Solution
Let fh is the highest frequency and fl is the lowest frequency.
Bandwidth = fh - fl = 4000 - 40 KHz = 3960 KHz = 3.96 MHz
88 MHz-108MHz
everyone, As far as I know the Full power bandwidth is the output bandwidth of the signal when it is made to obtain the max power from output suppose max output voltage is +/- 10 V as prescribed in the data sheet and the slew rate is 600V/u sec , then the full power bandwidth will be 600/(2*pi*10) that is 9.548 MHz
When a signal of 10 mV at 75 MHz is to be measured then which of the following instrument can be used
I came up with 14.8 khz, is this right?
150 megahertz = 1.998616387 metres
1.95 MHz 1,950 KHz 1,950,000 Hz
6 mhz.
sky waves
BW = (1 MHz - 10 KHz) = (1,000 KHz - 10 KHz) = 990 KHz
Modal bandwidth
To calculate the intermediate frequency (IF) for a radio receiver at 70 MHz, you typically choose a fixed IF value such as 455 kHz or 10.7 MHz. The IF frequency is chosen in such a way that when the desired signal frequency (70 MHz) is mixed with the local oscillator signal, it falls within the receiver's bandwidth for demodulation. This allows for effective filtering and processing of the signal at a manageable frequency before demodulation.
88 MHz-108MHz
he rating for RIMM memory is based on the maximum theoretical bandwidth (in MHz) and included speed ratings of 800 MHz, 1066 MHz, 1200 MHz, 1333 MHz, and 1600 MHz.
6 MHz
The wavelength of a 99.0 MHz signal is about 9.94 feet.
everyone, As far as I know the Full power bandwidth is the output bandwidth of the signal when it is made to obtain the max power from output suppose max output voltage is +/- 10 V as prescribed in the data sheet and the slew rate is 600V/u sec , then the full power bandwidth will be 600/(2*pi*10) that is 9.548 MHz
When a signal of 10 mV at 75 MHz is to be measured then which of the following instrument can be used