Circuit arrangement for rapidly charging a battery
First Claim
Patent Images
1. A circuit arrangement for rapidly charging a battery, comprising:
- (a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said voltage and a predetermined voltage;
(b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage;
(c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant voltage from said d.c. power source for a predetermined period of time; and
(d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-voltage charging circuit, said timer means including;
a first comaprator responsive to said voltage and a first reference voltage;
a capacitor responsive to said first comparator so as to be charged when said voltage is below said first reference voltage and is discharged when said voltage exceeds said first reference voltage; and
a second comparator responsive to a voltage across said capacitor and a second reference voltage.
1 Assignment
0 Petitions
Accused Products
Abstract
A quick battery charger according to the present invention comprises a circuit for detecting the voltage of the battery (3), a constant-current charging circuit, a constant-voltage charging circuit, and a timer circuit responsive to the voltage detecting circuit. At the beginning in charging operation, the battery is charged at a constant current, and when the voltage of the battery exceeds a predetermined value, charging mode is changed to constant-voltage charging which last for a predetermined period of time determined by the timer circuit. The charger may also comprise a trickle charge circuit so that trickle charge takes place after the constant-voltage charge. One or more heat-sensitive elements (5, 6, 69) may be used for providing temperature compensation or fail-safe in response to the heat from the battery and heat from parts of the battery charger. As a timer may be used a capacitor (50) which may be forcibly charged to insure a given period of time of the constant-voltage charging. A differential amplifier (42) may be used for detecting the voltage of the battery so that a power transistor (13) used as an element of the constant-current charging circuit is controlled in response to an output signal from the differential amplifier (42) to perform constant-voltage charging.
-
Citations
12 Claims
-
1. A circuit arrangement for rapidly charging a battery, comprising:
-
(a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said voltage and a predetermined voltage; (b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage; (c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant voltage from said d.c. power source for a predetermined period of time; and (d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-voltage charging circuit, said timer means including; a first comaprator responsive to said voltage and a first reference voltage; a capacitor responsive to said first comparator so as to be charged when said voltage is below said first reference voltage and is discharged when said voltage exceeds said first reference voltage; and a second comparator responsive to a voltage across said capacitor and a second reference voltage. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A circuit arrangement for rapidly charging a battery, comprising:
-
(a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said voltage and a predetermined voltage, said first means including; a voltage divider responsive to said voltage from said battery; a reference voltage source; and a differential amplifier responsive to a voltage from said voltage divider and a reference voltage from said reference voltage source; (b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage, said constant-current charging circuit including a power transistor coupled with another transistor so as to form a constant-current circuit which is connected between said d.c. power source and said battery; (c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant voltage from said d.c. power source for a predetermined period of time, said constant-voltage charging circuit including a transistor responsive to an output signal from said differential amplifier for controlling base bias of said power transistor; and (d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-voltage charging circuit.
-
-
9. A circuit arrangement for rapidly charging a battery, comprising:
-
(a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said voltage and a predetermined voltage, said first means including; a voltage divider responsive to said voltage from said battery, said voltage divider having a heat-sensitive resistor positioned so as to receive heat from said battery and heat from parts constituting said circuit arrangement; a reference voltage source; and a differential amplifier responsive to a voltage from said voltage divider and a reference voltage from said reference voltage source; (b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage; (c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant voltage from said d.c. power source for a predetermined period of time; and (d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-voltage charging circuit.
-
-
10. A circuit arrangement for rapidly charging a battery, comprising:
-
(a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said votlage and a predetermined voltage; (b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage; (c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant voltage from said d.c. power source for a predetermined period of time; (d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-votlage charging circuit; and (e) a switching element interposed between said battery and a power supply line of said circuit arrangement, said switching element being responsive to power from said d.c. power source so as to be open on failure of said d.c. power source thereby preventing said battery from discharging through said circuit arrangement.
-
-
11. A circuit arrangement for rapidly charging a battery, comrpising:
-
(a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said voltage and a predetermined voltage; (b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage, said d.c. power source including; a transformer for reducing an a.c. voltage; a first rectifying circuit responsive to an a.c. voltage from said transformer functioning as said d.c. power source; a second rectifying circuit responsive to said a.c. voltage from said transformer for supplying d.c. power to said circuit arrangement; first and second capacitors respectively connected to said first and second rectifying circuits to be respectively charged; and an indicating means responsive to the difference between voltages across said first and second capacitors for indicating that the voltage of said battery is below or above a predetermined voltage; (c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant coltage from said d.c. power source for a predetermined period of time; and (d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-voltage charging circuit.
-
-
12. A circuit arrangement for rapidly charging a battery, comprising:
-
(a) first means for detecting the voltage of said battery to be charged and producing a signal indicating the relationship between said voltage and a predetermined voltage; (b) a constant-current charging circuit responsive to said signal from said first means for supplying said battery with a constant-current from a d.c. power source until said voltage reaches said predetermined voltage; (c) a constant-voltage charging circuit responsive to said signal from said first means for supplying said battery with a constant voltage from said d.c. power source for a predetermined period of time; (d) a timer means responsive to said signal from said first means for providing said predetermined period of time to said constant-voltage charging circuit; and (e) a heat-sensitive switch positioned so as to be responsive to the temperature at the bottom of said battery, said switch being connected in series with said battery so as to interrupt charging when the temperature of said battery abnormally rises.
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeHitachi KOKI Company Limited (Koki Holdings Co., Ltd.)
-
Original AssigneeHitachi KOKI Company Limited (Koki Holdings Co., Ltd.)
-
InventorsInaniwa, Masahiro, Suzuki, Shun, Ogawa, Yoichi
-
Primary Examiner(s)Salce, Patrick R.
-
Assistant Examiner(s)Ault, Anita M.
-
Application NumberUS06/673,059Time in Patent Office652 DaysField of Search320/20, 320/22, 320/23, 320/24, 320/31, 320/32, 320/35, 320/36, 320/39US Class Current320/152CPC Class CodesH02J 7/0071 with a programmable scheduleH02J 7/007188 the charge cycle being cont...
