SU1084951A1 - Device for protecting power amplifier - Google Patents

Abstract

DOUBLE VALANCE SMBSITBLE, made according to a bridge circuit, the shoulder of which consists of a diode and a resistor, the secondary winding of the signal transformer being connected between the connecting points of the first terminals of the resistors of the first and fourth and fourth electrodes, respectively and the second and third shoulders include the secondary winding of the heterodyne trans, a reformer, and two capacitors, so that, in order to reduce inatsionnyh components in the output signal, the second terminals of the resistors in each arm are connected respectively to other diodes with opposite electrodes and the connection points between the diodes and resistors, respectively, and first and second. the third and fourth shoulders (L included capacitors. 10 o 00 4 Yu O1

Description

The invention relates to radio electronics, to radio receiving, radio transmitting, measuring and other signal processing systems, and can be used in conversion amplifier paths. Known double balanced mixer, made by the bridge circuit containing the signal and heterodyne transformers, respectively, connected to the opposite tops of the bridge. To increase the linearity of the mixers, either a linearizing resistor or the NC circuit of the automatic displacement of Cl3 are connected in series with each diode of the ring circuit. Closest to the invention is a double balanced mixer made according to a bridge circuit, the Kö1 arm of which consists of a diode, an HC circuit of an automatic bias containing a parallel connected resistor and a capacitor and a resistor, and between the connecting points of the other terminals of the resistors respectively the first and second and third and the fourth shoulders, the secondary winding of the signal transformer is turned on, and between the connection points of the opposite diode electrodes, respectively, of the first and fourth and second and third plates h included LO transformer secondary winding C23. However, the known double balanced mixers do not provide a reduction in the level of ketblination components. The purpose of the invention is to reduce the level of combinational components. The goal is achieved by the fact that in a double balanced mixer, made according to a bridge circuit, each arm consists of a diode and a resistor, with the secondary winding of the signal transformer between the connection points of the first terminals of the resistors, respectively, of the first and second and third and fourth arms, between the points of connection of the opposite electrodes of the diodes of the first and fourth and second and third arms, respectively, include the secondary winding of the heterodyne transformer and two capacitors, the second terminals of the resistor in each arm, they are connected respectively with other diode electrodes of the diodes, and capacitors are connected between the junctions of the diodes and the resistors of the first and second and third and fourth arms, respectively. The drawing shows an electrical schematic diagram of a double balanced mixer. The double balanced mixer contains a signal transformer 1, a heterodyne transformer 2, capacitors 3 and 4, diodes 5–8, resistors 9–12. Double balanced mixer works as follows. The signal transformer 1 is applied to the signal voltage U, with the frequency I and to the heterodyne transformer 2, the voltage of the heterodyne t / r with the frequency f. The secondary windings of the signal and heterodyne voltage transformers 1 and 2 (J and U are supplied to the bridge circuit. As a result of the effect of these voltages on the nonlinear characteristics of diodes 5-8, frequency conversion occurs, resulting in the output voltage of the double balanced mixer there are components with frequencies ftf,. Due to the symmetry of the bridge circuit, there are no components with frequencies fc at the input. Consider separately the circuits of the signal current and the heterodyne. The bobbins of the signal transformer 1 are fed to diodes 5-8 through linearizing resistors 9 - 12. Sequential connection of diodes 5 - 8 and resistors in the signal circuit causes the nonlinear characteristics of diodes 5-8 to be rectified, and the linearity of the double balanced mixer increases. The heterodyne voltage from the secondary windings of the heterodyne transformer 2 is supplied to the junction points of the diodes 5, 7 and 6, 8, respectively. Depending on the polarity of the heterodyne voltage, either the diodes 5 and 6 or the diodes 7 and 8 are opened. variables constituting zamakayuts through the capacitors 3 and 4, i.e. through resistors 9, 10 and 11, 12 only the constant component of the current flows, due to the effect of rectifying the local oscillator voltage. DC voltages across resistors 9, 10 and 11, 12 bias the junctions of diodes 5, b and 7, 8 in the opposite direction, so circuits consisting of resistors 9, 10 and capacitor 3, as well as resistors 11, 12 and the capacitor 4 is an automatic bias circuit. Thus, in the dual balanced mixer, the same resistors are simultaneously used as linearizing resistances in the signal circuit and as the resistance of the EC circuits of automatic bias in the local oscillator circuit. This leads to the fact that, compared with the prototype circuit, the number of resistors is reduced from eight to four, and the number of capacitors

310849514

It decreases from four to two, which leads to an increase in the reliability of the device's local oscillator power, feed, as well as a decrease in the size of the prototype circuit and the pre-log circuit and cost, and since the dual balanced balancer ,

variable current component heterodyne heterodyne input to

through the resistors 9-12 does not leak, the diodes in the proposed device reduce the power of the local oscillator in the proposed, and the level of the combination

compared with the known components in the output signal

The scheme is reduced.

Claims (1)

DOUBLE BALANCE MIXER, made according to the bridge circuit, each arm of which consists of a resistor, and between the first and second and third and fourth arms respectively the secondary winding of the signal transformer is connected, and between the connection points of the opposite electrodes of the diodes · the first and fourth th second and third shoulders, respectively the secondary winding of the heterodyne trans, the formator and two capacitors are included, which consists in that, in order to reduce the level of combinational components in the output signal, the second Water resistors in each arm are connected respectively to other diodes · oppositely charged electrodes, and connections between points diodes and resistors of the first and the second and fourth shoulders i.tretego SU „.1084951