Autonomous apparatus and system comprising such an apparatus

US 10,116,166 B2
Filed: 08/04/2014
Issued: 10/30/2018
Est. Priority Date: 08/12/2013
Status: Active Grant

First Claim

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1. Apparatus (40) comprising an inductor (14), a rectifier (16) coupled to the inductor, a load (13) coupled to the rectifier, and a control member (29) for controlling power supply to the load (13), the apparatus being characterized in that it further comprises:

a DC voltage converter (19 to 22) coupled to the rectifier (16);

a battery (12) coupled to the voltage converter; and

measurement means (26) for measuring the output voltage of the rectifier (16);

a priming circuit (18) coupled to the rectifier and to the programmable control unit and presenting sufficient capacitance to be capable of powering the control unit temporarily in the absence of a DC voltage being delivered to the rectifier or by the battery;

the load (13) being coupled to the voltage converter, and the apparatus (40) further comprising a control unit (10) coupled to the voltage converter, connected to the control member (29) and to the voltage measurement means (26), and arranged to cause either the battery to be charged by the rectifier, or the load (13) to be powered by the rectifier, or the load (13) to be powered by the battery, as a function of the state of the control member (29) and of the output voltage of the rectifier (16).

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Abstract

The invention relates to apparatus (40) comprising:

- an inductor;
- a rectifier coupled to the inductor;
- a voltage converter coupled to the rectifier;
- a battery coupled to the voltage converter;
- a load coupled to the voltage converter; and
- a control unit coupled to the voltage converter and arranged to cause either the battery to be charged by the rectifier, or the load to be powered by the rectifier, or the load to be powered by the battery, as a function of the state of a switch for controlling powering of the load and as a function of the output voltage of the rectifier.

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38 Claims

1. Apparatus (40) comprising an inductor (14), a rectifier (16) coupled to the inductor, a load (13) coupled to the rectifier, and a control member (29) for controlling power supply to the load (13), the apparatus being characterized in that it further comprises:
- a DC voltage converter (19 to 22) coupled to the rectifier (16);
  
  a battery (12) coupled to the voltage converter; and
  
  measurement means (26) for measuring the output voltage of the rectifier (16);
  
  a priming circuit (18) coupled to the rectifier and to the programmable control unit and presenting sufficient capacitance to be capable of powering the control unit temporarily in the absence of a DC voltage being delivered to the rectifier or by the battery;
  
  the load (13) being coupled to the voltage converter, and the apparatus (40) further comprising a control unit (10) coupled to the voltage converter, connected to the control member (29) and to the voltage measurement means (26), and arranged to cause either the battery to be charged by the rectifier, or the load (13) to be powered by the rectifier, or the load (13) to be powered by the battery, as a function of the state of the control member (29) and of the output voltage of the rectifier (16).
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. Apparatus according to claim 1, wherein the voltage converter comprises a half-bridge circuit comprising two switches (19, 20) that are opened and closed under the control of a switch driver circuit (11) as a function of control signals delivered to the driver circuit (11) by the control unit (10).
  - 3. Apparatus according to claim 1 , wherein the control member (29) acting as a switch comprises a sensor that is sensitive to an item making contact with the apparatus, in particular a sensor that is sensitive to a user'"'"'s finger contacting or pressing against the apparatus, e.g. a pressure sensor.
  - 4. Apparatus according to claim 1, wherein the voltage converter is arranged and controlled so as to charge the battery at a voltage lower than the output voltage of the rectifier, and to power the load (13) from the battery at a voltage that is higher than the output voltage of the battery, in particular at a voltage that is substantially constant or at a current that is substantially constant.
  - 5. Apparatus according to claim 1 including means (10, 32) for measuring the battery charge voltage.
  - 6. Apparatus according to claim 1, including means (10, 25, 28) for measuring the current powering the load (13).
  - 7. Apparatus according to claim 1, including a circuit (17) providing protection against excess voltages, which circuit is connected/coupled to the output of the rectifier.
  - 8. Apparatus according to claim 1, wherein the voltage converter includes a branch having two transistors (19, 20) connected in series across the output of the rectifier, with the midpoint of the branch being connected to the battery by an inductor (21) and a capacitor (22).
  - 9. Apparatus according to claim 1, wherein the load (13) is connected to the rectifier and to the voltage converter via a switch (24) controlled by the control unit (10).
  - 10. Apparatus according to claim 1, wherein the load (13) comprises—
    - or is essentially constituted by—
      
      LEDs connected in series.
  - 11. Apparatus according to claim 1, wherein the load (13) comprises a DC motor, a tablet or a computer, a sensor, or a measurement instrument.

12. An induction power supply system comprising an apparatus (40) and an induction power supply device (50) for powering the apparatus (40), wherein the apparatus comprises:
- a first inductor (14),a rectifier (16) coupled to the inductor,a load (13) coupled to the rectifier,a control member (29) for controlling power supply to the load (13),a first DC voltage converter (19 to 22) coupled to the rectifier (16),a battery (12) coupled to the first DC voltage converter; and
  
  measurement means (26) for measuring the output voltage of the rectifier (16);
  
  the load (13) being coupled to the voltage converter, and the apparatus (40) further comprising;
  
  a first control unit (10) coupled to the voltage converter, connected to the control member (29) and to the voltage measurement means (26), and arranged to cause either the battery to be charged by the rectifier, or the load (13) to be powered by the rectifier, or the load (13) to be powered by the battery, as a function of the state of the control member (29) and of the output voltage of the rectifier (16); and
  
  a priming circuit (18) coupled to the rectifier and to the first control unit and presenting sufficient capacitance to be capable of powering the first control unit temporarily in the absence of a DC voltage being delivered by the rectifier or by the battery,and wherein the induction power supply device comprises;
  
  a second DC voltage converter (54, 55, 57);
  
  a second inductor (51) coupled to the second voltage converter;
  
  a measurement circuit (59) for measuring voltage across the terminals of the second inductor (51); and
  
  a second control unit (60) coupled to the second voltage converter, connected to the measurement circuit (59), and arranged to control either powering of the second inductor (51) by the second converter under a control voltage as a function of voltage data stored in a memory associated with the second control unit (60), or the delivery of pulses that are spaced apart in time to the second inductor (51) by the second converter, as a function of voltage measurements delivered by the measurement circuit (59).
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
- - 13. An induction power supply system according to claim 12, wherein the first voltage converter comprises a half-bridge circuit comprising two switches (19, 20) that are opened and closed under the control of a switch driver circuit (11) as a function of control signals delivered to the driver circuit (11) by the first control unit (10).
  - 14. An induction power supply system according to claim 12, wherein the control member (29) acting as a switch comprises a sensor that is sensitive to an item making contact with the apparatus, in particular a sensor that is sensitive to a user'"'"'s finger contacting or pressing against the apparatus, e.g. a pressure sensor.
  - 15. An induction power supply system according to claim 12, wherein the first voltage converter is arranged and controlled so as to charge the battery at a voltage lower than the output voltage of the rectifier, and to power the load (13) from the battery at a voltage that is higher than the output voltage of the battery, in particular at a voltage that is substantially constant or at a current that is substantially constant.
  - 16. An induction power supply system according to claim 12, wherein the first voltage converter includes a branch having two transistors (19, 20) connected in series across the output of the rectifier, with the midpoint of the branch being connected to the battery by an inductor (21) and a capacitor (22).
  - 17. An induction power supply system according to claim 12, wherein the load (13) is connected to the rectifier and to the voltage converter via a switch (24) controlled by the first control unit (10).
  - 18. An induction power supply system according to claim 12, wherein the load (13) comprises—
    - or is essentially constituted by—
      
      LEDs connected in series.
  - 19. An induction power supply system according to claim 12, wherein the load (13) comprises a DC motor, a tablet or a computer, a sensor, or a measurement instrument.

20. Apparatus (40) comprising an inductor (14), a rectifier (16) coupled to the inductor, a load (13) coupled to the rectifier, and a control member (29) for controlling power supply to the load (13), the apparatus further comprising:
- a DC voltage converter (19 to 22) coupled to the rectifier (16);
  
  a battery (12) coupled to the voltage converter; and
  
  measurement means (26) for measuring the output voltage of the rectifier (16);
  
  the load (13) being coupled to the voltage converter, and the apparatus (40) further comprising a control unit (10) coupled to the voltage converter, connected to the control member (29) and to the voltage measurement means (26), and arranged to cause either the battery to be charged by the rectifier, or the load (13) to be powered by the rectifier, or the load (13) to be powered by the battery, as a function of the state of the control member (29) and of the output voltage of the rectifier (16),wherein the voltage converter includes a branch having two transistors (19, 20) connected in series across the output of the rectifier, with the midpoint of the branch being connected to the battery by an inductor (21) and a capacitor (22).
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
- - 21. Apparatus according to claim 20, wherein the voltage converter comprises a half-bridge circuit comprising two switches (19, 20) that are opened and closed under the control of a switch driver circuit (11) as a function of control signals delivered to the driver circuit (11) by the control unit (10).
  - 22. Apparatus according to claim 20, wherein the control member (29) acting as a switch comprises a sensor that is sensitive to an item making contact with the apparatus, in particular a sensor that is sensitive to a user'"'"'s finger contacting or pressing against the apparatus, e.g. a pressure sensor.
  - 23. Apparatus according to claim 20, wherein the voltage converter is arranged and controlled so as to charge the battery at a voltage lower than the output voltage of the rectifier, and to power the load (13) from the battery at a voltage that is higher than the output voltage of the battery, in particular at a voltage that is substantially constant or at a current that is substantially constant.
  - 24. Apparatus according to claim 20, including a priming circuit (18) coupled to the rectifier and to the control unit and presenting sufficient capacitance to be capable of powering the control unit temporarily in the absence of a DC voltage being delivered by the rectifier or by the battery.
  - 25. Apparatus according to claim 20, including means (10, 32) for measuring the battery charge voltage.
  - 26. Apparatus according to claim 20, including means (10, 25, 28) for measuring the current powering the load (13).
  - 27. Apparatus according to claim 20, including a circuit (17) providing protection against excess voltages, which circuit is connected/coupled to the output of the rectifier.
  - 28. Apparatus according to claim 20, wherein the load (13) is connected to the rectifier and to the voltage converter via a switch (24) controlled by the control unit (10).
  - 29. Apparatus according to claim 20, wherein the load (13) comprises—
    - or is essentially constituted by—
      
      LEDs connected in series.
  - 30. Apparatus according to claim 20, wherein the load (13) comprises a DC motor, a tablet or a computer, a sensor, or a measurement instrument.

31. An induction power supply system comprising an apparatus (40) and an induction power supply device (50) for powering the apparatus (40), wherein the apparatus comprises:
- a first inductor (14),a rectifier (16) coupled to the inductor,a load (13) coupled to the rectifier,a control member (29) for controlling power supply to the load (13),a first DC voltage converter (19 to 22) coupled to the rectifier (16),a battery (12) coupled to the first DC voltage converter; and
  
  measurement means (26) for measuring the output voltage of the rectifier (16);
  
  the load (13) being coupled to the voltage converter, and the apparatus (40) further comprising a first control unit (10) coupled to the voltage converter, connected to the control member (29) and to the voltage measurement means (26), and arranged to cause either the battery to be charged by the rectifier, or the load (13) to be powered by the rectifier, or the load (13) to be powered by the battery, as a function of the state of the control member (29) and of the output voltage of the rectifier (16);
  
  wherein the voltage converter includes a branch having two transistors (19, 20) connected in series across the output of the rectifier, with the midpoint of the branch being connected to the battery by an inductor (21) and a capacitor (22),and wherein the induction power supply device comprises;
  
  a second DC voltage converter (54, 55, 57);
  
  a second inductor (51) coupled to the second voltage converter;
  
  a measurement circuit (59) for measuring voltage across the terminals of the second inductor (51); and
  
  a second control unit (60) coupled to the second voltage converter, connected to the measurement circuit (59), and arranged to control either powering of the second inductor (51) by the second converter under a control voltage as a function of voltage data stored in a memory associated with the second control unit (60), or the delivery of pulses that are spaced apart in time to the second inductor (51) by the second converter, as a function of voltage measurements delivered by the measurement circuit (59).
- View Dependent Claims (32, 33, 34, 35, 36, 37, 38)
- - 32. An induction power supply system according to claim 31, wherein the first voltage converter comprises a half-bridge circuit comprising two switches (19, 20) that are opened and closed under the control of a switch driver circuit (11) as a function of control signals delivered to the driver circuit (11) by the first control unit (10).
  - 33. An induction power supply system according to claim 31, wherein the control member (29) acting as a switch comprises a sensor that is sensitive to an item making contact with the apparatus, in particular a sensor that is sensitive to a user'"'"'s finger contacting or pressing against the apparatus, e.g. a pressure sensor.
  - 34. An induction power supply system according to claim 31, wherein the first voltage converter is arranged and controlled so as to charge the battery at a voltage lower than the Output voltage of the rectifier, and to power the load (13) from the battery at a voltage that is higher than the output voltage of the battery, in particular at a voltage that is substantially constant or at a current that is substantially constant.
  - 35. An induction power supply system according to claim 31, including a priming circuit (18) coupled to the rectifier and to the first control unit and presenting sufficient capacitance to be capable of powering the first control unit temporarily in the absence of a DC voltage being delivered by the rectifier or by the battery.
  - 36. An induction power supply system according to claim 31, wherein the load (13) is connected to the rectifier and to the voltage converter via a switch (24) controlled by the first control unit (10).
  - 37. An induction power supply system according to claim 31, wherein the load (13) comprises—
    - or is essentially constituted by—
      
      LEDs connected in series.
  - 38. An induction power supply system according to claim 31, wherein the load (13) comprises a DC motor, a tablet or a computer, a sensor, or a measurement instrument.

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Current Assignee
PHLOX
Original Assignee
PHLOX
Inventors
Blanc, Christophe
Primary Examiner(s)
Tran, Thienvu
Assistant Examiner(s)
Stables, David M

Application Number

US14/911,806
Publication Number

US 20160197507A1
Time in Patent Office

1,548 Days
Field of Search

None
US Class Current
CPC Class Codes

H02J 50/10   using inductive coupling

H02J 50/12   of the resonant type

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

H05B 45/345   Current stabilisation; Main...

H05B 45/3725   Switched mode power supply ...

H05B 45/48   having LEDs organised in st...

Y02B 20/30   Semiconductor lamps, e.g. s...

Autonomous apparatus and system comprising such an apparatus

First Claim

1 Assignment

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Abstract

9 Citations

38 Claims

Specification

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Autonomous apparatus and system comprising such an apparatus

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

9 Citations

38 Claims

Specification

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Solutions

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