JP2021144084A - Controller - Google Patents

Abstract

To provide a controller that can respond properly when a touch panel display hangs up, without complicating the structure of the controller.SOLUTION: The controller includes: a power source voltage supply unit 42 for supplying a power source voltage to a touch panel display 20; an operation reception unit 44 for receiving a user operation of ordering stop of supply of a power source voltage; and a control unit 46 for controlling the power source voltage supply unit 42 and stopping supply of a power source voltage to the touch panel display 20 when the user operation is received.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to a control device.

Conventionally, for example, a touch panel display has been used as an HMI (Human Machine Interface) for a navigation device mounted on a vehicle. The touch panel display can be switched on or input data by touching the screen (display) on which pictures and characters are displayed with a finger or a pen.

The touch panel display does not separate the displayed part and the operating part like a personal computer and a mouse, and can be operated directly as if the cursor or menu is indicated by a finger, so the operator needs to get used to the machine. There is a merit that there is not much.

As a technology related to the display (display), a display operation control circuit has been proposed in which the control unit itself can perform a failure diagnosis of the display when a drive current for lighting the display is applied. (See, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 5-224619

By the way, many conventional touch panel displays do not have a failure diagnosis function. Therefore, due to the hang-up of the touch panel display, the display may not be updated, or the touch panel may not accept (detect) the touch. In this case, the user can recognize that the display content is not updated or that the touch is not accepted, that is, the touch panel display failure cannot be recognized, or that the touch panel display is broken by tentatively looking at the operation of the touch panel display. However, there was a problem that there was no way to do it. Further, even the control device that controls the touch panel display cannot detect the failure of the touch panel display, and there is a problem that the control of the touch panel display is stopped halfway.

It is conceivable to give the control device a failure diagnosis function of the touch panel display by referring to the technique described in Patent Document 1, but in this case, there is another problem that the configuration of the control device becomes complicated. rice field.

An object of the present disclosure is to provide a control device capable of taking an appropriate response when a touch panel display hangs without complicating the configuration of the control device.

The control device according to one aspect of the present disclosure is
A power supply voltage supply unit that supplies power supply voltage to the touch panel display,
An operation reception unit that accepts user operations instructing to stop supplying the power supply voltage,
When the user operation is accepted, the control unit that controls the power supply voltage supply unit and stops the supply of the power supply voltage to the touch panel display.
To be equipped.

According to the present disclosure, it is possible to take appropriate measures when the touch panel display hangs without complicating the configuration of the control device.

It is a block diagram which shows an example of the structure of the vehicle including the control device in this embodiment. It is a flowchart which shows the operation example of the control device in this embodiment.

Hereinafter, one embodiment of the present disclosure will be described in detail with reference to the drawings.

First, the configuration of the vehicle including the control device according to the embodiment of the present disclosure will be described. FIG. 1 is a block diagram showing an example of a vehicle configuration including a control device according to the present embodiment.

The vehicle 10 shown in FIG. 1 is, for example, a large vehicle such as a truck equipped with an in-line 6-cylinder diesel engine. As shown in FIG. 1, the vehicle 10 includes a touch panel display 20, an operation unit 30, and a control device 40. The operation unit 30 and the control device 40 function as the "control device" of the present disclosure.

The touch panel display 20 is, for example, a GUI (Graphical User Interface) that combines a color liquid crystal display and a touch panel. The touch panel display 20 displays a screen on a liquid crystal display, and the touch panel detects when a button or icon displayed on the screen is pressed. The touch panel display 20 is used as a display and input means for a navigation device (not shown) mounted on the vehicle 10.

The operation unit 30 is a self-recovering type operation switch provided at a position on the touch panel display 20 that can be operated by the user, and can be operated by the user to instruct the touch panel display 20 to stop supplying the power supply voltage.

In the present embodiment, the operation unit 30 is turned on when not operated by the user, and the power supply voltage output from the control device 40 is supplied to the touch panel display 20.

On the other hand, the operation unit 30 is turned off when operated by the user, and the power supply voltage output from the control device 40 is not supplied to the touch panel display 20. When the touch panel display 20 hangs (for example, the display is not updated or the touch panel does not detect touch), the user recognizes the fact that the touch panel display 20 is out of order by observing the operation of the touch panel display. , Operate the operation unit 30 to turn it off.

The control device 40 controls various operations of the touch panel display 20. As shown in FIG. 1, the control device 40 includes a power supply voltage supply unit 42, an operation reception unit 44, and a control unit 46.

The power supply voltage supply unit 42 is connected to the vehicle-mounted battery mounted on the vehicle 10 via, for example, a connection terminal (not shown), and receives voltage supply from the vehicle-mounted battery. Then, the power supply voltage supply unit 42 outputs the power supply voltage required for the operation of the touch panel display 20 toward the touch panel display 20 in response to the power supply control signal output from the control unit 46.

The operation reception unit 44 accepts the user operation by detecting the user operation on the operation unit 30. In the present embodiment, as shown in FIG. 1B, the operation unit 30 is connected (that is, pulled up) to the power supply potential via the pull-up resistor 44a between the touch panel display 20 and the control device 40 to operate. The conduction / non-conduction of the current flowing from the power supply potential to the pull-up resistor 44a is switched between the on state and the off state of the unit 30 (operation switch). The operation reception unit 44 detects the on / off state of the operation switch by acquiring the amount of current flowing through the pull-up resistor 44a generated by switching the conduction / non-conduction of the current flowing from the power supply potential to the pull-up resistor 44a. be able to.

Specifically, when the amount of current flowing through the pull-up resistor 44a is high (High), the operation receiving unit 44 detects the off state of the operation unit 30 (operation switch) and thus the user operation on the operation unit 30. On the other hand, when the amount of current flowing through the pull-up resistor 44a is low (Low), the operation reception unit 44 does not detect the on state of the operation unit 30 (operation switch) and thus the user operation on the operation unit 30.

The control unit 46 controls the power supply voltage supply unit 42 so as to output (supply) the power supply voltage to the touch panel display 20. When the user operation on the operation unit 30 is received by the operation reception unit 44, the control unit 46 controls the power supply voltage supply unit 42 and stops the supply of the power supply voltage to the touch panel display 20.

The control unit 46 includes, for example, a CPU (Central Processing Unit), a storage medium such as a ROM (Read Only Memory) in which a control program is stored, a working memory such as a RAM (Random Access Memory), and a communication circuit.

Next, an operation example of the control device 40 according to the present embodiment will be described with reference to the flowchart of FIG. The process of FIG. 2 is executed after the key-on operation for the vehicle 10 is performed. In the key-on operation, when the user (driver of the vehicle 10) starts driving the vehicle 10, the key (so-called starter key) is inserted into the key insertion portion of the vehicle 10 until the key is turned on. It is an operation to rotate.

First, the control unit 46 controls the power supply voltage supply unit 42 so as to start supplying the power supply voltage to the touch panel display 20 (step S100).

Next, the control unit 46 determines whether or not the user operation on the operation unit 30 has been accepted by the operation reception unit 44 (step S120). As a result of the determination, if the user operation for the operation unit 30 is not accepted (step S120, NO), the process returns to the previous step S120.

On the other hand, when the user operation on the operation unit 30 is accepted (step S120, YES), the control unit 46 controls the power supply voltage supply unit 42 so as to stop the supply of the power supply voltage to the touch panel display 20 (step). S140). As a result, even if the operation unit 30 automatically returns to the on state that is not operated by the user, the touch panel display is executed until the process of FIG. 2 is executed from the beginning again, that is, the next key-on operation for the vehicle 10 is performed. The power supply voltage is not supplied to 20. After that, the control device 40 ends the process shown in FIG.

As described in detail above, in the present embodiment, the control device 40 receives the power supply voltage supply unit 42 that supplies the power supply voltage to the touch panel display 20 and the operation reception that receives the user operation instructing the supply stop of the power supply voltage. The unit 44 includes a control unit 46 that controls the power supply voltage supply unit 42 and stops the supply of the power supply voltage to the touch panel display 20 when the user operation is accepted.

According to the present embodiment configured in this way, when the touch panel display 20 hangs up, the user sees the operation of the touch panel display 20 and recognizes the fact that the touch panel display 20 is out of order, and the operation unit. By operating 30, the control device 40 can detect that the touch panel display 20 has failed (at least that the supply of the power supply voltage to the touch panel display 20 has been instructed to be stopped). As a result, even if the user can recognize the fact that the touch panel display 20 is out of order, it is possible to prevent the user from having no choice but to prevent the control of the touch panel display 20 from being stopped halfway. Further, it is not necessary for the control device 40 to have a failure diagnosis function of the touch panel display 20, and it is possible to prevent the configuration of the control device 40 from becoming complicated. From the above, it is possible to take appropriate measures when the touch panel display 20 hangs up without complicating the configuration of the control device 40.

Further, in the present embodiment, when the user operation instructing to stop the supply of the power supply voltage is received, the control unit 46 supplies the power supply voltage to the touch panel display 20 until the next key-on operation for the vehicle 10 is performed. Stop it. As a result, the degree of failure of the touch panel display 20 is large, and resupplying the power supply voltage to the touch panel display 20 (restarting the power supply) is not sufficient, and the touch panel display 20 hangs unless the entire vehicle 10 is reset. If it is assumed that the problem will not be solved, it is possible to prevent the power supply voltage from being unnecessarily supplied to the touch panel display 20.

In the above embodiment, when the user operation instructing to stop the supply of the power supply voltage is received, the control unit 46 stops the supply of the power supply voltage to the touch panel display 20 and resets the control device 40. Later, the supply of the power supply voltage to the touch panel display 20 may be started. As a result, when the degree of failure of the touch panel display 20 is small and it is assumed that the hang-up of the touch panel display 20 is resolved by the reset process of the control device 40 and the resupply of the power supply voltage to the touch panel display 20, the touch panel display is promptly displayed. 20 hangs can be eliminated.

Further, in the above embodiment, the operation unit 30 may be provided with a cover (cover) from the viewpoint of preventing the operation unit 30 from being unnecessarily operated by the user.

In addition, all of the above embodiments are merely examples of embodiment of the present disclosure, and the technical scope of the present disclosure should not be construed in a limited manner by these. That is, the present disclosure can be implemented in various forms without departing from its gist or its main features.

The present disclosure is useful as a control device capable of taking an appropriate response when the touch panel display hangs without complicating the configuration of the control device.

10 Vehicle 20 Touch panel display 30 Operation unit 40 Control device 42 Power supply voltage supply unit 44 Operation reception unit 44a Pull-up resistor 46 Control unit

Claims (4)

A power supply voltage supply unit that supplies power supply voltage to the touch panel display,
An operation reception unit that accepts user operations instructing to stop supplying the power supply voltage,
When the user operation is accepted, the control unit that controls the power supply voltage supply unit and stops the supply of the power supply voltage to the touch panel display.
A control device comprising. The touch panel display and the control device are provided in the vehicle.
The control unit stops the supply of the power supply voltage to the touch panel display until the next key-on operation for the vehicle is performed.
The control device according to claim 1. The control unit stops the supply of the power supply voltage to the touch panel display, resets the control device, and then starts supplying the power supply voltage to the touch panel display.
The control device according to claim 1. The user operation is performed on the automatic return type operation unit.
The control device according to any one of claims 1 to 3.

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