INTELLIGENT RF POWER CONTROL FOR WIRELESS MODEM DEVICES
First Claim
1. A bypass circuit for use with PC cards, the bypass circuit for controlling the power supply voltage fed to a power amplifier when switching between a 8-PSK modulation mode and a GMSK modulation mode, the bypass circuit comprising:
- a step-up DC/DC converter capable of providing a higher voltage to the power amplifier than can be supplied by an original power supply;
a step-up switch;
a battery switch; and
switch control logic for controlling the step-up switch and the battery switch such that the step-up switch is turned on when operating in the 8-PSK modulation mode to provide a stepped-up higher voltage to the power amplifier than the original power supply voltage and the battery switch is turned on when operating in the GMSK modulation mode to provide the original power supply voltage to the power amplifier.
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Accused Products
Abstract
A bypass circuit is disclosed for use with lower power supply voltage PC cards. The bypass circuit controls the power supply voltage fed to a power amplifier when switching between a lower power 8-PSK modulation mode and a higher power GMSK modulation mode. A step-up DC/DC converter provides a higher voltage to the power amplifier than can be supplied by an original power supply. Switch control logic controls a step-up switch and a battery switch. The step-up switch is turned on when operating in an 8-PSK modulation mode to provide a higher voltage to the power amplifier than the original power supply voltage. The battery switch is turned on when operating in the GMSK modulation mode to provide the original power supply voltage to the power amplifier.
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Citations
5 Claims
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1. A bypass circuit for use with PC cards, the bypass circuit for controlling the power supply voltage fed to a power amplifier when switching between a 8-PSK modulation mode and a GMSK modulation mode, the bypass circuit comprising:
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a step-up DC/DC converter capable of providing a higher voltage to the power amplifier than can be supplied by an original power supply;
a step-up switch;
a battery switch; and
switch control logic for controlling the step-up switch and the battery switch such that the step-up switch is turned on when operating in the 8-PSK modulation mode to provide a stepped-up higher voltage to the power amplifier than the original power supply voltage and the battery switch is turned on when operating in the GMSK modulation mode to provide the original power supply voltage to the power amplifier. - View Dependent Claims (2, 3, 4)
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5. A bypass circuit for controlling the power supply voltage fed to a power amplifier when switching between an application which can be boosted to a higher power amplifier voltage having more margin for current according to the PCMCIA specification;
- and an application with no current margin, but can tolerate lower PA voltages;
, the bypass circuit comprising;
a step-up DC/DC converter capable of providing a higher voltage to the power amplifier than can be supplied by an original power supply;
a step-up switch;
a battery switch; and
switch control logic for controlling the step-up switch and the battery switch such that the step-up switch is turned to provide a stepped-up higher voltage to the power amplifier than the original power supply voltage and the battery switch is turned on to provide the original power supply voltage to the power amplifier.
- and an application with no current margin, but can tolerate lower PA voltages;
Specification
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- Resources
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Current AssigneeSony Ericsson Mobile Communications AB (Sony Group Corp.)
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Original AssigneeSony Ericsson Mobile Communications AB (Sony Group Corp.)
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InventorsHahn, Christopher, Earl, Paul
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current363/60
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CPC Class CodesH03F 1/0205 in transistor amplifiersH03F 1/0238 using supply convertersH03F 1/0244 Stepped controlH03F 2200/511 Many discrete supply voltag...H03F 2200/513 the amplifier being made fo...H03F 3/24 of transmitter output stages
