VAD DETECTION MICROPHONE AND METHOD OF OPERATING THE SAME
First Claim
1. A microphone, the microphone comprising:
- a microelectromechanical system (MEMS) circuit that is configured to convert a voice signal into an electrical signal, an integrated circuit coupled to the MEMS circuit that is configured to receive the electrical signal;
wherein the integrated circuit and the MEMS circuit receive a clock signal from an external host, the clock signal being effective to cause the MEMS circuit and integrated circuit to operate in full system operation mode during a first time period and in a voice activity mode of operation during a second time period, the voice activity mode having a first power consumption and the full system operation mode having a second power consumption, the first power consumption being less than the second power consumption, wherein the integrated circuit is configured to generate an interrupt upon the detection of voice activity, and send the interrupt to the host, and wherein absence of a clock causes the microphone to enter a voice activity detection mode.
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Accused Products
Abstract
A microphone includes a microelectromechanical system (MEMS) circuit and an integrated circuit. The MEMS circuit is configured to convert a voice signal into an electrical signal, and the integrated circuit is coupled to the MEMS circuit and is configured to receive the electrical signal. The integrated circuit and the MEMS circuit receive a clock signal from an external host. The clock signal is effective to cause the MEMS circuit and integrated circuit to operate in full system operation mode during a first time period and in a voice activity mode of operation during a second time period. The voice activity mode has a first power consumption and the full system operation mode has a second power consumption. The first power consumption is less than the second power consumption. The integrated circuit is configured to generate an interrupt upon the detection of voice activity, and send the interrupt to the host.
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Citations
20 Claims
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1. A microphone, the microphone comprising:
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a microelectromechanical system (MEMS) circuit that is configured to convert a voice signal into an electrical signal, an integrated circuit coupled to the MEMS circuit that is configured to receive the electrical signal; wherein the integrated circuit and the MEMS circuit receive a clock signal from an external host, the clock signal being effective to cause the MEMS circuit and integrated circuit to operate in full system operation mode during a first time period and in a voice activity mode of operation during a second time period, the voice activity mode having a first power consumption and the full system operation mode having a second power consumption, the first power consumption being less than the second power consumption, wherein the integrated circuit is configured to generate an interrupt upon the detection of voice activity, and send the interrupt to the host, and wherein absence of a clock causes the microphone to enter a voice activity detection mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for converting voice signals into electrical signals, the system comprising:
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an external host; a microphone, the microphone comprising; a microelectromechanical system (MEMS) circuit that is configured to convert a voice signal into an electrical signal, an integrated circuit coupled to the MEMS circuit that is configured to receive the electrical signal; wherein the integrated circuit and the MEMS circuit receive a clock signal from the external host, the clock signal being effective to cause the MEMS circuit and integrated circuit to operate in full system operation mode during a first time period and in a voice activity mode of operation during a second time period, the voice activity mode having a first power consumption and the full system operation mode having a second power consumption, the first power consumption being less than the second power consumption, wherein the integrated circuit is configured to generate an interrupt upon the detection of voice activity, and send the interrupt to the host. - View Dependent Claims (12, 13, 14, 15)
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16. A method of operating a microphone, the microphone comprising a microelectromechanical system (MEMS) circuit that is configured to convert a voice signal into an electrical signal and an integrated circuit coupled to the MEMS circuit that is configured to receive the electrical signal, the method comprising:
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receiving a clock signal from the external host at the integrated circuit and the MEMS circuit, the clock signal being effective to cause the MEMS circuit and integrated circuit to operate at a first time in full system operation mode and at a second time in a voice activity mode of operation, operating in the voice activity mode with a first power consumption during a first time period and operating in the full system operation mode with a second power consumption during a second time period, the first power consumption being less than the second power consumption; generating an interrupt by the integrated circuit upon the detection of voice activity, and sending the interrupt to the host. - View Dependent Claims (17, 18, 19, 20)
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Specification