I'm building a tacho for a race car, and I was originally going to use an LM2917 f-v converter and a LM3914 LED bar chart chip.
Thing is, the way I was going to supply the LM2917 with a frequency was through the ECU, which would output a logic level square wave of varying frequency.
I read on these boards that the LM2917 needs a AC input, and won't work off a pulsed DC signal. Any way round this?
I'm building a tacho for a race car, and I was originally going to use an LM2917 f-v converter and a LM3914 LED bar chart chip.
Thing is, the way I was going to supply the LM2917 with a frequency was through the ECU, which would output a logic level square wave of varying frequency.
I read on these boards that the LM2917 needs a AC input, and won't work off a pulsed DC signal. Any way round this?
You simply feed it through a capacitor, and a resistor to chassis (0V), it will then be centered around 0V. AC doesn't have to centered around 0V either, it depends entirely where it comes from!.
There is essentially no difference between AC and pulsed DC.
I was wondering about the values I'd need for the resistor and capacitor to connect my pulsed dc input waveform to the LM2917.
Am I right in thinking I connect the signal through a capacitor and resistor in series to ground, and connect the LM2917 input to the joint between the capacitor and resistor? If so, what sort of size resistor and capacitor would I use? I'm assuming I'd want the RC time constant to be large relative to the period of oscillation of the input, but since this is going to vary between around 1kHz and 60kHz, I'm not sure exactly what to choose - would say 10k and 100nF be ok?