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Company Information:

Company Name: ePack, Inc.
City: Ann Arbor
State: MI
Zip+4: 48103-6227
Woman-Owned: No
Minority-Owned: No
HUBZone-Owned: No
Website URL: N/A
Phone: N/A

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $629,718.00 5
SBIR Phase II $750,000.00 1
STTR Phase I $149,959.00 1
STTR Phase II $500,000.00 1

Award List:

Inertial Reference Corrective Approaches to Complementary Antenna Pedestal Gyro Units

Award Year / Program / Phase: 2010 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Sang W. Lee, Cheif Technical Officer
Award Amount: $100,000.00
Abstract:
This Small Business Innovation Research (SBIR) Phase I project provides a feasibility study for achieving a new low size, weight and power (SWAP) gyroscope technology with

A universal wafer-level capping process for MEMS and microdevices

Award Year / Program / Phase: 2010 / SBIR / Phase I
Agency: NSF
Principal Investigator: Jay S. Mitchell, PhD
Award Amount: $199,718.00
Abstract:
This Small Business Innovation Research (SBIR) Phase I project provides a universal capping technology for microelectromechanical systems (MEMS) and other microdevices. The technology will allow for thousands of moving MEMS devices to get protected from the environment in an inert gas or vacuum. The… More

An Advanced Micromachined Package for the Quartz Disk Resonant Gyroscope

Award Year / Program / Phase: 2011 / SBIR / Phase I
Agency: NASA
Principal Investigator: Jay S. Mitchell, Principal Investigator
Award Amount: $100,000.00
Abstract:
The objective of this proposal is to demonstrate the feasibility of a fully packaged microelectromechanical (MEMS) gyroscope with a 7 milliarcsecond pointing accuracyÂ?sufficient for space and terrestrial telescope pointing applications. This new environmental resistant packaged (ERP) resonant… More

Master Clock Vibration-Isolation Technology Improvements for Aircraft Avionics

Award Year / Program / Phase: 2011 / SBIR / Phase I
Agency: DOD
Principal Investigator: Jay Mitchell, President – (734) 846-7029
Award Amount: $80,000.00
Abstract:
The objective of this proposal is to demonstrate the feasibility of a vibration suppression technology tailored for crystal oscillator applications called the integrated vibration isolator for Quartz (IVIQ). Vibration is an important factor for Quartz timing applications since vibration causes… More

Novel Temperature and Vibration Tolerant Packaging for Inertial Sensors (MEMS)

Award Year / Program / Phase: 2012 / STTR / Phase I
Agency / Branch: DOD / NAVY
Research Institution: University of Michigan
Principal Investigator: Sangwoo Lee, Cheif Technical Officer – (734) 709-3837
Award Amount: $149,959.00
RI Contact: Yogesh Gianchandani
Abstract:
The objective of the proposal is to demonstrate the feasibility of a generic package that provides high vacuum, temperature control and vibration isolation for a wide range of high performance (tactical and navigation grade) micromachined inertial sensors. Inertial sensors (accelerometers and… More

Master Clock Vibration-Isolation Technology Improvements for Aircraft Avionics

Award Year / Program / Phase: 2013 / SBIR / Phase II
Agency: DOD
Principal Investigator: Jay Mitchell, President – (734) 846-7029
Award Amount: $750,000.00
Abstract:
The goal of this work is to provide the Navy with a new, ultra-small vibration suppression system for quartz oscillators, which will be used as a master clock reference for fast data rate sensor arrays, radar, anti-jamming, and other electronic countermeasures used in high vibration environments.… More

Novel Temperature and Vibration Tolerant Packaging for Inertial Sensors (MEMS)

Award Year / Program / Phase: 2013 / STTR / Phase II
Agency / Branch: DOD / NAVY
Research Institution: University of Michigan
Principal Investigator: Sangwoo Lee, CTO – (734) 709-3837
Award Amount: $500,000.00
RI Contact: Yogesh Gianchandani
Abstract:
The objective of this proposal is to demonstrate a generic package that provides high vacuum, temperature control and vibration isolation for a wide range of high performance (tactical and navigation grade) micromachined inertial sensors. Inertial sensors (accelerometers and gyroscopes) are now… More

SBIR Phase I: A MEMS Environment Resistant Resonant Sensor (ERRS) Process for Very High Performance and High Reliability Inertial Sensors and Oscillators

Award Year / Program / Phase: 2013 / SBIR / Phase I
Agency: NSF
Principal Investigator: Sangwoo Lee
Award Amount: $150,000.00
Abstract:
This Small Business Innovation Research Program (SBIR) Phase I project is to demonstrate the feasibility of the environment resistant resonant sensor (ERRS) process which will enable a next generation of high performance and high reliability sensors. In the last 5 years, microelectromechanical… More