JP3475117B2 - Electronics - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic apparatus having a constant voltage circuit for making an input voltage from an external power supply a constant voltage. 2. Description of the Related Art Conventionally, electronic equipment can be driven by an AC power supply for general household use, or a primary battery or a secondary battery such as Ni-MH. In such an electronic device, when it is driven by a general household AC power supply, it is difficult to configure a rectifier circuit inside due to a volume problem of the device. Is common. In this case, the LS used inside the electronic equipment is
It is necessary to keep the input voltage from the AC-DC adapter at a certain constant voltage in view of the allowable power supply voltage range such as I, and a constant voltage circuit is provided inside the electronic device. On the other hand, in an electronic device driven by a secondary battery, when a consumed secondary battery is charged, an AC voltage from a general household power supply is used, and a constant current is supplied through an AC-DC adapter. In general, charging is performed by using a constant voltage circuit as a circuit therefor. When the above two types of constant voltage circuits are formed in the same electronic device, conventionally, they are configured as independent circuits, respectively. There was a problem of inviting. In addition, since a space for each circuit is required, there is a problem that space saving is hindered. Particularly in products such as portable CD players and MD players, space saving has been a major issue. An object of the present invention is to solve the above problem by providing a constant voltage circuit for supplying an input voltage from an external power supply to a drive circuit in an electronic device at a constant voltage to a secondary battery at a constant current. It is an object of the present invention to provide an electronic device that is configured to operate as a charging circuit for performing the above-described operations and that can switch between driving of the electronic device and charging of the secondary battery as needed. [0007] In order to solve the above problems,
The electronic device of the present invention is an electronic device that is driven by an external power supply or a secondary battery and has a constant voltage circuit that converts an input voltage from the external power supply into a constant voltage and supplies the constant voltage to a drive circuit inside the device. Switching means is provided, and the switching means causes the constant voltage circuit to operate as a charging circuit for supplying a constant charging current to the secondary battery. In particular, the constant voltage circuit includes an input terminal to which power is supplied from the external power supply, a constant voltage IC for maintaining a constant voltage between the terminals, the input terminal and the constant voltage IC.
A first transistor connected to the first transistor, an output terminal connected to the first transistor for supplying power to the driving circuit, a resistor connected to a connection midpoint between the first transistor and the output terminal, A second transistor connected to the resistor and the constant voltage IC; a third transistor connected to the secondary battery, the resistor and the second transistor;
A zener diode connected to a connection midpoint between the second transistor and the constant voltage IC, a fourth transistor connected to the zener diode, the first transistor, the second transistor,
A fifth transistor connected to the third and fourth transistors, and a control terminal connected to the fifth transistor and supplied with a control signal for controlling on / off of the fifth transistor; A state in which the constant voltage circuit supplies power to the drive circuit at a constant voltage determined by the constant voltage IC and the Zener diode by controlling on / off of the transistor, and a constant current determined by the resistor changes the secondary battery. The state is switched to the state of supplying to Embodiments of an electronic apparatus according to the present invention will be described below with reference to the drawings. This embodiment is a portable MD player, and FIG. 1 is a block diagram showing the configuration. In FIG. 1, reference numeral 1 denotes an AC-DC adapter for DC-converting an AC signal from a general household power supply (not shown) and supplying it to an electronic device. Reference numeral 2 denotes a portion surrounded by a dotted line, which is a main body of the portable MD player.
Reference numeral 3 denotes a constant voltage circuit for making the input voltage from the AC-DC adapter a certain constant voltage. Reference numeral 4 denotes a secondary battery such as Ni-MH, which is detachably stored in a predetermined storage unit. Reference numeral 5 denotes a DC-DC converter that boosts the voltage supplied from the secondary battery 4 to a predetermined voltage. 6 is MD
An operation IC for performing an operation of the player. A microcomputer 7 controls the operation IC 6 and the like. Switching means 8 for switching whether or not to supply a charging current to the secondary battery 4 is provided inside the constant voltage circuit 3, and switching is performed based on a control signal from the microcomputer 7. FIG. 2 is a circuit diagram showing the internal configuration of the constant voltage circuit 3. As shown in FIG. In the figure, reference numeral 10 denotes an input terminal to which electric power is supplied from the AC-DC adapter 1, from which electric power of the input voltage V0 is supplied. Reference numeral 20 denotes a regulator, which is configured by a constant voltage IC that operates so as to maintain the voltage between the terminals 21 and 23 at a constant voltage V1. TR31 is a transistor arranged for consuming power supplied from the input terminal 1 so that the regulator 20 keeps a constant voltage.
Is a transistor which constitutes a switching means for switching the constant voltage circuit 3 between a state in which power is supplied to the operation IC 6 and the microcomputer 7 at a constant voltage and a state in which a constant current is supplied to the secondary battery 4. Reference numeral 4 denotes a secondary battery as described above.
Is the battery voltage. It should be noted that the value of V2 changes depending on the use state and charge state of the battery. R51 is a fixed resistor for determining the charging current supplied to the secondary battery 4, and R52 is a fixed resistor for applying a necessary bias to TR31. R53 to R511 are fixed resistors for operating TR32 to TR35 as switching. Reference numeral 60 denotes a Zener diode, which is arranged together with the regulator 20 to determine a driving voltage of electric power supplied to the inside of the electronic device. In addition, the voltage between both ends of the Zener diode is set to V3 for the description of the operation described later.
70 is an output terminal. Reference numeral 80 denotes a control terminal to which a control signal from the microcomputer 7 is supplied. Next, the connection relationship of this circuit will be described. TR31 has the emitter side connected to the input terminal 10,
The base side is connected to the terminal 22 of the regulator 20. The collector side is connected to the terminal 21 and the output terminal 70 of the regulator 20. The TR32 has a regulator 20 on the emitter side.
And the base side is connected to the collector side of TR35 via R54 and to the collector side of TR35 via R54 and R55.
It is connected to the base side of R34, and the collector side is TR
33 is connected to the emitter side. The base side of TR33 is connected to TR via R59.
35, and connected to the base of TR34 via R59 and R55. The collector side is connected to the secondary battery 4, and the other end of the secondary battery 4 is grounded. TR34 has an emitter grounded,
On the base side, besides the connection with TR32 and TR33 described above,
It is connected to the collector side of TR35 via R55, and is grounded via R56. A Zener diode 60 is connected to the collector side of TR34, and the other end of the Zener diode 60 is connected to the regulator 20.
Terminal 23. The emitter of the TR35 is grounded.
The base side is connected to the control terminal 80 via R510, and is grounded via R511. TR
The collector side of 35 is as described above. One end of R51 is connected to the connection point between the collector side of TR31 and the output terminal 70, and the other end is connected to TR51.
It is connected to the midpoint of connection between the collector side of P.32 and the emitter side of TR33. One end of R57 is connected to a connection point between the collector side of TR31 and the output terminal 70, and the other end is connected to a connection point between R55 and the collector side of TR55. Next, the operation of this circuit will be described.
Switching between the state in which the constant voltage circuit 3 supplies power at a constant voltage to operate the main body and the state in which a constant current is supplied to the secondary battery 4 as a charging circuit for charging the secondary battery 4 is performed. This is performed by controlling the switching of the TR 35 on / off. When operating the main body, a signal for turning off the TR 35 is supplied from the control terminal 80. TR
When 35 is turned off, TR34 is turned on and TR3 is turned on.
2. TR33 is turned off. At this time, the collector side of TR31 has a sum (V1 + V3) of the constant voltage V1 determined by the regulator 20 and the constant voltage V3 determined by the Zener diode 60. Therefore, in this state, the circuit operates as a constant voltage circuit for supplying power to the output terminal 70 at a constant voltage of (V1 + V3). still,
Since the TR 33 is off, the charging current does not flow through the secondary battery 4. When charging the secondary battery 4, a signal for turning on the TR 35 is supplied from the control terminal 80.
When TR35 is turned on, TR4 is turned off and TR3 is turned off.
2. TR33 is turned on. Therefore, the collector side of the TR 31 is the sum (V1 + V) of the constant voltage V1 determined by the regulator 20 and the voltage V2 determined by the secondary battery 4.
2). At this time, since (V1 + V2) is not constant due to the fluctuation of the battery voltage, it is not used as the operating voltage.
Specifically, the microcomputer 7 controls the operation IC not to operate. On the other hand, since the voltage across R51 is fixed at V1, the charging current is a constant current of V1 / R51. Therefore, in this state, the secondary battery 4 operates as a charging constant voltage circuit that performs constant current charging. As described above, in the electronic device of the present invention, the TR
Only by ON / OFF control of 35, it is possible to switch between a state in which power is supplied to the electronic device main body at a constant voltage and a state in which a constant current is supplied to the secondary battery. According to the electronic device of the present invention, one constant voltage circuit supplies an internal power to the electronic device at a constant voltage, and a constant voltage circuit for charging a secondary battery with a constant current. Since the voltage circuit is also used, and the switching can be easily performed only by the on / off control of one transistor, there is a great effect in reducing the number of components and saving space.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a configuration of an electronic device according to the present invention. FIG. 2 is a circuit diagram showing a configuration of a constant voltage circuit according to the present invention. [Description of Signs] 1 AC-DC adapter 3 Constant voltage circuit 4 Secondary battery 7 Microcomputer 8 Switching means

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-8-130736 (JP, A) JP-A 64-12826 (JP, A) JP-A-11-69647 (JP, A) JP-A 9-98 285026 (JP, A) Japanese Utility Model Showa 51-86517 (JP, U) (58) Field surveyed (Int. Cl. ⁷ , DB name) H02J ^7/ 00-7/12 H02J ⁷ /34-7/36

Claims (1)

(57) [Claim 1] An electronic device which is driven by an external power supply or a secondary battery and has a constant voltage circuit which converts an input voltage from the external power supply into a constant voltage and supplies the voltage to a drive circuit inside the device. In the above, the constant voltage circuit may include an input terminal to which power is supplied from the external power supply, a constant voltage IC for maintaining a constant voltage between terminals, and a first transistor connected to the input terminal and the constant voltage IC. An output terminal connected to the first transistor for supplying power to the drive circuit; a resistor connected to a connection point between the first transistor and the output terminal; A second transistor connected to the IC; a third transistor connected to the secondary battery and the resistor and the second transistor; and a connection point between the second transistor and the constant voltage IC. And E zener diode, a fourth transistor connected between said Zener diode, said first, second, third, and fifth transistor connected to the fourth transistor is connected to said fifth transistor,
And a control terminal to which a control signal for controlling on / off of the fifth transistor is supplied. By the on / off control of the fifth transistor, the constant voltage circuit is controlled by the constant voltage IC and the zener diode. An electronic apparatus characterized by switching between a state in which power is supplied to the drive circuit at a constant voltage determined and a state in which a constant current determined by the resistor is supplied to the secondary battery.