CS267255B1 - Connection of controlled amplifier controlled by two control voltages - Google Patents

Abstract

the purpose of the solution is to provide control amplifying a controlled amplifier by two independent control voltages without signal was suppressed. Reaches This is done by connecting the output terminal. operative amplifiers with control the terminal of the first control member that is , connected to the second output terminal And the first resistor to the first the transfer member output terminal, eat with the control terminal of the other controller a member that is connected to the first input an operational amplifier to which is connected through the second resistor control voltage source terminal. Second the op amp input terminal is at the same time, the other source control terminal Tension. Controlled amplifier controlled by two control voltages can be used in color television imaging devices.

Description

The invention relates to the connection of a controlled amplifier controlled by two control voltages.

Known amplifiers controlled by two control voltages use either differential amplifiers or voltage-controlled voltage dividers supplemented by amplifiers. In this case, the dc divider is controlled by an operational amplifier. The input signal is connected to a five-way divider, which consists of a resistor and a field-effect transistor. The output signal is at the output of the divider. The control voltage is connected to a divider also consisting of a resistor and a field-effect transistor. The output of this divider is connected to the first input of the operational amplifier. Operational amplifier output It is connected to the control electrodes of field-effect transistors.

The disadvantage of these known solutions is that the input signal must have a small level, which causes a deterioration of the signal-to-noise ratio, especially for broadband amplifiers; at higher signal levels, non-linear distortion occurs. When using a voltage divider, the signal is suppressed with the need for further amplification. Furthermore, these connections have the disadvantage that, when used in color television scanning devices, it is not possible to simultaneously perform multiplicative correction and correction of signal distortion caused by light scattering in the optical system in this circuit.

The above-mentioned drawbacks are eliminated by the connection of a controlled amplifier controlled by two control voltages according to the invention, in which the first output terminal of the transmission element is connected via a first resistor to a second output terminal of the transmission element, which is also connected to the first input terminal of the first control element. Its essence is the connection of the output terminal of the operational amplifier either directly or via a resistor divider on the one hand with the control terminal of the first row.

- 2 - 267 255, on the one hand with the control terminal of the second control member, the second input terminal of which is connected to the first input terminal of the operating control via the second section of the control voltage source. The second input terminal of the operational amplifier is connected to the second source of control voltages.

By this connection of a controlled amplifier controlled by two control voltages, the output voltage of the operational amplifier controls both the splitter ratio of the divider consisting of the first resistor and the first controller, and thus the amplifier feedback. thus the feedback of the op amp. Then the gain of the controlled amplifier is greater than one and is largely controllable by the voltages supplied from the control voltage source. Thus, the level of the processed signal does not decrease and there is no unacceptable non-linear distortion. This connection is also possible in one circuit. to introduce multiplicative signal correction and signal distortion correction caused by light scattering in the optical system, thereby substantially simplifying the signal processing circuits in color television scanning devices.

Examples of the connection of a controlled amplifier controlled by two control voltages according to the invention are shown in the accompanying figures, where Fig. 1 shows an example with direct control of control elements, Fig. 2 shows an example of control of control elements via a resistor divider. 3 is one of the possible specific connections. '

According to the connection in Fig. 3, the input terminal 2 is a transmission terminal. member 1 is connected to the base of transistor 41, the emitter of which is connected to resistor 32, to the third output terminal 5 of transmission member 1 and to the control electrode of transistor 42, whose emitter is connected to resistor 34 and emitter of transistor 43. 42 is connected to resistor 33 and to the base of transistor 44. Its emitter is connected to resistor 3p and to the base of transistor 45, the collector of which is connected to the first output terminal 3 of transmission element 1. Its second output terminal 4 is connected to the control electrode of transistor 43. the output terminal 3 of the transmission element 1 is connected via a first resistor 6 to its second output terminal 4, which is connected to the first input terminal S of the first control element 7. Its second input terminal 10 is connected to a zero potential point or to a source

- 3 - 267 255 I receive the voltage and with the first input terminal 12 of the second control member 11, the second input terminal 14 of which is connected to the first input terminal 16 of the operational amplifier 15, to which the first terminal of the control voltage source is connected via the second resistor 19. The second input terminal 17 of the operational amplifier 15 is also the second terminal of the control voltage source. The output terminal 18 of the operational amplifier 15 is connected via a resistor divider 21 to the terminals 9 and 13 of the control members 7 and 11. To the control terminal 9, respectively. 13 of the control member 7 resp. 11 the control electrode of the transistor 46 resp. 47 controlled by a field, the collector and emitter of which are connected to the first and second input terminals 8 and 10 resp. 12 and 14 of the control member 2 resp. 11. Resistors 52 and 53 are connected to first terminal 22 of resistor divider 21, to its second terminal 23 is connected resistor 51, to its third terminal 24 resistors 51 and 52, to its fourth terminal 25 resistors 53 and 54 and to its fifth terminal 26. resistor 54 «

The resistance of the first control member 2 between its input terminals 8 and 10 is controlled by the voltage applied to its control terminal 9 from the output terminal 18 of the operational amplifier 15. The gain of the transmission 1 is given by the feedback given by the resistance The second control member 11 between its input terminals 12 and 14 is also controlled by the voltage applied to its control terminal 13 from the output terminal 18 of the operational amplifier 15. The coupling between the output terminal 18 and the first input terminal 16 of the operational amplifier 15 of the control member 11 maintains a voltage at the input terminal 16 of the operational amplifier 15 which is identical to the voltage at the second input terminal 17 of the operational amplifier 15.

The resistances of the first resistor 6 and the second resistor 19 are generally chosen to be identical. The control elements 7 and 11 are generally used with the same dependence of the resistance on the control voltage at the control terminals 2 ^and U · Under these conditions the gain of the transmission element between its input terminal 2 and the first output terminal 3 and control voltage at the second input terminal 17 of the operational amplifier 12 «

Claims (2)

A circuit of a controlled amplifier controlled by two control voltages, wherein the first output terminal of the transmission member is connected via a first resistor to a second output terminal of the transmission member, which is also connected to the first input terminal of the first control member, characterized in that the second input terminal / 14 / of the second control element / 11 / is connected to the first input terminal / 16 / of the operational amplifier / 15 / and via the second resistor / 19 / to the first terminal / 20 / of the control voltage source, the second input terminal / 17 / of the operational amplifier / 15 / is also the second terminal of the control voltage source, the output terminal / 18 / of the operational amplifier / 15 / being connected to the control terminal / 9 / of the first control member / 7 / and to the control terminal / 13 / of the second control member / 11 /, the first input terminal / 12 / is connected to the second input terminal / 10 / of the first control member / 7 / « 2. Connection of a controlled amplifier controlled by two control voltages according to item 1, characterized in that a resistor divider is arranged between the output terminal / 18 / of the operational amplifier / 15 / and the control terminals / 9 and 13 / of the first and second control members / 7 and 11 /. 23./ so that the output terminal / 18 / of the operational amplifier / 15 / is connected to the first terminal / 22 / of the resistor divider / 21 /, the second terminal / 23 / of which is connected to the third output terminal / 5 / of the transmission member / 1 / and the third terminal / 24 / is connected to the control terminal / 9 / of the first control member / 7 / and the fourth terminal / 25 / to the control terminal / 13 / of the second control member / 11 /.