Gin Wang

20170041028, Feb 9, 2017

Oct 24, 2016

15/332970

- San Jose CA, US
Peiman AMINI - Mountain View CA, US
Paul NYSEN - San Jose CA, US
Chia-Wei LIU - Fremont CA, US
Shahrokh ZARDOSHTI - Pleasanton CA, US
Gin WANG - San Jose CA, US
Henry CHEN - Sunnyvale CA, US

H04B 1/00
H04L 27/26

Various embodiments disclose systems and methods for employing a Sub1G signal (e.g. a signal in the range of approximately 500 Mhz or 800 mHz) for use with internal and/or external components of various user devices. The Sub1G region may provide a path loss advantage over traditional 2.4 and 5 Ghz systems because of the lower frequency in free-space path loss model. Sub1G may also present less interference compared to 2.4 GHz (e.g., better QoS for applications such as VOIP, Gaining, etc.). In some of the disclosed embodiments, Sub1G may be employed using current 2.4G or 5G Wireless LAN chipset with RF Up/Down Converters. In some embodiments, the Sub1G approach may be used to create a Long Range Bridge, Long Range Extender, Long Range Client, Long Range Hotspot, etc.

20150349859, Dec 3, 2015

Aug 10, 2015

14/822709

- San Jose CA, US
Jonathan M. HUMMEL - Indo CA, US
Charles W. REED - San Jose CA, US
Gin C. WANG - San Jose CA, US

H04B 7/04
H04B 17/12
H04B 5/00

Systems, processes, and structures allow enhanced near-field testing of the uplink and/or downlink performance of MIMO wireless devices (DUT), such as for any of product development, product verification, and/or production testing. Signal channels may preferably be emulated to test the performance of a device under test (DUT) over a range of simulated distances, within a near-field test environment. An enhanced process provides automated testing of a DUT over a wireless network, e.g. such as but not limited to a WLAN. The enhanced MIMO channel emulator may preferably be operated over a high dynamic range.

20150139204, May 21, 2015

Apr 1, 2014

14/242662

- San Jose CA, US
Peiman Amini - Mountain View CA, US
Paul Nysen - San Jose CA, US
Chia-Wei Liu - Fremont CA, US
Shahrokh Zardoshti - Pleasanton CA, US
Gin Wang - San Jose CA, US
Henry Chen - Sunnyvale CA, US

H04B 1/00

370338

Various embodiments disclose systems and methods for employing a Sub1G signal (e.g. a signal in the range of approximately 500 Mhz or 800 mHz) for use with internal and/or external components of various user devices. The Sub1G region may provide a path loss advantage over traditional 2.4 and 5 Ghz systems because of the lower frequency in free-space path loss model. Sub 1G may also present less interference compared to 2.4 GHz (e.g., better QoS for applications such as VOIP, Gaming, etc.). In some of the disclosed embodiments, Sub1G may be employed using current 2.4G or 5G Wireless LAN chipset with RF Up/Down Converters. In some embodiments, the Sub1G approach may be used to create a Long Range Bridge, Long Range Extender, Long Range Client, Long Range Hotspot, etc.

20140098846, Apr 10, 2014

Oct 8, 2012

13/647250

- San Jose CA, US
Jonathan M. HUMMEL - Indo CA, US
Charles W. REED - San Jose CA, US
Gin C. WANG - San Jose CA, US

NETGEAR, INC. - San Jose CA

H04W 24/00
H04B 5/00

375224

Systems, processes, and structures allow enhanced near-field testing of the uplink and/or downlink performance of MIMO wireless devices (DUT), such as for any of product development, product verification, and/or production testing. Signal channels may preferably be emulated to test the performance of a device under test (DUT) over a range of simulated distances, within a near-field test environment. An enhanced process provides automated testing of a DUT over a wireless network, e.g. such as but not limited to a WLAN. The enhanced MIMO channel emulator may preferably be operated over a high dynamic range.