CLASS-E RADIO FREQUENCY AMPLIFIER FOR USE WITH AN IMPLANTABLE MEDICAL DEVICE

Abstract

A medical apparatus includes an extracorporeal power source that transmits electrical power via a radio frequency signal to a medical device implanted inside an animal. The extracorporeal power source has a Class-E amplifier with a choke and a semiconductor switch connected in series between a source of a supply voltage and circuit ground. An output node of the amplifier is formed between choke and the switch and connected to a transmitter antenna. A shunt capacitor couples the amplifier's output node to the circuit ground. Controlled operation of the switch produces bursts of the radio frequency signal that are pulse width modulated to control the amount of energy being sent to the implanted medical device.

Description

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram of a wireless transvascular platform, that includes external and internal components, for stimulating tissue inside a patient;

FIG. 2 is a schematic diagram of an exemplary implanted medical device with an external component containing a Class-E RF amplifier;

FIG. 3 is a detailed schematic diagram of the Class-E RF amplifier; and

FIG. 4 depicts waveforms for signals in the Class-E RF amplifier.

Claims

1. A medical apparatus comprising: an extracorporeal power source having a power transmitter that produces a radio frequency signal and an antenna that is connected to the power transmitter, the power transmitter including a source of the radio frequency signal, a Class-E amplifier that comprises a switch; the power source comprising a pulse width modulator that receives the radio frequency signal and a control signal and in response thereto produces an output signal that is applied to a control input of the switch; an output sensor which provides a feedback signal indicating an intensity of radio frequency signal applied to the antenna, and wherein the pulse width modulator responds to the feedback signal by varying the output signal; anda medical device for implantation inside an animal, the medical device receiving the radio frequency signal transmitted from the antenna and deriving an electrical voltage from energy of the radio frequency signal which electrical voltage powers components of the medical device.

2. The medical apparatus as recited in claim 1 wherein the Class-E amplifier further comprises a choke connected in series with the switch between a source of a supply voltage and circuit ground, with an amplifier output node being formed between choke and the switch and connected to the antenna, and a shunt capacitor coupling the amplifier output node to the circuit ground.

3. The medical apparatus as recited in claim 1 wherein the switch is selected from a group consisting of a semiconductor device and a MOSFET.

4. The medical apparatus as recited in claim 2 wherein the switch is a semiconductor device that is connected to a load and the radio frequency signal is proportional to an induced voltage at the load.

5. The medical apparatus as recited in claim 1 wherein the output signal controls a duty cycle of the switch;

6. The medical apparatus as recited in claim 5 wherein the switch is a MOSFET that has a channel resistance and a peak current rating, wherein an arithmetic product of the channel resistance and a peak current rating is less than 3% of a supply voltage to the Class-E amplifier.

7. The medical apparatus as recited in claim 1 wherein the switch is rated to conduct a transient current level that is at least ten times a maximum level of a current that the switch is expected to conduct.

8. The medical apparatus as recited in claim 1 wherein the pulse width modulator modulates the radio frequency signal with the control signal to produce the output signal.

9. The medical apparatus as recited in claim 1 wherein the output signal has an envelope defined by the control signal.

10. The medical apparatus as recited in claim 1 wherein the output signal comprises pulses of the radio frequency signal, wherein each pulse has a shape that is defined by the control signal.

11. A medical apparatus comprising: an extracorporeal power source having a power transmitter and an antenna that is connected to the power transmitter, the power transmitter including a source of a radio frequency signal, a Class-E amplifier that comprises a choke and a switch controlled by the radio frequency signal and connected in series between a source of a supply voltage and circuit ground, with an amplifier output node being formed between choke and the switch and connected to the antenna, and a shunt capacitor coupling the amplifier output node to the circuit ground, an output sensor which provides a feedback signal indicating an intensity of a signal applied to the antenna, and wherein the feedback signal is applied to the source to control production of the radio frequency signal; anda medical device for implantation inside an animal, the medical device receiving the radio frequency signal transmitted from the antenna and deriving an electrical voltage from energy of the radio frequency signal which electrical voltage powers components of the medical device.

12. The medical apparatus as recited in claim 11 wherein the Class-E amplifier further comprises an input capacitor connected between the source of the supply voltage and the circuit ground.

13. The medical apparatus as recited in claim 1I1 wherein the switch is a semiconductor device.

14. The medical apparatus as recited in claim 13 wherein the semiconductor device has a feedback capacitance that is less than 10% of an input capacitance of the semiconductor device.

15. The medical apparatus as recited in claim 11 wherein the switch is a MOSFET with a channel resistance and a peak current rating wherein an arithmetic product of the channel resistance and a peak current rating of the switch is less than 3% of the supply voltage.

16. The medical apparatus as recited in claim 11 wherein the switch is rated to conduct a transient current level that is at least ten times a maximum level of a current that the switch is expected to conduct.

17. The medical apparatus as recited in claim 1I1 wherein the source of the radio frequency signal comprises a pulse width modulator that receives a radio frequency signal and the feedback signal and in response thereto produces an output signal that is applied to a control input of the switch.

18. The medical apparatus as recited in claim 17 wherein the pulse width modulator modulates the radio frequency signal with the feedback signal to produce the output signal.

19. The medical apparatus as recited in claim 17 wherein the output signal has an envelope defined by the feedback signal.

20. The medical apparatus as recited in claim 18 wherein the output signal comprises pulses of the radio frequency signal wherein each pulse has a shape that is defined by the feedback signal.