TWI456865B - Multi-battery charging apparatus and two-way charging method thereof - Google Patents

Claims (13)

A multi-battery charging device includes: a first battery module disposed in a first casing of a portable electronic device, wherein the first casing is further configured to be powered by the first battery module a second battery module is disposed in a second casing of the portable electronic device, wherein the second casing is further configured to be powered by the second battery module. And a bidirectional charging circuit coupled to the first battery module and the second battery module, comparing the power of the first battery module and the second battery module, and determining whether to use the battery according to the comparison result The first battery module and the second battery module have a higher amount of power to charge the first battery module and the second battery module with less power. The multi-battery charging device of claim 1, wherein the first battery module supplies a first load, and the second battery module supplies a second load different from the first load. The multi-battery charging device of claim 1, wherein the bidirectional charging circuit is disposed in the first casing. A multi-battery charging device includes: a first battery module; a second battery module; and a bidirectional charging circuit coupled to the first battery module and the second battery module, comparing the first battery The power of the module and the second battery module, wherein the power of the first battery module is greater than the power of the second battery module And the bidirectional charging circuit uses the electrical energy of the first battery module to charge the second battery module; and when the power difference between the first battery module and the second battery module is greater than a first threshold The second battery module uses the second battery when the power of the first battery module is less than the power of the second battery module and the power difference between the second battery module and the first battery module is greater than a second threshold The power of the module is used to charge the first battery module. A multi-battery charging device includes: a first battery module; a second battery module; and a bidirectional charging circuit coupled to the first battery module and the second battery module, comparing the first battery The power of the module and the second battery module, wherein the bidirectional charging circuit comprises: a control unit, reading and comparing the power value of the first battery module with the power value of the second battery module; a switch, the first end of the first switch is coupled to the first battery module, and the control end of the first switch is controlled by the control unit, wherein when the first battery module has a larger power value than the second battery When the power value of the module and the difference between the first battery module and the second battery module are greater than a first threshold, the first switch is conductive; a first charging unit, the first charging unit The input end is coupled to the second end of the first switch, the output end of the first charging unit is coupled to the second battery module, and the second switch is coupled to the first end of the second switch a battery module, the control end of the second switch is controlled by the control list ,among them When the power value of the second battery module is greater than the power value of the first battery module and the power difference between the second battery module and the first battery module is greater than a second threshold, the second switch And a second charging unit, the input end of the second charging unit is coupled to the second end of the second switch, and the output end of the second charging unit is coupled to the first battery module. A multi-battery charging device includes: a first battery module; a second battery module; and a bidirectional charging circuit coupled to the first battery module and the second battery module, comparing the first battery The power of the module and the second battery module, wherein the bidirectional charging circuit comprises: a control unit, reading and comparing the power value of the first battery module with the power value of the second battery module; a charging unit, the input end of the first charging unit is coupled to the first battery module, and the output end of the first charging unit is coupled to the second battery module, and the enabling end of the first charging unit is controlled In the control unit, when the power value of the first battery module is greater than the power value of the second battery module and the power value difference between the first battery module and the second battery module is greater than a first threshold The first charging unit is enabled; and a second charging unit, the input end of the second charging unit is coupled to the second battery module, and the output end of the second charging unit is coupled to the first a battery module, the enabling end of the second charging unit is To the control unit, wherein when the power value of the second battery module is greater than the first battery module The second charging unit is enabled when the power value and the difference between the second battery module and the first battery module are greater than a second threshold. The multi-battery charging device of claim 6, wherein the first charging unit comprises: a boosting circuit, the input end of the boosting circuit is an input end of the first charging unit, and the boosting circuit is The enabling end is controlled by the control unit; and a charger, the input end of the charger is coupled to the output end of the boosting circuit, and the output end of the charger is used as an output end of the first charging unit, the charging The enabling end of the device is controlled by the control unit. A multi-battery charging device includes: a first battery module; a second battery module; a bidirectional charging circuit coupled to the first battery module and the second battery module, comparing the first battery module And the power of the second battery module, and determining, according to the comparison result, whether to use the first battery module and the second battery module to charge the first battery module and the second The battery module has a lower power; a third charging unit, the output end of the third charging unit is coupled to the first battery module, wherein when an external power is coupled to the input end of the third charging unit The third charging unit uses the external power to charge the first battery module; and a fourth charging unit, the output end of the fourth charging unit is coupled to the second battery module, wherein the external power coupling Connected to the fourth charging unit The fourth charging unit uses the external power to charge the second battery module. A multi-battery charging device includes: a first battery module; a second battery module; and a bidirectional charging circuit coupled to the first battery module and the second battery module, comparing the first battery The power of the module and the second battery module, and determining whether to use the first battery module and the second battery module to charge the first battery module and the first battery module according to the comparison result In the second battery module, the two-way charging circuit is disabled when an external power is charged to the first battery module and the second battery module. A two-way charging method for a multi-battery charging device includes: comparing a power of a first battery module and a second battery module to obtain a comparison result, wherein the first battery module is disposed on a portable electronic device The second battery module is disposed in a second casing of the portable electronic device, and the first casing is further configured to be powered by the first battery module. a control system, wherein the second casing is further configured to be powered by the second battery module; and determining whether to use the first battery module and the second battery module according to the comparison result More energy is used to charge the first battery module and the second battery module with less power. The bidirectional charging method of claim 10, wherein the first battery module supplies a first load, and the second battery module supplies a second load different from the first load. A bidirectional charging method for a multi-battery charging device includes: comparing a power of a first battery module and a second battery module to obtain a comparison result; and determining whether to use the first battery module according to the comparison result The electric energy of the second battery module is used to charge the first battery module and the second battery module, wherein the determining whether to use the first battery module and the second The step of charging the first battery module and the second battery module with less power in the battery module includes: when the power of the first battery module is greater than the second battery module And the electric energy of the first battery module is used to charge the second battery module; and when the first battery module and the second battery module have a power difference greater than a first threshold When the power of a battery module is less than the power of the second battery module, and the power difference between the second battery module and the first battery module is greater than a second threshold, the power of the second battery module is used. To charge the first battery module A bidirectional charging method for a multi-battery charging device includes: comparing a power of a first battery module and a second battery module to obtain a comparison result; Determining, according to the comparison result, whether to use the electric energy of the first battery module and the second battery module to charge the first battery module and the second battery module; and When the external power exchanges the first battery module and the second battery module, the two-way charging method is disabled.