JP4493196B2 - Digital camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital camera that operates with electric power from a battery.
[0002]
[Prior art]
Recently, a battery (hereinafter referred to as an info battery) that has a built-in CPU and memory, that is, has an information processing function and an information storage function and is capable of calculating the remaining battery level and the like has started to be used. The battery remaining amount is calculated by sequentially counting the power consumption of the battery. When this info battery is used in a digital camera (electronic camera), it becomes possible to grasp the possible shooting time in detail.
[0003]
However, usually InfoBattery is dedicated, and it is necessary to prepare two InfoBatteries for replacement or to prepare a dedicated battery charger. This places a heavy burden on the user from the viewpoints of economy and portability.
[0004]
Therefore, if it is possible to cope with an ordinary battery (an alkaline battery, a Ni-MH battery, a Ni-Cd battery, etc.) in addition to the info battery, it is possible to reduce the burden on the user as described above.
[0005]
[Problems to be solved by the invention]
However, while the info battery can calculate the remaining amount of the battery by the built-in CPU, the normal battery does not have such a function. Therefore, it is difficult to properly grasp the remaining battery level simply by making both the info battery and the normal battery usable, and a digital camera excellent in usability cannot be configured.
[0006]
The present invention has been made from such a viewpoint, and an object thereof is to provide an easy-to-use digital camera capable of appropriately grasping a remaining battery level according to a battery to be loaded.
[0007]
[Means for Solving the Problems]
A digital camera according to the present invention is a digital camera that operates by power from a battery, Information storage means for storing information relating to remaining battery capacity and information communication terminal First battery check means for performing a battery check of the first battery; No information storage means A second battery check means for performing a battery check of the second battery; The first battery And detecting means for detecting which one of the second batteries is loaded, and from the detection result of the detecting means, when the first battery is loaded, Obtain information about the remaining battery level via the information communication terminal, Step-by-step display of remaining battery level according to battery level Based on this battery level information When the remaining battery is displayed as a numerical value and the second battery is loaded, Check the battery And display means for performing a step-by-step display of the remaining amount in accordance with the remaining battery level.
[0010]
When the first battery is loaded, the display means performs a stepwise remaining amount display according to the battery remaining amount and a numerical value display of the battery remaining amount, and then turns off the numerical value display of the battery remaining amount, It is preferable to perform only a stepwise remaining amount display according to the remaining amount of the battery.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0012]
(Constitution)
FIG. 1 is a block diagram illustrating a configuration example of a main part of a digital camera according to an embodiment of the present invention.
[0013]
The digital camera can be loaded with either an info battery 2 that can calculate information about the remaining battery level or a normal battery 3 that does not have such a function as a power source for supplying power to the digital camera body 1. The camera is operated by the power from the loaded battery.
[0014]
The basic configuration of the imaging unit of the digital camera main body 1 is the same as that of a normal digital camera, and includes an imaging lens system 11, an aperture 12, an imaging device 13 including a photoelectric conversion element such as a CCD, and the like. The photoelectrically converted signal is input to a digital process circuit 14 including an A / D conversion circuit, and an image signal subjected to processing such as digital conversion is obtained. The photographing lens system 11 is driven by a lens driving unit 15 and a zoom driving unit 16, and the diaphragm 12 is controlled by a diaphragm control unit 17.
[0015]
The system controller 18 has a function of controlling each part of the digital camera, a function of detecting whether the info battery 2 or the normal battery 3 is loaded, and a function of selecting a battery check for the info battery 2 or the normal battery 3 , A function for selecting the display form of the battery check result, a function for performing a battery check based on information on the remaining battery level obtained by the calculation process in the info battery 2, and a battery check based on the actual voltage detection result of the battery It has various processing functions such as a function to perform.
[0016]
As a display means, a liquid crystal monitor 19 for mainly displaying a photographed image and a panel LCD 20 for displaying various information about the camera such as a display regarding the remaining battery level are provided. On the panel (control panel) LCD 20, when displaying the remaining battery level, either the info battery 2 or the normal battery 3 is selectively displayed according to the battery loaded. It has become.
[0017]
As means for detecting the voltage of the loaded battery, an A / D converter 21 and voltage detectors 22 and 23 are provided, and voltage information acquired by these is sent to the system controller 18. Yes. The A / D converter 21 is for A / D converting the voltage of the battery that is loaded to obtain digital information, and the voltage detector 22 is in a locked state (a state in which the camera operation is prohibited). The voltage detector 23 is for detecting a predetermined voltage that is slightly higher than the lock voltage.
[0018]
The digital camera also includes a strobe unit 24, a distance measuring unit 25 used for autofocus operation, and a dummy load unit 26 used as a dummy load when detecting battery voltage.
[0019]
Electrical connection with the battery is made by terminals 27-30. The terminal 27 is a ground terminal, the terminal 28 is a voltage detection terminal, and the terminals 29 and 30 are communication terminals that transmit and receive information about the remaining battery level when the info battery 2 is connected.
[0020]
As described above, the info battery 2 is a rechargeable battery that incorporates a CPU and a memory and has an information processing function and an information storage function. The info battery 2 includes a battery main body 41, a current / voltage detection unit 42, a CPU 43, and an EEPROM 44. Consists of a built-in battery pack. Further, the electrical connection with the digital camera body 1 is made by the ground terminal 45, the voltage detection terminal 46, and the communication terminals 47 and 48.
[0021]
The current / voltage detection unit 42 detects the amount of power consumed, and the detection result is sent to the CPU 43. The CPU 43 has a function of calculating the remaining battery level based on the power consumption information from the current / voltage detection unit 42 and writing the calculation result in the EEPROM 44. The CPU 43 also has a function of transmitting and receiving information to and from the digital camera body 1 via communication terminals 47 and 48.
[0022]
The normal battery is a normal battery that does not include a CPU or memory like the info battery 2 and includes a battery body 51, a ground terminal 52, and a voltage detection terminal 53.
[0023]
(Display format)
FIG. 2 shows a part of the display pattern on the panel LCD 20. Actually, other display pattern portions are also provided on the panel LCD 20, but in the figure, only the lower right portion of the panel LCD 20 is shown as a display portion related to the present invention. The display relating to the remaining battery level is performed using the battery mark portion 20a, the number pattern portion 20b, and the percent mark portion 20c.
[0024]
FIG. 3 shows a display example on the panel LCD 20 when a normal battery is loaded in the digital camera.
[0025]
When a normal battery is loaded, the remaining amount is displayed in three stages according to the remaining amount of battery on the battery mark portion 20a, and the remaining number of images (the number of remaining frames) is displayed on the number pattern portion 20b. . The digital camera can be connected to an AC power supply via an AC adapter. In this case, however, the display regarding the remaining battery level is not performed.
[0026]
When the remaining battery level is sufficient, a display (OK display) as shown in FIG. 3A is performed on the panel LCD 20. That is, the battery mark portion 20a is fully displayed for 10 seconds after power-on to indicate that the remaining battery level is sufficient. The number of remaining frames is displayed in the number pattern portion 20b. After 10 seconds, the battery mark portion 20a disappears and the number of remaining frames continues to be displayed on the number pattern portion 20b.
[0027]
When the remaining battery level is below a certain level, a display (warning display) as shown in FIG. That is, after power-on, in order to warn that the remaining battery power is low, a pattern in which a part of the battery mark portion 20a is missing is blinked (for example, blinking at 2 Hz). The number of remaining frames is displayed in the number pattern portion 20b. These displays continue to be displayed even after a certain time has elapsed after power-on.
[0028]
When the remaining battery level is further lowered and the camera operation is below a level, that is, when the camera is locked, a display (NG display) as shown in FIG. That is, a pattern in which a part of the battery mark portion 20a is missing is displayed for 10 seconds after power-on, and the number of remaining frames is displayed in the number pattern portion 20b. After 10 seconds, all the displays other than the battery mark portion 20a are erased, and the camera is in a deep power off state.
[0029]
FIG. 4 shows a display example on the panel LCD 20 when an info battery is loaded in a digital camera.
[0030]
When the info battery is loaded, the battery mark portion 20a is displayed in three stages according to the remaining battery level, as in the case where a normal battery is loaded, but the number pattern portion 20b has a remaining battery level. Is displayed as a percentage for a certain period (0 to 100%, in this example, 1% increments). That is, when the info battery is loaded, the remaining amount display is performed in multiple stages as compared with the case where the normal battery is loaded.
[0031]
When the remaining battery level is sufficient (in this example, when the remaining battery level is 30% or more and 100% or less), a display (OK display) as shown in FIG. . That is, in order to indicate that the remaining battery level is sufficient, the battery mark portion 20a is fully displayed for 3 seconds after the power is turned on, and the remaining battery level is displayed as a percentage on the number pattern portion 20b (see FIG. In this, three types of 100%, 40%, and 30% are shown). After 3 seconds, the display of the battery mark part 20a continues to be displayed as it is, but the percentage display of the number pattern part 20b disappears and the remaining frame number is displayed instead. After 10 seconds have passed since the power was turned on, the battery mark portion 20a disappears and the number of remaining frames continues to be displayed on the number pattern portion 20b.
[0032]
When the remaining battery level is below a certain level (in this example, the remaining battery level is lower than 30% and higher than the level at which the camera cannot operate), a display as shown in FIG. Warning display) is performed on the panel LCD 20. That is, in order to warn that the remaining battery level is low, a pattern in which a part of the battery mark portion 20a is missing is blinked (for example, blinking at 2 Hz) for 3 seconds after the power is turned on. 20b displays the remaining battery level as a percentage (in the figure, 29% and 1% are shown). After 3 seconds, the battery mark portion 20a continues to blink, but the percentage display of the number pattern portion 20b disappears and the number of remaining frames is displayed instead. These displays continue to be displayed thereafter.
[0033]
When the remaining battery level is further reduced and the camera operation is below the level, that is, the lock state is reached, a display (NG display) as shown in FIG. 4C is performed on the panel LCD 20. That is, a pattern in which part of the battery mark portion 20a is missing is displayed for 10 seconds after power-on, and the display of the numeric pattern portion 20b is 0%. After 10 seconds, all the displays other than the battery mark portion 20a are erased, and the camera is in a deep power off state.
[0034]
(Operation)
Hereinafter, the operation of the present embodiment will be described with reference to the flowcharts shown in FIGS.
[0035]
FIG. 5 is a flowchart showing a process for determining whether an info battery or a normal battery is loaded in the digital camera after power-on. That is, it is a flowchart showing processing after a power-on reset is performed, such as when the power switch is turned on or when the AC power supply is removed while a battery is loaded.
[0036]
In this process, as a result of the communication process, it is determined whether or not the reception is completed before a predetermined time has passed (S11, S12, S13). If the reception is completed, the info battery flag is turned on (S14). If the reception is not completed, the info battery flag is turned off (S15).
[0037]
That is, when the info battery is loaded in the digital camera, the communication terminals 29 and 30 and the terminals 47 and 48 are connected to enable communication, and thereby the info battery is loaded. Judgment is made. On the other hand, when a normal battery is loaded in the digital camera, communication cannot be performed, so that it is determined that a normal battery is loaded instead of the info battery.
[0038]
FIG. 6 is a flowchart showing a process for selecting either the info battery battery check or the normal battery check according to whether the info battery flag is on or off.
[0039]
That is, it is determined whether the info battery flag is on or off (S21). If the info battery flag is on, a battery check for info battery is performed, and the remaining amount for info battery is displayed on the control LCD 20. (S22) When the info battery flag is off, the battery check for the normal battery is performed, and the remaining amount for the normal battery is displayed on the panel LCD 20 (S23).
[0040]
As described above, when an info battery is loaded in the digital camera, a battery check for the info battery and a remaining amount display for the info battery are performed. When a normal battery is loaded, the battery for the normal battery is displayed. By performing the battery check and displaying the remaining amount for the normal battery, the remaining amount of the battery can be properly grasped according to the loaded battery, and the usability of the digital camera can be improved.
[0041]
FIG. 7 is a flowchart showing an operation example when the battery check for the normal battery is selected by the processing shown in FIG.
[0042]
First, the battery voltage is detected by the A / D converter 21, the voltage detector 22, and the like. Specifically, when the camera is in a load state, that is, when the load of the digital process circuit 14, the lens driving unit 15, the liquid crystal monitor 19, or the dummy load unit 26 is on (operating state). The battery voltage is detected (S31).
[0043]
When the voltage detector 22 detects that the battery voltage is equal to or lower than the lock voltage, the camera is locked and a display indicating that the battery voltage is the lock voltage is displayed on the panel LCD 20, for example, corresponding to FIG. NG display is performed (S32, S33).
[0044]
When it is determined that the battery voltage is within the warning voltage range based on the voltage information from the A / D converter 21 (S34), a display indicating that the battery voltage is within the warning voltage range is displayed on the panel LCD 20, for example, FIG. ) Is displayed (S34, S35).
[0045]
When it is determined that the battery voltage is equal to or higher than the warning voltage based on the voltage information from the A / D converter 21, an indication that the remaining battery level is sufficient is displayed on the panel LCD 20, for example, FIG. OK display corresponding to is performed (S36).
[0046]
FIG. 8 is a flowchart showing a first operation example when the battery check for info battery is selected by the process shown in FIG.
[0047]
When the info battery 2 is loaded in the digital camera main body 1, the communication terminals 29 and 30 and the terminals 47 and 48 are connected to transmit and receive information by communication.
[0048]
First, in order to determine the type of info battery loaded, a transmission request is made from the digital camera body 1 to the info battery 2 and an answer to the request is received from the info battery 2 (S41, S42). Subsequently, information about the lock voltage is transmitted from the digital camera body 1 to the info battery 2 (S43).
[0049]
In order to grasp the remaining battery level of the info battery, a transmission request is made from the digital camera body 1 to the info battery 2, and an answer to the request is received from the info battery 2 (S44, S45). That is, in the info battery 2, the consumed electric energy is detected by the current / voltage detection unit 42, the remaining amount of the battery is calculated by the CPU 43 based on the detection result, and the calculation result is sequentially written in the EEPROM 44. Through the communication, the digital camera body 1 can acquire information on the remaining battery level.
[0050]
When the remaining battery level is displayed as a percentage, the camera operation stops when the voltage is lower than the lock voltage. Therefore, the reference is based on the lock voltage rather than the reference (0%) when the remaining battery power is zero. 0%) is easier for users to understand. From such a viewpoint, the remaining battery level is calculated as follows.
[0051]
The remaining power amount based on the state where the remaining amount of the battery itself becomes zero is referred to as the total remaining power amount, Pa is the total remaining power amount of the battery at that time, and the total remaining power amount when the battery is fully charged Is Pfull, and the total remaining battery power at the lock voltage is Plock. In this case, the remaining power amount P1 of the battery at that time based on the lock voltage time (that is, actually usable) is (Pa-Plock), and the remaining battery power at the time of full charge based on the lock voltage time is The amount of power P2 is (Pfull-Plock). Therefore, when the remaining amount actually usable with reference to the time of the lock voltage is expressed as a percentage, (P1 / P2) × 100 (%).
[0052]
The info battery 2 calculates (P1 / P2) described above and transmits the calculation result to the digital camera body 1. Since the remaining power amount varies depending on the ambient temperature of the battery, the remaining amount may be calculated in consideration of the temperature condition. Further, the remaining amount may be calculated not on the info battery 2 side but on the digital camera body 1 side.
[0053]
In the digital camera body 1, the battery voltage is detected by the A / D converter 21 and the voltage detector 22 (S 46), and the detected voltage falls within the warning voltage range (less than 30% in terms of percentage of remaining power). (S47). If it is within the warning voltage range, it is determined whether or not the value (calculated value) calculated by the info battery 2 is less than 30% (S48).
[0054]
If it is determined that the voltage detected in step S47 is not within the warning voltage range, or if it is determined in step S48 that the calculated value calculated by the info battery 2 is less than 30%, the calculated value is The percentage is displayed on the panel LCD 20 as it is (S49).
[0055]
If it is determined in step S48 that the calculated value calculated by the info battery 2 is not less than 30%, that is, 30% or more, “29%” is displayed on the panel LCD 20 instead of the calculated value ( S50). That is, when the detected voltage is within the warning voltage range, that is, less than 30%, for example, the battery mark portion 20a on the panel LCD 20 shown in FIG. 4 is in a warning display state. If the percentage display of 30% or more is displayed on the pattern portion 20b, a mismatch in display occurs between the two, and the user is confused. In order to prevent such a situation, “29%” is displayed on the panel LCD 20 instead of the calculated value so that mismatch does not occur.
[0056]
Furthermore, when it is determined in step S48 that the calculated value calculated by the info battery 2 is not less than 30%, the digital camera body 1 requests the info battery 2 to correct the calculated value (S51). . In other words, since there is an error in the calculated value with respect to the detected value, the corrected value obtained by multiplying the calculated value by the coefficient is transmitted to the digital camera body 1 thereafter. For example, if the detected value is 25% and the calculated value is 35%, then the info battery 2 transmits the calculated value × (25/35) to the digital camera body 1 as a corrected value. The coefficient is reset when recharging is performed.
[0057]
Further, the digital camera body 1 determines whether or not the battery voltage detected by the voltage detector 22 is equal to or lower than the lock voltage (S52). If the voltage is equal to or lower than the lock voltage, “0%” is displayed on the panel LCD 20. Is displayed (S53). Similarly to the warning display described above, if the calculated value is larger than 0% (for example, 10%) even though the detected voltage is lower than the lock voltage, there is a mismatch in display between the two. This is because the user is confused. Instead of detecting by the voltage detector 22, a voltage slightly higher than the lock voltage may be detected by the voltage detector 23, and similar processing may be performed when such a voltage is detected.
[0058]
FIG. 9 is a flowchart showing a second operation example when the battery check for info battery is selected by the process shown in FIG.
[0059]
The steps S61 to S66 are the same as the steps S41 to S46 in the first operation example shown in FIG.
[0060]
In this operation example, after step S66, based on the remaining battery level obtained by the calculation, the corresponding battery voltage is calculated (S67). As a result, when the calculated value is smaller than the detected value obtained in step S66, the remaining battery level corresponding to the calculated value is displayed as a percentage on the panel LCD 20 (S69). If the calculated value is greater than or equal to the detected value obtained in step S66, the remaining battery value corresponding to the detected value is displayed as a percentage on the panel LCD 20 instead of the calculated value (S70).
[0061]
Subsequent basic operations of S71 to S73 are the same as the steps of S51 to S53 in the first operation example, and thus description thereof is omitted.
[0062]
As described above, according to the operation examples shown in FIGS. 8 and 9, the calculated value (the calculated value corresponding to the battery voltage or the remaining battery level) is the detected value (the detected value corresponding to the battery voltage or the remaining battery level). In contrast, when the display contradicts, the display is corrected, so that unnecessary confusion of the user can be prevented and usability can be improved.
[0063]
Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention. Furthermore, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining the disclosed constituent elements. For example, even if several constituent requirements are deleted from the disclosed constituent requirements, the invention can be extracted as an invention as long as a predetermined effect can be obtained.
[0064]
【The invention's effect】
According to the present invention, since the battery check and the remaining amount display are switched according to the loaded battery, the remaining amount of the battery can be properly grasped according to the loaded battery, and the usability of the digital camera can be improved. It becomes possible to improve.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a main part of a digital camera according to an embodiment of the present invention.
FIG. 2 is a diagram showing a part of a display pattern of a panel LCD for a digital camera according to an embodiment of the present invention.
FIG. 3 is a diagram showing an example of a display form on a panel LCD for the digital camera according to the embodiment of the present invention.
FIG. 4 is a view showing another example of the display form on the control panel LCD for the digital camera according to the embodiment of the present invention.
FIG. 5 is a flowchart showing an operation example of the digital camera according to the embodiment of the present invention.
FIG. 6 is a flowchart showing an operation example of the digital camera according to the embodiment of the present invention.
FIG. 7 is a flowchart showing an operation example of the digital camera according to the embodiment of the present invention.
FIG. 8 is a flowchart showing an operation example of the digital camera according to the embodiment of the present invention.
FIG. 9 is a flowchart showing an operation example of the digital camera according to the embodiment of the present invention.
[Explanation of symbols]
1. Digital camera body
2. Info battery
3. Normal battery
11 ... Photography lens system
12 ... Aperture
13 ... Image sensor
14 ... Digital process circuit
15. Lens drive unit
16 ... Zoom drive unit
17 ... Aperture control unit
18 ... System controller
19 ... LCD monitor
20 ... Panel LCD
21 ... A / D converter
22, 23 ... Voltage detector
24 ... Strobe section
25. Ranging section
26 ... Dummy load section
27, 28, 29, 30 ... terminals
41 ... Battery body
42 ... Current / voltage detector
43 ... CPU
44… EEPROM
45, 46, 47, 48 ... terminals
51 ... Battery body
52, 53 ... terminals

Claims (2)

A digital camera that operates on power from a battery,
Information storage means for storing information relating to the remaining battery capacity, and first battery check means for performing battery check of a first battery having a terminal for information communication ;
A second battery check means for performing a battery check of a second battery having no information storage means ;
Detecting means for detecting which of the first battery and the second battery is loaded;
From the detection result of the detection means, when the first battery is loaded, information on the remaining amount of the battery is acquired via the information communication terminal, and a stepwise remaining amount display according to the remaining battery level is obtained. The battery remaining amount is displayed as a numerical value based on the information on the remaining battery amount, and when the second battery is loaded, a battery check is performed and a stepwise remaining amount display according to the remaining battery amount is performed. Display means;
A digital camera characterized by comprising When the first battery is loaded, the display means performs a stepwise remaining amount display according to the battery remaining amount and a numerical value display of the battery remaining amount, and then turns off the numerical value display of the battery remaining amount, The digital camera according to claim 1 , wherein only a stepwise remaining amount display according to a remaining battery amount is performed.

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