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PHASE SENSITIVE INNOVATIONS INC

Company Information
Address
116 SANDY DR STE A
NEWARK, DE 19713-1187
United States


http://www.phasesensitiveinc.com/

Information

UEI: LJMKLES23319

# of Employees: 82


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No




Success Stories

  1. SBIR-STTR-Success: Phase Sensitive Innovations

    CAN YOU SEE ME NOW? Phase Sensitive Innovations’ novel imaging technology sees through the fogGetting shot down isn’t the only threat faced by helicopter pilots flying in combat zones. In certain environments, the elements can be as dangerous as the enemy.In Iraq and Afghanistan, for...

Award Charts




Award Listing

  1. Economical, Multi-Use Software-Defined Radio Capability at Ku-Band and Above

    Amount: $749,994.70

    Software defined radios (SDRs) have redefined many areas of modern electronics, from enabling reconfigurable communications to rapid prototyping of new electronic support concepts.  However, current ...

    SBIRPhase II2021Department of Defense Army
  2. Attritable Platform k-Space Imaging for Persistent Situational Awareness of the RF Spectrum

    Amount: $49,988.00

    To be effective in today’s battlefield environment, direct and reliable access to the electromagnetic (EM) spectrum is absolutely necessary. This being said, access points within the spectrum are of ...

    SBIRPhase I2021Department of Defense Air Force
  3. Advanced Radio Frequency Photonic Integrated Circuits

    Amount: $239,955.00

    This proposal will explore the development of photonic integrated circuits (PICs) in multiple material systems: silicon, silicon-nitride, and TFLN and will choose the right material system for the app ...

    SBIRPhase I2021Department of Defense Navy
  4. High-Power, Multimode Fiber-Optic Receiver for Mil-Aero Environment

    Amount: $146,489.00

    In this effort, PSI will develop a high-frequency 1550 nm photoreceiver based on a modified uni-traveling carrier (MUTC) photodetector coupled to a multimode fiber (MMF). The module will be optimized ...

    SBIRPhase I2021Department of Defense Navy
  5. Line-of-Sight (LOS) Low Probability of Detection/Intercept (LPD/LPI) Millimeter Wave Communication

    Amount: $146,488.00

    Dynamically frequency-tunable phased array communications in the millimeter-wave regime could provide unprecedented levels of control in the ability to provide high data rate electronic communications ...

    SBIRPhase I2020Department of Defense Navy
  6. Multicore Fiber Optic Package Optical Subassembly for Wideband Digital and Analog Photonic Links

    Amount: $351,836.00

    In the phase I base effort, PSI has verified the proposed approaches towards a length matched, balanced detection microwave photonic link through successful development of the critical components, exp ...

    SBIRPhase II2020Department of Defense Navy
  7. Millimeter wave Instrumentation and Characterization

    Amount: $149,988.00

    Equipment required for transmission and reflection measurements above 100 GHz is cost prohibitive, can possess undesirable harmonics, and is largely incompatible with vacuum equipment. Implementation ...

    SBIRPhase I2020Department of Defense Air Force
  8. Low-Illumination Level UTC Photodetectors for QIS Applications

    Amount: $200,000.00

    High quantum efficiency photodetectors are a critical component of quantum squeezed state systems. Providing optical-to-microwave transduction fidelity allows these systems to significantly improve up ...

    SBIRPhase I2019Department of Energy
  9. Compact Radio Frequency-to-Optical Transmitter for Airborne Military Environments

    Amount: $144,993.00

    In this SBIR effort we will develop an ultra-compact, high-speed, low RIN and high-power transmitter for high-performance RF photonic link applications based on our cutting-edge lithium niobate on ins ...

    SBIRPhase I2019Department of Defense Navy
  10. 1 Micron Fiber Optic Receiver for Mil-Aero Environment

    Amount: $878,226.00

    In this SBIR effort we will collaborate with Dr. J.C. Campbell’s research group at the University of Virginia (UVA) in developing a high-power, high-speed, high-linearity photodiode (PD) receiver op ...

    SBIRPhase II2019Department of Defense Navy
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