DE1762342C - Color signal control circuit for color television receivers - Google Patents

Description

The invention relates to a color signal regulating speaking time of the automatic color signal control

device for color television receivers with a color signal - sensitively influenced.

amplifier, which has a gain control electrode - The known color signal control circuits for color

has to work with a synchronous amplifier, with a television receiver because of the said Color carrier oscillator, which is an amplifier element with 5 disadvantages not for all transmission conditions,

having a gain control electrode, which is not particularly suitable for reception in the peripheral area

Amplifier is coupled, which a grid discharge completely satisfactory. It is therefore the job of the

away for the signals from the control electrode according to the invention, while avoiding these disadvantages a

Has mass. To create color signal control circuit that

In the known color television receivers, a circuit that is as low as possible is used. A circuit for automatic control of the input impedance provides the greatest possible voltage amplifier gain. This gain control circuit provides action. With a color (AGC), this task works in the same way as the corresponding signal control circuit for color television receivers of the corresponding circuits in black-and-white receivers. It has been shown, however, that in color television ^ - 15, that in the grid discharge path of the aforementioned catchers, in addition to the usual amplifier, an amplifier that can be controlled between two electrodes of a current circuit for automatic gain control runs inserted a selective gain control for the color is and that the control DC voltage at the output of the channel is desirable. The reason for this is that the current-controllable amplifier, according to suitable Spandarin, is that the color saturation in the television picture of the reception reduction is switched to the gain control receiver by the ratio of the amplitudes of the trode of the color signal amplifier.
Color carrier and the luminance signal depends. In a preferred embodiment of the invention, despite the automatic control of the overall behavior, the current-controllable amplifier has a transistor, amplification, however, still undesirable which is connected in the basic basic circuit and whose changes in the amplitude ratios of the emitter-base path are in the grid discharge path.
The invention offers the advantage that the signal, selective amplification of the color channel, does not produce the best possible reproduction quality for the regulation directly from the control grid. Such an oscillator is taken, as is the case with the known control, in which the reference variable is the color-synchronous arrangement. This also gives rise to signal amplitude, which is generally not referred to as the difficulties that otherwise arise from the circuit or abbreviated ACC. Oscillator load and out of the need for one

In color television receivers, the large color signal capacity for deriving the alternating current control circuit generates a direct voltage, which results in proportional proportions. The amplitude of the chrominance signal according to the invention, and this addition of the controllable amplifier, results in direct voltage, a circuit with low input impedance is fed to a chrominance signal amplifier in such a way that its gain, inversely through the control electrode of the oscillator, does not change with the chrominance signal amplitude . In an additional charge. The amplification of the registered color signal control circuit with current-controllable feedback arranged according to the feedback is derived from the DC voltage supplied by the color synchronous amplifier in comparison with the voltage on the signal which is amplified by the color amplifier. The effect of this circuit can be achieved by using the same polarity, which can be used to control the amplification of the DC voltage, which is still improved by the color signal amplifier.
will. Further details and refinements result

A color signal control circuit is known which can be derived from the following description in connection with the representation of an exemplary embodiment, which shows a high input impedance.
The control electrode of the color subcarrier oscillator is connected. Built on the grid of the rigidly synchronized oscillator: an antenna 2 receives the lator, a direct voltage can be derived, transmitted signal and leads it to the tuning unit, which increases with the color sync signal amplitude in a negative direction, the intermediate frequency amplifier and a second direction. This DC voltage has to be applied to the 50 demodulators, all of which are within the rectangle marked with the correct polarity so that they are provided for the control electrodes, especially 4, of most color signal amplifiers.The demodulated signals are amplified in the video amplifier 6 and fed to the picture tube 8. she

With a corresponding known arrangement are also via a driver amplifier 10 of the it is true that useful results can be achieved if each deflection circuit 11 is supplied for synchronization, however, the best possible reproduction quality will still be the deflection currents for the deflection windings not received. The amplitude of the DC voltage 13 of the picture tube 8 is generated. An output voltage is not enough for a good operation of a closed - the driver amplifier 10 and pulse from the The automatic deflection system 11 provided with the feedback loop consists of an automatic color control system. Also a satisfactory 60 gain control circuit 15 is supplied. This decoupling from the load fluctuations generates a voltage which is not given to the amplification control electrode. the tuning unit and the intermediate frequency

Another problem arises in the known amplifier is supplied, so that the video signal on arrangement from the considerable alternating current a desired level at the input of the video signal of the oscillator, which the direct voltage β · amplifier 6 is held, interferes with the control circuit. If you use ge * in the color channel, the large capacitances at the output of the amplifier to suppress the color signals and color synchronous alternating current components appearing at the output of the amplifier, then the input signals are simultaneously transmitted by a frequency-selective color amplifier

12, the gain of which is controlled in accordance with the present invention. The separation of the burst signals from the output of the color amplifier 12 is effected by a burst signal separation circuit, which is shown as a burst signal gate amplifier 14. The color sync signal is fed to the frequency-determining part 16 of the crystal-controlled color carrier oscillator 18, the phase and frequency of which it synchronizes. The output voltage of the color carrier oscillator 18 is fed to the color demodulator 20 together with the color signals which come from the output of the color signal amplifier 12 via the line 22 . The color signals are then applied to the corresponding electrodes of the color picture tube 8. By pulses which are supplied from a sampled Aus'asttriode 26 via a line 24, is prevent Jt: rt that the color burst signals interfere with the operation of the> arbdemodulators. The triode 26 also serves to shift the potential of the scanned color control circuit, which is used to control the

The color amplifier 12 is amplified by the circuit; .ri is supplied.

The driver amplifier 10 contains a pentode 34, where a control grid 30 is connected to the output of the second detector located in the box 4. A grid bleeder resistor 32 is connected between the grid 30 and ground, the cathode 31 is connected to ¹ terminal. The screen grid 36 contains its operating voltage via a screen resistor 38, from which the undesired signals are kept away by a grounded discharge capacitor 40. The 3remsgitte ^r is guaranteed within the pentode 34 with its cathode 31. The amplified video signals appear on anode resistor 28, which is between anode 44 and a point of positive voltage. These video signals are applied via a line 45 to the automatic gain control circuit 15 and dis deflection. 11

The color signals and the color sync signals are separated from the rest of the amplified video signal which occurs at the anode 77 and fed to the control grid 46 of the pentode 47 of the color signal amplifier 12. The output signal of the driver amplifier 10 arises at the impedance, which consists of the resonance circuit, which is connected to ground, and consists of a DC voltage blocking capacitor 48, an inductance 50, a resistor 52 and a bridging capacitor 54. The pentode 47 receives its bias voltage via the parallel connection of a resistor 58 and a capacitor 60, which lie between the cathode 56 and ground. The operating voltage for the screen grid 62 is supplied from a point of positive potential via a voltage divider consisting of the resistors 64 and 66. The capacitor 68 represents a suitable bridging for signal frequencies. The braking grid 70 is internally connected to the cathode S6 . The amplified color signals and color sync signals appear across the primary winding 72 of a bandpass output transformer 74, the winding of which is in series with a voltage drop resistor 76 between the anode 77 and a positive voltage. The capacitor 78 serves as a signal bridging. The signals seen between ground and the tap 82 of the secondary winding of the transformer 74 are connected via a line 22 to the color demodulator 20. Both the primary winding 72 and the secondary windings 80 and 82 are tuned to resonance for the color signals with the aid of a capacitor (not shown) .

The color signals and color sync signals over the entire secondary winding are generated with the help of a Capacitor 84 coupled to the control grid 86 of the pentode 87, which is the burst signal gate amplifier 14 represents. When the color sync signal is present, the pentode 87 is

pulse 88 conductive, which come from an auxiliary winding 90 of the flyback transformer. These impulses are fed to the grid 86 via a voltage divider, which consists of a resistor 92 and a grid drain resistor 94 exists. Between the color sync signals when the Fi. ^ Signals on the grid 86 are present, the pentode 87 is due to the positive voltage generated during the color sync signal pauses derived and stored in the 7? C circuit of the cathode resistor 95 and capacitor 96

ao cheii becomes non-conductive. The positive screen grid voltage is fed to the screen grid blocked by a capacitor 102 via the resistor 100. The anode voltage is supplied to the anode 103 via a choke coil 104 and the primary winding

106 of an output transformer 108 is supplied. A capacitor 111 serves as the ground return for the signal.

A filter 16, consisting of a crystal 109 and a variable capacitance 110, dip in series across the

Secondary winding 112 of the transformer 108 is connected, ensures the separation of the color carrier frequency from the amplified color sync signals that appear on the primary winding 106. The connection point of the winding 112 with the

Capacitor 110 is connected to ground. The size of the impedance which is coupled into the circuit via the primary winding 106 is reduced by the fact that the number of turns of the secondary winding

112 is small compared to the number of turns of the primary winding 106 . The effective inductive resistance

the secondary winding 112 is reduced by connecting a small resistor 113 in parallel with the secondary winding 112 . The crystal 109 is selected so that it has an inductive resistance at the frequency of the color carrier. The Kapazkät 110 is ^f selected such that the circuit 112, 109, 110; md

113 at the color subcarrier frequency in resonance i.it. The quality of the circuit is sufficiently high that there were practically no currents at other frequencies during the time the burst was present. The voltage of the color carrier frequencies /. which arises at Konden'.ntnr 110 is fed to the control grid 114 of a penlode amplifier 115 of the oscillator 18. that they match this in phase and frequency with the color

SS synchronous signal synchronized.

In the oscillator 18, the cathode 116 is connected to ground. Eir. Parallel oscillation circuit consisting of a tuning capacitance 118, a bypass capacitor 120 and an inductance 122 is between the Screen grid 124 and ground switched. The oscillating crystal 109 and the capacitor 110 are effectively parallel to the Stcuergittcr 114 and ground, so that the control grid 114, the cathode 116 and the screen grid 124 ah oscillator with tuned

Anode and matched grid works. The strength of the vibrations can be changed by changing the inductance of the coil 122. An output transformer 128 couples the oscillations

5 6

the color demodulator 20. The oscillator 18 supplies lektor 138 for the purpose of the color signal control a control voltage which changes with the amplitude of the color sync signal in the correct sense, these changes occur in the following way within a range which is instantaneous. In the absence of a color sync signal, there is an inverse feed to the amplification control electrode 46, as a result of the oscillator oscillations, an alternating voltage of the color signal amplifier 12 is too large, so that the grid 114, which must be made by the grid cathodic arrangements, is rectified in order to rectify this span path at the grid 114 voltage to transpose. For this purpose, Wicinc negative DC voltage component occurs. resistors 146 and 148 in series between the KoI-The size of the AC voltage at the grid 114 and lektor 138 and a negative voltage source so that the size of the DC voltage component can be switched in io, at the connection point 149 of which the trans-determined limits by changing the induced DC voltage signal for the Color signal | Activity of the coil 122 can be varied. When bursts are regulated. It is fed to the grid 46 by a and if its fundamental frequency in connection with the point 149 with the ungrounded phase to the side of the filter capacitor 54 on the grid 114 by the oscillator er. The voltage generated is then the capacitor 54 generated there is also reduced the proportions of the j DC voltage component proportional to the color image frequency. j Synchronization signal amplitude increasingly negative. Although other direct voltage components also generate a corresponding negative voltage source for the resistor 148 , direct current can be used in the grid leakage resistor. The coloring consists of the grid 150 of the synchronous signal gate amplifier 14. The filter 16. The blanking triode 26. Its anode 152 lies over a grid 114 and the cathode 116 thus forms a switching resistor 154 at a positive operating voltage, treatment, which is coupled to the output of the color signal amplifier and its cathode 155 receives the bias voltage via 12. to generate a DC control voltage to the parallel connection of a resistor 156 , the size of which changes with the amplitude changes - a capacitor 158. Von der Zcilenablenkschalrungen the burst signal changes. As processing in the deflection system 11 are positive impulses

The F ^ rbsigrirtlschaltung 28 has according to the inventions 160 via a capacitor 164, a resistor

application a current controllable amplifier such as the 166 and a grid bleeder resistor 168 to the

Transistor 129, whose emitter 130 is coupled via a grid 150. These components serve

Grid leakage resistor 132 to grid 114 of the oscilloscope for cutting and clamping the pulses 160,

latorpcntode 115 is performed. Between the emitter 30 so that the triode 26 during the time of the presence

130 and ground is a capacitor 134 which conducts the color burst signal. When guiding

derives the color subcarrier frequency from emitter 130. of the triode 26 are positive at the cathode 155

There is also a ground connection to the base 136 pulses, which via the line 24 do not respond

of the transistor 129, while its collector 138 is passed over the illustrated point of the color demodulator 20

a load resistor 140 to a positive voltage 3s. These impulses are for different

is laid. Because the burst signals are used during the purposes in this circuit. During the

If vertical blanking periods are not sent, if the duration of the pulses 160 falls, the capacitor 164 will

the amplitude of the grid charged by capacitor 110 , and between pulses it discharges

114 voltage supplied to pentode 115 while slowly moving across resistors 166 and 168

of these periods, so that the DC voltage 40 to ground, so that at its connection point a

voltage component on the grid 114 is lower and the negative DC voltage arises. The bridging

Line-frequency component in the emitter 130 connection capacitor 54 and the resistor 148 form

guided current occur. A capacitor 142, which is a filter that adjusts the amplitude of the pulse voltage

lies between the collector 138 and ground, forms on the grid 46 reduced. The resistors 148 and

a filter together with the load resistor 140 , 45 146 are large compared to the load resistor 14 /

the removal of these components from the enough so that they have little effect on the

automatic color control signal is used. Have the value of the current at the collector 138.

In the grid discharge path from grid 114 of the Os- The circuit described provides a considerable

oscillator amplifier 115 flows, a small proportion of the loan gain in the automatic color control

Grid leakage current between the emitter 130 and 50 approximate loop, so that level changes of the color

the grounded base 136. As a result of the effect of the signal originating from the color signal pentode 47

The rest of the grid current flows through the transistor, which is greatly reduced. This effect will

the collector 138, the load resistor 140 and with a minimum of additional circuit parts

Power source, not shown, and generated at KoI- is sufficient and has no harmful side effects

lektor 138 a voltage, which in the same sense 55 the operation of other circuits of the receiver,

such as the rectified voltage on grid 114. Only as an example, not as a limitation

changes. Both voltages become more negative if the following are some values for switching elements.

The burst signal amplitude increases. As the load-led,
resistance 140 is large, the changes are the

DC voltage at collector 138 is much greater than 60 resistor 132 68 kOhm

as the changes in DC component capacitor 134 0.1 µF

the grid voltage 114. A significant advantage of the transistor 129 2 N3565

Circuit is then that the small impedance in capacitor 142 0.047 μΥ

Forward biased base-emitter over-resistance 140 3 *] fi MOhm

gangs causes the transistor 129 only a little 65 resistance 146 47o'kOhm

or no influence at all on the operation of the oscillating resistor 148 47 MOhm

tors 18 has. Resistance 168 22o'kOhm

Although the increased voltage across the KoI capacitor 54 '. ().] uF

Claims (5)

regulation tnmitteltrode 46 aß Vore Spanind Wien KoI-: lle ge; transisignalch a grounded r council the other ι can-50 dereine inung, ζ over 6 with schalipulse istand f das lienen: J60, rhan- -eiten sitive not lead dene. 1 of the 168 a risk idea and; according to the patent claims: 1. Color signal regulation for color television receivers with a color signal amplifier, the has a gain control electrode, mi; a chrominance signal amplifier, with a color subcarrier oscillator, which is an amplifier element having a gain control electrode coupled to the amplifier having a Grid discharge path for the signals from the control electrode to ground, characterized in that the grid discharge path (1:12, 130, 136) one between two electrodes of a current controllable amplifier (28) Line is inserted and that the Regelglcichspannung at the output of the current controllable amplifier after a suitable voltage reduction is connected to the gain control electrode (46) of the color signal amplifier (12). 2. Color signal control circuit according to claim 1. ™ characterized in that the current controllable amplifier (28) contains a transistor (129), which is switched in basic sound and its emitter-base path in the grid abcit path located. * 5 3. color signal control circuit according to claim 2, characterized in that the collector (138) the current controllable amplifier (28) is coupled to ground via a capacitor (142) and is further connected to a positive DC voltage via a load resistor (140), wherein the values of the resistor and capacitor are chosen to reduce the amplitude of any line rate AC voltage components at that point. 4. color signal control circuit according to claim 2 or 3, characterized in that between the emitter (130) of the transistor (140) and ground a capacitor (134) is connected, the size of which is selected so that the amplitude of any AC voltage components at the input of the current controllable amplifier is reduced. 5. color signal control circuit according to claims 1 to 4, characterized in that dei Color signal amplifier (12) has a vacuum tube (47) and that the transistor (136) is a bipolar NPN transistor and that the switching means for coupling the output of the current controllable amplifier (28) to the Verslär kungsstcuerclektrode (46) for voltage down A keyed DC voltage source (26) and a voltage stator circuit (146 148) to implement the Si appearing at the output of the current controllable amplifier (140) gnals in a voltage range that is suitable for dii Application to the reinforcement control unit is suitable, include. 1 sheet of drawings 109 685 /: