Radar Systems - MTI Radar

If the Radar is used for detecting the movable target, then the Radar should receive only the echo signal due to that movable target. This echo signal is the desired one. However, in practical apppcations, Radar receives the echo signals due to stationary objects in addition to the echo signal due to that movable target.

The echo signals due to stationary objects (places) such as land and sea are called clutters because these are unwanted signals. Therefore, we have to choose the Radar in such a way that it considers only the echo signal due to movable target but not the clutters.

For this purpose, Radar uses the principle of Doppler Effect for distinguishing the non-stationary targets from stationary objects. This type of Radar is called Moving Target Indicator Radar or simply, MTI Radar.

According to Doppler effect, the frequency of the received signal will increase if the target is moving towards the direction of Radar. Similarly, the frequency of the received signal will decrease if the target is moving away from the Radar.

Types of MTI Radars

We can classify the MTI Radars into the following two types based on the type of transmitter that has been used.

MTI Radar with Power Amppfier Transmitter

MTI Radar with Power Oscillator Transmitter

Now, let us discuss about these two MTI Radars one by one.

MTI Radar with Power Amppfier Transmitter

MTI Radar uses single Antenna for both transmission and reception of signals with the help of Duplexer. The block diagram of MTI Radar with power amppfier transmitter is shown in the following figure.

The function of each block of MTI Radar with power amppfier transmitter is mentioned below.

Pulse Modulator − It produces a pulse modulated signal and it is appped to Power Amppfier.

Power Amppfier − It amppfies the power levels of the pulse modulated signal.

Local Oscillator − It produces a signal having stable frequency $f_l$. Hence, it is also called stable Local Oscillator. The output of Local Oscillator is appped to both Mixer-I and Mixer-II.

Coherent Oscillator − It produces a signal having an Intermediate Frequency, $f_c$. This signal is used as the reference signal. The output of Coherent Oscillator is appped to both Mixer-I and Phase Detector.

Mixer-I − Mixer can produce either sum or difference of the frequencies that are appped to it. The signals having frequencies of $f_l$ and $f_c$ are appped to Mixer-I. Here, the Mixer-I is used for producing the output, which is having the frequency $f_l+f_c$.

Duplexer − It is a microwave switch, which connects the Antenna to either the transmitter section or the receiver section based on the requirement. Antenna transmits the signal having frequency $f_l+f_c$ when the duplexer connects the Antenna to power amppfier. Similarly, Antenna receives the signal having frequency of $f_l+f_cpm f_d$ when the duplexer connects the Antenna to Mixer-II.

Mixer-II − Mixer can produce either sum or difference of the frequencies that are appped to it. The signals having frequencies $f_l+f_cpm f_d$ and $f_l$ are appped to Mixer-II. Here, the Mixer-II is used for producing the output, which is having the frequency $f_cpm f_d$.

IF Amppfier − IF amppfier amppfies the Intermediate Frequency (IF) signal. The IF amppfier shown in the figure amppfies the signal having frequency $f_c+f_d$. This amppfied signal is appped as an input to Phase detector.

Phase Detector − It is used to produce the output signal having frequency $f_d$ from the appped two input signals, which are having the frequencies of $f_c+f_d$ and $f_c$. The output of phase detector can be connected to Delay pne canceller.

MTI Radar with Power Oscillator Transmitter

The block diagram of MTI Radar with power oscillator transmitter looks similar to the block diagram of MTI Radar with power amppfier transmitter. The blocks corresponding to the receiver section will be same in both the block diagrams. Whereas, the blocks corresponding to the transmitter section may differ in both the block diagrams.

The block diagram of MTI Radar with power oscillator transmitter is shown in the following figure.

As shown in the figure, MTI Radar uses the single Antenna for both transmission and reception of signals with the help of Duplexer. The operation of MTI Radar with power oscillator transmitter is mentioned below.

The output of Magnetron Oscillator and the output of Local Oscillator are appped to Mixer-I. This will further produce an IF signal, the phase of which is directly related to the phase of the transmitted signal.

The output of Mixer-I is appped to the Coherent Oscillator. Therefore, the phase of Coherent Oscillator output will be locked to the phase of IF signal. This means, the phase of Coherent Oscillator output will also directly relate to the phase of the transmitted signal.

So, the output of Coherent Oscillator can be used as reference signal for comparing the received echo signal with the corresponding transmitted signal using phase detector.

The above tasks will be repeated for every newly transmitted signal.