JPH0666706B2 - Receiving machine - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a receiver whose reception state is controlled by a tuning microcomputer (tuning microcomputer).

SUMMARY OF THE INVENTION According to the present invention, a reset signal is supplied to a channel selection microcomputer when the power is turned on, and the reception state is set to a state according to the data in the nonvolatile memory after the rise time of the power source. By making it possible to operate the receiver by judging whether or not the reset signal is truly the one when the power is turned on, it is possible to prevent malfunction due to the reset signal caused by, for example, discharge.

[Conventional technology]

It has a tuning microcomputer that controls the reception status, and the reset signal is supplied to the tuning microcomputer when the power is turned on, and the reception status follows the data in the non-volatile memory, for example, about 40 msec after the power supply rise time. A television receiver has been proposed which is adapted to be set in a state. in this case,
For a certain period of time after power is turned on, for example, for about 1 second, video and audio are put into a meeting state.

By the way, a high voltage is used in the picture tube of a television receiver, and discharge is often generated. That is, it occurs when dust or the like is attached to the electrodes between the electrodes where the voltage difference of the electron gun is large.

[Problems to be solved by the invention]

The energy of the above-mentioned discharge is considerably strong, and the discharge pulse jumps into the substrate, the jumper lead wire, or the like. Therefore, each device is prone to malfunction. For example, the discharge pulse may be regarded as the reset signal described above. At this time, as described above, the video and audio are muted for about 1 second, for example. The discharge of the picture tube occurs during viewing by the viewer, and it is very unsightly for the viewer that no image or sound is produced for about 1 second during viewing.

In view of the above point, the present invention is intended to prevent malfunction due to a reset signal generated by, for example, discharge.

[Means for solving problems]

In order to solve the above-mentioned problems, the present invention determines whether or not the power supply voltage of the receiver is a predetermined voltage when the reset signal is supplied to the tuning microcomputer (12). For example, it is determined whether or not the voltage of the set power supply circuit (26) serving as the power supply of the tuner (2) or the like is the voltage during normal operation. When the voltage is a predetermined voltage, the tuning microcomputer (12) operates without waiting for the rise time of the power supply.

[Action]

When the power is turned on, the power supply voltage of the receiver has not yet reached the voltage during normal operation. Therefore, the tuning microcomputer (1
When the reset signal is supplied to (2), the reset signal is a true one when the power is turned on by judging whether or not the power supply voltage of the receiver is a predetermined voltage, that is, the voltage in the normal operation as in the present invention. Can be determined. When the voltage is at the predetermined voltage, it is not necessary to turn on the power supply, so there is no need to wait for the power supply to rise. Therefore, in the present invention, the channel selection microcomputer operates without waiting for the power supply rise time.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. FIG. 2 shows an example of a television receiver having a channel selection microcomputer.

In the figure, (1) is an antenna and (2) is a tuner. The intermediate frequency signal from the tuner (2) is supplied to the video intermediate frequency amplifier circuit (3). The amplifier circuit (3) includes a video detection circuit, and the video signal S _V taken out from the amplifier circuit (3) is supplied to the picture tube (6) via the signal processing circuit (4) and the amplifier (5). To be done. The audio intermediate frequency signal S _I extracted from the amplifier circuit (3) is supplied to the intermediate frequency amplifier circuit (7). The amplifier circuit (7) includes a detection circuit, and the audio signal S _A extracted from the amplifier circuit (7) is supplied to the speaker (9) via the amplifier (8).

Further, (10) is a commander for remote control (remote control), and a remote control signal S _r from this, such as infrared rays or ultrasonic waves, is supplied to a tuning microcomputer (12) via a remote control receiver (11). To be done. Further, (13) is a non-volatile memory that constitutes a so-called last memory and is connected to the tuning microcomputer (12). This memory (13)
The RAM of the tuning microcomputer (12), which is provided when the power is turned off
Channel selection data, volume data, brightness, hue, and other data written in (not shown) are written. When the user uses the commander (10) to tune, adjust the volume, and adjust the brightness, hue, etc., the tuning data, volume data, brightness, hue, etc. in the RAM of the tuning microcomputer (12) are updated. To be done. Along with this, the data in the non-volatile memory (13) is also updated.

Further, tuning data (for example, barrier voltage, PLL data, etc.) in the RAM of the tuning microcomputer (12) is supplied to the tuner (2), and the channel desired by the user is selected. Further, the volume data in the RAM of the tuning microcomputer (12) and the data such as brightness and hue are supplied to the amplifier (8) and the signal processing circuit (4) as control signals, and the volume and screen state desired by the user. Controlled by.

Further, (21) indicates a power plug to which commercial AC power is supplied, and this plug (21) is connected to a standby power circuit (23) via a main power switch (22). Then, from the standby power supply circuit (23), the tuning microcomputer (12),
A predetermined voltage, for example, a DC voltage of 5V is supplied to the remote control receiver (11) and the reset circuit (24). Then, the reset circuit (24) a main power switch (22) is generated at the same time reset signal S _R when turned on, is supplied to the microcomputer for channel selection (12).

The plug (21) is connected to the set power supply circuit (26) through a series circuit of the main power supply switch (22) and the television power supply switch (25). Then, a predetermined voltage, for example, a DC voltage of 9V is supplied from the set power supply circuit (26) to the tuner (2), the amplifier circuit (3), the signal processing circuit (4) and the like. Here, turning on / off of the television power switch (25) is controlled by the tuning microcomputer (12) based on the operation of the commander (10) by the user.

Further, the output side of the set power supply circuit (26) is grounded through the series circuit of the resistors (27) and (28), and the voltage V _P taken out to the connection point P of the resistors (27) and (28) is Supplied to the tuning microcomputer (12). In this case, elapsed rise time of the power supply, the predetermined voltage at the output side of the excisional power supply circuit (26), for example when the 9V is taken, a constant voltage V _P, the resistor so for example a 5V (27) and ( 28) is selected.

This example is configured as described above, and when the reset signal S _R is supplied to the tuning microcomputer (12), the tuning microcomputer (12) operates along the flow chart shown in FIG. Done

First, when the reset signal S _R is supplied, it is determined whether or not the voltage V _{P at the} connection point _P is 5V.

At power-on the power supply voltage of the excisional has not yet summer and voltage during normal operation, the voltage V _P is less than 5V. Therefore, when the voltage V _P is 5 V or less, the tuning microcomputer (12)
Reset signal is supplied to the S _R is reset circuit (24)
It is regarded as the reset signal S _R when the power is turned on.

The voltage V _P when no 5V is a blanking ON. At this time, the signal processing circuit (4) and the amplifier (8) are controlled so that the video and audio are put into a meeting state.
Then, the rise time of the power supply, for example, 400 msec is kept waiting.

Next, after 400 msec has passed, the nonvolatile memory (13)
Data such as tuning data and volume data are read out from
The data in the RAM of the tuning microcomputer (12) is initialized with these data. And this tuning microcomputer (12)
States such as channel selection and volume are set based on the data in the RAM.

Next, after the blanking is turned off (release of the meeting), the process goes to the main routine. Incidentally, in the main routine, various board-like processes, such as data refreshing and remote control signal sensing, are repeatedly performed.

On the other hand, when the voltage V _P is 5 V, the tuning microcomputer (1
The reset signal S _R supplied to 2) is the reset signal S _R caused by discharge (see the broken line in FIG. 2) and other reasons.
Judged as _R. In this case, since it is not when the power is turned on, it is not necessary to wait for the power to rise.

By the way, when the picture tube (6) is discharged, the data in the RAM may become abnormal. In this case, first, it is judged whether the data in the RAM of the tuning microcomputer (12) is normal or not. It Whether or not the data is normal is determined based on, for example, the most important tuning data.

When the data in the RAM is abnormal, data such as tuning data and volume data is read from the non-volatile memory (13), and the data in the RAM of the tuning microcomputer (12) is initialized with these data. (Normalized). Then, based on the data in the RAM of this tuning microcomputer (12),
A state such as volume is set. Then go to the main routine.

When the data in the RAM is normal, it immediately goes to the main routine.

According to this example, when the reset signal S _R is from the reset circuit (24) when the power is turned on, the tuning microcomputer (12) operates while waiting for the power supply rise time. If the reset signal S _R is due to, for example, the discharge of the picture tube (6), the channel selection microcomputer (12) operates without waiting for the rise time of the power supply. Then, for example, when the reset signal is generated by discharge, the video and audio are not muted, and it is possible to prevent a malfunction such as disappearance of the video and audio for about one second.

Further, according to this example, when the data in the RAM of the tuning microcomputer (12) is not normal, the data in the RAM is automatically normalized so that, for example, the data in RAM is abnormal due to discharge. Even when coming to, it is possible to immediately avoid the disturbance of the reception state.

Although 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 a radio receiver having a similar channel selection microcomputer.

〔The invention's effect〕

According to the present invention described above, it is possible to operate by judging whether the reset signal is truly the one when the power is turned on, so that it is possible to prevent malfunction due to the reset signal caused by discharge, for example. Further, by applying the present invention, it is possible to eliminate or reduce the shield, which has been conventionally used as a measure against discharge, and it is possible to reduce man-hours and component costs.

[Brief description of drawings]

FIG. 1 is a diagram for explaining one embodiment of the present invention, and FIG. 2 is a configuration diagram showing one embodiment of the present invention. (6) is a picture tube, (12) is a tuning microcomputer, and (24) is a reset circuit.

Claims (1)

[Claims] 1. A receiver in which a reset signal is supplied to a channel selection microcomputer when the power is turned on, and a reception state is set to a state in accordance with data in a nonvolatile memory after a rise time of the power source. In the above, when a reset signal is supplied to the tuning microcomputer, it is judged whether the power supply voltage of the receiver is a predetermined voltage or not. A receiver characterized in that it operates without waiting for the rise time of.