DE2230431B2 - Symmetric drive circuit for differential amplifier - has clamping circuit at each input to hold input levels constant - Google Patents

Abstract

The symmetric drive circuit, for a differential amplifier, has a clamping circuit for each of the differential amplifier inputs to hold that input at a constant level. Each clamping circuit comprises a transistor (3) with a bias resistor (4) connected to its base and a DC-decoupling capacitor (2) that applies the input signal (1) (or the reference) to the input of the amplifier. The video signal at the input of the differential amplifier (9) is maintained at a constant potential to maintain the working point of the amplifier at the required level. A second transistor (17) works in synchronism with the first.

Description

The invention relates to a circuit arrangement for the symmetrical control of a differential amplifier with video signals.

In the manufacture of electronic devices, efforts are made to use solid-state components and integrated circuits to be used as much as possible in order to avoid the inevitably associated with this technology To take advantage of. In the field of television technology, in particular the color television technology, therefore find out For space and cost reasons, more and more integrated differential or operational amplifiers are used. the Application of these integrated circuits is, however, different and temperature-dependent Potential fluctuations at the input terminals of the differential amplifiers are limited, as differential amplifiers amplify temperature-dependent DC voltage fluctuations. To the related To compensate for temperature-dependent zero point errors caused by the differential amplifiers upstream semiconductor elements are caused, has already been proposed, for. B. the video signal to clamp and feed through a first transistor to one input of the differential amplifier, while the other input of the differential amplifier over one second transistor is placed at constant potential. The first and second transistor are here as close at The integrated differential amplifier arranged that temperature fluctuations are the same for both transistors influence. In addition, for a desired the two transistors have the same characteristics in terms of their characteristics, i.e. sufficient zero point stability. H. select will.

The object of the present invention is therefore to provide a circuit arrangement according to the type mentioned at the beginning s to indicate for which no special transistors have to be selected and for which to the spatial arrangement of certain transistors does not need to be taken into account.

According to the invention, the object is provided by the part of claim 1 that is characterizing Features solved

Advantageous further developments and refinements of the invention are the characteristics of the subclaims refer to.

The circuit arrangement according to the invention has the advantage that by using a second »Blind« -working clamping step also horizontal frequent roof slopes, which are caused by the discharge of the Clamping capacitor are caused to be compensated.

The application of the circuit according to the invention

in the case of a modulation with a suppressed carrier, there is also a significant improvement in the so-called

Remaining support stability depending on the temperature

door.

Further features and advantages of the invention emerge from the following description of FIG Embodiments based on figures in the drawing. From the figures shows

F i g. 1 is a circuit diagram of a known control of a differential amplifier,

2 shows a circuit diagram of the control according to the invention a differential amplifier and

3 shows the circuit arrangement according to the invention with a double push-pull modulator.

In the figures, switching groups with the same effect are provided with the same reference symbols.

In the known circuit arrangement of FIG. 1 is, for example, a video signal at terminal 1 initially with the help of the clamping capacitor 2, clamping transistor 3 and resistor 4 existing Terminal stage clamped to ground potential The transistor 3 is here via terminal 6 with horizontal frequency Klemniimpuisen controlled so that he during the horizontal blanking interval switches to the conductive state and the video signal with ground potential • connects The video signal clamped in this way is made up of a resistor 5, transistor 7 and emitter resistor 8 existing emitter follower supplied to one of the two inputs of the differential amplifier 9 other input of the differential amplifier 9 is with a controllable transistor stage, consisting of transistor 10, Trimmer potentiometer 14, capacitor 12 and resistors 13 and 14 connected. With the Trimmpotentiometer 14, the input of the differential amplifier 9 is biased so that in the event of a short circuit the input terminal 1 to ground potential at the output terminal IS of the differential amplifier 9 the Output voltage also becomes zero. As a result of that the transistors 7 and 10 selected for the same characteristics are arranged spatially close to one another, acts a temperature change on both transistors equalizes, so that when the input terminal is short-circuited 1 the output voltage at terminal IS also remains zero volts

In Fig. 2 shows the circuit arrangement according to the invention with the differential amplifier 9 The video signal at terminal 1 is switched off here via the

Resistor 4, clamping transistor 3 and clamping capacitor 2 existing clamping stage directly to the one The other input of the differential amplifier 9 is fed to the input of the differential amplifier 9 further clamping stage connected, which with a clamping capacitor 16, clamping transistor 1 / and resistor 18 is constructed Here, the clamping capacitor 16 is with a coating at ground potential and with the other coating once at the input of the differential amplifier 9 and on the other hand at the collector of the clamping transistor 17, the emitter of which is at ground potential. The base connection!: \ £ se of transistor 3 and 17 are with Terminal 6 connected. Terminal 6 has horizontal-frequency clamping pulses. The synchronous ones Clamping transistors 3 and 17 switch the two inputs of the differential amplifier in the horizontal blanking interval 9 to ground potential Since the two terminal stages are dimensioned the same, the differential amplifier also the same horizontal ones caused by the discharge of the clamping capacitors Roof slopes eliminated The second clamping stage works "blind" and does not clamp a video signal, but only serves to balance the control of the differential amplifier 9.

F i g. 3 shows in the dashed frame 19 the 2 ^r > known integrated circuit of a double push-pull modulator. In this integrated double push-pull modulator module, terminals 20, 21 and 22 are used to supply the operating voltage; The modulated output signal is applied to terminals 23 and 24, the carrier signal is applied to terminal 25 to jo and the signal to be modulated is applied to terminals 26 and 27.

This double push-pull modulator is described below explained in detail with reference to the drawing The modulator has two pairs of switching transistors 28, 29 and 30,31 and two input transistors 32 and 33. The transistors 34, 35 and 36 with the Resistors 37 to 40 serve as a constant current source in this circuit. The emitters of the switching transistors 32 and 33 are connected to one another via resistor 43 in such a way that they act as a differential amplifier in this circuit work. The video signal to be modulated is transferred to terminal 1 in this exemplary embodiment Clamp capacitor 2 at terminal 26 to the base of input transistor 32, with aas video signal Transistor 3 and resistor 4 as well as the horizontal-frequency pulses at terminal 6 at ground potential 21 is clamped.

The carrier signal switches the transistors 28 and 31 into the conductive state, while at the same time the Transistors 29 and 30 off In the next half cycle of the carrier signal, the transistors 28 and 31 blocked and the transistors 29, 30 placed in the conductive state. This process occurs each period of the carrier signal, so that the transistors 28, 29 and 30, 31 are alternately conductive will. As in Figure 2, the voltage for setting the operating point is here at terminal 27 of a Branch of the differential amplifier synchronized with the video signal to be modulated at ground potential 21 clamped. The alternating, symmetrical and synchronous gate control of the switching transistors 28 to 31 has the effect that the inversely supplied to the collectors of the input transistors to be modulated Video signal currents at the collector resistors 41 and 42 with the terminals 23, 24 a modulated Deliver a strapless video signal.

Such double push-pull modulators are particularly useful for coding color television signals second hand. A color carrier is supplied via terminal 25 and a color difference signal via terminal 1. With the help of the second "blind" clamping stage, this double push-pull modulator becomes extremely symmetrical controlled This circuit arrangement according to the invention ensures that the ink carrier completely suppressed and no residual color carrier is contained in the color television signal modulated in this way.

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit arrangement for symmetrical control a differential amplifier with video signals, characterized in that Both inputs of the differential amplifier (9) are each connected to a clamping stage (2, 3, 4 or 16, 17, 18) are which voltages at the inputs of the differential amplifier (9) to an equal, constant Clamp potential. 2. Circuit arrangement according to Claim 1, characterized in that the video signal at one input of the differential amplifier (9) is clamped to a constant potential by means of a clamping stage (2, 3, 4) and that a voltage is applied to the other input of the differential amplifier ( 9) to set the operating point with a further clamping stage (16, 17, 18) is clamped to the same constant potential as the signal at one input of the differential amplifier (9). 3. Circuit arrangement according to Claim 1 and 2, in which the differential amplifier is part of a (De) modulator according to the double push-pull principle, in which two pairs of switching transistors controlled by input transistors, the input transistors as differential amplifiers are switched, characterized in that this is on constant potential clamped video signal to be demodulated or modulated from a control electrode of one input transistor (32) is supplied and that one is connected to a control electrode of the other Input transistor (33) lying voltage for setting the operating point to da> i same constant potential is clamped