# [Example] Simulation of AC to DC Converter bomm ## Description A simulated circuit that demonstrates how diodes in a bridge configuration convert an AC voltage to DC voltage. ## Project Details - **Owner:** hsiu1984 - **Created:** 4/26/2022 - **Last Updated:** 4/26/2022 - **Visibility:** Public ## Key Components ### D1 — [PN Junction Diode](https://www.flux.ai/jharwinbarrozo/pn-junction-diode.md) - Breakdown Voltage: 50V - Saturation Current: 1.88e-9A - Series Resistance: 0.0286Ω - Emission Coefficient: 2.00 **Pins:** - ANODE - CATHODE ### D2 — [PN Junction Diode](https://www.flux.ai/jharwinbarrozo/pn-junction-diode.md) - Breakdown Voltage: 50V - Saturation Current: 1.88e-9A - Emission Coefficient: 2.00 - Series Resistance: 0.0286Ω **Pins:** - ANODE - CATHODE ### D3 — [PN Junction Diode](https://www.flux.ai/jharwinbarrozo/pn-junction-diode.md) - Series Resistance: 0.0286Ω - Emission Coefficient: 2.00 - Breakdown Voltage: 50V - Saturation Current: 1.88e-9A **Pins:** - ANODE - CATHODE ### D4 — [PN Junction Diode](https://www.flux.ai/jharwinbarrozo/pn-junction-diode.md) - Emission Coefficient: 2.00 - Series Resistance: 0.0286Ω - Saturation Current: 1.88e-9A - Breakdown Voltage: 50V **Pins:** - ANODE - CATHODE ### LED1 — [LED](https://www.flux.ai/jharwinbarrozo/led-tht.md) - Forward Voltage: 1.6 - Series Resistance: 0.42Ω - Saturation Current: 93.2e-12A - Breakdown Voltage: 0V - Emission Coefficient: 3.73 **Pins:** - A - K ### V1 — [Waveform Generator](https://www.flux.ai/jharwinbarrozo/waveform-generator.md) - Part Type: Power Source - Frequency: 400Hz - DC Offset: 0V - Phase Offset: 0° - Duty Cycle: 50% - Peak Voltage: 5V **Pins:** - P1 - P2 *The full schematic, PCB layout, bill of materials, and interactive design are available at [https://www.flux.ai/hsiu1984/example-simulation-of-ac-to-dc-converter-bomm](https://www.flux.ai/hsiu1984/example-simulation-of-ac-to-dc-converter-bomm).* --- *Generated from [https://www.flux.ai/hsiu1984/example-simulation-of-ac-to-dc-converter-bomm](https://www.flux.ai/hsiu1984/example-simulation-of-ac-to-dc-converter-bomm)*