CS242127B1 - Tuning voltage limits' changing connection during frequency range's electronic switching with receivers - Google Patents

Abstract

Radio and television solutions receivers refers to electronic editing lower and upper tuning voltage limits when changing the received range and in use spreading tuning on any received frequency ·

Description

BACKGROUND OF THE INVENTION The present invention relates to circuitry for changing tuning voltage limits in electronic switching of frequency ranges at receivers.

With existing receivers, tuning circuits are solved when changing ranges, often in a less appropriate manner, so that the lower and upper limits of the tuning voltage need not be changed. Since this is not always the case, usually only the lower limit of the tuning voltage is adjusted by incorporating a series resistor in the lower end of the tuning potentiometer or adjusting the source of the tuning voltage.

These solutions are. Due to their complexity, they do not allow spread tuning at any point of the received frequency and cannot be used with an auto tuning system without interfering with the tuning voltage source.

The above drawbacks eliminate the circuitry for changing the tuning voltage limits in the electronic switching of the frequency ranges of the receivers according to the invention, which is based on the fact that the emitters of the first _/ second transistor are connected to the common terminals of the tuning voltage source. the first resistor is connected to the collector of the first transistor and the second resistor is connected to the anode of the diode, the cathode of which is connected to the collector of the second transistor and through a base resistor based on the first transistor, wherein the base of the second transistor is connected to the switching

242 127

2 a frequency range terminal wherein the tuning voltage output is formed by the second common terminal and the common terminal output terminal of the first and second divider resistors.

The circuitry according to the invention, when switching the ranges of a radio or television receiver, makes it possible to simultaneously vary the magnitude of the lower and upper limits of the tuning voltage while the tuning voltage source is constantly constant. The minimum control voltage is low, up to 1 V, which is compatible with all existing logic systems. The wiring also allows to realize electronically controlled spreading tuning on any range and its part. The wiring eliminates the above-mentioned shortcomings of known solutions and enables unification of the switch of the lower and upper limits of the tuning voltage and the control voltage.

The wiring and its operation is further explained with reference to the attached drawing.

The common terminals B, O of the tuning voltage source are connected to the emitters of the first 1.1 to l.n respectively. the second 2.1 to 2.n of the transistor, the first divider resistor of up to 5 * n being connected to the variable voltage terminal A of the tuning voltage source via a limiting resistor 4. the other end of which is connected to the collector of the first transistor 1.1 to 1.n. secondly, a second resistor 6.1 to 6 ' the other end of which is connected to the anode of a diode 5.1 to 5.n, the cathode of which is connected to the collector of the second transistor 2.1 to 2. via a base resistor 7.1 to 7.n based on the first transistor 1.1 to ln wherein the base of the second transistor 2.1 to 2 «n is connected to the switching terminal D1 to Dn of the frequency range, wherein the tuning voltage output is formed by the second common terminal 0 and the common terminal output C of the first 5.1-5. .

A tuning source is therefore connected between the common terminals B and 0

242 127 voltage, the magnitude of which varies from zero to the maximum value, and this variable input tuning voltage is applied to the terminal A of the variable voltage of the tuning voltage source. If no control voltage is applied to the switching terminal D.l to D.n of the frequency range, transistors 1 »! to ln and 2.1 to 2> n in the non-conductive state and the output tuning voltage at the output terminal C of the common point of the first 5.1 to 5.to the second 6.1 to 6.π of the divider resistor has a magnitude and waveform equal to the input tuning voltage at the or a limiting resistor

4. Due to the near zero current consumption from the output tuning voltage, it can be neglected.

If there is a need to lower the upper limit and raise the lower limit of the input voltage, for example, the control voltage D1 is applied to the switching terminal D1, the transistors 1.1 and 2.1 are put in a conductive state and a resistive divider from the limiter applies resistor 4, the first 1ti and the second 6.1 divider resistor, combined by connecting a constant maximum tuning voltage source from the first common terminal B.

The output tuning voltage from output terminal C is proportional to the input tuning voltage at terminal A of the variable voltage, its course is linear and its lower and upper limits are arbitrarily adjusted by the choice of 5 1 1 to 5 * divider resistors to 6.1 6 6 při at given a constant magnitude of the limiting resistor. Base resistors 7.1 to

7.n is controlled by switching the transistors 1.1 to l.n when switching the second transistors 2.1 to 2.n. Diodes 5.1 to 5.n prevent spontaneous switching of transistors 1.1 to l.n when the second transistors 2.1 to 2.n are open. Transistors 1.1 to 1.n and 2.1 to 2, n can be replaced by any other switches.

Claims (1)

SUBJECT OF THE INVENTION 242 127 Circuit for changing the tuning voltage limits in the electronic switching of the frequency ranges at receivers, characterized in that emitters of the first (1.1 to 1.n) respectively are connected to the common terminals (B, 0) of the tuning voltage source. second (2.1 to 2.n) of the transistor, wherein the first divider resistor (5) is connected to the variable voltage terminal (A) of the tuning voltage source via a limiting resistor (4)! to 5 · η /> the other end of which is connected to the collector of the first transistor (1.1 to ln), and second part of the resistor (6.1 to 6.n), the other end of which is connected to the anode of the diode the cathode is connected to the collector of the second transistor (2.1 to 2.n) and via a base resistor (7.1 to 7.n) based on the first transistor (1.1 to ln), the base of the second transistor (2.1 to 2.n) being connected to the switching terminals (D1 to Dn) of the frequency range, wherein the tuning voltage output is formed by a second common terminal (0) and a common terminal output terminal (0) of a first (5.1 to 5 · η) and a second (6.1 to 6.n) divider resistor.