ラミネートブスバーの世界市場-2030年までの産業動向と予測Global Laminated Busbar Market - Industry Trends and Forecast to 2030 世界のラミネートブスバー市場は2023年から2030年にかけて年平均成長率6.2%を記録すると予測されている。この新しい市場レポートは、歴史的年2021年のデータを含み、計算の基準年は2022年、予測期間は2023年から2... もっと見る
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サマリー世界のラミネートブスバー市場は2023年から2030年にかけて年平均成長率6.2%を記録すると予測されている。この新しい市場レポートは、歴史的年2021年のデータを含み、計算の基準年は2022年、予測期間は2023年から2030年です。市場細分化: ラミネートブスバーの世界市場:導体別(銅、アルミニウム)、重量別(1Kg以上、1Kg未満)、形状別(長方形、面取り)、長さ別(1M未満、1M~2M、2M~3M、3M以上)、絶縁材料別(エポキシ粉体塗装、ポリエステルフィルム、ポリイミドフィルム、耐熱繊維、ポリエステル樹脂、PVFフィルム)、メッキ(錫、ニッケル、銀)、定格電力(中電力、高電力、低電力)、エンドユーザー(エネルギー&電力、輸送、製造、通信、軍事&航空宇宙、公益事業、自動車、金属&鉱業、住宅、その他)、国(U.S.,カナダ, メキシコ, ドイツ, 英国, フランス, イタリア, ロシア, スペイン, トルコ, オランダ, スイス, ベルギー, ポーランド, スウェーデン, ノルウェー, デンマーク, フィンランド, その他のヨーロッパ, 中国, 日本, 韓国, 台湾, インド, オーストラリア, シンガポール, マレーシア, ニュージーランド, インドネシア, フィリピン, タイ, ベトナム, その他のアジア太平洋地域, サウジアラビア, U.A.E.、イスラエル, カタール, エジプト, バーレーン, クウェート, 南アフリカ, オマーン, その他の中東・アフリカ地域, ブラジル, アルゼンチン, その他の南米地域) 産業動向と2030年までの予測 世界のラミネートバスバー市場の成長に寄与している重要な要因には、以下のようなものがある: - 世界的な電気自動車需要の増加 - 電気通信機器のニーズの高まり 市場プレイヤー 世界のラミネート・ブス・バー市場に参入している主な企業は以下の通りである: - 菱電化成株式会社 - ABB - モレックス - ロジャース・コーポレーション - メルセン - パワーソリューションズグループ - イートン - リタールGmbH & Co.KG - サンキング・テクノロジー・グループ・リミテッド - レイケムRPGプライベートリミテッド - EMS エレクトロ・メタル・シュヴァネンミューレ GmbH - ストームパワーコンポーネンツ - バクノール - アンフェノール・グローバル・インターコネクト・システムズ - 上海イーグトップ電子科技有限公司 - 蘇州西徳新電力電気有限公司(WDI) - espbus. - Assemblage Paro Inc. - ヤンス・カッパー・プライベート・リミテッド - セグエ・エレクトロニクス - 浙江RHI電気有限公司 目次TABLE OF CONTENTS1 INTRODUCTION 98 1.1 OBJECTIVES OF THE STUDY 98 1.2 MARKET DEFINITION 98 1.3 OVERVIEW OF THE GLOBAL LAMINATED BUSBAR MARKET 98 1.4 CURRENCY AND PRICING 101 1.5 LIMITATIONS 101 1.6 MARKETS COVERED 102 2 MARKET SEGMENTATION 111 2.1 MARKETS COVERED 111 2.2 GEOGRAPHICAL SCOPE 112 2.3 YEARS CONSIDERED FOR THE STUDY 113 2.4 DBMR TRIPOD DATA VALIDATION MODEL 114 2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS 117 2.6 DBMR MARKET POSITION GRID 118 2.7 VENDOR SHARE ANALYSIS 119 2.8 MULTIVARIATE MODELING 120 2.9 CONDUCTOR TIMELINE CURVE 121 2.10 MARKET END-USE COVERAGE GRID 122 2.11 SECONDARY SOURCES 123 2.12 ASSUMPTIONS 123 3 EXECUTIVE SUMMARY 124 4 PREMIUM INSIGHTS 127 4.1 PORTERS FIVE FORCES 130 4.2 CASE STUDY 131 4.3 REGULATORY FRAMEWORK 132 4.4 PATENT ANALYSIS 134 4.5 TECHNOLOGICAL TRENDS 136 4.6 VALUE CHAIN ANALYSIS 137 4.7 COMPANY COMPARATIVE ANALYSIS 140 4.8 TOP COMPANY MARKET SHARES BY END-USERS 141 5 REGIONAL REASONING 144 6 MARKET OVERVIEW 146 6.1 DRIVERS 148 6.1.1 NCREASING DEMAND FOR ELECTRIC VEHICLES ACROSS THE GLOBE 148 6.1.2 RISING NEED FOR TELECOMMUNICATION EQUIPMENT 150 6.1.3 INCREASING NUMBER OF HYPER-SCALE DATA CENTERS 152 6.1.4 RISING DEMAND FOR SAFE AND SECURE ELECTRICAL DISTRIBUTION SYSTEMS 153 6.1.5 GROWING IMPORTANCE TOWARDS THE ADOPTION OF INSULATING AND PLATING METHODS 155 6.2 RESTRAINT 155 6.2.1 HIGH PRICE VOLATILITY ASSOCIATED WITH RAW MATERIALS 155 6.3 OPPORTUNITIES 156 6.3.1 RISE IN THE DEMAND FOR ELECTRIFICATION 156 6.3.2 INCREASE IN INVESTMENTS IN R&D TO DEVELOP EFFICIENT ELECTRIC COMPONENTS 158 6.3.3 UPSURGE IN THE ADOPTION OF RENEWABLE ENERGY 159 6.4 CHALLENGES 160 6.4.1 INVOLVEMENT IN SOPHISTICATED MANUFACTURING PROCESS 160 6.4.2 POWER DISTRIBUTION CHALLENGES IN SMALL AND MEDIUM-SIZED PC BOARDS AND CIRCUITS 161 7 GLOBAL LAMINATED BUSBAR MARKET, BY CONDUCTOR 162 7.1 OVERVIEW 163 7.2 COPPER 164 7.2.1 TRANSFORMERS 165 7.2.2 RECTIFIERS 165 7.2.3 GENERATORS 165 7.2.4 OTHERS 165 7.3 ALUMINUM 165 8 GLOBAL LAMINATED BUSBAR MARKET, BY WEIGHT WISE 166 8.1 OVERVIEW 167 8.2 MORE THAN 1 KG 168 8.3 LESS THAN 1 KG 168 9 GLOBAL LAMINATED BUSBAR MARKET, BY SHAPE WISE 170 9.1 OVERVIEW 171 9.2 RECTANGLE 172 9.3 CHAMFER 172 10 GLOBAL LAMINATED BUSBAR MARKET, BY END USER 173 10.1 OVERVIEW 174 10.2 ENERGY & POWER 175 10.2.1 POWER TRANSMISSION 176 10.2.1.1 HVDC CONVERTER STATIONS 177 10.2.1.2 SUBSTATIONS 177 10.2.1.3 MAIN STATIONS 177 10.2.1.4 SWITCHGEARS 177 10.2.1.5 TRANSFORMER STATIONS 177 10.2.1.6 OFF-SHORE 177 10.2.1.7 DISTRIBUTION STATIONS 177 10.2.1.8 OTHERS 177 10.2.2 HYDROPOWER 177 10.2.3 SOLAR POWER 177 10.2.4 WIND POWER 178 10.2.5 OTHERS 178 10.2.6 COPPER 178 10.2.7 ALUMINUM 178 10.2.8 EPOXY POWDER COATING 179 10.2.9 POLYESTER FILM 179 10.2.10 POLYIMIDE FILM 179 10.2.11 HEAT RESISTANT FIBER 179 10.2.12 POLYESTER RESIN 179 10.2.13 PVF FILM 179 10.3 TRANSPORTATION 179 10.3.1 COPPER 180 10.3.2 ALUMINUM 180 10.3.3 EPOXY POWDER COATING 180 10.3.4 POLYESTER FILM 181 10.3.5 POLYIMIDE FILM 181 10.3.6 HEAT RESISTANT FIBER 181 10.3.7 POLYESTER RESIN 181 10.3.8 PVF FILM 181 10.4 MANUFACTURING 181 10.4.1 COPPER 182 10.4.2 ALUMINUM 182 10.4.3 EPOXY POWDER COATING 182 10.4.4 POLYESTER FILM 182 10.4.5 POLYIMIDE FILM 183 10.4.6 HEAT RESISTANT FIBER 183 10.4.7 POLYESTER RESIN 183 10.4.8 PVF FILM 183 10.5 TELECOMMUNICATIONS 183 10.5.1 BASE STATIONS 184 10.5.2 NETWORK SERVERS 184 10.5.3 TELEPHONE EXCHANGE SYSTEMS 184 10.5.4 CELLULAR COMMUNICATIONS 184 10.5.5 OTHERS 184 10.5.6 COPPER 185 10.5.7 ALUMINUM 185 10.5.8 EPOXY POWDER COATING 185 10.5.9 POLYESTER FILM 185 10.5.10 POLYIMIDE FILM 186 10.5.11 HEAT RESISTANT FIBER 186 10.5.12 POLYESTER RESIN 186 10.5.13 PVF FILM 186 10.6 MILITARY & AEROSPACE 186 10.6.1 AIRCRAFT CARRIER 187 10.6.2 UNMANNED AERIAL VEHICLE 187 10.6.3 DEFENSE EQUIPMENT 187 10.6.4 OTHERS 187 10.6.5 COPPER 188 10.6.6 ALUMINUM 188 10.6.7 EPOXY POWDER COATING 188 10.6.8 POLYESTER FILM 188 10.6.9 POLYIMIDE FILM 188 10.6.10 HEAT RESISTANT FIBER 188 10.6.11 POLYESTER RESIN 189 10.6.12 PVF FILM 189 10.7 UTILITIES 189 10.7.1 COPPER 189 10.7.2 ALUMINUM 190 10.7.3 EPOXY POWDER COATING 190 10.7.4 POLYESTER FILM 190 10.7.5 POLYIMIDE FILM 190 10.7.6 HEAT RESISTANT FIBER 190 10.7.7 POLYESTER RESIN 190 10.7.8 PVF FILM 191 10.8 AUTOMOTIVE 191 10.8.1 BATTERY ELECTRIC VEHICLE 191 10.8.2 HYBRID ELECTRIC VEHICLE 192 10.8.3 PLUG-IN HYBRID VEHICLE 192 10.8.4 COPPER 192 10.8.5 ALUMINUM 192 10.8.6 EPOXY POWDER COATING 193 10.8.7 POLYESTER FILM 193 10.8.8 POLYIMIDE FILM 193 10.8.9 HEAT RESISTANT FIBER 193 10.8.10 POLYESTER RESIN 193 10.8.11 PVF FILM 193 10.9 METAL & MINING 194 10.9.1 COPPER 194 10.9.2 ALUMINUM 194 10.9.3 EPOXY POWDER COATING 195 10.9.4 POLYESTER FILM 195 10.9.5 POLYIMIDE FILM 195 10.9.6 HEAT RESISTANT FIBER 195 10.9.7 POLYESTER RESIN 195 10.9.8 PVF FILM 195 10.10 RESIDENTIAL 196 10.10.1 COPPER 196 10.10.2 ALUMINUM 196 10.10.3 EPOXY POWDER COATING 197 10.10.4 POLYESTER FILM 197 10.10.5 POLYIMIDE FILM 197 10.10.6 HEAT RESISTANT FIBER 197 10.10.7 POLYESTER RESIN 197 10.10.8 PVF FILM 197 10.11 OTHERS 198 11 GLOBAL LAMINATED BUSBAR MARKET, BY LENGTH 199 11.1 OVERVIEW 200 11.2 LESS THAN 1M 201 11.3 1M TO 2M 201 11.4 2M TO 3M 202 11.5 MORE THAN 3M 203 12 GLOBAL LAMINATED BUSBAR MARKET, BY INSULATION MATERIAL 204 12.1 OVERVIEW 205 12.2 EPOXY POWDER COATING 206 12.3 POLYESTER FILM 207 12.4 POLYIMIDE FILM 207 12.5 HEAT RESISTANT FIBER 208 12.6 POLYESTER RESIN 208 12.7 PVF FILM 209 13 GLOBAL LAMINATED BUSBAR MARKET, BY PLATING 210 13.1 OVERVIEW 211 13.2 TIN 212 13.3 NICKEL 212 13.4 SILVER 213 14 GLOBAL LAMINATED BUSBAR MARKET, BY POWER RATING 214 14.1 OVERVIEW 215 14.2 MEDIUM POWER 216 14.2.1 400 AMP TO 800 AMP 217 14.2.2 200 AMP TO 400 AMP 217 14.2.3 125 AMP TO 200 AMP 217 14.3 HIGH POWER 217 14.3.1 1000 AMP TO 1200 AMP 218 14.3.2 800 AMP TO 1000 AMP 218 14.4 LOW POWER 218 14.4.1 100 AMP TO 125 AMP 219 14.4.2 60 AMP TO 100 AMP 219 14.4.3 40 TO 60 AMP 219 14.4.4 LESS THAN 40 AMP 219 15 GLOBAL LAMINATED BUSBAR MARKET, BY REGION 220 15.1 OVERVIEW 221 15.2 NORTH AMERICA 227 15.2.1 U.S. 241 15.2.2 CANADA 250 15.2.3 MEXICO 260 15.3 ASIA-PACIFIC 270 15.3.1 CHINA 284 15.3.2 JAPAN 293 15.3.3 SOUTH KOREA 302 15.3.4 TAIWAN 312 15.3.5 INDIA 322 15.3.6 AUSTRALIA 331 15.3.7 SINGAPORE 341 15.3.8 MALAYSIA 351 15.3.9 NEW ZEALAND 361 15.3.10 INDONESIA 371 15.3.11 PHILLIPINES 381 15.3.12 THAILAND 391 15.3.13 VIETNAM 401 15.3.14 REST OF ASIA-PACIFIC 411 15.4 EUROPE 412 15.4.1 GERMANY 425 15.4.2 U.K. 434 15.4.3 FRANCE 443 15.4.4 ITALY 452 15.4.5 SPAIN 461 15.4.6 NETHERLANDS 470 15.4.7 RUSSIA 479 15.4.8 SWITZERLAND 488 15.4.9 TURKEY 497 15.4.10 POLAND 506 15.4.11 SWEDEN 515 15.4.12 BELGIUM 524 15.4.13 NORWAY 533 15.4.14 DENMARK 542 15.4.15 FINLAND 551 15.4.16 REST OF EUROPE 560 15.5 MIDDLE EAST AND AFRICA 561 15.5.1 SAUDI ARABIA 575 15.5.2 U.A.E 585 15.5.3 ISRAEL 595 15.5.4 QATAR 605 15.5.5 EGYPT 615 15.5.6 BAHRAIN 624 15.5.7 KUWAUT 634 15.5.8 SOUTH AFRICA 644 15.5.9 OMAN 655
SummaryThe global laminated busbar market is projected to register a CAGR of 6.2% from 2023 to 2030. The new market report contains data for the historic year 2021, the base year of calculation is 2022, and the forecast period is 2023 to 2030. Table of ContentsTABLE OF CONTENTS1 INTRODUCTION 98 1.1 OBJECTIVES OF THE STUDY 98 1.2 MARKET DEFINITION 98 1.3 OVERVIEW OF THE GLOBAL LAMINATED BUSBAR MARKET 98 1.4 CURRENCY AND PRICING 101 1.5 LIMITATIONS 101 1.6 MARKETS COVERED 102 2 MARKET SEGMENTATION 111 2.1 MARKETS COVERED 111 2.2 GEOGRAPHICAL SCOPE 112 2.3 YEARS CONSIDERED FOR THE STUDY 113 2.4 DBMR TRIPOD DATA VALIDATION MODEL 114 2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS 117 2.6 DBMR MARKET POSITION GRID 118 2.7 VENDOR SHARE ANALYSIS 119 2.8 MULTIVARIATE MODELING 120 2.9 CONDUCTOR TIMELINE CURVE 121 2.10 MARKET END-USE COVERAGE GRID 122 2.11 SECONDARY SOURCES 123 2.12 ASSUMPTIONS 123 3 EXECUTIVE SUMMARY 124 4 PREMIUM INSIGHTS 127 4.1 PORTERS FIVE FORCES 130 4.2 CASE STUDY 131 4.3 REGULATORY FRAMEWORK 132 4.4 PATENT ANALYSIS 134 4.5 TECHNOLOGICAL TRENDS 136 4.6 VALUE CHAIN ANALYSIS 137 4.7 COMPANY COMPARATIVE ANALYSIS 140 4.8 TOP COMPANY MARKET SHARES BY END-USERS 141 5 REGIONAL REASONING 144 6 MARKET OVERVIEW 146 6.1 DRIVERS 148 6.1.1 NCREASING DEMAND FOR ELECTRIC VEHICLES ACROSS THE GLOBE 148 6.1.2 RISING NEED FOR TELECOMMUNICATION EQUIPMENT 150 6.1.3 INCREASING NUMBER OF HYPER-SCALE DATA CENTERS 152 6.1.4 RISING DEMAND FOR SAFE AND SECURE ELECTRICAL DISTRIBUTION SYSTEMS 153 6.1.5 GROWING IMPORTANCE TOWARDS THE ADOPTION OF INSULATING AND PLATING METHODS 155 6.2 RESTRAINT 155 6.2.1 HIGH PRICE VOLATILITY ASSOCIATED WITH RAW MATERIALS 155 6.3 OPPORTUNITIES 156 6.3.1 RISE IN THE DEMAND FOR ELECTRIFICATION 156 6.3.2 INCREASE IN INVESTMENTS IN R&D TO DEVELOP EFFICIENT ELECTRIC COMPONENTS 158 6.3.3 UPSURGE IN THE ADOPTION OF RENEWABLE ENERGY 159 6.4 CHALLENGES 160 6.4.1 INVOLVEMENT IN SOPHISTICATED MANUFACTURING PROCESS 160 6.4.2 POWER DISTRIBUTION CHALLENGES IN SMALL AND MEDIUM-SIZED PC BOARDS AND CIRCUITS 161 7 GLOBAL LAMINATED BUSBAR MARKET, BY CONDUCTOR 162 7.1 OVERVIEW 163 7.2 COPPER 164 7.2.1 TRANSFORMERS 165 7.2.2 RECTIFIERS 165 7.2.3 GENERATORS 165 7.2.4 OTHERS 165 7.3 ALUMINUM 165 8 GLOBAL LAMINATED BUSBAR MARKET, BY WEIGHT WISE 166 8.1 OVERVIEW 167 8.2 MORE THAN 1 KG 168 8.3 LESS THAN 1 KG 168 9 GLOBAL LAMINATED BUSBAR MARKET, BY SHAPE WISE 170 9.1 OVERVIEW 171 9.2 RECTANGLE 172 9.3 CHAMFER 172 10 GLOBAL LAMINATED BUSBAR MARKET, BY END USER 173 10.1 OVERVIEW 174 10.2 ENERGY & POWER 175 10.2.1 POWER TRANSMISSION 176 10.2.1.1 HVDC CONVERTER STATIONS 177 10.2.1.2 SUBSTATIONS 177 10.2.1.3 MAIN STATIONS 177 10.2.1.4 SWITCHGEARS 177 10.2.1.5 TRANSFORMER STATIONS 177 10.2.1.6 OFF-SHORE 177 10.2.1.7 DISTRIBUTION STATIONS 177 10.2.1.8 OTHERS 177 10.2.2 HYDROPOWER 177 10.2.3 SOLAR POWER 177 10.2.4 WIND POWER 178 10.2.5 OTHERS 178 10.2.6 COPPER 178 10.2.7 ALUMINUM 178 10.2.8 EPOXY POWDER COATING 179 10.2.9 POLYESTER FILM 179 10.2.10 POLYIMIDE FILM 179 10.2.11 HEAT RESISTANT FIBER 179 10.2.12 POLYESTER RESIN 179 10.2.13 PVF FILM 179 10.3 TRANSPORTATION 179 10.3.1 COPPER 180 10.3.2 ALUMINUM 180 10.3.3 EPOXY POWDER COATING 180 10.3.4 POLYESTER FILM 181 10.3.5 POLYIMIDE FILM 181 10.3.6 HEAT RESISTANT FIBER 181 10.3.7 POLYESTER RESIN 181 10.3.8 PVF FILM 181 10.4 MANUFACTURING 181 10.4.1 COPPER 182 10.4.2 ALUMINUM 182 10.4.3 EPOXY POWDER COATING 182 10.4.4 POLYESTER FILM 182 10.4.5 POLYIMIDE FILM 183 10.4.6 HEAT RESISTANT FIBER 183 10.4.7 POLYESTER RESIN 183 10.4.8 PVF FILM 183 10.5 TELECOMMUNICATIONS 183 10.5.1 BASE STATIONS 184 10.5.2 NETWORK SERVERS 184 10.5.3 TELEPHONE EXCHANGE SYSTEMS 184 10.5.4 CELLULAR COMMUNICATIONS 184 10.5.5 OTHERS 184 10.5.6 COPPER 185 10.5.7 ALUMINUM 185 10.5.8 EPOXY POWDER COATING 185 10.5.9 POLYESTER FILM 185 10.5.10 POLYIMIDE FILM 186 10.5.11 HEAT RESISTANT FIBER 186 10.5.12 POLYESTER RESIN 186 10.5.13 PVF FILM 186 10.6 MILITARY & AEROSPACE 186 10.6.1 AIRCRAFT CARRIER 187 10.6.2 UNMANNED AERIAL VEHICLE 187 10.6.3 DEFENSE EQUIPMENT 187 10.6.4 OTHERS 187 10.6.5 COPPER 188 10.6.6 ALUMINUM 188 10.6.7 EPOXY POWDER COATING 188 10.6.8 POLYESTER FILM 188 10.6.9 POLYIMIDE FILM 188 10.6.10 HEAT RESISTANT FIBER 188 10.6.11 POLYESTER RESIN 189 10.6.12 PVF FILM 189 10.7 UTILITIES 189 10.7.1 COPPER 189 10.7.2 ALUMINUM 190 10.7.3 EPOXY POWDER COATING 190 10.7.4 POLYESTER FILM 190 10.7.5 POLYIMIDE FILM 190 10.7.6 HEAT RESISTANT FIBER 190 10.7.7 POLYESTER RESIN 190 10.7.8 PVF FILM 191 10.8 AUTOMOTIVE 191 10.8.1 BATTERY ELECTRIC VEHICLE 191 10.8.2 HYBRID ELECTRIC VEHICLE 192 10.8.3 PLUG-IN HYBRID VEHICLE 192 10.8.4 COPPER 192 10.8.5 ALUMINUM 192 10.8.6 EPOXY POWDER COATING 193 10.8.7 POLYESTER FILM 193 10.8.8 POLYIMIDE FILM 193 10.8.9 HEAT RESISTANT FIBER 193 10.8.10 POLYESTER RESIN 193 10.8.11 PVF FILM 193 10.9 METAL & MINING 194 10.9.1 COPPER 194 10.9.2 ALUMINUM 194 10.9.3 EPOXY POWDER COATING 195 10.9.4 POLYESTER FILM 195 10.9.5 POLYIMIDE FILM 195 10.9.6 HEAT RESISTANT FIBER 195 10.9.7 POLYESTER RESIN 195 10.9.8 PVF FILM 195 10.10 RESIDENTIAL 196 10.10.1 COPPER 196 10.10.2 ALUMINUM 196 10.10.3 EPOXY POWDER COATING 197 10.10.4 POLYESTER FILM 197 10.10.5 POLYIMIDE FILM 197 10.10.6 HEAT RESISTANT FIBER 197 10.10.7 POLYESTER RESIN 197 10.10.8 PVF FILM 197 10.11 OTHERS 198 11 GLOBAL LAMINATED BUSBAR MARKET, BY LENGTH 199 11.1 OVERVIEW 200 11.2 LESS THAN 1M 201 11.3 1M TO 2M 201 11.4 2M TO 3M 202 11.5 MORE THAN 3M 203 12 GLOBAL LAMINATED BUSBAR MARKET, BY INSULATION MATERIAL 204 12.1 OVERVIEW 205 12.2 EPOXY POWDER COATING 206 12.3 POLYESTER FILM 207 12.4 POLYIMIDE FILM 207 12.5 HEAT RESISTANT FIBER 208 12.6 POLYESTER RESIN 208 12.7 PVF FILM 209 13 GLOBAL LAMINATED BUSBAR MARKET, BY PLATING 210 13.1 OVERVIEW 211 13.2 TIN 212 13.3 NICKEL 212 13.4 SILVER 213 14 GLOBAL LAMINATED BUSBAR MARKET, BY POWER RATING 214 14.1 OVERVIEW 215 14.2 MEDIUM POWER 216 14.2.1 400 AMP TO 800 AMP 217 14.2.2 200 AMP TO 400 AMP 217 14.2.3 125 AMP TO 200 AMP 217 14.3 HIGH POWER 217 14.3.1 1000 AMP TO 1200 AMP 218 14.3.2 800 AMP TO 1000 AMP 218 14.4 LOW POWER 218 14.4.1 100 AMP TO 125 AMP 219 14.4.2 60 AMP TO 100 AMP 219 14.4.3 40 TO 60 AMP 219 14.4.4 LESS THAN 40 AMP 219 15 GLOBAL LAMINATED BUSBAR MARKET, BY REGION 220 15.1 OVERVIEW 221 15.2 NORTH AMERICA 227 15.2.1 U.S. 241 15.2.2 CANADA 250 15.2.3 MEXICO 260 15.3 ASIA-PACIFIC 270 15.3.1 CHINA 284 15.3.2 JAPAN 293 15.3.3 SOUTH KOREA 302 15.3.4 TAIWAN 312 15.3.5 INDIA 322 15.3.6 AUSTRALIA 331 15.3.7 SINGAPORE 341 15.3.8 MALAYSIA 351 15.3.9 NEW ZEALAND 361 15.3.10 INDONESIA 371 15.3.11 PHILLIPINES 381 15.3.12 THAILAND 391 15.3.13 VIETNAM 401 15.3.14 REST OF ASIA-PACIFIC 411 15.4 EUROPE 412 15.4.1 GERMANY 425 15.4.2 U.K. 434 15.4.3 FRANCE 443 15.4.4 ITALY 452 15.4.5 SPAIN 461 15.4.6 NETHERLANDS 470 15.4.7 RUSSIA 479 15.4.8 SWITZERLAND 488 15.4.9 TURKEY 497 15.4.10 POLAND 506 15.4.11 SWEDEN 515 15.4.12 BELGIUM 524 15.4.13 NORWAY 533 15.4.14 DENMARK 542 15.4.15 FINLAND 551 15.4.16 REST OF EUROPE 560 15.5 MIDDLE EAST AND AFRICA 561 15.5.1 SAUDI ARABIA 575 15.5.2 U.A.E 585 15.5.3 ISRAEL 595 15.5.4 QATAR 605 15.5.5 EGYPT 615 15.5.6 BAHRAIN 624 15.5.7 KUWAUT 634 15.5.8 SOUTH AFRICA 644 15.5.9 OMAN 655
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