Battery charger

US 10,468,917 B2
Filed: 12/18/2014
Issued: 11/05/2019
Est. Priority Date: 03/05/2014
Status: Active Grant

First Claim

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1. A battery charger for charging a battery, the battery charger comprising:

a first input for receiving a first voltage from a boost converter,the first voltage being generated by the boost converter from an output voltage generated by a radio-frequency (RF) rectifier rectifying RF signals from an antenna;

a first output coupled to the first input for coupling to a positive terminal of the battery;

a second output coupled to the first input for coupling to a negative terminal of the battery;

a first transistor having a first gate, a first drain and a first source, wherein the first gate is coupled to the first output, wherein the first drain is coupled to the second output to connect the battery negative terminal to ground when the first transistor is on to cause energy to be transferred from the first input into the battery;

a group of transistors coupled to the first transistor and the first input to control when the first transistor is turned on, wherein the group of transistors comprises a second transistor having a second gate coupled to the first input and coupled to a third transistor to turn on the third transistor after a delay occurs after the voltage on the first input reaches a predetermined level, the third transistor causing the first transistor to turn on when the third transistor is turned on; and

a resistor-capacitor (RC) circuit having a resistive input coupled to a drain of the second transistor and to the first output and having an output coupled to a third gate of the third transistor to provide the delay to turn on the first transistor while waiting for the boost converter to build up the first voltage.

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Abstract

A battery charger for charging a battery is disclosed. In one embodiment, the battery charger comprises an input for receiving a first voltage and for coupling to a positive terminal of the battery; a first transistor having a first gate, a first drain and a first source, wherein the first gate is for coupling to a charging signal for the battery and the first drain is coupled to the battery negative terminal and, the first transistor to cause energy to be transferred from the input into the battery when turned on; and a group of transistors coupled to the first transistor and the input to control when the first transistor is turned on, wherein the group of transistors comprises a second transistor having a second gate coupled to the input and coupled to a third transistor to turn off the third transistor after a delay occurs after the voltage on the input reaches a predetermined level, and further herein the third transistor causes the first transistor to turn on when the third transistor is turned off.

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14 Claims

1. A battery charger for charging a battery, the battery charger comprising:
- a first input for receiving a first voltage from a boost converter,the first voltage being generated by the boost converter from an output voltage generated by a radio-frequency (RF) rectifier rectifying RF signals from an antenna;
  
  a first output coupled to the first input for coupling to a positive terminal of the battery;
  
  a second output coupled to the first input for coupling to a negative terminal of the battery;
  
  a first transistor having a first gate, a first drain and a first source, wherein the first gate is coupled to the first output, wherein the first drain is coupled to the second output to connect the battery negative terminal to ground when the first transistor is on to cause energy to be transferred from the first input into the battery;
  
  a group of transistors coupled to the first transistor and the first input to control when the first transistor is turned on, wherein the group of transistors comprises a second transistor having a second gate coupled to the first input and coupled to a third transistor to turn on the third transistor after a delay occurs after the voltage on the first input reaches a predetermined level, the third transistor causing the first transistor to turn on when the third transistor is turned on; and
  
  a resistor-capacitor (RC) circuit having a resistive input coupled to a drain of the second transistor and to the first output and having an output coupled to a third gate of the third transistor to provide the delay to turn on the first transistor while waiting for the boost converter to build up the first voltage.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The battery charger defined in claim 1 further comprising a plurality of diodes connected in a cascaded arrangement between the first input and the gate of the second transistor to control the second transistor based by forcing diode voltage drops onto the gate of the second transistor.
  - 3. The battery charger defined in claim 1 wherein the third transistor is an inversion transistor.
  - 4. The battery charger defined in claim 1 wherein the first transistor comprise a n-channel MOSFET.
  - 5. The battery charger defined in claim 1 wherein the group of transistors comprise n-channel MOSFETs.
  - 6. The battery charger defined in claim 1 further comprising a diode for coupling in series between the first input and the positive terminal of the battery to prevent reverse current from the battery to the first input.
  - 7. The battery charger defined in claim 1 further comprising a diode coupled between ground and the second gate for stability and over-voltage protection.

8. A device comprising:
- an antenna;
  
  andan energy harvester coupled to the antenna, wherein the energy harvester comprisesa radio-frequency (RF) rectifier to convert RF signals from the antenna to an output voltage;
  
  a boost converter coupled to the RF rectifier to generate a first voltage in response to the output voltage;
  
  a battery to store energy; and
  
  a battery charger havinga first input for receiving the first voltage and coupled to a positive terminal of the battery;
  
  a first output coupled to the first input for coupling to a positive terminal of the battery;
  
  a second output coupled to the first input for coupling to a negative terminal of the battery;
  
  a first transistor having a first gate, a first drain and a first source, wherein the first gate is coupled to the first output, wherein the first drain is coupled to the second output to connect to the battery negative terminal to ground when the transistor is on to cause energy to be transferred from the first input into the battery; and
  
  a group of transistors coupled to the first transistor and the first input to control when the first transistor is turned on, wherein the group of transistors comprises a second transistor having a second gate coupled to the first input and coupled to a third transistor to turn on the third transistor after a delay occurs after the voltage on the first input reaches a predetermined level, the third transistor causing the first transistor to turn on when the third transistor is turned on, anda resistor-capacitor (RC) circuit having a resistive input coupled to a drain of the second transistor and to the first output and having an output coupled to a third gate of the third transistor to provide the delay to turn on the first transistor while waiting for the boost converter to build up the first voltage; and
  
  an energy storage reservoir coupled to the output of the battery charger to store energy at the second voltage.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The device defined in claim 8 wherein the battery is a Nickel Metal Hydride (NiMH) battery.
  - 10. The device defined in claim 8 further comprising a plurality of diodes connected in a cascaded arrangement between the first input and the gate of the second transistor to control the second transistor based by forcing diode voltage drops onto the gate of the second transistor.
  - 11. The device defined in claim 8 wherein the first transistor comprise a n-channel MOSFET.
  - 12. The device defined in claim 8 wherein the group of transistors comprise n-channel MOSFETs.
  - 13. The device defined in claim 8 further comprising a diode for coupling in series between the first input and the positive terminal of the battery to prevent reverse current from the battery to the first input.
  - 14. The device defined in claim 8 further comprising a diode coupled between ground and the second gate.

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Current Assignee
Ricoh Company Limited
Original Assignee
Ricoh Company Limited
Inventors
Gudan, Kenneth, Hull, Jonathan J., Reynolds, Matthew S.
Primary Examiner(s)
Amrany, Adi

Application Number

US14/576,048
Publication Number

US 20150256015A1
Time in Patent Office

1,783 Days
Field of Search

307104, 307112, 307116, 307125, 307139, 307141
US Class Current
CPC Class Codes

H01H 7/00   Devices for introducing a p...

H02J 50/001   Energy harvesting or scaven...

H02J 50/20   using microwaves or radio f...

H02J 7/0068   Battery or charger load swi...

H02J 7/345   using capacitors as storage...

Battery charger

First Claim

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Abstract

42 Citations

14 Claims

Specification

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Battery charger

First Claim

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Accused Products

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Abstract

42 Citations

14 Claims

Specification

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Use Cases

Quick Links

Others