Investigation of microarray thermal actuator for MEMS

Tsai, C.S.; Hsu, Chih-Jung; Hu, Chien-Yu

doi:10.1117/12.524438

Cited by 1 publication

(1 citation statement)

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“…al. [10] 3.2 Resistor development of MATA Parts of the MATA device include cold arms, hot arms, cold-hot arm connections, flexure and connections of each single thermal actuator. The material of the main structure is polysilicon only and the thickness is 2µm.…”

Section: Basic Behavior Of a Thermal Actuatormentioning

confidence: 99%

Investigation of actuation behavior for microarray thermal actuator based upon electrical analysis

Tsai

Yang

Huang

2005

MEMS/MOEMS Components and Their Applications II

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Thermal actuators based upon the principle of the thermal expansion have been utilized in various fields in the last decade. The outstanding features of a thermal actuator include simple fabrication process, large displacement, which is in proportion to temperature, and rather low operation frequency. In order to gain more insight into the actuation behavior of Micro Array Thermal Actuator, MATA, applied in MEMS, based on electrical analysis. There are two kinds of MATA, {2x4} opposite type, {1x4} parallel type compared with a single thermal actuator on the electrical analysis for each equivalent circuit, respectively. The investigation analyzed based upon basic theory and advanced computer simulation by a commercial software. The effects of operation voltage and connection length on the variations of displacement and current density of each device are studied in this work. MATA is an actuation device with a highly symmetry electrical loop through the equivalent circuit analysis. There is no current in the connection region of MATA. The phenomenon is supported by the simulation results. There is small current density, which is below 10 -9 A/µm 2 , in the connection region. Hence, the performance of MATA is strongly dominated by the geometry of a single thermal actuator, and less dependent on the type and connection number of MATA.

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Section: Basic Behavior Of a Thermal Actuatormentioning

confidence: 99%