Showing total 10 results

1. Efficient Steady-State Simulation of Switching Power Converter Circuits.

Author

Plesnik, Martin, Gad, Emad, and Nakhla, Michel

Subjects

*STEADY-state responses, *CIRCUIT complexity, *NEWTON-Raphson method, *SWITCHING circuits, *TIME-domain analysis, *INTEGRATED circuits

Abstract

This paper presents a new approach aiming at simulating the steady-state response of dc–dc switching power converters. The proposed method uses the main concept behind the harmonic balance (HB) to compute the amplitudes of the harmonic content in the steady-state waveform. The proposed approach extends the basic HB to enable its efficient implementation to the power converter circuits, through developing equivalent frequency-domain-based stamps for ideal switching elements. The new technique is formulated to yield, along with the amplitudes of the harmonics, the switching times in the ideal switching elements, resulting in the convergence of the Newton method being obtained within few iterations. A major advantage in the proposed method is that it enables removing the control circuitry, which reduces the size of the circuit and significantly contributes to the efficiency of the method. Experimental results show significant speedup over commercial SPICE-based simulators. [ABSTRACT FROM AUTHOR]

Published

2019

2. Experimental Study of Reignition Evaluators in Low-Voltage Switching Devices.

Author

Shin, Dongkyu, Golosnoy, Igor O., and Mcbride, John W.

Subjects

*LOW voltage systems, *ELECTRIC circuits, *LORENTZ force, *EVALUATORS, *SIGNAL processing

Abstract

The reignition of the arc during the interruption process deteriorates the switching performance of low-voltage switching devices (LVSDs). Avoiding reignition is thus a key goal in the effective design of the quenching chamber. A reliable evaluator of reignition provides the opportunity to predict the switching performance of an LVSD during the design process and to refine the product prior to manufacture and empirical device testing. In this paper, reignition evaluators are investigated through the analysis of interruption test data for several types of LVSDs under the single-phase and three-phase circuit conditions. It is observed that the ratio of the recovery voltage to exit arc voltage, where exit arc voltage is defined as the value of the arc voltage immediately prior to the current zero point, is a reliable evaluator for the prediction of reignition in the switching tests of LVSDs. It is also noted that there are no occurrences of instantaneous reignition where this voltage ratio lies in the range from 1 to −1, and there is a threshold of the voltage ratio at approximately −2, which can distinguish the successful interruption and instantaneous reignition. [ABSTRACT FROM AUTHOR]

Published

2018

3. Arc-to-Glow Transition Approach for Practical Use in DC Low-Power, Low-Voltage Electric Grids.

Author

Miedzinski, B., Wisniewski, G., Kharin, S. N., Nouri, H., and Grechanyuk, N.

Subjects

*LOW voltage systems, *ELECTRIC power distribution grids, *DIRECT currents, *SEMICONDUCTORS, *VOLTAGE control

Abstract

This paper presents and discusses results of analysis from investigations of arc-to-glow transformation phenomenon at contact opening, under dc low-energy ( $\leq 10$ J) and low-voltage ( $\leq 250$ V) inductive loads. Dependence of the duration of arcing and glowing on current magnitude, voltage magnitude, properties of the contact material, gas quenching medium velocity and its pressure, as well as contact opening velocity and contact gap are investigated. The transition phenomenon of arc-to-glow is analyzed by means of fast photography and emission spectroscopy. Also discussed is the theoretical evaluation of conditions of arc instability. From the results, possible procedures are formulated to control the arc-to-glow transformation for practical use in dc low-voltage and low-power electrical grids. [ABSTRACT FROM AUTHOR]

Published

2018

4. Design and Analysis of the DC–DC Converter With a Frequency Hopping Technique for EMI Reduction.

Author

Huynh, Hai Au, Han, Youngbong, Park, Sanghyeok, Hwang, Jisoo, Song, Eunseok, and Kim, Soyoung

Subjects

*DC-to-DC converters, *ELECTROMAGNETIC interference, *SWITCHING circuits, *POWER spectra, *NOISE measurement, DESIGN & construction

Abstract

As more circuit functions are integrated within a single die or small integrated package, the number of electromagnetic interference (EMI) problems caused by dc–dc converters is growing. In this paper, the dominant electromagnetic emission source on the dc–dc converter is identified by analyzing the power spectrum of the nodes. The noise scanner method is applied to a packaged single-chip prototype dc–dc converter. The results show that the dominant source of electromagnetic emission is the switching node of the converter, not the output node. The frequency hopping technique (FHT) is applied to the dc–dc converter to reduce the emission at the switching node, and its effectiveness is analyzed mathematically and experimentally. The mathematical model of FHTs is proposed to analyze its effectiveness in reducing EMI, and the optimal design using the FHT and dead-time control is fabricated with 0.18- \mu \textm CMOS technology. The measured power spectrum reduction by using the optimal FHT design and dead-time control at the switching node is 16 dB. The EMI reduction amount of the proposed design measured by the IC-stripline method is 12.6 dB at the fundamental switching frequency. [ABSTRACT FROM PUBLISHER]

Published

2018

5. Switched-Beam 60-GHz Four-Element Array for Multichip Multicore System.

Author

Baniya, Prabhat, Yoo, Sungjong, Melde, Kathleen L., Bisognin, Aimeric, and Luxey, Cyril

Subjects

*ANTENNA array design & construction, *SWITCHING circuits, *MULTICHIP modules (Microelectronics), *MULTICORE processors, *ELECTRICAL conductors

Abstract

This paper presents the design of a switched-beam four-element antenna array operating at 60 GHz for wireless data transfers between chips in a multichip computing system. The antenna-in-package uses a patterned artificial magnetic conductor to enhance antenna performance. The four-element array has a switchable pattern and shows improved transmission gain compared to previous designs used for data communication between chips. The impact of the array configuration on the switching of the antenna pattern is presented. The wireless link power received between TX and RX nodes is used to evaluate the four-element array antenna design. [ABSTRACT FROM AUTHOR]

Published

2018

6. Novel Active Bandpass Switchplexer for RF Transceiver Front-End Applications.

Author

Lin, Yo-Shen, Liang, Ting-Wei, Huang, Ya-Chun, Hsia, Wei-Fan, Wu, Chien-Fong, Wang, Ping-Chieh, You, Chiou-Wen, and Chung, Yu-Hsuan

Subjects

*BALUNS, *BANDPASS filters, *FILTERS & filtration, *LOW noise amplifiers, *POWER amplifiers

Abstract

In this paper, the design of RF transceiver front-end using a novel multifunction microwave circuit is proposed. By designing one arm of the proposed active bandpass switchplexer as a bandpass power amplifier (PA) and the other arm as a single-to-balanced bandpass low-noise amplifier (LNA), the resulted multifunctional microwave filtering device thus effectively integrates the functions of single-pole-double-throw RF switch, bandpass filter, balun, PA, and LNA. In this way, all the function blocks between the antenna and up/down converters of a single-band time-division duplex transceiver front-end can be integrated into a single circuit. Compared to the previous works on multifunction microwave circuit designs, the proposed active bandpass switchplexer features the highest number of integrated functions. A printed circuit board-based design example of the proposed active bandpass switchplexer is presented to validate the proposed design concept and to demonstrate the performance achieved. [ABSTRACT FROM PUBLISHER]

Published

2017

7. Hybrid DC Circuit Breaker Feasibility Study.

Author

Bosche, Dirk, Wilkening, Ernst-Dieter, Kopf, Hendrik, and Kurrat, Michael

Subjects

*DIRECT current circuits, *HIGH-voltage direct current transmission, *ELECTRONIC circuits testing, *OVERVOLTAGE protection, *ELECTRICAL energy

Abstract

Recently, a growing number of dc systems exist based on the development of electrical energy consumption. For low-voltage dc grids, switching devices are needed that have to meet technically sophisticated requirements. These devices have to handle fault currents of several hundred amperes and system voltages up to 1000 V. A typical dc circuit breaker has to provide low on-state losses, light weight, and small volume. On the way toward fulfilling these requirements, hybrid circuit breakers can represent the optimal solution. A hybrid dc circuit breaker combines the advantages of mechanical contacts and semiconductors. In this paper, such a device has been designed and constructed using a commercial switch and electronic components in the laboratory. The breaking performance of this experimental prototype has been investigated, and thus the interruption of the nominal and failure currents in the case of different time constants can be identified. The investigated hybrid switching device has been optimized in order to maximize the switching capacity and the protection of the semiconductors. [ABSTRACT FROM PUBLISHER]

Published

2017

8. Peak-to-Peak Ground Noise on a Power Distribution TSV Pair as a Function of Rise Time in 3-D Stack of Dies Interconnected Through TSVs.

Author

Ahmad, Waqar, Zheng, Li-Rong, Chen, Qiang, and Tenhunen, Hannu

Subjects

*ELECTRIC capacity, *ELECTRONIC noise, *SILICON, *ELECTRIC impedance, *ELECTRIC displacement, *SWITCHING circuits, *ELECTRIC power distribution, *INTEGRATED circuit interconnections

Abstract

Supply grids of integrated chips are interconnected through through-silicon vias (TSVs) in modern design techniques to form a 3-D stack in vertical direction. The load on each chip is supplied through (power/ground) TSV pairs. Accurate estimation of power/ground noise on each TSV pair of a 3-D power distribution network is necessary for a robust power supply design. The worst case noise obtained with fast switching characteristics may not be significantly accurate. The behavior of power/ground noise as a function of rise time for an inductive power distribution TSV pair with decoupling capacitance, is investigated in this paper. An equivalent rise time corresponding to resonance is presented to accurately estimate the worst case power/ground noise in the time domain. In addition noise sensitivity to decoupling capacitance and TSV inductance is evaluated as a function of rise time. We also discuss noise accumulation as a result of worst case damping factor in this paper. [ABSTRACT FROM PUBLISHER]

Published

2011

9. Efficient Method for Modeling of SSN Using Time-Domain Impedance Function and Noise Suppression Analysis.

Author

Ding, Tong-Hao and Li, Yu-Shan

Subjects

*MATHEMATICAL models, *TIME-domain analysis, *IMPEDANCE spectroscopy, *INTEGRATED circuits, *DISTRIBUTION (Probability theory), *ELECTRIC noise, *SWITCHING circuits

Abstract

In this paper, a new method is proposed to model the simultaneous switching noise (SSN) using time-domain impedance function, which is based on the rational function in time domain. The time-domain impedance function of a power delivery network (PDN) is calculated by approximating the impedance frequency response of a PDN with a rational function, and the SSN is calculated based on switching current characteristics, which is verified by advanced design system, Hspice and measurements. Based on time-domain impedance function, the SSN suppression is also investigated, and it is found that the SSN produced by periodic switching current can be suppressed through adjusting the periods of time-domain impedance function and switching current, and a principle for random switching current is also given to prevent the occurrence of the worst case of SSN in circuit design. [ABSTRACT FROM AUTHOR]

Published

2012

10. Micromachined Planar Triggered Spark Gap Switch.

Author

Baginski, Thomas A., Dean, Robert Neal, and Wild, Edwin J.

Subjects

*MICROMACHINING, *BAND gaps, *SWITCHING circuits, *MICROFABRICATION, *ELECTRIC spark, *ELECTRIC impedance, *CAPACITORS, *ELECTRIC discharges

Abstract

High voltage switches capable of operating at high speeds with high current levels are used in a variety of applications in commercial and government systems. This paper discusses the fabrication and characterization of a novel micromachined planar triggered spark gap switch. The switch provides a low cost alternative to conventional triggered spark gap switches. The structure is designed for direct integration into the strip-line geometries used in a conventional capacitive discharge unit. The geometry of the device was selected to minimize parasitic impedances associated with conventional firing circuits. [ABSTRACT FROM PUBLISHER]

Published

2011