Low power enable circuit

US 6,144,186 A
Filed: 07/16/1999
Issued: 11/07/2000
Est. Priority Date: 07/16/1999
Status: Expired due to Term

First Claim

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1. A system for placing a rechargeable battery pack in a low power mode, the system comprising:

A) a rechargeable battery pack having at least one rechargeable battery cell, a voltage output terminal and return terminal, and at least one signal terminal;

B) a resistor divider consisting of a first resistor and a second resistor coupled between the signal terminal and the return terminal;

C) a third resistor, a switch, and a fourth resistor coupled in series between at least one rechargeable battery cell and the return terminal, with the switch coupled to the resistor divider; and

D) an integrated safety circuit for sensing the voltage of at least one rechargeable battery cell, the integrated safety circuit having at least one voltage sensing terminal coupled to at least on rechargeable battery cell, and having a return sensing terminal coupled to the fourth resistor;

wherein when a predetermined voltage is applied between the signal terminal and the return terminal, the switch closes, causing the battery safety integrated circuit to put the battery pack in low power mode.

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Abstract

This invention is a system and method for causing a rechargeable battery pack to enter a low power mode. The system includes a resistive divider, a switch, a battery cell, and a safety integrated circuit. When an external voltage is applied to the resistive divider, the switch turns on. With the switch on, the safety integrated circuit senses only a fraction of the cell voltage and therefore puts the battery pack into a low power, or sleep mode. The battery is returned to normal mode by connecting a charger to the battery pack.

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6 Claims

1. A system for placing a rechargeable battery pack in a low power mode, the system comprising:
- A) a rechargeable battery pack having at least one rechargeable battery cell, a voltage output terminal and return terminal, and at least one signal terminal;
  
  B) a resistor divider consisting of a first resistor and a second resistor coupled between the signal terminal and the return terminal;
  
  C) a third resistor, a switch, and a fourth resistor coupled in series between at least one rechargeable battery cell and the return terminal, with the switch coupled to the resistor divider; and
  
  D) an integrated safety circuit for sensing the voltage of at least one rechargeable battery cell, the integrated safety circuit having at least one voltage sensing terminal coupled to at least on rechargeable battery cell, and having a return sensing terminal coupled to the fourth resistor;
  
  wherein when a predetermined voltage is applied between the signal terminal and the return terminal, the switch closes, causing the battery safety integrated circuit to put the battery pack in low power mode.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A system as in claim 1, further wherein the battery pack is placed in normal mode by electrically connecting a charger across the voltage output terminal and the return terminal.
  - 3. A system as in claim 2, wherein the switch comprises a metal oxide semiconductor field effect transistor.
  - 4. A system as in claim 2, wherein the switch comprises a bipolar junction transistor.
  - 5. A system as in claim 2 wherein the switch comprises a relay.

6. A method for placing a battery pack into a low power mode, the method comprising:
- A) providing rechargeable battery pack having at least one rechargeable battery cell, a voltage output terminal and return terminal, and at least one signal terminal;
  
  B) providing a resistor divider consisting of a first resistor and a second resistor coupled between the signal terminal and the return terminal;
  
  C) providing a third resistor, a switch, and a fourth resistor coupled in series between at least one rechargeable battery cell and the return terminal, with the switch coupled to the resistor divider; and
  
  D) providing a battery safety integrated circuit for sensing the voltage of at least one rechargeable battery cell, the safety integrated circuit having at least one voltage sensing terminal coupled to at least on rechargeable battery cell, and having a return sensing terminal coupled to the fourth resistor;
  
  whereby applying a voltage across the signal terminal and the return terminal causes the battery pack to enter a low power mode, andwhereby applying a voltage across the voltage output terminal and the return terminal causes the battery pack to enter a normal mode.

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Current Assignee
Amperex Technology Limited (TDK Corporation)
Original Assignee
Motorola, Inc. (Motorola Solutions, Inc.)
Inventors
Estes, Jr., James L., Torrence, Ron, Thandiwe, Iilonga
Primary Examiner(s)
Tso, Edward H.

Application Number

US09/356,389
Time in Patent Office

480 Days
Field of Search

320/127, 320/128, 320/134, 320/136, 320/158, 320/163, 320/FOR 150, 320/FOR 153, 320/DIG. 22
US Class Current

320/134
CPC Class Codes

H01M 10/052   Li-accumulators

H01M 10/4257   Smart batteries, e.g. elect...

H01M 10/48   Accumulators combined with ...

H02J 9/005   using a power saving mode f...

Y02E 60/10   Energy storage using batteries

Low power enable circuit

First Claim

5 Assignments

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Abstract

99 Citations

6 Claims

Specification

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Low power enable circuit

First Claim

5 Assignments

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0 Petitions

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Accused Products

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Abstract

99 Citations

6 Claims

Specification

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Solutions

Use Cases

Quick Links