JP2021135385A - Projection device, power supply device, anomaly detection method, and anomaly detection program - Google Patents

Abstract

[Problem] When carrying a projection device, even if the power button is pressed, the projection device does not turn on due to an erroneous operation. [Solution] The device includes a connector 50 for connecting a video output device 200, a semiconductor switch 12 for supplying DC power from a battery power source E to a projection unit 30, and a standby power control unit 11 connected to the battery power source E and shorting the semiconductor switch when a mechanical switch 13 transitions, and the standby power control unit 11 prohibits shorting of the semiconductor switch 12 when it does not detect a power supply voltage of 5V from the power pin of the connector 50. [Selected Figure] Figure 1

Description

The present invention relates to a projection device, a power supply device, a power supply control method, and a power supply control program, for example, a small and lightweight projection device that can be driven by a battery power source.

Conventionally, a projection device has been developed. (For example, Patent Document 1). In recent years, such a projection device has also been studied for a portable projection device that can be carried around.

Japanese Unexamined Patent Publication No. 2012-198439

By the way, when a portable projection device is carried in a bag, there is a possibility that the power button may be accidentally pressed by something. When projection starts inside the bag, it consumes power unnecessarily. In addition, problems occur due to heat storage by the light source and projected light.

An object of the present invention is that when the projection device is carried, the projection device does not light up due to an erroneous operation even if the power button is pressed.

The present invention has been made in view of such a background, and can prevent lighting due to an erroneous operation even if the power button is pressed when carrying the projection device, a projection device, a control method for the power supply device, and a method for controlling the power supply device. The challenge is to provide a program.

In order to solve the above problems, the projection device or power supply device of the present invention is configured to be able to connect a commercial power supply as an AC power supply and a battery power supply as a DC power supply as a power supply for lighting the projection light source. When a connector for connecting an external device (for example, a video output device) and a battery power supply are connected and a user operation for an operation button for lighting the projection light source is received, the connector is the device. A determination means for determining whether or not the voltage of the power supply pin of the power supply pin is equal to or higher than a predetermined threshold value, or whether or not a video signal is input from the connector, and a determination means for determining whether or not the voltage determined by the determination means is equal to or higher than the predetermined threshold value. In this case, or when the video signal is input, the lighting of the projection light source is started, and when the voltage determined by the determination means is less than the predetermined threshold value, or the video signal is not input. In some cases, the control means for prohibiting the lighting of the projection light source is provided. The symbols and characters in parentheses are examples.

According to the present invention, when carrying the projection device, the projection device does not light up due to an erroneous operation even if the power button is pressed.

It is a block diagram of the projection apparatus of 1st Embodiment of this invention. It is a figure which shows the pin assignment of the HDMI connector. It is a flowchart for demonstrating the operation at the time of activation of the projection apparatus of this invention. It is explanatory drawing for demonstrating the negotiation flow of HDMI. It is a block diagram of the projection apparatus of 2nd Embodiment of this invention. It is a figure which shows the pin assignment of a DP connector. It is a figure which shows the pin assignment of the VGA connector.

Hereinafter, embodiments of the present invention (hereinafter, referred to as “the present embodiment”) will be described in detail with reference to the drawings. In addition, each figure is only shown schematicly to the extent that the present embodiment can be fully understood. Further, in each figure, common components and similar components are designated by the same reference numerals, and duplicate description thereof will be omitted.

(First Embodiment)
FIG. 1 is a block diagram of a projection device according to a first embodiment of the present invention.
The projection system S includes a projection device 100, a video output device 200 (external device), an HDMI (registered trademark) cable 150 that connects them, and a battery power source E that supplies DC power to the projection device 100.

The projection device 100 includes a standby power supply control unit 11, a main CPU 20, a projection unit 30, an HDMI receiver 40, a semiconductor switch 12, a mechanical switch 13, and a FAN 60. The semiconductor switch 12 is a high-performance semiconductor power switch having a built-in protection circuit against overcurrent and overheating and a built-in circuit for absorbing energy such as an inductive load. IPD (Intelligent Power Device), IPS (Intelligent Power switch), smart switch (Smart Switch), and high-side / low-side switch (Hi-side / Lo-side switch) can be used.

The battery power source E is a secondary battery, but a primary battery may also be used. The negative electrode of the battery power source E is connected to the standby power supply control unit 11, the main CPU 20, the projection unit 30, and the FAN 60. The positive electrode of the battery power source E is connected to the standby power supply control unit 11 and one end of the semiconductor switch 12. The other end of the semiconductor switch 12 is connected to the main CPU 20, the projection unit 30, and the FAN 60. Both ends of the mechanical switch 13 are connected to the standby power supply control unit 11.

The projection device 100 is configured to be able to connect a commercial power source as an AC power source and a battery power source as a DC power source as a power source for lighting the projection light source. The standby power supply control unit 11 (control means, determination means) determines whether or not the voltage of the power supply pin of the connector is equal to or higher than a predetermined threshold value when a user operation for the operation button for turning on the projection light source is received. ..

However, the main CPU 20 (control means) can first determine whether or not it is battery-powered. The main CPU 20 (control means) can determine, for example, whether or not it is battery-powered based on the voltage value input from the power supply. Alternatively, when it is battery-powered, it is possible to determine whether or not it is battery-powered because a pulse signal is output from the battery, unlike when it is driven by an AC power source.

In this way, by determining whether or not the connector is battery-powered before determining whether or not the voltage of the power supply pin of the connector is equal to or higher than a predetermined threshold value, the projection device 100 is used for lighting the projection light source. When it is determined that the power supply is connected to a commercial power supply as an AC power supply, when a user operation for the operation button (power button) for turning on the projection light source is accepted, the power supply pin of the connector It is not necessary to determine whether the voltage is equal to or higher than a predetermined threshold value. When a commercial power source as an AC power source is connected as a power source for lighting the projection light source, it is not necessary to prohibit the lighting of the projection light source. Therefore, when the power button is pressed by the user operation, the light source is promptly turned on. Lights up. Therefore, the user can use the projection device 100 without any discomfort.

A + 5V power supply voltage (5V Power) is input from the video output device 200 to the standby power supply control unit 11 via the HDMI cable 150 and the HDMI receiver 40. Further, both ends of the mechanical switch 13 are connected to the standby power supply control unit 11. In this state, the standby power supply control unit 11 sets the semiconductor switch 12 to the ON state when the mechanical switch 13 can detect the + 5V power supply voltage from the video output device 200 when the machine switch 13 transitions from the OFF state to the ON state. do.

On the other hand, the standby power supply control unit 11 keeps the semiconductor switch 12 in the OFF state when the + 5V power supply voltage from the video output device 200 cannot be detected. In other words, when the standby power supply control unit 11 cannot detect the + 5V power supply voltage from the video output device 200, the standby power supply control unit 11 prohibits the driving of the main CPU 20, the projection unit 30, and the FAN 60.

After startup, the main CPU 20 transmits an HPD (Hot Plug Detect) signal to the video output device 200 via the HDMI receiver 40 and the HDMI cable 150. As a result, the connection between the projection device 100 and the video output device 200 is established. The main CPU 20 processes the video signal output by the HDMI receiver 40 and outputs the processed image to the projection unit 30. The main CPU 20 exchanges various types of information with the video output device 200 by using a CEC (Consumer Electronics Control) signal.

The projection unit 30 projects the processed image processed by the main CPU 20 onto an external projected object (screen or the like). The projection unit 30 includes a light source (not shown) and tends to generate heat. The FAN 60 air-cools the projection unit 30.

The HDMI receiver 40 receives a video signal from the video output device 200 and outputs the received video signal to the main CPU 20. Further, the HDMI receiver 40 transmits the device information of the projection device 100 to the video output device 200 by using the DDC (Display Data Channel) signal.

The video output device 200 is, for example, a PC (Personal Computer), a BD (Blu-ray Disc) player, or the like, and includes a CPU 220, an image processing unit 230, an HDMI transmitter 240, and a connector 250. The CPU 220 controls the entire video output device 200. The image processing unit 230 includes a VRAM (not shown) and processes the image stored in the VRAM under the control of the CPU 220. The HDMI transmitter 240 transmits a video signal to the HDMI receiver 40 of the projection device 100.

The HDMI cable 150 transmits a video signal from the video output device 200 to the projection device 100. Further, the HDMI cable 150 transmits device information and authentication information between the video output device 200 and the projection device 100. The connectors 50 and 250 are 19-pin connectors, and the pin assignments are shown in FIG. For example, pins 1 to 9 are TMDS_DATA, and pins 10 to 12 are TMDS_CLOCK. The 17th pin is the ground, the 18th pin is the "5V" Power, and the 19th pin is the "HPD". In TMDS (Transition Minimized Differential Signaling), four channels are collectively used in a unit called a "link". Each of the four channels is assigned one channel to RGB for the video signal, and one channel is assigned to the signal for synchronizing the clock frequencies.

FIG. 3 is a flowchart for explaining the operation of the projection device of the present invention.
This flow is started when the battery power supply E is attached, and is repeated until the battery power supply E is exhausted or removed.
The standby power supply control unit 11 (determining means) first performs a general initialization process (S1), and then determines that the mechanical switch 13 is turned on (Power key IN) (S2). That is, the standby power supply control unit 11 determines the transition from the OFF state to the ON state of the mechanical switch 13. If the mechanical switch 13 does not transition from the OFF state to the ON state (No in S2), the standby power supply control unit 11 executes another polling process for periodically inquiring (S3), and determines that the mechanical switch 13 is turned on. Is repeated (S2).

On the other hand, if the mechanical switch 13 transitions from the OFF state to the ON state (Yes in S2), whether or not the standby power supply control unit 11 (determining means) has detected the 5V power supply voltage (5V Power) from the video output device 200. (S4). If the 5V power supply voltage is not detected (No in S4), the standby power supply control unit 11 executes another polling process (S3) and repeats the ON determination of the mechanical switch 13 (S2). On the other hand, if the 5V power supply voltage is detected (Yes in S4), the standby power supply control unit 11 sets the semiconductor switch 12 to the ON state (S5).

In S4, when the standby power supply control unit 11 (determining means) determines whether or not the 5V power supply voltage (5V Power) from the video output device 200 is detected, the projection device 100 and the video output device 200 are connected to the HDMI cable. Since it is connected by 150, the power supply voltage is not completely 0V even when the video source is not output from the video output device 200. Therefore, for example, it can be determined whether or not the voltage of the power supply pin of the connector 50 of the projection device 100 is equal to or higher than a predetermined threshold value.

As a result, the main CPU 20, the projection unit 30, and the FAN 60 are activated, and the light source of the projection unit 30 is turned on. That is, the standby power supply control unit 11 activates the main CPU 20, the projection unit 30, and the FAN 60 when the transition of the mechanical switch 13 and the detection of the 5V power supply voltage are performed. After the process of S5, the standby power supply control unit 11 (determination means) executes another polling process (S3), and repeats the ON determination of the mechanical switch 13 (S2).

FIG. 4 is an explanatory diagram for explaining the negotiation flow of HDMI.
Here, it is assumed that the HDMI cable 150 is connected between the projection device 100 and the video output device 200.
When the power of the video output device 200 is turned on, the 5V power supply pin of the connector 250 becomes HIGH level. As a result, the 5V power supply pin of the connector 50 of the projection device 100 also becomes HIGH level. In the projection device 100, the standby power supply control unit 11 detects the HIGH level state of the 5V power supply pin (S4), and the main CPU 20 transmits the HPD signal to the video output device 200 (S10).

The video output device 200 detects the HPD signal (S11) and instructs the projection device 100 to transmit the EDID (Extended Display Identification Data) (S12). The projection device 100 returns the EDID to the video output device 200 (S13). The video output device 200 reads the EDID (S14). Here, the EDID is data stored in a sink device such as the projection device 100. This data includes a "resolution", a "refresh rate", a "color depth" and a corresponding "audio format" that can be displayed by the projection device 100.

After the processing of S14, the video output device 200 determines the capacity of the sink device (S15) and determines the capacity of the AV format (S16). Further, the video output device 200 and the projection device 100 perform HDCP (High-bandwidth Digital Content Protection) authentication (S17, S18). HDCP authentication is an encryption technology that prevents unauthorized copying of copyrighted video content while it is being transmitted to a display device. In HDCP authentication, the sending side (HDCP transmitter) of video such as a computer and the receiving side (HDCP receiver) such as a display each have a built-in unique encryption key, which is used to authenticate that the device is a legitimate HDCP compatible device. , Exchanges encryption keys, and encrypts and decrypts video data.

After the HDCP authentication of S17 and S18 is completed, the video output device 200 performs TMDS transmission to the projection device 100 (S19). As a result, the projection device 100 receives the TMDS (S20).

As described above, according to the projection device 100 of the present embodiment, when the video output device 200 is connected to the video output device 200 by the HDMI cable 150 and the video output device 200 is driven, the standby power supply control unit 11 is the mechanical switch 13. When the transition and the detection of the 5V power supply voltage from the video output device 200 are performed, the semiconductor switch 12 is turned on. As a result, the main CPU 20, the projection unit 30, and the FAN 60 are activated, and the light source of the projection unit 30 is turned on.

(Second Embodiment)
The standby power supply control unit 11 of the first embodiment has detected the 5V power supply voltage from the video output device 200, but the video signal may be detected.

FIG. 5 is a configuration diagram of a projection device according to a second embodiment of the present invention.
In the projection device 101 of the present embodiment, as compared with the projection device 100 of the first embodiment, the signal line of the + 5V power supply is not connected between the HDMI receiver 40 and the standby power supply control unit 11. That is, the + 5V power supply is connected between the HDMI receiver 40 and the HDMI transmitter 240. Further, various signal lines are connected between the HDMI receiver 40 and the standby power supply control unit 11. When the video output device 200 performs TMDS transmission to the projection device 101, the projection device 101 receives the TMDS and detects the video signal. As described above, the detection of the video signal from the video output device 200 is performed by the TMDS channel between the HDMI transmitter 240 of the video output device 200 and the HDMI receiver 40 of the projection device 101.

Further, the standby power supply control unit 11 has functional units of the EDID response unit 11a and the HDCP authentication unit 11b. As a result, the standby power control unit 11 of the projection device 101 not only detects 5V HIGH (S4) in the HDMI negotiation flow (FIG. 4), but also HPD transmission (S10), EDID response (S13), and HDCP authentication (S18). Also run.

When the HDCP authentication (S18) is completed, the standby power supply control unit 11 sets the semiconductor switch 12 to the ON state. As a result, the main CPU 20, the projection unit 30, and the FAN 60 are activated, and the light source of the projection unit 30 is turned on. Then, the main CPU 20 receives the video signal via the HDMI receiver 40. The main CPU 20 sends the received video signal to the projection unit 30 and projects it on a projected object such as a screen.

As described above, according to the projection device 101, the standby power supply control unit 11 negotiates HDMI, and after the negotiation is completed, the semiconductor switch 12 is set to the ON state. In other words, when the video signal cannot be input, the semiconductor switch 12 is in the OFF state, and when the video signal can be input, the semiconductor switch 12 is in the ON state. Therefore, when the portable projection device 101 is carried in a bag, even if it is pressed by an object and the power button is pressed by mistake, DC power is not output unless the connected video output device 200 is driven. It is possible to prevent lighting due to erroneous operation,
Further, the control means prohibits the lighting of the projection light source when the battery power source is connected as the lighting power source of the projection light source. Therefore, when the projection device 101 is connected to a commercial power source as an AC power source as a lighting power source for the projection light source, the light source is immediately turned on when the power button is pressed by a user operation. Therefore, the user can use the projection device 101 without any discomfort.

(Modification example)
The present invention is not limited to the above-described embodiment, and various modifications such as the following are possible.
(1) Although HDMI is used for the projection device 100 of the above embodiment, DP (Display Port) or VGA (Video Graphics Array) can also be used. FIG. 6 shows the pin assignment of the DP connector, and FIG. 7 shows the pin assignment of the VGA connector. However, VGA conforms to the VESA (Video Electronics Standards Association) standard, and pin 9 is "DDC + 5 volt load".

[Additional Notes]
<Claim 1>
A projection device configured to be able to connect a commercial power supply as an AC power supply and a battery power supply as a DC power supply as a power supply for lighting a projection light source.
A connector for connecting an external device and
When the battery power supply is connected and a user operation for the operation button for turning on the projection light source is accepted, whether or not the voltage of the power supply pin of the connector is equal to or higher than a predetermined threshold value, or a video signal from the connector. Judgment means for determining whether or not is input, and
When the voltage determined by the determination means is equal to or higher than the predetermined threshold value, or when the video signal is input, the projection light source is started to light, and the voltage determined by the determination means is the voltage. A control means for prohibiting the lighting of the projection light source when the threshold value is less than a predetermined threshold value or when the video signal is not input.
A projection device characterized by comprising.
<Claim 2>
The external device is a video output device and
The first switch (semiconductor switch) that supplies the DC power of the battery power supply to the projection unit,
With
The control means is connected to the battery power supply, short-circuits the first switch at a timing indicating a state change of the second switch (mechanical switch), and does not detect the voltage of the power supply pin of the connector. The projection device according to claim 1, wherein a short circuit of the first switch is permitted when the short circuit of the switch is prohibited and the voltage of the power supply pin of the connector is detected.
<Claim 3>
The connector is an HDMI® connector or DP connector.
A second control unit is further provided on the output side of the first switch.
The projection device according to claim 2, wherein the determination means determines a connection with the video output device via the connector.
<Claim 4>
The projection according to any one of claims 1 to 3, wherein the control means controls the projection light source after the determination means determines that the connection with the external device is completed. Device.
<Claim 5>
The external device is a video output device and
The first switch that supplies the DC power of the battery power supply to the projection unit,
With
The control means is connected to the battery power supply, short-circuits the first switch at the timing when the second switch is short-circuited, and prohibits the short-circuiting of the first switch when a video signal cannot be input from the connector. The projection device according to claim 2, wherein a short circuit of the first switch is permitted when a video signal is input from the connector.
<Claim 6>
A connector for connecting an external control device and
The first switch that supplies the DC power of the battery power supply to the drive circuit,
A power supply device including a control means that is connected to the battery power source and prohibits the supply of the DC power when the voltage of the power supply pin of the connector cannot be detected.
<Claim 7>
It is a power supply control method executed by a control unit connected to a battery power supply of a power supply device including a connector for connecting an external control device and a power supply circuit for supplying DC power to a drive circuit.
A power supply control method comprising prohibiting the supply of the DC power when the voltage of the power supply pin of the connector cannot be detected.
<Claim 8>
A power supply control program executed by a control unit connected to a battery power supply of a power supply device including a connector for connecting an external control device and a power supply circuit for supplying DC power to a drive circuit.
A power supply control program comprising prohibiting the supply of the DC power when the voltage of the power supply of the connector cannot be detected.

10 Power supply device 11 Standby power supply control unit (control means, determination means)
12 Semiconductor switch (1st switch)
13 Mechanical switch (mechanical switch)
20 Main CPU (control means)
30 Projector 40 HDMI receiver 50 Connector 100, 101 Projector 150 HDMI cable 200 Video output device (external device)

Claims (8)

A projection device configured to be able to connect a commercial power supply as an AC power supply and a battery power supply as a DC power supply as a power supply for lighting a projection light source.
A connector for connecting an external device and
When the battery power supply is connected and a user operation for the operation button for turning on the projection light source is accepted, whether or not the voltage of the power supply pin of the connector is equal to or higher than a predetermined threshold value, or a video signal from the connector. Judgment means for determining whether or not is input, and
When the voltage determined by the determination means is equal to or higher than the predetermined threshold value, or when the video signal is input, the projection light source is started to light, and the voltage determined by the determination means is the voltage. A control means for prohibiting the lighting of the projection light source when the threshold value is less than a predetermined threshold value or when the video signal is not input.
A projection device characterized by comprising. The external device is a video output device and
The first switch that supplies the DC power of the battery power supply to the projection unit,
With
The control means is connected to the battery power supply, short-circuits the first switch at a timing indicating a state change of the second switch, and short-circuits the first switch when the voltage of the power supply pin of the connector is not detected. The projection device according to claim 1, wherein a short circuit of the first switch is permitted when the voltage of the power supply pin of the connector is detected. The connector is an HDMI® connector or DP connector.
A second control unit is further provided on the output side of the first switch.
The projection device according to claim 2, wherein the determination means determines a connection with the video output device via the connector. The projection according to any one of claims 1 to 3, wherein the control means controls the projection light source after the determination means determines that the connection with the external device is completed. Device. The external device is a video output device and
The first switch that supplies the DC power of the battery power supply to the projection unit,
With
The control means is connected to the battery power supply, short-circuits the first switch at the timing when the second switch is short-circuited, and prohibits the short-circuiting of the first switch when a video signal cannot be input from the connector. The projection device according to claim 2, wherein a short circuit of the first switch is permitted when a video signal is input from the connector. A connector for connecting an external control device and
The first switch that supplies the DC power of the battery power supply to the drive circuit,
A power supply device including a control means that is connected to the battery power source and prohibits the supply of the DC power when the voltage of the power supply pin of the connector cannot be detected. It is a power supply control method executed by a control unit connected to a battery power supply of a power supply device including a connector for connecting an external control device and a power supply circuit for supplying DC power to a drive circuit.
A power supply control method comprising prohibiting the supply of the DC power when the voltage of the power supply pin of the connector cannot be detected. A power supply control program executed by a control unit connected to a battery power supply of a power supply device including a connector for connecting an external control device and a power supply circuit for supplying DC power to a drive circuit.
A power supply control program comprising prohibiting the supply of the DC power when the voltage of the power supply of the connector cannot be detected.

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