초록 ▼

A life safety device includes a battery assembly with a rechargeable battery. Extended shelf life is achieved by annually initiating an over-discharge protection mode in which a battery protection circuit prevents current flow from the battery. The life safety device remains in the over-discharge pr

A life safety device includes a battery assembly with a rechargeable battery. Extended shelf life is achieved by annually initiating an over-discharge protection mode in which a battery protection circuit prevents current flow from the battery. The life safety device remains in the over-discharge protection mode until the device is connected to a charging power source at the time of installation. The battery assembly then exits the protection mode and enters its normal mode of operation.

대표청구항 ▼

1. A battery assembly for a life safety device, the battery assembly comprising: a battery;a booster circuit for producing an output voltage that is greater than battery voltage;a battery protection circuit for sensing battery voltage and disconnecting the battery from the booster circuit when in an

1. A battery assembly for a life safety device, the battery assembly comprising: a battery;a booster circuit for producing an output voltage that is greater than battery voltage;a battery protection circuit for sensing battery voltage and disconnecting the battery from the booster circuit when in an over-discharge protection mode;a battery charging circuit for charging the battery, wherein charging of the battery by the battery charging circuit causes the battery protection circuit to exit the over-discharge protection mode; anda manually actuated circuit for causing the battery protection circuit to enter the over-discharge protection mode. 2. The battery assembly of claim 1, wherein the battery protection circuit includes a terminal for monitoring battery voltage, and wherein the manually actuated circuit, when actuated, causes voltage at the terminal to be decreased to a level that initiates the over-discharge protection mode. 3. The battery assembly of claim 2, wherein the manually actuated circuit comprises a metal contact that is positioned to be electrically connected to a ground connection in the battery assembly. 4. The battery assembly of claim 3, wherein the manually actuated circuit includes a voltage divider connected between the battery and the metal contact. 5. The battery assembly of claim 4, wherein the voltage divider has a node connected to the terminal for monitoring battery voltage. 6. The battery assembly of claim 1, wherein the battery protection circuit is operable to switch from the over-discharge protective mode to a normal operating mode, in which the battery delivers power to the life safety device, in response to charging of the battery by the battery charging circuit. 7. The battery assembly of claim 1, wherein the battery protection circuit includes: a semiconductor switch connected between a negative terminal of the battery and a ground terminal; anda battery protection integrated circuit for controlling a state of the semiconductor switch so that the semiconductor switch is turned on during a normal operating mode and is turned off during the over-discharge protection mode. 8. The battery assembly of claim 7, wherein the battery protection integrated circuit includes a first terminal for monitoring battery voltage, and wherein the battery protection integrated circuit enters the over-discharge protection mode when voltage at the first terminal is less than an over-discharge detection voltage for an over-discharge detection delay time or longer. 9. The battery assembly of claim 8, wherein the battery protection circuit includes a first resistor connected between a positive terminal of the battery and the first terminal of the battery protection integrated circuit. 10. The battery assembly of claim 9, wherein the manually actuated circuit includes a second resistor connected to the first terminal, and wherein the manually actuated circuit is actuated by electrically connecting the second resistor to the ground terminal. 11. The battery assembly of claim 10 and further comprising: a multipin connector including a CHARGE IN terminal, a battery voltage terminal, an output voltage terminal, and the ground terminal. 12. The battery assembly of claim 11, wherein the positive terminal of the battery is connected to the battery voltage terminal; the battery protection circuit is connected to the battery voltage terminal and the ground terminal; the charging circuit is connected to the CHARGE IN terminal, the battery voltage terminal and the ground terminal; and the booster circuit is connected to the battery voltage terminal, the output voltage terminal, and the ground terminal. 13. A method of extending shelf life of a battery of a life safety device, the method comprising: manually initiating an over-discharge protection mode of a battery protection circuit associated with the battery to prevent current flow from the battery; andreturning the battery protection circuit to a normal operating mode by connecting the life safety device to a charging power source. 14. The method of claim 13, wherein the battery and the battery protection circuit are part of a battery assembly that is connected to the life safety device by a multipin connector. 15. The method of claim 14, wherein the multipin connector includes a CHARGE IN terminal, a battery voltage terminal, and a ground terminal. 16. The method of claim 15, wherein manually initiating an over-discharge protection mode comprises temporarily applying a voltage to the battery protection circuit that is less than an over-discharge detection voltage for an over-discharge detection delay time or longer. 17. The method of claim 16, wherein temporarily applying a voltage comprises temporarily connecting a resistor to the ground terminal. 18. The method of claim 16, wherein the battery protection circuit includes a semiconductor switch between a negative terminal of the battery and the ground terminal. 19. The method of claim 18, wherein the battery protection circuit turns the semiconductor switch on during the normal operating mode and turns the semiconductor switch off during the over-discharge protection mode. 20. The method of claim 15, wherein the battery protection circuit returns to the normal operating mode in response to electrical power being present at the CHARGE IN terminal.