Battery pack having a hibernate circuit
First Claim
1. A battery pack having a hibernate mode and a normal mode, comprising:
- at least one battery cell;
a power switch coupled to at least one battery cell, the power switch operable in at least an open and a closed state;
a regulator circuit coupled to the power switch and having an output;
a control circuit coupled to the output of the regulator circuit;
an electronic driver switch coupled to the power switch and having a control input coupled to the control circuit, the electronic driver switch for holding the battery pack in the normal mode while a control signal is present at the control input, and for placing the battery pack in hibernation mode upon removal of the control signal, the control signal provided by the control circuit; and
a mechanical driver switch coupled to the power switch and having a normal state and an actuated state for causing a battery pack to change from the hibernation mode to the normal mode;
whereby the battery pack may be placed in either hibernate or normal mode more than one time.
5 Assignments
0 Petitions
Accused Products
Abstract
A battery pack (100) includes a battery cell (102), a power switch (104), a regulator circuit (106), control circuit (108), electronic drive switch (112), and a mechanical driver switch (116). The battery pack is placed in the hibernate mode by sending a hibernate message to the control circuit from an external device (134). The control circuit removes a control signal from the electronic driver switch, causing the power switch to open, removing power from the regulator circuit and all attached circuitry, including the control circuit. No current flows from the battery cell past the opened power switch, and the battery pack is then in the hibernate mode. To wake up the battery pack, the mechanical driver switch is actuated by a user, causing the power switch to close, allowing current and voltage from the battery cell to power up the regulator circuit, which in turn powers up the control circuit. The control circuit applies a control signal to the electronic driver switch to hold the power switch closed.
37 Citations
8 Claims
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1. A battery pack having a hibernate mode and a normal mode, comprising:
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at least one battery cell; a power switch coupled to at least one battery cell, the power switch operable in at least an open and a closed state; a regulator circuit coupled to the power switch and having an output; a control circuit coupled to the output of the regulator circuit; an electronic driver switch coupled to the power switch and having a control input coupled to the control circuit, the electronic driver switch for holding the battery pack in the normal mode while a control signal is present at the control input, and for placing the battery pack in hibernation mode upon removal of the control signal, the control signal provided by the control circuit; and a mechanical driver switch coupled to the power switch and having a normal state and an actuated state for causing a battery pack to change from the hibernation mode to the normal mode; whereby the battery pack may be placed in either hibernate or normal mode more than one time. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for placing the battery pack in a normal mode into a hibernate mode, the method comprising the steps of:
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sending a hibernate message to the battery pack from an external device; receiving the hibernate message at a control circuit within the battery pack; removing a control signal from an electronic driver switch, performed by the control circuit; and opening an electronic driver switch, thereby opening a power switch coupled between a battery cell core and a regulator circuit in response to the removing of the control signal, thereby removing power from the control circuit.
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8. A method of waking up a battery pack from a hibernate mode, comprising the steps of.
actuating a mechanical switch disposed on the battery pack; -
switching a power switch disposed between a battery cell and a regulator circuit from an open state to a closed state in response to performing the step of actuating; activating the regulator circuit in response to the performing the step of switching; providing power from a battery cell to a control circuit, performed by the regulator circuit in response to performing the step of activating; applying a control signal to an electronic driver switch coupled to the power switch, performed by the control circuit in response to performing the step of providing; and maintaining the power switch in a closed state in response to the step of applying.
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Specification