A.M Modulators

A.M Modulators

AM Modulator is one which is used for superimposing a low frequency signal on a high frequency carrier signal. In this modulator the amplitude of a carrier is varied in accordance with instantaneous value of message signal.
Types of A.M Modulators are listed
below.
  1. Plate Modulator
  2. Grid Modulator
  3. Cathode Modulator
  4. Base Modulator
  5. Emitter Modulator

Plate Modulator

It is so named because the message signal (AF) is superimposed on +Vsb and tVsb and then applied to the plate of a triode tube. Now we will study how modulation occurs in this modulator.
  1. The audio voltage (AF) is placed in series with the plate supply voltage +Vbb of a class C amplifier. In actual circuits as shown in figure, how this condition is obtained? AF signal is applied to the AF driver transformer which varies the grid bias of both triodes in accordance to the message signal. Due to which plate currents of both triodes vary with respect to the frequency of AF signal hence the voltage +Vbb applied to the plate of class C amplifier vary in accordance to the amplitude of the AF signal.
    Plate modulator triode class C amplifier
  2. Now we will see that RF (radio frequency) is superimposed on the plate voltages (which in accordance to AF)?
    -Ve bias of the grid of class C amplifier is controlled by the RF driver transformer. Due to which plate current, varies in accordance to the RF. In this way, the RF is superimposed on AF and the amplitude modulated signal is coupled to the load through the tuned transformer.
    Note:
    RFC chode is placed in series with the modulating transformer to protect it from RF damage.

Grid Modulator

It is so named because the input signals RF, AF and negative Vc voltages are applied to the grid of class C amplifier.
  1. The modulating voltage (AF) is in series with the negative bias. The modulating voltage is superimposed on the fixed battery bias. Therefore, the amount of bias is proportional to the amplitude of the modulating signal and varies at a rate equal to the modulating frequency.
  2. The RF input voltages are superimposed on the total bias.
  3. The resulting plate flows in pulses, the amplitude of each pulse being proportional to the instantaneous bias and therefore to the instantaneous modulating voltage.
  4. The application of these pulses to the tuned tank circuit will give amplitude modulation.

Collector Modulator

The output stage of the transmitter is a high power frequency class C amplifier. Class C amplifiers conduct for only a portion of the positive half cycle of their input signal. The collector current pulses cause the tuned circuit to oscillate or ring at the desired output frequency. The tuned circuit, therefore, reproduces the negative portion of the carrier signal.
The modulator is a linear power amplifier that takes the low level modulating signal and amplifies it to a high power level. The modulating output signal is coupled through modulation transformer T1 to the class C amplifier. The secondary winding of the modulation transformer is connected in series with the collector supply voltage Vcc of the class C amplifier.
Collector Modulator
With zero modulation input signal. There will be zero modulation voltage across the secondary of T1. Therefore, the collector supply voltage will be applied directly to the class C amplifier, and the output carrier will be a steady sine wave.
When the modulation signal occurs, the AC voltage across the secondary of the modulation transformer will be added to and subtracted from the collector supply voltage.
This varying supply voltage is applied to the class C amplifier. Naturally, the amplitude of the current pulses through transistor Q1 will vary. As a result, the amplitude of the carrier sine wave varies in accordance with the modulated signal. For example, when the modulating signal goes positive, it adds to the collector supply voltage, thereby increasing its value and causing higher current pulses and a higher amplitude carrier. When the modulating signal goes negative, it subtracts from the collector supply voltage making it less. For that reason, the class C amplifier current pulses are smaller, thereby causing a lower amplitude carrier output. Hence amplitude modulated wave is obtained which is then transmitted through antenna.

Base Modulator

Base Modulator
It is so named because RF carrier and the message signal both are provided to the base of the transistor.
  1. Message signal is amplified and then superimposed on the fixed bias Vbb which varies in accordance to the message signal. Then this superimposed bias is provided to the base of the transistor through RFC (radio frequency choke).
  2. The RF carrier is also provided to the base of the transistor through coupling capacitor which is then superimposed with the message signal bias. This superimposed bias voltages control the collector current which is proportional to the amplitude of the message signal, hence this modulated waveform is coupled to the secondary of the transformer.

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