Steelwolf
Flashlight Enthusiast
I recently completed another mod. It was based on this circuit and this circuit. They are both similar in that they are based on the SatCure circuit, but have added an extra transistor to regulate the output.
With any boost circuit like this, one of the most important components is the transformer. In this case, I used a minature toroid as a core. The item is Cat No. R5400 from **** Smith's Electronics and is described as:
"F43 Material - for RF suppression (30MHz-400MHz) in Amplifiers, etc. AL=520nH.
9.5mm(OD) x 5mm(ID) x 5mm(L)"
BTW, for those in the know, what exactly is F43 material? I used to use even tinier toroids which were made of F14 material and which were also described as meant for HF/VHF operation.
I wound the core using 0.25mm wire in the prescribed fashion to achieve 300uH in both coils. That took 22 turns. Other components were 2 2N2222A transistors, an output electrolytic cap of 220uF 16V, an input tantalum cap of 47uF 6.3V and 9 5mm 5600mcd 20deg LEDs wired in 3 banks of 3-in-series.
During testing utilizing a lab power supply, I ran the circuit between 6V and 0.7V. It appeared to the naked eye that regulation was achieved between 3.5V and 6V. This is higher than shown in the chart on the first webpage but should be expected since I am running 9 LEDs to his 6. I didn't really dare to go higher than 6Vin, nor did I feel the need to since I was testing the circuit for future use in a 4AA mod. Perhaps next time. /ubbthreads/images/graemlins/smile.gif
Power draw was propotional with reduced current draw for increased voltage. 6V-0.10A, 5V-0.11A, 4V-0.13A, 3V-0.14A, 3.5V-0.15A. Below 3.5V, it appeared to go out of regulation and power draw diminished, ie, reduced volts reduced amps. 3V-0.14A, 2V-0.10A, 1V-0.05A. It glowed all the way to 0.5Vin but only turns on again at 0.6Vin. Unfortunately, I soldered everything in place before thinking about checking the output power, so no numbers from there, suffice to say that each LED was glowing as bright as if they were individually powered at a nominal 3.6V 30mA.
I wonder if this behaviour is consistant with similar circuits that others have made before? Will reducing the number of LEDs also reduce the point at which the circuit falls out of regulation? Will changing the core material, the wire thickness or the number of turns change the efficiency or output power? Would it have been better to wire the LEDs completely in parallel or in series or in another configuration? (Actually tried this step during breadboarding and didn't notice any change in brightness between 6 in series or 6 in parallel.)
Obligatory beam shots and pics to follow.
With any boost circuit like this, one of the most important components is the transformer. In this case, I used a minature toroid as a core. The item is Cat No. R5400 from **** Smith's Electronics and is described as:
"F43 Material - for RF suppression (30MHz-400MHz) in Amplifiers, etc. AL=520nH.
9.5mm(OD) x 5mm(ID) x 5mm(L)"
BTW, for those in the know, what exactly is F43 material? I used to use even tinier toroids which were made of F14 material and which were also described as meant for HF/VHF operation.
I wound the core using 0.25mm wire in the prescribed fashion to achieve 300uH in both coils. That took 22 turns. Other components were 2 2N2222A transistors, an output electrolytic cap of 220uF 16V, an input tantalum cap of 47uF 6.3V and 9 5mm 5600mcd 20deg LEDs wired in 3 banks of 3-in-series.
During testing utilizing a lab power supply, I ran the circuit between 6V and 0.7V. It appeared to the naked eye that regulation was achieved between 3.5V and 6V. This is higher than shown in the chart on the first webpage but should be expected since I am running 9 LEDs to his 6. I didn't really dare to go higher than 6Vin, nor did I feel the need to since I was testing the circuit for future use in a 4AA mod. Perhaps next time. /ubbthreads/images/graemlins/smile.gif
Power draw was propotional with reduced current draw for increased voltage. 6V-0.10A, 5V-0.11A, 4V-0.13A, 3V-0.14A, 3.5V-0.15A. Below 3.5V, it appeared to go out of regulation and power draw diminished, ie, reduced volts reduced amps. 3V-0.14A, 2V-0.10A, 1V-0.05A. It glowed all the way to 0.5Vin but only turns on again at 0.6Vin. Unfortunately, I soldered everything in place before thinking about checking the output power, so no numbers from there, suffice to say that each LED was glowing as bright as if they were individually powered at a nominal 3.6V 30mA.
I wonder if this behaviour is consistant with similar circuits that others have made before? Will reducing the number of LEDs also reduce the point at which the circuit falls out of regulation? Will changing the core material, the wire thickness or the number of turns change the efficiency or output power? Would it have been better to wire the LEDs completely in parallel or in series or in another configuration? (Actually tried this step during breadboarding and didn't notice any change in brightness between 6 in series or 6 in parallel.)
Obligatory beam shots and pics to follow.