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| lab_electrical_engineering:led_brightness_control_using_pwm [2026/06/17 11:12] – mexleadmin | lab_electrical_engineering:led_brightness_control_using_pwm [2026/06/17 14:29] (current) – mexleadmin | ||
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| - | \\ | + | ~~CLEARFIX~~ |
| - | \\ | + | - Build the circuit on the MEXLE-board. To do this, connect two LEDs in anti-parallel. What value must the series resistor for the LEDs have? **An LED requires approx. 20 mA to operate.** |
| - | \\ | + | - Use the circuit variant with **C1 = 10 nF**. Vary the duty cycle and document the result. |
| - | \\ | + | - What are the advantages of this type of brightness control? Name some applications. |
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| - | - Build the circuit on the MEXLE-board. To do this, connect two LEDs in anti-parallel. What value must the series resistor for the LEDs have? **An LED requires approx. 20 mA to operate.** | + | |
| - | - Use the circuit variant with **C1 = 10 nF**. Vary the duty cycle and document the result. | + | |
| - | - What are the advantages of this type of brightness control? Name some applications. | + | |
| - How would the circuit have to be designed if only one LED is to be operated with brightness control? | - How would the circuit have to be designed if only one LED is to be operated with brightness control? | ||
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| ====Test Questions==== | ====Test Questions==== | ||
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