KR20060087475A - Portable charger of mobile phone for combinaing flash-light - Google Patents

Abstract

The present invention can also be used as a flash at night, and at the same time, it is possible to charge the battery mounted in the mobile phone, the structure is simple, the manufacturing cost can be reduced, as well as compact and easy to carry flash An object of the present invention is to provide a combined portable charging device.

Flash dual purpose charging device

Description

PORTABLE CHARGER OF MOBILE PHONE FOR COMBINAING FLASH-LIGHT}

1 is a perspective view schematically showing a portable charging device incorporating a conventional rechargeable battery,

Figure 2 is a block diagram schematically showing a flash portable charging device according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: Plug 2: Full-wave rectifying means

3: First connector 5: Secondary battery

7: Charge and discharge protection measures 9: Power on / off and mode selector switch

11: Second connector 13: Battery voltage detection means

15: Step-up circuit 17: DC jack

19: Charging means 21: Flash switch

The present invention relates to a flash-compatible portable charging device, and can be used as a flash at night, at the same time, the battery mounted on the mobile phone can be charged with a constant charging power, the structure is simple, to reduce the manufacturing cost In addition, the present invention relates to a flash portable charging device that can be easily carried by being compact.

As a portable charging device incorporating a rechargeable battery widely used in the related art, it is disclosed in Korean Utility Model Registration No. 20-0275514 (Registration Date; May 1, 2002).

As shown in FIG. 1, the portable charging device including the rechargeable battery disclosed in Registration No. 20-0275514 of the Utility Model Registration Publication has a power plug 111 connected to a home power outlet on one side of the main body 100. The installed AC power supply connection unit 110 is attached.

The power plug 111 is folded at right angles through the rotation shaft 112 provided inside the main body 100 and fixed to the surface of the main body 100 at right angles when used (shown in dashed lines), and when not in use. It is configured to be seated in the insertion groove 113 formed on one side of.

In addition, a cable 151 and an interface jack 152 provided on one side of the cable 151 are electrically connected to an interface connector (not shown) such as a mobile phone (or a mobile phone) on one side of the main body 100. Is installed. The internal terminal of the interface connector of the mobile phone (not shown) is electrically connected to the positive terminal (+), the negative terminal (-) and the identification data input terminal (IN) of the cable 151 to transmit identification data of the rechargeable battery. The charging current is supplied from the charging device to charge the battery of the mobile phone (not shown).

By the way, the portable charging device with a built-in conventional rechargeable battery configured to charge a rechargeable battery such as a mobile phone even in a place where it is difficult to use home AC power or a battery power of a car, it is inconvenient to carry and also the battery of the mobile phone To charge the cable 152 is provided with an interface jack 152 is connected to the interface connector (not shown) of the mobile phone, and the other end of the cable 152 is electrically connected to the main body 100 Because it should be, not only has the problem that the charging operation is complicated and inconvenient, but also had various problems such as not being used as a flashlight (flash) at night.

Therefore, the present invention has been made to solve the above various problems, the object of the present invention can be used as a flash at night, and at the same time, a flash-compatible portable charging that can charge the battery mounted on the mobile phone with a constant charging power To provide a device.

Another object of the present invention is to provide a flash-compatible portable charging device that is simple in structure and can reduce manufacturing cost.

Still another object of the present invention is to provide a flash-compatible portable charging device that is compact and easily portable.

In order to achieve the above object, according to the present invention, when a plug is connected to an AC power source, full-wave rectifying means for full-wave rectifying AC power, and a ground voltage output from the full-wave rectifying means are received through a ground voltage detection resistor through a first connector. Charge and discharge protection means for protecting the secondary battery from overcharging and preventing overdischarge of the secondary battery, and connected between the secondary battery and the charge and discharge protection means to detect charge and discharge voltages. The charge / discharge protection means input to the input terminal VDD of the charge / discharge protection means, and the charge voltage detected by the charge voltage detection resistor when the secondary battery is charged. When the charging voltage is increased from the charging control signal is output from the output terminal (O2) of the charge and discharge protection means is switched on to the secondary battery Charging the battery and simultaneously receiving the charging voltage detected by the charging / discharging voltage detecting resistor during charging of the secondary battery from the charging / discharging protection means and determining that the charging voltage is at a constant level, A second field effect transistor which is turned off because the charge control signal output from the second output terminal of the charge / discharge protection means is not output to the gate terminal to block overcharging of the secondary battery; The output terminal O1 of the charge / discharge protection means outputs a discharge control signal to the gate terminal to switch on, and at the same time, the discharge voltage detected by the charge / discharge voltage detection resistor during discharge of the secondary battery is read. When the discharge voltage is less than a predetermined level received by the charge and discharge protection means to determine that the over-discharge to the discharge of the secondary battery The first field effect transistor is turned off because the discharge control signal is not output from the first output terminal 01 of the charge / discharge protection means, and the output of the secondary battery is interrupted and the charge voltage of the secondary battery is detected. When the power on / off and mode selection switch for outputting a mode signal, and when the power on / off and mode selection switch is pressed twice and released, the mode signal is received to detect the charging voltage of the secondary battery. A battery voltage detecting means, first to third light emitting diodes displaying the charging voltage of the secondary battery detected by the battery voltage detecting means, and pressing the power on / off and mode selection switch once When receiving the charging power of the secondary battery through the diode D1, the charging power of the secondary battery is charged and discharged at the inductance. Noise is filtered by the step-up circuit for boosting the one level, the first and second capacitors for filtering the noise by receiving the boosted power output from the step-up circuit through the output resistor, and the first and second capacitors. Receiving a boosted DC power supply through a DC jack to filter the noise; and receiving a boosted DC power with noise filtered from the third capacitor and filtering the noise from the fourth capacitor to a charging terminal of the second connector. Charging means for charging the connected mobile phone, fourth and fifth light emitting diodes indicating that the mobile phone connected to the charging terminal of the second connector is being charged by a boosted DC power output from the charging means; A flash switch for interrupting the lighting of the sixth and seventh light emitting diodes, which are flash lamps, and the sixth and seventh light emitting diodes The flash switch receives the signal upon one switching-on of the flash switch and is switched on by receiving a lighting control signal output from the battery voltage detecting means through a bias resistor and turns off the sixth and seventh light emitting diodes. Is composed of a transistor which is switched off when the control signal is not output from the battery voltage detection means and a fifth capacitor connected in parallel to the transistor to filter out noise when the signal is received at the time of two switching on It features.

Hereinafter, a portable dual flash device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram schematically showing a flash portable charging device according to an embodiment of the present invention.

As shown in FIG. 2, the flash-type portable charging device according to an embodiment of the present invention includes a full-wave rectifying means 2 for full-wave rectifying AC power when the plug 1 is connected to an AC power supply (not shown). Receiving the ground voltage output from the full-wave rectifying means (2) through the ground voltage detection resistor (R2) to protect the secondary battery (5) from overcharging through the first connector (3) and at the same time, the secondary battery (5) Charge and discharge protection means (7) which prevents over discharge, and is connected between the secondary battery (5) and the charge and discharge protection means (7) to detect the charge and discharge voltage to The charge detected by the charge / discharge voltage detection resistor R3 input to the input terminal VDD of the discharge protection means 7 and the charge voltage detection resistor R3 at the time of charging the secondary battery 5. When the charge voltage is increased by receiving a voltage from the charge / discharge protection means 7, The charge control signal is output from the output terminal O2 of the former protection means 7 to be switched on to charge the secondary battery 5 and at the same time the charging and charging of the secondary battery 5 is performed. When the charge voltage detected by the discharge voltage detection resistor R3 is received by the charge / discharge protection means 7, the charge voltage is determined to be overcharge, and the overcharge of the secondary battery 5 is blocked. The second field effect transistor FET2 turned off because the charge control signal output from the second output terminal 02 of the charge / discharge protection means 7 is not output to the gate terminal G, and the secondary battery 5 Is discharged from the output terminal (O1) of the charge / discharge protection means (7) to the gate terminal (G) to switch on, and at the time of discharge of the secondary battery (5). The discharge voltage detected by the charge / discharge voltage detection resistor R3 is charged or discharged. The first output terminal 01 of the charge / discharge protection means 7 to stop the discharge of the secondary battery 5 by determining that it is over discharge when the discharge voltage is received by the previous protection means 7 below the predetermined level. The mode signal for detecting the charging voltage of the secondary battery 5 while intermittently outputting the first field effect transistor FET1 and the secondary battery 5 which are turned off because the discharge control signal is not output. When the output power on / off and mode selection switch 9 and the power on / off and mode selection switch 9 are pressed twice and then the pressure is released, the mode battery receives the mode signal and Battery voltage detecting means 13 for detecting the charging voltage and the first to third light emitting diodes LED1, LED2, which display the charging voltage of the secondary battery 5 detected by the battery voltage detecting means 13, LED3) and the power on / off and mode selection switch 9 are pressed once When the pressure is released, the charging power of the secondary battery 5 is received through the diode D1 and the charging power of the secondary battery 5 is charged and discharged at the inductance L1. A first and second capacitor C1 for filtering noise by receiving the step-up circuit 15 for boosting the power supply level and the boosted power output from the step-up circuit 15 through the output resistors R4 and R5; (C2), a third capacitor (C3) for filtering the noise by receiving the boosted direct current power is filtered by the first and second capacitors (C1, C2) through the DC jack 17, and the third A mobile phone (not shown) connected to the charging terminals A and B of the second connector 11 after filtering the noise from the fourth capacitor C4 by receiving the boosted DC power with the noise filtered from the capacitor C3. Charging means 19 and a boosted DC power output from the charging means 19. Fourth and fifth light emitting diodes LED4 and LED5 indicating that the mobile phones (not shown) connected to the charging terminals A and B of the second connector 11 are being charged; A flash switch 21 for intermitting the lighting of the sixth and seventh light emitting diodes LED6 and LED7, and the flash switch 21 to illuminate the sixth and seventh light emitting diodes LED6 and LED7 at a constant illuminance. In response to the signal at the time of switching on once, the lighting control signal outputted from the battery voltage detecting means 13 is received through the bias resistor R13 and switched on, and the sixth and seventh light emitting diodes LED6 and LED7 are switched on. When the signal is received when the flash switch 21 is switched on twice so that the light is turned off, the lighting control signal is not output from the battery voltage detecting means 13 and is switched off. Connected in parallel to filter noise Which it is composed of a fifth capacitor (C5).

The full wave rectifying means 2 preferably uses a travel charger.

In the figure, reference numeral R1 denotes a charging current detection resistor for detecting the charging current.

Next, the operation and effect of the flash dual-use portable charging device according to an embodiment of the present invention configured as described above will be described.

First, when the plug 1 is electrically connected to an AC power supply (not shown), full-wave rectification of the AC power is performed by the full-wave rectifying means 2 to the DC power supply, and the lead wire of one side of the full-wave rectifying means 2 (eg , The charging current flowing through the + lead wire is detected by the charging / discharging current detection resistor R3 and inputted to the input terminal VDD of the charging / discharging protection means 7, and the A current is detected when the first and second field effect transistors FET1 and FET2 are switched on through the other lead wire (for example, a -lead wire) and a resistor R2, so that the charge / discharge protection means 7 Input to input terminal (VM).

Accordingly, the charge control signal is applied to the output terminal O2 of the charge / discharge protection means 7 as a bias voltage to the gate terminal G of the first field effect transistor FET1 and at the same time, the second field effect transistor is applied. Since the first and second field effect transistors FET1 and FET2 are switched on, the secondary battery connected to the first connector 3 is applied to the gate terminal G of the FET2 as a bias voltage. 5) begins to charge.

If a predetermined time has elapsed since the secondary battery 5 started to be charged and the charge voltage detected by the charge / discharge voltage detection resistor R3 is maintained at a constant level, the secondary battery 5 It is determined that the battery is overcharged, and the output terminal O2 of the charge / discharge protection means 7 cuts off the output of the charge control signal output to the gate terminal G of the second field effect transistor FET2, thereby preventing the second. The field effect transistor FET2 is switched off to prevent overcharging of the secondary battery 5.

As such, when the secondary battery 5 is charged, the power on / off and mode selection switch 9 is pressed once and then the pressure is released. Then, the secondary battery 5 is charged through the diode D1. The power is input to the input terminal EN of the step-up circuit 15 and the charging power of the secondary battery 5 is charged to the step-up circuit 15 while being charged and discharged at the inductance L1. .

At this time, after the power on / off and the mode selection switch 9 are pressed once and the pressure is released, the charging power of the secondary battery 5 is input terminal VATT IN of the battery voltage detecting means 13. Since it is input to the battery voltage detecting means 13 through), the charging power of the secondary battery (5) through the output terminal PO and the diode (D2) of the battery voltage detecting means 13 is the step It is input to the up circuit 15.

Accordingly, the step-up circuit 15 receives the divided voltage divided by the voltage dividing resistors R4 and R5 by boosting the charging amount according to the consumption of the secondary battery 5 to a predetermined level. Power boosted by is output from the output terminal (Vout), and after the noise is filtered from the capacitor (C1, C2) is input to the input terminal (VDD) of the battery voltage detection means (13).

At this time, when the flash switch 21 is pressed once, a signal monitoring that the flash switch 21 is pressed once is input to the second mode input terminal MODE2 of the battery voltage detecting means 13, The transistor Q1 is applied to the bias resistor R13 by applying a lighting control signal for turning on the flash lamps, that is, the sixth and seventh light emitting diodes LED6 and LED7, from the output terminal 03 of the battery voltage detecting means 13. ) Is switched on so that the boosted voltage, from which noise is filtered by the capacitors C1 and C2, is applied to the current limiting resistors R14 and R15 so that current is applied to the sixth and seventh light emitting diodes LED6 and LED7 and The sixth and seventh light emitting diodes LED6 and LED7 are turned on through the collector terminal-emitter terminal of the transistor Q1.

Since the step-up circuit 15 receives the charging power of the secondary battery 5 and constantly boosts and outputs it as much as the consumption amount, the illuminance of the sixth and seventh light emitting diodes LED6 and LED7 is determined by the transistor Q1. ) Is always radiated at a constant illuminance while switched on.

Next, when the flash switch 21 is pressed again (second time) to extinguish the sixth and seventh light emitting diodes LED6 and LED7, a signal is monitored that the flash switch 21 is pressed twice. Is input to the second mode input terminal MODE2 to the battery voltage detecting means 13, so that a flash lamp, i.e., the sixth and seventh light emitting diodes, is output from the output terminal 03 of the battery voltage detecting means 13; The lighting control signal for turning on the LEDs 6 and 7 is not output to the bias resistor R13. Accordingly, the transistor Q1 is switched off so that the sixth and seventh light emitting diodes LED6 and LED7 are turned off.

Meanwhile, a mobile phone (not shown) is connected to the charging terminals A and B of the second connector 11 while the secondary battery 5 is charged, and then charged to the DC jack 17. After the plug of the means 19 is connected (not shown), the power on / off and mode selection switch 9 is pressed once and then released to release the secondary battery 5 through the diode D1. Is supplied to the input terminal EN of the step-up circuit 15, and the charging power of the secondary battery 5 is charged and discharged at the inductance L1 to the step-up circuit 15. Is entered.

At this time, after the power on / off and the mode selection switch 9 are pressed once and the pressure is released, the charging power of the secondary battery 5 is input terminal VATT IN of the battery voltage detecting means 13. Since it is input to the battery voltage detecting means 13 through), the charging power of the secondary battery (5) through the output terminal (PO) and the diode (D2) of the battery voltage detecting means (13) It is input to the step-up circuit 15.

Accordingly, the step-up circuit 15 boosts the charging amount according to the consumption amount of the secondary battery 5 to a predetermined level and outputs it through the output resistors R4 and R5. The charging power is input to the charging means 19 after the noise is filtered at the capacitors C3 after passing through the DC jack 17 after the noise is filtered at the capacitors C1 and C2 and charging means 19. The charging power input to is not shown connected to the charging terminals A and B of the second connector 11 by the charging power output from the charging means 19 after the noise is filtered from the capacitor C4. Charge the batter of your mobile phone.

In this case, as the current flows through the fourth and fifth light emitting diodes LED4 and LED5 and the current limiting resistors R6 and R7, the fourth and fifth light emitting diodes LED4 and LED5 emit light to emit the second connector. It indicates that the battery of the mobile phone (not shown) connected to the charging terminals A and B of (11) is being charged.

Since the step-up circuit 15 receives the charging power of the secondary battery 5 and boosts the output at a constant amount as much as the consumption amount, the charging means 19 is operated while the second field effect transistor FET2 is switched. While maintaining the charging power output from the charge of the battery of the mobile phone (not shown) connected to the charging terminals (A, B) of the second connector (11).

In order to check the charging power charged in the secondary battery 5, when the power on / off and the mode selection switch 9 are pressed twice and the pressure is released, the battery voltage detecting means 13 Since the mode signal for detecting the charge amount of the secondary battery 5 is input to the first mode input terminal MODE1 of the battery, the charging power charged in the secondary battery 5 by the battery voltage detecting means 13 is input. When the level is detected and the charging power of the secondary battery 5 is charged above a predetermined level, at least one of the output terminals VB1, VB2, and VB3 of the battery voltage detecting means 13 At least one of the first to third light emitting diodes LED1, LED2, and LED3 because current flows through the current limiting resistors R10, R11, and R12 and the first to third light emitting diodes LED1, LED2, and LED3. Light emitting diodes emit light to the secondary battery (5). Displays the charge level charged in.

In other words, when the charging power level charged in the secondary battery 5 is sufficiently charged in the battery voltage detecting means 13, the output terminals VB1, VB2, and VB3 of the battery voltage detecting means 13 are sufficiently charged. Current flows through the current limiting resistors R10, R11, and R12 and the first to third light emitting diodes LED1, LED2, and LED3, respectively, so that the first to third light emitting diodes LED1, LED2, and LED3 all emit light. The secondary battery 5 is sufficiently charged in the secondary battery 5, and when the charge power level charged in the secondary battery 5 is charged to the intermediate level by the battery voltage detecting means 13. Since the current flows through the current limiting resistors R10 and R11 and the first and second light emitting diodes LED1 and LED2, respectively, at the output terminals VB1 and VB2 of the battery voltage detecting means 13, the first and second light emission. Diodes LED1, LED2, and LED3 emit light to charge the secondary battery 5 at an intermediate level. It indicates that.

When the level of the charging power charged in the secondary battery 5 is low in the battery voltage detecting means 13, the current limiting resistor is output at the output terminal VB1 of the battery voltage detecting means 13. Since the current flows through the R10 and the first light emitting diode LED1, the first light emitting diode LED1 emits light to indicate that the secondary battery 5 is lowly charged.

In the above description, the second field effect transistor FET2, which is an overcharge protection field effect transistor FET2, and the first field effect transistor, which is an overdischarge protection field effect transistor, are normally charged and discharged of the secondary battery 5. Since the bias signal is output from the output terminals 01 and 02 of the charge / discharge protection means 7, the first and second field effect transistors FET1 and FET2 are in a switched on state. When the secondary battery 5 is overcharged, the bias signal is not output from the output terminal 02 of the charge / discharge protection means 7, so that the second field effect transistor FET2 is turned off so that the secondary battery ( 5) is prevented, and when the secondary battery 5 is over discharged, since the bias signal is not output from the output terminal 01 of the charge / discharge protection means 7, the first field effect transistor FET1. Is off the secondary batter To prevent over-discharge of 5.

Therefore, the present invention can be used as a flash at night, at the same time, it can charge the battery mounted on the mobile phone, the structure is simple, not only can reduce the manufacturing cost, but also can be portable because it is small have.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the flash dual-use portable charging device of the present invention, it can be used as a flash at night, and at the same time can charge the battery mounted in the mobile phone with a constant charging power, the structure is simple, manufacturing cost Not only can it save money, it has the outstanding effect of being compact and easy to carry.

Claims (2)

When the plug 1 is connected to the AC power source, full-wave rectification means 2 for full-wave rectification of the AC power and the ground voltage output from the full-wave rectification means 2 are received through the ground voltage detection resistor R2 to connect the first connector. (3) charge and discharge protection means (7) for protecting the secondary battery (5) from overcharging and preventing overdischarge of the secondary battery (5), and the secondary battery (5). A charge / discharge voltage detection resistor R3 connected between the charge / discharge protection means 7 and detecting a charge / discharge voltage and input to the input terminal VDD of the charge / discharge protection means 7; The charging / discharging protection when the charging voltage is increased by receiving the charging voltage detected by the charging voltage detection resistor R3 at the time of charging the secondary battery 5 from the charging / discharging protection means 7. A charge control signal is output from the output terminal O2 of the means 7 to be switched on so that the secondary battery 5 is switched on. At the same time as charging, the charging and discharging protection means 7 receives the charging voltage detected by the charging and discharging voltage detection resistor R3 when the secondary battery 5 is being charged. If it is maintained, the charge control signal output from the second output terminal 02 of the charge / discharge protection means 7 is not output to the gate terminal G to determine that the battery is overcharged and to block overcharge of the secondary battery 5. The discharge control signal is transmitted to the gate terminal G at the output terminal O1 of the second field effect transistor FET2 and the secondary battery 5 that are not turned off, and at the time of discharging the secondary battery 5. Outputs and switches on, and receives the discharge voltage detected by the charge / discharge voltage detection resistor R3 at the time of discharging the secondary battery 5 from the charge / discharge protection means 7, and discharge voltage. If it is below a certain level, it is determined that it is an overdischarge and the secondary A first field effect transistor FET1 which is turned off because a discharge control signal is not output from the first output terminal 01 of the charge / discharge protection means 7 so as to block discharge of the battery 5 and the secondary battery A power on / off and mode selection switch 9 for intermittently outputting the output of 5 and outputting a mode signal for detecting the charging voltage of the secondary battery 5, and the power on / off and mode selection switch When (9) is pressed twice and released, the battery voltage detecting means 13 receives the mode signal and detects the charging voltage of the secondary battery 5, and the battery voltage detecting means 13 The first to third light emitting diodes LED1, LED2, and LED3 indicating the detected charging voltage of the secondary battery 5 and the power on / off and mode selection switch 9 are pressed once and then released. When the charging power of the secondary battery 5 is received through the diode D1, Step-up circuit 15 for boosting the power level by receiving the charging power charged and discharged at the inductance L1 of the secondary battery 5 and the boosted power output from the step-up circuit 15. To the first and second capacitors C1 and C2 for filtering noise through the output resistors R4 and R5, and a boosted DC power source in which the noise is filtered by the first and second capacitors C1 and C2. The third capacitor C3 receives noise through the DC jack 17 and a boosted DC power source in which the noise is filtered from the third capacitor C3, and then filters the noise from the fourth capacitor C4. The second connector 11 by charging means 19 for charging a mobile phone connected to the charging terminals A and B of the second connector 11 and a boosted DC power output from the charging means 19; Fourth and fifth light emitting diodes (LED4, LE) indicating that the mobile phones connected to the charging terminals (A, B) D5), a flash switch 21 for interrupting lighting of the sixth and seventh light emitting diodes LED6 and LED7 which are flash lamps, and the sixth and seventh light emitting diodes LED6 and LED7 are turned on at a constant illuminance. The lighting control signal received from the battery voltage detecting means 13 through the bias resistor R13 is switched on by receiving the signal at the time of the switching-on of the flash switch 21 so as to be switched on. When the signal is received when the flash switch 21 is switched on twice to turn off the seventh light emitting diodes LED6 and LED7, the transistor is switched off because the lighting control signal is not output from the battery voltage detecting means 13. (Q1) and a fifth capacitor (C5) connected in parallel to the transistor (Q1) for filtering out noise. The flash charging portable charging device according to claim 1, wherein the full-wave rectifying means (2) is a travel charger.

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