V Corp. Technologies, Inc.

7042 Nighthawk Court
Carlsbad, CA 92011
http://www.v-corp.com
3 Employees

SBIR Award Summary

Total Number of Awards 17
Total Value of Awards $7.83MM
First Award Date 04/04/01
Most Recent Award Date 03/11/11

Key Personnel

Last Name Name Awards Contact
Velazquez Dr. Scott R. Velazquez 16 Message
Velasquez Scott Velasquez 1 Message

17 Awards Won

Phase 2 SBIR

Agency: Air Force
Topic: AF093-134
Budget: 03/11/11 - 06/13/13

This SBIR Phase II project will demonstrate a highly innovative, high-performance Adaptive Digital Receiver architecture with adaptive background control that optimizes the performance in rapidly changing signal environments and provides 2 GHz instantaneous bandwidth, SFDR>90 dB, SNR = 66 dB, with dynamic digital channelization. The efficacy of...

Phase 1 SBIR

Agency: Air Force
Topic: AF093-134
Budget: 02/03/10 - 11/03/10

This Small Business Innovation Research Phase I project demonstrates a wideband, wide dynamic range, adaptively controlled digital receiver architecture that is dynamically reconfigurable to optimize the performance for the current signal environment. The architecture takes advantage of several, proprietary, high-performance digital signal proc...

Phase 2 SBIR

Agency: Navy
Topic: N07-148
Budget: 09/22/09 - 05/22/11

The very high-resolution V Corp analog-to-digital converter with Adaptive Signal Cancellation (ASC) uses a two or more stages of high-speed, high-resolution analog-to-digital converters (ADCs) with blind adaptive interstage matching to successively cancel large signals from the analog input and thereby allow very wide dynamic range digitization ...

Phase 2 SBIR

Agency: Defense Advanced Research Projects Agency
Topic: SB011-012
Budget: 06/02/09 - 06/21/11

This SBIR Phase II project demonstrates a breakthrough approach to high-resolution linearity error compensation (LinComp) using computationally-efficient digital signal processing to reduce harmonic and intermodulation distortion in analog-to-digital converters (ADCs) by up to 24 dB. The core technology can also be used to reduce such distortion...

Phase 2 SBIR

Agency: Navy
Topic: N06-116
Budget: 03/27/08 - 03/16/12

This Small Business Innovation Research Phase II project demonstrates a combination of two powerful adaptive digital signal processing technologies that enable broadband, high-power amplification with high linear dynamic range and high output efficiency. The technologies are the Adaptive Pre-Distortion Linearizer (ALIN), and the Adaptive Branch...

Phase 1 SBIR

Agency: Air Force
Topic: AF073-071
Budget: 02/04/08 - 11/30/08

This project demonstrates an advanced linearization algorithm for ultra high-performance digital receiver systems to dramatically reduce harmonic and intermodulation distortion by up to 30 dB over a wide range of input frequencies, signal types, and amplitudes. The real-time processing significantly improves the performance of analog-to-digital...

Phase 1 SBIR

Agency: Navy
Topic: N07-148
Budget: 09/14/07 - 07/14/08

The very high-resolution V Corp analog-to-digital converter with Adaptive Signal Cancellation (ASC) uses a parallel array of high-speed, high-resolution analog-to-digital converters (ADCs) with blind adaptive interstage matching to successively cancel large signals from the analog input and thereby allow very wide dynamic range digitization of t...

Phase 1 SBIR

Agency: Navy
Topic: N06-116
Budget: 11/23/06 - 02/08/08

This Small Business Innovation Research Phase I project demonstrates an adaptive linearizer (ALIN) that uses a real-time digital signal processing technique to dramatically reduce harmonic and intermodulation distortion by approximately 24 dB over an extremely wide range of input frequencies, signal types, and amplitudes, and in rapidly changing...

Phase 2 SBIR

Agency: Defense Advanced Research Projects Agency
Topic: SB011-012
Budget: 05/05/06 - 08/12/08

This SBIR Phase II project demonstrates a breakthrough approach to high-resolution linearity error compensation (LinComp) using computationally-efficient digital signal processing to reduce harmonic and intermodulation distortion in analog-to-digital converters (ADCs) by up to 24 dB. The core technology can also be used to reduce such distortio...

Phase 2 SBIR

Agency: Missile Defense Agency
Topic: BMDO01-001
Budget: 06/19/02 - 06/18/03

This SBIR Phase II proposal develops two independent but complementary technologies that, when combined, provide up to an 8-fold increase in speed of analog-to-digital and digital-to-analog conversion with high-resolution, wide dynamic range performance. The Advanced Filter Bank (AFB) technology provides the architecture to combine state-of-the...

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