NL8300591A - TELEVISION CIRCUIT FOR FLICKER REDUCTION IN DISPLAY. - Google Patents

Description

. . i 'PHN 10,597 1 N.V. PHILIPS' GIDEILSMPENFIFIrIEKElN IE EINDHOVEN.

Television switch for flicker reduction in spring.

The invention relates to a television circuit for flicker reduction on display, with an image signal which repeats itself in cycles of two successive raster periods and possibly image information which changes step-by-step therebetween, which circuit is provided with an input and output terminal coupled to the input terminal. delay device with a time delay equal to at least one frame period, of a signal laminating circuit coupled to the input terminal and to an output of the delay device and of a switching circuit coupled to an output of the signal circuit circuit and to the output terminal for the combined circuit forming combined image signals with image information in frame periods from different frame periods.

Such a television circuit is described in US patent no. 3 886 589, in particular when using a so-called "field skip" signal storage and display device. Before the signal storage takes place, the combined image signals are formed with the aid of the delay device and the signal combining circuit. The image signals are alternately stored via the switching circuit during field periods (field skip). In the other grid period, the signal storage can take place. In the display of the stored signal by the signal storage and display device, the stored information is then repeated once in the next frame period. The television image signal thus results with image information repeating in cycles of two consecutive frame periods and possibly image information which changes stepwise therebetween. Forming the canned image signals prior to storage, according to said patent, serves to obtain a reduction of flicker phenomena when displaying said step-wise changing image signal on a display.

Furthermore, it is described in said patent that a stepwise changing image signal may be the result of a film television set. The information associated with one film image does not end up in one frame period of the image signal, but 8300 58 1 * J 4.

PHN 10,597 2 This cmcmt is repeated for the next grid period. If subsequent, optionally, the described intermittently occurring signal storage of laminated image signals is used, the storage display device will provide an adjusted step-wise changing image signal during signal display.

Apart from the fact that in both cases some flicker reduction is obtained by displaying the display screen, forming stepwise changing image signal before the signal storage with the image signals coinciding over multiple frames, the 10 remaining on the information repetition in the cycle remains cause a flicker. No measures have been proposed against this in the said patent.

The invention aims at the realization of a television circuit for a flicker reduction on display, with an image signal with repetitive cycles of two subsequent periods of periods and possibly image information which changes step by step, which image signal may be an example directly from a film. television converter or a field skip signal storage and display device with or without the described signal calibration before the signal storage. To this end, a television circuit according to the invention has the characteristic that the said image signal, with possibly continuously repeating image information in / of two successive frame periods, is supplied to the input terminal of the television circuit in a stepwise manner, which input terminal can be connected via the switching circuit to the output terminal of the television circuit, wherein via the switching circuit the output of the signal combination circuit and the output terminal of the television circuit are coupled during first frame periods in the cycles of the two frame periods and the input and output terminal are coupled during second, on the said first 30 subsequent frame periods in the cycles of the two frame periods.

The invention will now be explained in more detail with reference to the accompanying drawing, in which Fig. 1 shows a block diagram of a television circuit according to the invention and 35. Fig. 2 shows some time diagrams illustrating the operation of the circuit according to Fig. 1.

In the television circuit according to Fig. 1, 1 represents a signal 83 0 0 5 9 1. 1 PHN 10.597 3 source indicated. The signal source 1 outputs two signals PSO and PS1. The signal PS1 is a line and field-wise constructed television image signal or video signal when image information is combined with line and frame synchronization information present in blanking times. In the presence or absence of synchronizing information, it is stated that the signal PS1 contains an image signal with cycles of two successive raster periods repeating and (possibly) changing image information in-between. For supplying such a signal PS1, the signal source 1 may, for example, be equipped with a "field skip" signal storage unit and a display device or a film-television-setter, the following will furthermore be shown as an example, the film-television set. considered. In Fig. 2, illustrating the operation of the circuit shown in Fig. 1, some suitable time diagrams are shown as a function of time t. In Fig. 2, with a time diagram indicated by M, a sequence of film image information is indicated, some of which are indicated by Mn_j, Mn and 14 ^. In the case of the film-television set-up which can be done in known ways with a continuous or intermittent film transport, with or without a flashlight exposure, the information associated with one film image does not justify in one television frame period, but this side is repeated for the next frame period, which first and second frame periods are designated TV1 and TV2 in FIG. In relation to the time diagram M, in Figure 2 a few time diagrams associated with the signals PSO and PS1 are shown. The signal PSO appears to occur with a repetition period equal to two frame periods (2TV) with a symmetrical block-shaped course between two signal levels T1 and T2. Fig. 2 shows a suitable time diagram of the signal PS1. The exemplary film picture information Mn leads to a television picture information Pn in a first frame period TV1 and to a repeated picture information P * in a second frame period TV2. Likewise, the preceding and following movie image information Mn_ ^ and Mn + ^, respectively, lead to television image information Ρη_ ^ and P ^ and P ^ and Ρη_ ^, respectively.

In the case where a single, 2: 1 interlaced television system is used in the film television setting, such as is laid down in a television standard, for example, two consecutive raster periods TV form one picture period. The television line frames correspond to the picture information Pn_ ^, Pn and Pn + ^ and P ^, respectively.

Pn * and P ^ together.

The time diagram of the signal PS1 shows that the picture information 8300591 PHN 10,597 occur in cycles (TV1, TV2) of two consecutive frame periods TV1 and TV2. When no interlacing is used, in the cycles (TV1, TV2) the picture information P and subsequent, repeated picture information P 'are identical. When interlacing is used, the picture information P and P 'are not identical, but with the same film picture information M a television line is shifted in the field scanning direction. Changes between the film image information M after the film-television setting will occur stepwise between the cycles (TV1, TV2) of the picture information P and P ', namely between the repeated picture information P' of the previous cycle and the picture information P of the own cycle. These step-by-step changes in information will often occur as abrupt changes, mainly due to the filming of separately recorded scenes. Without further measures, the display of the (abruptly) stepwise changing signal PS1 and a display screen will lead to flicker phenomena thereon. In order to obtain a flicker reduction during reproduction, the signal PS1 is first applied to a signal input terminal 2 of a television circuit according to the invention shown in Fig. 1, which then supplies a signal PS 2 more suitable for reproduction to a signal output terminal 3. Fig. 2 shows a time diagram of the signal PS2 20 which is derived from that of the signal PS1 and which shows a delayed image information P "as the shortened image signal in addition to the image information P and the repeated image information P '. The delayed image information P" "may be derived from the immediately preceding, repeated image information P 'or the image information P, such as preferably with interlaced television systems.

It has been stated above that the signal source 1 contains a film-television converter. As will be apparent from the following, there is further the possibility that the film television set-up has happened elsewhere and a resulting step-wise changing television picture signal is received and applied to an input terminal of the signal source 1 for outputting the signals PS1 and PSO.

In the circuit of Figure 1, the input terminal 2 is connected to an input of a delay device 4. The device 4 has a time delay equal to at least one variety period TV. In the case where the signal PS1 belongs to a 2: 1 interlaced television system, to obtain an image quality improvement in the display of the combined image signal PS2, it is more advantageous an 8 3 0 0 5 9 f PHN 10.597 5 time delay of an image period of 2TV. An output of the delay device 4 is connected to an input 5 of a signal cannon circuit 6, another input 7 of which is connected to the input terminal 2. In the circuit 6, inputs of a qptel-5 circuit 8 are connected to the inputs 5 and 7 , in which the adding circuit 8 follows a semicircular circuit 9. An output of the signal canning circuit 6 connected to the output of the halving circuit 9 is connected to an input 10 of a switching circuit 11. An input 12 of the switching circuit 11 is connected to the input terminal 2. The switching circuit 11 10 is shown in FIG. designed as a mechanical switch with two switching contacts T1 and T2 connected to signal inputs 10 and 12, respectively, but will in practice be designed as an electronic switch. Here, the switching circuit 11 is designed with a switching signal input 13. The input 13 is connected to an input terminal 14 of the television circuit according to Fig. 1, to which input 13 the signal PSO is applied as a switching signal. The switching circuit 11 has an output carrying the signal PS2 and is connected to the output terminal 3. In the switching circuit 11, the output terminal 2 is alternately connected to the switching contacts T1 and T2 under the control of the switching signal PSO with the signal levels indicated by the same references T1 and T2. The interconnection of the switching contact T2 and T1, respectively, is shown at the switching circuit 11 with a drawn and dashed-dotted line, respectively, which lines match similarly drawn arrowhead lines T2 and T1 in FIG. 2, between the time diagrams PS1 and PS2. . The lines between the time diagrams PS1 and PS2 given in Figure 2 serve to illustrate information transfers in which the dashed-dotted line T1 matches either a dashed-line T1 or a dotted-line T1. As follows from FIG. 2 and FIG. 1, the dashed line T11 is a time delay equal to a frame period TV30 at the delay device 4, in which case it is equal to 2TV the dashed line T1.

It follows from Fig. 2 and Fig. 1 that the input terminal 2 and the output terminal 3 are coupled together during the grating periods TV2. As a result, the repeated image information, for example pnIq /? N ', is passed on unaltered. During the frame periods TV1, the output terminal 3 is connected to the output of the signal banning circuit 6, whereby half of the current picture information P *, P, P ,, n-1 n n + 1 8300591 PHN 10.597 6 via the input 7 and via the input 5 half of the delayed image information P, P ", Pn" are transmitted. From Fig. 2 it follows that an exemplary image information sequence Pn, Pn ', Pn + ^ is set in an order ½ (Pn ^ + Pn), Pn * / h (Pn "+ Pn + 1). An abrupt image information change between Pn "and P ^ is attenuated to Pn" and ½ (Pn "+ P ^), resulting in flicker reduction when displayed on a display screen. In Fig. 2, the time diagram PS2 has three arrows 15 emphasizing how each image information is time-divided over three consecutive frame periods TV when displayed on a display screen to obtain the flicker reduction.

For the flicker reduction it is essential that during the first grating periods TV1 of the cycles of the grating periods (TV1, TV2) the signal circuit 6 is coupled to the output terminal 3 and during the second grating periods TV2, the input terminal 2 to the output-15. terminal 3 is coupled. If the coupling were different, instead of the desired sequence \ (Pn "1 + Pn), Pn ', ½ (Pn" + Pn + 1), an order \ (Pn "1, + P ^), Pn would result , ½ (Pn "JJ + Pn") when using a delay device 4 with a time delay 2TV (interlaced system), or a sequence P ^ -j,? N / Pn "with a time delay TV.

Here, the picture information P, M is the repeated picture information P 'delayed over the picture period 2TV. In the first case, the abrupt information change remains between the first and the second image information in the order, in the second case, the order of the time diagram PS2 is unchanged compared to the time diagram PS1. In either case, the desired flicker reduction on display is not obtained.

In the circuit of FIG. 1, the signal source 1 supplies the switching signal PSO at the appropriate phase to the switching circuit 11, the signal levels T1 and T2 of the time diagram PSO of FIG. 2 matching the frame period cycle (TV1, TV2). The time diagrams M, PSO and PS1 of Fig. 2 are coupled to each other in the correct phase via the signal source 1 of Fig. 1, in which the film-television conversion takes place in the stated manner.

Another possibility is that the film-television conversion does not take place in the signal source 1 itself, but elsewhere prior to this, in which an input signal 1, which is thus gradually changed, is applied to the input terminal 1 ^ of the signal source 1, for example unchanged 83 0 0 59 1 PHN 10,597 7 when the signal PS1 is passed. In order to obtain the switching signal PSO in the correct phase, information must now be obtained from the received signal (PS1) itself regarding the frame period cycle (TV1, TV2). For the realization of a circuit for obtaining an indication which picture information in the sequence of raster periods TV belong together, reference is made to the Dutch patent application of Applicant (PHN 10.596) with the same filing date. In the presence of such a circuit in the signal source 1, the input terminal 11 of the signal source 1 for supplying the signals PSO and PS1 can be supplied with a stepwise changing image signal received from elsewhere.

With the aid of the delay device 4 of Fig. 1, a combined image signal PS2 can be obtained at the output terminal 3, which is calibrated over three frame periods, predetermined a certain image information, its repetition and a delayed image information. When using a delay device with which the signal PS1 can be delayed over different frame or picture periods, a signal combination can be formed over those periods.

20 25 30 35 • 8300591

Claims (1)

EHN 10,597 8 Conclusion; Television circuit for flicker reduction on display at an image signal with image information repeating in cycles of two consecutive frame periods and possibly image information that changes in stepwise manner, each circuit between an input and output terminal thereof being provided with a delay device coupled to the input terminal with a time delay equal to at least one frame period, of a signal combiner circuit coupled to the input terminal and to an output of the delay device and of a signal circuit coupled to an output of the signal combiner circuit and to the output terminal circuit coupled together to form combined picture signals with picture information originating in frame periods from different grating periods, characterized in that said image signal is supplied to the input terminal of the telev with repeating and possibly step-by-step changing image information in cycles of two successive grating periods isi circuit, each input terminal can be connected via the switching circuit to the output terminal of the television circuit, wherein the output of the signal circuit and the output terminal of the television circuit are coupled via the switching circuit during first frame periods in the cycles of the two frame periods and the input and output terminal are just coupled together during second, after said first subsequent frame periods in the cycles of the two frame periods. 25 30 35 8300591