JP2595499B2 - Television receiver - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television receiver capable of adjusting setting data of each section of a circuit by an adjustment commander.

[Summary of the Invention]

The present invention includes a television receiver and an adjustment commander, and in the adjustment mode in the television receiver in which the adjustment commander can adjust the setting data of each circuit of the television receiver, in the adjustment mode, the user cone troll amount is reduced. The adjustment is simplified by automatically setting the reference value corresponding to the adjustment item.

[Conventional technology]

Conventionally, in a television receiver, white balance adjustment, sub-brightness adjustment (adjustment of the center value of brightness), and the like are adjusted after a user control amount such as sharpness and brightness is set to a predetermined value. Further, for example, when adjusting the white balance, it is necessary to take measures according to the adjustment items, such as adjusting the color by squeezing the color.

[Problems to be solved by the invention]

Conventionally, since the adjustment at the time of the adjustment as described above is performed by the adjuster by adjusting the user control amount each time, the adjustment procedure is increased for the adjuster, which is troublesome. Reduces the reliability of the adjustment.

The present invention has been made in view of the above, and aims to simplify adjustment and improve the reliability of adjustment.

[Means for solving the problem]

A television receiver according to the present invention includes first control means for user adjustment and second control means for maker adjustment.
The control means has a storage means for storing a user control amount of each part of the circuit at the time of manufacturer adjustment. In the adjustment mode, a plurality of the user control amounts of the storage means are set to a first reference value, and specified. Is specified, the user control amount corresponding to the adjustment item is set to the second reference value.

Further, in the television receiver according to the present invention, the first reference value is set to substantially the center value of the data of the user control amount, and the second reference value is set to 0 when the white balance is adjusted. %, And when adjusting the sub-brightness, the second reference value may be set so that the picture data is set to 0%.

[Action]

In the adjustment mode, the user control amount is automatically set to the reference value corresponding to the adjustment item, so that the adjustment procedure by the adjuster is reduced, and the adjustment is simplified.

〔Example〕

Hereinafter, an embodiment of the present invention will be described with reference to FIG.

In the figure, (1) is a tuner circuit provided from a tuner to a video detection circuit, and a composite video signal _SV is obtained from the tuner circuit (1). This video signal
_SV is converted into a digital signal by the A / D converter (2),
Luminance signal Y _D through the comb filter (3) is supplied to the peaking filter (4) Digital is obtained. The luminance signal Y _D is supplied to the signal processing circuit (5Y), supplied is converted into an analog luminance signal Y to a matrix circuit (7) by the D / A converter after the processing such as contrast (6Y) Is done.

Further, the output is supplied to a band-pass filter (8) a digital carrier chrominance signal C _D of the comb filter (3) is obtained. The carrier chrominance signal C _D is supplied to the signal processing circuit (5C), ACC, Hugh, is supplied to the color demodulation circuit after the adjustment of the color, etc. (9), red color difference signal of the digital R _D -Y _D ,
Blue color difference signal B _D -Y _D is obtained. And these color difference signals
_{R D -Y D, B D -Y} D are each D / A converter (6R), is fed to the conversion (6B) analog color difference signals R-Y, the B-Y by a matrix circuit (7) .

Red, green, and blue primary color signals from the matrix circuit (7)
R, G, and B are obtained and supplied to amplifiers (11R), (11G), and (11B) for white balance and luminance adjustment, respectively. Further, the outputs of these amplifiers (11R), (11G), and (11B) ,
These are supplied to the color picture tube (13) via the drive amplifiers (12R), (12G), and (12B), respectively.

The composite video signal S _V from the tuner circuit (1) is synchronized supplied sync pulse separator circuit (14) is obtained, it is supplied a predetermined pulse axis and the synchronization pulse is a pulse processing circuit (15H) is a horizontal synchronizing pulse P _H phase, is supplied to the horizontal output circuit (16H). Then, a horizontal deflection signal is supplied from the horizontal output circuit (16H) to the horizontal deflection coil (17H). The synchronization pulse obtained from the synchronization separation circuit (14) is supplied to an integration circuit (18) to obtain a vertical synchronization pulse. This pulse is supplied to a pulse processing circuit (15V) and supplied to a pulse processing circuit (15V) having a predetermined pulse width and phase. is a synchronization pulse P _V, is supplied to the vertical output circuit (16V). Then, a vertical deflection signal is supplied from the vertical output circuit (16 V) to the vertical deflection coil (17 V).

Further, (19) is a microcomputer for selecting a channel (microcomputer), and (20) is a microcomputer for control. A rewritable nonvolatile memory (21) is connected to the microcomputer (19), and a rewritable nonvolatile memory (23) is connected to the microcomputer (20) via a bus (22).
The key panel (24) is connected to 9). This key panel (24) allows the user to select a station,
A plurality of keys are provided for adjusting brightness, color, hue, so-called picture (contrast), and the like. In addition, the memory (21) stores channel selection data preset by the numeric keypad of the panel (24) and user control amounts such as sharpness and brightness adjusted by the user even when the power is turned off. belongs to.

The memory (23) stores data that does not require adjustment by the user, such as white balance, sub-brightness, horizontal deflection, and vertical deflection, but requires adjustment by the manufacturer or service person. The data stored in the memory (23) is connected to a microcomputer (20) via a terminal (25) via an adjustment commander (26) and adjusted using the commander.

In the above configuration, the microcomputer (1
By 9), channel selection data of the channel selected before turning off the power is read out from the memory (21), and the channel selected before turning off the power is selected. Thereafter, when the user operates, for example, a numeric keypad of the key panel (24), the microcomputer (19) reads channel selection data of a channel preset corresponding to the operated key from the memory (21), This data is supplied to the tuner circuit (1), and the channel specified by the ten keys of the key panel (24) is selected. At this time, the tuning data of the selected channel is written into the memory (21) and is prepared when the power is turned off.

As described later, the RAM (not shown) of the control microcomputer (20) stores reference setting data of each part of the circuit,
The data of the user control amount is written.
Each part of the circuit is set by an offset value with respect to the center value of the reference setting data and the data of the user control amount. For example, brightness and white balance data are supplied from a microcomputer (20) to an amplifier control circuit (11) via a bus (22) and an interface (27), and the control circuit (11) controls the amplifiers (11R) to (11).
(11B) is controlled, and the three primary color signals RB are adjusted so that the luminance and the white balance are as set. The deflection data is transmitted from the microcomputer (20) via the bus (22) and the interface (28) to the pulse processing circuit (15).
H) and (15V), so that the horizontal and vertical deflection waveforms are adjusted as set. In addition, microcomputer (20)
More sharpness, color, hue, and picture data are supplied to the signal processing circuits (5Y) and (5C) via the bus (22) and the interface (27).
The signals Y _D and C _D are adjusted so that the color, hue, and picture are as set.

In this example, when the power is turned on, the adjustment mode is determined from the user mode. For example, when the commander (26) is connected to the terminal (25) of the microcomputer (20), the mode is determined to be the adjustment mode, and at other times, the mode is determined to be the user mode.

If it is determined that the adjustment mode is set, for example, the microcomputer (20)
The average reference setting data of each part of the circuit, which is pre-written in the ROM (not shown), is read out and read from the microcomputer (20).
Written to RAM.

When the adjustment mode is determined, as shown in the flowchart of FIG. 2, the user control data such as sharpness and brightness written in the RAM of the microcomputer (20) is automatically changed to the reference value (almost the center value). ). For example, sharpness, brightness, color, hue, and picture are 50%, 50%, 50%,
Set to 50%, 68%. Therefore, when it is determined that the mode is the adjustment mode, the sharpness, the brightness and the like are set with the data of the user control amount as the reference value. That is,
It is set without being affected by the user's adjustment amount.

Assuming that the white balance adjustment key “WB” of the commander (26) (see FIG. 3) is pressed to adjust the white balance, as shown in the flowchart of FIG. Set to%. Therefore, at the time of this white balance adjustment, the color is squeezed, which is a state suitable for white balance adjustment. After this white balance adjustment, the color data is returned to 50% again.

In FIG. 3, “BKG-R”, “BKG-G”, “BKG
“−B” is a key for adjusting the cutoff currents of the red, green, and blue cathodes, respectively, “DRV-R”, “DRV-G”, and “DRV-G”.
"-B" are keys for adjusting the drive currents of the red, green, and blue cathodes, respectively.
Each current is adjusted by the "-" key. At this time, the white balance data of the reference setting data written in the RAM of the microcomputer (20) is adjusted. At this time, each time the white balance data is updated, the display state of the color picture tube (13) changes, and the adjustment is performed while checking the display state. At the time of white balance adjustment, for example, brightness, color, picture, and hue can be changed by each key of “BRT”, “COL”, “PIX”, and “HUE”. After adjustment, write key `` WRITE
By pressing "-M", the adjusted white balance data written in the RAM of the microcomputer (20) is read, supplied to the memory (23) via the bus (22), written, and written. Pressing the completion key "EXEC" completes the writing and completes the white balance adjustment.

When the sub-brightness adjustment key "S-BRT" of the commander (26) is pressed to adjust the sub-brightness (center value of brightness), as shown in the flowchart of FIG. Are set to 0%. Therefore, at the time of this sub-brightness adjustment, the picture is set to a squeezed state, for example, the brightness is 1 / of the brightness of the maximum contrast, and the sub-brightness adjustment is easily performed. When the sub-brightness adjustment is completed, the picture data is returned to the original 68%.

This sub-brightness adjustment is performed using the "+" and "-" keys, and the adjusted sub-brightness data is written into the memory (23) using the "WRITE-M" and "EXEC" keys. Adjustment is over.

Except when the white balance and the sub-brightness are adjusted, the adjustment is performed in the state initially set with the above-mentioned reference value of the user control amount, and the adjustment data is similarly written to the memory (23).

In FIG. 3, the "EXIT" key is a key for canceling the adjustment mode. Pressing this key cancels the adjustment mode and enters the user mode.

On the other hand, when the power is turned on, the mode is determined to be the user mode, or when the adjustment mode is released to the user mode,
The reference setting data of each part of the circuit written in the adjustment mode is read from the memory (23) and written to the RAM of the microcomputer (20).

Further, data of a user control amount such as sharpness and brightness adjusted by the user is read from the memory (21) and written into the RAM of the microcomputer (20). Therefore, when the power is turned on, the user mode is determined, or when the adjustment mode is released to enter the user mode, the sharpness, the brightness, and the like are set by the value of the user control amount adjusted by the user.

In this user mode, when a key such as the sherbness or brightness of the key panel (24) is operated, the user control amount in the memory (21) is updated each time the key is operated, and the microcomputer (20)
Since the user control amount written in the RAM is also updated, adjustments such as sharpness and brightness are made.

As described above, according to the present example, in the adjustment mode, the data of the user control amount is set to the reference value, and the sharpness, the brightness, and the like are set without being affected by the user's adjustment amount. When adjusting the white balance and sub-brightness, the data of the user control amount is automatically changed to make the adjustment easier, so that the adjuster does not need to adjust each time, and the adjustment is simplified. You. This also improves the reliability of the adjustment.

In the above-described embodiment, the setting of the user control amount according to the adjustment item is performed only when the white balance and the sub-brightness are adjusted. However, the user control amount can be set during other adjustments as needed. The above embodiment is an example in which the present invention is applied to a television receiver.
The present invention can be similarly applied to other electronic devices.

〔The invention's effect〕

According to the present invention described above, in the adjustment mode, the user control amount is automatically set to the reference value corresponding to the adjustment item, so that the adjustment is simplified, which is convenient for the adjuster. Thus, the reliability of the adjustment can be improved.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIGS. 2 and 3 are diagrams for explaining the embodiment. (20) is a control microcomputer, and (26) is an adjustment commander.

 ────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Masayuki Motomiya 6-7-35 Kita-Shinagawa, Shinagawa-ku, Tokyo Inside Sony Corporation (56) References JP-A-60-55775 (JP, A) JP-A Sho 61-95629 (JP, A) JP-A-61-96880 (JP, A) JP-A-61-96834 (JP, A)

Claims (2)

(57) [Claims] 1. A television receiver comprising first control means for user adjustment and second control means for maker adjustment, wherein the second control means controls each part of a circuit at the time of maker adjustment. A storage unit for storing a user control amount, wherein in the adjustment mode, the plurality of user control amounts in the storage unit are set to a first reference value, and when a specific adjustment item is designated, the user control amount corresponds to the adjustment item. The above-mentioned user control amount is set to a second reference value. 2. The method according to claim 1, wherein the first reference value is set to approximately the center value of the data of the user control amount, and when adjusting the white balance, the second reference value is set to 0% for the color data. 2. The method according to claim 1, wherein the picture data is set to 0% as the second reference value when the sub-brightness is adjusted.
3. The television receiver according to item 1.