RF power amplifier having improved power supply for RF drive circuits
First Claim
1. A RF power amplifier system, comprising:
- a RF source for providing a train of RF pulses exhibiting RF cycles of a fixed frequency and wherein each pulse is of a fixed amplitude and duration;
a DC voltage source;
a bridge circuit including a first transistor switch for, when on, connecting said DC voltage source across a load for DC current flow therethrough in a first direction and a second transistor switch for, when on, connecting said DC voltage source across said load for DC current flow therethrough in a second direction;
a switch driver for, when enabled, passing said RF pulses for driving said first and second transistor switches on and off at a frequency dependent upon that of said RF pulses and in such a manner that current from said DC voltage source alternately flows in said first and second directions through said load;
a driver controller for providing turn-on signals and selectively applying them to said switch driver for enabling said switch driver for passing said RF pulses to said transistor switches;
a driver amplifier interposed between said switch driver and each said transistor switch in said bridge circuit;
a DC to DC power supply for supplying DC drive voltage to each said driver amplifier wherein said power supply includes a second DC voltage source, a transformer having a primary winding and a plurality of secondary windings, a first switching transistor for, when on, connecting said primary winding across said second DC voltage source, and a control circuit for turning said first switching transistor on and off in synchronism with the frequency of said RF pulses so that any DC supply ripple voltage at said secondary windings has a ripple frequency equal to the frequency of said RF pulses.
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Accused Products
Abstract
A RF power amplifier system is presented herein including a RF source for providing a train of RF pulses exhibiting RF cycles of a fixed frequency and wherein each pulse is of a fixed amplitude and duration. A bridge circuit is provided and it includes a first transistor switch for, when on, connecting the DC voltage source across a load for DC current flow therethrough in a first direction and a second transistor switch for, when on, connecting the DC voltage source across the load for DC current flow therethrough in a second direction. A switch driver serves, when enabled, to pass the RF pulses for driving the first and second transistor switches on and off at a frequency dependent upon that of the RF pulses and in such a manner that current from the DC voltage source alternately flows in the first and second directions through the load. A driver controller provides turn-on signals and selectively applies them to the switch driver for enabling the switch driver for passing the RF pulses to the transistor switches. A driver amplifier is interposed between the switch driver and each transistor switch in the bridge circuit. A DC to DC power supply supplies DC drive voltage to each driver amplifier wherein the power supply includes a second DC voltage source, a transformer having a primary winding and a plurality of secondary windings. A first switching transistor serves, when on, to connect the primary winding across the second DC voltage source. A control circuit turns the first switching transistor on and off in synchronism with the frequency of the RF pulses so that any DC supply ripple voltage at the secondary windings has a ripple frequency equal to the frequency of the RF pulses.
23 Citations
16 Claims
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1. A RF power amplifier system, comprising:
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a RF source for providing a train of RF pulses exhibiting RF cycles of a fixed frequency and wherein each pulse is of a fixed amplitude and duration;
a DC voltage source;
a bridge circuit including a first transistor switch for, when on, connecting said DC voltage source across a load for DC current flow therethrough in a first direction and a second transistor switch for, when on, connecting said DC voltage source across said load for DC current flow therethrough in a second direction;
a switch driver for, when enabled, passing said RF pulses for driving said first and second transistor switches on and off at a frequency dependent upon that of said RF pulses and in such a manner that current from said DC voltage source alternately flows in said first and second directions through said load;
a driver controller for providing turn-on signals and selectively applying them to said switch driver for enabling said switch driver for passing said RF pulses to said transistor switches;
a driver amplifier interposed between said switch driver and each said transistor switch in said bridge circuit;
a DC to DC power supply for supplying DC drive voltage to each said driver amplifier wherein said power supply includes a second DC voltage source, a transformer having a primary winding and a plurality of secondary windings, a first switching transistor for, when on, connecting said primary winding across said second DC voltage source, and a control circuit for turning said first switching transistor on and off in synchronism with the frequency of said RF pulses so that any DC supply ripple voltage at said secondary windings has a ripple frequency equal to the frequency of said RF pulses. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A RF power amplifier system, comprising:
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a RF source for providing a train of RF pulses;
a first transistor switch for, when on, connecting a DC voltage source across a load for DC current flow therethrough in a first direction;
a switch driver for passing said RF pulses for driving said transistor switch on and off at a frequency dependent upon that of said RF pulses;
a driver amplifier interposed between said switch driver and said transistor switch;
a DC to DC power supply for supplying DC drive voltage to said driver amplifier wherein said power supply includes a second DC voltage source, a transformer having a primary winding and at least one secondary winding, a first switching transistor for, when on, connecting said primary winding across said second DC voltage source, and a control circuit for turning said first switching transistor on and off in synchronism with the frequency of said RF pulses so that any DC supply ripple voltage at said secondary winding has a ripple frequency equal to the frequency of said RF pulses. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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Specification