I built yesterday LM3915 based LED VU meter, but it doesn't work. Not a single LED light up.
Since I'm a complete beginner with electronics (I learned what a diode is yesterday) there's a fair chance I've done some elementary mistake somewhere. I'll uploaded a picture showing the circuit, part list and an illustration of my breadboard with all the parts in it as they are.
If it's not a too much bother, please look the pic and tell me what's wrong with my assembly. Also if you have patience, tell me why it's wrong, so I could learn something as well.
According to the schematic, you must input positive pulses at least 11.4 volts high for the transistor to shut off and let C2 accumulate a charge...which leaks off at a rate of about 10 Hz. It looks to me like you're not making a VU meter. You're counting positive pulses greater than 11.4 volts. Is this your intent?
One thing is transistor connected backwards(as already mentioned). Also it won't light up any LED's if the input signal level is too low. Also you could add a pot at the input for setting up the level of response(like a volume control).
One thing is transistor connected backwards(as already mentioned). Also it won't light up any LED's if the input signal level is too low. Also you could add a pot at the input for setting up the level of response(like a volume control).
That's a very good point. I think that the original schematic mentions that "The input is designed for standard audio line voltage (1V P-P) and has a maximum input voltage of 1.3V.".
I will be using a mp3 player input, I think those have much lower input voltage than 1V.
How should I then change this design for mp3 player input? I think pot would be redundant because I doubt this will ever have anything else than mp3 player audio input.
That's a very good point. I think that the original schematic mentions that "The input is designed for standard audio line voltage (1V P-P) and has a maximum input voltage of 1.3V.".
I will be using a mp3 player input, I think those have much lower input voltage than 1V.
How should I then change this design for mp3 player input? I think pot would be redundant because I doubt this will ever have anything else than mp3 player audio input.
hi,
Look at this image which shows a LM3914 using your circuit values, the LED display is linear not logarithmic as the LM3915, but it shows it working.
As each LED is about 15mA and the supply is 12V, in Bar mode, you should have a 22R in the 12V to the LEDs linked Anodes.
That's a very good point. I think that the original schematic mentions that "The input is designed for standard audio line voltage (1V P-P) and has a maximum input voltage of 1.3V.".
I will be using a mp3 player input, I think those have much lower input voltage than 1V.
How should I then change this design for mp3 player input? I think pot would be redundant because I doubt this will ever have anything else than mp3 player audio input.
Ok, I did a revision to my setup based on the comments here.
ericgibbs: Yes, the transistor is inserted in the board as in the layout. I've reversed it in the revised one. I also did the changes you mentioned with the 5K pot. I hope I did it correctly. I presume the original R1 is not needed anymore with this configuration, and I removed it.
Ok, I did a revision to my setup based on the comments here.
ericgibbs: Yes, the transistor is inserted in the board as in the layout. I've reversed it in the revised one. I also did the changes you mentioned with the 5K pot. I hope I did it correctly. I presume the original R1 is not needed anymore with this configuration, and I removed it.
hi,
Connect your audio source, mp3 input to the input capacitor, turn up the volume and then adjust the 5K pot.
You should see some of the LED's light.