Optically Controlled Pin-Diode RF Switching for Tactical Signal Intelligence Technology

Jacobs, W.; Sun, Chen; Nguyen, R.; Fogliatti, D.W.; Nguyen, Hieu V.

doi:10.21236/ada390023

Cited by 3 publications

(3 citation statements)

References 4 publications

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“…The main benefits of the optocoupler drive shown in figure 1 are that voltage step-up conversion is achieved without a ripple, there is galvanic isolation between the driver and the actuator, which is an essential issue in some applications [11][12][13][14] and it is a dc circuit with no commutations involved. Disadvantages cannot, however, be disregarded, such as the low power efficiency of the optocoupler itself, low switching speed and temperature dependence of the output voltage.…”

Section: Optocoupler Drive Dynamicsmentioning

confidence: 99%

Optocoupler driving of MEMS electrostatic switches

Bermejo¹,

Molinero²,

Ortega³

et al. 2008

J. Micromech. Microeng.

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The dynamics of novel optocoupler direct driving of a microelectromechanical systems (MEMS) switch is described by means of PSpice simulations and experimental measurements. The output circuit of an optocoupler array is used to drive an electrostatic MEMS switch. It is shown that the optocoupler drive provides built-in dc voltage step-up conversion with no ripple, galvanic isolation and switching time and energy control in a similar way as current drive does. PSpice models describe the actuation theory including parasitic elements, which can modify the actuation characteristics. Comparison between theory and measurements shows that although there is great impact of parasitic parallel resistance and capacitance, current drive benefits are mostly preserved.

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Section: Optocoupler Drive Dynamicsmentioning

confidence: 99%

Optocoupler driving of MEMS electrostatic switches

Bermejo¹,

Molinero²,

Ortega³

et al. 2008

J. Micromech. Microeng.

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show abstract

“…This is followed by patterning of a boron diffusion layer and drive-in. Emitters of the cells are formed with a phosphorous diffusion (2). After removal of the oxide and growth of a new thinner oxide layer, a LPCVD Si 3 N 4 layer is deposited.…”

Section: Fabrication Technology: Monolithic Integrationmentioning

confidence: 99%

“…Recently photovoltaic diodes have been used to drive the so-called PV-PIN and PV-FET [2,3] as RF switches in order to improve EMI immunity, reduce noise and provide galvanic isolation.…”

Section: Introductionmentioning

confidence: 99%

Response of c-Si PV arrays under monochromatic light for MEMS power supply

Bermejo

Ortega

Jiménez

et al. 2005

J. Micromech. Microeng.

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There is an increasing number of portable or ubiquitous applications where compact and reliable energy supply systems are required in the low end of the power range, but where the output voltage has to be compatible with conventional electronic equipment. In this work, the option of small-sized photovoltaic arrays designed to convert monochromatic light is explored along with improvements in the fabrication process of c-Si ‘flip-chip’ assembly and c-Si monolithic arrays. Arrays having nine cells connected in series (0.8–1.4 cm2 each) have been fabricated. Photovoltaic response under several monochromatic light wavelengths has been measured and compared to reference solar AM1.5 light. Electrical results under standard solar spectrum AM1.5 and 1 SUN irradiance show open circuit voltages, Voc, short circuit current densities, Jsc, and maximum delivered powers, Pm, of: 5 V and 4.1 V, 21.7 mA cm−2 and 24.5 mA cm−2, and 4.5 mW and 3.8 mW for the ‘flip-chip’ and monolithic technologies respectively. Typically, open circuit values in the range of 4.5 V, short circuit current densities in the vicinity of 45 mA cm−2 and maximum power in the range of 2 mW can be obtained for monochromatic illumination of 830 nm wavelength with 20 mW of incident power.

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Dynamics of MEMS electrostatic driving using a photovoltaic source

Bermejo

Castañer

2005

Sensors and Actuators A: Physical

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Optically Controlled Pin-Diode RF Switching for Tactical Signal Intelligence Technology

Cited by 3 publications

References 4 publications

Optocoupler driving of MEMS electrostatic switches

Optocoupler driving of MEMS electrostatic switches

Response of c-Si PV arrays under monochromatic light for MEMS power supply

Dynamics of MEMS electrostatic driving using a photovoltaic source

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