JP2004303551A - Electronic apparatus and printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To supplementarily charge a secondary battery so as to bring a ratio of a charge amount to a battery capacity close to a predetermined amount. <P>SOLUTION: In a supplementary charge mode, a motor driving part 23b of a discharge part 23 discharges the secondary battery 16 by driving a motor 10a of a paper feed mechanism 10 until the ratio of the charge amount to the battery capacity of the secondary battery 16 comes into a state close to 0%. Thereafter, a supplementary charge part 24 supplemetarily charges the secondary battery 16 until a charge time measured by a charge time measurement part 24a lapses a predetermined time Tm. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic device and a printer including a rechargeable secondary battery.
[0002]
[Prior art]
2. Description of the Related Art A relatively small and portable electronic device such as a notebook computer and a printer is generally provided with a rechargeable battery, that is, a secondary battery. Therefore, the user can continue using the electronic device by appropriately charging the secondary battery when the storage amount of the secondary battery is reduced by using the electronic device. When the secondary battery is sufficiently charged so that the storage amount of the secondary battery is close to 100%, the user can use the electronic device for a long time. In addition, as the secondary battery, for example, a lithium ion battery is used.
[0003]
Patent Literature 1 discloses that if the secondary battery has a remaining charge amount when charging the secondary battery is started, the charge to the secondary battery is not started as it is, and the remaining charge amount of the secondary battery is not changed. There is disclosed a technique for preventing charging / discharging characteristics of the secondary battery from deteriorating by forcibly discharging the secondary battery until the battery disappears and then starting charging. According to an electronic device using this technology, the secondary battery can be charged until the state of charge of the secondary battery becomes close to 100% while preventing deterioration of the charge and discharge characteristics of the secondary battery.
[0004]
[Patent Document 1]
JP-A-4-351434 (page 2-3, FIG. 1)
[0005]
[Problems to be solved by the invention]
When an electronic device including a secondary battery is manufactured by a manufacturer, the electronic device is shipped with the secondary battery mounted therein. Here, the United Nations Transport Regulations stipulate that electronic devices equipped with secondary batteries must not be transported when the ratio of the storage capacity to the battery capacity is 50% or more. There is. Also, if the secondary battery is left for a long time in a state where the ratio of the charged amount to the battery capacity is close to 0%, a small current flows through the circuit connected to the secondary battery, and the battery itself self-discharges, causing This causes a chemical reaction, which leads to deterioration of battery characteristics such as shortening of service life and reduction of capacity of the secondary battery. Therefore, the maker of the electronic device recharges the secondary battery to a state as close as possible to 50% as long as the ratio of the charged amount to the battery capacity does not exceed 50%, and recycles the electronic device equipped with the secondary battery. It is desirable to ship.
[0006]
Accordingly, a main object of the present invention is to provide an electronic device and a printer capable of supplementarily charging a secondary battery such that a ratio of a charged amount to a battery capacity is close to a predetermined amount.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the electronic device according to claim 1, further comprising: discharging means for discharging the secondary battery until a ratio of the charged amount to the battery capacity reaches a first value; and battery capacity after discharging by the discharging means. And a supplementary charging means for supplementarily charging the secondary battery until the ratio of the charged amount to the battery reaches a second value.
[0008]
Further, the printer according to claim 4 is a printer that includes a paper feeding mechanism and a printing mechanism, and can be driven by a secondary battery, wherein the ratio of the charged amount to the battery capacity becomes a first value. By driving a feed mechanism or a printing mechanism, a discharging unit for discharging the secondary battery, and after the discharging by the discharging unit, supplementing the secondary battery until a ratio of a charged amount to a battery capacity becomes a second value. And a supplementary charging means for charging.
[0009]
According to the first and fourth aspects, after the secondary battery is discharged until the ratio of the charged amount to the battery capacity reaches the first value, the secondary battery is discharged until the ratio of the charged amount to the battery capacity reaches the second value. The battery is supplementarily charged. Therefore, the secondary battery is supplementarily charged until the ratio of the charged amount to the battery capacity is once reduced to the first value and then reaches the charged amount corresponding to the second value.
[0010]
Also, in the electronic device according to claim 2, the discharging unit measures a battery voltage of the secondary battery, and a battery voltage measuring unit that measures the battery voltage of the secondary battery based on the battery voltage measured by the battery voltage measuring unit. Determining means for determining whether or not to terminate the discharge.
[0011]
The printer according to claim 5, wherein the discharging means discharges the secondary battery based on a battery voltage measuring means for measuring a battery voltage of the secondary battery and a battery voltage measured by the battery voltage measuring means. And determining means for determining whether or not to end the process.
[0012]
According to the second and fifth aspects, the discharge can be terminated when the charged amount of the secondary battery becomes close to a predetermined amount based on the battery voltage measured by the battery voltage measuring means. Therefore, the discharging operation can be completed in a short time.
[0013]
The electronic device according to a third aspect of the present invention is characterized in that the electronic device further comprises a notifying unit for notifying that the auxiliary charging of the secondary battery by the auxiliary charging unit has been completed.
[0014]
The printer according to a sixth aspect of the present invention is further characterized by further comprising a notifying unit for notifying that the auxiliary charging of the secondary battery by the auxiliary charging unit has been completed.
[0015]
According to the third and sixth aspects, the operator can know immediately after the completion of the auxiliary charging, so that the working time is reduced.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram illustrating an external view of a printer 1 according to an embodiment of the present invention.
[0017]
The printer 1 shown in FIG. 1 is a small-sized portable printer that can be easily carried and used. The printer 1 can receive and store print data by performing data communication with a computer, for example, and execute printing based on the print data.
[0018]
A paper cassette (not shown) for storing paper of a predetermined size is loaded inside the printer 1, and a paper feed mechanism 10 (for discharging the paper from the paper cassette and discharging it from the discharge port 15 of the printer 1). 2) and a printing mechanism 11 (see FIG. 2) for printing on paper based on print data. Therefore, the printer 1 can discharge the printed paper from the discharge port 15 after performing desired printing on the paper of a predetermined size.
[0019]
The printer 1 has a controller 20 (see FIG. 2) for controlling various operations of the paper feed mechanism 10 and the printing mechanism 11 of the printer 1, and a rechargeable secondary battery 16 serving as a power supply of the printer 1. And Here, in the present embodiment, a lithium ion battery is used as the secondary battery 16. In addition, as the secondary battery 16, for example, a nickel-metal hydride battery, a nickel-cadmium battery, or another battery may be used.
[0020]
An LED 12 for displaying the operation state of the printer 1 is arranged near an end of the upper surface of the printer 1. In the printer 1, the LED 12 is turned on when the secondary battery 16 is being charged, and is turned off when the charging is completed.
[0021]
Further, connector mounting portions 13 and 14 are provided on the side surface of the printer 1. The connector mounting section 13 is for mounting the connector 18a connected to the AC adapter 18 when charging the secondary battery 16. Therefore, the secondary battery 16 can be charged by attaching the connector 18a to the connector attaching section 13 of the printer 1 and connecting the plug of the AC adapter 18 to the AC power supply.
[0022]
The connector mounting section 14 is for mounting a cable for connecting the printer 1 to a computer (not shown). Therefore, when the printer 1 is connected to the computer via the cable, it becomes possible to transmit print data from the computer to the printer 1 and to transmit a predetermined command signal from the computer to the printer 1. Note that the predetermined command signal includes a command signal for causing the printer 1 to execute the auxiliary charging of the secondary battery 16 in the auxiliary charging mode described in detail later.
[0023]
Next, a control system of the printer 1 will be described with reference to FIG. FIG. 2 is a simplified block diagram of a main part of the printer 1.
[0024]
As shown in FIG. 2, the controller 20 is connected with a motor 10a for driving a transport roller for transporting a sheet included in the paper feed mechanism 10, a printing mechanism 11, an LED 12, and a secondary battery 16 respectively. Have been.
[0025]
The controller 20 includes a CPU 51 that executes various calculations to generate signals for controlling the operation of each unit of the printer 1, a RAM 52 that temporarily stores data such as calculation results of the CPU 51, and various operations related to the printer 1. A ROM 53 for storing control programs and data, and a charging IC 54 for charging the secondary battery 16 are included.
[0026]
The CPU 51 includes a print control unit 21, a normal charging unit 22, a discharging unit 23, an auxiliary charging unit 24, and a notification unit 25. The print control unit 21 controls the printing mechanism 11 to execute printing on paper based on print data.
[0027]
The normal charging unit 22 charges the secondary battery 16 when the normal charging mode is set in the mode setting unit 27. The charging of the secondary battery 16 in the normal charging mode may be referred to as “normal charging”. Here, the normal charging unit 22 continues charging until the ratio of the charged amount to the battery capacity of the secondary battery 16 becomes close to 100%, and when the charged amount becomes close to 100%. End charging.
[0028]
When the auxiliary charging mode is set in the mode setting unit 27, the discharging unit 23 discharges the secondary battery 16 before the secondary charging of the secondary battery 16 is performed. The charging of the secondary battery 16 in the auxiliary charging mode may be referred to as “auxiliary charging”. Here, the discharging unit 23 includes a battery voltage measuring unit 23a, a motor driving unit 23b, and a determining unit 23c. The battery voltage measuring unit 23a measures the battery voltage of the secondary battery 16 when the secondary battery 16 is discharged in the auxiliary charging mode. Here, a detection time Ts, which is an interval of the detection time, is set in the battery voltage measurement unit 23a, and the battery voltage of the secondary battery 16 is measured each time the detection time Ts elapses.
[0029]
The motor drive unit 23b drives the motor 10a of the paper feed mechanism 10 to discharge the secondary battery 16 in the auxiliary charging mode. Here, the auxiliary charging of the secondary battery 16 in the auxiliary charging mode is performed before the printer 1 is shipped from the manufacturer, so that no paper cassette is loaded in the printer 1. Therefore, the motor 10a of the paper feed mechanism 10 can be driven freely to discharge the secondary battery 16.
[0030]
When the secondary battery 16 is discharged in the auxiliary charging mode, the determining unit 23c determines whether to terminate the discharging of the secondary battery 16 based on the battery voltage measured by the battery voltage measuring unit 23a. . Here, a threshold voltage is set in the determination unit 23c. Accordingly, the determination unit 23c terminates the discharge of the secondary battery 16 when the secondary battery 16 is discharged and the battery voltage reaches the threshold voltage.
[0031]
In the present embodiment, a value is set as the threshold voltage in the determination unit 23c so that the ratio of the charged amount to the battery capacity of the secondary battery 16 is close to 0%. Accordingly, the determination unit 23c determines that the battery is empty when the secondary battery 16 is discharged and the ratio of the charged amount to the battery capacity of the secondary battery 16 becomes close to 0%. The discharging of the next battery 16 is terminated.
[0032]
When the supplementary charging mode is set in the mode setting unit 27 (when the supplementary charging of the secondary battery 16 is performed in the supplementary charging mode), the supplementary charging unit 24 discharges the secondary battery 16 in the discharging unit 23. After the termination, the secondary battery 16 is supplementarily charged. The auxiliary charging unit 24 has a charging time measuring unit 24a. In the auxiliary charging section 24, a predetermined charging time Tm of the secondary battery 16 in the auxiliary charging mode is set. Therefore, when the charging time of the secondary battery 16 measured by the charging time measuring unit 24a reaches the predetermined time Tm, the auxiliary charging unit 24 ends the auxiliary charging of the secondary battery 16. Here, the auxiliary charging unit 24 determines the timing to end the auxiliary charging of the secondary battery 16 by measuring the charging time of the secondary battery 16 by the charging time measuring unit 24a. The ratio of the charged amount to the battery capacity after charging can be accurately set close to a predetermined amount.
[0033]
Here, FIG. 3A shows the relationship between the charging time of the secondary battery 16 and its battery voltage. From FIG. 3A, the battery voltage of the secondary battery 16 after the elapse of the time Ta from the start of charging is Va, and at this time, the ratio of the charged amount to the battery capacity of the secondary battery 16 is 100%. You can see that there is. After a lapse of time Tb (= Ta / 2) from the start of charging, the battery voltage of the secondary battery 16 is Vb, and at this time, the ratio of the charged amount to the battery capacity of the secondary battery 16 is 50%. .
[0034]
FIG. 3B shows the relationship between the charging time of the secondary battery 16 and the current value of the charging current. From FIG. 3B, it can be seen that the charging current is constant at the current value Ia while the secondary battery 16 is being charged (from the start of charging to the time Ta in FIG. 3A). Accordingly, in FIG. 3A, while the secondary battery 16 is being charged, the battery voltage of the secondary battery 16 increases in proportion to the charging time.
[0035]
Here, the predetermined time Tm set in the auxiliary charging unit 24 is close to 50% within a range where the ratio of the charged amount to the battery capacity of the secondary battery 16 at the time when the auxiliary charging is completed does not exceed 50%. Is set to be The predetermined time Tm is most preferably as close as possible to 50% as long as the ratio of the charged amount to the battery capacity does not exceed 50%. In the present embodiment, for example, the charging characteristics of the secondary battery 16 The predetermined time Tm is set in the auxiliary charging unit 24 such that the ratio of the charged amount to the battery capacity becomes 40% to 45% in consideration of the variation of the battery capacity.
[0036]
For example, when the battery capacity of the secondary battery 16 is 740 mAh, the charge amount of the secondary battery 16 becomes 100% in one hour with a charging current of 740 mA. Therefore, if the predetermined time Tm is set to 25 minutes, the auxiliary charging is terminated when the charged amount of the secondary battery 16 becomes about 42%. Here, when the predetermined time Tm is set so that the charged amount of the secondary battery 16 is about 42%, a margin is set for a state where the charged amount of the secondary battery 16 is 50%. Therefore, after the auxiliary charging of the secondary battery 16 in the auxiliary charging mode is completed, it is possible to prevent the state of charge of the secondary battery 16 from exceeding 50%.
[0037]
In the normal charging mode and the auxiliary charging mode, when the secondary battery 16 is being charged, the notification unit 25 turns on the LED 12 to display the fact. Therefore, the user can confirm that the rechargeable battery 16 is being charged in the normal charging mode by confirming that the LED 12 is lit, and change the LED 12 from the lit state to the lit state. By confirming the change, it is possible to confirm that the charging of the secondary battery 16 in the normal charging mode has been completed.
[0038]
In addition, the operator performing supplementary charging before shipment at the manufacturer can confirm that supplementary charging of the secondary battery 16 in the supplementary charging mode is being performed by confirming that the LED 12 is lit. In addition, by confirming that the LED 12 changes from the lit state to the extinguished state, it is possible to confirm that the auxiliary charging of the secondary battery 16 in the auxiliary charging mode has been completed.
[0039]
In the RAM 52, a print data storage unit 26 and a mode setting unit 27 are formed. The print data storage unit 26 stores print data transmitted from the computer.
[0040]
In the mode setting section 27, a mode for a charging operation in the printer 1 is set. Here, in the present embodiment, any one of the normal charging mode and the auxiliary charging mode is set in the mode setting unit 27. If the printer 1 is connected to an AC power supply via an AC adapter 18 and a command signal for performing supplementary charging to the printer 1 is sent from the computer before shipment from the manufacturer, the mode The auxiliary charging mode is set in the setting unit 32.
[0041]
On the other hand, when the printer 1 is connected to an AC power supply via the AC adapter 18 by the user, the mode setting unit 27 sets the normal charging mode. That is, the supplementary charging of the secondary battery 16 is a special operation performed only before shipment by the manufacturer, and the supplementary charging of the printer 1 from the computer is performed by the operator of the supplementary charge before shipment by the manufacturer. Is transmitted. Therefore, when the user who has purchased the printer 1 charges the secondary battery 16, the secondary battery 16 is charged in the normal charging mode.
[0042]
Next, a charging circuit of the secondary battery 16 of the printer 1 will be described with reference to FIG. FIG. 4 is an equivalent circuit diagram of a charging circuit of the secondary battery 16. In FIG. 4, the positive electrode of the secondary battery 16 has an A / D conversion port of the CPU 51, a motor 10a of the paper feed mechanism 10, a resistor R1, a diode D1, and a PNP transistor Tr1 (a drive resistor R2 has an emitter and a base. Connected to the AC adapter 18. On the other hand, the negative electrode of the secondary battery 16 is grounded. The CPU 51 is connected to the charging IC 54 via a signal line 61 and to the motor 10 a via a signal line 62.
[0043]
The charging IC 54 includes a port P1 connected to the base of a transistor Tr1 functioning as a switching element, a port P2 connected between a diode D1 for backflow prevention and a resistor R1, a resistor R1 and a rechargeable battery 16. And two ports P3 and P4 connected between them, and a port P5 grounded. The charging IC 54 detects the value of the charging current flowing through the resistor R1 by measuring the voltage between the ports P2 and P3, and determines the charging voltage of the secondary battery 16 by measuring the voltage between the ports P4 and P5. To detect.
[0044]
When the charging IC 54 receives the charging start signal from the CPU 51 via the signal line 61, the charging IC 54 controls the output signal from the port P1 to turn on the transistor Tr1. Thereby, charging of the secondary battery 16 is started. The CPU 51 measures an elapsed time from the charging start time. Then, when a predetermined time Tm has elapsed from the charging start time, a charging end signal is sent to the charging IC 54 via the signal line 61. Then, the charging IC 54 controls the output signal from the port P1 to turn off the transistor Tr1. Thereby, the charging of the secondary battery 16 ends. When discharging the secondary battery 16, the CPU 51 outputs a drive command for rotating the motor 10 a to the motor 10 a.
[0045]
Next, an operation procedure in the auxiliary charging mode in the printer 1 will be described with reference to FIG. FIG. 5 is a flowchart illustrating an operation procedure in the supplementary charging mode in the printer 1.
[0046]
In the auxiliary charging mode, first, it is determined whether or not the secondary battery 16 is being charged in the normal charging mode (step S101). Here, in step S101, when it is determined that the charging of the secondary battery 16 in the normal charging mode is performed (S101: YES), the process proceeds to step S102, and the charging of the secondary battery 16 is stopped. (Step S102). Thereafter, the process proceeds to step S103. On the other hand, if it is determined in step S101 that the secondary battery 16 has not been charged in the normal charging mode (S101: NO), the process proceeds to step S103.
[0047]
Then, the battery voltage of the secondary battery 16 is measured in the idling state by the battery voltage measuring unit 23a (Step S103). Subsequently, it is determined whether or not the battery voltage of the secondary battery 16 measured in step S103 is equal to or lower than the threshold voltage, that is, whether or not the battery is empty (step S104). Here, when it is determined in step S104 that the battery is not empty (S104: NO), the process proceeds to step S105.
[0048]
Here, since the secondary battery 16 has the remaining charged amount, the drive of the motor 10a of the paper feed mechanism 10 is started by the motor driving unit 23b in order to eliminate the remaining charged amount (step S105). That is, at this time, the motor driving unit 23b outputs a driving command for rotating the motor 10a to the motor 10a.
[0049]
Subsequently, after the driving of the motor 10a of the paper feed mechanism 10 is started, the determination unit 23c determines whether the detection time Ts has elapsed (step S106). Here, when it is determined in step S106 that the detection time Ts has elapsed (S106: YES), the process returns to step S103, and the same processing as described above is repeated. On the other hand, when it is determined in step S106 that the detection time Ts has not elapsed (S106: NO), this processing is repeated.
[0050]
If it is determined in step S104 that the battery is empty (S104: YES), the process proceeds to step S107. Then, in order to start the auxiliary charging of the secondary battery 16 by the auxiliary charging unit 24, the driving of the motor 10a of the paper feed mechanism 10 is stopped by the motor driving unit 23b (step S107). Then, the auxiliary charging of the secondary battery 16 is started by the auxiliary charging unit 24 (step S108). That is, at this time, the charging IC 54 receives the charging start signal from the CPU 51, controls the output signal from the port P1, and turns on the transistor Tr1. At this time, the LED 12 is turned on by the notification unit 25 to display that the secondary battery 16 is being supplementarily charged (step S109).
[0051]
Then, after the auxiliary charging of the secondary battery 16 is started, the auxiliary charging unit 25 determines whether or not a predetermined time Tm has elapsed (step S110). Here, when it is determined in step S110 that the predetermined time Tm has elapsed (S110: YES), the process proceeds to step S111, and the auxiliary charging unit 24 ends the auxiliary charging of the secondary battery 16 (step S111). . That is, at this time, the auxiliary charging unit 24 sends a charging end signal to the charging IC 54. Then, the charging IC 54 controls the output signal from the port P1 to turn off the transistor Tr1. Thereafter, the notification unit 25 turns off the LED 12 (Step S112). On the other hand, when it is determined in step S110 that the predetermined time Tm has not elapsed (S110: NO), this processing is repeated.
[0052]
In the present embodiment, the operator of the manufacturer who performs supplementary charging before shipment is only required to operate the printer 1 to perform supplementary charging of the secondary battery 16 in the supplementary charging mode. , The secondary battery 16 can be supplementarily charged. Therefore, the operator can perform the supplementary charging of the plurality of printers 1 in parallel before shipping.
[0053]
As described above, in the printer 1 according to the present embodiment, after discharging the secondary battery 16 until the ratio of the charged amount to the battery capacity of the secondary battery 16 is close to 0%, the predetermined time Tm The secondary battery 16 is supplementarily charged until elapses. Accordingly, for the secondary battery 16 in which the ratio of the charged amount to the battery capacity is close to 0%, the secondary battery 16 is operated until the ratio of the charged amount to the battery capacity is close to 50% within a range not exceeding 50%. The battery 16 can be supplementarily charged. As a result, the amount of power stored in the secondary battery 16 can be reliably set at around a predetermined amount before shipment. As a result, it is possible to prevent deterioration of battery characteristics such as shortening of service life and reduction of capacity of the secondary battery 16 and to conform to various regulations concerning shipping of the printer 1 including the secondary battery 16.
[0054]
Further, when the battery voltage of the secondary battery 16 reaches the threshold voltage based on the battery voltage measured by the battery voltage measuring unit 23a, the discharge of the secondary battery 16 can be terminated. Therefore, the discharging operation can be completed in a short time.
[0055]
When the supplementary charging of the secondary battery 16 in the supplementary charging mode is completed, the notification unit 25 turns off the lit LED 12, so that the operator can know immediately after the completion of the supplementary charging. Be shortened.
[0056]
The preferred embodiment of the present invention has been described above. However, the present invention is not limited to the above-described embodiment, and various design changes can be made within the scope of the appended claims. For example, in the above-described embodiment, in the auxiliary charging mode, the secondary battery 16 is discharged until the ratio of the charged amount to the battery capacity of the secondary battery 16 becomes close to 0%. However, the discharge does not have to be performed until the ratio of the charged amount to the battery capacity becomes close to 0%. Therefore, the ratio of the charged amount to the battery capacity of the secondary battery 16 after being discharged in the auxiliary charging mode can be set arbitrarily. However, the secondary battery 16 needs to be discharged until it becomes smaller than at least a preset ratio of the charged amount to the battery capacity of the secondary battery 16 after the supplementary charge.
[0057]
In the above-described embodiment, the predetermined time Tm is set such that the ratio of the charged amount to the battery capacity of the secondary battery 16 after the supplementary charge is 40% to 45%, but the secondary battery after the supplementary charge is set. The ratio of the charged amount to the 16 battery capacities can be set arbitrarily.
[0058]
In the above-described embodiment, in the auxiliary charging mode, the elapsed time from the charging start time is measured, and the auxiliary charging of the secondary battery 16 is terminated when a predetermined time has elapsed from the charging start time. The battery voltage of the secondary battery 16 is monitored based on the input from the A / D conversion port. When the battery voltage of the secondary battery 16 reaches a predetermined voltage, the auxiliary charging of the secondary battery 16 is terminated. Is also good.
[0059]
In the above-described embodiment, in the auxiliary charging mode, the discharge of the secondary battery 16 is terminated when the battery voltage of the secondary battery 16 reaches the threshold voltage. For example, other methods may be used to determine the time for ending the discharge of the secondary battery 16 such as ending the operation.
[0060]
In the above-described embodiment, when the supplementary charge of the secondary battery 16 in the supplementary charge mode is completed, the notification unit 25 turns off the lit LED 12 so that the operator can confirm. There may be no notification means such as the LED 12 for notifying that the supplementary charging of the secondary battery 16 has been completed.
[0061]
In the above-described embodiment, the motor driving unit 23b drives the motor 10a of the paper feed mechanism 10 to discharge the secondary battery 16 in the auxiliary charging mode, but the motor driving unit 23b operates in the auxiliary charging mode. The printing mechanism 11 may be driven to discharge the secondary battery 16.
[0062]
In the above-described embodiment, the printer 1 including the secondary battery 16 has been described. Obtainable.
[0063]
【The invention's effect】
According to the first and fourth aspects, after the secondary battery is discharged until the ratio of the charged amount to the battery capacity reaches the first value, the secondary battery is discharged until the ratio of the charged amount to the battery capacity reaches the second value. The battery is supplementarily charged. Therefore, the secondary battery is supplementarily charged until the ratio of the charged amount to the battery capacity is once reduced to the first value and then reaches the charged amount corresponding to the second value. Therefore, the storage amount of the secondary battery can be reliably set at around the predetermined amount before shipment. As a result, it is possible to prevent deterioration of battery characteristics such as shortening of service life and reduction of capacity of the secondary battery, and it is possible to comply with various regulations on shipping of electronic devices including the secondary battery.
[0064]
According to the second and fifth aspects, the discharge can be terminated when the charged amount of the secondary battery becomes close to a predetermined amount based on the battery voltage measured by the battery voltage measuring means. Therefore, the discharging operation can be completed in a short time.
[0065]
According to the third and sixth aspects, the operator can know immediately after the completion of the auxiliary charging, so that the working time is reduced.
[Brief description of the drawings]
FIG. 1 is a schematic diagram illustrating an external view of a printer according to an embodiment of the present invention.
FIG. 2 is a simplified block diagram of a main part of the printer.
FIG. 3A shows the relationship between the charging time of a secondary battery and its battery voltage.
FIG. 3B shows the relationship between the charging time of the secondary battery and the current value of the charging current.
FIG. 4 is an equivalent circuit diagram of a charging circuit for a secondary battery.
FIG. 5 is a flowchart illustrating an operation procedure in a supplementary charging mode in the printer.
[Explanation of symbols]
1 Printer (electronic equipment)
10 Paper feed mechanism
11 Printing mechanism
12 LED
16 Secondary battery
21 Print control unit
22 Normal charging section
23 Discharge part (discharge means)
23a Battery voltage measuring unit (battery voltage measuring means)
23b Motor drive unit
23c Judgment unit (judgment means)
24 Auxiliary charging unit (auxiliary charging means)
24a Charge time measurement unit
25 Notification section (reporting means)

Claims (6)

Discharging means for discharging the secondary battery until the ratio of the charged amount to the battery capacity reaches a first value;
An electronic device, comprising: a supplementary charging unit configured to supplementarily charge the secondary battery until the ratio of the charged amount to the battery capacity reaches a second value after the discharging by the discharging unit. The discharging means,
Battery voltage measuring means for measuring the battery voltage of the secondary battery,
The electronic device according to claim 1, further comprising: a determination unit configured to determine whether to terminate discharging of the secondary battery based on the battery voltage measured by the battery voltage measurement unit. The electronic device according to claim 1, further comprising a notification unit that notifies that the auxiliary charging of the secondary battery by the auxiliary charging unit has been completed. A printer comprising a paper feed mechanism and a printing mechanism, which can be driven by a secondary battery,
A discharging unit that discharges the secondary battery by driving the paper feeding mechanism or the printing mechanism until the ratio of the charged amount to the battery capacity reaches a first value;
A printer comprising: a supplementary charging unit that supplementarily charges the secondary battery until the ratio of the charged amount to the battery capacity reaches a second value after the discharging by the discharging unit. The discharging means,
Battery voltage measuring means for measuring the battery voltage of the secondary battery,
5. The printer according to claim 4, further comprising: a determination unit configured to determine whether to terminate discharging of the secondary battery based on the battery voltage measured by the battery voltage measurement unit. The printer according to claim 4, further comprising a notification unit that notifies that the auxiliary charging of the secondary battery by the auxiliary charging unit has been completed.

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