Hypres, Inc.

175 Clearbrook road Array
Elmsford, NY 10523
http://www.hypres.com
70 Employees

SBIR Award Summary

Total Number of Awards 247
Total Value of Awards $74.1MM
First Award Date 01/01/85
Most Recent Award Date 06/12/17

Key Personnel

Last Name Name Awards Contact
Radparvar Dr. Masoud Radparvar 46 Message
Mukhanov Dr. Oleg Mukhanov 19 Message
Shevchenko Mr. Pavel Shevchenko 2
Kadin Dr. Alan M. Kadin 2 Message
J.Webber Mr. Robert J.Webber 1 Message
Brock Dr. Darren K. Brock 7 Message
Vernik Dr. Igor Vernik 3 Message
Kulinski Edward Kulinski 18
Whiteley Dr. Stephen Whiteley 2
Borzenets Dr. Valery Borzenets 1 Message
Stebbins Edwin E. Stebbins 2
Osterman David Osterman 8 Message
Kirichenko Alex Kirichenko 3
Webber Mr. Robert J. Webber 3 Message
Bradley Dr. Paul Bradley 8
Li Mr. Wenquan Li 2 Message
OSTERMAN Dr. OSTERMAN 1
Hohenwarter Dr. Gert Hohenwarter 1
Rylov Sergey Rylov 7
Yuh Perng-Fei Yuh PhD 1
Robertazzi Dr. Raphael Robertazzi 5
Pambianchi Dr. Michael S. Pambianchi 4
Tolpygo Dr. Sergey Tolpygo 3
Kaplan Dr. Steven B. Kaplan 23
Trak Dr. Elie K. Trak 1
Inamdar Mr. Amol Inamdar 4 Message
Topygo Sergey Topygo 1
Damon Steve Damon 12 Message
Prokopenko Georgy Prokopenko 2 Message
Donofrio Paul Donofrio 2
Kinner Ronald Kinner 1
Samela Dan Samela 1 Message
Bunz Lewis Bunz 2
Darren K. Brock Darren 1 Message
Birnbach Dr. Curtis Birnbach 2
Caswell Dr. Hollis L. Caswell 1
Kaplan Steve Kaplan 2
Kirchenko Dr. Alex Kirchenko 3
Kirichenko Dmitri Kirichenko 1
Sarwana Saad Sarwana 1 Message
Kirichenko Dimitri Kirichenko 1 Message
Dotsenko Vladimir Dotsenko 1 Message
Puma Philip Puma 1 Message
Gupta Dr. Deepnarayan Gupta 57 Message
Puma Phil Puma 3 Message
Samela Daniel Samela 0 Message
Sarwana Saad Sarwana 1 Message
Track Dr. Elie K. Track 54 Message
Anglim Timothy Anglim 1 Message
Truitt Patrick Truitt 1 Message

247 Awards Won

Phase 1 SBIR

Agency: Department of Energy
Topic: 28f
Budget: 06/12/17 - 06/11/18

Cosmic Microwave Background (CMB) use polarization sensitive detectors to study the early universe. The number of such detectors needed for field deployed CMB experiments has been growing steadily from 1000 (stage-II) to 10,000 (stage-III) and projected stage IV experiments are to include 100,000 detectors. The Particle Physics Project Prioritiz...

Phase 1 SBIR

Agency: Army
Topic: A16-035
Budget: 09/29/16 - 03/28/17

Low cost integrated transceiver solutions eliminating the bulk of analog preprocessing are extremely attractive for Satellite Communications (SATCOM), and other wideband RF applications. Building upon the digital-RF transmitter development using 32-nm silicon-on-insulator (SOI) CMOS, we propose to develop a digital-RF transceiver IC that will ha...

Phase 2 SBIR

Agency: Department of Defense
Topic: OSD11-H18
Budget: 09/16/16 - 02/27/19

Hypres is pleased to submit this proposal to continue its Phase II SBIR program and complete the development of a combat-area portable digital MRI (Magnetic Resonance Imaging) system capable of high-resolution Traumatic Brain Injury (TBI) diagnosis in field hospitals. This sequential Phase IIc SBIR program will produce and demonstrate a near pro...

Phase 1 SBIR

Agency: Department of Energy
Topic: 24a
Budget: 03/02/16 - 11/21/16

The magnetization of polarized nuclei can be determined by using analog DC SQUID (Superconducting QUantum Interference Device) magnetometers. When a large number of channels (>10) are needed for imaging, multiplexed digital SQUIDs that integrate analog SQUIDs with on-chip digital processing circuits, can be utilized and then instrumented with si...

Phase 2 STTR

Institution: University of California, Santa Barbara

Agency: Army
Topic: A14A-T010
Budget: 11/03/15 - 10/29/16

HYPRES, in collaboration with University of California, Berkeley, proposes to transition superconducting parametric amplifier technology into a robust line of products. In Phase I, we designed a compact package for lumped-element Josephson parametric amplifiers (LJPA) fabricated by our collaborators at MIT Lincoln Laboratory. We have also establ...

Phase 1 SBIR

Agency: Navy
Topic: N151-063
Budget: 07/06/15 - 05/06/16

The ability to directly digitize high frequency analog radio frequency (RF) signals greatly simplifies multi-band microwave receivers. Superconductor analog-to-digital converters (ADC) offer discriminating advantages in both bandwidth and fidelity due to very high sampling rates and quantum-accurate digitization based on counting of magnetic flu...

Phase 1 SBIR

Agency: Department of Energy
Topic: 31f
Budget: 06/08/15 - 03/07/16

This SBIR project is to improve the readout system used for cryogenic detector arrays. A frequency multiplexed scheme call fMUX is one of the prevalent methods, which is used to read out the response of cryogenic detectors, such as Transition Edge Sensors TES) Bolometers, operating at mK temperatures used for astrophysical observations of the Co...

Phase 1 STTR

Institution: MIT Lincoln Labs

Agency: Army
Topic: A14A-T010
Budget: 08/28/14 - 02/26/15

HYPRES, in collaboration with MIT Lincoln Laboratory and ISQC, proposes to transition superconducting parametric amplifier technology into a robust line of products. In Phase I, we will develop three varieties of superconducting low-noise amplifiers (LNAs) in compact cryogenic microwave packages. These are two types of standing wave devices, lum...

Phase 1 SBIR

Agency: Navy
Topic: N141-064
Budget: 05/05/14 - 03/05/15

Successful cryopackaging of superconductor Digital-RF Receivers relies on efficient electrical wiring of superconductor chips attached to the cryocooler. High-quality DC and RF cables are currently made of normal metals and are optimized for specific current and frequency ranges respectively. This current design, a result of a decade-long evolut...

Phase 2 STTR

Institution: University of California, San Diego

Agency: Air Force
Topic: AF11-BT02
Budget: 05/01/14 - 04/30/16

ABSTRACT: In this STTR phase II, HYPRES and University of California San Diego team will demonstrate a small size, weight and power, wideband (2 MHz to 2 GHz) receiver prototype based on SQUID array technology. Our SQUID array designs are based on highly linear bi-SQUID and SQUID cells arranged into a 2-dimensional (2D) array. The 2D arrays ar...

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