JP2002150251A - Electronic device and external device using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the power consumption without increasing load in processing an external device. SOLUTION: This external device 100 is provided with a media controller 12 to be connected to a system bus 11 and the media controller 12 is provided with, for example, a camera control protocol circuit 13, a GPS(Global Positioning System) control protocol circuit, and an interface 15 to be connected to an electronic device. The electronic device 200 is provided with, for example, a GPS functional block 21, a camera photographing functional block 22, and a memory functional block. The functional blocks 21-23 are connected to the interface 24 via a register 300 and exchange data with the external device 100. The respective functional blocks 21 and 22 are provided with power control parts 21a and 22a respectively and the power supply control signal from the system control circuit 25 is fed to the power control parts 21a and 22a.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic device suitable for use as a device which is detachably provided to an external device and performs an arbitrary function, and an external device using the same. More specifically, the present invention relates to, for example, an electronic device that has a shape equivalent to a memory card device or a semiconductor memory device similar thereto and is connected to a connection portion of these devices to execute an arbitrary function, and an external device that uses the electronic device. It is.

[0002]

2. Description of the Related Art For example, a memory card device removably provided to an external device or a semiconductor memory device similar to the memory card device has the same shape as that of a memory card device, and is connected to a connection portion of the external device such as a memory device. Electronic devices that perform arbitrary functions have been proposed. That is, in such electronic devices, for example, by having a function of connecting to a computer network and a function of communicating with the outside,
The operation and use of the external device can be easily expanded.

[0003]

However, when such an electronic device is used by connecting it to an external device, the current consumption of the external device is inevitably increased. Is consumed in a short time, and it is difficult to use the battery for a long time. In particular, such an increase in current consumption is remarkable when an electronic device has a plurality of functions. For this reason, conventionally, a method has been adopted in which an electronic device has only one function. However, work such as replacing the electronic device for each function becomes complicated.

On the other hand, an electronic device is provided with a plurality of functions, and means for controlling the supply of power to these functions from an external device is provided so that power is supplied only to necessary functions. It is also considered to perform an appropriate control. However, such a method requires a complicated procedure for control on the external device side, such as controlling power supply every time a function is selected from the external device side, and increases the processing load on the external device side. It cannot be easily implemented.

[0005] The present application has been made in view of such a point, and the problem to be solved is that in the conventional apparatus, an electronic device having a plurality of functions is mounted on an external device for use. In this case, the built-in battery is consumed in a short time due to an increase in current consumption due to a plurality of functions, and it becomes difficult to use the battery for a long time. Further, if the external device attempts to control the power supply every time the function is selected, the processing load on the external device increases, which is not easy to implement.

[0006]

Therefore, in the present invention, when a functional block is not used, means for reducing the current consumption of the block is provided on the electronic device side. With a simple configuration, the current consumption in electronic devices can be minimized, the increase in current consumption can be suppressed, the use time of the built-in battery can be extended, and the processing load on external devices also increases. You can do it.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention is provided so as to be detachable from an external device, exchanges arbitrary data with the external device, and executes an arbitrary function. An electronic device, comprising: a plurality of functional blocks;
It has a setting register for setting each of a plurality of function blocks, and when power is turned on and when the function block is not used, a means for reducing current consumption of the function block is provided, and a setting register corresponding to the function block to be used is set. The function is executed according to the following.

According to another embodiment of the present invention, an electronic device is provided that is detachably provided, exchanges arbitrary data with the electronic device, and executes an arbitrary function of the electronic device. Means for writing information on the use / non-use to a function register common to a plurality of function blocks provided in the electronic apparatus, and setting corresponding to the function block determined to be used by writing to the function register. Means for writing setting information of an arbitrary function to the register.

FIG. 1 is a block diagram of an electronic apparatus according to one embodiment of the present invention, and FIG. 1 is a block diagram of an external apparatus using the electronic apparatus according to another embodiment of the present invention. FIG.

In FIG. 1, the left side of the figure shows the main part of an external device 100 such as a personal computer as an external device using an electronic device. This external device 1
00, a media controller 12 connected to the system bus 11 is provided.
2 includes a camera control protocol circuit 13 and G
A PS control protocol circuit 14 and an interface 15 connected to an electronic device are provided.

On the other hand, an electronic device 200 is shown on the right side of the drawing. The electronic device 200 has a shape equivalent to a so-called memory card device or a similar semiconductor memory device as shown in FIG. 2, for example. The electronic device 200 is removably attached to the memory card slot of the external device 100, and is connected to the interface 15 of the media controller 12 of the external device 100 through a contact group 201 formed at the end. They are electrically connected.

The electronic device 200 has a plurality of functions. In this embodiment, for example, G
PS (Global Positioning Sys)
tem: satellite positioning system) A function block 21, for example, a function block 22 for camera photographing as a function B, and a memory function block 23 are provided. These functional blocks 21 to 23 are connected to the interface 24 connected to the above-mentioned contact group 201 via the register 300, and thereby data is exchanged with the external device 100.

Further, each of the functional blocks 21 and 22 is provided with a power control unit 21a and 22a, respectively. Then, a power control signal from the system control circuit 25 connected to the register 300 is supplied to these power control units 21a and 22a. Thus, the electronic device 200 is connected to the external device 1.
00, the media controller 12 of the external device 100 and the electronic device 2
Power is supplied to the register 300 and data is exchanged through the data buffer 26.

The external device 100 and the electronic device 20
In the system of FIG.
A register 300 as shown in FIG. This register 300 stores, for example, "00" to "FF"("-"
(Indicating a hexadecimal value), and each address is provided with a read register and a write register of 2 bytes each. Here, information inside the electronic device 200 is read into the read register, and information from the external device 100 is written into the write register.

The register 300 includes a function setting register, a register for a memory function, a register for a camera function, and a register for a GPS function.
Addresses “00” to “0F” of 00 are assigned to the function setting register, addresses “10” to “1F” are assigned to the memory function register, and addresses “20” to “0F” are assigned.
“2F” is assigned to the GPS function register, and addresses “30” to “3F” are assigned to the camera function register. However, the present invention is not limited to this. For example, a function setting register, a memory function register, a camera function register, and a GPS function register are configured separately, and access is switched by a system control unit. It can be done.

Further, the read register and the write register at the address “06” are registers of category numbers indicating functions executed inside the electronic device 200. The read register at the address "07" is a class number register. The write register at the address “07” is not used. Further, the read register at the address “08” is a current request register, and the write register is a function enable register.

The read registers at addresses "09" and "0A" are registers having the length of attribute information. The attribute information is stored in the attribute ROM 27 of the electronic device 200, and if the electronic device has a writable memory function, the attribute information is read from the attribute ROM 27 at the time of shipment from the factory and stored in the memory function. For this reason, in normal communication other than that at the time of factory shipment, the attribute information stored in the memory function is read, and access to the attribute ROM 27 is prohibited. However, if the electronic device does not have a memory function, the attribute ROM 2 can be accessed even with normal access.
The attribute information stored in 7 will be read by the host.

The write register at address "10" is a register for system parameters, and the write registers at addresses "11" to "13" are registers for block addresses. Further, the write register at the address "14" is used as a command parameter register. The read registers at addresses "10" to "14" are not used. The read register and write register at address "15" are used as page address registers.

The read register and the write register at the address "16" are registers for block flag data. Further, the read register and the write register at the address "17" are used as registers for block information. Further, the read register and the write register of the addresses “18” and “19” are registers of logical addresses. Further, the formats of the addresses "1A" to "1F" are being determined. The above addresses "10" to "1F"
Is used to set the memory function.

Addresses "20" to "2F" are G
A PS function register is assigned. The GPS function block includes a GPS antenna for receiving position information and a GPS function controller. GPS controller is UA
It has an RT, a FIFO, a power control unit, and the like.

The read register at address "24" is a register indicating the amount of data remaining in a receiving first-in first-out memory (FIFO) for buffering a difference in data transmission speed. This register indicates the amount of free buffer in the first-in first-out memory. Further, the write register of the address “24” is a register of the data length received from the external device 100, and the write register of the address “25” is a register of the data length transmitted to the external device 100.

The write register at address "26" is a register for generating an interrupt when the amount of data stored in the receiving first-in first-out memory reaches a specified number of bytes, and the writing register at address "27" is first-in, first-out on the transmitting side. This register is used to generate an interrupt when the amount of data stored in the memory falls below a set value. In each case, the value “0” is invalid. Address “2”
The 6 "and" 27 "read registers are not used.

The read registers at the addresses "28" and "29" are registers indicating the clock value of the UART. Note that the write registers at addresses “28” and “29” are not used. Further, the read register and the write register of the address “2A” are stored in the electronic device 2 respectively.
It is a register for controlling / monitoring a general-purpose digital I / O terminal provided at 00. In addition, addresses "2B" to "2
For example, the GPS function is set at the addresses "20" to "2F".

Further, a camera function register is assigned to addresses "30" to "3F". The camera function block includes an imaging unit including a lens, a CCD, and the like that receives light from a subject, and a camera function controller. The camera function controller has a power control unit, an image signal processing unit, and the like.

The camera function controller, the GPU function controller, and the memory function controller each have a power control function, and are controlled by a power control section of a system control circuit. When the functions are not used,
Power consumption is reduced by entering sleep mode (clock stop state of the controller).

Further, at addresses "40" to "FF",
Arbitrary functions are set. These functions include an optional information device and a specific range network (LA).
N), an optional modem device, a communication device (Bluetooth) commonly defined by manufacturers in Japan, the United States and Europe, and an optional serial communication function.

For example, when the function executed by the electronic device 200 is switched by the external device 100, first, a code (category number) of a desired function is written in the write register at the address "06". Accordingly, by reading the function code (category number) written in the write register at the address “06” into the system control circuit 25 of the electronic device 200, the function requested by the external device 100 is performed.
00 is determined.

Further, the determined function is the electronic device 20
For example, a control signal for driving the function block 21 or the function block 22 is formed in the system control circuit 25 so as to be executed at 0. The control signal generated by the system control circuit 25 is supplied to the power supply control units 21a and 21a of the functional block 21 or the functional block 22, respectively.
The function requested by the external device 100 is executed by the electronic device 200 by being supplied to the external device 2a.

The code (category number) of the function executed by the electronic device 200 is the address "0".
6 ”and the class number such as the version attached to the function executed by the electronic device 200 is read out to the read register at the address“ 07. ”The category number and the class number are read from the external device 100. The function executed by the electronic device 200 is recognized, and the external device 100
Then, a driver or the like corresponding thereto is driven.

In this way, for example, by writing a code (category number) of a desired function from the external device 100 to the write register at the address “06”, the function executed by the electronic device 200 is switched. The code (category number) of the function executed by the electronic device 200 is read out to the read-out register at the address “06”, whereby the electronic device 2
The function executed at 00 is recognized by the external device 100, and the function can be switched smoothly.

That is, for example, when the function written from the external device 100 to the write register at the address “06” is not mounted on the electronic device 200, the code of the function (category number) is stored in the read register at the address “06”. ) Is not read out, it is recognized that the external device 100 does not have the desired function in the electronic device 200. As a result, processing such as releasing the execution of the function by the external device 100 can be smoothly performed.

Therefore, the operation of such a system of the external device 100 and the electronic device 200 is performed, for example, as shown in the flowchart of FIG. That is, in FIG. 4, when the power is turned on in the step [11] of the external device 100, the electronic device 200 is set to the step [21]. In this step [21], only the system control circuit 25 is set to the active state, and the function block 21 of the function A and the function block 22 of the function B are set to the standby state.

On the other hand, when an instruction to use the function A is issued in step [12] of the external device 100, the electronic device 200 is switched to step [22] and the function block 21 is executed.
Is activated and the function A is operated. Also, the external device 100
When the instruction to use the function B is issued in the step [13] of the electronic device 200, the electronic device 200 is shifted to the step [23]. Then, in this step [23], the function block 21 of the function A is put into a standby state, the function block 22 is activated, and the function B is operated.

Further, step [1] on the external device 100 side
When the instruction to use the function A is issued again in [4], the electronic device 200 goes to step [24]. Then, in this step [24], the function block 22 of the function B is put into a standby state, and the function block 21 is activated to operate the function A. In this way, according to the issuance of the instruction using the function A or B on the external device 100 side, the operation of the desired function A or B is performed on the electronic device 200 side, respectively.

In these operations, for example, in the above-mentioned step [21], for example, the function blocks 21, 2
2, the current consumption in the standby state is 10 mA,
Assuming that the current consumption of the controller unit 23 is 30 mA,
The current consumption on the electronic device 200 side is 10 + 10 + 30 = 50 mA.

On the other hand, in steps [22] and [24], for example, assuming that the current consumption in the operation state of the function block 21 is 100 mA, the current consumption on the electronic device 200 side is 100 + 10 + 30 = 140 mA. Further, in step [23], for example, assuming that the current consumption in the operation state of the functional block 22 is 60 mA,
The current consumption of the electronic device 200 is 10 + 60 + 30 = 100 mA.

That is, in the above-described system of the external device 100 and the electronic device 200, the current consumption of the electronic device 200 is 50 mA in step [21], 140 mA in steps [22] and [24], and step [2].
3] is 100 mA. This means that, for example, when both the functional blocks 21 and 22 are in the operating state, the current consumption is smaller than 100 + 60 + 30 = 190 mA.

In this case, the external device 100 can control the power supply of the functional blocks 21 and 22 only by writing data to the register 300 of the electronic device 200. In the electronic device 200, the power supply of the functional blocks 21 and 22 can be controlled by looking at the data in the register 300, and the power supply can be easily controlled with an extremely simple configuration.

The values of these current consumptions are stored in, for example, the read register at the address “08” in the electronic device 200.
Presented as a current request from the side. So external device 1
The 00 side reads the read register at the address “08”, determines whether the required current value is within an allowable range, and sets a flag for enabling the function in the write register at the same address “08”. . Thus, only the functions that can be driven by the electronic device 200 can be executed. The least significant bit of the write register is a power save bit.
Is written to set the power saving mode. By writing 0, the power saving mode is released.

Further, the register 300 stores the external device 100
In the present invention, an address "06", which is a function register, is provided in a part of the register 300, and a setting register of a memory function is provided. This is implemented by providing addresses “10” to “1F” to be set, addresses “20” to “2F” to be a setting register for function A, and addresses “30” to “3F” to be a setting register for function B. Is what you can do.

Therefore, in these embodiments, when a functional block is not used, a means for reducing the current consumption of the block is provided on the electronic device side, so that the current consumption of the electronic device can be minimized with a simple configuration. hand,
It is possible to suppress an increase in current consumption, extend the use time of the built-in battery, and prevent the processing load on the external device from increasing.

Thus, in the conventional apparatus, when an electronic device having a plurality of functions is used by attaching it to an external device, the built-in battery is consumed in a short time due to an increase in current consumption due to the plurality of functions. Makes it difficult to use for a long time. According to the present invention, if the power supply is controlled every time a function is selected from the external device side, the processing load on the external device side is increased and cannot be easily implemented. The problem can be easily solved.

In the above embodiment, the function is selected from two functions A and B. However, the function may be selected from three or more functions. In that case, the number of functions to be selected may be plural. Alternatively, when the use of a function block is limited to only one and is exclusive, the processing of reducing the current consumption of the function blocks other than the selected function is performed, so that the function selected from the external device is reduced. Setting can be facilitated only by specifying.

Further, according to the above-described embodiment, the current flowing between the external device 100 and the electronic device 200 is suppressed, so that the basic performance of the connector and the terminal, etc.
Inexpensive materials such as durability can be used.

Furthermore, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

[0046]

According to the electronic device of the first aspect of the present invention, any data can be exchanged with the external device, and any function can be executed. Electronic equipment having a plurality of functional blocks, and a means for reducing the current consumption of the functional blocks when the power is turned on and when the functional blocks are not used is provided. Limit
It is possible to suppress an increase in current consumption and extend the use time of the built-in battery.

According to the second aspect of the present invention, a function which has a function register common to a plurality of function blocks, and which is not used by writing information on the use / non-use of the function block from an external device to the function register. Provision of a means for reducing the current consumption of the block minimizes the current consumption of the electronic device with a simple configuration, suppresses an increase in the current consumption, and prolongs the use time of the built-in battery. Is what you can do.

According to the third aspect of the present invention, a function register common to a plurality of function blocks is provided, and when the use of the plurality of function blocks is exclusive, the presence or absence of use of the function blocks by an external device is determined. By providing means for reducing the current consumption of functional blocks other than those used by writing information to the function register, the current consumption of electronic devices can be minimized and the current consumption can be increased. Thus, the use time of the internal battery can be extended, and the processing load on the external device can be prevented from increasing.

According to the fourth aspect of the present invention, there is provided a function register, and means for lowering the current consumption of the function block by writing a value in a predetermined bit of the function register is provided. Current consumption to a minimum, suppress the increase in current consumption, extend the use time of the built-in battery, and not increase the processing load on external devices. You can do it.

According to the external device using the electronic device according to the fifth aspect of the present invention, the electronic device is provided detachably,
An external device that uses an electronic device that performs arbitrary data exchange with the electronic device and executes an arbitrary function of the electronic device, and includes a plurality of registers provided in the electronic device in a register provided in the electronic device. By having means for writing information on the use or non-use of the functional blocks, the current consumption in the electronic device can be minimized by a simple configuration without increasing the processing load on the external device, and the current consumption can be reduced. And the use time of the built-in battery can be prolonged.

Thus, in the conventional apparatus, when an electronic device having a plurality of functions is used by attaching it to an external device, the built-in battery is consumed in a short time due to an increase in current consumption due to the plurality of functions. Makes it difficult to use for a long time. According to the present invention, if the power supply is controlled every time a function is selected from the external device side, the processing load on the external device side is increased and cannot be easily implemented. The problem can be easily solved.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an embodiment of an electronic device and an external device to which the present invention is applied.

FIG. 2 is an external view of an embodiment of an electronic device to which the present invention is applied.

FIG. 3 is a diagram for the explanation.

FIG. 4 is a flowchart of an embodiment for explaining the operation.

[Explanation of symbols]

100: external device, 11: system bus, 12: media controller, 13: protocol circuit for camera control,
14 GPS control protocol circuit, 15 interface, 200 electronic device, 21 GPS function block, 22 camera function block, 21a, 22a power control unit, 23 memory function block, 24 interface 25: system control circuit, 26: data buffer (FIFO), 27: attribute ROM

Claims (5)

[Claims] 1. An external device which is detachably provided.
An electronic device that performs arbitrary data exchange with the external device and performs an arbitrary function, comprising: a plurality of function blocks; and a setting register configured to set each of the plurality of function blocks. Means for reducing the current consumption of the function block when power is turned on and when the function block is not used, and the function is executed according to the setting of the setting register corresponding to the function block to be used. And electronic equipment. 2. The electronic device according to claim 1, further comprising a function register common to the plurality of function blocks, wherein the information is used by writing information on whether or not the function block is used from the external device to the function register. An electronic device, comprising: means for reducing the amount of current consumed by the functional block that has been omitted. 3. The electronic device according to claim 1, further comprising a function register common to the plurality of function blocks, wherein the use of the plurality of function blocks is exclusive.
An electronic device, further comprising: a unit configured to write information on the use / non-use of the function block from the external device to the function register to reduce the current consumption of the function block other than the use of the function block. 4. The electronic device according to claim 1, further comprising a function register, and a means for reducing a current consumption of the function block by writing a value in a predetermined bit of the function register. And electronic equipment. 5. An external device using an electronic device in which an electronic device is detachably provided, exchanges arbitrary data with the electronic device, and executes an arbitrary function of the electronic device. Means for writing information on use / non-use in a function register common to a plurality of function blocks provided in the electronic device; and setting in a setting register corresponding to the function block determined to be used by writing in the function register Means for writing information on the setting of the function of (1), wherein the external device uses an electronic device.