Media.Player

Highly Efficient Actuator and Testing Device for Use in Small Satellites

標題

System And Method For Assessing the Performance of an Attitude Control System For Small Satellites

詳細技術說明

None

*Abstract

Invention

The University of Florida is seeking companies interested in commercializing several state-of-the-art technologies for efficient, cost-effective development of miniature satellites. These small satellites are evolving rapidly as replacements to their traditional-sized counterparts because they can be speedily developed and launched at a fraction of current costs. They use smaller attitude-control actuators, which keep satellites in proper orientation. These components’ smaller size allows for development of miniature satellites. The components also need only an incredibly short window of time for manufacturing. Because of these developments, transition to miniature satellites is happening at an unprecedented rate. Recognizing the high demand associated with this budding new industry, researchers at the University of Florida have developed an attitude actuator that boasts both rapid retargeting and precision pointing advantages over all actuators on the market. Researchers have also developed an instrument for assessing the performance of attitude-control systems. This instrument, also known as GATorSense, is capable of overcoming all setbacks associated with current actuator testing: It can combat unwanted disturbances and provide full range of motion for more intricate simulations of true space episodes.

Application

Highly efficient actuator and testing device for use in small satellites

Advantages

• Uses desirable, scaled-down technology, allowing for use in minituarized products
• Targets a market with rapidly growing demand, adding to profit potential
• Actuator allows for endless motion of gimbals and rapid retargeting, increasing efficiency and ease of use
• Built- in sensors are first of their kind to offer position and velocity feedback, increasing effectiveness of product
• GATorSense testing device overcomes all shortcomings of current, conventional ACS performance tests, providing better data and saving on costly miscalculation fees
• Split flywheel design minimizes harmful jitter effects, allowing for better performance of entire satellite

Technology

Attitude control is the purposeful manipulation of outside forces as means of keeping satellites and other aircrafts in proper orientation. Vital to this control process are sensor-bearing actuators that can provide the necessary torque and measurements needed to keep satellites well aligned. The proposed actuator is a Control Moment Gyroscope (CMG) that has been designed for use in Pico-Satellites of all sorts. With its unique C-shaped structure and sling ring design, researchers were able to construct a product with endless motion capabilities and increased accuracy. Similarly, the small size and low power needs of this product offer competitive advantages in an industry where smaller is better. The corresponding testing device, GATorSense, is an instrument capable of characterizing the performance of these miniature attitude actuators with little to no disruptions from outside sources. Current tests cannot overcome limited ranges of motion and unwanted disturbances associated with simulated spacecraft dynamics. There is substantial demand for a system capable of efficiently assessing the performance of these newly designed satellite parts, and researchers at the University of Florida have designed a device that fills current market voids. Along with the two previously proposed technologies, researchers have also come up with a split flywheel design that would minimize attitude jitter and associated misreadings that pose significant industry bottlenecks for these new, smaller spacecrafts.

Related to technologies 13054, 13196

*IP Issue Date

Nov 24, 2015

*IP Publication Date

May 23, 2013

*Principal Investigation

Name: Norman Fitz-Coy

Department:

Name: Vivek Nagabhushan

Department:

申請日期

Apr 12, 2013

申請號碼

9,194,756

其他

國家/地區

美國