DD238901A1 - METHOD AND ARRANGEMENT FOR RECORDING DEVICE FUNCTION DATA IN STILL CAMERAS - Google Patents

Abstract

The invention relates to the system of electronic still cameras, based on the conversion of the light impression (image) in a CCD line or matrix into an electrical signal, which is stored accordingly. The aim of the invention is to increase the utility of electromagnetic still cameras. The invention is based on the object in electromagnetic still cameras Geraetefunktionsdaten to the corresponding video information retrievable to save without requiring additional memory or storage media for storage in electromagnetic still cameras. According to the invention, this is achieved by recording the device function data on a magnetizable storage medium in intermediate track positions between the tracks of the video information to be recorded or together with the video information in a track on the magnetizable storage medium by converting the device function data (additional information) into corresponding electrical equivalents Data are converted and summarized and encoded to be forwarded for recording. The invention is applicable in the photographic art. Fig. 2

Description

For this 4 pages drawings

Field of application of the invention

The invention relates to the system of electromagnetic still cameras, based on the conversion of the light impression (image) in a CCD line or matrix in an electrical signal, which is stored accordingly.

Characteristic of the known technical solutions

It is known that in still cameras video memory systems are used for storing video information and corresponding sound information is additionally recorded. It is known z. B. a solution (US 4,057,830), are recorded in the sound information in addition to a compact cassette. The disadvantage of this solution is that the device of the electromagnetic still camera system no device function data for the corresponding recorded image for subsequent documentation are stored retrievable.

Object of the invention

The aim of the invention is to increase the utility of electromagnetic still cameras.

Explanation of the essence of the invention

The invention has for its object to store device function data for the corresponding video information in electromagnetic still cameras, without additional special memory or storage media are required for storage in electromagnetic still cameras.

According to the invention, in a method for recording device function data in still cameras, in particular in electromagnetic still cameras, additional to the corresponding video information recorded in tracks on a magnetizable storage medium via a magnetic head, achieved in that the device function data on the magnetizable storage medium in intermediate track positions between the tracks, the recorded video information or together with the video information in a track on the magnetizable storage medium retrievably recorded by the device function data (additional information) are converted into corresponding äuqivalentente electrical data and summarized and encoded forwarded for recording.

The recording of the device function data in intermediate track positions for the corresponding video information is effected by reducing the drive speed of the magnetizable storage medium to one of the length of the device function data to be detected for the respective image speed after recording the video information (image storage) and by reducing the speed during the reduced drive speed and / or during the time of decreasing the drive speed, the magnetic head is placed in an intermediate track position and further, after completion of the magnetic head positioning, a data bus is connected through a device-function data-collecting encoder and by switching to the magnetic head.

The recording of the device function data for the corresponding video information in a common track on the magnetizable storage medium by converting the device function data and stored in coded form, adapted to the video waveform, exactly in the pulse time of the line blanking pulse of the video channel coming video signal and multiplexed by the multiplexed Video information and device function data signal level adjusted and amplified and passes as a multiplex signal for recording. The drive speed of the storage medium is controlled and kept at the setpoint, which is adapted to the information or data to be recorded. Furthermore, the device function data can be stored in still cameras in IC memory retrievable.

An arrangement for recording device function data in still cameras, in particular in electromagnetic still cameras, in which a magnetic head is arranged with a positioning over a magnetizable storage medium and the storage medium is associated with a drive, which is a release logic with trigger switch connected to the magnetic head and its positioning unit and the magnetic head is further connected to a video channel and a power supply unit is present, characterized in that in the connection between the drive and the tripping logic drive control electronics is arranged and a speed setpoint generator with the tripping logic and the drive control electronics is connected and the tripping logic with the magnetic head via an additional electronic positioning unit is connected and that in the connection between the magnetic head and video channel, a connecting element is arranged, which collect a device function data The encoder is connected to a data bus and the encoder is further connected to the trigger logic directly or indirectly via a central control unit with a trigger switch and the data bus is connected to the device function data sources. The power supply unit is connected to the tripping logic and all other power consumers of the system. The drive control electronics is a PPL drive control electronics. The magnetizable storage medium may, for. B. be a floppy disk or a magnetic tape and the speed setpoint can z. B. be a quartz. All components for recording video information and device function data are arranged in the electromagnetic still camera. For recording video information and device function data in a track on the magnetizable storage medium, the connector is a video signal conditioning element consisting of a multiplexer of a level matching and amplifying unit and a gate, the multiplexer having the central control unit, the video channel, the level adjusting and amplifying unit and the gate is connected and the gate is further connected to the encoder and the central control unit. The level matching and amplifying unit is connected to the magnetic head and the encoder is indirectly connected to the triggering logic via the central control unit. The tripping logic and the central control unit are arranged in a structural unit and connected to each other. The data bus is connected to an image acquisition sensor of the video channel and its optics, as well as to a two-clock element (device function data sources) for acquiring device function data, wherein the timing element is connected to the central control unit. The drive is started by actuating the release switch. After a systemic start-up time, e.g. a floppy disk, the exposure readiness is established. During the standby time the exposure can take place. After exposure, the drive speed is reduced. When the new magnetization storage medium drive rate command value is reached, device function data from the device function data sources and video information may thereafter be stored over a certain period of time, via the encoder downstream of the data bus, the video signal conditioning element, and the magnetic head. The device function data and the video information are interleaved in the video processing element by placing the device function data from the device function data sources over the data bus to the encoder and stored in coded form, in a waveform adapted to the video waveform, precisely within the pulse time of the line blanking pulse of the video signal coming from the video channel. The thus multiplexed video device function data signal then passes to the level matching and amplifier unit, at the output of which the multiplex signal suitable for recording is present. This signal passes through the magnetic head with positioning on the magnetizable storage medium whose drive speed is specified by the speed setpoint generator. The multiplexed signal is compatible with a non-multiplexed signal with respect to image reproduction.

For the moment of image acquisition, the trigger switch is depressed completely, so that the second trigger switch is also operated and the central control unit is put into operation. After recording the video information and associated device function data, the first trigger switch is released and the entire electromagnetic part is snapped to the Ahfuran.

For recording video information and device function data in separate tracks on the magnetizable storage medium, the connector is a video information and device function data switcher. The encoder is connected directly to the trigger logic. The drive is started by actuating the release switch of the tripping logic. After a systemic startup time, z. B. a floppy disk, the exposure readiness is established. During the standby time the exposure can take place. After exposure, the drive speed of the magnetizable storage medium is reduced. When the new setpoint of the drive speed of the magnetizable storage medium is reached, device function data can then be stored by the device function data sources over the encoder downstream of the data bus and, if the video information and device function data switch and the magnetic head are set accordingly. In the time during the reduced drive speed and / or during the time of reduction of the drive speed, the positioning unit magnetic head is brought into an intermediate track position by the additional electronic positioning unit between the tracks of the video information to be recorded. Tilting of the slot axis is beneficial to effectively enhance adjacent track damping. The video information is accessed via the video information and device function data switch and the magnetic head for recording. After the video information and associated device function data have been honored, the trigger switch is released and the entire electromagnetic part is turned off after the turn-off.

By this method and the arrangement for recording video information and device function data, such. As aperture, shutter speed, filter, flash, distance, date and time, lens type, a possibility is created to store video information and device function data on a storage medium in an electromagnetic still camera retrievable.

embodiment

The invention will be explained in more detail with reference to two embodiments. Show it

1 is a block diagram of a system of an electromagnetic still camera for storing retrievable

Video information or device function data in different tracks. 2 shows a block diagram of a system of an electromagnetic still camera for storing retrievable video information or device function data in a track.

3 shows the timing of the storage of video information and device function data. 4 shows a block diagram of a video signal processing element.

1st embodiment - Fig.1und3

In addition to the necessary for the operation of the electromagnetic still camera modules release logic 1, power supply unit 2, drive 3, (motor), drive control electronics 4 (PPL drive control electronics), magnetic head with positioning unit 6 and the video signal 11 in addition to recording device function data in the recording path of the video signal 11 a Video information and device function switch 7 is arranged which is connected via an encoder 8 and a data bus 9. The release switch S1 activates the camera electronics by manual operation. After a system-related startup time t ₀ -ΐ _{Ί of} the floppy disk 10, the exposure readiness is established. During this time the exposure tr-t3 can take place. After this expiry time, the variable speed setpoint generator 5 incorporated according to the invention provides the drive control electronics 12 with a desired value for a reduced speed, which is reached after ti. Via the data bus 9, the device function data (aperture, distance, flash, shutter time, date, time) from the device function data sources to the encoder 8 of these converts into a recording standard corresponding electrical equivalent form sufficient from the video, audio and digital storage technology is known. The encoder 8 according to the invention is arranged so that ends with automatic transfer completion of the device function data of the recording supply. By tripping logic 1 is given to the Abtours low speed and an adjustment to the additional positioning electronics 13, which brings the magnetic head 6 in an intermediate track position.

2nd embodiment - Fig.2 and 4

By the trigger switch S1 of the trigger logic 1, which is combined with a central control unit 13 in a structural unit, the electromagnetic still camera is set in operation. About the following modules, power supply unit 2, speed setpoint 5, drive control electronics 4 (PPL drive control electronics) and the drive 3 (motor), the speed of the magnetizable storage medium (floppy disk) 10 is brought to the desired value and by the magnetic head with positioning unit 6 downstream functional unit Signal recording possible. Information about the set aperture, distance as well as the lens type or, with ZOOM lenses, the set value can be obtained from the optics 14 via corresponding data lines

Focal length and in addition to lens arranged pickups also information about the filter type, (if this is provided) via a data bus 9 to the encoder 8 of this data and the selected or automatically set time, use of lightning and date and time collects and in one of Video waveform adapted pulse shape converts. The date and time arrive at the encoder 8 through a timing element 15 connected between the central control unit 13 and the data bus 9. The optical system 14 is followed by an image sensing sensor 16 and a drive logic 17 which form the original video signal. For the moment of image acquisition, the release switch S1 is depressed completely and the release switch S2 is operated therewith. A video information processing element 21 is arranged between the drive logic 17 and the magnetic head 6. The video information editing element 21 is further connected to an encoder 8 and the central control unit 13. The video information processing element 21 consists of a multiplexer 18, a level adjusting and amplifying unit 19 and a gate 20, the multiplexer 18 is connected to the central control unit 14, the gate 20 and the level adjusting and amplifying unit 19 and the gate 20 with

the central control unit 13 and the encoder 8 is connected and the level matching and amplifying unit 19 is connected to the magnetic head 6 and its positioning unit. According to the invention, the device function data from the encoder 8 reach the multiplexer 18 through the gate 20 exactly at a specific cycle time. They are connected in the form of coded form to the pulse time of the line blanking pulse of the video signal from the image recording sensor 16 and the control logic 17 are stored and thus no image content is lost. The thus multiplexed video data signal then passes to the level matching and amplifier unit 19, at whose output the multiplex signal suitable for recording is present. This signal now passes via the downstream magnetic head 6 on the floppy disk 10. The recorded signal is compatible with a non-multiplexed signal with respect to image reproduction. After the reception of the multiplexer signal, the release switch S1 is released and the entire electromagnetic part of the still camera is turned off after defrosting. During the Abtourens the magnetic head 6 is brought with positioning by an additional positioning electronics 12 in a different tracking position.

Claims (6)

Invention claim: A method for recording device function data in still cameras, in particular in electromagnetic still cameras, in addition to the corresponding video information recorded in tracks on a magnetizable storage medium via a magnetic head, characterized in that the device function data on the magnetizable storage medium in intermediate tracks between the tracks of the recorded video information in a track on the magnetizable storage medium can be retrievably recorded by the device function data is converted into corresponding equivalent electrical data and summarized and coded forwarded for recording. 2. The method according to item 1, characterized in that the recording of the corresponding device function data in intermediate track positions after recording the video information (image storage) by the drive speed of the magnetizable storage medium is reduced to one of the length to be detected for the respective image of the device function data size and by bringing the magnetic head into an intermediate track during the time of reducing the drive speed, and further, after completing the magnetic head positioning, connecting a data bus through a device-function data-collecting encoder and switching to the magnetic head. 3. The method according to item 1, characterized in that the recording of the device function data to the corresponding video information in a common track on the magnetizable storage medium by the device function data converted and summarized in coded form of the video waveform adapted pulse shape, just in the pulse time of the line blanking pulse the video signal coming from the video channel are stored and in that the multiplexed video information and device function data signal is level adjusted and amplified and passes as a multiplexed signal for recording. 4. Arrangement for recording device function data in still cameras, especially in electromagnetic still cameras, in which a magnetic head with positioning is arranged on a magnetizable storage medium and the storage medium is associated with a drive which is connected via a tripping logic with tripping circuit with the magnetic head and its positioning unit and a power supply unit is provided and the magnetic head is further connected to a video channel, characterized in that in the connection between the magnetic head (6) and video channel (11), a connecting element is arranged that via a device function data collecting and recordable prepared encoder (8) with a data bus (9) is connected and the encoder (8) is further connected to the triggering logic (1) directly or indirectly via a central control unit (12) with a trigger switch (S 2) and the data bus (9) with the device function data sources v is connected and that the power supply unit (2) with the tripping logic (1) and all other power consumers of the system is connected. 5. Arrangement according to item 4, characterized in that the connecting element is a video information processing element (21) consisting of a multiplexer (18), a level adjusting and amplifier unit (19) and a gate (20), wherein the multiplexer (18) is connected to the central control unit (13) with trigger switch (S2), the video channel (11), the level adjusting and amplifying unit (19) and the gate (20) and the gate (21) further connected to the encoder (8) and the central control unit (13) and the level matching and amplifying unit (19) is connected to the magnetic head (6) and the encoder (8) is indirectly connected via the central control unit (13) to the tripping logic (1), and in that the tripping logic ( 1) and the central control unit (13) are arranged in a structural unit and connected to each other and that for detecting device function data of the data bus (9) with an image sensor (16) of the video channel and its optics (14) sow ie connected to a timing element (15), the timing element (15) being connected to the central control unit (13). 6. Arrangement according to item 4, characterized in that the connecting element is a video information and device function data switch () and the encoder (8) is directly connected to the tripping logic (1).