Solid-state-lighting applications are quickly moving into the mainstream. Although they are more efficient, the LEDs that produce the low-cost light often require a complicated driver circuit.
Testing the driver circuit using LEDs, although easy, yields only typical results because the tests don’t factor in worst-case LED parameters and often generate undesirable light and heat during driver debugging. Although using a constant resistance might seem to be an appropriate approach, a resistor approximates an LED load at only one point on the current/voltage curve. An electronic load may prove to be a more useful approach. The control loops of the driver circuit and the electronic load, however, often result in system instability and oscillations.
Figure 1 illustrates a typical LED driver circuit using a low-cost simulated- LED circuit. The simulated LED accurately mimics a real LED at a user-programmable threshold voltage.
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| Figure 1. | Use this circuit for quick testing of an LED-driver circuit over minimum, typical, and maximum LED parameters. |
A simple Darlington current sink, Q1, provides a wide range of LED threshold voltages. The size of the heat sink attached to Q1 and the power capability of Q1 are the only limits on the amount of power the simulated LED can dissipate.
You can easily tune the circuit for any LED voltage. Place a constant voltage across the simulated LED. Tune the circuit by adjusting resistor R1 until the circuit draws the desired current. You can adjust the shape of the voltage knee by making small changes to resistor R3, although this step is not usually necessary.
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| Figure 2. | The simulated LED approximates the turn-on characteristics of a real LED. A constant-resistance load approximates a real LED load at only one point on the curve. |
Figure 2 compares the simulated LED’s current and voltage characteristics to those of a real LED and a constant resistance. The soft turn-on of the simulated LED accurately mimics that of a real LED. Furthermore, the simulated LED quickly retunes to test minimum and maximum LED characteristics, thus giving you confidence that the circuit will work over all load conditions.
Materials on the topic
- Datasheet Texas Instruments LM3402
- Datasheet ISC 2N6282
- Datasheet Citizen CL-L251A-MC6L1
