SU698165A1 - Pickup tube for television stroboscope - Google Patents

Description

I

The invention relates to radio engineering and is used to obtain fixed or sedentary images of periodically moving objects on the screen of a television tube.

A known transmitting camera for a television strobe, containing a transmitting television tube with horizontal and vertical scanning units and a video amplifier, an anti-coincidence unit, the first input of which is given a signal from an object position sensor, and the second input through a pulse shaper is connected to the control electrode of the transmitting television tube, and the trigger, to the first input of which the output of the anti-coincidence unit is connected, and to the second input of the trigger pulses of half-frame frequency 1 are applied.

However, the known transmitting camera dp of a television stroboscope has insufficient resolution.

The purpose of the invention is to increase the resolving power in interlaced image reading.

Claims (1)

Dpp. Of the transmitting to the camera for a television stroboscope containing a transmitting television tube with blocks of horizontal and vertical scanning and a video amplifier connected to the tube output, anti-coincidence unit, the first input of which is fed from the object position sensor, and the second input through the pulse former connected to the control electrode of the transmitting television tube, and the trigger, to the first input of which the output of the anti-coincidence unit is connected, and to the second input of the trigger, pulses of half-frame frequency are applied, There are two counting triggers, two synchro flip-flops, an odd-flip-flop trigger, an even-flip-flop trigger, an adder, an additional antimatch block, an extra flip-flop and a memory block, the first counting trigger is connected to the trigger output; counting triggers are connected to the corresponding inputs of the first synchronization trigger, the second outputs of the counting triggers are connected to the corresponding inputs of the second trigger of synchronization, the output of the first trigger with The synchronization is connected to the first input of the odd field trigger, the output of the second synchronization trigger is connected to the first input of the even field trigger, to the second inputs of the odd and triggered triggers you have received half-emitting pulses. frequency, an odd-flip-flop output is connected to the corresponding input of the adder and to the first input of an additional trigger; to the second input of which the corresponding output of the second counting trigger is connected, and the output of the additional trigger is connected to the first input of an additional anti-matching block, the output of the even field trigger is connected to the corresponding the input of the adder, the output of which is connected to the second input of the additional anti-blocker block connected to the input of the pulse former, while to the output of eousilitel connected memory unit. The drawing shows the structural electrical circuit of the proposed transmitting camera for a television stroboscope. The transmitting camera for the television system of the boscope contains a transmitting television tube 1, blocks 2 for horizontal and vertical scanning, a video amplifier 3, a block 4 of memory, an anti-coincidence unit 5, a trigger 6, a driver 7 pulses, the first 8 and second 9 counting triggers, an additional block 10 angas coincidences, the first 11 and second 12 synchronization triggers are the open-loop trigger 13, adder 14, the trigger 15 is of odd gender, and the trigger 16 is even in l. A transmitting camera for a television stroboscope operates as follows. In the absence of pulses coming from the imaging unit 7, the pulses from the object position sensor pass unhindered to the output of the anti-coincidence unit 5 and start the expo- sure device while simultaneously flip-flop trigger 6. If, in one half of the vertical scanning, several pulses are received from the position sensor the object, the transmitting television tube 1 is exposed a corresponding number of times, and the trigger 6 is transferred only by the first impulse - and reset to the initial state by the closest time frame m sync. The first 8 and second 9 counting triggers are divided into: two frequency pulses coming from the output of trigger 6, and the clock frequency of the half-frame sweep. The first trigger AND synchronization with an odd field is transferred first by odd pulses coming from the output of the first counting trigger 8, and then, in the initial state, is also odd-numbered | 1mi Pulses from the output of the second counting term 9. The even pulses are received first, and even - the second pulses received at the outputs of the first 8 and second 9 counting thrasters. The second trigger 12 of synchronization with an even field is transferred by even pulses from the other outputs of the first 8 and second 9 counting triggers. The trigger 15 of the odd field and the trigger 16 of the even field generate pulses of the even and odd field, which are summed over time in the adder 14. Moreover, the impulse From the output of the trigger 15 of the odd field is transferred to the additional trigger 13, and the closest odd pulse from the output of the second counting trigger 9 returns in the outgoing state. From the output of the additional trigger 13, the resulting impulse, lasting one frame (since we have two sexes in the frame), blocks the additional anti-coincidence unit 10. At the same time, an additional anti-coincidence unit 10 and an additional trigger 13 provide for reading in odd and even fields of different frames. At the output of the pulse shaper 7, pulses of the required amplitude arise with a corresponding alternation of an odd and even field, following the fields in which the transmitting television tube 1 exposes. These pulses unlock the switching beam of the transmitting television tube 1 and block the antisopping unit 5. Exposure of the transmitting television tower 1 during this time does not occur. In this way. At any exposure frequency of the object, the potential relief in the odd field is read, and after the second expansion (again, regardless of the parity of the field), only in the even field, since the time between counts depends on the period of movement of the object and varies from one frame to time. several frames, it is necessary to have 4 memory blocks, for example, on a 1synescope with an afterglow. At the same time, a stable interlaced scan is ensured, and this increases the resolving power by a factor of two and approaches the resolution of television systems operating in the usual way. The invention of the Transmitting camera for a television stroboscope, comprising a transmitting television tube with horizontal and vertical scanning units and a video amplifier, an anti-coincidence unit, the first input of which receives a signal from the object position sensor, and the second input of the pulse driver is connected to the control