JP4822172B2 - Unique data setting method and unique data setting system - Google Patents

Description

The present invention relates to specific data setting method and specific data setting system for adjusting the characteristics of the camera-equipped mobile phone.

  In recent years, imaging devices such as digital cameras have been rapidly spreading due to advances in functionality and price. When producing a digital camera, a camera unit (or a lens unit) and a camera main body are manufactured separately from the viewpoint of production efficiency, and assembled in a final process.

  However, the camera unit is an assembly of a large number of parts and has individual differences due to physical dimensions such as the sensitivity of the image sensor and the reference position of the lens, electrical characteristics, etc. have. In order to ensure uniform performance among the devices after assembly, it is necessary to individually adjust the characteristics of the camera unit. Therefore, the unique data unique to each camera unit is measured in advance and stored in the storage means in the camera unit, and when the camera unit is assembled on the camera body side, the unique data of the camera unit combined with the camera body side is obtained. Techniques obtained from storage means have been proposed (see, for example, Patent Document 1 and Patent Document 2).

  As digital cameras become smaller and lighter, functions with other electronic devices are becoming more complex. For example, mobile phones, PHS (Personal Handyphone System), PDA (Personal Digital Assistant) and other portable information terminals are used. Devices equipped with digital cameras have been put into practical use.

  In such a portable information terminal with a camera, a camera unit including components necessary for an imaging operation such as a lens and an imaging element may be configured to be detachable from the portable information terminal main body. Thereby, a camera unit and a portable information terminal main body can each be manufactured independently, and the versatile camera unit which can respond to various portable information terminals can be provided.

  However, even when such a camera unit and a portable information terminal main body are produced separately, the above-described problem of individual differences in the characteristics of each camera unit can also occur.

On the other hand, when there is no storage means for storing unique data in the camera unit, it is necessary to measure the unique data of the camera unit after the camera unit is assembled to the portable information terminal main body.
JP-A-5-313062 JP-A-8-95144

  However, in the example in which the unique data is stored in the storage means in the former camera unit, a storage area for the unique data is required in the storage means. As a result, the volume of the camera unit is increased and the cost is also increased. There was a problem that it took. Further, if there is no storage means for storing the unique data in the latter camera unit, the unique data must be measured after connecting to the mobile information terminal main body, so that the efficiency of the adjustment work cannot be expected. Also, the camera unit could not be easily replaced.

  The present invention has been made in view of the above problems in the prior art, and an object thereof is to reduce the size and cost of the camera unit. Another object of the present invention is to improve the efficiency of work when the camera unit is mounted on the main body or when the camera unit is replaced. In order to achieve the above object, the present invention has the features described in the following items.

According to the first aspect of the present invention , the unique data obtained by measuring the characteristic unique to the camera unit is stored in the unique data dedicated storage means in association with the camera unit, and is stored in the unique data dedicated storage means. acquires specific data, prior Symbol a specific data setting method for setting a has been storing means built in the cellular phone to the solid chromatic data the camera unit is mounted, the said specific data communication function of the mobile phone It is characterized by using and acquiring .

According to a second aspect of the present invention, in the unique data setting method according to the first aspect, the unique data is stored in the unique data dedicated storage unit based on an identification number of the camera unit input from the input unit of the mobile phone. It is acquired from.

The invention according to claim 3, in specific data setting method according to claim 1 or 2, wherein the specific data-only storage means, supplied with the host computer for use in measuring the camera unit-specific characteristic storage It is a means.

The invention described in claim 4 is a unique data setting method, wherein a concavity and convexity portion corresponding to unique data obtained by measuring characteristics unique to the camera unit is formed on a connection plug provided in the camera unit. The connection plug detected by the detection unit is provided with a detection unit that detects an uneven portion of the connection plug in a socket unit provided in a mobile phone on which the camera unit is to be mounted and into which the connection plug can be fitted. The unique data is acquired using the communication function of the mobile phone based on the uneven portion of the mobile phone , and is set in the storage means of the mobile phone .

According to a fifth aspect of the present invention, in the unique data setting method, the connection plug provided in the camera unit is provided with a conductive portion and a non-conductive portion corresponding to the unique data obtained by measuring the characteristic unique to the camera unit. A detection unit for detecting a conductive part and a non-conductive part of the connection plug is provided in a socket part provided in a mobile phone on which the camera unit is to be mounted and into which the connection plug can be fitted, and is detected by the detection part The unique data is acquired using the communication function of the mobile phone based on the conductive portion and the non-conductive portion of the connection plug, and is set in the storage means of the mobile phone .

According to a sixth aspect of the present invention, in the unique data setting method, the connection plug provided in the camera unit is provided with a light emitting unit and a non-light emitting unit corresponding to the unique data obtained by measuring the characteristic unique to the camera unit. And a detection unit for detecting a light emitting part and a non-light emitting part of the connection plug is provided in a socket part provided in a mobile phone on which the camera unit is to be mounted and into which the connection plug can be fitted, and is detected by the detection part. The unique data is acquired using the communication function of the mobile phone based on the light emitting portion and the non-light emitting portion of the connection plug, and is set in the storage means of the mobile phone .

According to a seventh aspect of the present invention, in the unique data setting system, the unique data dedicated storage means and the unique data obtained by measuring the characteristic unique to the camera unit are associated with the camera unit and stored in the unique data dedicated storage. A means for storing in the means, a means for acquiring the specific data from the specific data dedicated storage means by using a communication function of the mobile phone, and the acquired specific data in the mobile phone to which the camera unit should be mounted. Setting means for setting to the stored storage means.

The invention according to claim 8 is the unique data setting system according to claim 7, wherein the unique data is stored in the unique data dedicated storage means based on an identification number of the camera unit inputted from the input means of the mobile phone. It is acquired from.

Invention according to claim 9, in specific data setting system of claim 7 or 8, wherein the specific data-only storage means, supplied with the host computer for use in measuring the camera unit-specific characteristic storage It is a means.

The invention according to claim 10 is the unique data setting system, wherein the connection plug provided in the camera unit is formed with a concavo-convex portion corresponding to the unique data obtained by measuring the characteristic unique to the camera unit, A socket part provided in a mobile phone to which the camera unit is to be mounted is provided with a detection part for detecting the uneven part of the connection plug in a socket part into which the connection plug can be fitted, and the uneven part of the connection plug detected by the detection part. The unique data is acquired using a communication function of the mobile phone based on a unit, and the acquired unique data is set in a storage unit of the mobile phone .

According to an eleventh aspect of the present invention, in the unique data setting system, the connection plug provided in the camera unit is provided with a conductive portion and a non-conductive portion corresponding to the unique data obtained by measuring the characteristic unique to the camera unit. A detection unit for detecting a conductive part and a non-conductive part of the connection plug is provided in a socket part provided in a mobile phone on which the camera unit is to be mounted and into which the connection plug can be fitted, and is detected by the detection part The unique data is acquired using the communication function of the mobile phone based on the conductive portion and the non-conductive portion of the connection plug, and the acquired unique data is set in the storage unit of the mobile phone . It is characterized by that.

According to a twelfth aspect of the present invention, in the unique data setting system, the connection plug provided in the camera unit is provided with a light emitting unit and a non-light emitting unit corresponding to the unique data obtained by measuring the characteristic specific to the camera unit. And a detection unit for detecting a light emitting part and a non-light emitting part of the connection plug is provided in a socket part provided in a mobile phone on which the camera unit is to be mounted and into which the connection plug can be fitted, and is detected by the detection part. The unique data is obtained using the communication function of the mobile phone based on the light emitting portion and the non-light emitting portion of the connection plug, and the unique data is set in the storage means of the mobile phone. Features.

It is an external appearance block diagram of the mobile telephone 1 of embodiment of this invention. 1 is a schematic configuration diagram of a mobile phone 1. FIG. FIG. 5 is a diagram for explaining a method for storing unique data of the camera unit 3 of the first embodiment in the IC tag 7. FIG. 6 is a diagram for explaining a method of storing the unique data of the camera unit 3 stored in the IC tag 7 of the first embodiment in the main unit 2. It is a figure for demonstrating the method to memorize | store the intrinsic | native data of the camera unit 3 of Example 2 in DB5a. It is a figure which shows the example of the specific data memorize | stored in DB5a. FIG. 6 is a diagram for explaining a method of storing in the main unit 2 the unique data of the camera unit 3 stored in the DB 5a of the second embodiment. FIG. 10 is a diagram for explaining a method of storing the unique data of the camera unit 3 in the main unit 2 using the input unit 24 of the main unit 2 of the third embodiment. It is a figure which shows the example of the specific data reference table. FIG. 6 is an external configuration diagram of a camera unit 3 of Example 4. It is a figure which shows the state which connected the camera unit 3 and the main body unit 2 of Example 4. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Mobile phone 2 Main body unit 2a Image data input terminal 2b Control signal terminal 20 Socket part 21 CPU
22 wireless communication means 23 communication means 24 input means 25 display means 26 ROM
27 RAM
28 Image memory 29 F-ROM
3 Camera Unit 3a Image Data Output Terminal 3b Control Signal Terminal 31 Lens 32 Image Sensor 33 Connection Plug 4 Measuring Device 5 Host Computer 5a DB
6 IC Tag Writer 7 IC Tag 8 IC Tag Reader 9 PCN Communication Network

  Hereinafter, the best mode for carrying out the present invention will be described. This embodiment is an example in which the present invention is applied to a cellular phone as a portable information terminal.

  FIG. 1 shows an external configuration of the mobile phone 1. As shown in FIG. 1, a camera unit 3 is mounted on a main body unit 2 of a mobile phone 1.

  FIG. 2 shows a schematic configuration of the mobile phone 1. As shown in FIG. 2, the main unit 2 and the camera unit 3 are electrically connected. Image data is transmitted and received through a signal line connected between the image data input terminal 2a and the image data output terminal 3a. The control signal is transmitted and received through a signal line connected between the control signal terminal 2b and the control signal terminal 3b.

  Although details are not shown, the camera unit 3 includes a lens, an actuator that adjusts the focal position of the lens, an actuator that performs zoom adjustment, an image sensor that converts an optical image incident through the lens into an electrical signal, and each actuator. The control processor etc. which control are built in, and it does not have a memory | storage means.

  The camera unit 3 having such a configuration has unique characteristics that are different for each camera unit 3. Specific data representing this characteristic includes, for example, image sensor sensitivity and color data, defective pixel position, lens reference position, hyperfocal position, macro position, and the like. If such unique data can be stored in some way before the camera unit 3 is connected to the main unit 2 without incorporating the storage means in the camera unit 3, the characteristics of the camera unit 3 can be measured. This is advantageous in terms of freedom of timing setting, efficiency of assembly work, or replacement of the camera unit 3.

  An embodiment according to the storage mode of such unique data will be described below.

  The first embodiment is a unique data setting system in which unique data is stored in the IC tag 7.

  As shown in FIG. 3, the camera unit 3 includes a lens 31, an image sensor 32, and the like. The lens 31 is made of glass or plastic and forms a subject image on the image sensor 32. A CCD (Charge Coupled Device), a CMOS (Complementary Metal Oxide Semiconductor), or the like is used as the imaging device 32, and an image input through the lens 31 is converted into an electrical signal to generate image data. There are a plurality (n) of such camera units 3.

  The measuring device 4 measures the unique data of the camera unit 3 and outputs it to the host computer 5. The unique data of the camera unit 3 refers to individual difference data of the camera unit 3 and greatly affects the captured image. Therefore, in order to guarantee product performance, it is necessary to adjust the influence of individual differences using unique data at the time of imaging. The host computer 5 includes DB (database) storage means 5 a such as an HDD, and the unique data measured by the measuring device 4 is stored in the DB 5 a for each camera unit 3. Further, the host computer 5 causes the IC tag writer 6 to store unique data in the IC chip of the IC tag 7. That is, the IC tag writer 6 has a function as writing means for storing unique data in the IC chip. In this way, IC tags 7 respectively corresponding to the n camera units 3 are created.

  The IC tag 7 may be affixed to the corresponding camera unit 3, but if the corresponding camera unit 3 and the IC tag 7 are managed so as to be identifiable, the IC tag 7 is disposed. The position is not limited.

  Next, referring to FIG. 4, a method for storing and setting the unique data of the camera unit 3 stored in the IC tag 7 in the main unit 2 will be described.

  As shown in FIG. 4, the main unit 2 includes a CPU (Central Processing Unit) 21, wireless communication means 22, communication means 23, input means 24, display means 25, ROM (Read Only Memory) 26, RAM (Random Access Memory). ) 27, an image memory 28, and an F-ROM (Flash-ROM) 29.

  The CPU 21 is a program designated from various programs corresponding to the mobile phone 1 stored in the ROM 26 in accordance with various instructions input from the input unit 24 and data input from the wireless communication unit 22 or the communication unit 23. Is expanded in the work area of the RAM 27, and various processes are executed in cooperation with the above-described program. The processing results are stored in a predetermined area of the RAM 27 and displayed on the display means 25.

  The wireless communication means 22 performs transmission / reception of voice / received voice and data communication with a wireless base station (not shown) in accordance with an instruction from the CPU 21.

  The communication unit 23 transmits / receives data to / from an external device in accordance with an instruction from the CPU 21. The main unit 2 and the external device may be connected by, for example, USB (Universal Serial Bus) or IEEE 1394 (the Institute of Electrical and Electronics Engineers 1394) or may be connected by a network. In addition, data may be exchanged via a card medium or the like.

  The input unit 24 includes numeric keys, various function keys, a release switch used when taking an image, and the like, and outputs a press signal by each key operation to the CPU 21.

  The display means 25 is composed of an LCD (Liquid Crystal Display) panel or the like, and performs screen display based on display data input from the CPU 21. The display unit 25 displays a preview of the image data captured from the image sensor 32 at the time of shooting and also displays the shot image data.

  The ROM 26 is composed of a nonvolatile semiconductor memory. The ROM 26 stores various application programs for mobile phones executed by the CPU 21 and communication processing programs.

  The RAM 27 is composed of a rewritable semiconductor element. The RAM 27 is a storage medium in which data is temporarily stored, a program area for developing a program to be executed by the CPU 21, data input from the input means 24, the wireless communication means 22, and the communication means 23, and the CPU 21. A data area or the like for storing various processing results and the like is formed.

  The image memory 28 is composed of a semiconductor memory or the like, and stores captured image data.

  The F-ROM 29 is a kind of non-volatile memory that can be electrically erased and rewritten, and stores unique data of the camera unit 3.

  When the camera unit 3 is mounted on the main unit 2 or when the camera unit 3 is replaced, unique data is read from the IC tag 7 corresponding to the camera unit 3 by the IC tag reader 8 connected to the PC 9. In other words, the IC tag reader 8 has a function as a reading unit that reads unique data from the IC tag 7. Then, the read unique data is transmitted to the main unit 2. The CPU 21 of the main unit 2 stores the unique data received via the communication unit 23 in the F-ROM 29. That is, the CPU 21 of the PC 9 and the main unit 2 has a function as a setting unit that sets unique data in the F-ROM 29.

  As described above, the unique data of the camera unit 3 is stored in the IC tag 7 in advance, the unique data is read from the IC tag 7, and the read unique data is set in the F-ROM 29 built in the main unit 2. The storage unit for storing the unique data in the camera unit 3 itself becomes unnecessary, and the camera unit 3 can be reduced in size and cost. In addition, when the camera unit 3 is mounted on the main unit 2, or when the camera unit 3 is replaced, such as when repairing or upgrading, it is possible to improve the efficiency of work. Therefore, the type of the camera unit 3 can be freely selected.

  In the first embodiment, the example in which the IC tag 7 is used as the unique data dedicated storage unit for storing the unique data of the camera unit 3 has been described. However, a barcode may be used as the unique data dedicated storage unit. In this case, the unique data of the camera unit 3 measured in advance is expressed by a bar code, and is pasted or associated with the camera unit 3 for description. Then, the barcode is read by a dedicated reading device, and the read unique data is stored in the F-ROM 29 of the main unit 2. The barcode may be a one-dimensional barcode or a two-dimensional barcode depending on the amount of unique data. In addition to the above, the unique data dedicated storage means for storing the unique data of the camera unit 3 may be an optical storage medium or a magnetic storage medium.

  Next, a second embodiment to which the present invention is applied will be described.

  Since the mobile phone according to the second embodiment has the same configuration as the mobile phone 1 shown in the first embodiment, the same components are denoted by the same reference numerals, and the description thereof is omitted. Hereinafter, processing characteristic of the second embodiment will be described.

  The second embodiment is a unique data setting system in which unique data is stored in a DB 5 a attached to the host computer 5.

  As shown in FIG. 5, the measuring device 4 measures the unique data of the camera unit 3 and outputs it to the host computer 5. In the DB 5 a provided in the host computer 5, unique data measured by the measuring device 4 is stored for each camera unit 3 in association with the ID number of the camera unit 3. That is, the host computer 5 has a function as writing means for storing the unique data in the DB 5a. FIG. 6 shows an example of unique data stored in the DB 5a. As illustrated in FIG. 6, the values of the unique data 1 to 4 are stored for each ID number (No. 00001 to FFFFF) of the camera unit 3. In the example shown in FIG. 6, the unique data 1 of the camera unit 3 with the ID number 00001 is 100, the unique data 2 is 5, the unique data 3 is 30, and the unique data 4 is 512.

  Next, with reference to FIG. 7, a method for storing and setting the unique data of the camera unit 3 stored in the DB 5a in the main unit 2 will be described.

  As shown in FIG. 7, the host computer 5 and the PC 9 can be connected via a communication network N. As the communication network N, the Internet, a LAN (Local Area Network), a WAN (Wide Area Network), a telephone line network, an ISDN (Integrated Services Digital Network) line network, an ADSL (Asymmetric Digital network) A configuration including a communication satellite line, a CATV line, an optical communication line, a wireless communication line, and the like may be used.

  When the camera unit 3 is mounted on the main unit 2 or when the camera unit 3 is replaced, the ID number of the corresponding camera unit 3 is input from the input means of the PC 9, and the unique data corresponding to the input ID number Is read from the DB 5a of the host computer 5 via the communication network N. That is, the PC 9 has a function as a reading unit that reads unique data from the DB 5a. Then, the read unique data is transmitted to the main unit 2. The CPU 21 of the main unit 2 stores the unique data received via the communication unit 23 in the F-ROM 29.

  As described above, the unique data of the camera unit 3 is stored in advance in the DB 5 a provided in the host computer 5, the unique data is read from the DB 5 a via the communication network N, and the read unique data is built in the main unit 2. Since the setting is made in the F-ROM 29, the storage means for storing the unique data in the camera unit 3 itself becomes unnecessary, and the camera unit 3 can be reduced in size and cost. In addition, when the camera unit 3 is mounted on the main unit 2, or when the camera unit 3 is replaced, such as when repairing or upgrading, it is possible to improve the efficiency of work. Therefore, the type of the camera unit 3 can be freely selected.

  In the second embodiment, the unique data of the plurality of camera units 3 is stored in the DB 5a in association with the ID number of each camera unit 3, and the unique data is read from the DB 5a via the communication network N. The unique data of the plurality of camera units 3 may be associated with the ID number of each camera unit 3 and stored in an optical storage medium such as a CD-ROM or a magnetic storage medium. In this case, the ID number of the corresponding camera unit 3 is input from the input means of the PC 9, and the unique data corresponding to the input ID number is read from the CD-ROM or the like by the reading device provided in the PC 9. The data is stored in the F-ROM 29.

  Next, a third embodiment to which the present invention is applied will be described.

  Since the mobile phone according to the third embodiment has the same configuration as the mobile phone 1 shown in the first embodiment, the same components are denoted by the same reference numerals, and description thereof is omitted. Hereinafter, processing characteristic of the third embodiment will be described.

  The third embodiment is a unique data setting system in which unique data is set based on data input from the input unit 24 of the main unit 2.

  The unique data of the camera unit 3 is measured in advance, and the identification number of each camera unit 3 is determined based on the measured unique data. The identification number is a number for specifying the unique data corresponding to the camera unit 3, and is printed on the camera unit 3 or the container after the unique data of the camera unit 3 is measured.

  With reference to FIG. 8, a method for storing and setting the unique data of the camera unit 3 in the main unit 2 using the input means 24 of the main unit 2 will be described.

  In the F-ROM 29, a unique data reference table 291 for specifying unique data is stored in advance. FIG. 9 shows an example of the unique data reference table 291. FIG. 9A is a reference table of unique data 1 and unique data 1 can take values from 100 to 159. Values from 100 to 159 can be indicated by combinations of two numbers corresponding to columns and rows of the reference table. FIG. 9B is a reference table for the unique data 2, and the unique data 2 can take values from 0 to 10. FIG. 9C is a reference table of the unique data 3, and the unique data 3 can take values from 10 to 49. FIG. 9D is a reference table for the unique data 4, and the unique data 4 can take values from 500 to 559.

  When the camera unit 3 is mounted on the main unit 2 or when the camera unit 3 is replaced, the identification number of the camera unit 3 is input from the input unit 24 of the main unit 2. Then, based on the input identification number, the unique data reference table 291 stored in the F-ROM 29 is referred to, and the unique data of the camera unit 3 is acquired.

  For example, when the identification number is “10051159”, the first number “1” and the second number “0” indicate the column and row of the reference table of the unique data 1 shown in FIG. . That is, the value “110” stored in column 1 and row 0 is acquired as the value of unique data 1. Similarly, the third number “0” and the fourth number “5” indicate the column and row of the reference table of the specific data 2 shown in FIG. The value “5” stored in the fifth row is acquired as the value of the unique data 2. Further, the fifth number “1” and the sixth number “1” indicate the column and row of the reference table of the specific data 3 shown in FIG. 9C, and one column 1 in the reference table of the specific data 3 The value “21” stored in the row is acquired as the value of the unique data 3. Further, the seventh number “5” and the eighth number “9” indicate the column and row of the reference table of the specific data 4 shown in FIG. The value “559” stored in the row is acquired as the value of the unique data 4.

  The unique data acquired in this way is stored in the F-ROM 29.

  As described above, the unique data of the camera unit 3 is measured, the identification number is input via the input means 24 of the main unit 2 on which the camera unit 3 is mounted, and the unique data is based on the input identification number. Is set in the F-ROM 29 of the main unit 2, the storage means for storing the unique data in the camera unit 3 itself becomes unnecessary, and the camera unit 3 can be reduced in size and cost. In addition, when the camera unit 3 is mounted on the main unit 2, or when the camera unit 3 is replaced, such as when repairing or upgrading, it is possible to improve the efficiency of work. Therefore, the type of the camera unit 3 can be freely selected.

  In the third embodiment, the identification number of the camera unit 3 is input from the input unit 24 of the main unit 2, and the unique data reference table 291 stored in the F-ROM 29 is referred to based on the input identification number. Although the unique data of the camera unit 3 is acquired, the unique data of the camera unit 3 may be directly input from the input unit 24 of the main unit 2.

  Further, the unique data reference table 291 shown in FIG. 9 is stored in advance in a DB attached to a network-connectable host computer, and the communication function of the mobile phone is used based on the identification number input from the input means 24. The unique data may be acquired.

  In the third embodiment, the identification number of the camera unit 3 is input from the input unit 24 of the main unit 2. However, the camera unit 3 is used to photograph a two-dimensional barcode on which unique data is recorded. Thus, the unique data of the camera unit 3 may be acquired.

  Next, a fourth embodiment to which the present invention is applied will be described.

  Since the mobile phone according to the fourth embodiment has the same configuration as that of the mobile phone 1 shown in the first embodiment, the same reference numerals are given to the same components, and illustration and description of the configurations are omitted. Hereinafter, a configuration and processing characteristic of the fourth embodiment will be described.

  The fourth embodiment is a unique data setting system in which an uneven portion 33a corresponding to unique data is formed in a connection plug 33 provided in the camera unit 3.

  FIG. 10 shows an external configuration of the camera unit 3. As shown in FIG. 10, an uneven portion 33 a corresponding to the unique data of the camera unit 3 measured in advance is formed in the connection plug 33 provided in the camera unit 3 in order to connect to the main unit 2.

  A method of storing and setting the unique data of the camera unit 3 in the main unit 2 based on the uneven portion 33a formed on the connection plug 33 of the camera unit 3 will be described.

  FIG. 11 shows a state in which the camera unit 3 and the main unit 2 are connected. As shown in FIG. 11, the main body unit 2 is provided with a socket portion 20 into which the connection plug 33 of the camera unit 3 can be fitted. Further, the socket portion 20 includes a plurality of movable portions 20 a that can move corresponding to the concave and convex portions 33 a of the connection plug 33, contact points 20 b provided on the movable portion 20 a, and a movable portion 20 a that protrudes from the connection plug 33. A contact 20c fixed at a position in contact with the contact 20b when pressed by the portion.

  When connecting the camera unit 3 and the main unit 2, the uneven portion 33 a of the connection plug 33 of the camera unit 3 is detected. For example, when the movable portion 20a is pressed by the convex portion of the connection plug 33 and the contact 20b and the contact 20c are in contact with each other, “0”, and when the contact 20b and the contact 20c are not in contact with each other at the position corresponding to the concave portion of the connection plug 33 Is “1”, and the uneven portion 33 a of the connection plug 33 is detected. That is, the movable portion 20a, the contact point 20b, and the contact point 20c have a function as a detection unit that detects the uneven portion 33a of the connection plug 33.

  The F-ROM 29 of the main unit 2 stores a unique data reference table that associates the concave and convex portion 33a of the connection plug 33 with the unique data. The unique data reference table is referred to based on the detected uneven portion 33a of the connection plug 33, and unique data corresponding to the uneven portion 33a is acquired. The acquired unique data is stored in the F-ROM 29 of the main unit 2.

  As described above, the concave and convex portion 33a corresponding to the unique data of the camera unit 3 is formed in the connection plug 33 of the camera unit 3, and the socket portion of the main unit 2 is connected when the camera unit 3 and the main unit 2 are connected. 20, the uneven portion 33 a of the connection plug 33 is detected, and the unique data corresponding to the detected uneven portion 33 a of the connection plug 33 is set in the F-ROM 29 of the main unit 2, so that the unique data is stored in the camera unit 3 itself. This eliminates the need for storage means for reducing the size and cost of the camera unit 3. In addition, when the camera unit 3 is mounted on the main unit 2, or when the camera unit 3 is replaced, such as when repairing or upgrading, it is possible to improve the efficiency of work. Therefore, the type of the camera unit 3 can be freely selected.

  In the fourth embodiment, the unique data reference table stored in the F-ROM 29 is referred to based on the detected uneven portion 33a of the connection plug 33, and the unique data of the camera unit 3 is acquired. However, the unique data reference table is stored in advance in the DB of the host computer that can be connected to the network, and the unique data is acquired by using the communication function of the mobile phone based on the detected uneven portion 33a of the connection plug 33. It is good.

  In the fourth embodiment, the uneven portion 33 a of the connection plug 33 is detected based on whether or not the movable portion 20 a provided in the socket portion 20 of the main unit 2 is pressed by the convex portion of the connection plug 33 of the camera unit 3. However, the light emitting portion is provided on the side surface of the socket portion 20 and the light receiving portion is provided on the opposite side surface. Depending on whether or not the light emitted from the light emitting portion is received by the light receiving portion, the unevenness of the connection plug 33 is determined. The part 33a may be detected.

  In addition, the connection plug provided in the camera unit is provided with a conductive part that conducts electricity and a non-conductive part that does not conduct electricity, corresponding to the unique data obtained by measuring the characteristics unique to the camera unit, It is good also as detecting a conductive part and a non-conductive part by providing a conductive sensor part in the socket part provided in the unit, and detecting whether an electric current flows through a conductive part and a non-conductive part. The conductive part is preferably composed of a thin metal film. The unique data corresponding to the conductive part and the non-conductive part detected in this way can be set in the storage means (F-ROM or the like) of the main unit. Therefore, a storage means for storing unique data in the camera unit itself becomes unnecessary, and the camera unit can be reduced in size and cost.

  In addition, the connection plug provided in the camera unit is provided with a light emitting part and a non-light emitting part corresponding to the unique data obtained by measuring the characteristic unique to the camera unit, and the light receiving sensor part provided in the socket part of the main unit. The light emitting part and the non-light emitting part may be detected depending on whether or not light is detected. In this case, in order to accurately identify the adjacent light emitting unit and non-light emitting unit, it is necessary to provide a wall for preventing the light from wrapping in either the light emitting unit or the light receiving sensor unit. The unique data corresponding to the light emitting part and the non-light emitting part detected in this way can be set in the storage means (F-ROM or the like) of the main unit. Therefore, a storage means for storing unique data in the camera unit itself becomes unnecessary, and the camera unit can be reduced in size and cost.

  In each of the above-described embodiments, the mobile phone has been described as the mobile information terminal. However, the mobile phone is not limited to this and may be a PHS, a PDA, a notebook computer, or the like. Further, the detailed configuration and detailed operation of each part constituting the portable information terminal can be changed as appropriate without departing from the spirit of the present invention.

According to the invention described in claim 1, 7, the unique data obtained by measuring the camera unit specific characteristics, may be stored in the specific data-only storage means in association with the camera unit, specific data only memory acquires specific data from the unit, so sets the specific data in the storage means by the camera unit is built in the mobile phone to be mounted, the camera unit itself becomes unnecessary storage means for storing unique data, camera The unit can be reduced in size and cost. Further, it is possible to improve the efficiency of work when the camera unit is mounted on the mobile phone or when the camera unit is replaced.

According to the invention described in claims 3 and 9 , the unique data is obtained from the storage means attached to the host computer used when measuring the characteristic specific to the camera unit, and set in the storage means of the mobile phone. it can.

According to the inventions described in claims 4 and 10 , the connecting plug provided in the camera unit is formed with a concavo-convex portion corresponding to the unique data obtained by measuring the characteristic unique to the camera unit, and is mounted on the camera unit. A socket that is provided in a mobile phone to which a connection plug can be fitted is provided with a detection unit that detects the uneven portion of the connection plug, and the unique data corresponding to the uneven portion of the connection plug detected by the detection unit is carried. Since it is set in the storage means of the telephone, the storage means for storing unique data in the camera unit itself becomes unnecessary, and the camera unit can be reduced in size and cost. Further, it is possible to improve the efficiency of work when the camera unit is mounted on the mobile phone or when the camera unit is replaced.

According to the inventions of claims 5 and 11 , the connection plug provided in the camera unit is provided with the conductive portion and the non-conductive portion corresponding to the unique data obtained by measuring the characteristic unique to the camera unit, Provided in a mobile phone to which the unit is to be mounted, a socket part into which the connection plug can be fitted is provided with a detection part for detecting the conductive part and non-conductive part of the connection plug, and the conductive part of the connection plug detected by the detection part Since the unique data corresponding to the non-conductive portion is set in the storage means of the mobile phone , the storage means for storing the unique data in the camera unit itself becomes unnecessary, and the camera unit can be reduced in size and cost. . Further, it is possible to improve the efficiency of work when the camera unit is mounted on the mobile phone or when the camera unit is replaced.

According to the inventions described in claims 6 and 12 , the connection plug provided in the camera unit is provided with the light emitting part and the non-light emitting part corresponding to the unique data obtained by measuring the characteristic specific to the camera unit, A socket that is provided in a mobile phone on which the unit is to be mounted and in which a connection plug can be fitted is provided with a detection unit that detects a light emitting part and a non-light emitting part of the connection plug, and the light emission part of the connection plug detected by the detection part In addition, since the unique data corresponding to the non-light emitting portion is set in the storage means of the mobile phone , the storage means for storing the unique data in the camera unit itself becomes unnecessary, and the camera unit can be reduced in size and cost. . Further, it is possible to improve the efficiency of work when the camera unit is mounted on the mobile phone or when the camera unit is replaced.

Claims (12)

Storing the unique data obtained by measuring the characteristic unique to the camera unit in the unique data dedicated storage means in association with the camera unit;
A unique data setting method comprising: obtaining unique data from the unique data dedicated storage means; and setting the unique data in a storage means built in a mobile phone in which the camera unit is to be mounted,
The unique data setting method, wherein the unique data is acquired using a communication function of the mobile phone. In the specific data setting method according to claim 1,
A unique data setting method, wherein the unique data is obtained from the unique data dedicated storage means based on an identification number of the camera unit input from an input means of the mobile phone. In the specific data setting method according to claim 1 or 2,
The unique data setting method, wherein the unique data dedicated storage means is a storage means attached to a host computer used when measuring the characteristic unique to the camera unit. Forming a concavo-convex portion corresponding to unique data obtained by measuring characteristics unique to the camera unit on a connection plug provided in the camera unit;
Providing a detection unit for detecting an uneven portion of the connection plug in a socket portion provided in a mobile phone on which the camera unit is to be mounted and into which the connection plug can be fitted;
A unique data setting method comprising: acquiring the unique data using a communication function of the mobile phone based on the uneven portion of the connection plug detected by the detection unit and setting the unique data in a storage unit of the mobile phone. Providing a connection plug provided in the camera unit with a conductive portion and a non-conductive portion corresponding to specific data obtained by measuring the characteristic specific to the camera unit;
Providing a detection unit for detecting a conductive part and a non-conductive part of the connection plug in a socket part provided in a mobile phone on which the camera unit is to be mounted;
The unique data comprising the step of acquiring the unique data using the communication function of the mobile phone based on the conductive portion and the non-conductive portion of the connection plug detected by the detection unit and setting the unique data in the storage means of the mobile phone Setting method. Providing a connection plug provided in the camera unit with a light emitting part and a non-light emitting part corresponding to unique data obtained by measuring the characteristic unique to the camera unit;
Providing a detection unit for detecting a light emitting part and a non-light emitting part of the connection plug in a socket part provided in a mobile phone on which the camera unit is to be mounted;
The unique data comprising the step of acquiring the unique data using the communication function of the mobile phone based on the light emitting portion and the non-light emitting portion of the connection plug detected by the detecting portion, and setting it in the storage means of the mobile phone Setting method. Storage means dedicated to unique data;
Writing means for storing the unique data obtained by measuring the characteristic unique to the camera unit in the unique data dedicated storage means in association with the camera unit;
Means for acquiring unique data from the unique data dedicated storage means using a communication function of a mobile phone;
Setting means for setting the acquired unique data in a storage means built in the mobile phone in which the camera unit is to be mounted;
A unique data setting system characterized by comprising: In the specific data setting system according to claim 7,
The unique data setting system, wherein the unique data is obtained from the unique data dedicated storage means based on an identification number of the camera unit input from the input means of the mobile phone. In the specific data setting system according to claim 7 or 8,
The unique data dedicated storage means is a storage means attached to a host computer used when measuring characteristics unique to the camera unit. On the connection plug provided in the camera unit, an uneven portion corresponding to the unique data obtained by measuring the characteristic unique to the camera unit is formed,
Provided in a mobile phone on which the camera unit is to be mounted, a detection unit that detects a concavo-convex part of the connection plug in a socket part into which the connection plug can be fitted,
The unique data is acquired using the communication function of the mobile phone based on the uneven portion of the connection plug detected by the detection unit,
A unique data setting system configured to set the acquired unique data in a storage unit of the mobile phone. The connection plug provided in the camera unit is provided with a conductive part and a non-conductive part corresponding to the specific data obtained by measuring the characteristic specific to the camera unit,
Provided in a mobile phone to which the camera unit is to be mounted and a socket part into which the connection plug can be fitted, a detection unit for detecting a conductive part and a non-conductive part of the connection plug,
Based on the conductive part and non-conductive part of the connection plug detected by the detection part, the unique data is acquired using the communication function of the mobile phone,
A unique data setting system configured to set the acquired unique data in a storage unit of the mobile phone. The connection plug provided in the camera unit is provided with a light emitting part and a non-light emitting part corresponding to unique data obtained by measuring the characteristic unique to the camera unit,
Provided in a mobile phone to which the camera unit is to be mounted and a socket part into which the connection plug can be fitted, a detection unit for detecting a light emitting part and a non-light emitting part of the connection plug,
Based on the light emitting part and non-light emitting part of the connection plug detected by the detection part, the unique data is acquired using the communication function of the mobile phone,
A unique data setting system configured to set the unique data in a storage unit of the mobile phone.

Images