![Solution: An AM carrier wave of frequency f = 1 MHz with pack voltage of 20 V Solution: An AM carrier wave of frequency f = 1 MHz with pack voltage of 20 V](https://pinoybix.org/wp-content/uploads/2024/01/Modulation-Problem-An-AM-carrier-wave-of-frequency-f-1-MHz-with-pack-voltage-of-20-V-370x297.png)
Tag: am solution
![Solution: An AM carrier wave of frequency f = 1 MHz with pack voltage of 20 V Solution: An AM carrier wave of frequency f = 1 MHz with pack voltage of 20 V](https://pinoybix.org/wp-content/uploads/2024/01/Modulation-Problem-An-AM-carrier-wave-of-frequency-f-1-MHz-with-pack-voltage-of-20-V-370x297.png)
![Solution: Write its expression and calculate power efficiency Solution: Write its expression and calculate power efficiency](https://pinoybix.org/wp-content/uploads/2024/01/Modulation-Problem-Write-its-expression-and-calculate-power-efficiency-370x297.png)
Solution: Write its expression and calculate power efficiency
![Solution: What will be the modulation index (μ) Solution: What will be the modulation index (μ)](https://pinoybix.org/wp-content/uploads/2024/01/Modulation-Problem-What-will-be-the-modulation-index-μ-370x297.png)
Solution: What will be the modulation index (μ)
![Solution: What is the amplitude of the carrier? Solution: What is the amplitude of the carrier?](https://pinoybix.org/wp-content/uploads/2024/01/Modulation-Problem-What-is-the-amplitude-of-the-carrier-370x297.png)
Solution: What is the amplitude of the carrier?
![Solution: How much power at 85% modulation with an amplitude modulated transmitter Solution: How much power at 85% modulation with an amplitude modulated transmitter](https://pinoybix.org/wp-content/uploads/2024/01/Modulation-Problem-How-much-power-at-85-modulation-with-an-amplitude-modulated-transmitter-370x297.png)
Solution: How much power at 85% modulation with an amplitude modulated transmitter
![Solution: For a modulation coefficient m = 0.2 and an unmodulated carrier power Pc = 1000 W Solution: For a modulation coefficient m = 0.2 and an unmodulated carrier power Pc = 1000 W](https://pinoybix.org/wp-content/uploads/2023/12/Modulation-Problem-For-a-modulation-coefficient-m-0.2-and-an-unmodulated-carrier-power-Pc-1000-W-370x297.png)
Solution: For a modulation coefficient m = 0.2 and an unmodulated carrier power Pc = 1000 W
![Solution: Determine the power in the sidebands as a percentage of the total power Solution: Determine the power in the sidebands as a percentage of the total power](https://pinoybix.org/wp-content/uploads/2023/12/Modulation-Problem-Determine-the-power-in-the-sidebands-as-a-percentage-of-the-total-power-370x297.png)
Solution: Determine the power in the sidebands as a percentage of the total power
![Solution: What is the total sideband power radiated? Solution: What is the total sideband power radiated?](https://pinoybix.org/wp-content/uploads/2023/12/Modulation-Problem-What-is-the-total-sideband-power-radiated-370x297.png)
Solution: What is the total sideband power radiated?
![Solution: Determine the power content of each of the sidebands and of the carrier Solution: Determine the power content of each of the sidebands and of the carrier](https://pinoybix.org/wp-content/uploads/2023/12/Modulation-Problem-Determine-the-power-content-of-each-of-the-sidebands-and-of-the-carrier-of-an-AM-370x297.png)
Solution: Determine the power content of each of the sidebands and of the carrier
![Solution: Find the power efficiency of an AM wave for a modulation index of 0.3 Solution: Find the power efficiency of an AM wave for a modulation index of 0.3](https://pinoybix.org/wp-content/uploads/2023/12/Modulation-Problem-Find-the-power-efficiency-of-an-AM-wave-for-a-modulation-index-of-0.3-370x297.png)