DN060-02v04
JYE Tech - 1 -
www.jyetech.com
Capacitance Meter Manual
Features
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About 1% accuracy. No calibration needed.
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Measuring range: 1pF - 500µF
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Automatic range select
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Zeroing available
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Real time serial output of measurement read-outs with time stamp
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Low cost and easy to build
How to assemble
1.
Install components listed in the BOM onto PCB by following schematic and labels. Please ignore
components that are not listed in the BOM even they appear in schematic and PCB. These parts are
designed in for possible change in future or serve as options. Without them the meter works fine.
2.
Please note the polarity of C5 and C6. Their positive poles should go into the square pads.
How to Use
Measurement:
Insert the capacitor to be tested into J5. Capacitance will be displayed. Alternatively caps not fitting
into J5 can be connected through J3 with a pair of clips. Usually large caps take longer to show results
but should not longer than 2 seconds.
Zeroing:
Remove cap (if any) from J5 and J3. Press the “ZERO” button. “C0 ” will display. Wait for it to
disappear. Now the stray capacitance is compensated. The compensation value is stored in EEPROM
and will remain in effect until another zeroing is performed.
To obtain good measurement results for
small capacitance shielding is required. To do this put the board into a metal box and connect
the ground of the meter to enclosure.
Serial Data Format:
The ASCII output from TXD pin of J4 contains three fields: sequence number, measurement time (in
seconds), and measured capacitance. The line format is as below.
SSSSS TTTTT.tt CCCCU
where ‘SSSSS’
is 5 digit sequence number, ‘TTTTT.tt’
is 8 digit time stamp (in second), and CCCCU
is 5 digit measured capacitance with U being unit digit. Different fields are separated by 1 space. Each
line is ended with ‘LF’
(0x0A) and ‘CR’
(0x0D). Output baud rate is 38400bps fixed. Data format is 8
data bits, 1 stop bit, and no parity.
Output level is 5V. So a level converter is needed to connect to RS232 compatible device (PC serial
port, for example).
Specifications
Error:
< 2%
Range:
1pF – 500µF
Power Supply voltage:
8 – 16 DC
Power Supply current:
<30mA
Troubleshooting
1.
No Display (or garbage display without activity)
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First power supply should be checked. Make sure +5V is available at MCU power pins (pin 7 &
20 of U1).
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If power supply is good check if MCU gets clocked. This can be done by measuring the DC
voltage at pin 10 of U1 (MCU). This pin is oscillator’
s output. It should read about 2.5V if
oscillator is working. If not Y1, C1, C2 and MCU should be checked. Usually this problem is
caused by defective Y1, C1, or C2. MCU not programmed or programmed wrong can cause this
problem too.
