Hi all I'm new at this so I need some instruction.
I am trying to build a 20watt Bike light LED driver, multi level dimmer, single push button unit.
I have attached a rough cct diagram. Can I use a 4 bit binary counter (with amplified O/P's) to drive the power transistors?
I have tried to build this already but its a no go
Some Part #
4 bit binary counter: SN74LS93N
Amps: UA741CP
Transistors: BD679
Your opamps have no voltage gain so their output is only about +3.5V.
But your LED array probably needs 12V.
Even if you removed the 1k feedback resistors at each opamp so they have voltage gain, their max output will be about 12V and the two transistor emitter-followers will have an output of about 10.5V.
i only need the opamps to saturate the base on the two transistors, can they amplify the output from the bit counter enough to do this? why have I got .1 volt comming from the bit counter at logic a and b all the time?
The negative look of the diagram is from a app on the net (circuit simulator) it is a easy tool for drawing with from where I work
The circuit does not change the transistor base voltage.
If you make a different circuit that controls the transistors base voltage then the LEDs will be turned off or they will burn out. The base voltage simply makes the transistor provide enough voltage, with no control for the current.
i only need the opamps to saturate the base on the two transistors
The opamps are followers without any voltage gain. Their output will be only 3.5V (the output of the TTL logic).
The transistors are also followers with a voltage loss of about 1.5V. So the LED array gets only 2.0V and it will not light up.
What would you recommend i do to control the current in this loop.
Will changing the resistance in the line feeding the tranny base vary the amount of current going thru the E-C of the transistor?
I can get the array to dim using this method in a simple cct.
I need help with the setup of the binary counter and amplifying its output to run the other transistors.
I am glad to see that you added voltage gain to the opamps.
The simulation is very misleading:
1) Transistors have a wide range of current gain and it is not marked on them (although many years ago the BC549 was labelled A for low gain, B for medium gain and C for high gain). You cannot buy a certain current gain, you get whatever gain they have.
2) The current gain of a transistor changes with its temperature and with the voltage across it.
Simply use the transistors as on-off switches to provide pulse-width-modulation or to switch a different number of current-limiting resistors in series with the LED array.