A miniaturized self-actuated bandpass protection structure based on energy low-pass mechanism

Wang, Ke; Liu, Peiguo; Qin, Yujian; Huang, Jie; Yi, Bo

doi:10.1109/emceurope.2017.8094798

Cited by 6 publications

(3 citation statements)

References 9 publications

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“…Moreover, the protection of modern IEDs used in high-speed communication technologies against EMP produced by natural sources such as lightning [9] is still particularly important. Various measures are used for the protection of these electronic devices such as surge protectors [10,11], modular attachment kits using Faraday cages [12] or EMP shields [13]. 'Front door' protection is the most difficult, because this part of such communication systems is itself highly vulnerable to EMP attack.…”

Section: Introductionmentioning

confidence: 99%

“…Thus, protectors against this type of EMP have to react in subnanosecond times and to be able to withstand large energy absorption shocks during these EMP 'tail' periods. To satisfy both of these requirements in one and the same device is thus not an easy task, primarily because such high-speed electronic devices are usually of small dimensions [13], which can cause high current densities and irreversible damage of the protectors.…”

Section: Introductionmentioning

confidence: 99%

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Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al₂O₃ substrate with a CeO₂ sublayer

Vertelis¹,

Stankevič²,

Balevičius³

et al. 2021

Supercond. Sci. Technol.

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The electric and magnetic properties of microbridges made from 440 nm thick Y–Ba–Cu–O films prepared on Al2O3 substrates with CeO2 sublayers by the pulsed injection metal organic chemical vapor deposition (MOCVD) method were studied in temperatures ranging from 20 K to 300 K in order to investigate the possibilities of using these microbridges as fast fault current limiters. The application of an external magnetic field ( B ex ) causes the flux flow induced magneto-resistive effect, which is proportional to B ex and to B ex 1 / 2 at low and high temperatures, respectively. The experimentally obtained S-shaped I–V characteristic and the change of the microbridge resistance over time when affected by a step-like magnetic field can be well explained using a thermo-electrical model based on Joule heating and the flux flow nature of the resistive state (RS). The transition from the superconducting to the RS, studied using ns duration rectangular waveform electrical pulses able to create up to ≈2106 A cm−2 current densities without rises of microbridge temperatures, demonstrated that the I–V characteristics of the RSs consisting of an assembly of straight lines corresponding to the different pinning centers. At temperatures close to the critical temperature of superconductivity, the number of these lines increases, and the I–V characteristics can be described with high accuracy by a power law. It was concluded that microbridges made from these films can be used as protectors against complicated waveform electromagnetic pulses having short rise times, high voltage peak amplitudes and long low-value over-current ‘tails’.

show abstract

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al₂O₃ substrate with a CeO₂ sublayer

Vertelis¹,

Stankevič²,

Balevičius³

et al. 2021

Supercond. Sci. Technol.

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“…And yet without self-adaptive dependent on energy, FSS has no energy-selective properties and cannot protect against high power electromagnetic pulse (EMP) in the pass-band. Then, Yang Cheng et al first reported the energy selective surface (ESS), like a limiter, with pin-diode for EMP protection, which only sensitive to the power density or field intensity of incident wave [12], [19], [20]. Subsequently, a spatial power limiter using a nonlinear FSS was researched combining the frequency selection characteristics of FSS and the energy selection characteristics of ESS [21], [22].…”

Section: Introductionmentioning

confidence: 99%

Waveguide Energy-Selection-Filter Switch Array

Lin

Liu

et al. 2019

IEEE Access

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This paper presents a waveguide energy-selection-filter switch (ESFS) array for high-power microwave protection, which has a nonlinear transmission response depending on the power intensity of the incident wave. A prototype of nine unit-cells loaded with pin diodes is designed and measured. First, the relationship between the unit-cell dimension and frequency response is analyzed by the full-wave simulation, and an equivalent circuit is studied with numerical fitting. Then, the non-linear characteristics of the unit-cell for different power levels are observed by using an electric field probe. Subsequently, the array structure is designed with equivalent circuits made to evaluate the performance and the coupling effects between the array elements. At the same time, the influence of the number of elements on the transmission coefficient is discussed. Finally, the nonlinear and adaptive transmission characteristics of the ESFS array are demonstrated by the waveguide measurements, which show an isolation improvement of 19.5 dB for high-power microwave protection compared to a single ESFS unit. In addition, the protecting band is wider than that of a single unit. INDEX TERMS Adaptive protection, energy-selection-filter, high power microwave, pin diode loaded, waveguide.

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Intelligent energy selection and asymmetric propagation of electromagnetic wave realized by composite metamaterials

Yuan

Kong

Han

2019

2019 IEEE Asia-Pacific Microwave Conference (APMC)

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A miniaturized self-actuated bandpass protection structure based on energy low-pass mechanism

Cited by 6 publications

References 9 publications

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al₂O₃ substrate with a CeO₂ sublayer

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al₂O₃ substrate with a CeO₂ sublayer

Waveguide Energy-Selection-Filter Switch Array

Intelligent energy selection and asymmetric propagation of electromagnetic wave realized by composite metamaterials

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A miniaturized self-actuated bandpass protection structure based on energy low-pass mechanism

Cited by 6 publications

References 9 publications

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al2O3 substrate with a CeO2 sublayer

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al2O3 substrate with a CeO2 sublayer

Waveguide Energy-Selection-Filter Switch Array

Intelligent energy selection and asymmetric propagation of electromagnetic wave realized by composite metamaterials

Contact Info

Product

Resources

About

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al₂O₃ substrate with a CeO₂ sublayer

Superconducting protector against electromagnetic pulses based on YBCO film prepared on an Al₂O₃ substrate with a CeO₂ sublayer