CS241837B1 - Active filter to maintain full tuning range for voltage synthesis receivers - Google Patents

Abstract

The solution from the field of radio and television receivers with a tuned voltage synthesis system concerns the adjustment of the lower end of the tuning voltage using the existing active talk filter, that the original number of tuning steps remains and their course is adjusted, which is more advantageous for this part of the range. The connection can be further expanded to adjust multiple tuning ranges using additional switching elements.

Description

The invention relates to an active filter while maintaining the full tuning range of voltage synthesis receivers.

When tuning by a voltage synthesis system when switching from FM to CCIR + OIRT to AM, the lower limit of the tuning voltage must be increased. However, the range of the tuning voltage and the number of tuning pins from the voltage synthesis control circuit remain constant. Therefore, in the prior art method, after changing the range, the number of usable tuning voltage shots is reduced and at the same time the time delay during auto tuning operation at the lower end of the received range is increased.

These drawbacks of the prior art are overcome by an active filter for maintaining the full tuning range of the voltage synthesis receivers of the present invention, which is based on the non-inverting input of an operational amplifier connected to the tuning voltage source terminal via the first and second resistors. a common point of the first and second resistors and one pole of the integrating capacitor, the other pole of which is connected to the output of the operational amplifier forming the output terminal of the filter, the non-inverting input of the operational amplifier further connected to one pole of the filter capacitors; the anode is connected to a variable resistance slider, one end of which is connected to a power supply terminal and an operational amplifier power terminal, while the other end of the variable resistance is connected to a common tuning voltage source terminal that It is connected to the second pole of the filter capacitor and to the common terminal of the operational amplifier, which is also the output common terminal of the active filter.

An advantage of the active filter according to the invention is that when the lower part of the tuning voltage is necessary for the receiver, the full stepping range is maintained and the waveform is adjusted in a favorable manner.

Claims (1)

Subject Active filter to maintain full tuning range for voltage synthesis receivers, characterized in that a non-inverting input of the operational amplifier (1), whose inverting input is connected to the terminal (Aj of the tuning voltage source) is connected via the first (2) and second (3) resistors. connected to the common point of the first and second resistors (2, 3) and to one pole of the integrating capacitors (4j), the second pole of which is connected to the output of the operational amplifier (1) forming the output terminal (Cj of the filter) operational amplifiers (1) The connection of the active filter according to the invention and its function is further described with reference to the attached drawing. The non-inverting input of the operational amplifier 1 is connected to the terminal A of the tuning voltage source via the first 2 and second 3 resistors, whose inverting input is connected both to the common point of the first and second resistors 2, 3 and connected to the output of the operational amplifier 1, which forms the output terminal C of the filter, the non-inverting input of the operational amplifier 1 is further connected to one pole of the filter capacitors 7 and to the cathode of diode 6 whose anode is connected the power supply terminal B and the operational amplifier power supply terminal 1, while the other end of the variable resistor 5 is connected to a common tuning voltage source terminal O which is connected to the second pole of the filter capacitors 7 and to the common operational amplifier terminal 1 that ^r 'is also the output terminal of the active filter. The function of the active filter with the operational amplifier 1 is extended by the summing circuit to its non-inverting input, which only operates when the lower limit of the desired tuning voltage from output terminal C is higher than the input lower limit to terminal A of the tuning voltage source. The magnitude of the desired lower limit of the tuning voltage is set by a variable resistor 5. By divisions of diode 6, the resulting tuning voltage from the terminal C of the filter in this region is less steep, which is advantageous due to large variations in tuning variation capacity at low tuning voltages. If the input tuning voltage from terminal A rises above the desired lower tuning voltage limit, the summation circuit is automatically disabled. Filter adjustment can be extended to multiple ranges. OF THE INVENTION is further connected to one pole of the filter capacitors (7) and to the cathode of the diode (6), the anode of which is connected to a variable resistance slider (5), one end of which is connected to the power supply terminal (B) and the operational amplifier (1), while the other end of the variable resistor (5) is connected to a common terminal (O) of the tuning voltage source, which is connected to the second pole of the filter capacitors (7) and to a common terminal of the operational amplifier (1j) active filter clamp.