WO1982003519A1

WO1982003519A1 - Automatic turn off device for a television set at the end of a transmission

Info

Publication number: WO1982003519A1
Application number: PCT/CH1982/000046
Authority: WO
Inventors: Ets Pantotecnic
Original assignee: Hatouka Rephael
Priority date: 1981-03-30
Filing date: 1982-03-23
Publication date: 1982-10-14
Also published as: ES8304741A1; ES510896A0; IT8248080A0; EP0076267A1; IT1210678B

Abstract

The device comprises an electromagnetic sensor (1), separators (11 and 4), LINE and RASTER pulses, and a counter (10) where the LINE tops are cummulated in a window defined by a counter (8) of the RASTER tops. A flip-flop (6) is charged by "0" if the frequency ratio mean deviates too much from the number of lines per raster transmitted by the television set and by "1" in the contrary. At the end of a period of time defined by an integrator (14), a comparator (15) deenergizes triacs (17). The transition from OFF to ON of the ON/OFF switch of the TV set resets the device through a rectifier (19) and a transistor (20).

Description

Device for automatic shutdown of a television receiver at the end of the broadcast.

The present invention relates to a device for automatically stopping a TV receiver at the end of a mission.

Devices of this kind are known: some are integrated into the TV receiver and are based on the detection of the video signal or of line or frame synchronization signals transmitted by the transmitter.

Others take the information from a scarting device with which certain receivers are fitted and develop the stop command by extracting the synchronization contained in the composite video signal available on said socket, comparing said signals. synchronization using a tone decoder using a phase locked loop whose free oscillation frequency is adjusted to that of the line frequency, for example, of the transmitter. The drawback of these devices lies in the fact that they must be integrated into the receiver during its construction or require intervention on the receiver itself, or that they see their use restricted to only receivers equipped with a socket outlet. - television where video or synchronization information is available.

The object of the present invention is to alleviate these drawbacks by the means claimed.

The device according to the invention takes the in¬ formation necessary for the development of the order to stop the receiver, using an electromagnetic sensor consisting of a coil which is placed in the vicinity of the receiver TV and in which a voltage is induced coming from the variations of the magnetic field of the horizontal and vertical deflection coils with which the TV receivers are equipped.

The signal thus picked up is then separated into two signals: those from the vertical deflection coil, the TRAME tops, and those from the horizontal deflection coil, the LINE tops. The electronic circuit contained in the device according to the invention calculates the correlation between these two signals and, if it does not conform to the correlation which one has during transmission, the stop order (possibly delayed) from the TV receiver is generated.

The drawing shows, by way of example, an embodiment of the object of the invention and a variant.

FIG. 1 is a block diagram of a device for stopping a TV receiver station applied to a 625 line / image transmission system.

Fig. 2 is a perspective view of a variant of the device, and

Fig. 3 is a block diagram of a detail of the circuit of this variant.

The constitution of the device of FIG. 1 will be described at the same time as its operation:

This device comprises a pick-up coil 1 housed in an adhesive box 2 placed in the vicinity of a TV receiver station 3, for example against the rear panel thereof. This coil 1 collects, by induction, the variations in magnetic fields produced by the deflection coils of this TV receiver. A circuit 4 filters and amplifies the low frequency component of the signal received at 1. The signal thus produced at 4 constitutes the RAME tcps. Circuit 4 is followed by a threshold device 5 which is in the high state in the absence of a signal and which oscillates at the FRAME frequency during the signal. A _ - ^. _

flip-flop 6, of type 4013, is then set to zero. When on the contrary TRAME tops arrive, the output of the circuit 5 integrated by an integrating network 7 is low and the state of the flip-flop 6 depends on the value charged with each clock pulse. A counter 8, of the 4024 type, cooperates with a flip-flop 9, of the 4013 type, in order to divide the frequency of the TRAME pulses by 40 and generate at each zero crossing a pulse charging the flip-flop 6 on the one hand and canceling a counter 10, type 4020, on the other hand.

A circuit 11 filters, amplifies and shapes the high-frequency component of the signal picked up at 1. The signal thus produced by the circuit 11 constitutes the LINE tops which go to the clock input of the counter 10 managed using circuits 12 and 13 _/ Constituted by AND ports of the 4073 type, and of the flip-flop 9 / so as to return to zero at the latest with the account 20 x 625 + 5 = 12505. This same reset signal will at the frame FRAME 8 and at the flip-flop 6. The circuit 12 therefore only switches to the input D of flip-flop 6 a high logic level when counter 10 counts between 20 x 625 - 4 = 12496 and 20 x 625 + 4 = 12504. Toggle 6 will only be activated if the TRAME counter 8 reaches count 40 within this interval, thus indicating that the ratio between LINE and IMAGE frequencies is 625 to * 0.32 per thousand.

A similar arrangement could apply to the 525 lines per image system by wiring circuit 12 so that its output is high from count 10496 and circuit 13 so that counter 10 is reset to zero ^{* as} soon as it reaches .10505 . The output of flip-flop '6 will then be active when the ratio of the LINE and IMAGE frequencies is 525 to 0.38 per thousand.

The output of the flip-flop 6 is connected to an integrator 14. At the end of a time determined by the constan¬ te of this integrator 14, a trigger 15, of the 40014 type, goes high and that of an inverter 16 goes low, blocking triacs 37 to cut off one of the phases of the current supply socket of the receiver 3, the other phase being permanently connected to the mains current supply designated by 18. This device is reset by closing the ON / OFF button (not shown) on the TV receiver or, if it is closed, by opening it and then closing it again. A detector-trigger 19 then switches to the low level, generating a pulse saturating a transistor 20, charging the capacitor of the integrator 14, causing the trigger 15 to toggle and causing the triacs 17 to be driven via the inverter 16, said triacs establishing current in the switchable phase of the TV receiver's power socket 3.

If the receiver receives a broadcast, the tie sor¬ of flip-flop 6 high pass, now ^has the charge of the capacitor of the integrator 14, this state is before mainte¬ ne until termination of the program. The looping of the trigger 15 on the base of the transistor 20 allows on the one hand, at the time of the establishment of the current on the socket of the receiver, to prolong the saturation pulse of the transistor 20 and, on the other hand, at the time by cutting the current on the receiver, inhibiting the pulse generated by the detector-trigger 19 and avoiding perpetual reset.

A phase locked loop 21 enables LINE tops to be sent regularly to counter 10 even if, at the output of the filtering circuit 11, certain pulses - S -

sions were missing or added unexpectedly. A phase locked loop located at the output of the threshold device 5, not shown, could fulfill the same role with regard to FRAME pulses. The presence of these two phase locked loops gives the operator greater freedom in choosing the location of the sensor compared to that of the TV receiver.

A manual switch 22, when in the open position, called "TEST", cancels the constant of the integrator 14, which allows instantaneous display, using a control lamp for example, of the output of the flip-flop 6. This switch 22 is coupled with a switch 23 which, also in the "TEST" position, shunts the phase-locked loop 21, thus forcing a degraded operating mode of the device, which guides the operator in his search for a favorable location for the sensor.

It should be noted that all or part of the elements necessary for the functions performed by this device can be installed on specially designed largely integrated circuits and / or using a monolithic processor executing an algorithmic transcription. ¬ that stored in read-only memory of said functions, without departing from the scope of the present invention. In the variant of figs. 2 and 3, the interrupter 22 is replaced by a switch. The latter, as well as the indicator lamp, designated by 23, used for instantaneous visualization of the output of the rocker 6, are mounted on the same housing 2 of the sensor 1, which greatly facilitates the operation of detecting the optimum location of the sensor. This indicator lamp will be constituted by a light-emitting diode. The housing 2 is connected to the housing of the device, designated by 24, by a cable 25. The housing 24 has, on its dorsal face, a male plug 26 intended to be inserted in, a wall outlet of the network and, on its anterior face , a socket 27 intended to receive the socket of a TV receiver station. The cable 25 is arranged to ache¬ mine the analog information received by the sensor 1, the state of the switch 22 and the supply current of the diode 23.

The diagram in fig. 3 is an example of a diagram usable in the case of the device of FIG. 2. In this diagram, the elements taken up unchanged from the diagram in FIG. 1, or counterparts, are designated by the same reference numbers. As in the case of fig. 1, the constitution of the device is described here at the same time as its operation:

One of the two contact pads of the switch 22, designated by 22, is connected to the integrator 14 like the switch 22 of the diagram in FIG. 1. The second pad of the switch 22, designated by 22, is connected to the witness light-emitting diode 23. The latter, as well as the inverter 16,. are connected to the triacs 17 by means of a current switch 28. Thus, when the switch occupies its "SEARCH" position, in which its pad 22 is connected at most, the constant of integrator time 14 is canceled. Consequently, according to the result of the measurement, developed at terminal Q of circuit 6, _ the control current of the triacs 17 comes either from the inverter 16, when the measurement is favorable, the diode 23 then goes out , or directly from pad 22. , via diode 23, which then lights up when the measurement is unfavorable. In both cases, the TV receiver 3 remains permanently on. Detecting ^'the favorable location of the housing 2 is greatly facilitated by the fact that the warning lamp, in this case the diode 23 is carried by the housing itself, which allows the operator to observe both this indicator light and the position of the housing. Once the latter in place, for example on the rear panel of the TV receiver, the operator brings the switch 22 to the "AUTO" position, activating the automatic stop device of the TV receiver. This gesture is also facilitated by the fact that the switch 22 is also mounted on the housing 2.

Claims

CLAIMS:

1. Automatic shutdown device for a television receiver at the end of the transmission, characterized in that it comprises an electromagnetic sensor capable of taking information relating to the fact that the receiver receives or not a transmission, this electromagnetic sensor placed near the television receiver and picking up the variations in the magnetic fields produced by the vertical and horizontal deflection coils of said receiver, means for reconstituting, from the signal received by said sensor, the LINE and FRAME signals produced at each line change and ^' frame change, means for evaluating the correlation between said signals, means for comparing the correlation between LINE and FRAME signals with that which they have when the receiver is slaved to a transmitter, and means for controlling the interruption of the power supply to the television receiver when said comparison means correlation indicates that there is no transmission.

2. Device according to Claim 1, characterized in that the said means for reconstituting the LINE and WEFT signals carry out respectively the extraction of the high frequency component for LINE. and extracting the low frequency component for TRAME to cartir of the signal received by said sensor, one as the other being followed by shaping means.

3. Device according to Claim 1, characterized in that the said means for reconstituting one and / or the other of the LINE and TRAME signals include a phase locked loop whose free frequency is adjusted at the value of the frequency of the signal to be reconstituted and whose non-locked condition implies that said stop command.

4. Device according to either of Claims 2 and 3, characterized in that the means for evaluating the correlation between the LINE and WEFT signals consist of means for measuring the ratio of their frequencies or of the average of said report obtained with several measurements.

5. Device according to claim 4 characterized in that said comparison rrc ens con¬ exist in means detecting that the absolute value of the difference between the result of said measurement of the frequency ratio and the ratio which must actually exist when the TV receiver is slaved to a transmitter is less than a given number.

6. Device according to claim 5, characterized in that said means for controlling interruption of the supply current to the receiver consist of a bistable device with a threshold going to the supply stop state as soon as, during a following said measurements, said difference is greater than said number.

7. Device according to Claim 6, characterized in that the said means of inter-erruption of the supply current of the receiver consist of an electromechanical or solid state relay cutting the current on one of the phases of the television receiver as soon as it receives the order, sent by said control means.

8. Device according to claim 7, characterized in that it comprises means for controlling the resumption of the current supply of the television receiver consisting of means for detecting transitions of the rectified voltage of said phase cut by said means for interrupting the supply current occurring when the ON / OFF button on the television receiver is acted upon, in order to reset a power-up cycle of the receiver television by closure on the electrical network of said phase using said relay.

9. Device according to claim 8, characterized in that it comprises. means for locating the appropriate location of the sensor near the receiver, these locating means comprising means capable of temporarily truncating the continuation of the measurements in order to enable instantaneous observation of the behavior of the system, all so as to facilitate the localization of the favorable location of the sensor near the receiver.

10. Device according to either of Claims 8 and 9, characterized in that the said means for locating the appropriate location of the said sensor near the television receiver consist of means making it possible to temporarily force a operation in degraded mode of all or part of said reconstitution means.

11. Device according to claim 10, characterized in that said locating means comprise a switch allowing them to be engaged and triggered, and a control lamp indicating whether the momentary lo¬ setting of the sensor is favorable or not.

12. Device according to claim 11, characterized in that said switch and said indicator lamp are carried by the same housing of the sensor, so as to make the detection operation more com¬ mode.

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13. Device according to claims 10 and 11, characterized in that it comprises means - such that, when said switch is in the operating position of the locating means, the television receiver remains powered regardless of the momentary position of the sensor, favorable and unfavorable.