Michael G Pan, Age 47Los Angeles, CA

7119620, Oct 10, 2006

Nov 30, 2004

11/000622

Michael (Meng-An) Pan - Irvine CA, US

Broadcom Corporation - Irvine CA

H03F 3/04
G05F 3/20
G05F 3/16

330289, 330285, 323313, 323316

In an RF communication system, aspects of constant or proportional to absolute temperature biasing for minimizing transmitter output power variation may comprise configuring at least one current source to provide a temperature dependent current, where the current may be constant with temperature or vary proportionally to absolute temperature. A control voltage that may be generated by an operational amplifier may be fed back to control the current source. An input reference voltage may also be generated for the operational amplifier by utilizing PN junction characteristics of at least one bipolar junction transistor. Resistance may be adjusted to allow operation of the current source at a plurality of different supply voltages, including the different supply voltages that may be less than 1. 2 volts, for example. Additionally, adjusting the resistance may also allow the current to be constant with temperature or vary with temperature.

7197421, Mar 27, 2007

Nov 30, 2004

11/001438

Michael (Meng-An) Pan - Irvine CA, US

Broadcom Corporation - Irvine CA

G01K 7/16

702133, 702130, 374178, 377 25

In an RF communication system, aspects of a method for a temperature sensor for transmitter output power compensation may comprise generating an output voltage, which may vary with temperature, from at least one reference voltage, wherein at least one reference voltage may vary proportionally with temperature. The output voltage may be converted to a digital value. The reference voltage may be generated by utilizing a current source to generate a voltage across a resistive load. A control voltage generated from an operational amplifier may control at least one current source. PN junction characteristics of at least one bipolar junction transistor may be utilized to generate an input reference voltage for the operational amplifier. Resistance of at least one resistor, which may be coupled to the bipolar junction transistor and to the operational amplifier, may be adjusted to determine a current level from the current source at a plurality of different temperatures.

7693491, Apr 6, 2010

Nov 30, 2004

11/000599

Michael Meng-An Pan - Irvine CA, US

Broadcom Corporation - Irvine CA

H04B 1/00

455 69, 455 68, 455 39, 455 6711, 455 134, 455522, 4551142, 455124, 4551151

Aspects of compensating for transmitter output power may comprise sampling an on-chip transmitter circuit temperature at various time instants and determining a feedback temperature compensation value. At least one digital-to-analog converter may be adjusted by utilizing the feedback temperature compensation value, which may correspond to the sampled temperature. The digital-to-analog converter may be an I-component digital-to-analog converter and/or a Q-component digital-to-analog converter. At least a portion of the on-chip transmitter circuit may be characterized to determine power output dependence of the on-chip transmitter circuit on temperature variation of the on-chip transmitter circuit. Based on this characterization, a feedback temperature compensation value that may correspond to the sampled temperature may be used to adjust the digital-to-analog converter. The feedback temperature compensation value may be, for example, from a lookup table or an algorithm.

2010018, Jul 29, 2010

Mar 31, 2010

12/751836

Michael (Meng-An) Pan - Irvine CA, US

BROADCOM CORPORATION - Irvine CA

H04W 4/00
H04B 7/00
H04B 7/216
H04B 7/212
H04B 17/00

370328, 455 69, 4554221, 370342, 370347, 4551151

Aspects of compensating for transmitter output power may comprise sampling an on-chip transmitter circuit temperature at various time instants and determining a feedback temperature compensation value. At least one digital-to-analog converter may be adjusted by utilizing the feedback temperature compensation value, which may correspond to the sampled temperature. The digital-to-analog converter may be an I-component digital-to-analog converter and/or a Q-component digital-to-analog converter. At least a portion of the on-chip transmitter circuit may be characterized to determine power output dependence of the on-chip transmitter circuit on temperature variation of the on-chip transmitter circuit. Based on this characterization, a feedback temperature compensation value that may correspond to the sampled temperature may be used to adjust the digital-to-analog converter. The feedback temperature compensation value may be, for example, from a lookup table or an algorithm.

2010029, Nov 25, 2010

May 21, 2009

12/470378

Michael (Meng-An) Pan - Irvine CA, US

H04B 1/04

4551272

A transmitter RF front-end integrated on a single substrate is enabled to determine whether associated IF amplification stage provides a required transmission gain for transmitting an output signal of an application. A dedicated power amplifier driver within the transmitter RF front-end is configured to provide additional gain, when needed based on the determination, to meet the required transmission gain for transmitting the output signal. The associated IF amplification stage comprises an upconversion mixer and a lowpass filter (LPF). The upconversion mixer may be implemented as an active mixer or a passive mixer. The upconversion mixer and the dedicated power amplifier driver are enabled to operate in 2.44 gigahertz. A maximum gain provided by the associated intermediate frequency (IF) amplification stage for transmitting the output signal is determined to decide the additional gain provided by the dedicated power amplifier driver by comparing with the required transmission gain.

2013018, Jul 25, 2013

Jan 20, 2012

13/354627

Michael Pan - Arcadia CA, US
Zehao Chang - Hong Kong, HK
John Pan - Brookline MA, US

G09G 5/00

345629

A system and method for image data management. A tiled representation of a data set is accessed. The tiled representation includes a plurality of high-resolution tiles and a plurality of reduced-resolution tiles. A request to access said data set from a computing device is received. An image display window is determined based on said request from the computing device, where the image display window corresponds to a displayable image for display on the display device. At least one overlapping image to send the computing device is determined based on said image display window, where the at least one overlapping image is selected from the scaled full images, the plurality of high-resolution tiles, and the plurality of reduced resolution tiles. At least a portion of the at least one overlapping image is sent to the computing device.

2014015, Jun 5, 2014

Dec 18, 2012

13/718378

- Irvine CA, US
Michael (Meng-An) Pan - Irvine CA, US
Ahmad Mirzaei - Orlando FL, US
Mohyee Mikhemar - Aliso Viejo CA, US

BROADCOM CORPORATION - Irvine CA

H04B 1/40
H04B 1/04

375219, 375295

A transceiver circuit including a digital-to-analog converter, a filter coupled to the digital-to-analog converter, a passive mixer coupled to the filter, via a buffer and a multi-stage power amplifier coupled to the passive mixer via a passive amplifier. A transmitter and method for amplifying a RF signal for transmission are also provided.