Power-saving mode for portable communication devices
First Claim
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1. A portable communication package comprising:
- a first battery-powered communication device and a second battery-powered communication device, said first battery-powered communication device having power consumption requirements which are at least an order of magnitude greater than those of the second battery-powered communication device;
at least one battery supplying a flow of electricity for powering both of said first battery-powered communication device and said second battery-powered communication device, said at least one battery having first and second output terminals, said first output terminal having a potential that is positive with respect to the potential of said second output terminal, said at least one battery including a first battery and a second battery; and
a power management unit for providing an uninterrupted flow of said flow of electricity to said second battery-powered communication device for a predetermined period although said at least one battery has insufficient capacity for providing an uninterrupted flow of said flow of electricity to said first communication device for said predetermined period, said power management unit comprising;
an oscillator having a clock signal;
an inverter including a P-channel FET having a gate coupled to said clock signal and a channel coupling said first output terminal to an output node, and an N-channel FET having a gate coupled to said clock signal and a channel coupling said second output terminal to said output node;
a current-limiting resistor;
an intermediate FET having a gate and a channel connected in series with said current-limiting resistor coupling said first output terminal to said second output terminal;
a plurality of series-coupled diodes coupling said output node to the gate of said intermediate FET; and
a flyback inductor for current from a storage device to intermittently flow through, said intermittent flow being controlled by said intermediate FET to provide a pulsating flyback voltage after rectification and filtering thereof gives an output voltage for powering said first battery-powered communication device.
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Abstract
Method and apparatus for ensuring that, in a portable, battery-powered communication package incorporating at least two communication devices, such as a combination cellular telephone and a pager, sufficient power is provided for extended operation of the communication device having the lowest continuous power consumption requirements when the device having a higher continuous power consumption rate has consumed a selected portion of the total power initially available to the combined devices.
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Citations
20 Claims
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1. A portable communication package comprising:
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a first battery-powered communication device and a second battery-powered communication device, said first battery-powered communication device having power consumption requirements which are at least an order of magnitude greater than those of the second battery-powered communication device;
at least one battery supplying a flow of electricity for powering both of said first battery-powered communication device and said second battery-powered communication device, said at least one battery having first and second output terminals, said first output terminal having a potential that is positive with respect to the potential of said second output terminal, said at least one battery including a first battery and a second battery; and
a power management unit for providing an uninterrupted flow of said flow of electricity to said second battery-powered communication device for a predetermined period although said at least one battery has insufficient capacity for providing an uninterrupted flow of said flow of electricity to said first communication device for said predetermined period, said power management unit comprising;
an oscillator having a clock signal;
an inverter including a P-channel FET having a gate coupled to said clock signal and a channel coupling said first output terminal to an output node, and an N-channel FET having a gate coupled to said clock signal and a channel coupling said second output terminal to said output node;
a current-limiting resistor;
an intermediate FET having a gate and a channel connected in series with said current-limiting resistor coupling said first output terminal to said second output terminal;
a plurality of series-coupled diodes coupling said output node to the gate of said intermediate FET; and
a flyback inductor for current from a storage device to intermittently flow through, said intermittent flow being controlled by said intermediate FET to provide a pulsating flyback voltage after rectification and filtering thereof gives an output voltage for powering said first battery-powered communication device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
a reference voltage;
a measured voltage representative of a charge level of said at least one battery; and
a switch for cutting the flow of electricity from said storage device to said first battery-powered communication device when the measured voltage drops below a predetermined level that corresponds to a minimum battery charge level required for continued operation of the second battery-powered communication device for a desired period of time.
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5. The portable communication package of claim 4, wherein a silicon bandgap circuit produces said reference voltage.
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6. The portable communication package of claim 4, wherein a voltage divider circuit produces said measured voltage.
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7. The portable communication package of claim 4, which further comprises a comparator including:
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an output;
a first input coupled to said reference voltage; and
a second input coupled to said measured voltage.
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8. The portable communication package of claim 7, wherein said switch is a transistor controlled by said comparator output.
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9. The portable communication package of claim 4, wherein said second battery-powered communication device is a pager, and said first battery-powered communication device is a wireless telephone.
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10. The portable communication package of claim 1, which further comprises:
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an intermediate node interposed between said current-limiting resistor and said intermediate FET;
a final FET having a gate coupled to said intermediate node through at least one buffer, said final FET and said flyback inductor providing a serial current path between said first and said second output terminals; and
a final node within the serial current path interposed between said flyback inductor and said final FET, said intermittent flow of said power output taken from said final node within the serial current path.
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11. The portable communication package of claim 10, wherein said intermediate FET and said final FET are both N-channel devices.
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12. The portable communication package of claim 11, further comprising:
an adjustment resistor interposed in the serial current path having a resistance value setting the output voltage.
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13. The portable communication package of claim 1, further comprising:
a flyback shut-off transistor controlled by said output voltage for disabling said inverter when said output voltage reaches a preset level.
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14. The portable communication package of claim 13, further comprising:
a voltage divider which adjusts said preset level.
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15. In combination with at least two communication devices packaged in a single portable unit having a single battery providing power for operating said at least two communication devices, a power management unit comprising:
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an oscillator producing a clock signal;
an inverter including a P-channel FET having a gate coupled to said clock signal and a channel coupling a first output terminal to an output node, and an N-channel FET having a gate coupled to said clock signal and a channel coupling a second output terminal to said output node;
a current-limiting resistor;
an intermediate FET having a gate and a channel in series with said current-limiting resistor coupling said first output terminal to said second output terminal;
a plurality of series-coupled diodes coupling said output node to the gate of said intermediate FET;
a flyback inductor through which current from a storage device intermittently flows, being controlled by said intermediate FET for providing intermittent output power subsequent to rectification and filtering, powers a first of said at least two communication devices;
an intermediate node interposed between said current-limiting resistor and said intermediate FET;
a final FET having a gate coupled to said intermediate node through at least one buffer, said final FET and said flyback inductor providing a serial current path between said first and said second output terminals;
an adjustment resistor interposed in the serial current path; and
a final node within the serial current path, said final node interposed between said flyback inductor and said final FET for said intermittent output power being taken from the final node. - View Dependent Claims (16, 17)
an adjustment resistor interposed in the serial current path having a resistance value setting an output voltage.
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18. In combination with a wireless communication device and a pager device packaged in a single portable unit having a single battery providing power for operating both of said devices, a power management unit comprising:
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an oscillator producing a clock signal;
an inverter having both a P-channel FET having a gate coupled to said clock signal and a channel coupling a first output terminal to an output node and an N-channel FET having a gate coupled to said clock signal and a channel coupling a second output terminal to said output node;
a current-limiting resistor;
an intermediate N-channel FET having a gate and a channel connected in series with said current-limiting resistor coupling said first output terminal to said second output terminal;
a plurality of series-coupled diodes coupling said output node to the gate of said intermediate N-channel FET; and
a flyback inductor through which current from a storage device intermittently flows being controlled by said intermediate N-channel FET to provide intermittent output power subsequent to rectification and filtering thereof, powers said wireless communication device. - View Dependent Claims (19, 20)
an intermediate node interposed between said current-limiting resistor and said intermediate N-channel FET; and
a final FET having a gate coupled to said intermediate node through at least one buffer, said final FET and said flyback inductor providing a serial current path between said first and said second output terminals, said intermittent output power being taken from a final node within the serial current path, said final node interposed between said flyback inductor and said final FET.
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20. The power management unit of claim 19, wherein said final FET comprises an N-channel device.
Specification