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Frequency-Based Filtering of Mechanical Actuation

Technology Benefits: Frequency response can be modulated without altering channels of the microfluidic chip A single input actuator can selectively control flowFiltering/actuation system can be re-used with multiple chips

Technology Application: Chemical analysis or assay

Detailed Technology Description: Researchers at the University of California, Santa Barbara have created a device that delivers pressure or displacement to specific locations based on the frequency of the actuator used as input. The device serves as a mechanical filter where excitation applied at one frequency is delivered to a specific output location with a magnitude that depends on the excitation frequency. By modulating the dimensions of the device’s fluidic network, and the mechanical response of the deformable features serving as the input and outputs, one can construct different types of filters: low-pass, band-pass, or high pass. There are many advantages to using a fluidic network for filtering and actuation. The filtering/actuation system can be re-used with multiple chips and the frequency-specific response of the actuating system can be designed to generate large displacement amplitudes that can be translated onto the chip.

Application No.: WO2014093360

Others

Background

Fluidic devices are used for a variety of applications. However, controlling flow in these devices, such as in ones exclusively using active valve structures such as MEMS structures, can be extremely expensive, decrease reliability, or prevent objectives such as disposability or rapid replacement.

Additional Technologies by these Inventors

Devices and Methods for 3D Printing of Highly Ordered Composite Materials

Tech ID/UC Case

28675/2012-086-0

Related Cases

2012-086-0

*Abstract: Researchers at the University of California, Santa Barbara have created a device that delivers pressure or displacement to specific locations based on the frequency of the actuator used as input.

*IP Issue Date: Jun 19, 2014

*Principal Investigator: Name: James Landers
Department:

Name: Matthew Begley
Department:

Name: Rachel Collino
Department:

Country/Region: USA

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