John Hutchison & Ronnie Milione

The Philadelphia Experiment Recreated!

 

 

Double Heterodyning

We must take the following facts into account at the choice of the intermediate frequency:

The choice of the intermediate frequency can be only a compromise, because once again these demands classically contradict himself.

So far, you have only become familiar with single conversion; however, some receivers use double conversion.

This method is sometimes referred to as double heterodyning. Receivers using double conversion are very selective and suppress image frequencies to yield sharp signal discrimination. Double conversion receivers also have better adjacent channel selectivity than can be realized in single conversion sets.

Tuner (first converter)

The tuner is a frequency converter, made up of a mixer, the 1st local oscillator (LO), and required filters. The first converter changes the input signal to a usable IF signal that will be e.g. 500 Megahertz's.

The first local oscillator excite a frequency for mixing with the incoming signal to get the intermediate frequency. After the mixer stage the desired intermediate frequency is only reprocessed.

1st IF- Amplifier

The first IF- Amplifier is a relatively narrowband amplifier with a high gain. The first IF has a relatively high value, e.g. 500 Megahertz's. This will cause a high effort of shielding measures.

Automatic gain control measures will be realized here at least.

Second converter

The first IF gets down mixed with a fixed frequency from the 2nd Local Oscillator to the second IF.

Second IF- Amplifier

The second IF- Amplifier is a relatively narrowband amplifier with a very high gain. The frequency is a standard-value between 60 up to 75 Megahertz's. This frequency can be processed uncomplicated. The IF- Amplifier of a radar receiver determines the gain, signal-to-noise ratio, and effective bandwidth of the receiver. The typical IF amplifier usually contains from three to ten amplifier stages. The IF amplifier has the capability to vary both the bandpass and the gain of a receiver.

The second IF- Amplifier is often a logarithmic amplifier. A large signal does not saturate the logarithmic amplifier; rather, it merely reduces the amplification of a simultaneously applied small signal. A small echo signal can often be detected by the logarithmic receiver when a normal receiver would be saturated.

Detector

The detector in a microwave receiver serves to convert the IF pulses into video pulses. After amplification, these are applied to the indicator.

Video Amplifier

The video amplifier receives pulses from the detector and amplifies these pulses for application to the indicating device. A video amplifier is fundamentally an RC coupled amplifier that uses high-gain transistors. However, a video amplifier must be capable of a relatively wide frequency response.