Source: http://www.google.fr/patents/US8269141
Timestamp: 2017-11-23 00:16:47
Document Index: 612770976

Matched Legal Cases: ['Application No. 2', 'Application No. 2', 'Application No. 2', 'Application No. 2005100840791', 'Application No. 2005100840791', 'Application No. 05', 'Application No. 05', 'Application No. 05', 'Application No. 05', 'Application No. 11005096', 'Application No. 2005', 'Application No. 2005', 'Application No. 2005', 'Application No. 2005', 'Application No. 2006', 'Application No. 2006', 'Application No. 2', 'Application No. 7', 'Application No. 2006', 'Application No. 2005']

Brevet US8269141 - Power source for electric arc welding - Google Brevets
A power source for an electric arc welding process, wherein the power source comprises an input stage having an AC input and a first DC output signal; a second stage in the form of an unregulated DC to DC converter having an input connected to the first DC output signal and an output in the form of a...http://www.google.fr/patents/US8269141?utm_source=gb-gplus-shareBrevet US8269141 - Power source for electric arc welding
Numéro de publication US8269141 B2
Autre référence de publication CA2497813A1, CA2497813C, CN1721119A, CN100513040C, EP1616654A1, US9751150, US20060011595, US20120305535
Numéro de publication 10889866, 889866, US 8269141 B2, US 8269141B2, US-B2-8269141, US8269141 B2, US8269141B2
Citations de brevets (180), Citations hors brevets (99), Référencé par (29), Classifications (7), Événements juridiques (2)
US 8269141 B2
US6504132 20 août 2001 7 janv. 2003 Lincoln Global, Inc. Electric arc welder for variable AC input
US20040206736 * 20 févr. 2004 21 oct. 2004 Kabushiki Kaisha Yaskawa Denki Arc welder
AU2007200934B2 Titre non disponible
CN101941111B 23 mars 2007 2 juil. 2014 林肯环球股份有限公司 Improved three stage power source for electric arc welding
EP0704957B1 16 sept. 1995 7 janv. 1999 Fronius Schweissmaschinen Kg Austria Current source for power supply of a consumer circuit
GB2320627A * Titre non disponible
WO2003015973A Titre non disponible
2 "A New ZVT-ZCT-PWM DC-DC Converter", IEEE 2004.
3 "A New ZVT-ZCT-PWM DC—DC Converter", IEEE 2004.
4 "High Efficiency Telecom Rectifier Using a Novel Soft-Switched Boost-Based Input Current Shaper"-ITTT, 1991.
5 "High Efficiency Telecom Rectifier Using a Novel Soft-Switched Boost-Based Input Current Shaper"—ITTT, 1991.
6 "Properties and Synthesis of Passive, Lossless Soft-Switching PWM Converters International Congress of Israel in Energy Power & Motion Control", May 1997.
7 1995 paper with translated abstract, "Study on Multi-Function Arc Welding Dual Inverter".
9 Balogh, Bridge, and Andreycak, "Unique Cascaded Power Converter Topology for High Current Low Output Voltage Applications".
10 Boost Power Factor Corrector Design with the UC3853-Application Note U-159 by Phillip C. Todd-Unitrode Corporation-1999.
11 Boost Power Factor Corrector Design with the UC3853—Application Note U-159 by Phillip C. Todd—Unitrode Corporation—1999.
12 CA Application No. 2,407,813: Official Action dated Nov. 21. 2011.
13 CA Application No. 2,518,125: Official Action Dated Mar. 10, 2011.
14 CA Application No. 2,580,041: Examiner's Report dated Sep. 9, 2011.
15 Canadian Office Action, Nov. 6, 2008.
16 Cheung, "ISL6558EVAL 1-Multi-Phase Power Conversion for Routers and Pc-Peripheralsup to 100A".
17 Chinese Office Action, Publication No. 2005100840791.
18 Cho, "Novel Zero-Voltage-Transition, PWM Multiphase Converters," IEEE Transactions on Power Electronics, vol. 13, No. 1, Jan. 1998.
19 Choose the Optimum Topology for High Power Factor Supplies-by Bob Mammano and Lloyd Dixon-Unitrode IC Corporation PCIM Mar. 1991.
20 Choose the Optimum Topology for High Power Factor Supplies—by Bob Mammano and Lloyd Dixon—Unitrode IC Corporation PCIM Mar. 1991.
21 CN Application No. 2005100840791: Notification of the Second Office Action dated Aug. 8, 2008.
22 CN Application No. 2005100840791: Patent Certificate for invention: Announced Jul. 15, 2009.
23 Czogalla, "Automotive Application of Multi-Phase Coupled-Inductor DC-DC Converter", IAS 2003.
24 Dixon, "Coupled Filter Inductors in Multi-Output Buck Regulators", Unitrode, Texas Instruments, 2003.
25 EP Appiication No. 07103523.2: EP Communication dated May 5, 2011.
26 EP Application No. 05 005216.6: EPO Communication dated Feb. 13, 2007.
27 EP Application No. 05 005216.6: EPO Communication dated Nov. 13, 2009.
28 EP Application No. 05 005216.6: European Search Report dated Oct. 21, 2005, transmitted in Communication of Nov. 10, 2005.
29 EP Application No. 05 025646.0: EPO Communication dated Dec. 16, 2008.
30 EP Application No. 11005096.0: Extended European Search Report dated Oct. 27, 2011.
31 EP Communication, 06 000 268.0-2302, Jan. 9, 2008.
32 EP Search Report, EP 05 02 5646, Jan. 23, 2008, Enguerran Despis.
33 EP Search Report, EP 05 02 5646, Jan. 23, 2008.
34 European Search Report, EP 06 00 0263, Munich, May 30, 2006, Jeggy T.
35 European Search Report, EP 06 00 0268.
36 European Search Report, EP 07 10 3523, Munnich, Jan. 30, 2008, Jeggy, Thierry.
37 Fang, Chen, and Lee, Designing a High Efficiency FET Inverter Module for Vector Summation Switching High Power Amplier.
38 H. Bodur et al. "A new ZVT-ZCT-PWM DC-DC converter", IEEE Transactions on Power Electronics, vol. 19, No. 3. 2004, pp. 576-684, XP002391953.
45 Huang, "A Scalable Multiphase Buck Converter with Average Current Shfare Bus", International Rectifier, 2003.
48 IFW of co-pending U.S. Appl. No. 11/551,957.
49 Image File Wrapper (IFW) of co-pending U.S. Appl. No. 11/102,429.
55 JP Application No. 2005-134928: Appeal Trial Decision dated May 12, 2011.
56 JP Application No. 2005-134928: Interrogation on Appeal dated Apr. 27, 2010 with an Appeal, Claims on Appeal and English translation of same.
57 JP Application No. 2005-134928: Notification of Reasons for Refusal dated Jan. 6, 2009.
58 JP Application No. 2005-134928: Official Action dated Oct. 5, 2010 with English translation.
59 JP Application No. 2006-015765: Decision on Appeal Trial (Feb. 23, 2010) with partial English Translation & English translation of claims on appeal.
61 JP Application No. 2006-30436; Official Action dated Oct. 5, 2010 with English translation.
62 Koichi Makinose et al., "DC/DC Converter", Application No. 2-223521, filed Aug. 24, 1990.
65 Mantaro Nakamura, "A Chopper Type DC/DC Converter", Application No. 7-283959, filed Oct. 31, 1995.
67 Notice of Final Rejection, Oct. 7, 2008, Patent Application No. 2006-015765.
68 Notice of the Final Rejection, Oct. 7, 2008, Patent Application No. 2005-314067.
69 Office Action of the IPO, Sep. 18, 2008.
70 Patent Abstracts of Japan, EP 05 00 5216, The Hague, Oct. 21, 2005, Herbreteau, D. vol. 0142, No. 03 (M-966), Apr. 25, 1990 & JP 02 041777 A (Daihen Corp.), Feb. 9, 1990.
71 Power Supply Cookbook by Marty Brown-Copyright 1994 by Butterworth-Heinemann.
72 Power Supply Cookbook by Marty Brown—Copyright 1994 by Butterworth-Heinemann.
73 R. Streit et all: "High efficiency tetecom rectifier using a novel soft-switched boost-based input current shaper", 1991, INTELECT 91-IEEE, XPO09070017, p. 724, right-hand column, paragraph 3-p. 725, left-hand column, paragraph 1: figures 7, 8.
74 R. Streit et all: "High efficiency tetecom rectifier using a novel soft-switched boost-based input current shaper", 1991, INTELECT 91—IEEE, XPO09070017, p. 724, right-hand column, paragraph 3—p. 725, left-hand column, paragraph 1: figures 7, 8.
75 Sabate, Vlatkovic, Ridley, Lee, and Cho, Design Considerations for High-Voltage High Power Full Bridge Zero-Voltage-Switched PWM Converter.
80 Tabisz and Lee, Zero-Voltage-Switching Multi-Resonant Technique-A Novel Approach to Improve Performance of High-Frequency Quasi-Resonant Converter.
81 Tabisz and Lee, Zero-Voltage-Switching Multi-Resonant Technique—A Novel Approach to Improve Performance of High-Frequency Quasi-Resonant Converter.
82 Tabisz, Gradzki, and Lee, Zero-Voltage-Switched Quasi-Resonant Buck and Flyback Converters, 1989.
83 The Incredible Shrinking (Unregulated) Power Supply by Dr. Ray Ridley.
84 The LT1248 Power-Factor Corrector by Cark Nelson-Linear Technology Magazine-Jun. 1993.
85 The LT1248 Power-Factor Corrector by Cark Nelson—Linear Technology Magazine—Jun. 1993.
86 The Notification of the First Office Action, Aug. 8, 2008.
87 The Notification of the First Office Action, Jun. 13, 2008.
89 U.S. Appl. No. 11/051,196: Office Action dated Dec. 8, 2009.
90 U.S. Appl. No. 11/087,179: Office Action dated Apr. 2, 2010.
91 U.S. Appl. No. 11/087,179: Office Action dated Jan. 25, 2011.
92 U.S. Appl. No. 11/102,429: Office Action dated Dec. 8, 2010.
93 U.S. Appl. No. 11/102,429: Office Action dated May 14, 2010.
94 U.S. Appl. No. 11/551,957: Office Action dated Mar. 23, 2010.
95 U.S. Appl. No. 11/551,957: Office Action dated Nov. 15, 2011.
96 Vorperian, "Quasi-Square-Wave Converters: Topologies and Analysis".
97 Wang, "Carrier Phase Shifted SPWM Based on Current Sourced Multi-Modular Converter for Active Power Filter".
98 Wong., Performance Improvements of Interleaved Converters, IAS 2003.
99 Zumel, Magnetic Integration for interleaved Converters, IEEE 2003.
US8547073 * 15 juin 2012 1 oct. 2013 Fuji Electric Co., Ltd. Output side capacitor voltage balancing DC power supply system
US8792253 * 3 oct. 2011 29 juil. 2014 The Boeing Company System and methods for high power DC/DC converter
US9144856 * 4 nov. 2014 29 sept. 2015 Illinois Tool Works Inc. Welding power supply with digital controller
US9209697 * 5 juin 2013 8 déc. 2015 Murata Manufacturing Co., Ltd. Switching power-supply device
US9425693 24 juin 2014 23 août 2016 The Boeing Company Systems and methods for high power DC/DC conversion using voltage converter cells
US9492880 9 sept. 2015 15 nov. 2016 Illinois Tool Works Inc. Welding power supply with digital controller
US9628003 18 oct. 2013 18 avr. 2017 Mitsubishi Electric Corporation Direct current power supply device, motor driving device, air conditioner, and refrigerator
US9692289 25 juin 2013 27 juin 2017 Mitsubishi Electric Corporation DC power-supply device and refrigeration-cycle application device including the same
US9737950 17 oct. 2016 22 août 2017 Illinois Tool Works Inc. Welding power supply with digital controller
US9751150 * 10 août 2012 5 sept. 2017 Lincoln Global, Inc. Power source for electric arc welding
US9808880 * 20 oct. 2014 7 nov. 2017 Lincoln Global, Inc. Remote sense lead magnitude and polarity controller
US20120305535 * 10 août 2012 6 déc. 2012 Lincoln Global, Inc. Power source for electric arc welding
US20120319664 * 15 juin 2012 20 déc. 2012 Fuji Electric Co., Ltd. Dc power supply system
US20130058133 * 30 mars 2012 7 mars 2013 Synqor, Inc. Intermediate Bus Architecture with a Quasi-Regulated Bus Converter
US20130083563 * 3 oct. 2011 4 avr. 2013 Duanyang Wang System and methods for high power dc/dc converter
US20130327751 * 15 mars 2013 12 déc. 2013 Illinois Tool Works Inc. Polarity sensing welding wire feeder system and method
US20130336017 * 5 juin 2013 19 déc. 2013 Murata Manufacturing Co., Ltd. Switching power-supply device
US20140251967 * 8 mars 2013 11 sept. 2014 Lincoln Global, Inc. Arc welding with waveform control function
US20140251968 * 8 mars 2013 11 sept. 2014 Lincoln Global, Inc. Arc welding with synchronized high frequency assist arc initiation
US20140374397 * 27 août 2014 25 déc. 2014 Illinois Tool Works Inc. Method and Apparatus For Providing Welding Type Power
US20150034619 * 20 oct. 2014 5 févr. 2015 Lincoln Global, Inc., Remote Sense Lead Magnitude and Polarity Controller
US20150053661 * 4 nov. 2014 26 févr. 2015 Illinois Tool Works Inc. Welding power supply with digital controller
Classification aux États-Unis 219/130.1, 219/137.0PS
Classification internationale B23K9/10, B23K9/12