SU1431032A1 - Frequency converter - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase the linearity of the transformation while at the same time simplifying and reducing the power consumption. The converter contains two yl, made on transistors (T) 1 and 2 and resistors. (P) 3 and 4, load 5, capacitors 6 and 7, diode switches (DC) 8 to 9, controllable sources 16 and 20 IN: -o: I32 JCJ. current, made respectively on T 17 and 18 pnp-type conductivity and on T21 and 22 pn-type To achieve the goal, each of DC 8 and 9 is made on series-connected diodes 10, 11 and 12,13 . The connection points of the diodes LC 8 and 9 are connected to the 2nd terminals of the capacitors 6 and 7. The diodes DK 8 and 9 are connected in opposite directions. The antiphase outputs of the current sources 16 and 20 are interconnected and, via P 14 and 15, are connected to the common bus. Since only two diodes are closed at the same time, the capacitance of the transitions, which affects the switching speed, is low, which improves the linearity of the converter. Reducing the number of simultaneously open diodes reduces the total current consumption, i.e. leads to a decrease in power consumption. 2 silt, 7 S x (L I 4 SS "

Description

FIELD OF THE INVENTION The invention relates to radio engineering and can be used in radio-receivers with broadband and filter preselection.

The purpose of the invention is to increase the linearity of the transformation while at the same time simplifying and reducing the power consumption.

Fig. 1 is an electrical schematic diagram of a frequency converter; FIG. 2 shows timing diagrams explaining his work.

The frequency converter contains the first and second amplifiers made on the first and second transistors 1 and 2 and the first and second resistors 3 and 4, respectively, the load 5, adjustable feedback circuits, the regulating element of each of which contains a capacitor 6 (7), a switch 8 (.9), made on diodes 10 and 11 (12 and 13), resistor 14 (15) is the first controlled current source 16 containing a differential amplifier at transistors 17 and 18 of the same structure and resistor 19, the second controlled current source 20 including differential transistor amplifier x 21 and 22 opposite the resistor 23 and structure

The frequency converter works in the following way.

Under the influence of paraphase rectangular voltage pulses of the heterodyne, transistors 17 and 22 open the key 8, and transistors 18 and 21 open the key 9 (Fig.2a, b). In this case, through a small differential resistance of the diodes 10 and 11 in parallel to the resistors 3 and 4 are connected, respectively, resistors 14 or 15, the amplification of the transistors. 1 and 2 changes from a small value with a private key of 8 or 9 to a greater than, equal to

TO

 5jilBdi: .5iLi5aLL5j.-i5iiRjl

where r

n

R

  R (5 U

,, Ksch, 15 load resistance, resistance of resistors 3, 14, 15, respectively.

Since the amplifiers in transistors 1 and 2 are connected across the input in antiphase, the intermediate frequency signal is present in load 5.

A minor part of the control current is equal to I

 T.

RTs

0

five

0

five

0

five

0

five

0

where and

 The first direct voltage drop across an open diode junction is a branch to ground. With real circuit elements (Unen 0.7V, R, .R.,

5000m) this current is not more than 5-10% of the total current and the efficiency of the circuit is not affected

The idle pair of diodes (closed key 8 and 9) is additionally blocked by a reverse voltage falling on the transitions of a working pair of diodes, which prevents the influence of the current of the public key on the mode of the private key. The voltage UjC at all points of the diode ring at any moment in time is the same and changes in phase (Figure 2b, because at points A and B the input voltage U is equal to each other (one pair of diodes is open), and at point C (D) of an inoperative diode pair is also equal to the voltage at points A and B, since the voltage at the emitters of transistors 1 and 2 repeats the voltage of the input signal. Therefore, the overload on the input voltage is determined only by the limiting parameters of the transistors. 1, 2, 17, 18, 21, 22, t, e, provides invariance frequency converter on the input signal. When the addition of the collector currents antiphase (FIG. 2d) transistors 1 and 2 in the load 5 vschel are intermediate frequency signals

Since in this scheme only two diodes are closed at the same time, the junction capacitance in, affecting the switching speed is reduced, which improves the linearity of the conversion. Reducing the number of open diodes reduces the consumption current, Reducing the number of diodes used reduces the size of the converter, the frequency.

Claims (1)

Invention Formula 55 A frequency converter containing the first and second amplifiers, the inputs of which are combined and the input of the signal being converted, is between the output 7 eight four