DE2320243A1 - VERTICAL DEFLECTION - Google Patents

Description

7542-73 / Sch / Elf

RCA 66, O35

Brit. Note No. 19O23 / 72

vcaa April 24, 1972

RCA Corporation, New York, N.Y. (V.St.A.)

Vertical deflection circuit

Starting point of the invention

In the U.S. Patent application Ser.No. 257 412 describes a system with the help of which television images of three-dimensional objects via transmission channels, how long uncompensated Telephone lines, can be transmitted. Here, a television camera is used to continuously deliver a video signal uses a storage tube in which the information of an image can be stored. This single saved The image to be transmitted then becomes the transmission converted to an audio frequency signal by telephone lines to a remote receiving station, and at the receiving station a second storage tube is used to store the audio frequency information. After completion of the transfer the audio-frequency information stored on the receiving side is converted into a video signal for viewing on a display device transformed back. The transmitted signal is frequency modulated, its instantaneous frequency being directly proportional is the brightness level of the picture element stored and to be transmitted.

309346/0833

$ 232824

-2 --- ..- ■■■■

Such a transmission system is called a simplex system, since the transmission along the telephone line is only possible in one Direction takes place »On the other hand, with a half-duplex system the transmission takes place in both directions, but not simultaneously. Such a system is particularly suitable when stored images of a moving object are to be transferred. In this memory image mode (snapshot images), the television camera is set at its normal vertical scanning frequency operated, the moving object appearing on a monitor and the signal information representing the image is written into the memory at the usual horizontal and vertical scanning frequencies. Tests have shown that in this mode of operation, as a result of the properties of the storage tube used, fewer loss of resolution are accepted are to be taken.

One can have such a system for transmitting images stationary Objects use just like moving objects, and it has been shown that the undesirable loss of vertical resolution caused by the necessary use of a storage tube When transmitting images moving objects are conditional, can be reduced if you turn the tube during the transmission bypasses stationary images and feeds the signals directly into the telephone line. As with the image memory operation, must the vertical deflection frequency when scanning the object image for the signal feed into the audio frequency line is reduced so that the bandwidth of the transmission line is taken into account. For correct operation of the television camera With this stationary image operation it is necessary that the vertical deflection frequency can be reduced if this type of transmission is selected.

309846/0833

Description of the invention

The invention relates to a circuit for reducing the vertical deflection frequency for a television camera when the transmission mode is from the snapshot mode for moving objects to the stationary operation for stationary objects is switched. In one operating mode, the control circuit can be operated in such a way that that the vertical deflection frequency is reduced and when reading out an image from the storage tube for the transmission on a telephone line matches the sampling frequency used. The circuit can also be operated so that the vertical deflection frequency is further reduced to the resolution of the transmitted and then reproduced images to improve, although an extension of the time required to turn the transmission is accepted got to. This operation with higher resolution is particularly useful when information in the form of wall maps, technical Drawings and circuit diagrams and the like are to be transferred, with increased reproduction of details being required.

Presentation of the invention

The invention is explained in more detail below with reference to the representation of an exemplary embodiment. It shows

FIG. 1 shows a block diagram of a circuit for generating control pulses such as those used for operating the inventive Circuit can be used

Figure 2 is a circuit diagram of a controlled with the control pulses Circuit for setting the appropriate vertical deflection frequency, which the television camera is either in freeze mode (Snapshot operation) or in stationary operation of the image transmission system, and

30984 8/083 3

FIG. 3 shows the schematic circuit diagram of an image transmission system in which the circuit according to the invention is used can be.

In Figure 1 there is a pair of inverters 10, 12, three NAND gates 14, 16 and 18 each with two inputs and a converter and driver stage 20 are provided. The output of the inverter IO is first connected to one input of the NAND gate 14 and secondly to the input of the inverter 12. The output of inverter 12 is in turn connected to an input of the NAND gate 16, whose other input is connected to the output of a monostable vibrator 22, the pulses of a repetition frequency of either 7.5 or 15 Hz. Such a pulse train can, for example, from a synchronization generator (not shown) be derived, which also has an impulse train with 60 Hz can provide a second input of the NAND gate 14. The output connections of the gates 14 and 16 are each connected to the inputs of the NAND gate 18, while the driver stage amplifies the output signal of the gate 18 and the terminal 24 feeds. Control signals in the form of logic signals 0 or 1 are fed to the input of the inverter IO, the logic Signal 0 is then supplied when the television camera with a vertical deflection frequency of 60 Hz for displaying a moving Object is operated, the image of which is written into the memory " and then to be transmitted at a reduced frequency over a telephone line to a remote receiving location. on the other hand a logical 1 is fed to the inverter 10 when the television camera records a stationary object, the image content of which directly bypassing a storage tube into the audio frequency transmission line is fed in.

If a logic 0 is fed to the inverter 10, then the NAND gate 14 supplies a vertical-frequency driver pulse of 60 Hz to one input of the NAND gate 18, the other input of which is supplied by the NAND gate 16 with a logical 1. The output signal

309846/0833

of the gate 18 is therefore driven by a 60 Hz vertical drive pulse formed, which is amplified by the stage 20 and the output terminal 24 is supplied. If, on the other hand, a logic 1 is fed to the inverter IO, then the output signal is the NAND gate 14 also a logic 1, while the output signal of the NAND gate 16 corresponds to the vertical drive pulse from the multivibrator 22 is equivalent to. The output signal of the NAND gate 18 is in this case a pulse of 7 1/2 or 15 Hz, which is then connected to the terminal is supplied via the driver amplifier 20.

As a result of this supply of frequency-switchable control signals to the inverter 10, the vertical deflection frequency the television camera in the telephone communication system according to the aforementioned US patent Ser.No. 257 412 for the Viewing an object directly on a monitor prior to transmission over an audio frequency line with the aid of a Storage tube or for direct scanning of an object and supplying the image signals to the transmission line without prior Toggle storage. In an embodiment for the still image mode (snapshot mode), the image signals read out from the storage tube and fed to the telephone line with a vertical deflection frequency of 15Hz. The control circuit according to Figure 1 can be used to derive a 15 Hz signal frequency in adaptation to stationary operation, while the lower cycle frequency of 7 1/2 Hz allows an increased resolution of the transmitted image and that System for the transmission of information in greater detail makes it particularly suitable. However, the use of signals with a lower sampling frequency is at the expense of Time required to transmit a complete message is by a factor of 2 compared to operation at 15Hz.

The circuit shown in Figure 2 contains an operational

309848/0833

amplifier 50, a set of vertical deflection coils 52 for the television camera, a current sensing resistor 54, an integrating capacitor 56, and a charging rate adjusting resistor 58. When interconnected with a pair of transistor interferers 60 and 62 a sawtooth current generator is formed for the deflection.

The capacitor 56 is connected between the collector and the emitter of the transistor 60, which in the illustrated case is a is npn transistor and the base of which is supplied via a connection 24 (FIG. 1) with a pulse train of 60 Hz or 7 1/2 Hz. The emitter of the transistor 60 is connected to a reference potential point (ground) via the current sensing resistor 54. The collector of the transistor is part of the unity resistance 58 connected to a point of relatively fixed voltage (65), with which also the collector of transistor 62 via a Another resistor 64 is connected, which is shown as an npn transistor and the emitter of which is connected to the reference potential.

The control signals for the frequency change, which are fed to the input of the inverter 10 according to FIG. 1, arrive also to the base of transistor 62 through a circuit composed of a pair of rectifier diodes 66 and 68 and a pair of resistors 70 and 72. Resistor 72 connects the anodes of rectifiers 66 and 68 to an operating voltage source + V2, while the cathode of the rectifier 66 once directly to the base of the transistor 62 and on the other hand via a Resistor 70 is at the reference potential. The cathode of the rectifier 68, on the other hand, are the control signals for the Frequency change supplied, in the form of a logic (0 volts), if a 60 Hz vertical deflection frequency is desired and in the form of a logic 1 (positive voltage) if a deflection frequency of 7 1/2 Hz is desired.

309 8 46/0833

One of the two inputs of operational amplifier 50 is connected to the collector of transistor 60, and its output terminal is connected to one end of vertical deflection coils 52, the other end of which is led to the current sensor resistor 54. The other input of operational amplifier 50 is Connected via a resistor 74 to the tap of a centering potentiometer 56, which in turn is connected between an operating voltage source + V3 and ground. An amplitude adjustment potentiometer 78 is located between an operating voltage source + V4 and ground and at its tap, a fixed voltage can be picked up at point 65, at which the setting resistor 58 is connected.

Before depending on the various modes of operation of this circuit be explained in more detail by the desired mode of operation of the television camera, it should be noted that the operational amplifier 50 serves to maintain a relatively fixed potential at the end of resistor 58 which is from the potential point 65 is turned away. When the transistor 6O is blocked, flows through resistor 58 a relatively constant current due to the fixed voltage drop across it, and this current charges the Capacitor 56 so that the voltage across deflection coils 52 increases linearly. The amplitude of the ramp rise becomes determined by the setting of the potentiometer 78, which one .Grössenstellung the on the target of the electron beam the television camera allowed area to be scanned. This amplitude remains unaffected when the television camera is from still mode is switched to stationary operation. With the help of the potentiometer 76 the sawtooth rise superimpose a displacement DC voltage, which is also used to adjust the centering of the television camera.

In operation of the circuit, the two regulators 76 and 78 are normal set and remain unchanged. The operational

309846/0833

amplifier 50 ensures a fixed impedance at the collector of the Transistor 60 and acts as a driver amplifier for the deflection coils. The sawtooth voltage becomes over one through the resistor 58 used to charge the capacitor Current .generated, then the slope and the duration of the deflection voltage change accordingly when the mode of operation of the camera is switched.

In operation, the base of the transistor 60 positive-going vertical frequency pulses are applied, which the transistor turn on at the end of each vertical deflection interval. The charge stored in the integration capacitor 56 becomes this Point in time returned to its initial value. This ends the deflection interval, with the linear fall time of the sawtooth current flowing through the deflection coils of the size the voltage at point 65 depends. The capacitor 56 discharges through the current sensing resistor during this pulse interval 54 and then charges via the resistor 58 with a rate of increase that is determined by the flow through it Electricity depends.

The end of the resistor 58 facing the transistor 60 with the help of the operational amplifier 50 kept at a relatively fixed potential ^ then the value of depends on the capacitor 56 flowing charging current from the potential at point 65. This in turn depends on the conduction state of the transistor 62 and on the setting of the tap of the potentiometer 78. if the logic circuit determines that the television camera is in 60 Hz mode for normal viewing of the object on the monitor is to be operated, then the cathode of the rectifier 58 is supplied with a logic signal 0 which blocks the transistor 62 holds. The setting of the potentiometer 78 in this case determines which current is used to determine the sawtooth waveform should flow. If, on the other hand, operation at 7 1/2 Hz is desired (in order to avoid the signals of a stationary

3 0 98 46/083 3

ner object directly into the transmission line), a logic signal l is then fed to the rectifier 68. As a result, the transistor 62 becomes conductive and reduces the potential at point 65 and thus also the size of the current flowing through the capacitor 56 to form the deflection current shape constant current. This decrease in current in resistor 58 has a smaller slope of the sawtooth voltage and a linear one The result is a drop in current in the deflection coils. As a result of the supply of pulses of lower vertical deflection frequency to the Base of transistor 60 is simultaneously extended the duration of the sawtooth current, so that the entire target then with a low vertical frequency is sampled in stationary operation. Once there is a stationary object in the form of signals has been transmitted through a transmission line, then For example, both the frequency of the control pulses fed to transistor 60 and the level of the control pulses fed to transistor 62 can be used Control signals are changed so that the signal supplied to the deflection coils 52 of 60 Hz vertical deflection frequency is restored.

The above is a preferred embodiment for modification the duration and slope of the vertical deflection signals of a television camera have been discussed, but these changes may can also be effected in another way within the scope of the invention. As long as the slope of the deflection signal is reduced and its duration is extended when the normal deflection operation of a television camera is switched to a lower deflection frequency the image representing signals of a stationary object directly into an audio frequency transmission line are fed in, there is also an improved resolution of the ultimately reproduced image a remote receiving location of a telephone image transmission system .

309846/0833

For the purpose of more complete illustration, such a system is illustrated in FIG. It contains a television camera 110, at the output of which a storage tube 112 is connected, and a first converter 114 for conversion of the video signal supplied by the storage tube 112 into an audio-frequency signal which, for example, via a Phone line should be transferred. A monitor 116 is also provided, the input of which is connected to the output of the camera 110 is connected and which is connected with a second input to the output of the storage tube 112 and with the help whose recording scene can be viewed.

A second converter 120, to which the audio-frequency signal is fed, is connected to the output of the telephone line and which converts it to a pulse modulated signal which is both the audio frequency and the brightness of the picture elements represents which had been converted by the converter 114 into this information form. This pulse signal becomes one second storage tube 122 fed until a full image is transferred; then a second monitor will appear is operated to display the image stored in the storage tube 122.

Figure 3 also shows a control switch 126 which is used for still image operation (Snapshot mode) the images corresponding to moving objects from the television camera 110 to the storage tube 112 couples before they are fed to the converter 114, and the corresponding still images for stationary operation Provides signals from television camera 110 directly to converter 114, bypassing storage tube 112 will.

309846/0833

Claims (6)

Claims 1.Ί Device for use in a television image transmission system in which a television camera, a storage tube and an audio frequency transmission line for the transmission of television image information representing object images can be interconnected to a remote receiving location, characterized / that a first circuit arrangement is provided which includes the television camera (110), the storage tube (112) and the transmission line together in this order when the system is to transmit television image information which represents moving object images * that a second circuit arrangement is provided which supplies vertical deflection signals of a first scanning frequency to the camera when the first circuit arrangement is in operation that a third circuit arrangement is provided which separates the storage tube (122) from the connection between the television camera and the audio frequency transmission line when the system is a stationary object image there is intended to transmit television image information, and that a fourth circuit arrangement is provided which supplies vertical deflection signals of a second, lower scanning frequency to the television camera when the third circuit arrangement is in operation. 2.) Device according to claim 1, for use in a telephone image transmission system, in which television picture information is stored in a storage tube at a vertical scanning frequency and being read from the storage tube at a lower vertical scanning frequency, characterized that the second circuit arrangement sends vertical deflection signals to the television camera with the one vertical deflection frequency supplies, and that the fourth circuit arrangement 309846/0833 vertical deflection signals to the television camera with a lower Vertical deflection frequency supplies. 3.) Device according to claim 1, for use in a telephone picture transmission system, in which television picture information is written in a storage tube at a vertical scanning frequency and is read from the storage tube at a lower vertical scanning frequency, denoted by g e that the second circuit arrangement of the television camera vertical deflection signals with the one vertical deflection frequency supplies, and that the fourth circuit arrangement of the television camera vertical deflection signals with half of the lower frequency feeds vertical scanning frequency. 4.) Device according to claim 1, characterized that the second circuit arrangement is a resistance-capacitance-time constant network contains, which supplies a sawtooth voltage, its slope and duration of the sampling frequency of the vertical deflection signals, and that the fourth circuit arrangement corresponds to the resistance of the network reduces the current flowing and the time of the capacitor charging to reduce the slope and increase the sawtooth voltage period belittles. 5.) Device according to claim 4, characterized in that the resistance capacitance network one Resistor (58) and a capacitor (56) has that further a first transistor (60) is provided between its collector and the emitter of the capacitor (56) is connected, and that the base of the transistor (60) is supplied with a pulse train as a result of which it is driven into the conduction state and the repetition rate of which corresponds to the first sampling rate if the system is to transmit television picture information which moving object images, while the impulses with 309846/0833 another repetition frequency corresponding to the second sampling frequency when the system is to transmit television image information corresponding to stationary object images. 6.) Device according to claim 5, d a d u r c h characterized that a second transistor (62) is provided, the collector and emitter of which are connected so that the Resistor (58) is coupled to a DC reference voltage point, and that the base of the second transistor is a first Control signal, which controls it in the locked state, is supplied when the system contains image information of moving objects should be transmitted, while the transistor is controlled by a second control signal in the conduction state, if the System is to transmit image information of stationary objects. 0 9 8 4 6/0833