JP7256976B2 - vehicle display - Google Patents

Description

The present invention relates to a vehicle display device.

Conventionally, a flash memory that stores vehicle control information has been known, for example, as described in Patent Document 1.

JP 2011-128751 A

In this flash memory, there are, for example, MLC (Multi Level Cell), which stores 2-bit data in one cell, and SLC (Single Level Cell), which stores 1-bit data in one cell, as storage methods. . Although MLC can have a larger memory capacity than SLC, it is difficult to retain data for a long period of time. On the other hand, in SLC, data can be retained for a longer period of time than in MLC, but it is difficult to increase the storage capacity.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a vehicular display device capable of holding data for a long period of time while suppressing reduction in storage capacity.

In order to achieve the above object, a vehicle display device according to the present invention includes a display section for displaying an image related to vehicle information, a control section for displaying an image on the display section based on image data, the image data and the non-volatile having a first partition in which an operation program of the control unit is stored as pSLC and a second partition in which update data for updating the image data stored in the first partition is temporarily stored as MLC and a storage element.

According to the present invention, data can be retained for a long period of time while suppressing reduction in storage capacity.

1 is a block diagram of a vehicle display device according to an embodiment of the present invention; FIG. 1 is a block diagram of a flash memory according to an embodiment of the invention; FIG. 1 is a block diagram of a flash memory according to an embodiment of the invention; FIG. 4 is a flowchart of update processing according to an embodiment of the present invention;

An embodiment of a vehicle display device according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the vehicle display device 1 includes a control unit 10, a display 30 corresponding to a display unit, and a flash memory 20 corresponding to a nonvolatile memory element. The vehicle display device 1 is a vehicle instrument that displays vehicle information such as vehicle speed.

The display 30 is, for example, a TFT (Thin Film Transistor) liquid crystal display. The display 30 displays an image showing vehicle information under the control of the control unit 10 .

The flash memory 20 corresponds to a non-volatile storage element, and is composed of eMMC (Embedded Multi Media Card) NAND Flash ROM, for example.
As shown in FIGS. 2 and 3, the storage area of flash memory 20 is divided into first partition 21 and second partition 22 .
The second partition 22 temporarily stores update data to be transferred to the first partition 21 in the future, for example, customization image data D2. The second partition 22 stores data as MLC. In the MLC, the control unit 10 determines the data value by comparing the voltage value of each cell of the flash memory 20 and three threshold values, depending on which of four states it is. That is, in MLC, one cell can contain 2-bit data.

The first partition 21 stores image data D<b>1 used when displaying an image on the display 30 , an operation program of the control unit 10 , and the like. The first partition 21 stores data as pSLC (Pseudo Single Level Cell). pSLC is a method of storing data in the MLC flash memory 20 in a pseudo manner like SLC. In pSLC, the control unit 10 determines the value of data based on which of two states the cell is in by comparing the voltage value of each cell of the flash memory 20 with one threshold. That is, in pSLC, one cell can contain 1-bit data.

The first partition 21 of pSLC can hold data for a longer period of time than the second partition 22 of MLC, but has a smaller storage capacity. For example, when the total storage capacity of the flash memory 20 is 8 GB, even if a storage capacity of 4 GB is allocated to each partition, only 2 GB of data can be stored in the first partition 21 of pSLC. Therefore, the first partition 21 of pSLC is suitable for long-term data storage, and the second partition 22 of MLC is suitable for temporary data storage.

The control unit 10 includes a CPU (Central Processing Unit), a GDC (Graphic Display Controller), and the like, and controls the vehicle display device 1 as a whole.

As shown in FIG. 1, the control unit 10 has a download processing unit 11 and a movement processing unit 12 as functions. The download processing unit 11 downloads the customization image data D<b>2 as update data to the second partition 22 . The movement processing unit 12 moves the downloaded customization image data D2 from the second partition 22 to the first partition 21 when the ignition of the vehicle is off.

Here, in the flash memory 20, the voltage of each cell decreases due to the lengthening of the non-energization period to the display device 1 for vehicle. Data may volatilize when the voltage of each cell drops across the threshold. The control unit 10 refreshes the flash memory 20 in order to suppress volatilization of data. Refresh is a process of periodically reading data from the flash memory 20 and writing the read data back into the flash memory 20 . For example, the control unit 10 increases the frequency of refreshing the first partition 21 more than the frequency of refreshing the second partition 22 . Thereby, the data stored in the first partition 21 can be retained for a long period of time.

Next, the updating process executed by the control unit 10 will be described with reference to the flowchart of FIG. This updating process is a process for updating the image data D1 to the customizing image data D2. The customizing image data D2 indicates vehicle information by, for example, characters, figures, or symbols different from those of the image data D1. This updating process is executed at the dealer, for example, upon request from the user. In this update process, an external PC (personal computer) 60 shown in FIG. 2 in which the customization image data D2 is stored is wired or wirelessly connected to the vehicle display device 1, and an update request is transmitted from the external PC 60 to the control unit 10. is started when

First, as shown in FIG. 2, the download processing unit 11 downloads the customization image data D2 from the external PC 60 to the second partition 22 (step S101). If writing of the customizing image data D2 to the second partition 22 fails during download, the download processing unit 11 erases the failed data and starts downloading again.

Next, when the download of the customizing image data D2 is completed, the movement processing unit 12 waits until the ignition of the vehicle is turned off (step S102; NO). When the movement processing unit 12 determines that the ignition of the vehicle has been turned off (step S102; YES), as shown in FIG. Move (step S103). Specifically, the move processing unit 12 copies the customization image data D2 stored in the second partition 22 to the first partition 21, and after the copy is completed, copies the customization image data D2 of the second partition 22 to delete.
With the above, the update processing ends.

After completing the update process, the control unit 10 causes the display 30 to display an image while using the customization image data D2 of the first partition 21 as the image data D1. Accordingly, it is possible to cause the display 30 to display an image related to the vehicle information that matches the user's preference.

(effect)
According to the embodiment described above, the following effects are obtained.

(1) The vehicle display device 1 includes a display 30 which is an example of a display unit that displays an image related to vehicle information, a control unit 10 that displays an image on the display 30 based on the image data D1, and the image data D1 is pSLC. and a second partition 22 in which customizing image data D2, which is update data for updating image data D1, is temporarily stored as MLC. and a flash memory 20 .
According to this configuration, the image data D1 is stored in the first partition 21 as pSLC. The image data D1 is important data required for displaying an image related to vehicle information on the display 30, and pSLC is the most suitable storage method because it can be stored for a long period of time.
In addition, the customization image data D2 is stored in the second partition 22 as MLC. Since the customizing image data D2 is temporarily stored in order to update the image data D1, it does not need to be held for a long period of time. Therefore, the MLC, which can reduce the storage capacity, is the most suitable storage method for the customizing image data D2.
As described above, by using different storage methods for the first partition 21 and the second partition 22, it is possible to hold the image data D1 for a long period of time while suppressing a decrease in storage capacity due to update data. can.

(2) The control unit 10 downloads the customization image data D2 to the second partition 22 as update data, and downloads the downloaded customization image data D2 to the second partition 22 when the ignition of the vehicle is off. and a move processing unit 12 for moving from the partition 22 to the first partition 21 .
Unlike the above configuration, in the comparative example in which the customization image data D2 is directly downloaded to the first partition 21, the image data D1 of the first partition 21 cannot be used during the download, and the image is displayed on the display 30. can't On the other hand, according to the above configuration, even when the customizing image data D2 is downloaded to the second partition 22, the image data D1 of the first partition 21 can be used, so the image can be displayed on the display 30. can.
According to the above configuration, an image cannot be displayed on the display 30 during the moving time for moving the customizing image data D<b>2 to the first partition 21 . However, this travel time is shorter than the time required to download the customizing image data D2. Therefore, according to the above configuration, the period during which an image cannot be displayed on the display 30 can be shortened.
In particular, when the vehicle display device 1 is a vehicle instrument, the vehicle cannot run during a period in which an image cannot be displayed on the display 30, so it is effective to shorten the period in which an image cannot be displayed on the display 30. is.
In addition, when the customization image data D2 is downloaded to the second partition 22, if writing fails due to fluctuations in the power supply voltage, etc., the customization image data D2 for which writing failed is erased and the customization image data D2 is written again. be At this time, the number of P/E (Program/Erase) cycles in the second partition 22 increases, but the number of P/E cycles in the first partition 21 does not increase. Therefore, the P/E cycle of the first partition 21 can be reduced, so that the data stored in the first partition 21 can be retained for a long period of time.

(3) The flash memory 20 is a NAND flash memory. According to this configuration, while using a relatively inexpensive NAND flash memory, the short data retention period, which is a weak point of the NAND flash memory, is saved as pSLC in the first partition 21. This can be supplemented by

(Modification)
In addition, the above-described embodiment can be implemented in the following forms, which are appropriately modified.

In the above embodiment, when the movement processing unit 12 determines that the ignition of the vehicle has been turned off (step S102; YES), it may display a confirmation image on the display 30 for confirming whether or not to execute the update. . This confirmation image may include a message such as "The vehicle information cannot be displayed for a maximum of XX minutes until the work is completed. Do you want to update?" The movement processing unit 12 executes the process of step S103 when an operation for updating is performed by, for example, the steering switch in the confirmation image.

In the above embodiment, the flash memory 20, which is a nonvolatile memory element, was eMMC NAND Flash ROM, for example, but the nonvolatile memory element is not limited to this, and may be NOR Flash Memory or RAW NAND Flash. .

In the above-described embodiment, the vehicle display device 1 includes the TFT liquid crystal type display 30 as the display element, but is not limited to this, and may include an organic EL (Electro-Luminescence) display as the display element. .

In the above embodiment, the vehicle display device 1 is a vehicle instrument, but it may be a head-up display device. In this case, the display 30 is a display element that emits display light, and the display light is projected onto the windshield or a combiner to display a virtual image. Further, the vehicle display device 1 may be a display device of a navigation system.

In the above embodiment, the MLC stores 2-bit data in one cell, but the present invention is not limited to this, and 2-bit or more data may be stored in one cell.

1 vehicle display device 10 control unit 11 download processing unit 12 movement processing unit 20 flash memory 21 first partition 22 second partition 30 display D1 image data D2 customization image data

Claims (3)

a display unit that displays an image related to vehicle information;
a control unit for displaying an image on the display unit based on image data;
A first partition in which the image data and the operating program of the control unit are stored as pSLC, and a second partition in which update data for updating the image data stored in the first partition is temporarily stored as MLC. a non-volatile storage element having a partition;
Vehicle display. The control unit
a download processing unit that downloads the update data to the second partition;
A movement processing unit that confirms with a user whether or not to execute an update, and moves the downloaded update data from the second partition to the first partition when the user performs an operation for executing the update. and
The vehicle display device according to claim 1 . The MLC stores two or more bits of data in one cell.
The vehicle display device according to claim 1 or 2.

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