In a diode AM detector with the output circuit consists of R=`1M Omega` and `C=1 pF` would be more suitable for detecting a carrier signal of

In a diode detector , output circuit consists of R = 1 M omega and C = 1 pF . Calculate the carrier frequency it can detect.

Statement-1 in a diode AM detector R=1kOmega and C=10pF circuit is good enough to detect a carrier signal of 100 kHz. Statement-2: the condition (1)/(f_(c))ltltRC

A series LCR circuit has R=5 Omega, L=40 mH and C=1mu F , the bandwidth of the circuit is

An LCR circuit contains R=50 Omega, L=1 mH and C=0.1 muF . The impedence of the circuit will be minimum for a frequency of

The carrier freqeuncy of a station is 40 MHz. A resistor of 10k Omega and capacitor of 12 pF are available in the detector circuit. The possible value of C will be

An ideal diode is connected in a circuit with resistance R=50Omega and V=10V . If an AC input signal shown in the figure is given to the circuit, then the maximum and minimum value of output voltage (without load) is

The carrier freqeuncy of a station is 40 MHz. A resistor of 10k Omega and capacitor of CpF are available in the detector circuit. The possible value of C will be

An ideal diode is connected in a circuit with resistance R=5Omega and V=10 volt as shown in figure maximum and minimum value of output voltage. When no load applied is (assume diode to be ideal)

An experiment is preformed to determine the I-V characteristics of a Zener diode, which has a protective resistance of R = 100 Omega , and maximum power of dissipation rating of 1 W. The minimum voltage range of the DC source in the circuit is :-

In the given circuit, R_(1) = 10Omega R_(2) = 6Omega and E = 10V, then correct statement is