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Transmitted Voltage is defined as the Voltage wave that is traveling through the Load of the Transmission line. It represents the voltage that successfully passes through the transmission system after accounting for both incident and reflected components.
The calculator uses the formula:
Where:
Explanation: The transmitted voltage is simply the sum of the incident voltage and the reflected voltage in the transmission line system.
Details: Calculating transmitted voltage is crucial for understanding power transmission efficiency, analyzing signal integrity in communication systems, and designing proper impedance matching networks to minimize signal reflections.
Tips: Enter both incident voltage and reflected voltage values in volts. The calculator will compute the transmitted voltage by summing these two values.
Q1: What is incident voltage?
A: The Incident Voltage on the transmission line is equal to half the generator voltage and represents the initial voltage wave traveling toward the load.
Q2: What causes reflected voltage?
A: Reflected Voltage is the voltage that is reflected in the transmission line during transient conditions, typically caused by impedance mismatches between the transmission line and the load.
Q3: How does transmitted voltage relate to power delivery?
A: Transmitted voltage directly affects the power delivered to the load. Higher transmitted voltage typically means more power is successfully delivered to the intended destination.
Q4: Can transmitted voltage be higher than incident voltage?
A: Yes, when the reflected voltage is positive, the transmitted voltage can be higher than the incident voltage due to constructive interference of voltage waves.
Q5: What are typical units for these voltage measurements?
A: All voltages are typically measured in volts (V), though millivolts (mV) or microvolts (μV) may be used for smaller signal applications.