October © 2017

From Technologies to Market

5G’s impact on RF front-end industry:

How will wireless infrastructure and cell

phone terminals change in the next decade ?

2017 sample

2

TABLE OF CONTENTS

Glossary

Report Objectives & Methodologies

Executive Summary

Related reports

1 – INTRODUCTION to 5G

Ecosystem

Use cases

Market segmentation

2 – MARKET FORECASTS

Wireless Infrastructure

Market volume & value

Split by backhaul, macro cells and small cells

Split by device type (PA, LNA, filters, switches)

Split by technology evolution (semiconductor platforms)

Cell Phone Terminals

Market volume & value

Split by air standard

Split by device type (PA, LNA, filters, switches, antenna tuners)

Split by technology evolution (semiconductor platforms)

2 - MARKET FORECASTS (continued)

Global forecasts

Market volume & value

Split by Wireless infrastructure and cellphone

Split by device type (PA, LNA, filters, switches, antenna tuners)

Split by technology evolution (semiconductor platforms)

3 – PLAYERS AND ECOSYSTEM

Infrastructure

Cell phone terminals

4 – EVOLUTION TRENDS

5G Characteristics and future possibilities

Beyond 5G ?

CONCLUSION

YOLE COMPANY PROFILE

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

3

RELATED REPORTS

Discover more related reports within our bundle here

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

4

REPORT OBJECTIVES

Provide a clear understanding of the RF Front-End (RFFE) market and related technologies for the wireless infrastructure and cell phone markets.

Ecosystem identification and analysis:

Determine market dynamics

Technical market description

Economic requirements by segment

Key players by market and analysis

Market size and market forecast in $M, Munits and Wafers

Analysis and description of the market and technologies involved:

Major players on a global basis

Technology identification for different devices and processes

Competing technologies

Main technical challenges

Future directions

Ecosystem

Market

Techno

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

5

METHODOLOGIES AND DEFINITIONS

Yole’s market forecast model is based on the following elementary structured blocks:

Yole’sanalysis

framework

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

6

MAIN COMPANIES QUOTED

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Ampleon, NXP, Sumitomo Electric, M/A-COM, Qorvo, Qualcomm, Broadcom, Wolfspeed, Infineon, Intel,Murata Manufacturing, Skyworks, Resonant, Akoustis, ACCO Semiconductors, UMS, GlobalFoundries,TOWERJAZZ, TSMC, Win Semiconductors, Samsung, Apple, ZTE, Huawei, Amkor, ASE Group, IQE,Ericsson, Nokia Networks, AT&T, China Mobile, China Telecom, Verizon, Vodafone, NTT Docomo,COMCAST, Orange, Sprint, SK telecom, O2, CISCO, SoftBank, Sprint, Telia, TIM, Telstra, DeutscheTelekom, Bell, m1, Oppo, Vivo, Xiaomi, Lenovo, ZTE, Coolpad, TCL, LG, HTC, Sony, Microsoft, TayioYuden, and many others…

7

SCOPE OF THE REPORT

Only RF components in Front-End modules for cell phones and wireless infrastructureareconsidered in this report

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Mobile phones

Mobile Infrastructure

RF front-end components (PA, LNA, filters, switches, antenna tuners)

2G, 3G, 4G, 5G technologies

Modems, transceivers, baseband processors, Wi-fi & Bluetooth modules…

Antennas, IPDs, …

Topics NOT included in the report

Focus of the report

8

LTE-A

Pro

CELLULAR TECHNOLOGY DEVELOPMENT

From 2G to 5G: Less than a 30 years’ journey

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

1992 1997 2001 2007 2010 2013 2018 2020

GSM GPRS EDGE

CDMA CDMA2000 1xRTTCDMA2000

1xEV-DO

WCDMA

TD-SCDMA

TD-CDMA

All belong

to UMTS

technology

EV-DO Rev

A/B/C

HSPA HSPA+

TD-HSPA

TDD-LTE

FDD-LTE

TDD-

LTE-

Advanced

FDD-

LTE-

Advanced

5G sub-6GHz 5G mmWave

2G 2.5G 2.75G/Pre-3G 3G 3.5G 3.9G/Pre-4G 4G Pre-5G 5G4.5G

Other standards from IEEE family

including WiMAX and iBurst

It takes around 10 years between two cellular generations, including a long transition phase with intermediate technologies.

Will be a globally

unified standard!

9

5G HAS 3 MAIN ASPECTS…

eMBB, mMTCURLLC:

extreme Mobile Broadband, massive Machine Type Communication and Ultra Reliable Low Latency Communication, and more…

Courtesy of Nokia

Next Generation Mobile Networks Alliance (NGMN) is pushing for specs for 5G to be:

40 times faster than 4G while supporting up to 1 million connections per square kilometer.

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

10

5G ECOSYSTEM

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Enhanced Mobile

broadband

Massive machine

type communicationUltra-reliable and low

latency communications

5G

Chip

manufacturer

Mobile

Living

Smart

Home/building

Standards

and software

Telecom and

ISP Provider

Internet

giants

Foundry and

Manufacturing

Equipment and

Material

Robotic

and drone

System

supplier

4K

Video

VR/AR

Industrial

Automation

Autonomous

vehicle

Cloud

Computing

Mission

critical

application

Finance

Technology

Tele

presence

11

5G TIMEFRAME

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

2012 2013 2014 2015 2016 2017 2018 2019 2020 2020+

*WRC: World Radio-communication Conference

Trials and CommercializationStandardizationPre-standardizationExploratory Research

Evaluation &

Specification

Proposal

Submission

Requirements &

MethodologyVision, Technology & Spectrum

WRC12 WRC15 WRC19

Release 16 & 5G

Enhance

First Release

White PaperTrial

Standards

finalized

(1st release)

IoT tests and

deployments

Today

*Source: ITU, 3GPP, NGMN

Requirements

and feasibility

RAN #74 RAN #78 RAN #80

Stage 3 completion for

Non-Standalone 5G-NRStage 3 completion for

Standalone 5G-NR

Release 15 & 5G

(sub 40GHz)Release 14 & 5GRelease 10-13

Feb 2018

PyeongChang Olympics

July 2020

Tokyo Olympics

12

FUTURE SPECTRUM FOR 5G – AVAILABLE SPECTRUM BY GEOGRAPHICAL AREA

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Europe

China

Japan

Korea

USA

Coverage

600MHz 2.6GHz

Capacity High Throughput

3.4 3.8

3.3 3.6 4.4 4.5 4.8 5

3.6 4.2 4.4 4.9

3.4 3.7

4.23.73.1 3.55 27.5 28.35 37 40 64 71

27.5 28.28

26.5 39

27.524.25 37 43.5

27.524.25

Source: GSMA

?

?

?

?

13

TIME TO MARKET FOR DIFFERENT TELECOM APPLICATIONS

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Low Power

Wireless

2G/3G

4G

Pre 5G

5G mmWave

MBBCapacity &

Coverage

eMBBUltra High Capacity

& mmWave RAN

Massive MTCLow Power & Small

signal

Time

Critical

MTCLatency &

Reliability

MBB: Mobile Broadband

eMBB: enhanced MBB

MTC: Machine Type Communication

Courtesy of NXP

14

REQUIREMENTS FOR 5G

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

User-Driven Requirements

Battery life

Per-user Data rate

and latency

Robustness and

Resiliency

Mobility

Seamless User

Experience

Context-Aware

Network

Network-Driven Requirements

Scalability Capacity Cost Efficiency

Automated system

management and configuration

Network

Efficiency

Energy

EfficiencyCoverage Security

Diverse

Spectrum Operation

Unified System

Framework

15

KEY ENABLING TECHNOLOGIES FOR 5G

To allow larger spectrum, larger number of connections and narrower transmission time intervals…

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Larger number of

connections

Narrower transmission

time intervals and redesign

of network structure

Carrier

Aggregation

mmWave

Massive

MIMO

Small

Cells

Beam

Forming

Enhanced Mobile

broadband

Massive machine

type communication

Ultra-reliable and low

latency communications

Larger spectrum for

higher bandwidth

Band

Re-farming

16

20252024

2023

2022

2021

2020

2019

2018

20170

0.3

0.5

1

2

3

45

1015

20

Fre

quency

(GH

z)

5G APPLICATIONS: TIMELINE AND MAIN TECHNICAL SPECIFICATIONS

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

4K video streaming

New Gaming Content

Wireless VR

AR

Port Management

Medical Robot

Industrial Automation

Smart City

Remote Surveillance

360° Video Telepresence

Drone Delivery

Autonomous Vehicle

Agriculture

Real-time Translation

Advanced AI assistant

Connected

Wearable

Cloud Computing

Connected Home

Smart Grid

Asset Tracking

Shared Utilities

Robotic Service

SUB-1 GHZ

SUB-6 GHZ

MMWAVE (>24GHZ)

17

20252024

2023

2022

2021

2020

2019

2018

20170

0.3

0.5

1

2

3

45

1015

20

Fre

quency

(GH

z)

5G APPLICATIONS: TIMELINE AND MAIN TECHNICAL SPECIFICATIONS

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

4K video streaming

New Gaming Content

Wireless VR

AR

Port Management

Medical Robot

Industrial Automation

Smart City

Remote Surveillance

360°Video Telepresence

Drone Delivery

Autonomous Vehicle

Agriculture

Real-time

Translation

Advanced AI

assistant

Connected

Wearable

Cloud Computing

Connected Home

Smart Grid

Asset Tracking

Shared Utilities

Robotic Service

18

OSAT services

RF COMPONENT AND MODULE SUPPLY CHAIN (KEY PLAYERS)

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

RF component stage

FEM stage

Handset device stage

Antenna device

(tuner & switch)

RF switch

PA/LNA

RF filter

Platform providers(Module maker + test + assembly)

Pure players Integrated players

Discrete components Integrated modules

CMOS-based

5G mmWave FEM

19

Backhaul

FUTURE CELLULAR NETWORK STRUCTURE AND BASE STATIONS

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Copper

Fiber

HFC

Aggregation

node

Core

Node

Mobile Core

Network

mmWave

Satellite

Fiber

mmWave

mmWave

Fiber

Macro cell

BackhaulRAN(Radio Access Network)

Backbone

Small cells

Fiber

Relay node

RAN(Radio Access Network)

Internet

Data Center

mmWave

20

Macrocell(~100W)

FUTURE DEVELOPMENT IN TELECOM BASE STATIONS

User capacity and coverage

Main semiconductor material platforms and associated market size evolution

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Indoor Outdoor

64 Users

32 Users

4 Users

Cap

acity

Source: ZTE / YoleHousehold

Femtocell

(~20mW)

200m100m20m 2km 10km

Entreprise

Femtocell

(~200mW)

Microcell(~10W)

Coverage

21

AND MANY MORE INFORMATION

©2017 | www.yole.fr | 5G’s impact on RF front-end industry | Sample

Not long ago 5G was just a dream, one that motivated a new mobile generation: the dream of a single persuasive technology that could provide any service to any user, anywhere.

Today, 5G is more than a dream – it’s a hot topic. Every telecom operator, base station manufacturer, small-cell manufacturer, and user-equipment provider is working on 5G, in either one or all three of its aspects:

5G’S IMPACT ON THE RF FRONT-END INDUSTRYMarket & Technology report - October 2017

WHICH APPLICATIONS ARE DRIVING 5G, AND WHEN WILL THEY BE IMPLEMENTED?

How will wireless infrastructure and cell phone terminals change in the next decade?

KEY FEATURES OF THE REPORT Get the sample of the report on www.i-Micronews.com• 5G market segmentation and

ecosystem• 2015 - 2025 market landscape

and forecast, including revenue by end-market (infrastructure vs. cell phone), RFFE component type, players, and volume

• Roadmap for technology evolution and future developments

• RF front-end industry strategy

REPORT OBJECTIVES•Ecosystemidentificationand

analysis:> Determine the 5G market’s

dynamic> Technical market description> Economic requirements, by

segment> Key players, by market and

analysis> Market size and forecast in $M,

Munits, and WSPY• Market analysis and description,

and technologies involved:> Major players worldwide>Technologyidentificationfor

different devices and processes> Competing technologies> Main technical challenges> Future direction

Key enabling technologies for 5G

Larger number of connections

Narrower transmission time intervals and redesign of network structure

Massive MIMO

Small cells

Enhanced mobile broadband

Massive machine type communication

Ultra-reliable and low latency communications

Larger spectrum for higher bandwidth

mmWave

Carrier aggregation

Beam forming

Band re-farming

(Yole Développement, October 2017)

• 5G for the Internet-of-Things (IoT): with frequency below 1 GHz for IoT devices requiring low data rates, along with long-range coverage and at a low cost. Technologies are already available, including short-range radio/WiFi and dedicated networks like SigFox and LoRa. These collaborative protocols are designed specifically for low power, and they can already achieve a 10-year battery lifetime. So the questions are: what would 5G bring to the IoT? Will the IoT be a massive opportunity, or just a niche area for 5G?

• 5G Sub-6GHz: with a frequency below 6GHz marking the actual 4G technology’s evolution with massive MIMO, more carrier aggregation and more front-end module integration will push the limits of current technologies. The initial phase aims to use existing base station sites for 3.5/4.5 GHz to simplify 5G introduction. 5G can also be deployed on a shared spectrum, i.e. 3.5 GHz in the U.S. and in unlicensed spectrums like 5 GHz. This approach presents new opportunities for enterprises and industries to

benefit from 5G technology without the need for a licensed spectrum.

• 5G mmWave: possesses a frequency above 10 GHz - typically 28GHz, 39 GHz, or 60 GHz for short-range, high data-rate exchanges. Today, two specific use-cases are observed in the US and Korea:> Fixed wireless access for Verizon and AT&T in

the US. Trials are progressing, and deployment phases are scheduled in around 15 US cities.

> 5G trial services will support the February 2018 Winter Olympics Games in Korea for KT.

Both use cases have their own specifications, and their common ground is a 28 GHz spectrum to access wider bandwidth and higher data rate. Furthermore, in 2019 Qualcomm is committed to bringing a 5G mmWave phone to market. This will require extensive R&D to solve antenna integration issues and devise a 5Gmm Wave RF front-end (RFFE) that can sustain the cell phone industry’s performance, miniaturization, and cost pressures.

5G’S IMPACT ON THE RF FRONT-END INDUSTRY

5G WILL FEATURE A HIGH LEVEL OF COMPLEXITY AND DISRUPTION

5G should integrate mobile broadband, the IoT, and advanced automation like autonomous cars, all in a single standard technology. As previously stated, 5G has

three aspects: IoT, sub-6GHz, and mmWave. In terms of RF technologies, this would mean bringing together devices that require extremely dissimilar performance.

From an infrastructure point of view, major investments have already been made. Telecom operators and base stations/small cell providers are at the trial stage, performing real-world tests.

In the U.S., Verizon and AT&T are pushing hard for 5G Fixed Wireless Access by performing trials and entering deployment phases in around 15 US cities: Austin (TX), Dallas (TX), Houston (TX), San Francisco (CA), Atlanta (Georgia), Denver (CO), Miami (FL), Seattle (WA), Washington D.C., and

others. The providers have partnered with companies like Cisco Systems Inc., Ericsson LM, Nokia Corp., and Samsung on the infrastructure side.

In fact there are many 5G initiatives worldwide, and lucrative business opportunities are right around the corner.

Global mobile data traffic is growing at an astonishing rate, with a >40% CAGR predicted from 2017 - 2022. Cell phones will be the platform of choice for the maturation and implementation of 5G technologies. New applications and use-cases like augmented reality/virtual reality and autonomous vehicles will benefit from this technology maturation step. However, many technical challenges remain before 5G can be considered a success.

For wireless infrastructure, obstacles exist in terms of significant technology overhaul and installation of a large number of smaller local cells to assure signal quality, power efficiency, and thermal dissipation optimization. This will put pressure on power amplifier technology, smart antenna integration and cost, and packaging materials for the RFFE.

For cell phone terminals, challenges are related to smart antenna integration and RFFE miniaturization, cost, and performance. This will put pressure on all RFFE components (filters, switches, PAs, LNAs, antenna tuners) and on the packaging technologies able to create small form-factors in all directions (X, Y, Z) and embed low K dielectrics and low-loss interconnects for good signal integrity.

5G applications: timeline and main technical specifications

(Yole Développement, October 2017)

2025 2024 2023

2022 2021

2020 2019

2018

2017 0 0.3

0.5 1

2 3

4 5

10 15

20

Data Rate (Gbps)

Freq

uenc

y(G

Hz)

4K video streaming

New Gaming Content

Wireless VR

AR

Port Management

Remote Surveillance

360° Video Telepresence

Drone Delivery

Agriculture

Advanced AI assistant

Connected Wearable

Cloud Computing

Connected Home

Smart Grid

Asset Tracking

Shared Utilities

SUB-1 GHZ

SUB-6 GHZ

MMWAVE (>24GHZ)

Robotic Service

Autonomous Vehicle

Medical Robot

Industrial Automation

Smart City

Real-time Translation

5G TRIALS ARE IN PLACE AND GAINING MOMENTUM!

Enhanced mobile broadband

Massive machine type communication

Ultra-reliable and low latency communications

5G

Chip manufacturer

Mobile Living

Smart Home/building

Standards and software

Telecom and ISP provider

Internet giants

Foundry and manufacturing

Equipment and material

Robotic and drone

System supplier

4K Video

VR/AR

Industrial Automation

Autonomous vehicle

Cloud Computing

Mission critical application

Finance Technology

Tele presence

5G ecosystem

(Yole Développement, October 2017)

Find more details about

this report here:

MARKET & TECHNOLOGY REPORT

COMPANIES CITED IN THE REPORT (non exhaustive list)Ampleon, NXP, Sumitomo Electric, M/A-COM, Qorvo, Qualcomm, Broadcom, Wolfspeed, Infineon, Intel, Murata Manufacturing, Skyworks, Resonant, Akoustis, ACCO Semiconductors, UMS, GlobalFoundries, TOWERJAZZ, TSMC, Win Semiconductors, Samsung, Apple, Huawei, Amkor, ASE Group, IQE, Ericsson, Nokia Networks, AT&T, China Mobile, China Telecom, Verizon, Vodafone, NTT Docomo, COMCAST, Orange, Sprint, SK telecom, O2, CISCO, SoftBank, Telia, TIM, Telstra, Deutsche Telekom, Bell, m1, Oppo, Vivo, Xiaomi, Lenovo, ZTE, Coolpad, TCL, LG, HTC, Sony, Microsoft, Tayio Yuden, and many others.

AUTHORSClaire Troadec is leading the RF activity at Yole Développement. She has been a member of the MEMS manufacturing team from 2013. She graduated from INSA Rennes in France with an engineering degree in microelectronics and material sciences. She then joined NXP Semiconductors, and worked for 7 years as a CMOS process integration engineer at the IMEC R&D facility. During this time, she oversaw the isolation and performance boost of CMOS technology node devices from 90 nm down to 45 nm. She has authored or co-authored seven US patents and nine international publications in the semiconductor fieldand before joining Yole Développement managed her own distribution company.

Glossary 3

Report objectives & methodologies 5

Executive summary 6

Related reports 23

Introduction to 5G 25> Ecosystem> Use cases> Market segmentation

Market forecasts 75> Wireless infrastructure

- Market volume & value- Split by backhaul, macro cells, and small cells- Split by device type (PA, LNA, filters, switches)- Split by technology evolution (semiconductor

platforms)> Cell phone terminals

- Market volume & value

- Split by air standard- Split by device type (PA, LNA, filters,

switches, antenna tuners)- Split by technology evolution (semiconductor

platforms)> Global forecasts

- Market volume & value- Split by wireless infrastructure and cellphone- Split by device type (PA, LNA, filters,

switches, antenna tuners)- Split by technology evolution (semiconductor

platforms)

Players and ecosystem 105> Infrastructure> Cell phone terminals

Evolution trends 125> 5G characteristics and future possibilities> Beyond 5G?

Conclusion 145Yole Développement company profile 152

TABLE OF CONTENTS

Hence this highly complex mix implies different implementation stages, and 5G’s various aspects will not be implemented simultaneously. 5G IoT, 5G sub-6GHz, and 5G mmWave will follow their own paths and create parallel ecosystems with connections in-between.

As 5G cell phone and wireless infrastructure technology matures, applications will emerge. This will take time, and many players are already positioning themselves for a slice of the pie. New business models will thus emerge: for example, some Telecom operators, mainly American ones like Verizon and AT&T, are deploying pre-5G networks (with their own standards) targeting residential broadband as an alternative to fiber. Qualcomm is open about its desire to be the first to introduce a 5G mmWave for cell phones, but other players are exploring this too - the usual mainstream suspects such as Intel and Samsung, followed by leading RF CMOS/SOI foundries like

GLOBALFOUNDRIES, TOWERJAZZ, UMC, TSMC, etc.

Ultimately, what we are really lacking today are 5G standards. These are on the way though, via major organizations like ITU, 3GPP, and ngmn. In 2018, ITU will submit a proposal on 5G. 3GPP agreed on an intermediate milestone for the early completion of the non-standalone (NSA) 5G NR mode for the enhanced Mobile BroadBand (eMBB) use-case by March 2018. 3GPP also restated its commitment to complete the Standalone (SA) 5G NR mode by September 2018, and has a plan in place to achieve this goal.

The next few years in the RF industry will be extremely exciting and challenging. Through technology standardization, prototyping, trialing, and ecosystem creation, 5G will become a reality. This will require time, but the voyage is already underway, so stay tuned. The promise is a huge business opportunity.

• RF Power Market and Technologies 2017: GaN, GaAs, and LDMOS

• RF Front-End SiP for Cell Phones 2017• Smartphone RF Front-End Module Review• Taiyo Yuden SAW and BAW Band 7 Duplexer

integrated into Skyworks’ System in Package• Avago AFEM8030 in iPhone 6s Plus FBAR-

BAW Mid-Band Filter

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Zhen Zong works as an analyst for Power E lec t ron ics and Compound Semiconductors technologies and market at Yole Développement, the “More than Moore” strategy consulting and market research company. He graduated from INSA Lyon with an engineering degree in material sciences, specialized in semiconductor devices and Micro/Nano technologies.

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Founded in 1998, Yole Développement has grown to become a group of companies providing marketing, technology and strategy consulting, media and corporate finance services, reverse engineering and reverse costing services and well as IP and patent analysis. With a strong focus on emerging applications using silicon and/or micro manufacturing, the Yole group of companies has expanded to include more than 80 collaborators worldwide covering MEMS and image sensors, Compound Semiconductors, RF Electronics, Solid-state lighting, Displays, software, Optoelectronics, Microfluidics & Medical, Advanced Packaging, Manufacturing, Nanomaterials, Power Electronics and Batteries & Energy Management.The “More than Moore” market research, technology and strategy consulting company Yole Développement, along with its partners System Plus Consulting, PISEO and KnowMade, support industrial companies, investors and R&D organizations worldwide to help them understand markets and follow technology trends to grow their business.

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• Communication & webcast

services

• Events: TechDays, forums,…

www.i-Micronews.com

4©2017 | www.yole.fr | About Yole Développement

A GROUP OF COMPANIES

Market, technology

and strategy

consulting

www.yole.fr

Due diligence

www.yole.fr

Manufacturing costs analysis

Teardown and reverse engineering

Cost simulation tools

www.systemplus.fr

IP analysis

Patent assessment

www.knowmade.fr

Innovation and business maker

www.bmorpho.com

Design and characterization of

innovative optical systems

www.piseo.fr

5©2017 | www.yole.fr | About Yole Développement

OUR GLOBAL ACTIVITY

30%of our business

40%of our business 30%

of our business

Greater

China office

Yole Japan

HQ in Lyon

Nantes

Paris

Nice

Vénissieux

Europe office

Frankfurt

Hsinchu

Tokyo

Yole Inc.

Phoenix

Yole Korea

Seoul

Palo Alto

6©2017 | www.yole.fr | About Yole Développement

ANALYSIS SERVICES - CONTENT COMPARISON

Multi-

Customers

Action

Technology

and Market

Report

Leadership

Meeting

Q&A

Service

Depth of the analysis

Bre

adth

of th

e a

nal

ysis

Meet the

Analyst

Custom

Analysis

High

High

Low

7©2017 | www.yole.fr | About Yole Développement

SERVING THE ENTIRE SUPPLY CHAIN

Our analysts provide market analysis,

technology evaluation,

and business plans along the entire

supply chain

Integrators and

end-users

Device manufacturers

Suppliers: material, equipment,

OSAT, foundries…

Financial investors,

R&D centers

8©2017 | www.yole.fr | About Yole Développement

SERVING MULTIPLE INDUSTRIAL FIELDS

We workacross

multiples industries to understand

the impact of More-than-

Moore technologies from deviceto system

From A to Z…

Transportation

makers

Mobile phone

and

consumer

electronics

Automotive

Medical

systems

Industrial

and defense

Energy

management

9©2017 | www.yole.fr | About Yole Développement

o Yole Développement publishes a comprehensive collection of market & technology reports and patent analysis in:

• MEMS & Sensors

• RF devices & technologies

• Imaging

• Medical technologies (MedTech)

• Photonics

• Advanced packaging

• Manufacturing

• Advanced substrates

• Power electronics

• Batteries and energy management

• Compound semiconductors

• Solid state lighting

• Displays

o You are looking for:

• An analysis of your product market

• A review of your competitors evolution

• An understanding of your manufacturing and production costs

• An understanding of your industry technology roadmap and related IPs

• A clear view on the evolution of the supply chain

The combined team of 60+ experts (PhDs, MBAs, industry veterans…) from Yole Développement, System Plus Consulting and KnowMade, collect information, identifythe trends, the challenges, the emerging markets, the competitive environments and turn it into results to give you a complete picture of your industry landscape.

In the past 19 years, we worked on more than 2 000 projects, interacting with technology professionals and high level opinion makers from the main players of theindustry.

o Every year, Yole Développement, System Plus Consulting and Knowmade publish +120 reports. Gain full benefit from our Bundle and Annual Subscription offers.

REPORTS COLLECTION

www.i-Micronews.com

10©2017 | www.yole.fr | About Yole Développement

OUR 2017 REPORTS PLANNING (1/2)

MARKET AND TECHNOLOGY REPORTS by Yole Développement

o MEMS & SENSORS

− Acoustic MEMS and Audio Solutions 2017

− Integrated Passive Devices Market Status 2017

− 3D Imaging & Sensing 2017

− Status of the MEMS Industry 2017

− Silicon Photonics 2017*

− MEMS & Sensors for Automotive 2017

− High End Inertial Sensors for Defense and Industrial Applications 2017*

− Magnetic Sensors Market and Technologies 2017

− Sensors and Sensing Modules for Smart Homes and Buildings 2017

− Sensing and Display for AR/VR/MR 2017**

− MEMS Packaging 2017

− Fingerprint Sensor Applications and Technologies - Consumer Market Focus 2017

o RF DEVICES AND TECHNOLOGIES

− RF Front End Modules and Components for Cellphones 2017

− Advanced RF SiP for Cellphones 2017

− 5G Impact on RF Industry: From Wireless Infrastructure to Cellphone Terminals

2017

− RF Technologies for Automotive Applications 2017

− GaN and Si LDMOS Market and Technology Trends for RF Power 2017

o MANUFACTURING

− Glass Substrate Manufacturing 2017

− Equipment & Materials for Fan Out Technology 2017

− Equipment and Materials for 3D TSV Applications 2017

− Emerging Non Volatile Memories 2017*

o MEDTECH

− Status of the Microfluidics Industry 2017

− Solid State Medical Imaging 2017

− Connected Medical Devices: the Internet of Medical Things 2017

− Sensors for Medical Robotics 2017

− Artificial Organs: Market & Technology Analysis 2017

− Organs-on-a Chip 2017

o ADVANCED PACKAGING

− Advanced Substrates Overview 2017

− Integrated Passive Devices Market Status 2017

− Status of the Advanced Packaging Industry 2017

− Fan Out Packaging: Market & Technology Trends 2017*

− 3D TSV and 2.5D Business Update - Market and Technology Trends 2017

− Advanced QFN: Market & Technology Trends 2017**

− MEMS Packaging 2017

− Advanced Packaging for Memories 2017

− Advanced RF SiP for Cellphones 2017

− Power Packaging Market and Technology Trends 2017

− Embedded Die Packaging: Technologies and Markets Trends 2017

o IMAGING & OPTOELECTRONICS

− 3D Imaging & Sensing 2017

− Status of the CMOS Image Sensor Industry 2017*

− Camera Module for Consumer and Automotive Applications 2017*

− Uncooled Infrared Imaging Technology & Market Trends 2017*

− Solid State Medical Imaging 2017

− Embedded Software for Machine Vision Systems 2017**

o BATTERY AND ENERGY MANAGEMENT

− Status of the Rechargeable Li-ion Battery Industry*2016 version still available / **To be confirmed

11©2017 | www.yole.fr | About Yole Développement

OUR 2017 REPORTS PLANNING (2/2)o POWER ELECTRONICS

− Status of Power Electronics Industry 2017

− Power MOSFET 2017: Market and Technology Trends

− IGBT Market and Technology Trends 2017

− Power Module Packaging: Material Market and Technology Trends 2017

− Power SiC 2017: Materials, Devices, and Applications

− Power GaN 2017: Materials, Devices, and Applications*

− Materials Market Opportunities for Cellphone Thermal Management (Battery

Cooling, Fast Charging, Data Processing, etc.) 2017

− Gate Driver Market and Technology Trends 2017

− Power Management ICs Market Quarterly Update 2017

− Integrated Passive Devices Market Status 2017

− Thermal Management for LED and Power 2017

o COMPOUND SEMICONDUCTORS

− Power SiC 2017: Materials, Devices, and Applications

− Power GaN 2017: Materials, Devices, and Applications*

− GaN and Si LDMOS Market and Technology Trends for RF Power 2017

− 5G Impact on RF Industry: From Wireless Infrastructure to Cellphone Terminals

2017

− Bulk GaN Substrate Market 2017

o DISPLAYS

− MicroLED Displays 2017

− MicroLED IP 2017

− Quantum Dots for Display Applications 2017

− Phosphors & Quantum Dots 2017 - LED Downconverters for Lighting & Displays

o SOLID STATE LIGHTING

− UV LEDs 2017 - Technology, Manufacturing and Application Trends*

− Horticultural Lighting 2017 - Technology, Industry and Market Trends

− Automotive Lighting 2017 - Technology, Industry and Market Trends*

− Active Imaging and Lidar 2017 - IR Lighting**

− LED Lighting Module 2017 - Technology, Industry and Market Trends

− IR LEDs and VCSELs - Technology Applications and Industry Trends 2017

− Phosphors & Quantum Dots 2017 - LED Downconverters for Lighting & Displays

− MicroLED Displays 2017

− CSP LED Lighting Module 2017

− LED Packaging 2017

− Thermal Management Technology and Market Perspectives in Power Electronics

and LEDs 2017

PATENT ANALYSIS by Knowmade

− Consumer Physics SCiO Molecular Sensor Patent-to-Product Mapping 2017

− Patent Licensing Companies in the Semiconductor Market - Patent Litigation Risk

and Potential Targets 2017

− MEMS Microphone: Patent Landscape Analysis 2017

− Knowles MEMS Microphones in Apple iPhone 7 Plus Patent-to-Product Mapping

− Microbolometer: Patents Used in Products 2017

− Microfluidic Technologies for Diagnostic Applications Patent Landscape 2017

− Pumps for Microfluidic Devices Patent Landscape

− III-N Patent Watch

− MicroLEDs: Patent Landscape Analysis 2017

− Uncooled Infrared Imaging: Patent Landscape Analysis 2017

− 3D Monolithic Memory: Patent Landscape Analysis 2017

− NMC Lithium-Ion Batteries Patent Landscape Analysis

− FLUIDIGM Patent Portfolio Analysis

TEARDOWN & REVERSE COSTING by System Plus Consulting More than 60 teardowns and reverse costing analysis and cost simulation tools to be

published in 2017.

*2016 version still available / **To be confirmed

12©2017 | www.yole.fr | About Yole Développement

OUR 2016 PUBLISHED REPORTS LIST (1/2)

MARKET AND TECHNOLOGY REPORTS by Yole Développement

o MEMS & SENSORS

− Gas Sensors Technology and Market 2016

− Status of the MEMs Industry 2016

− Sensors for Cellphones and Tablets 2016

− Market and Technology Trends of Inkjet Printheads 2016

− Sensors for Biometry and Recognition 2016

− Silicon Photonics 2016

o IMAGING & OPTOELECTRONICS

− Status of the CMOS Image Sensor Industry 2016

− Uncooled Infrared Imaging Technology & Market Trends 2016

− Imaging Technologies for Automotive 2016

− Sensors for Drones & Robots: Market Opportunities and Technology Evolution 2016

o MEDTECH

− BioMEMS 2016

− Point of Care Testing 2016: Application of Microfluidic Technologies

o ADVANCED PACKAGING

− Embedded Die Packaging: Technology and Market Trends 2017

− 2.5D & 3D IC TSV Interconnect for Advanced Packaging: Business Update 2016

− Fan-Out: Technologies and Market Trends 2016

− Fan-In Packaging: Business update 2016

− Status and Prospects for the Advanced Packaging Industry in China 2016

o MANUFACTURING

− Thin Wafer Processing and Dicing Equipment Market 2016

− Emerging Non Volatile Memories 2016

o COMPOUND SEMICONDUCTORS

− Power GaN 2016: Epitaxy and Devices, Applications and Technology Trends

− GaN RF Devices Market: Applications, Players, Technology and substrates 2016

− Sapphire Applications & Market 2016: from LED to Consumer Electronics

− Power SiC 2016: Materials, Devices, Modules, and Applications

o LED

− UV LED Technology, Manufacturing and Applications Trends 2016

− OLED for Lighting 2016 – Technology, Industry and Market Trends

− Automotive Lighting: Technology, Industry and Market Trends 2016

− Organic Thin Film Transistor 2016: Flexible Displays and Other Applications

− Sapphire Applications & Market 2016: from LED to Consumer Electronics

o POWER ELECTRONICS

− Power Electronics for EV/HEV 2016: Market, Innovations and Trends

− Status of Power Electronics Industry 2016

− Passive Components Technologies and Market Trends for Power Electronics 2016

− Power SiC 2016: Materials, Devices, Modules, and Applications

− Power GaN 2016: Epitaxy and Devices, Applications, and Technology Trends

− Inverter Technologies Trends & Market Expectations 2016

− Opportunities for Power Electronics in Renewable Electricity Generation 2016

− Thermal Management Technology and Market Perspectives in Power Electronics and

LEDs 2017

− GaN RF Devices Market: Applications, Players, Technology and substrates 2016

o BATTERY AND ENERGY MANAGEMENT

− Beyond Li-ion Batteries: Present and Future Li-ion Technology Challengers 2016

− Stationary Storage and Automotive Li-ion Battery Packs 2016

− Opportunities for Power Electronics in Renewable Electricity Generation 2016

13©2017 | www.yole.fr | About Yole Développement

OUR 2016 PUBLISHED REPORTS LIST (2/2)

PATENT ANALYSIS by Knowmade

− Microbattery Patent Landscape Analysis

− Miniaturized Gas Sensors Patent Landscape Analysis

− 3D Cell Culture Technologies Patent Landscape

− Phosphors and QDs for LED Applications Patent Landscape

− TSV Stacked Memory Patent Landscape

− Fan-Out Wafer Level Packaging Patent Landscape Analysis

TEARDOWN & REVERSE COSTING by System Plus Consulting More than 45 teardowns and reverse costing analysis and cost simulation tools published

in 2016.

MORE INFORMATION

o All the published reports from the Yole Group of Companies are available on our website

www.i-Micronews.com.

o Ask for our Bundle and Annual Subscription offers: With our bundle offer, you choose the

number of reports you are interested in and select the related offer. You then have up to 12

months to select the required reports from the Yole Développement, System Plus Consulting

and KnowMade offering. Pay once and receive the reports automatically (multi-user format).

Contact your sales team according to your location (see the last slide).

14©2017 | www.yole.fr | About Yole Développement

MICRONEWS MEDIA

o About Micronews Media

To meet the growing demand for market,

technological and business information,

Micronews Media integrates several tools able

to reach each individual contact within its

network.We will ensure you benefit from this.

ONLINE ONSITE INPERSON

@Micronews e-newsletter

i-Micronews.com

i-Micronewsjp.com

FreeFullPDF.com

Events Webcasts

Unique, cost-effective ways

to reach global audiences.

Online display advertising

campaigns are great strategies

for improving your

product/brand visibility. They

are also an efficient way to

adapt with the demands of the

times and to evolve an effective

marketing plan and strategy.

Brand visibility, networking

opportunities

Today's technology makes it

easy for us to communicate

regularly, quickly, and

inexpensively – but when

understanding each other is

critical, there is no substitute

for meeting in-person. Events

are the best way to exchange

ideas with your customers,

partners, prospects while

increasing your brand/product

visibility.

Targeted audience

involvement equals clear,

concise perception of your

company’s message.

Webcasts are a smart,

innovative way of

communicating to a wider

targeted audience. Webcasts

create very useful, dynamic

reference material for

attendees and also for

absentees, thanks to the

recording technology.

Benefit from the i-Micronews.com

traffic generated by the 8,500+

monthly visitors, the 11,500+

weekly readers of @Micronews

e-newsletter

Seven main events planned for

2017 on different topics to

attract 100 attendees on average

Gain new leads for your business

from an average of 300

registrants per webcast

Contact: Camille Veyrier (veyrier@yole.fr), Marketing & Communication Project Manager.

15©2017 | www.yole.fr | About Yole Développement

CONTACT INFORMATION

o CONSULTING AND SPECIFIC ANALYSIS

• North America: Steve LaFerriere, Director of Northern America Business DevelopmentEmail: laferriere@yole.fr – +1 31 06 008 267

• Japan & Rest of Asia: Takashi Onozawa, General Manager, Asia Business DevelopmentEmail: onozawa@yole.fr - +81 3 4405 9204

• Greater China: Mavis Wang, Director of Greater China Business DevelopmentEmail: wang@yole.fr - +886 979 336 809

• RoW: Jean-Christophe Eloy, CEO & President, Yole DéveloppementEmail eloy@yole.fr - +33 4 72 83 01 80

o REPORT BUSINESS

• North America: Steve LaFerriere, Director of Northern America Business DevelopmentEmail: laferriere@yole.fr – +1 31 06 008 267

• Europe: Lizzie Levenez, EMEA Business Development ManagerEmail: levenez@yole.fr - +49 15 123 544 182

• Rest of Asia: Takashi Onozawa, General Manager, Asia Business DevelopmentEmail: onozawa@yole.fr - +81 3 4405 9204

• Japan & Asia: Miho Othake, Account ManagerEmail: ohtake@yole.fr - +81 3 4405 9204

• Greater China: Mavis Wang, Director of Greater China Business DevelopmentEmail: wang@yole.fr - +886 979 336 809

o FINANCIAL SERVICES (in partnership with Woodside Capital Partners)

• Jean-Christophe Eloy, CEO & PresidentEmail: eloy@yole.fr - +33 4 72 83 01 80

o GENERAL

• Public Relations: leroy@yole.fr - +33 4 72 83 01 89

• Email: info@yole.fr - +33 4 72 83 01 80

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