POWAY, USA: Orca Systems Inc., a wireless technology licensing company, announced its DSP-RF (Digital Signal Processing for Radio Frequency) Platform, a breakthrough approach to radio systems design based on a discrete time receiver architecture, DSP techniques, software tunable filters and loop-less frequency synthesis.
Orca’s DSP-RF Platform has been deployed in 90 nanometer (nm) and 65 nanometer (nm) standard complementary metal–oxide–semiconductor (CMOS) process nodes and is scalable in area, power and performance margin with smaller CMOS geometries.
The proliferation of wireless communication systems everywhere has created the necessity for major innovation in RF and digital design to achieve truly integrated and scalable multimode, multimedia solutions.
Additionally, the complexity of radio design and number of RF paths required to support wideband, multiple-input and multiple-output, and multimode systems, has increased dramatically. Current analog design methods are cumbersome and inefficient since they are neither scalable nor programmable, leaving a large gap between digital and analog systems in meeting these growing demands.
Orca Systems began operations in 2006 specifically to solve the challenges presented by traditional analog design methods by delivering high performance radio systems using innovative digital architectures. Orca’s patented DSP-RF Platform is a technology framework and system architecture used to develop custom radio solutions across a broad set of wireless standards.
“I have been in the RF/semiconductor industry for more than three decades and know firsthand what the problems are with analog design techniques. My experience was the inspiration for Orca to find solutions,” said Guruswami Sridharan, founder and CEO of Orca Systems.
“For example, we rejected the traditional phase-lock loop (PLL) approach for synthesis of frequencies, since in the traditional approach, achieving wide frequency range, fast frequency switching and accurate wide-band modulation are not easily possible. A traditional PLL prohibits the use of the synthesizer as a phase modulator and designers are forced to use IQ (in-phase and quadrature) up converters, which consume additional space and power.”
“Our customers have been unable to achieve their product goals for features, size, power and performance using commercially available standard chips,” noted Sridharan. “Using our DSP-RF they are seeing reductions for single path RF systems of 50 to 70 percent in silicon area. In addition, DSP-RF is providing radio performance that is on par with systems built using discrete components.”
Wednesday, 24 March 2010
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