JP2007316389A - Projection device and control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projection device that can stably operate even upon an instantaneous power failure. <P>SOLUTION: The projector 100 includes a projection unit 130, a main CPU 110 that controls the projection unit 130, a power supply unit 150 that converts power from a main power source 140 to a first voltage and supplies it to the main CPU 110, and a sub CPU 120 that controls the main CPU 110 and the power supply unit 150. In the projector 100, the main CPU 110 judges whether the main power source 140 is in a cut-off state from the power supply or not; and when the main power supply 140 is in a cut-off state, the main CPU executes a termination process and sends notifying information indicating that the main power supply 140 is in a cut-off state to the sub CPU 120 after the termination process. When the sub CPU 120 receives the notifying information, it stops the power supply unit 150 and executes a reset process of the main CPU 110. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a projection apparatus and a control method.

  In a general power failure state or energized state, the projection apparatus operates properly. However, in the case of an instantaneous power failure, the projection apparatus may not operate properly.

  In the case of an instantaneous power failure, the projection device is once in a state equivalent to the power-off state, and then in the energized state. Thus, in the case of an instantaneous power failure, the power supply state becomes unstable, so that the operation of each device becomes unstable, and the operation of the entire projection apparatus may become unstable.

  Further, in the case of an instantaneous power failure, in order to operate the projection apparatus in a stable state, the user has to connect and disconnect the power cord of the projection apparatus.

  For example, in Patent Document 1, for the purpose of space saving and normal termination of the system at the time of a power failure, a voltage abnormality drop detection unit, a reset signal transmission unit that transmits a reset signal to each control board when a voltage drop is detected, A pachinko machine power supply device having a power supply unit having a power-on reset signal on a sub-control board and a main control board when power is restored is described.

Also, in paragraph 0024 of Patent Document 1, when the system reset control circuit returns to power before a predetermined time has elapsed since the start of the power failure, the control system of the pachinko machine is terminated at the time of an instantaneous power failure by not performing the subsequent reset control. It is described to prevent this from happening in advance.
JP 2002-35244 A

  However, in the case of the projection apparatus, it is necessary to operate the projection unit and the like stably, and therefore, when the main CPU is operating, the main CPU monitors the main power supply, and the main power supply is turned off. In this case, it is necessary to execute the end process immediately.

  For this reason, in the case of a projection apparatus, it is not possible to adopt a method in which only the power supply unit performs system reset control as in the method of Patent Document 1.

  An object of the present invention is to provide a projection apparatus and a control method that can operate stably even during an instantaneous power failure.

In order to solve the above problems, a projection apparatus according to the present invention provides:
A main power source, a projection unit, a main CPU that controls the projection unit, a first power supply unit that converts power from the main power source into a first voltage and supplies the first voltage to the main CPU, and the main CPU And a projection device having a sub CPU that controls the first power supply unit,
The main CPU determines whether or not the main power source is in a power-off state. When the main power source is in the power-off state, the main CPU executes an end process and, after the end process, sends the main CPU to the sub CPU. Sending notification information indicating that the power supply is in the power-off state,
The sub CPU, when receiving the notification information, stops the first power supply unit and executes a reset process of the main CPU.

Moreover, the control method according to the present invention includes:
A main power source, a projection unit, a main CPU that controls the projection unit, a first power supply unit that converts power from the main power source into a first voltage and supplies the first voltage to the main CPU, and the main CPU And a control method of a projection apparatus having a sub CPU for controlling the first power supply unit,
The main CPU is
Determining whether the main power source is in a power-off state;
If the main power supply is in the power-off state, execute a termination process,
Sending notification information indicating that the main power supply is in the power-off state to the sub CPU,
The sub CPU is
When the notification information is received, the first power supply unit is stopped,
The main CPU is reset.

  According to the present invention, since the projection apparatus controls the main CPU by using the sub CPU, the main CPU can be stopped and reset after the main CPU performs necessary termination processing when the power is turned off. It can operate stably even during an instantaneous power failure.

  The sub CPU monitors the state of the main power supply after the reset processing of the main CPU, and when the main power supply is energized before a predetermined time elapses in the power-off state, the first CPU The main CPU may be activated by activating a power supply unit, and may be automatically stopped when a predetermined time has elapsed in the power-off state.

  According to this, when the main power source is energized before a predetermined time has passed in the power-off state, that is, in the case of an instantaneous power failure, the projection device starts the main CPU to enter the standby state, and the power-off state When the predetermined time has passed, that is, in the case of a normal power failure, the sub CPU can be stopped to bring the system to a complete stop state. Thereby, the projection apparatus can operate stably even during an instantaneous power failure.

In addition, the projection device includes a second power supply unit that converts power from the main power source into a second voltage and supplies the second voltage to the projection unit,
The sub CPU also stops the second power supply unit when stopping the first power supply unit, and also starts the second power supply unit when starting the first power supply unit. May be.

  According to this, the projection apparatus can operate stably even during an instantaneous power failure by performing power supply control on devices other than the main CPU such as the projection unit.

  Hereinafter, an example in which the present invention is applied to a projector will be described with reference to the drawings. In addition, the Example shown below does not limit the content of the invention described in the claim at all. In addition, all of the configurations shown in the following embodiments are not necessarily essential as means for solving the problems described in the claims.

  FIG. 1 is a functional block diagram of a projector 100 in the present embodiment.

  A projector 100, which is a type of projection device, includes a main power supply 140, a projection unit 130, a main CPU 110 that controls the projection unit 130, a sub CPU 120 that controls the main CPU 110, and an external device (for example, a PC). And a network unit 160 that performs communication.

  Further, the projector 100 converts a power from the main power supply 140 into a first voltage (for example, 3.3 V) and supplies the power to the main CPU 110, and the main power supply 140. The power supply unit 152 (second power supply unit) that converts the power from the power source to the second voltage (for example, 7.0 V) and supplies the converted voltage to the projection unit 130, and the power from the main power source 140 to the third voltage (For example, 5.0V) and a power supply unit 151 that supplies the converted data to the network unit 160.

  Next, the control procedure when the power is turned off using these units will be described.

  FIG. 2 is a flowchart showing a control procedure when the power is turned off in the present embodiment. FIG. 3 is a timing chart when the power is turned off in the present embodiment. FIG. 4 is a state transition diagram of the projection apparatus in the present embodiment.

  It is assumed that the current state is a normal state in which power is supplied to the main power supply 140 and the projector 100 is turned on. In the normal state, both the main CPU 110 and the sub CPU 120 are operating.

  The main CPU 110 determines whether or not the main power supply 140 is in a power-off (non-energized) state by monitoring a line between the main power supply 140 and the AC (power supply cord) (step S1).

  When the main CPU 110 detects that the main power supply 140 is in a power-off state, the main CPU 110 executes necessary termination processing (step S2). Here, necessary termination processing includes, for example, fan stop, audio mute, control of the projection unit 130 (voltage control of the liquid crystal panel, etc.), and the like.

  After the termination process, the main CPU 110 transmits notification information indicating that the main power supply 140 is in a power-off state to the sub CPU 120 (step S3).

  The sub CPU 120 receives the notification information (step S4).

  Then, the sub CPU 120 turns off the LED of the projector 100 (step S5), stops the power supply units 150 to 152 (step S6), and executes reset processing of devices such as the main CPU 110 and the network unit 160 (step S7). ).

  As a result, the projector 100 transitions from the normal state to the system stop preparation state.

  In the system stop preparation state, only the sub CPU 120 operates, the state of the main power supply 140 is monitored, and the power supply is cut off for a predetermined time (for example, 3 to 13 seconds, which is determined by the voltage of the main power supply 140 and operating conditions. ) Is determined (step S8). The main CPU 110 can operate to some extent even when the power is turned off, and the sub CPU 120 can operate for a longer time than the main CPU 110 using the backup power even after the power is turned off.

  When a predetermined time elapses with the power turned off, the sub CPU 120 also becomes inoperable and automatically stops, so that the projector 100 enters a system complete stop state. In the system complete stop state, the entire projector 100 is stopped.

  On the other hand, when the main power supply 140 is energized before the predetermined time elapses with the power turned off (for example, in the case of an instantaneous power failure), the sub CPU 120 activates the power supply units 150 to 152 and activates the main CPU 110 .

  As a result, the projector 100 enters a standby state (the LED is turned off, but the main CPU 110 and the sub CPU 120 are operating).

  As described above, according to the present embodiment, the projector 100 controls the main CPU 110 using the sub CPU 120 to cause the main CPU 110 to perform a termination process necessary when the power is turned off, and then stops the main CPU 110. Since it can be reset, it can operate stably even during an instantaneous power failure.

  Further, according to the present embodiment, the projector 100 activates the main CPU 110 in the standby state when the main power supply 140 is energized before a predetermined time elapses in a power-off state, that is, in the case of an instantaneous power failure. When the predetermined time has passed with the power turned off, that is, in the case of a normal power failure, the sub CPU 120 can be stopped and the system can be completely stopped. Thereby, the projector 100 can operate stably even during an instantaneous power failure.

  Further, according to the present embodiment, the projector 100 can operate stably even during an instantaneous power failure by performing power supply control on devices other than the main CPU 110 such as the projection unit 130 and the network unit 160.

  Further, according to the present embodiment, in the normal state or the standby state, the main CPU 110 monitors the main power supply 140, and when the power supply of the main power supply 140 is detected, the voltage control of the liquid crystal panel is immediately performed. In addition, the projector 100 can be operated stably, and even when the main power supply 140 is turned off, the main CPU 110 and the sub CPU 120 can operate for a while only with the backup power supply.

  As described above, since the projector 100 according to the present embodiment can stably operate even in the event of an instantaneous power failure, the user uses the projector 100 without connecting or disconnecting the power cord even in the event of an instantaneous power failure. be able to.

  In addition, application of this invention is not limited to the Example mentioned above, A various deformation | transformation is possible.

  For example, the projector 100 is not limited to a liquid crystal projector, and may be a DLP projector, a CRT projector, an LED projector, or the like.

  The application of the present invention is not limited to the projector 100, and various projection devices such as a projection TV can be employed.

It is a functional block diagram of the projector in a present Example. It is a flowchart which shows the control procedure at the time of the power failure in a present Example. It is a timing chart at the time of power-off in a present Example. It is a state transition diagram of the projection apparatus in the present embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 100 Projector (projection apparatus), 110 Main CPU, 120 Sub CPU, 130 Projection part, 140 Main power supply, 150 Power supply part (1st power supply part), 151 Power supply part, 152 Power supply part (2nd power supply) Supply department), 160 network department

Claims (4)

A main power source, a projection unit, a main CPU that controls the projection unit, a first power supply unit that converts power from the main power source into a first voltage and supplies the first voltage to the main CPU, and the main CPU And a projection device having a sub CPU that controls the first power supply unit,
The main CPU determines whether or not the main power source is in a power-off state. When the main power source is in the power-off state, the main CPU executes an end process and, after the end process, sends the main CPU to the sub CPU. Sending notification information indicating that the power supply is in the power-off state,
When the sub CPU receives the notification information, the sub CPU stops the first power supply unit and executes a reset process of the main CPU. The projection device according to claim 1,
The sub CPU monitors the state of the main power supply after the reset processing of the main CPU. If the main power supply is energized before a predetermined time elapses in the power-off state, the first power supply is performed. The main CPU is activated by activating a unit, and automatically stops when a predetermined time elapses in the power-off state. The projection apparatus according to claim 1,
A second power supply unit that converts power from the main power source into a second voltage and supplies the converted voltage to the projection unit;
The sub CPU also stops the second power supply unit when stopping the first power supply unit, and also starts the second power supply unit when starting the first power supply unit. A projection apparatus characterized by that. A main power source, a projection unit, a main CPU that controls the projection unit, a first power supply unit that converts power from the main power source into a first voltage and supplies the first voltage to the main CPU, and the main CPU And a control method of a projection apparatus having a sub CPU for controlling the first power supply unit,
The main CPU is
Determining whether the main power source is in a power-off state;
If the main power supply is in the power-off state, execute a termination process,
Sending notification information indicating that the main power supply is in the power-off state to the sub CPU,
The sub CPU is
When the notification information is received, the first power supply unit is stopped,
A control method comprising performing a reset process of the main CPU.

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