 |
Analog
to Digital Converters (ADCs) (pipeline, SAR, sigma-delta) |
|
Digital to Analog Converters (DACs) (video, current
steering, switch-capacitor) |
|
Low-Noise
Amplifiers (LNA), Variable Gain Control (VGA), Mixers for RF and
Wireless Applications |
|
Low-Noise
Low-Distortion Amplifiers (LNA) for Ultra-Sound and Imaging |
|
Low-Noise
Low-Distortion Amplifiers (LNA) for piezo-electric capacitive sensors |
|
Low-Noise
Low-Distortion Amplifiers (LNA) for MEMs applications with very low
noise 1/f component |
|
Low-Noise
Low-Distortion MEMs audio preamplifiers and detection circuits |
|
Low-Noise
DACs for Ultra-Sound Imaging |
|
Phase
and Delay Locked Loops, and frequency synthesizers (PLLs, DLLs) |
|
Bandgap
Voltage References |
|
Continuous-time
Filters (gm/C, active RC, low-offset, very low distortion) |
|
High-speed
I/O ( > 3.2 Gb/Sec LVDS, USB etc.) and clock-data-recovery (CDR) |
|
System-level
architectural definition, modeling to verify design concepts and
predict performance limits within statistical process variations
(MATLAB, Octave, MathCAD) |
|
DC-DC converters and linear voltage regulators |
|
Sensor and Sensore Interface Circuits (pressure,
temperature, piezo-film accelerometer, Optical Transimpedance
Amplifiers, Optical Positioning Servo) |
|
CMOS Imaging Sensor Arrays (optical-mouse) |
|
RF Signal Processing (WLAN RF and Baseband) including
differential filtering, mixers, variable-gain-amplifiers, VGA,
low-noise-amplifiers (LNA) with low-distortion. |
|
High
Frequency Bench Test Characterization and Automated Data Acquisition |
|
High-speed
transceivers for computing, communications and consumer applications |
|
Clock
distribution, Power Management, Signal Integrity, Chip-Level Layout
consultation |
|
Robust
deep sub micron design methodology over process, voltage, and
temperature (PVT) corners. Design without special capacitor, resistor,
analog mask options |
|
Monte
Carlo Statistical Simulations for yield prediction. |
