SU554640A1 - TV camera with variable frame transfer time - Google Patents

Description

one

The invention relates to television technology and can be used in devices for generating a narrowband television signal with tunable parameters.

A known television camera with a variable frame transmission time, comprising a transmission tube with a scanning unit, an optical-mechanical unit, a focusing and deflecting system connected to a compensating sweep generator, a video amplifier, a control unit, one of the outputs of which is connected to one of the compensating generator outputs sweep, the driver of the compensating pulses and to the input of the optomechanical unit, and the other output to one of the inputs of the generator of the polling pulses, on the other input of which, as well as on the other input of the control unit and the compensating impulse generator is supplied with a signal from the synchronous generator, and the output of the compensating impulse generator is connected via an amplifier to the transmitter tube modulator, and the output of the interrogation pulse generator is connected to another compensator impulse generator 1 through the delay unit.

However, in a known television camera, the raster scanning speed is not uniform.

In order to ensure a uniform raster scan speed in the proposed television camera with a variable frame transmission time, a master oscillator, a variable period horizontal sync pulse generator, a inhibitor circuit and a divider, one of the inputs of which is connected to the output of the synchronization generator, and the other to the output of the control unit, and the output of the divider through the prohibition circuit, one input of which is connected to the output of the master oscillator connected to the input of the synchronous generator, and the other input to the output of the generator of polling pulses, horizontal sync generator connected to the variable period of the transmitting handset unit scan.

The drawing shows a structural electrical circuit of the proposed television camera.

The television camera contains a transmitting tube 1 with a scanner and a focusing and deflecting system 2, an opto-mechanical unit 3, a video amplifier 4, a control unit 5, one of the outputs of which is connected to one of the inputs of a compensating sweep generator 6, a driver 7 compensating pulses and an input opto-mechanical unit 3, and the other output to one of the inputs of the imaging unit 8 polling pulses, the other input of which, as well as

The other input of the control unit 5 and the compensating impulse generator 7 is supplied with a signal from the synchronizing generator 9, and the output of the compensating impulse generator 7 through the amplifier 10 is connected to the transmitter tube modulator 1, and the focusing and diverting system 2 is connected to the compensating sweep generator 6, the output of the driver 8 polling pulses connected to another input of the generator 6 compensating sweep, and through the block 11 delay connected to another input of the driver 7 compensating pulses, zaduphiy generator Ator 12, shaper 13 horizontal sync pulses of variable period, prohibition circuit 14 and divider 15, one of the inputs of which is connected to the output of the synchronous generator 9, and the other to the output of control unit 5, and the output of divider 15 through prohibition circuit 14, one input of which is connected to the output of the master oscillator 12 connected to the input of the clock generator 9, and the other input to the output of the driver 8, and the driver 13 is connected to the scanner unit of the transmitting tube 1.

The television camera works as follows.

At the beginning of the reading of the potential relief from the target of the transmitting tube 1, the compensation pulses coincide with the beginning of the horizontal scanning. The pulse divider 15 from the control unit 5 is set to the initial position and subsequently counts the frame sync pulses, with the frequency of which the compensation pulses move.

The selection of the division factor is determined by the duration of the compensation pulses, and it is different for different camera modes, so this factor is determined by the control unit, up to the times when the falling edges of the horizontal deflecting and compensating currents are combined, the output of the divider 15 is formed a potential prohibiting operation of the circuit 14, and the driver 13 generates horizontal synchronization pulses with a repetition period of 64 µs.

Starting from the moment of coincidence of the leading edges of the horizontal deflecting and compensating fields, a potential is formed at the output of the divider 15, allowing the operation of the circuit 14, while the signal from the driver 8 polling pulses prohibits one or several periods of the clock frequency from the master oscillator 12 to the generator 13 horizontal sync pulses variable period, as a result, in the imager 13 horizontal sync pulses the beginning of the reverse stroke (i.e. the position of the falling edge) is delayed by the value of one or several periods of the clock frequency, i.e., the period of the following line pulses becomes Totr + lA, where A is the duration of the decomposition element, and n takes the values 1, 2, 3, ..., etc. with each new

a standard frame, i.e., the delay is increased by A in each subsequent frame, which ensures the matching of the leading edges of the horizontal deflecting and compensating currents, since the compensation impulse moves precisely according to this law. In addition, the same line-scan compensation conditions are provided for all raster lessons.

Further, as the video signal is transformed, there comes a moment when the last raster element is transmitted, while the divider 15 is again set in such a position that the operation of the circuit 14 is prohibited, and

shaper 13 produces standard-period horizontal sync pulses (64 μs).

Thus, the device provides the same conditions for the formation of a narrowband video signal for all elements of the raster.

Claims (1)

1. Copyright certificate № 435807, M. Kl.2N 04N 5/26, 1973 (prototype).