Peter Tant, Pascal Dupuis, Bruno Bolsens, Jeroen Van den Keybus Johan Driesen, Ronnie Belmans COST 529 Meeting, Eindhoven A Versatile Test Bench for HID.

Slides:

Advertisements

Similar presentations

1 Series Resonant Converter with Series-Parallel Transformers for High Input Voltage Applications C-H Chien 1,B-R Lin 2,and Y-H Wang 1 1 Institute of Microelectronics,

Advertisements

Mihai Albulet 윤석현. A class D amplifier is a switching-mode amplifier that uses two active device driven in a way that they are alternately switched ON.

Chapter 7 Operational-Amplifier and its Applications

A design technique of ARCP matrix converter using circuit simulator Nagasaki University Yuichiro Nakazawa.

ECE Electric Drives Topic 6: Voltage-Fed Converters Spring 2004.

PATENT LIABILITY PRESENTED BY: JUSTIN LINDLEY Team # 15: Acoustic Storm Interweaving the impressive visual power of electricity and the visceral emotion.

Abstract Conclusion PWM Modulating Signal Results Generation of DSP-based patterns to control three phase inverters substantially helped the development.

ELG4135 Electronics III Course Project Low Cost, Low Power Function Generator By Md Amirul Bhuiya Norman Escobar December 1, 2006.

1 Variable Frequency AC Source Students: Kevin Lemke Matthew Pasternak Advisor: Steven D. Gutschlag 1.

NON-THERMAL ATMOSPHERIC PRESSURE PLASMAS FOR AERONAUTIC APPLICATIONS Richard B. Miles, Dmitry Opaits, Mikhail N. Shneider, Sohail H. Zaidi - Princeton.

Elec 399 – Design Project I. Supervisor: Ashoka Bhat Task: To design and build a dc-to-dc converter for charging electric vehicle batteries Description:

Oscillators with LC Feedback Circuits

Copyright by UNIT-IV INVERTERS 4/16/2017 Copyright by

Switched-Mode DC Power Supplies Five configurations –Flyback –Forward –Push-pull –Half Bridge –Full-Bridge Operate at high frequencies –Easy to filter.

ECE 442 Power Electronics1 Series-Resonant Inverter.

ECE 4501 Lecture 11: Rectifiers, Switches and P ower Supplies.

ECE 442 Power Electronics1 Series Resonant Inverter with Bidirectional Switch.

S. Zabihi, F. Zare, G. Ledwich, A. Ghosh

Photovoltaic Power Converter

Chapter 8 Inverters AC Power • Inverters • Power Conditioning Units • Inverter Features and Specifications.

EE462L, Spring 2014 H-Bridge Inverter Basics

 Distortion – the alteration of the original shape of a waveform.  Function of distortion analyzer: measuring the extent of distortion (the o/p differs.

Oscillators 2. LC Oscillators.

Switching rules Either A+ or A– is always closed, but never at the same time * Either B+ or B– is always closed, but never at the same time * *same time.

Parul Poltehynic Institute Subject Code : Name Of Subject : Basic Electronics Name of Unit : Ch-3 Oscillator’s Topic : Oscillator’s Name of Faculty.

The George Washington University School of Engineering and Applied Science Department of Electrical and Computer Engineering Circuit Design Verification.

Fundamentals of Power Electronics and Power System with MATLAB

Drive Ckts - 1 Copyright © by John Wiley & Sons 2003 Drive Circuits Outline Drive circuit design considerations DC-coupled drive circuits Isolated drive.

A Compact Bi-Directional Power- Conversion System Scheme with Extended Soft-Switching Range IEEE Electric Ship Technologies Symposium (ESTS’09) Baltimore,

APPED A Confidential Part 4…Isolated DC/DC (types, operations, sales guide, etc.) Application information Power supply unit (PSU) ©2010. Renesas.

Prof R T KennedyPOWER ELECTRONICS 21. Prof R T KennedyPOWER ELECTRONICS 22 Class D audio amplifiers switching - PWM amplifiers -V cc.

Analog Discovery Arbitrary Function Generator for Windows 7 by Mr

Al-Najah National University

DESIGN, CONTROL AND IMPLEMENTATION OF INVERTERS TOPOLOGIES APPLIED TO DOMESTIC INDUCTION HEATING Student: Peter Doyle Supervisor: Prof. Gerard Hurley Ignacio.

Automated Control System

Introduction to DC-DC Conversion – Cont.

OSCILLATORS Dr.S.SUJA Associate Professor

SMV Electric Tutorials

Chapter 4 Oscillators.

Guide Presented by Mr.M Cheenya V.Abhinav Kumar 11E31A0422 Asst.Professor K.Shiva Kumar 11E31A0423 K.Rajashekhar 11E31A0424 K.Chaithanya Sree 11E31A0428.

Fast Grid Pulse Modulation

SPACE VECTOR MODULATION FOR TWO LEG INVERTERS

Wireless Power Transfer Via Inductive Coupling SENIOR DESIGN GROUP 1615 RYAN ANDREWS, MICHAEL DONOHUE, WEICHEN ZHANG.

Switch Mode Power Supply(SMPS) BY: Arijit Acharya NETAJI SUBHASH ENGINEERING COLLEGE M.tech(P.S.) Roll No - 1.

(SWTCHED - MODE POWER SUPPLY)

Function Generators. FUNCTION GENERATORS Function generators, which are very important and versatile instruments. provide a variety of output waveforms.

Portable Power Station University of Wyoming Electrical and Computer Department EE Done By Mohammad S. Almoallem Mahmood S. Almoallem Advised.

Measurement and Instrumentation

SHANTILAL SHAH ENGINEERING COLLEGE ELECTRICAL DEPARTMENT.

1 Teaching Innovation - Entrepreneurial - Global The Centre for Technology enabled Teaching & Learning, N Y S S, India DTEL DTEL (Department for Technology.

Rectifiers, Switches and Power Supplies

Hartley Oscillator Circuit Theory Working and Application

Switched-mode power supply charger

Balaji engineering college Special transformer

High frequency Sine wave inverter

Signal Generators Term 8.

En. Rosemizi Bin Abd Rahim

AC Inlet & AC Input Filter

ELEC-E8409 HIGH VOLTAGE ENGINEERING

Dr. Unnikrishnan P.C. Professor, EEE

Multi-Pulse Voltage Source Converters for HVDC Systems

UNIT-8 INVERTERS 11/27/2018.

Inverters Converting dc to ac

PULSE-WIDTH-MODULATED OUTPUT

Dr. Unnikrishnan P.C. Professor, EEE

Inverters Converting dc to ac

FPGA Based Single Phase Motor Control Using Multistep Sine PWM Author Name1, Author Name2., Author Name3, (BE-Stream Name) Under the Guidance Of Guide.

Presentation transcript:

Peter Tant, Pascal Dupuis, Bruno Bolsens, Jeroen Van den Keybus Johan Driesen, Ronnie Belmans COST 529 Meeting, Eindhoven A Versatile Test Bench for HID Lamps K.U.Leuven – ESAT/ELECTA Department of Electrical Engineering COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. QUESTIONS ► Overview A flexible power source, based on a general purpose, rapid-prototyping inverter unit A Tesla-transformer as a high-voltage test platform for cold or hot ignition of HID lamps Main components of the HID lamp test bench: 1 2 2/21 Current or voltage control Waveforms: sine, triangle, square, noise,…   Burst pulses Continuous sine wave output voltage   COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. QUESTIONS ► Power source 3/21 COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. QUESTIONS ► Power source Rapid-prototyping inverter unit contains 4 independent half-bridge modules  4/21 COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. QUESTIONS ► Power source Rapid-prototyping inverter unit contains 4 independent half-bridge modules  Power MOSFET devices: 400V / 16A  5/21 COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. QUESTIONS ► Power source Rapid-prototyping inverter unit contains 4 independent half-bridge modules  Power MOSFET devices: 400V / 16A  Controlled by Altera FPGA and TI DSP  6/21 COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. QUESTIONS ► Power source Rapid-prototyping inverter unit contains 4 independent half-bridge modules  Power MOSFET devices: 400V / 16A  Controlled by Altera FPGA and TI DSP  DSP communicates with host computer (Matlab Simulink real time model) Parameters can be changed in real time  7/21 COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 8/21 QUESTIONS ► Power source ► Experimental setup HID lamp connected through series inductor Lr FPGA Rsh Current control Lr INVERTER PLATFORM HID - Independent control of half-bridge MOSFETs - Current measurement (500 ksamples/s ADC) in each channel - DC link voltage measurement Bidirectional communication Hysteretic current control COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 9/21 QUESTIONS ► Power source ► Experimental setup DSP  Current reference, power control FPGADSP Rsh Current controlPower control PC: Matlab Simulink model Real Time Workshop Lr INVERTER PLATFORM HID COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 10/21 QUESTIONS ► Power source ► Experimental setup Isolated current and voltage measurement FPGADSP Rsh Current controlPower control PC: Matlab Simulink model Real Time Workshop Lr INVERTER PLATFORM HID I and V Measurement Feedback of lamp parameters to FPGA / DSP Visualization of lamp parameters on host PC 1 2 COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 11/21 QUESTIONS ► Power source ► Experimental setup COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 12/21 QUESTIONS ► Power source ► Experimental waveforms Sinusoidal output current and output voltage COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 13/21 QUESTIONS ► Tesla transformer (pulsed mode) COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 14/21 QUESTIONS ► Tesla transformer (pulsed mode) ► Spark gap Tesla transformer 22 w primary C1 L1L2 C2 R1 S VDC Vout 1070 w secondary Two coupled LC resonating circuits: L 1 C 1 – L 2 C 2   C 1 initially charged through R 1  S (spark gap,…) closed  2x resonance  Air core  no saturation COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 15/21 QUESTIONS ► Tesla transformer (pulsed mode) ► Spark gap R1 VDC Vout Time 400us 0 10 kV 20 kV 0 kV -10 kV -20 kV C1 L1L2 C2 S Non-sinusoidal waveform 2 x resonance Burst pulse of a few ms COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 16/21 QUESTIONS ► Tesla transformer (pulsed mode) ► Thyristor Thyristor Spark gap C1 L1L2 C2 R1 T VDC Vout Ignition controllable   Thyristor turn-off after first zero-crossing of current  Only resonance in L 2 C 2  Vout sinusoidal COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 17/21 QUESTIONS ► Tesla transformer (pulsed mode) ► Thyristor C1 L1L2 C2 R1 T VDC Vout Time 400us 0 10 kV 20 kV 0 kV -10 kV -20 kV - Frequency: - Pulse duration: - Repetition rate: kHz ms range depends on R 1 - Amplitude: 0-19 kV COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 18/21 QUESTIONS ► Tesla transformer (continuous mode) COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 19/21 QUESTIONS ► Tesla transformer (continuous mode) Gate driver Pulse generator DC bus voltage L1L1 L2L2 C2C2 Single resonance circuit L 2 C 2 Circuit driven at resonance frequency   Vout Asymmetrical full-bridge driver  avoid shoot-through  Amplitude: 0-15kV Frequency: kHz range  COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 20/21 QUESTIONS ► Tesla transformer (continuous mode) Gate driver Pulse generator DC bus voltage L1L1 L2L2 C2C2 Single resonance circuit L 2 C 2 Circuit driven at resonance frequency   Vout Asymmetrical H-bridge driver  avoid shoot-through  I and V measurement Amplitude: 0-15kV Frequency: kHz range  COST Meeting Eindhoven

A Versatile Test Bench for HID Lamps OVERVIEW POWER SOURCE TESLA PULSE TESLA CONT. 21/21 QUESTIONS ► Questions COST Meeting Eindhoven Thank you for your attention