1
Ana Londergan
Ana R Londergan, Bangalore R Natarajan, Evgeni Gousev, James Randolph Webster, David Heald: MEMS cavity-coating layers and methods. Qualcomm Mems Technologies, Knobbe Martens Olson & Bear, June 8, 2010: US07733552 (11 worldwide citation)

Devices, methods, and systems comprising a MEMS device, for example, an interferometric modulator, that comprises a cavity in which a layer coats multiple surfaces. The layer is conformal or non-conformal. In some embodiments, the layer is formed by atomic layer deposition (ALD). Preferably, the lay ...


2
Ana Londergan
Ana R Londergan, Bangalore R Natarajan, Evgeni Gousev, James Randolph Webster, David Heald: MEMS cavity-coating layers and methods. Qualcomm Mems Technologies, Knobbe Martens Olson & Bear, April 24, 2012: US08164815 (4 worldwide citation)

Devices, methods, and systems comprising a MEMS device, for example, an interferometric modulator, that comprises a cavity in which a layer coats multiple surfaces. The layer is conformal or non-conformal. In some embodiments, the layer is formed by atomic layer deposition (ALD). Preferably, the lay ...


3
Ana Londergan
Khurshid Syed Alam, Evgeni Gousev, Marc Maurice Mignard, David Heald, Ana R Londergan, Philip Don Floyd: Equipment and methods for etching of MEMS. QUALCOMM MEMS Technologies, Knobbe Martens Olson & Bear, September 17, 2013: US08536059 (1 worldwide citation)

Etching equipment and methods are disclosed herein for more efficient etching of sacrificial material from between permanent MEMS structures. An etching head includes an elongate etchant inlet structure, which may be slot-shaped or an elongate distribution of inlet holes. A substrate is supported in ...


4
Ana Londergan
Ana R Londergan, Bangalore R Natarajan, Evgeni Gousev, James Randolph Webster, David Heald: Mems cavity-coating layers and methods. Qualcomm Mems Technologies, August 16, 2012: US20120206462-A1

Devices, methods, and systems comprising a MEMS device, for example, an interferometric modulator, that comprises a cavity in which a layer coats multiple surfaces. The layer is conformal or non-conformal. In some embodiments, the layer is formed by atomic layer deposition (ALD). Preferably, the lay ...


5
Ana Londergan
Ana R Londergan, Bangalore R Natarajan, Evgeni Gousev, James Randolph Webster, David Heald: Mems cavity-coating layers and methods. Qualcomm Mems Technologies, Knobbe Martens Olson & Bear, September 30, 2010: US20100245979-A1

Devices, methods, and systems comprising a MEMS device, for example, an interferometric modulator, that comprises a cavity in which a layer coats multiple surfaces. The layer is conformal or non-conformal. In some embodiments, the layer is formed by atomic layer deposition (ALD). Preferably, the lay ...


6
Ana Londergan
Ion Bita, Evgeni Gousev, Ana Londergan, Xiaoming Yan: Etching processes used in mems production. Qualcomm MEMS Technologies, Knobbe Martens Olson & Bear, April 23, 2009: US20090101623-A1

The efficiency of an etching process may be increased in various ways, and the cost of an etching process may be decreased. Unused etchant may be isolated and recirculated during the etching process. Etching byproducts may be collected and removed from the etching system during the etching process. ...


7
Ana Londergan
Khurshid Syed Alam, Evgeni Gousev, Marc Maurice Mignard, David Heald, Ana R Londergan, Philip Don Floyd: Equipment and methods for etching of mems. Qualcomm Mems Technologies, Knobbe Martens Olson & Bear, September 2, 2010: US20100219155-A1

Etching equipment and methods are disclosed herein for more efficient etching of sacrificial material from between permanent MEMS structures. An etching head includes an elongate etchant inlet structure, which may be slot-shaped or an elongate distribution of inlet holes. A substrate is supported in ...


8
Ana Londergan
Ana R Londergan, Bangalore R Natarajan, Evgeni Gousev, James Randolph Webster, David Heald: Mems cavity-coating layers and methods. QUALCOMM Incorporated, Knobbe Martens Olson & Bear, September 25, 2008: US20080231931-A1

Devices, methods, and systems comprising a MEMS device, for example, an interferometric modulator, that comprises a cavity in which a layer coats multiple surfaces. The layer is conformal or non-conformal. In some embodiments, the layer is formed by atomic layer deposition (ALD). Preferably, the lay ...


9
Durga Malladi
Alkinoos Hector Vayanos, Durga P Malladi, Sai Yiu Duncan Ho: Data delivery in conjunction with a hybrid automatic retransmission mechanism in CDMA communication systems. QUALCOMM Incorporated, Philip R Wadsworth, Thien T Nguyen, Kent D Baker, May 31, 2005: US06901063 (102 worldwide citation)

Techniques for delivering data recovered by a HARQ entity in proper order to higher layers in a CDMA system. In a method, packets are received from the HARQ entity by the re-ordering entity and missing packets among the received packets are detected. Packets may be transmitted in a sequential order ...


10
Durga Malladi
Edward G Tiedemann Jr, Aleksandar Damnjanovic, Avinash Jain, Durga P Malladi, David Puig Oses, Peter Gaal, Serge Willenegger, Stein Lundby, Sandip Sarkar, Tao Chen, Yongbin Wei: Grant, acknowledgement, and rate control active sets. Qualcomm Incorporated, Philip R Wadsworth, Thien T Nguyen, W Chris Kim, October 24, 2006: US07126928 (81 worldwide citation)

Embodiments disclosed herein address the need in the art for efficient management of grant, acknowledgement, and rate control channels. In one aspect, a list associated with a first station is generated or stored, the list comprising zero or more identifiers, each identifier identifying one of a plu ...