DE1221272B - Four-stage transistorized video amplifier - Google Patents

Description

Four-stage transistorized video amplifier The invention relates to on a four-stage transistorized video amplifier. There are already two-stage video amplifier known, in which the first stage in a collector circuit and the second stage is operated in the emitter circuit. Such amplifiers are used in transistorized television receivers after video demodulation. she work as a DC amplifier.

The invention now has the task of providing a transistorized To create a video amplifier with a large gain that is automatically regulated in such a way is that when there is a large variation in the amplitude of the input signal, the amplitude of the Output signal fluctuates only slightly, practically not in a disturbing way.

According to the invention, this is done with a four-stage transistorized Video amplifier achieved by having its first and third stage in a collector circuit and its second and fourth stage work in common emitter circuit and the coupling between the second and the third stage takes place capacitively and the first stage a control voltage is supplied for the purpose of gain control and the collector resistance this first stage is so large that the collector-emitter voltage when regulated up collapses to very small values.

The circuit according to the invention has the advantage that the regulation of the Gain mainly due to a large variation in the input resistance of the first Stage takes place; this means that this first stage is overridden by large control signals not possible.

The following are based on the exemplary embodiment of the drawing the invention, its mode of operation and other advantages explained in more detail.

In the figure, 36 is the control voltage source, the internal resistance of which, if necessary, is increased by an additionally connected resistor, is denoted by 37. This resistance 37 is z. B. 2 ... 5 kOhm. The video signal is fed via the coupling capacitor 38 to a stage 39 which is operated in a collector circuit and has a relatively large collector resistance 40. A positive control voltage 42 is fed to stage 39 via resistor 41. From the emitter of stage 39 , the video signal arrives at the base of stage 43, which also has an external resistance 44 of about 2 ... 5 kOhm. The second part of the video amplifier with stages 45 and 46 works in the same way as the first two stages, ie stage 45 works in a collector circuit, the video stage 46 works in a common emitter circuit. The video signal is fed to the picture tube 48 via the coupling capacitor 47. The clamping circuit 49..

To obtain the control voltage 42, the sync pulses of the clamped video signal z. B. rectified with a keyed rectifier circuit.

The mode of operation of the regulation is explained below.

At the correct working point of the first stage this has as a result of the Collector circuit has a very large input resistance; as a result, only one occurs low voltage division due to the input resistance of this stage and the relative Internal resistance of the control voltage source 36 selected to be large. When in positive Direction of increasing control voltage (when using npn transistors) decreases the collector-emitter voltage of stage 39 to very small values. The input resistance this level 39 also sinks very sharply, so that now a very large one Voltage division with the help of resistor 37 and the input resistance of the Stage 39 takes place.

As a result of the large internal resistance 37 and the large input resistance the third stage 45 operating in the collector circuit can use the coupling capacitors relatively small capacitance values of the base electrodes of these stages (39 and 45) to have. In addition, through the alternate use of a common collector and an emitter circuit operated stage only one coupling capacitor and only one voltage divider for the base voltage to define the operating point needed for two stages.

Claims (3)

Claims: 1. Four-stage transistorized video amplifier, characterized in that its first and third stage (39, 45) work in a collector circuit and its second and fourth stage (43, 46) work in an emitter circuit and the coupling between the second and the third stage (43 , 45) takes place capacitively and a control voltage is fed to the first stage (39) for the purpose of gain control and the collector resistance (40) of this first stage (39) is so large that the collector-emitter voltage collapses to very small values when regulated upwards. 2. Video amplifier according to claim 1, characterized in that the internal resistance (37) of the control voltage source (36) is large (z. B. 2 ... 5 kOhm) compared to the smallest, variable by the control input resistance of the first stage (39) . 3. Video amplifier according to claim 1 and / or 2, characterized in that the control voltage (42) for controlling the first stage (39) is obtained in that the output voltage of the fourth stage (46) by means of a clamping circuit (49 ... 54 ) is clamped on the back porch and the sync pulses of the video signal z. B. be rectified by means of a keyed rectification known per se.