Hello..can anybody help me about making an AC/DC LED Display voltmeter..
Or can anybody give me a site having this project.
I've researched a DC LED Display Voltmeter in this link https://www.electronics-lab.com/projects/test/014/index.html
..is there anyone have a schematic modification in this circuit for measuring AC.?.Please..I need your help ASAP!!
Thanks!!!
you need ADC to measure DC voltage (in AC you need rectification) and write a MCU software to correspond to actual voltage compared to ADC binary output
You just need a rectifier, and calibrate the meter to read correctly for a sinewave input (as normal multimeters do). Even better would be a true-RMS converter, so it reads correctly for any shape signal - but these are somewhat more complicated and expensive.
Tanks a lot!! Are these IC's CA3162E and CA3161E can able to read AC voltages? I looked at their datasheets and I found that the maximum voltage range is only 999mV, how can I modify this so it can support a maximum voltage range greater than 999mV?.
as Nigel said, you need rectifier. to measure higher than 999mV, say 999V, use voltage divider resistor 332,667 ohms connected in series with a 333 ohms resistor. voltage drop on 333 ohms is 0-999mV while on the other resistor its 0-999,000mV
thnx guys..it helps a lot!
one problem left on my project is the rectifier circuit design. Is this circuit suitable enough for my project? **broken link removed**
or there are other rectifier circuit you can suggest?
Thnx again..God Bless You all!
by the ways, I want to know what particular value of each parts in the rectifier circuit will I use. Also, I want to calibrate it to 0-220 VAC inputs or possibly higher than that. Thnx!
The simple rectifier circuit will not measue AC below about 0.5V and will have an error measuring below about 5VAC.
The circuit will need at least one attenuator at its output made with a high voltage resistor and another resistor. The attenuator can contain a trimpot for calibration.
You might not be able to adjust the display to exactly 0 with that old circuit. The many LEDs cause the IC to get hot inside and the heat changes its reading. Modern multimeters use a very low current LCD display so that their IC does not get hot inside.
The circuit doesn't have a zero adjust pot. The IC is supposed to have "an automatic zero adjustment" which might work if its temperature and if its supply voltage doesn't change too much by the massive current of all the LEDs.
A newer IC is the "S" version with better stability.
The circuit doesn't have a zero adjust pot. The IC is supposed to have "an automatic zero adjustment" which might work if its temperature and if its supply voltage doesn't change too much by the massive current of all the LEDs.
A newer IC is the "S" version with better stability.