SU780151A1 - Balanced twin modulator - Google Patents

Description

(54) DOUBLE BALANCE MODULATOR

The invention relates to radio engineering and can be used to convert DC signals to AC signals. A double balanced modulator is known, containing the first and second transistors of the opposite conductivity type, the base and emitters of which are respectively interconnected to a source of DC signal, the output of which is connected to the collector of the first transistor, and the source of control pulses. However, the known modulator has large operating frequency range, due to the use of transformers having large dimensions at low frequencies and a limited operating frequency range. The purpose of the invention is to expand the operating frequency range. To do this, in a double balanced modulator containing the first and second transistors of the opposite conductivity type, the base and the emitters of which are respectively interconnected a DC signal source, the output of which is connected to the collector of the first transistor, and a source of current is made with an additional inverse output, which is connected to the collector of the second transistor, the output source of the control pulses is connected to the bases of transistors, emitters, transistors with dineny general & knoy, and between the collectors of the first and second transistors included a chain of two series-connected resistors, where the point of the compound is a dual output modulator -balansnogo ... In the drawing there is a circuit diagram of the modulator. The modulator contains the first and second transistors.1 and 2, the source of the signal of direct current 3, the source of control pulses 4, resistors 5 and 6, the common bus 7. The modulator operates as follows. A sequence of square-shaped control pulses with a duty cycle of 2 from source 4 plots the junction points of the bases and the junction points of the emitters of transistorstop 1 and 2. Since the transistors have counter-conductive types of conductivity, they will open and close alternately. The DC voltage from the antiphase outputs 8 and 9 of source 3 is supplied to the collectors and emitters and emitters of transistors 1 and 2. At the time when the control pulse from source 4 has a positive polarity, transistor 1 is closed. In this case, under the action of the voltage from the inverted output 8 from source 3, current flows to the common bus 7 of the modulator through resistor 6 and 5. In the next half of the period when the control pulse from source 4 has a negative polarity, transistor 2 will open , and the transistor 1 is closed.

At the same time, through resistors 5 and b will flow from the output 9 of the source 3 the antiphase signal current to the common bus 7 of the modulator.

As a result, at the junction of resistors 5 and b with respect to the common bus 7 of the modulator, there will be a different polarity of carrier pulses whose amplitude is proportional to the amplitude of the source 3 signal.

If the resistors 5 and b are equal, there will be no DC signal at the point of their connection.

If the voltage of the signals at the outputs of source 3 is zero, then at the junction of resistors 5 and b there will be only the balance of the carrier frequency resulting from the non-ideal key properties of transistors 1 and 2,

Thus, in the proposed transformerless double balanced modulator, the working frequency range is significantly expanded, and microminiaturization is also possible.

Claims (1)

1. Kalinchuk B.A. and Pichugin OA Semiconductor modulators. M., Eregi, 1969, p. 56, fig. 52 (prototype) X