SU1483671A1 - Transmitting tv camera - Google Patents

Abstract

The invention relates to television. The purpose of the invention is to increase the resolution of the transmitting television camera. The transmitting television camera contains a lens 1, a beam-splitting mirror 2, a matrix of 3 devices with charge coupling (CCD) with personnel transfer, a preamplifier 4, an operational storage unit 5, a switch 6, a synchronizing generator 7, a pulsed light source 8, a controlled filter 9 spatial frequencies and a piezoelectric transducer (PEP) 10. The goal is achieved by increasing the degree of spatial separation of images projected on the CCD 3 with the help of PEP 10 and filter 9, made in the form of a mask duyuschihs vertical transparent and opaque strips, whose number equals the number of e-ing CCD array 3, a transparent strip Schirin N (where N * 982) times smaller than that e-3 CCD matrix. 1 il.

Description

The invention relates to the technique of television and can be used, in particular, in transmitting television cameras with solid-state 'video signal conditioners

The purpose of the invention is to increase the resolution of a transmitting television camera by increasing the degree of spatial separation of images projected onto a CCD.

The drawing shows a structural electrical diagram of a transmitting television camera.

The transmitting television camera contains a lens 1, a beam splitting mirror 2, a CCD 3 matrix with frame transfer, a preamplifier 4, random access memory 5 (OZB), a switch 6 ', a sync generator 7, a pulsed light source 8, a controllable filter of spatial frequencies 9, a piezoelectric transducer 10.

The device operates as follows.

The luminous flux transmitted from the transmission object through the lens 1 and the beam splitting mirror 2, enters the CCD with personnel transfer. The output signals supplied to the preamplifier 4 are amplified and fed to the random access memory 5 and switch b, which operates synchronously with the output register of the CCD 3 during the forward horizontal scan. The switch 6 at the output generates a video signal within each element from the signal coming from the storage unit 5 of the previous p-1 fields and from the signal of this image field. The sync generator 7 generates the pulses necessary for the operation of the CCD matrix 3, as well as the pulses necessary for the operation of the pulsed light source 8 and the piezoelectric transducer 10, and a control signal for the storage unit 5 and the switch 6. The light of the pulsed light source 8 illuminates the spatial frequency filter 9, optically coupled to the beam splitting mirror 2 so that the light passing through the transparent bands of the spatial frequency filter 9 will illuminate the transmission object with a striped light. In the next field, when the spatial frequency filter 9 is shifted by 1 / n of the element in the horizontal direction using the piezoelectric transducer 10, those parts that were not lit in the previous field will be illuminated in the transmission object. The entire transmission object will be illuminated beyond η fields.

Claims (1)

Claim A transmitting television camera containing a lens optically coupled through a beam splitter mirror to a charge coupled device (CCD) array with a frame transfer, the output of which is connected through a preamplifier to the first information input of the switch, the control input of which is connected to the first output of the sync generator, the group of outputs of which is connected to the control group of inputs of the CCD matrix with personnel transfer, a pulsed light source optically coupled through a beam splitting mirror with a CCD matrix, and the input of the pulsed light source is connected to the second output of the sync generator, a random-access memory unit, the information input of which is connected to the output of the pre-amplifier, the control input to the third output of the sync generator, and the output to the second information input of the switch, which is characterized by the fact that, in order to increase resolution of a transmitting television camera by increasing the degree of spatial separation of images projected onto a CCD matrix between a pulsed light source and a beam splitter A controllable filter of spatial frequencies is introduced in the form of a mask, made in the form of a mask of alternating vertical transparent and non-transparent bands, the number of which is equal to the number of elements of the CCD matrix, and the width of the transparent band is η times smaller than the size of the CCD matrix, where η> 2, while the controlled filter spatial frequency associated with the introduced piezoelectric transducer, the control input of which is connected to the fourth output of the sync generator.