DE2253814C3 - Circuit for combining a video signal with a control voltage, in particular for the modulation of a frequency-controlled SECAM color carrier - Google Patents

Description

When transmitting and recording a video signal, it is known to use the video signal To modulate carrier in frequency modulation. This type of modulation is used, among other things, for the SECAM color subcarrier and applied to video signal recording on an optical disc The instantaneous frequency of the carrier corresponds to the respective video signal, with the frequency during the blanking times has a defined constant value

In such circuits it is known (Yearbook of electrical telecommunications 1969, pages 264-266), with a control circuit during periodically constant values of the video signal, e.g. B. during blanking times, to regulate the frequency and the phase of the color subcarrier relative to the line period to a constant value. In the case of a SECAM color carrier, this increases the visibility of the carrier in the reproduced image When recording a carrier modulated in FM, so-called correlated FM interference during playback when the scanner jumps between two adjacent track sections or when scanning several adjacent track sections at the same time. One by line to line constant phase of the FM carrier for the rising edge of the line sync pulse has at the recording also has advantages in line synchronization of the deflection. Since this synchronization derived from the rising edge of the line sync pulse, statistical Fluctuations in the phase of the carrier for the rising edge disturbances occur in the case of vertical edges. In the known circuit mentioned, the output voltage of the FM modulator with a constant reference frequency compared and thereby

ίο obtained a control voltage via a sieve element. This is via a z. B. the Blanking time closed switch switched to the modulation input of the modulator The circuit is structured in such a way that the video signal during the

is control time with the help of the switch to the value of strained control voltage is clamped. The video signal is the modulation input of the modulator fed to the clamping stage via the coupling capacitor

The invention is based on the object of reducing the complexity of the circuitry in such a circuit to reduce.

This object is achieved by the invention described in claim 1. Advantageous embodiments of the invention are specified in the subclaims.

In addition to the clever double use of the coupling capacitor, the following advantage is also achieved: If the control voltage is only applied to the coupling capacitor via a switch during the required control time is switched, all control voltage components that are outside the control time and do not have the desired value, made ineffective for the charge reversal of the filter capacitor The output of the first stage ensures the full filtering effect of the condenser. The high resistance The input of the second stage causes the charge created on the filter capacitor during the control time is retained during the modulation time

The invention is explained below with reference to the drawing
Fig.) A basic circuit diagram of the invention and
2 shows a practically tested embodiment of the circuit according to FIG. 1.

In Fig. 1, a video signal 1 comes from a terminal

2 via a transistor 3, which is provided with a working resistor 4, and via a coupling capacitor 5 to the input of a field effect transistor (FET) 6, which has a working resistor 7. During the modulation time M , the video signal is at a terminal 8 as a modulating signal for a modulator not shown available. During the control time R , a control voltage Ur generated in a control voltage generator 9 is added to the signal at the base of the transistor 6 via a switch 21 closed by a switching voltage 23 can be added to the video signal 1, a screening must therefore be carried out.

According to the invention, the coupling capacitor 5 is also used as a filter capacitor and, together with a resistor 10, forms the filter field for the control voltage Ur. During the control time R , the capacitor 5 is charged via the switch 21 to the value of the control voltage. The emitter of the transistor

3 forms a low-resistance to earth base for the condensate 5, so that for the

Sieve effect the left end of the capacitor 5 is practically at ground and the resistor 10 and the capacitor 5 form a filter element for the control voltage Ur in a desired manner. The high-resistance input of the field effect transistor 6 has the effect that the control voltage built up between the terminals of the capacitor 5 during the control time R does not change in the desired manner during the modulation time M in which the switch 21 is open. During the time M, the capacitor 5 thus acts as a coupling capacitor for the video signal 1.

In FIG. 2, the video signal 1 acts as a modulating signal on a multivibrator 12, which supplies a carrier modulated in FM via a band filter 13 and a transistor 14 at a terminal 15. During the time M , the frequency / «of the carrier is dependent on the respective instantaneous value of the video signal 1. During the control time R , the frequency of the carrier is adjusted to the constant value k of a reference oscillation 18 supplied by a terminal 16 Transistor 19 at a low-resistance output 20 an initially unfiltered control voltage. This is switched via a switch 21 forming transistor 28 during the control time R to the input of the screening member 10.5 For this purpose, the transistor is controlled by permeable by standing at a terminal 22 switching voltage 23 during the control time R 28 the capacitor 5 is at Improvement of the properties of the control loop still the series connection of a capacitor 24 and a resistor 25 connected in parallel in a known manner

The parts 5,10,24,25 form the filter element for the unfiltered control voltage occurring at the collector of the transistor 28 during the control time R. The control voltage occurring overall at point 20 is advantageously evaluated only during time R so that the control voltage occurring during time M , which is dependent on the modulation content, is not effective for a change in charge on filter capacitors 5, 24. The carrier generated at terminal 15 is only regulated during time R such that it has frequency / ₀ and additionally a constant phase relative to reference oscillation 18 during time R achieve, must be regulated to a reference oscillation 18 coupled with the line period in the line blanking times. If only the frequency position of the FM carrier is important, regulation during the vertical blanking time is sufficient.

During the time M , the capacitors 5, 24 act as coupling capacitors, the charge (direct voltage value) of which practically does not change due to the high-resistance input of transistor 6 and the open switch 21. Resistor 25 is ", low-resistance compared to the high-resistance input of transistor 6, see above that the capacitor 24 is fully effective as a coupling capacitor. _{The phase comparison stage 17 for the frequency / 0} can be set to the middle of the range with a resistor 26. A resistor 27 limits the base current of the transistor 21 during the time R. The transistor 19 serves as an impedance converter for the output voltage of the phase comparison stage 17.

1 sheet of drawings

Claims (6)

Patent claims: 1. Circuit for combining a video signal with a sampled control voltage, in particular for the modulation of a frequency-controlled SE-CAM color carrier, in which the video signal from the output of a first stage via a coupling capacitor led to the entrance of a second stage and the sieved with a filter capacitor Control voltage is applied to the input of the second stage, characterized in that the coupling capacitor (5) also serves as a filter capacitor by adding the output of the first stage (3, 4) and the unfiltered control voltage via a resistor (10) dem high-resistance input (! 1) of the second stage (6) is supplied 2. Circuit according to claim 1, characterized in that that the first stage (3, 4) is designed as a transistor emitter follower stage 3. A circuit according to claim I _1, characterized in that the second stage (6, 7) contains a field effect transistor 4. A circuit according to claim I _1, characterized in that a switch (21) is located between the output (20) of the control voltage source (9) and the input (11) of the second stage (6), which only operates during the desired control time (7? ,) closed is 5. A circuit according to claim 4, characterized in that the control time (R) is the line blanking time and the control voltage (Ur) by phase-frequency comparison of a carrier frequency-modulated with the video signal (1) and a comparison oscillation (18) coupled to the line frequency is won (Fig. 2). 6. A circuit according to claim 4, characterized in that the control time (R) is the vertical blanking time