Custom Manufacturing & Engineering, Inc.

3690 70th Avenue North
Pinellas Park, FL 33781
http://www.custom-mfg-eng.com
145 Employees

SBIR Award Summary

Total Number of Awards 22
Total Value of Awards $6.46MM
First Award Date 11/24/97
Most Recent Award Date 10/14/10

22 Awards Won

Phase 1 SBIR

Agency: Navy
Topic: N102-153
Budget: 10/14/10 - 04/14/11

Future Navy Active Electronically Steered Array (AESA) radar systems demand higher peak and average power levels requiring development of high power density, isolated DC/DC converters for pulsed current loads. The Navy requires an advanced DC/DC converter design compatible with Transmit/Receive (T/R) Modules utilized in Navy AESA radar systems a...

Phase 1 SBIR

Agency: Navy
Topic: N08-169
Budget: 11/20/08 - 05/29/09

Power supplies for future Navy active phased array radar systems require significantly advanced technologies to provide higher power density, faster transient response, lower output capacitance, and lower cost and noise than present commercial technologies. The technical challenges include thickness reduction to less than 10mm, conversion effici...

Phase 2 STTR

Institution: Florida State University

Agency: Navy
Topic: N05-T021
Budget: 01/04/07 - 06/30/08

FSU and CME developed an ocean-going, energy-scavenging platform for long-range surveillance. The objective was to develop and demonstrate energy scavenging technology for a low cost, autonomous surface vehicle that obtained all its power from the environment. The study included several areas of energy harvesting including renewable sources suc...

Phase 2 STTR

Institution: Texas A&M University

Agency: Navy
Topic: N04-T023
Budget: 07/31/06 - 10/31/07

CME along with Texas A&M University (TAMU) continue under this proposed Phase II to further develop an advanced electrical power management system for shipboard application, called PARE (Power Analysis and Reconfiguration Engine). The present version of PARE is a monitoring and control system that monitors the shipboard electrical power system,...

Phase 1 SBIR

Agency: Air Force
Topic: AF06-144
Budget: 06/08/06 - 03/08/07

In this proposal, an integrated in situ hydrogen production and Micro Fuel Cell (MFC) for Micro Air Vehicle (MAV) Power will be developed. The system can replace conventional battery powered MAVs, with the added benefit of longer range. The system will also be capable of recharging or replenishing fuel. This system consists of four parts: (1) ...

Phase 1 STTR

Institution: Florida State University

Agency: Navy
Topic: N05-T021
Budget: 08/01/05 - 05/31/06

This project will develop and demonstrate energy scavenging technology to be applied in the open ocean for a low cost, Autonomous Sea Surface Vehicle (ASSV) that obtains power for propulsion, communications, navigation and sensors from the environment. By scavenging energy from the wind, solar power, wave energy or other means, and providing a ...

Phase 2 STTR

Institution: University of Florida

Agency: Army
Topic: ARMY03-T18
Budget: 09/02/04 - 09/01/05

During Phase I, research and experiments were conducted and a conceptual design was completed for a Remote Marine & Watercraft Surveillance System (RMWSS). RMWSS will detect powered and unpowered watercraft on riverine and inland waterways in South America. Based upon Phase I results, CME will develop an innovative system prototype that includes...

Phase 1 STTR

Institution: Texas A&M University

Agency: Navy
Topic: N04-T023
Budget: 07/01/04 - 04/30/05

Shipboard operations can be improved with automated monitoring/control of the power distribution networks using our concept for an advanced electrical power system. Current or future naval systems need a capability to automatically manage and adapt to dynamic shipboard loads, fault conditions and battle damage. In Phase I, an innovative, flexi...

Phase 1 STTR

Institution: University of Florida

Agency: Army
Topic: ARMY03-T18
Budget: 08/15/03 - 02/13/04

CME proposes a remote unattended sensor platform to detect powered and unpowered watercraft on riverine and inland waterways in South America. CME will define high level and detailed specifications for a sensor and communications platform and evaluate various active and passive sensors such as infrared, acoustic, RF, and SONAR that can detect ta...

Phase 2 SBIR

Agency: Army
Topic: A01-092
Budget: 01/09/03 - 01/25/05

The purpose of this project is to develop a prototype millimeter wave signal collection and direction finding sensor to demonstrate military utility in applications for Army light forces intelligence missions as well as special operation forces conducting intelligence, surveillance and reconnaissance missions. The AMMWS prototype will be devel...

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