Hello- I’m new to this forum and want to pick your brains on a project. I do have a little background in electronics, but it has been a while, so bear with me. I’m trying to decorate a battery-powered wall clock with a few LEDs, and could use some assistance in creating this circuit.
For starters, the clock is a typical little 1.5V quartz step movement, not a continuous sweep, which essentially means it draws appx. 0.3mA once each second to advance the hands.
I’m using four (4) ultra bright 5mm LEDs in this project, which will be on all the time- i.e. 24/7. The specs for these are as follows:
Forward voltage 3.0V min, 3.4V typical, 3.8V max
Reverse voltage 5.0V
Forward current 40.0mA max
Peak fwd current 100.0mA max
Reverse current 10.0microA max
For convenience and long life, I want to try to run the clock and LEDs together off a single battery pack that holds six (6) 1.5V D-cell batteries. The desired circuit should drive the LEDs as bright as possible, but also be frugal with power consumption. I know these two requirements are at odds with each other, so if need be, the brightness of the LEDs is secondary (but only slightly) to battery life.
To this end, I’m wondering about using some sort of IC driver to cycle the LEDs in a high-frequency on/off mode to conserve power, with a freq so high the pulse is not visible to the naked eye. I’m also interested in integrating some sort of photo resistor in the circuit to dim the LEDs 20-30% or so at night, also to conserve power.
So, what do you think? Any other power conservation tips? Any tricks to increase the light output without burning up the LEDs? Also, can you advise me on specific components for the circuit. Thanks for your time and consideration!