Digital LC Meter |
A LCR meter [Inductance (L), Capacitance (C), and Resistance (R)] is a piece of electronic test equipment used to measure the inductance, capacitance and, resistance of a component. Inductance is the property of an electrical circuit causing voltage to be generated proportional to the rate of change in current in a circuit. In Electronics, capacitance is the ability of a body to hold an electrical charge. Capacitance is also a measure of the amount of electrical energy stored (or separated) for a given electric potential. The electrical resistance of an electrical element measures its opposition to the passage of an electric current. The meter reads L, C and R directly with no human calculation required.
Recently I found this LC meter project on internet and I was looking for that kind of project. Therefore, I build. Amazing it is work! Also the accuracy of this LC meter is great and it is very easy to build. So that, I post it here, because I think it is useful to you. You can visit original post from using this link: LMC3
The data below were determined based on theoretical calculations, the scale and the display automatically change.
Min | Max | Resolution | Accuracy | |
Non Polar Condenser | 1pF | 1nF | 0.1pF | 1% |
1nF | 100nF | 1pF | 1% | |
100nF | 1uF | 1nF | 2.5% | |
Electrolytic Capacitor | 100nF | 100,000uF | 1nF | 5% |
Inductor | 10nH | 20H | 10nH | 5% |
Resistance | 1mΩ | 0.5Ω | 1mΩ | 5% |
Inductance | 0.5Ω | 30Ω | 10mΩ | 10% |
Specifications of the LC Meter
LC Meter Diagram |
LC Switch:
The purpose of this is, switch between inductance and capacitance mode. When you turn on the LC meter, you should set it to C mode.
Calibration Switch:
You can calibrate LC meter by pressing this. See Calibration for more details.
LC Meter Calibration
You have 3 modes to calibrate. When the process is completed, calibrated values are saving to the microcontroller’s internal EEPROM, so of course they are available after the re-start.C Calibration
- Switch on
- Switch L/C switch to C position
- Leave the test probes freely. Do not even touch it
- Press and hold the CALIB button until the message Switch to meas. Then release the button
- Wait for the appearance of 0.00 pF
- Switch on
- Switch to the L position
- Connect L/C probe and GND probe together
- Press and hold the CALIB button until the message Switch to meas. Then release the button
- Wait for the appearance of 0.00 uH
- Switch on
- Switch to the C position
- Connect LE probe and GND probe together
- Press and hold the CALIB button until the message Switch to meas. Then release the button
- Note the value shown on the screen
- F0 = 499.9k
- Fcal = 355.9k
- Re = 180Ω
- Uesr0 = 58.3mV
- Fesr = 83.6k
- Rx = 0mΩ [-5mΩ to 5mΩ]
Critical Components
All the below resistors are 1%.(In my circuit, I used normal resistors and those are measured using digital multimeter)
- 47Ω - R11
- 47kΩ - R8
- 100kΩ - R3-R5
- 1nF - C8, C11 (Polypropylene or Polyester)
- 33nF - C10 (Polypropylene 275V AC)
- 10uF - C7, C9 (Tantalum)
- 100uH - L1 (Low-loss DC resistance of 0.3-0.4Ω)
Testing
check 22pF ceramic capacitor |
check 100uF electrolytic capacitor |
check 100uH inductor |
I was unable to find a reed relay, so I put 5v ordinary relay temporarily. In addition, my PCB designed for the TL2285 switches. But, I bought TL2230 by mistake :)
If the back-light brightness is low, you can increase back-light brightness by decreasing the value of the resistor R2 to 470Ω - 1k. You can change display contrast by adjusting 10k preset.
For PCB, Schematic and hex file, click download button.
You need to discharge capacitors properly before measuring.
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Please Note: All contents provided on this blog are for non-commercial purposes only.
how many capacitor value mesuring this project..
ReplyDeleteSee above table
Deleteother ic use this circuit?what is the same ic this project?
ReplyDeleteOnly single Ic is use for this circuit and its very cheap. its cost about LKR 200.00
Deletewhy this circuit using relay....
ReplyDeletemy circuit not mesuring non polar capacior...
This is not my project. Please find the original post from here. http://www.hobbielektronika.hu/cikkek/lcm3_alkatresz_mero_muszer_-_kit_lehetoseg.html
Deleteassemble the entire project but when I light it up does not show anything the display
ReplyDeleteCheck whether relay work or not when connected to the power. if you hear sound from relay then check display connection. Also check MCLR pin
DeleteThank you for the answer, I hear that the relay is triggered when I connect the energy use this model N4078-05-50 5V - 50W - 50Ohm. Can i remove the relay to test if truly i turn on doing a jumper?
ReplyDeleteIf the relay triggered when power applied to the circuit, then check your LCD. and also make sure the chip was correctly programmed.
DeleteHello scorpionz I cannot make a pledge the LC, you said that verify the MCLR but not as doing so, apology for my stupid questions but I started at the Electronica makes my little time and there are still things that are not. The pin positive relay i always have 0v
ReplyDeleteTry pull-up MCLR pin
DeleteI am having issues trying to load the hex file using my pikit2
ReplyDeleteDear sir,
ReplyDeletePlease can you send me the project file. Thanks. okeykamalu@gmail.com
http://www.hobbielektronika.hu/cikkek/lcm3_alkatresz_mero_muszer_-_kit_lehetoseg.html
DeletePlease Scorpionz, can you send me the hex file. The website is not written in English. Thanks.
DeleteClick download button and get the link
DeleteIs there any involvement of PCB Design Services ? Very neat explanations. Thanks for giving the exact values of inductance,resistance and capacitance to be used for the electronic circuits.It is noted that the circuit board should be designed in a way that connects all the pathways to perform the function.
ReplyDelete