Electronic device comprising a wake up module distinct from a core domain
First Claim
1. A device comprising:
- a processing core having a processing core active state and a processing core standby state;
an appended module coupled to the processing core and separate from the processing core, the appended module having an appended module active state and an appended module standby state;
wherein the processing core comprises;
a first power supply circuit;
a first clock; and
a sound recognition circuit configured to recognize multiple vocal commands, the sound recognition circuit being configured to be timed by the first clock; and
wherein the appended module comprises;
a second power supply circuit that is independent of the first power supply circuit, the first power supply circuit further being independent of the second power supply circuit;
a second clock that is independent of the first clock and has a frequency lower than that of the first clock;
a digital processing unit timed by the second clock configured to capture a first sound signal and to deliver a processed sound signal;
a processing unit configured to be timed exclusively by the second clock, the processing unit comprising a clock input that is coupled to the second clock when the appended module is in the appended module active state, and decoupled from the second clock and any other clock signal when the appended module is in the appended module standby state, the processing unit further being configured to, when the appended module is in the appended module active state, analyze content of the processed sound signal and, when the content of the processed sound signal comprises a reference pattern, to deliver an activating signal to the sound recognition circuit of the processing core that can take the processing core out of the processing core standby state, wherein the processing unit is configured to be powered by the second power supply circuit when the appended module is in the appended module standby state and when the appended module is in the appended module active state;
a comparator coupled between the digital processing unit and the processing unit, the comparator being configured to modulate coupling of the clock input of the processing unit to the second clock in response to a comparison of a parameter of the processed sound signal to a threshold; and
a local interconnection circuit coupled to the processing unit, the local interconnection circuit being configured to couple the clock input of the processing unit to the second clock in order to take the appended module out of the appended module standby state and into the appended module active state.
1 Assignment
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Accused Products
Abstract
An electronic device includes an appended module coupled to a core having a standby state comprising a first power supply circuit, a first clock and a circuit that recognizes multiple vocal commands timed by the first clock. The appended module includes a second power supply circuit independent of the first power supply circuit, a second clock independent of the first clock and having a frequency lower than that of the first clock, digital unit timed by the second clock including a sound capture circuit that delivers a processed sound signal, and a processing unit configured in order, in the presence of a parameter of the processed sound signal greater than a threshold, to analyze the content of the processed sound signal and to deliver, when the content of the sound signal comprises a reference pattern, an activating signal to the core that can take it out of its standby state.
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Citations
19 Claims
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1. A device comprising:
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a processing core having a processing core active state and a processing core standby state; an appended module coupled to the processing core and separate from the processing core, the appended module having an appended module active state and an appended module standby state; wherein the processing core comprises; a first power supply circuit; a first clock; and a sound recognition circuit configured to recognize multiple vocal commands, the sound recognition circuit being configured to be timed by the first clock; and wherein the appended module comprises; a second power supply circuit that is independent of the first power supply circuit, the first power supply circuit further being independent of the second power supply circuit; a second clock that is independent of the first clock and has a frequency lower than that of the first clock; a digital processing unit timed by the second clock configured to capture a first sound signal and to deliver a processed sound signal; a processing unit configured to be timed exclusively by the second clock, the processing unit comprising a clock input that is coupled to the second clock when the appended module is in the appended module active state, and decoupled from the second clock and any other clock signal when the appended module is in the appended module standby state, the processing unit further being configured to, when the appended module is in the appended module active state, analyze content of the processed sound signal and, when the content of the processed sound signal comprises a reference pattern, to deliver an activating signal to the sound recognition circuit of the processing core that can take the processing core out of the processing core standby state, wherein the processing unit is configured to be powered by the second power supply circuit when the appended module is in the appended module standby state and when the appended module is in the appended module active state; a comparator coupled between the digital processing unit and the processing unit, the comparator being configured to modulate coupling of the clock input of the processing unit to the second clock in response to a comparison of a parameter of the processed sound signal to a threshold; and a local interconnection circuit coupled to the processing unit, the local interconnection circuit being configured to couple the clock input of the processing unit to the second clock in order to take the appended module out of the appended module standby state and into the appended module active state. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A device, comprising:
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a processing core having a processing core active state and a processing core standby state; an appended circuit coupled to the processing core and separate from the processing core, the appended circuit having an appended circuit active state and an appended circuit standby state; wherein the processing core comprises; a first power supply circuit; a first clock; and a sound recognition circuit configured to recognize multiple vocal commands timed by the first clock; and wherein the appended circuit comprises; a second power supply circuit that does not draw power from the first power supply circuit and that does not supply power to the first power supply circuit in the appended circuit active state, the appended circuit standby state, the processing core active state, and the processing core standby state; a second clock that does not draw a clock signal from or supply the clock signal to the first clock, the second clock having a frequency lower than that of the first clock; a digital processing unit comprising a microphone and timed by the second clock configured to capture a first sound signal and to deliver a processed sound signal; and a processing unit configured to analyze content of the processed sound signal and, when the content of the processed sound signal comprises a reference pattern, to deliver an activating signal to the processing core that can take the processing core out of the processing core standby state. - View Dependent Claims (8, 9, 10, 11)
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12. A device, comprising:
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a processing core having a processing core active state and a processing core standby state; an appended circuit coupled to the processing core and distinct from the processing core, the appended circuit having an appended circuit active state and an appended circuit standby state; wherein the processing core comprises; a first power supply circuit; a first clock configured to be powered by the first power supply circuit; and a sound recognition circuit configured to be powered by the first power supply circuit and to recognize multiple vocal commands, the sound recognition circuit being configured to be timed by the first clock; and wherein the appended circuit comprises; a second power supply circuit distinct from the first power supply circuit and that does not draw power from the first power supply circuit and that does not supply power to the first power supply circuit in the appended circuit active state, the appended circuit standby state, the processing core active state, and the processing core standby state; a second clock that does not draw a clock signal from or supply the clock signal to the first clock, the second clock having a frequency lower than that of the first clock; a digital processing unit configured to be powered by the second power supply circuit, the digital processing unit being configured to be timed by the second clock, to capture a first sound signal, and to deliver a processed sound signal; and a processing unit configured to analyze content of the processed sound signal and, in response to the content of the processed sound signal comprising a reference pattern, to deliver an activating signal to the processing core that can take the processing core out of the processing core standby state and into the processing core active state. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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Specification