. AKA full scale 200.0pF, 2nF, 20nF, 200nF, and 2uF. In addition, the highest scale is useable to 20uF if you let the meter autorange to 2V full scale.

    I noticed the middle scale, 20nF, is not in agreement with the other scales. I suspect that resistor has drifted. It is, after all, about 30 years old.

    My intention is to replace the resistors with modern metal film 1% and recheck it. Then build a surface mount version as a multipurpose kit, useable as a capacitance meter, capacitive sensor or switch including for remote use, and as a liquid level measurement with continuously variable output.

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