The Collier Report of U.S. Government Contracting

Old School Reporting Using Modern Technology

S J T Micropower Inc dba R F Micropower

  • S J T Micropower Inc dba R F Micropower

  • View government funding actions
  • Fountain Hills, AZ 852681515
  • Phone: 480-816-8077
  • Estimated Number of Employees: 4
  • Estimated Annual Receipts: $258,000
  • Business Start Date: 2000
  • Contact Person: Trevor Thornton
  • Contact Phone: 480-510-0229
  • Contact Email: trevor.thornton@icloud.com
  • Business Structure:
  • Corporate Entity (Not Tax Exempt)
  • Business Type:
  • For Profit Organization
  • Industries Served: Engineering Services
  • Product Areas: SEMICONDUCTOR DEVICES AND ASSOCIATED HARDWARE, SEMI CONDUCTOR DEVICES, MICROCIRCUITS, ELECTRONIC, R&D- DEFENSE SYSTEM: ELECTRONICS/COMMUNICATION EQUIPMENT (APPLIED RESEARCH/EXPLORATORY DEVELOPMENT), R&D-ELECTRONICS & COMM EQ-A RES/EXP

Sampling of Federal Government Funding Actions/Set Asides

In order by amount of set aside monies.

  • $5,000 - Tuesday the 26th of August 2014
    National Aeronautics And Space Administration
    NASA SHARED SERVICES CENTER
    WE HAVE DEVELOPED A LOW DROPOUT (LDO) REGULATOR USING A PATENTED MESFET TRANSISTOR TECHNOLOGY THAT CAN BE MANUFACTURED IN COMMERCIAL CMOS FOUNDRIES WITH NO CHANGES TO THE PROCESS FLOW. THE REGULATOR IS STABLE UNDER ALL LOAD CONDITIONS WITHOUT AN EXTERNAL COMPENSATION CAPACITOR, THEREBY REDUCING THE MASS/VOLUME OF THE POWER MANAGEMENT SYSTEM AND INCREASING RELIABILITY. THE MESFET-BASED LDO COMPONENT HAS VERY COMPETITIVE FIGURES OF MERIT (DROPOUT VOLTAGE, TRANSIENT RESPONSE, POWER SUPPLY REJECTION) COMPARED TO EXISTING COMPONENTS. DURING PHASE 1 WE CONFIRMED THAT THE COMPONENTS WERE UNCONDITIONALLY STABLE WITHOUT AN EXTERNAL COMPENSATION CAPACITOR OVER THE TEMPERATURE RANGE -196C TO +150C AND FOR RADIATION DOSES UP TO 1 MRAD(SI). WE SHALL BUILD ON THE PHASE 1 DESIGN EFFORT TO DEMONSTRATE TWO FULLY INTEGRATED LDO REGULATORS RATED UP TO 1A WITH DROPOUT VOLTAGES OF LESS THAN 50 MV. ONE PART WILL BE FABRICATED USING A QUALIFIED RAD-HARD SOI CMOS FOUNDRY IN COLLABORATION WITH HONEYWELL, ONE OF OUR COMMERCIALIZATION PARTNERS. THE OTHER COMPONENT WILL BE FABRICATED USING THE LOW-COST/HIGH-VOLUME FOUNDRY AVAILABLE FROM IBM. BOTH PARTS WILL HAVE A NOMINAL OUTPUT VOLTAGE OF 1.8V WITH 1% ACCURACY. OTHER DESIGNS WILL TARGET USER ADJUSTABLE VOLTAGES IN THE RANGE 1.2-2V. THE FEASIBILITY OF USING THE MESFET TECHNOLOGY FOR LOW VOLTAGE APPLICATIONS (E.G. 0.8V) WILL BE EXPLORED. ALL PARTS WILL BE TESTED OVER THE TEMPERATURE RANGE -150C TO +150C AND AFTER IRRADIATION EXPOSURE TO A TID OF 1 MRAD FROM A CO-60 SOURCE. THE ENHANCED LOW DOSE RATE SENSITIVITY (ELDRS) OF THE COMPONENTS WILL BE STUDIED USING A LOW DOSE RATE CS-137 SOURCE. THE CHARACTERISTICS OF ALL THE COMPONENTS WILL BE DOCUMENTED, AND PARTS MADE AVAILABLE TO NASA AND POTENTIAL CUSTOMERS AS DELIVERABLES FROM THE PHASE 2 ACTIVITY. WE SHALL WORK WITH OUR COMMERCIALIZATION PARTNERS TO HAVE THE LDO REGULATOR DESIGN ADOPTED AS A LICENSED 'IP BLOCK' AND TO DEVELOP LOW COST VERSIONS FOR THE WIDER CONSUMER ELECTRONICS MARKET
  • $250,000 - Tuesday the 26th of August 2014
    National Aeronautics And Space Administration
    NASA SHARED SERVICES CENTER
    WE HAVE DEVELOPED A LOW DROPOUT (LDO) REGULATOR USING A PATENTED MESFET TRANSISTOR TECHNOLOGY THAT CAN BE MANUFACTURED IN COMMERCIAL CMOS FOUNDRIES WITH NO CHANGES TO THE PROCESS FLOW. THE REGULATOR IS STABLE UNDER ALL LOAD CONDITIONS WITHOUT AN EXTERNAL COMPENSATION CAPACITOR, THEREBY REDUCING THE MASS/VOLUME OF THE POWER MANAGEMENT SYSTEM AND INCREASING RELIABILITY. THE MESFET-BASED LDO COMPONENT HAS VERY COMPETITIVE FIGURES OF MERIT (DROPOUT VOLTAGE, TRANSIENT RESPONSE, POWER SUPPLY REJECTION) COMPARED TO EXISTING COMPONENTS. DURING PHASE 1 WE CONFIRMED THAT THE COMPONENTS WERE UNCONDITIONALLY STABLE WITHOUT AN EXTERNAL COMPENSATION CAPACITOR OVER THE TEMPERATURE RANGE -196C TO +150C AND FOR RADIATION DOSES UP TO 1 MRAD(SI). WE SHALL BUILD ON THE PHASE 1 DESIGN EFFORT TO DEMONSTRATE TWO FULLY INTEGRATED LDO REGULATORS RATED UP TO 1A WITH DROPOUT VOLTAGES OF LESS THAN 50 MV. ONE PART WILL BE FABRICATED USING A QUALIFIED RAD-HARD SOI CMOS FOUNDRY IN COLLABORATION WITH HONEYWELL, ONE OF OUR COMMERCIALIZATION PARTNERS. THE OTHER COMPONENT WILL BE FABRICATED USING THE LOW-COST/HIGH-VOLUME FOUNDRY AVAILABLE FROM IBM. BOTH PARTS WILL HAVE A NOMINAL OUTPUT VOLTAGE OF 1.8V WITH 1% ACCURACY. OTHER DESIGNS WILL TARGET USER ADJUSTABLE VOLTAGES IN THE RANGE 1.2-2V. THE FEASIBILITY OF USING THE MESFET TECHNOLOGY FOR LOW VOLTAGE APPLICATIONS (E.G. 0.8V) WILL BE EXPLORED. ALL PARTS WILL BE TESTED OVER THE TEMPERATURE RANGE -150C TO +150C AND AFTER IRRADIATION EXPOSURE TO A TID OF 1 MRAD FROM A CO-60 SOURCE. THE ENHANCED LOW DOSE RATE SENSITIVITY (ELDRS) OF THE COMPONENTS WILL BE STUDIED USING A LOW DOSE RATE CS-137 SOURCE. THE CHARACTERISTICS OF ALL THE COMPONENTS WILL BE DOCUMENTED, AND PARTS MADE AVAILABLE TO NASA AND POTENTIAL CUSTOMERS AS DELIVERABLES FROM THE PHASE 2 ACTIVITY. WE SHALL WORK WITH OUR COMMERCIALIZATION PARTNERS TO HAVE THE LDO REGULATOR DESIGN ADOPTED AS A LICENSED 'IP BLOCK' AND TO DEVELOP LOW COST VERSIONS FOR THE WIDER CONSUMER ELECTRONICS MARKET

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The Collier Report
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