Either solution is acceptable, as t

Either solution is acceptable, as the slight variation in current from the ideal 440mA is insignficant, and still within the 500mA peak the LEDs would be able to handle. As the calculated power is either 0.58W or 0.56W (depending which resistor option you selected), this is over the 0.5W threshold so the next best choice is a 1W resistor. Next, we calculate the power dissipated by the LM317 to ascertain whether or not we need an external heatsink, and if so, what size. Assuming we use a 2.7Ω resistor and the LM317 is in free air:

P = (12V – 7.3V) * 0.463A = 2.176W

Operating temperature = 25°C + (50 * 2.176) = 133.8°C

The circuit will need a heatsink as 133.8°C has exceeded the operating range of the LM317. A heatsink with a thermal resistance of 21°C/W will bring the operation temperature down to 79°C. However, if it is to be used outdoors in the sun or in an enclosure without ventilation, consider fitting a heatsink which is 16°C/W thermal resistance or lower to compensate for the increased ambient temperature. If used inside a metal enclosure, simply attaching the LM317 to one of the walls or lid may be sufficient; if the enclosure is plastic and sealed, ensure their is adequate ventilation by cutting out ventilation slots. Remember, the metal tab of the regulator is connected to Vout, so make sure you use an insulating kit.

The same concept can also be used to drive a laser diode or any circuit requiring a current source. Find out the operating voltage and typical forward current required and substitute for the values above.

Sample Circuit 2 – Power Supply Electronic Dummy Load

There are more efficient and precise ways of electronically loading a power supply, but using this circuit is cheap, simple and works well for lower currents.

Why would you want to place an artificial variable load on a power supply? Placing a load on a power supply is a useful test which allows you to check it’s performance and measure factors such as ripple, min and max voltage, temperature rise and test protection systems such as thermal fuses, over-current and short circuit shut down. Similar to the resistor based current source and the LED, a rheostat (high powered variable resistor) or heating element connected to the power supply draws a current which is dependent on the output voltage. The current source circuit can be easily adapted to allow us to draw a fixed current regardless of the power supplies output voltage. Of course, we can also vary the current drawn if desired.