株式会社グローバルインフォメーション
TEL: 044-952-0102
表紙
市場調査レポート

電子機器の相互接続に対する破壊的イノベーションの影響力

Impact of Disruptive Innovations on Electronic Interconnects

発行 Bishop & Associates, Inc. 商品コード 378141
出版日 ページ情報 英文 198 Pages
納期: お問合せ
価格
本日の銀行送金レート: 1USD=110.75円で換算しております。

ご注意: こちらの商品につきましては、航空便送料80ドルが別途かかります。

Back to Top
電子機器の相互接続に対する破壊的イノベーションの影響力 Impact of Disruptive Innovations on Electronic Interconnects
出版日: 2016年10月30日 ページ情報: 英文 198 Pages
概要

世界のコネクタ市場は従来、ニーズの把握・製品の設計・市場/製品の成長サイクルと明確な経路をたどってきました。しかし、今後は新技術の普及によりこの経路が変更させられる可能性もあります。

当レポートでは、電子機器の相互接続の分野に対する破壊的イノベーションの影響力について分析し、各々の接続方法 (銅線ケーブル/光ファイバー/ワイヤレス通信による接続) の概要や利点について調査すると共に、それらの技術に多大な影響を及ぼし得る10種類の「破壊的イノベーション」の概要や、コネクタ市場への具体的な影響、今後の各種コネクタ市場の動向見通しなどについて考察・推計しております。

第1章 分析範囲・手法

第2章 エグゼクティブ・サマリー

第3章 イントロダクション

  • 銅線ケーブル/光ファイバー/ワイヤレス通信による相互接続の進化

第4章 銅線ケーブル用コネクタ

  • 銅線ケーブルによる相互接続方法の進化
  • 末端の形成方法
  • 銅線ケーブル用コネクタの種類
  • 銅線ケーブル用コネクタの利点と限界
  • 高速バックプレーン・ソリューション
  • I/Oコネクタの速度/密度ソリューション

第5章 光ファイバー用コネクタ

  • イントロダクション
  • 光伝送技術
  • 光伝送の基本原理
  • 光ファイバー・ケーブル技術
  • 光ファイバーの損失特性
  • コネクタの損失特性
  • 光ファイバー用コネクタの種類
  • 光ファイバー用コネクタの末端処理
  • 光ファイバーのリンク性能の特徴
  • 光ファイバー用インターフェースの持続的進化
  • 光ファイバーによる相互接続の利点と限界

第6章 ワイヤレス接続用コネクタ

  • 無線データ/エネルギー転送技術
  • ワイヤレスデータ通信
  • 低出力・短距離RFデータリンク
  • 高速・高距離無線データリンク
  • 短距離/長距離ワイヤレス通信の典型的な用途
  • ワイヤレス通信の標準化組織の役割
  • ミリ波相互接続技術
  • 非接触型コネクタ技術
  • TransferJet
  • ARISOコネクタ・プラットフォーム
  • 無線送電
  • ワイヤレス通信による相互接続の利点/限界

第7章 10種類の破壊的技術

  • 破壊的技術
  • IoT (モノのインターネット)
    • コネクタ業界への影響度
  • 自動送電
  • ウェアラブル・エレクトロニクス
  • 積層造形
  • ロボット工学
  • ユーティリティ規模のエネルギー貯蔵
  • クラウド (フォグ/ミスト) コンピューティング
  • 高速コンピューティング/通信
  • AR (拡張現実)・VR (仮想現実)
  • 人工知能 (AI)

第8章 銅線ケーブル/光ファイバー用コネクタの市場規模・予測

  • 光ファイバーの市場規模 (全世界、最新値・予測値)
  • 銅線ケーブルの市場規模 (全世界、最新値・予測値)
  • 光ファイバー/銅線ケーブルのCAGR (複合年間成長率) (全世界、今後5年間分)
  • 音声・データ通信用光ファイバーの市場規模・CAGR (全世界、今後5年間分)
  • 音声・データ通信用銅線ケーブルの市場規模・CAGR (全世界、今後5年間分)
  • 自動車・交通機関用光ファイバーの市場規模・CAGR (全世界、今後5年間分)
  • 自動車・交通機関用銅線ケーブルの市場規模・CAGR (全世界、今後5年間分)
  • コンピュータ・周辺機器・ビジネス機器用光ファイバーの市場規模・CAGR (全世界、今後5年間分)
  • コンピュータ・周辺機器・ビジネス機器用銅線ケーブルの市場規模・CAGR (全世界、今後5年間分)
  • 計測装置・産業機械用光ファイバーの市場規模・CAGR (全世界、今後5年間分)
  • 計測装置・産業機械用銅線ケーブルの市場規模・CAGR (全世界、今後5年間分)
  • 民生品・医療機器用光ファイバーの市場規模・CAGR (全世界、今後5年間分)
  • 民生品・医療機器用銅線ケーブルの市場規模・CAGR (全世界、今後5年間分)
  • 軍需品・その他の機器用光ファイバーの市場規模・CAGR (全世界、今後5年間分)
  • 軍需品・その他の機器用銅線ケーブルの市場規模・CAGR (全世界、今後5年間分)
  • 北米の光ファイバー/銅線ケーブルの市場規模・CAGR (今後5年間分)
  • 欧州の光ファイバー/銅線ケーブルの市場規模・CAGR (今後5年間分)
  • 日本の光ファイバー/銅線ケーブルの市場規模・CAGR (今後5年間分)
  • 中国の光ファイバー/銅線ケーブルの市場規模・CAGR (今後5年間分)
  • アジア太平洋地域諸国の光ファイバー/銅線ケーブルの市場規模・CAGR (今後5年間分)
  • 他の国々 (RoW) の光ファイバー/銅線ケーブルの市場規模・CAGR (今後5年間分)

第9章 分析結果と結論

目次
Product Code: M-760-16

Summary

  • What potential effect will new and innovative technologies have on electronic interconnects in the years to come?
  • What does the future hold for copper, fiber, and wireless interconnects? Will one outpace the other?
  • Which innovative technologies have the potential to drastically change the traditional process for new electronic interconnect development?
  • Can existing connector design and manufacturing technology produce connectors that will satisfy future application requirements via sustaining innovation?
  • Will the convergence of potentially disruptive technologies appearing on the horizon begin to obsolete many traditional interconnects as we know them?
  • What new technical requirements may spur the interconnect industry to take a more proactive role in the development of interconnect technology?

The evolution of connector design has traditionally followed a well-developed path. A need is recognized, a product designed, and the growth cycle begins. Will new innovations, their rate of adoption, and the technologies they represent change this path? Examining 10 potentially disruptive technologies, and their effect on traditional copper, fiber and wireless interconnect, is Bishop & Associates newest research report, Impact of Disruptive Innovations on Electronic Interconnects. Don't let the past define your path to the future, order your copy of the Impact of Disruptive Innovations on Electronic Interconnects today.

Additional Details

Investigating the effect new and innovative technology has, or will have, on the electronic interconnect industry is covered in Bishop and Associates newest research report, Impact of Disruptive Innovations on Electronic Interconnects. This nine-chapter, 198-page research report examines past and future growth of copper, fiber optic, and wireless interconnects, while discussing the effects new and innovative technologies will have on them over the next five years.

To a large degree, manufacturers of electronic connectors have taken their cue from leading original equipment manufacturers as they have defined their specific interconnect requirements. As a need arises at a leading OEM, the assumption is made that demand for a new product with an advanced feature will become broad-based. Research and development resources are applied, a new product is production tooled, and the anticipated sales growth curve begins. Over the years, the connector industry has made a number of significant leaps in technology, but most new connectors are the result of evolutionary not revolutionary development.

This report reviews the current state of copper, fiber optic and wireless interconnect technology, as well as identifies 10 potentially disruptive innovations currently in development, or the introduction phase, to determine the degree of impact these changes will have on the electronic connector industry. These include:

  • Internet of Things
  • Autonomous Electric Vehicles
  • Wearable Electronics
  • Additive Manufacturing
  • Robotics
  • Utility Scale Energy Storage
  • Cloud / Fog / Mist Computing
  • High-Speed Computing and Communications
  • Augmented / Virtual Reality
  • Artificial Intelligence

True innovation disruptors also have a tendency to create consequences well beyond their target market. Broad adoption of autonomous transportation in urban areas will change how people allocate resources and utilize living space while totally altering the energy, insurance and automotive assembly businesses. Continuing expansion of robotic and 3D additive manufacturing has the potential to eliminate millions of jobs resulting in serious social and political challenges. The Internet of Things is likely to evolve to the Internet of Everything where the majority of daily tasks are automated and personal preferences are satisfied to a degree never before possible.

The report also attempts to predict what new technical requirements may spur the interconnect industry to take a more proactive role in the development of interconnect technology that will be capable of supporting multiple next generation electronic devices.

Table of Contents

Chapter 1 - Report Scope and Methodology

  • Report Objectives
  • Methodology and Approach

Chapter 2 - Executive Summary

  • Executive Summary

Chapter 3 - Introduction

  • Evolution of Copper, Fiber, and Wireless Interconnects

Chapter 4 - Copper Connectors

  • The Evolution of Copper Interconnects
  • Termination Methods
  • Copper Connector Types
  • Advantages and Limitations of Copper Connectors
  • High-Speed Backplane Solutions
  • I/O Connector Speed / Density Solutions

Chapter 5 - Fiber Optic Connectors

  • Introduction
  • Optical Transmission Technology
  • Basic Principals of Optical Transmission
  • Optical Fiber Cable Technology
  • Fiber Optic Cable Loss Characteristics
  • Connector Loss Characteristics
  • Optical Connector Types
  • Optical Connector Termination Processes
  • Optical Fiber Link Performance Characteristics
  • Optical Interfaces Continuing to Evolve
  • Advantages and Limitations of Fiber Optic Interconnects

Chapter 6 - Wireless Interconnects

  • Wireless Data and Energy Transfer Technology
  • Wireless Data Communication
  • Low-Power / Short Range RF Data Links
  • High-Speed / Long Distance Wireless Data Links
  • Typical Short / Long Range Wireless Applications
  • The Role of Wireless Standards Organizations
  • Millimeter Wave Interconnect Technology
  • Contactless Connector Technology
  • TransferJet
  • ARISO Connector Platform
  • Wireless Power Transmission
  • Advantages / Limitations of Wireless Interconnects

Chapter 7 - Ten Disruptive Technologies

  • Disruptive Technologies
  • Internet of Things
  • IoT Standards Development
  • Connector Industry Impacts
  • Autonomous Electric Transportation
  • Connector Industry Impacts
  • Related Market Impacts
  • Wearable Electronics
  • Connector Industry Impacts
  • Additive Manufacturing
  • Connector Industry Impacts
  • Robotics
  • Connector Industry Impacts
  • Utility-Scale Energy Storage
  • Connector Industry Impacts
  • Cloud/Fog/Mist Computing
  • Connector Industry Impacts
  • High-Speed Computing and Communications
  • Connector Industry Impacts
  • Augmented / Virtual Reality
  • Connector Industry Impacts
  • Artificial Intelligence
  • Connector Industry Impacts

Chapter 8 - Copper and Fiber Optic Connector Values and Forecasts

  • Fiber - Total World by Region, 2015, 2016 and 2021
  • Copper - Total World by Region, 2015, 2016 and 2021
  • Copper and Fiber - Total World by Region, 2015, 2016 and 2021
  • Fiber versus Copper 5-Year CAGR by Region 2016 through 2021
  • Fiber by General Market Sectors 2015 and 2016 through 2021
  • Copper by General Market Sectors 2015 and 2016 through 2021
  • Copper and Fiber by General Market Sectors 2015 and 2016 through 2021
  • Fiber versus Copper 5-Year CAGR by Market Sector 2016 through 2021
  • Telecom/Datacom Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Telecom/Datacom Copper by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Telecom/Datacom Copper and Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Auto/Transportation Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Auto/Transportation Copper by Region 2015, 2016, & 2021 with Percent Change & 5-Year CAGR
  • Auto/Transportation Copper and Fiber by Region 2015, 2016, & 2021 with Percent Change and 5-Year CAGR
  • Computer, Peripherals, and Business Equipment Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Computer, Peripherals, and Business Equipment Copper by Region 2015, 2016, & 2021 with Percent Change & 5-Year CAGR
  • Computer, Peripherals, and Business Equipment Copper and Fiber by Region 2015, 2016, & 2021 with Percent Change and 5-Year CAGR
  • Instrumentation/Industrial Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Instrumentation/Industrial Copper by Region 2015, 2016, & 2021 with Percent Change & 5-Year CAGR
  • Instrumentation/Industrial Copper and Fiber by Region 2015, 2016, & 2021 with Percent Change and 5-Year CAGR
  • Consumer/Medical Equipment Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Consumer/Medical Equipment Copper by Region 2015, 2016, & 2021 with Percent Change & 5-Year CAGR
  • Consumer/Medical Equipment Copper and Fiber by Region 2015, 2016, & 2021 with Percent Change and 5-Year CAGR
  • Military/Other Equipment Fiber by Region 2015, 2016, and 2021 with Percent Change and 5-Year CAGR
  • Military/Other Equipment Copper by Region 2015, 2016, and 2021 with Percent Change & 5-Year CAGR
  • Military/Other Equipment Copper and Fiber by Region 2015, 2016, & 2021 with Percent Change and 5-Year CAGR
  • Fiber versus Copper 5-Year CAGR by Market Sector North America 2016 through 2021
  • Fiber versus Copper 5-Year CAGR by Market Sector Europe 2016 through 2021
  • Fiber versus Copper 5-Year CAGR by Market Sector Japan 2016 through 2021
  • Fiber versus Copper 5-Year CAGR by Market Sector China 2016 through 2021
  • Fiber versus Copper 5-Year CAGR by Market Sector Asia Pacific 2016 through 2021
  • Fiber versus Copper 5-Year CAGR by Market Sector ROW 2016 through 2021

Chapter 9 - Report Findings and Conclusions

  • Report Findings and Conclusions
Back to Top