Yui I Lin, 513251 Louis Rd, Palo Alto, CA 94303

7388529, Jun 17, 2008

Aug 9, 2006

11/501338

Songping Wu - Sunnyvale CA, US
Yui Lin - Cupertino CA, US
Hui-Ling Lou - Palo Alto CA, US

Marvell International Ltd. - Hamilton

H03M 1/62
H03M 1/84

341139, 375345

A system for detecting interference includes an automatic gain control (AGC) module, a digital signal processing (DSP) module, and a control module. The AGC module selectively generates a gain-locked signal when an input signal is received. The DSP module communicates with the AGC module and selectively generates a sync-detect signal when the input signal is received. The control module communicates with the AGC module and the DSP module, and generates a control signal when the DSP module does not generate the sync-detect signal within a predetermined time after the AGC module generates the gain-locked signal.

7623052, Nov 24, 2009

Aug 9, 2006

11/501341

Songping Wu - Sunnyvale CA, US
Yui Lin - Santa Clara CA, US
Hui-Ling Lou - Palo Alto CA, US

Marvell International Ltd. - Hamilton

H03M 1/62

341139, 4552451

A system for detecting interference includes an automatic gain control (AGC) module, a peak detection module, and a control module. The AGC module selectively generates a gain-locked signal when an input signal is received. The peak detector module communicates with the AGC module and selectively generates a peak-detect signal. The control module communicates with the AGC module and the peak detector module and generates a control signal when the control module does not receive the gain-locked signal within a predetermined time after receiving the peak-detect signal.

7773014, Aug 10, 2010

Nov 23, 2009

12/623799

Songping Wu - Sunnyvale CA, US
Yui Lin - Cupertino CA, US
Hui-Ling Lou - Sunnyvale CA, US

Marvell International Ltd. - Hamilton

H03M 1/62

341139, 4552451

A receiver module includes an automatic gain control module having a gain that varies from a nominal value in response to the receiver module receiving an input signal. The automatic gain control module is configured to generate a first signal in response to the gain settling at a value different from the nominal value. A peak detector module is configured to generate a second signal in response to the gain deviating from the nominal value by a predetermined amount. The peak detector module generates the second signal prior to the automatic gain control module generating the first signal. A control module is configured to receive each of the first signal and the second signal and reset the receiver module to halt processing of the input signal in response to the control module not receiving the first signal within a predetermined amount of time subsequent to the control module receiving the second signal.

7855666, Dec 21, 2010

May 20, 2008

12/154071

Rahul Kopikare - Livermore CA, US
Songping Wu - Sunnyvale CA, US
Poh Boon Leong - Singapore, SG
Thomas Cho - Fremont CA, US
Yui Lin - Cupertino CA, US

Marvell International Ltd. - Hamilton

H03M 1/06

341118, 375343, 4551151

A calibration module includes an absolute value module that generates first and second magnitude signals based on a first signal and a second signal, respectively. A first module generates an amplitude correction signal for a quadrature-amplitude modulated (QAM) signal based on the first and second magnitude signals. A second module generates a phase correction signal for the QAM signal based on the first signal and the second signal.

7864091, Jan 4, 2011

Jun 9, 2008

12/157255

Songping Wu - Sunnyvale CA, US
Yui Lin - Cupertino CA, US
Hui-Ling Lou - Palo Alto CA, US

Marvell International Ltd. - Hamilton

H03M 1/62

341139

A system comprises a gain control module that selectively generates a gain locked signal based on a wireless input signal. A sync detect module that selectively generates a sync detect signal based on the wireless input signal. An interference detection module that selectively generates a wireless interference detection signal based on the gain locked signal and the sync detect signal.

7978106, Jul 12, 2011

Jan 3, 2011

12/983794

Songping Wu - Cupertino CA, US
Yui Lin - Cupertino CA, US
Hui-Ling Lou - Sunnyvale CA, US

Marvell International Ltd. - Hamilton

H03M 1/62
H03M 1/84

341139, 375345

A receiver including an automatic gain control module, a digital signal processor module, and a control module. The automatic gain control module has a gain that varies from a nominal value in response to the receiver receiving an input signal. The automatic gain control module is configured to generate a first signal in response to the gain settling at a value different from the nominal value. In response to the input signal not being an interference signal, the digital signal processor module is configured to process the input signal and generate a second signal. Subsequent to the first signal being generated and prior to the second signal being generated, the control module is configured to determine whether the input signal is an interference signal based on whether the second signal is generated within a predetermined time period subsequent to the first signal being generated.

8275314, Sep 25, 2012

Aug 12, 2008

12/190240

Yui Lin - Cupertino CA, US
Lawrence Tse - Fremont CA, US
Poh Boon Leong - Singapore, SG
Minko Tsai - Sunnyvale CA, US
Robert Mack - San Jose CA, US
Yungping Hsu - Saratoga CA, US

Marvell International Ltd. - Hamilton

H04B 7/00
H04B 1/38

455 412, 455574

Different scan modes are provided for Bluetooth devices. In at least some embodiments, a narrowband scanning mode looks for signal energy on individual transmission frequencies at a time. By looking for signal energy rather than decoding transmitted packets, at least some of the components in a Bluetooth device can remain in an idle or rest state. A midband scanning mode looks for signal energy across multiple different frequencies at a time. Again, by looking for signal energy across multiple different frequencies rather than decoding transmitted packets, at least some of the components in a Bluetooth device can remain in an idle or rest state. A wideband scanning mode looks for signal energies across all relevant frequencies at a time. At least some embodiments enable a Bluetooth device to switch between scanning modes.

8321706, Nov 27, 2012

Jul 23, 2008

12/178268

Zhenyu Zhang - Campbell CA, US
James Kang-Wuu Jan - San Jose CA, US
Frank Huang - Pleasanton CA, US
Yong Jiang - San Jose CA, US
Yui Lin - Cupertino CA, US
Kevin Lo - San Jose CA, US

Marvell World Trade Ltd. - St. Michael

G06F 1/26

713323, 713324

USB self-idling techniques are described. In one or more embodiments, a Universal Serial Bus (USB) device comprises one or more modules to communicate via USB and self-idle by presenting an idle mode to a USB host and entering a suspend mode while the USB host is presented with the idle mode.