CELEX: 32020M9716
Language: en
Date: 2020-07-06 00:00:00
Title: Commission Decision of 06/07/2020 declaring a concentration to be compatible with the common market (Case No COMP/M.9716 - AMS / OSRAM) according to Council Regulation (EC) No 139/2004 (Only the English text is authentic)

EUROPEAN COMMISSION
                                                                Brussels, 06.07.2020
                                                                C(2020) 4682 final
                                                                                 PUBLIC VERSION
                                                                 In the published version of this decision,
                                                                 some information has been omitted
                                                                 pursuant to Article 17(2) of Council
                                                                 Regulation (EC) No 139/2004 concerning
                                                                 non-disclosure of business secrets and other
                                                                 confidential information. The omissions are
                                                                 shown thus […]. Where possible the
                                                                 information omitted has been replaced by
                                                                 ranges of figures or a general description.
                                                                To the notifying party
Subject:            Case M.9716 – AMS/OSRAM
                    Commission decision pursuant to Article 6(1)(b) of Council Regulation
                    No 139/20041 and Article 57 of the Agreement on the European Economic
                    Area2
Dear Sir or Madam,
(1)       On 29 May 2020, the European Commission received notification of a concentration
          pursuant to Article 4 of the Merger Regulation resulting from a proposed transaction
          whereby ams AG (‘AMS’, Austria) intends to acquire sole control, within the
          meaning of Article 3(1)(b) of the Merger Regulation, of the whole of OSRAM Licht
          AG (‘OSRAM’, Germany)3. AMS is referred to hereinafter as the ‘Notifying Party’
          and together with OSRAM as the ‘Parties’. The undertaking that would result from
          the proposed transaction is referred to as the ‘merged entity’.
1    OJ L 24, 29.1.2004, p. 1 (the “Merger Regulation”). With effect from 1 December 2009, the Treaty on the
     Functioning of the European Union (“TFEU”) has introduced certain changes, such as the replacement of
     “Community” by “Union” and “common market” by “internal market”. The terminology of the TFEU will
     be used throughout this decision.
2    OJ L 1, 3.1.1994, p. 3 (the “EEA Agreement”).
3    Publication in the Official Journal of the European Union No C 195, 10.06.2020, p. 4.
Commission européenne, DG COMP MERGER REGISTRY, 1049 Bruxelles, BELGIQUE
Europese Commissie, DG COMP MERGER REGISTRY, 1049 Brussel, BELGIË
Tel: +32 229-91111. Fax: +32 229-64301. E-mail: COMP-MERGER-REGISTRY@ec.europa.eu.
 ---pagebreak--- 1.      THE PARTIES
(2)     AMS is an Austrian undertaking active in the supply of sensor solutions worldwide
        and focused on the development and manufacturing of high-performance sensors,
        sensor integrated circuits, related algorithms and software. AMS’ business activities
        are divided into three key areas: (i) optical-, (ii) imaging-, and (iii) audio sensor
        solutions.
(3)     OSRAM is a German undertaking active in lighting technology in the area of
        automotive and specialty lighting, light management systems and lighting solutions.
        OSRAM’s business activities are divided into three main business units: (i) optical
        semiconductors, (ii) automotive lighting, and (iii) non-automotive lamps, electronic
        components and systems.
2.      THE CONCENTRATION
(4)     On 7 November 2019, ams Offer GmbH, an AMS wholly owned subsidiary, made a
        public offer to acquire all shares of OSRAM (the ‘Transaction’). The initial offer
        period expired on 5 December 2019. The offer was subject to a [over 50]%
        minimum acceptance threshold and customary closing conditions, including merger
        control clearance. Such acceptance threshold was achieved by 5 December 2019,
        after which AMS extended the offer for an additional acceptance period, which
        ended on 24 December 2019.4 Upon completion of the Transaction, AMS will hold
        [over 50%] of the voting rights of and sole control over OSRAM. Conversely, post-
        Transaction, no other shareholders or shareholder-approved board members of
        OSRAM (different from AMS) will have any direct or indirect veto rights that
        concern decisions which are essential for the strategic commercial behaviour or
        business policy of OSRAM.
(5)     It follows that the Transaction would result in a concentration within the meaning of
        Article 3(1)(b) of the Merger Regulation.
3.      UNION DIMENSION
(6)     The Transaction does not have a Union dimension within the meaning of Article 1 of
        the Merger Regulation. With regard to Article 1(2), AMS’ turnover does not amount
        to more than EUR 250 million in the Union. With regard to Article 1(3), the Parties’
        aggregate turnover amounts to more than EUR 100 million in only one Member
        State, i.e. Germany.
(7)     However, on 29 January 2020, AMS submitted a request for a referral to the
        Commission pursuant to Article 4(5) of the Merger Regulation (‘Form RS’). The
        request fulfilled the two conditions set out in Article 4(5) of the Merger Regulation
        in that (i) it referred to a concentration within the meaning of Article 3 of the Merger
        Regulation that (ii) had to be notified in at least three Member States. In addition, the
        Transaction fulfilled a number of further criteria set out in the Commission’s Notice
4   [Details about the transaction].
                                                     2
 ---pagebreak---         on Case Referral.5 In this regard, since the case extended over territories reaching
        beyond national boundaries, as the markets involved were larger than national as per
        the Commission’s previous decisions;6 and since the case required investigative
        efforts in several countries as well as appropriate enforcement powers, the
        Commission concluded it was in the best position to review the Transaction.
(8)     The Form RS was transmitted to all EU Member States and none of them expressed
        their disagreement to the request for referral. The Transaction is therefore deemed to
        have a Union dimension.
4.      INTRODUCTION TO SEMICONDUCTORS AND OPTICAL SEMICONDUCTORS
(9)     The Transaction brings together AMS’ and OSRAM’s development, manufacture
        and supply of semiconductor products, including ancillary software. The Parties’
        activities overlap in the development, manufacture and supply of certain optical
        semiconductors.
(10)    Semiconductors are key components of electronic devices such as diodes, transistors
        and other electronic components. Devices containing semiconductors include mobile
        phones, computers, domestic appliances, cars, medical equipment, identification
        systems, large-scale industry electronics and aerospace equipment. Semiconductors
        are rarely bought directly by end-consumers. Instead, they are mainly bought by
        original equipment manufacturers (‘OEMs’) active in different sectors.7
(11)    A semiconductor has an electrical conductivity value that is situated between
        insulators and conductors. Its conductivity changes based on various factors,
        including heat, light, electric current or electromagnetic fields. The ability to change
        conductivity based on environmental factors makes semiconductors suitable to
        control electronic signals (reversing, amplifying) inside of electronic devices.8
(12)    Leading market analysts split the semiconductor market into four segments, namely
        (i) integrated circuits (‘ICs’); (ii) discretes; (iii) optical semiconductors; and
        (iv) sensors and actuators.9
(13)    ICs are semiconductor devices composed of diodes, transistors and other electronic
        components, combined with conductive interconnect material, which controls the
        current and voltage of electricity running through it. Nowadays, ICs are particularly
        complex and compact. ICs currently used in electronic devices are called
        “microchips” or “chips” and can contain several billion transistors along with diodes
        and other electronic components. Figure 1 depicts an example of ICs.
5   Commission Notice on Case Referral in respect of concentrations (‘Commission’s Notice on Case
    Referral’), OJ C 56, 05.03.2005, p. 2-23.
6   See for example: M.8306 – Qualcomm/NXP Semiconductors, M.7585 – NXP Semiconductors/Freescale
    Semiconductor, M.7585 – NXP Semiconductors/Freescale Semiconductor.
7   Form CO, paragraph 80.
8   Form CO, paragraph 81.
9   See for example: Form CO, Annex 10 “Appendix 025_ID_LL_0030, IHS Markit Annual 2001 to 2018
    market shares”.
                                                    3
 ---pagebreak---                           Figure 1 Example of Integrated Circuits
                                   Source: Form CO, figure 3.
(14)  Discretes are physically standalone packaged semiconductors specified to perform
      an elementary electronic function, which are not divisible into separate components
      functional in themselves. Discretes typically include a single semiconductor such as
      a diode or transistor and are practically the opposite of an IC, which has many
      devices on a single piece of semiconductor (see Figure 2). In practice, discretes are
      designed for high power and high frequency, which require special use and
      packaging.
                              Figure 2 Examples of discretes
                                   Source: Form CO, figure 4.
(15)  Optical semiconductors can be broadly divided into two major groups: (i) optical
      semiconductors transforming electricity into light (light-emitting devices); and
      (ii) optical semiconductors transforming light into electricity (light-receiving
      devices).10 Among the light-emitting devices are laser diodes and LED. Figure 3
      depicts an example of LED meant to be mounted through a hole (left-hand side) and
      an example of LED meant to be mounted on a surface (right-hand side).
10 Form CO, paragraph 85.
                                                 4
 ---pagebreak---                                       Figure 3 Examples of LED
                                         Source: Form CO, figure 6.
(16)   Light-receiving devices such as image sensors and light sensors generally output
       electric signals in response to a change of light. Figure 4 depicts a particular light
       sensor produced by AMS where a light source is used for measuring the proximity of
       certain objects by measuring the time employed by the light source to travel to that
       object and back to the sensor itself. Often and more generally, light sensors are stand
       alone devices, i.e. they do not require an emitter, and they measure ambient light or
       ambient colour.
                    Figure 4 Example of a light sensor produced by AMS
                                         Source: Form CO, figure 6.
(17)   Sensors and actuators are technical components used to help detect signals in a
       real-world environment and transmit those to embedded processing applications.11
       Sensors are specifically designed to measure externalities like quantity of heat,
       temperature, humidity, pressure, sound field parameters, acceleration, pH value,
       ionic strength, electrochemical potential and/or the material composition of its
       surroundings. A sensor always works together with other electronic devices, which
       translate and then process the information measured by the sensor. Actuators use
       electronic signals to influence the real world by performing a certain action.
11 Leading market analysts consider light and image sensors within optical semiconductors and not within
   sensors and actuators, given that they constitute a key part of an optical solution.
                                                           5
 ---pagebreak---                          Figure 5 Examples of sensors and actuators
                                       Source: Form CO, figure 7.
(18)   Manufacturing semiconductors, and more specifically optical semiconductors,
       entails complex manufacturing steps and processes. Once semiconductors are
       manufactured, they generally require assembly and packaging before they can be
       integrated by a customer such as a smartphone manufacturer or automotive OEM.
       For example, various semiconductor devices are assembled into a single camera
       module, which can then be further integrated into a tablet or into a smartphone.
       Optical assembly and packaging of such devices, e.g. to form a camera module, can
       either be handled by dedicated optical packaging and assembly houses,
       semiconductor manufacturers, or in-house by large customers which typically have
       these capabilities in-house.12
5.     PRODUCT MARKET DEFINITION
5.1.   Introduction
(19)   The Transaction gives rise to horizontal overlaps with respect to the development,
       manufacture and supply of certain optical semiconductors and, in particular, of
       certain light sensors and laser diodes.
(20)   The Transaction gives also rise to vertical links between AMS’ provision of micro
       packaging and assembly services for complete light sensor and illuminator solutions
       for mobile phones and OSRAM’s supplies of LED and laser diodes.
5.2.   The Notifying Party’s view
(21)   The Notifying Party considers that semiconductors should be distinguished between:
       (i) ICs; (ii) discretes; (iii) optical semiconductors; and (iv) sensors and actuators. In
       addition, the Notifying Party considers appropriate to further segment optical
       semiconductors (where the Parties’ activities overlap) by the industrial sector where
       they are employed, namely (i) commercial and consumer optical semiconductors;
       and (ii) communications infrared (‘IR’) optical semiconductors. To the Notifying
       Party’s view such a distinction is deemed necessary because the industry dynamics
       between these two segments appear to be fundamentally different.13
12  Form CO, paragraph 98.
13  Form CO, paragraph 129.
                                                     6
 ---pagebreak--- (22)   The Notifying Party is also of the view that commercial and consumer optical
       semiconductors could be further distinguished by functionality, namely (i) LED;
       (ii) laser diodes (e.g. vertical cavity surface emitting laser (‘VCSEL’), edge emitting
       laser (‘EEL’), which the Notifying Party considers to be part of the same product
       market); (iii) couplers; (iv) light sensors (e.g. proximity sensors, ambient light
       sensors, colour sensors, spectral sensors, which the Notifying Party considers to be
       part of the same product market); and (v) image sensors. According to the Notifying
       Party, devices of each category provide for different functionalities and therefore
       from a demand-side perspective they are not interchangeable for a specific end-use
       application.14
(23)   According to the Notifying Party, narrower segmentations are not necessary. In this
       respect, while the Notifying Party considers that there is limited demand-side
       substitutability for optical semiconductors belonging to narrower markets (for
       example, in the case of laser diodes, VCSEL and EEL) because products belonging
       to narrower segmentations are used for (different) specific functions, a considerable
       supply-side substitutability exists. The Notifying Party is of the view that most
       optical semiconductors manufacturers have capabilities across, and therefore offer a
       wide portfolio of different types of light sensors and laser diodes, which confers
       supply-side substitutability within the same category.15 According to the Notifying
       Party, the same generally holds true for different types of LEDs, e.g. LEDs with
       different wavelengths (visible, infrared and ultraviolet), which are not substitutable
       from a demand-side perspective but which many suppliers offer in their different
       types.16
(24)   With regard to assembly and packaging services for sensor solutions, the Notifying
       Party submits that a distinct market is to be analysed only where players move from
       the assembly and packaging of own single component products, to the assembly and
       packaging of solutions that include components from other suppliers next to the own
       components or exclusively.17
(25)   According to the Notifying Party, it might be plausible to further segment the
       provision of assembly and packaging services for sensor solutions between micro-
       packaging and module making. The Notifying Party argues that the technology and
       capabilities required for semiconductors that are only millimetres in size are very
       different from bigger modules such as phone cameras, which are much larger in size
       and contain several different components.18
5.3.   The Commission’s precedents
(26)   In a number of previous decisions, the Commission considered that optical
       semiconductors belong to product markets that are separate from other
       semiconductors product markets. Consistently with the Notifying Party’s view, the
       Commission has in the past made a clear distinction between (i) ICs; (ii) discretes;
       (iii) optical semiconductors; and (iv) sensors and actuators. Within these categories
14  Form CO, paragraph 130.
15  Form CO, paragraphs 136-138.
16 AMS’ reply to the Commission’s request for information RFI 2 dated 9 June 2020, paragraph 10.
17 Form CO, paragraph 154.
18 Form CO, paragraph 156.
                                                      7
 ---pagebreak---         (but not specifically for optical semiconductors because no previous decision deals
        particularly with them), the Commission has also distinguished a number of
        narrower separate product markets by functionality and by end application.19
(27)    In terms of applications, the Commission has considered in the past at least six major
        applications for semiconductor devices: communications, consumer, computer,
        military, industrial and automotive. The products designed for each of these
        applications have been found to be not interchangeable and therefore belonging to
        separate product markets. 20
(28)    Within different applications, the Commission has also previously distinguished
        between groups or categories according to the functions the semiconductors are
        designed to fulfil or the types of electronic equipment they will be inserted in
        (e.g. within the market for communications applications, the Commission has
        considered that a distinction can be drawn between wireline and wireless
        applications).21
(29)    With respect to optical semiconductors, the Commission has defined them as
        “devices that have either luminescent or light-receiving functionalities. Luminescent
        devices include LED and laser diodes, while light-receiving devices include solar
        cells and photo-detectors”.22 However, since none of the past decisions concerned
        specifically optical semiconductors, the Commission has never considered further
        segmentations of these specific products.
(30)    The Commission has not dealt with packaging/assembly services for (optical)
        semiconductors in previous decisions.
5.4.    The Commission’s assessment
(31)    The market investigation has widely confirmed the Commission’s past practice and
        the Notifying Party’s view according to which ICs, discretes, optical
        semiconductors, and sensors and actuators are part of separate product markets.23
(32)    With respect to the Notifying Party’s proposed distinction between commercial and
        consumer optical semiconductors and communications IR optical semiconductors
        (supplied to data communication providers operating fibre glass, etc.) the majority of
        the market participants that responded to the market investigation (in particular, most
19  See for example: M.2820 – STMicroelectronics/Alcatel Microelectronics; M.2439 –
    Hitachi/STMicroelectronics/SuperH/JV; M.4751 – STM/Intel/JV; M.5173 – STM/NXP/JV; M.5332 –
    Ericson/STM/JV; M.5535 – Renesas Technology/NEC Electronics; M.7585 – NXP
    Semiconductors/Freescale Semiconductor; M.7686 – Avago/Broadcom; M.8314 – Broadcom/Brocade;
    M.8306 – Qualcomm/NXP Semiconductors.
20  M.2820 – STMicroelectronics/Alcatel Microelectronics, paragraph 11, makes use of this approach, while
    narrower end-user applications are defined, e.g. in M.5332 – Ericson/STM/JV, paragraph 34, where
    semiconductors for wireless applications are considered as belonging to a product market different from
    those of other semiconductors used for communication.
21  See for example: M.5173 – STM/NXP/JV; M.5332 – Ericson/STM/JV; M.7585 – NXP
    Semiconductors/Freescale Semiconductor; M.8306 – Qualcomm/NXP Semiconductors; M.8314 –
    Broadcom/Brocade.
22  M.7585 – NXP Semiconductors/Freescale Semiconductor, footnote 6.
23  Replies to questionnaire Q1 – Automotive customers, question 6; questionnaire Q2 – Customers in
    consumer electronics, question 6; questionnaire Q3 – Competitors, question 6.
                                                         8
 ---pagebreak---         customers in consumer electronics) agreed with the proposed distinction.24 However,
        one competitor of the Parties indicated that ‘while the customers and their specific
        product requirements may differ between "commercial and consumer optical
        semiconductors" and "communications IR optical semiconductors", there is
        significant overlap in manufacturing and product development or R&D capabilities
        and fixed costs in these markets’.25
(33)    The majority of the market participants that expressed a view in the market
        investigation also agrees with the Notifying Party’s view that, from a demand-side
        perspective, LEDs, laser diodes, couplers, light sensors and image sensors present
        limited demand-side substitutability in terms of, for example, product characteristics,
        applications and prices, and therefore they belong to separate product markets.26
(34)    One market participant, after having provided for a detailed explanation as to why it
        considers that there is an important lack of demand-side substitutability for the
        different categories of semiconductors considered, also underlined the lack of
        supply-side substitutability by stating that “[s]hifting production from one to the
        other would require substations (sic) R&D effort”.27
(35)    This view is echoed by a large majority of the Parties’ competitors that not only
        confirmed the lack of demand-side substitutability, but also pointed at a lack of
        supply-side substitutability as they consider that the production and supply of LEDs,
        laser diodes, couplers, light sensors and image sensors entail significantly different
        features, expertise and costs.28
(36)    Since the Transaction does not raise competition concerns irrespectively of the exact
        product market definition, the question of whether LEDs, laser diodes, couplers,
        light sensors and image sensors are considered separate product markets within
        optical semiconductors can be left open. Nonetheless, as the Parties’ activities
        overlap in the development and/or the manufacture and supply of certain light
        sensors and laser diodes, Sections 5.4.1 and 5.4.2 assess in more detail the plausible
        product market definitions for the specific overlapping products.
(37)    In addition, Sections 5.4.3 and 5.4.4 also discuss two plausible product markets
        where the Transaction leads to a vertical relationship between the Parties, i.e. optical
        packaging and assembly services and LEDs.
5.4.1. Light sensors
(38)    Light sensors can cover a wide range of applications and end-uses. Internal
        documents of the Parties and industry reports suggest that light sensors for different
24  Replies to questionnaire Q1 – Automotive customers, question 7; questionnaire Q2 – Customers in
    consumer electronics, question 7; questionnaire Q3 – Competitors, question 7.
25  Reply to questionnaire Q3 – Competitors, question 8.1.
26  Replies to questionnaire Q1 – Automotive customers, question 8; questionnaire Q2 – Customers in
    consumer electronics, question 8; questionnaire Q3 – Competitors, question 9.
27  Replies to questionnaire Q1 – Automotive customers, question 8.1.
28  Replies to questionnaire Q3 – Competitors, questions 9-10.
                                                         9
 ---pagebreak---         applications such as automotive or consumer electronics present distinct
        characteristics in terms of technical specifications, prices and access to customers.29
(39)    Most of the Parties’ customers that expressed a view during the market investigation
        suggested that, from a demand-side perspective, light sensors for automotive
        applications and those for consumer electronics cannot be substituted by one another
        and therefore they belong to separate product markets.30 From a supply-side
        perspective, most of the competitors that replied to this question, indicated that the
        production and supply of light sensors for consumer electronics and other light
        sensors (e.g. for the automotive industry) entail significantly different features,
        expertise and costs.31
(40)    Within light sensors, the Parties’ activities overlap in the supply of biosensors for
        consumer electronics32 and mobile 3D (VCSEL-based) flood illuminators. 33
(41)    Biosensors are light sensing solutions used to monitor and measure heart rate and
        blood pressure. Conventional blood pressure measurement can be invasive or non-
        invasive. While only a licensed medic can apply invasive methods, non-invasive
        methods can be used directly by the patient. As such, the non-invasive method
        allows consumers to monitor and measure heart rate and blood pressure through a
        biosensing solution for private purposes, as for example during sportive activities.
(42)    Devices that include biosensors in the mobile and consumer segment today are
        (i) wristbands, (ii) smart watches, and (iii) mobile phones.
(43)    Biosensing can be achieved with different solutions. Typical solutions consist of a
        light-emitting device (LED or laser diode), a (light-receiving) photodiode and an
        application-specific IC or an analogue front-end IC that powers the light source and
        translates the photodiode’s signal into sensor data, which is then shared with the
        application processor of the device.
(44)    According to the Notifying Party, the Parties currently do not compete directly for
        specific biosensing designs or technologies, as their product offerings for such
        solutions are complementary. [Parties’ product offerings and customers]. Therefore,
        the Parties’ product offerings would be complementary.34
(45)    The results of the market investigation are not conclusive as to whether customers
        and competitors consider that biosensors for consumer electronics constitute a
29 See for example : Form CO, Annex 02 “Appendix 001_ID_LL_0078”, slide 83; Form CO, Annex 10 “Sec
   5.4_Appendix 001_ID_LL_0007”, slide 20; Form CO, Annex_21 “Yole IR LEDs and Laser Diodes
   Technology Industry 2018_ID_LL_0112”, slides 73-85.
30 Replies to questionnaire Q1 – Automotive customers, question 9; questionnaire Q2 – Customers in
   consumer electronics, question 9. The two automotive customers that disagree explained that (i) one uses
   a less granular segmentation and (ii) the other considers that many light sensor technologies are first
   developed and used in the non-automotive sector and then find their way into automotive applications.
31 Replies to questionnaire Q3 – Competitors, question 12.
32 A biosensor includes a light-emitting device but ultimately serves to read light-based data. Therefore, for
   the purposes of this decision, it is considered a light sensor.
33 A 3D flood illuminator is part of the 3D sensing system used in some smartphones. It includes a laser
   diode but ultimately serves to read the pattern in front or behind of the phone. Therefore, for the purposes
   of this decision, it is considered a light sensor.
34 Form CO, paragraphs 298-300.
                                                            10
 ---pagebreak---         product market which is separate from other biosensors and whether they consider
        that biosensors for consumer electronics based on different technologies (discrete
        components versus ICs) belong to separate product markets.35 However, since the
        Transaction does neither raise competition concerns in the supply of biosensors for
        consumer electronics, where the activities of the Parties overlap, nor in the
        narrowest-plausible markets based on different technologies, where the activities of
        the Parties do not overlap, it can be left open whether these products are part of a
        wider market for light sensors.
(46)    3D flood illuminators for mobile applications are modules used in certain
        smartphones for the purpose of “sensing” real world objects through a three-
        dimensional reconstruction. A light (proximity) sensor detects the relevant object
        (e.g. a face) and switches the 3D flood illuminator on, which subsequently shines
        infrared light using a (VCSEL) laser diode. The 3D flood illuminator is itself part of
        the 3D sensing system present in certain smartphones.
Figure 6 Example of 3D sensing system
Source: Form CO, Figure 28.
(47)    A 3D flood illuminator (integrated in a proper 3D sensing system) placed at the front
        side of a smart phone would be typically used for functionalities such as face unlock,
        morphed emojis or gesture control.36 When the 3D flood illuminator and its system
        are placed at the back face of the mobile, they would typically provide
        functionalities as for example camera enhancement or augmented/virtual reality.
(48)    The results of the market investigation are not conclusive as to whether customers
        and competitors consider that mobile 3D flood illuminators constitute a separate
        product market or if they are part of a wider product market for light sensors from
        demand- and supply-side perspectives.37 However, since the Transaction does not
        raise competition concerns in the narrowest-plausible market for 3D flood
        illuminators for mobile applications, it can be left open whether these products are
        part of a wider market for light sensors.
35  Replies to questionnaire Q2 – Customers in consumer electronics, questions 10 and 12 and questionnaire
    Q3 – Competitors, questions 13, 17 and 18.
36 Front-facing mobile 3D sensing systems started with the introduction by Apple of facial recognition in
    2017 with a structured light solution for its iPhone Face ID-technology. Nowadays, all major smart phone
    manufacturers have at least one smart phone model that includes front-facing mobile 3D sensing.
37 Replies to questionnaire Q2 – Customers in consumer electronics, questions 10 and 12 and questionnaire
    Q3 – Competitors, questions 13, 17 and 18.
                                                           11
 ---pagebreak--- (49)    In conclusion, the market investigation suggests that light sensors likely belong to a
        product market that is separate from other optical semiconductors. Moreover, light
        sensors developed and sold for different end-uses (e.g. consumer electronics,
        automotive, etc.) appear to have very limited demand- and supply- side
        substitutability, and therefore they likely belong to separate product markets. Further
        segmentations by functionality, e.g. biosensors for consumer electronics and mobile
        3D flood illuminators, would be possible in principle, but the market investigation
        did not provide for a clear indication in this respect. Ultimately, the definition of the
        relevant product market for the assessment of light sensors can be left open as the
        Transaction does not lead to any competition concerns irrespective of whether light
        sensors are considered a distinct product market or a part of a wider market for
        optical semiconductors, or whether biosensors for consumer electronics (and
        segmentations by technology therein) or mobile 3D flood illuminators are considered
        as separate product markets.38
(50)    Accordingly, since the Parties’ activities overlap in biosensors for consumer
        electronics and mobile 3D (VCSEL-based) flood illuminators, the competitive
        assessment in Section 7.2 deals with for optical semiconductors overall, light sensors
        overall, biosensors for consumer electronics and mobile 3D (VCSEL-based) flood
        illuminators.
5.4.2. Laser diodes
(51)    Laser diodes are light-emitting devices used in many different devices (including
        light sensors) and applications, including for instance the automotive and consumer
        electronics, for which the activities of the Parties overlap. Laser diodes include
        VCSEL, EEL and other technologies.
(52)    Most of the Parties’ customers that expressed a view during the market investigation
        suggested that, from a demand-side perspective, laser diodes for automotive
        applications and those for consumer electronics cannot be substituted by one another
        and therefore they belong to separate product markets.39 The results of the market
        investigation are however not conclusive as to whether, from a supply-side
        perspective, the production and supply of laser diodes for automotive applications
        and those for consumer electronics entail significantly different features, expertise
        and costs.40
(53)    Regarding the supply of laser diodes, the Parties’ current overlapping activities are
        very limited and relate solely to VCSEL for different final applications.41 Within
        VCSEL, [information about the Parties’ business strategy]. For this reason, and in
        view of the importance of this fast evolving technology, this section discusses the
        product market definition for laser diodes (VCSEL, EEL) for LiDAR.
38  The segmentation by technology used within biosensors is not relevant for the assessment of the
    Transaction as the activities of the Parties do not overlap in the different technologies. Therefore, this
    potential segmentation will not be further addressed herein.
39 Replies to questionnaire Q1 – Automotive customers, question 11 and questionnaire Q2 – Customers in
    consumer electronics, question 13.
40 Replies to questionnaire Q3 – Competitors, question 21.
41 Where in 2019 OSRAM generated global sales of c. EUR […] and AMS generated global sales of
    EUR […].
                                                          12
 ---pagebreak--- (54)    LiDAR is a technology that uses light in the form of a pulsed laser for measuring
        variable distances. In the automotive sector, LiDAR has started to be developed
        since 2017 for Advanced Driver Assistance Systems (‘ADAS’) in vehicles such as
        emergency braking, pedestrian detection and collision avoidance. LiDAR is one out
        of different (competing) sensing systems for ADAS, which will become relevant in
        autonomous driving in the mid- to longer-term future.
(55)    Overall, the development of ADAS can be segmented into five main phases, starting
        with manual driving (level 0), where the driver does everything and up to full
        automation (level 5) where a driver is no longer needed. Between these two points,
        different development levels exist which require different functionalities to allow for
        the automation of interim steps, such as speed limit observation, autonomous
        highway driving, etc. LiDAR solutions become relevant from ADAS level 3
        upwards.42
(56)    The key components of LiDAR systems are the laser and the receiver. Regarding the
        laser component, two main types of laser diodes can be used for its manufacturing,
        namely EEL, where the laser light propagates in a direction along the wafer surface
        of the semiconductor chip and is reflected or coupled out at a cleaved edge; and
        VCSEL, where the light propagates in the direction perpendicular to the
        semiconductor wafer surface.
(57)    Generally, EELs are more powerful and therefore can travel greater distances,
        whereas VCSELs have a very narrow laser beam that enables very accurately
        directed sensing but are much less powerful and therefore cannot cover long
        distances.
(58)    [Information about the Parties’ business strategy].
(59)    The results of the market investigation are not conclusive as to whether market
        participants consider that, from a demand-side perspective, EELs and VCSELs (for
        LiDAR systems) belong to separate product markets.43 One competitor indicated that
        ‘EEL and VCSELs for Lidar have similar technical specifications, applications and
        pricing’.44 However, one customer indicated that ‘EEL and VCSEL have different
        geometry, temperature behaviour and power’.45 Another customer explained that
        ‘[EELs] provide a much higher power level per aperture (…) whereas VCSEL can
        provide a much better addressability of multiple single apertures’.46 From a supply-
        side perspective, the results of the market investigation are not conclusive either as
        to whether the production and supply of VCSELs and EELs entail significantly
        different features, expertise and costs so that VCSELs and EELs belong to different
        product markets.47
42 In level 3 the vehicle performs longitudinal and lateral driving tasks, recognizes its limits ad handles
   emergency situation, however the vehicle may ask the driver to take over with sufficient time margin.
43 Replies to questionnaire Q1 – Automotive customers, question 12 and questionnaire Q3 – Competitors,
   question 22.
44 Reply to questionnaire Q3 – Competitors, question 22.1.
45 Reply to questionnaire Q1 – Automotive customers, question 12.1.
46 Reply to questionnaire Q1 – Automotive customers, question 12.1.
47 Reply to questionnaire Q3 – Competitors, question 23.
                                                       13
 ---pagebreak--- (60)    In conclusion, the market investigation suggests that laser diodes likely belong to a
        product market that is separate from other optical semiconductors. A further
        distinction by technology, i.e. VCSEL and EEL, also appears to be widely supported
        by customers and suppliers due to the limited demand-side and supply-side
        substitutability. Moreover, laser diodes developed and sold for different end-uses
        (e.g. consumer electronics, automotive, etc.) appear to have very limited demand-
        side substitutability, although from a supply-side perspective, it is not clear whether
        they belong to separate product markets. A narrower segmentation for laser diodes
        for LiDAR and further segmentations thereof (VCSEL versus EEL) would be
        possible in principle, but the market investigation did not provide for a clear
        indication in this respect. However, since sales of VCSEL for LiDAR are very
        limited and expected to remain so at least for the next 5 years, a distinction between
        VCSEL and EEL for LiDAR is not deemed necessary for the purpose of the present
        decision. Ultimately, since the Transaction does not raise competition concerns in
        any of the market definitions for laser diodes set out above, the precise product
        market definition can be left open.
(61)    Accordingly, since the Parties’ activities overlap in VCSEL for consumer
        electronics, and potentially in LiDAR, the competitive assessment in Section 7.2 is
        conducted for optical semiconductors overall, laser diodes, VCSEL, and laser diodes
        for LiDAR.
5.4.3. Assembly and packaging services for sensor solutions
(62)    Manufacturers of sensor solutions assemble and pack single components to produce
        the final product. For this, they can use their own and/or other suppliers’
        components. During the market investigation, competitors were asked whether the
        provision of micro-packaging and assembly services for light sensor solutions and
        other optical assembly and packaging services entail significantly different features,
        expertise and costs, as suggested by the Notifying Party. However, whereas it would
        appear that there is some common know-how, the replies obtained were very limited
        and not conclusive.48 Ultimately, the definition of the relevant product market for the
        provision of assembly and packaging services for sensor solutions for mobile phones
        can be left open, as the Transaction does not raise competition concerns
        irrespectively of the product market definition.
5.4.4. LEDs
(63)    An LED is a small single light-emitting diode that comprises a semiconductor chip
        and its housing. It emits light when electric current passes through it. The colour of
        the light is determined by the energy required for electrons to cross the band gap of
        the semiconductor, ranging from violet to red and white.
(64)    The market investigation suggests that LEDs likely belong to a product market that
        is separate from other optical semiconductors.49 Moreover, the supply of LEDs can
        be further segmented between (a) visible and invisible LEDs (the latter potentially
48  Reply to questionnaire Q3 – Competitors, question 24.
49  Replies to questionnaire Q1 – Automotive customers, question 8; questionnaire Q2 – Customers in
    consumer electronics, question 8; questionnaire Q3 – Competitors, questions 9-10.
                                                         14
 ---pagebreak---        sub-divided by IR and UV); (b) automotive and general lightning; (c) by light
       colour; and (d) by power output.
(65)   Ultimately, since the Transaction does not raise competition concerns in the
       narrowest-plausible market within LEDs, it can be left open if these products are part
       of a wider market for LEDs.
5.4.5. Conclusion on product market definition
(66)   The Commission concludes that ICs, discretes, optical semiconductors, and sensors
       and actuators are part of separate product markets. However, as the Transaction does
       not raise competition concerns irrespectively of the exact product market definition,
       the question of whether light sensors, laser diodes and LEDs constitute separate
       product markets within optical semiconductors can be left open. Likewise, whether
       further segmentations of the product categories where the activities of the Parties
       overlap or give rise to a vertical relationship (biosensors for consumer electronics,
       mobile 3D flood illuminators, VCSELs for LiDAR, visible LEDs, invisible IR
       LEDs, invisible UV LEDs, automotive LEDs, general lighting LEDs, LEDs of
       different colours, LEDs of different outputs) are appropriate can be left open.
(67)   Moreover, the definition of the relevant product market for the provision of assembly
       and packaging services for sensor solutions can be left open, as the Transaction does
       not raise competition concerns irrespectively of the product market definition.
6.     GEOGRAPHIC MARKET DEFINITION
6.1.   The Notifying Party’s view
(68)   The Notifying Party considers that the demand and supply of optical
       semiconductors, including potentially narrower product markets, are worldwide in
       scope.50
(69)   According to the Notifying Party, the investments required for research and
       development, as well as for manufacturing, requires sales to be very large, and
       therefore global in nature. Manufacturers of optical semiconductors typically
       manufacture their products in a few manufacturing plants (often located in Southeast
       Asia), and ship them at global level. This practice is facilitated by well-accepted
       international technical standards, low transportation costs and the absence of
       significant import taxes and duties. In support of its claim for a global geographic
       scope, the Notifying Party observes that all the major market reports collect and
       report global market data. In addition, the Notifying Party submits that the Parties’
       sales strategies [information about the Parties’ business strategy].51
6.2.   The Commission’s precedents
(70)   In past decisions, the Commission has consistently considered the geographic scope
       of semiconductor markets, including optical semiconductors, to be at least EEA-
       wide, if not worldwide in scope.
50  Form CO, paragraph 146.
51  Form CO, paragraph 147.
                                                 15
 ---pagebreak--- (71)    In M.2820 – STMicroelectronics/Alcatel Microelectronics, the Commission
        considered that the market for semiconductors in general is worldwide in scope.
(72)    In M.2439 – Hitachi/STMicroelectronics/SuperH/JV, M.4751 – STM/Intel/JV, and
        M.5173 – STM/NXP/JV the Commission acknowledged that the market for
        semiconductors in general has the connotation of worldwide market, but it ultimately
        left open the question as if it should be considered EEA-wide or worldwide in scope.
(73)    In M.7585 – NXP Semiconductors/Freescale Semiconductor, where optical
        semiconductors are explicitly mentioned as a particular type of semiconductors, the
        Commission concluded that that there are strong indications in support of a
        worldwide market geographic scope, but it ultimately left the precise geographic
        market definition open.
(74)    In M.7686 – Avago/Broadcom, the Commission considered that the market for
        semiconductors, which optical semiconductors are considered part of, is worldwide
        in scope and assessed potential competition concerns accordingly.
6.3.    The Commission’s assessment
(75)    The market investigation confirms the Commission’s findings in previous cases that
        the market for optical semiconductors is at least EEA-wide in scope, with important
        global characteristics.
(76)    A large majority of the Parties’ customers and competitors that replied to the market
        investigation considers that competitive conditions for light sensors (prices, delivery
        time, active suppliers, etc.) are generally the same on a worldwide level.52 Most
        customers indicated that the selection of their suppliers of light sensors is typically
        independent of their location.53 In addition, most competitors indicated that their
        customers of light sensors are typically located in regions of the world that might be
        different from the region where the sensors are manufactured.54 Moreover, most
        customers and competitors that replied to the market investigation consider that
        transport cost has little or no impact on imports and exports of light sensors as they
        can be cost-effectively transported from/to different regions of the world.55
(77)    Similarly, a large majority of the Parties’ customers and competitors that replied to
        the market investigation consider that competitive conditions for laser diodes (prices,
        delivery time, active suppliers, etc.) are generally the same on a worldwide level.56
        Most customers indicated that the selection of their suppliers of laser diodes is
        typically independent of their location.57 In addition, most competitors indicated that
52  Replies to questionnaire Q1 – Automotive customers, question 13, questionnaire Q2 – Customers    in
    consumer electronics, question 14 and questionnaire Q3 – Competitors, question 25.
53  Replies to questionnaire Q1 – Automotive customers, question 14 and questionnaire Q2 – Customers in
    consumer electronics, question 15.
54  Reply to questionnaire Q3 – Competitors, question 26.
55  Replies to questionnaire Q1 – Automotive customers, question 15, questionnaire Q2 – Customers    in
    consumer electronics, question 16 and questionnaire Q3 – Competitors, question 27.
56  Replies to questionnaire Q1 – Automotive customers, question 17, questionnaire Q2 – Customers    in
    consumer electronics, question 18 and questionnaire Q3 – Competitors, question 29.
57  Replies to questionnaire Q1 – Automotive customers, question 18 and questionnaire Q2 – Customers in
    consumer electronics, question 19.
                                                        16
 ---pagebreak---         their customers of laser diodes are typically located in regions of the world that
        might be different from the region where the sensors are manufactured.58 Moreover,
        most customers and competitors that replied to the market investigation consider that
        transport cost has little or no impact on imports and exports of laser diodes as they
        can be cost-effectively transported from/to different regions of the world.59
(78)    Therefore, consistently with precedent Commission’s cases, and supported by the
        market investigation in the present case, the geographic scope of the market for
        optical semiconductors and of its plausible narrower segments appear to have
        important worldwide connotations and therefore can be considered at least EEA-
        wide in scope and most likely worldwide. However, the precise scope can be left
        open because the Transaction does not raise competition concerns irrespectively of
        the precise geographic market definition.
7.      COMPETITIVE ASSESSMENT
7.1.    Legal framework of the assessment
(79)    Under Article 2(2) and (3) of the Merger Regulation, the Commission must assess
        whether a proposed concentration would significantly impede effective competition
        in the internal market or in a substantial part of it, in particular through the creation
        or strengthening of a dominant position. In this respect, a merger can entail
        horizontal and/or non-horizontal effects.
(80)    Horizontal effects are those deriving from a concentration where the undertakings
        concerned are actual or potential competitors of each other in one or more of the
        relevant markets concerned. The Commission appraises horizontal effects in
        accordance with the Horizontal Merger Guidelines.60
(81)    According to paragraph 26 of the Horizontal Merger Guidelines, a number of factors
        need to be assessed, and a non-exhaustive list of relevant factors that might lead to a
        significant impediment to effective competitions are explained in paragraphs 27-38.
        Accordingly, Sections 7.2.1 to 7.2.6 of the present decision assess, respectively,
        market shares and HHI, closeness of competition between the Parties, important
        dynamics of the markets where the Parties’ activities overlap, the alternatives to the
        Parties and barriers to entry, buyer power of the Parties’ customers, and the impact
        that the main market participants expect from the Transaction. Based on all these
        factors considered together, conclusions on horizontal non-coordinated effects are
        drawn in Section 7.2.7.
58  Reply to questionnaire Q3 – Competitors, question 30.
59  Replies to questionnaire Q1 – Automotive customers, question 19, questionnaire Q2 – Customers in
    consumer electronics, question 20 and questionnaire Q3 – Competitors, question 31.
60 Guidelines on the assessment of horizontal mergers under the Council Regulation on the control of
    concentrations between undertakings (‘Horizontal Merger Guidelines’), OJ C 31, 05.02.2014.
                                                        17
 ---pagebreak--- (82)    As regards non-horizontal effects, the Commission Non-Horizontal Merger
        Guidelines61 distinguish between the effects of vertical mergers, which involve
        companies operating at different levels of the supply chain, and of conglomerate
        mergers, which involve companies that are active in closely related markets.
(83)    According to paragraph 23 of the Non-Horizontal Merger Guidelines, non-horizontal
        mergers pose no threat to effective competition unless the merged entity has a
        significant degree of market power in at least one of the markets concerned.
        Section 7.3 assesses whether post-Transaction the merged entity would have
        sufficient market power to raise vertical or conglomerate competition concerns.
(84)    The Horizontal Merger Guidelines and the Non-Horizontal Merger Guidelines
        distinguish between two main ways in which mergers may significantly impede
        competition, namely non-coordinated or coordinated effects. The present Section 7
        assesses successively whether the Transaction is likely to raise horizontal, vertical or
        conglomerate non-coordinated effects on the markets examined in Sections 5 and 6.
7.2.    Horizontal non-coordinated effects
7.2.1. The Parties have low to moderate combined market shares under any plausible
        market definition
(85)    The Notifying Party provided market shares estimates for both EEA-wide and global
        geographic markets in the supply of the overlapping products. Since most data
        available from third parties or from the Parties’ internal intelligence concern global
        sales, estimates of EEA market shares are limited to those of the Parties and do not
        include their competitors.
(86)    With respect to the supply of optical semiconductors overall, Table 1 below reports
        the Notifying Party’s estimates of the Parties’ and their competitors’ global market
        shares for the years 2017-2019. The table shows that for the period 2017-2019, the
        Parties’ combined market share was well below 20%, and specifically, it was
        [5-10]% in 2017, [5-10]% in 2018 and [5-10]% in 2019. The table also shows that
        post-Transaction, the merged entity would continue to compete with a number of
        global competitors. These global competitors include, for example, Sony
        Semiconductors, which in 2019 had a global market share of [20-30]% in the supply
        of optical semiconductors, Samsung Electronics (with a market share of [5-10]%
        in 2019), Nichia (with a market share of [5-10]% in 2019), and Broadcom (with a
        market share of [5-10]% in 2019).
61  Guidelines on the assessment of non-horizontal mergers under the Council Regulation on the control of
    concentrations between undertakings (‘Non-Horizontal Merger Guidelines’) (2008/C 265/07).
                                                      18
 ---pagebreak--- Table 1 Global market shares for optical semiconductors for the years 2017-2019
                                           2017                2018                2019
                                   EUR       Share      EUR      Share      EUR m       Share
                                   m                    m
         AMS                         […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         OSRAM                       […]      [5-10]%     […]     [5-10]%      […]        [0-5]%
         Parties’ combined           […]     [5-10]%      […]     [5-10]%      […]      [5-10]%
         Sony Semiconductor                                                             [20-30]%
                                     […]     [10-20]%     […]    [10-20]%      […]
         Solutions Corporation
         Samsung Electronics         […]      [5-10]%     […]     [5-10]%      […]       [5-10]%
         Nichia                      […]      [5-10]%     […]     [5-10]%      […]       [5-10]%
         Broadcom Limited            […]      [5-10]%     […]      [0-5]%      […]       [5-10]%
         Omnivision                  […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         Lumileds                    […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         Seoul Semiconductor         […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         MLS                         […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         STMicroelectronics          […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         ON Semiconductor            […]       [0-5]%     […]      [0-5]%      […]        [0-5]%
         Others                      […]     [30-40]%     […]    [30-40]%      […]      [30-40]%
         Total                       […]        100%      […]       100%       […]         100%
Source: Form CO, table 9.
(87)    In a hypothetical EEA-wide market, the Notifying Party estimates that AMS’ market
        share for optical semiconductors in 2019 would remain [5-10]%, while OSRAM’s
        market share would be [20-30]%,62 leading to a combined market share below
        [30-40] %. As explained in paragraph (85), the Notifying Party [information about
        the Parties’ business strategy].
(88)    The Notifying Party provided market shares for the supply of optical semiconductors
        according to its proposed distinction of the intended field of use, namely
        communications IR optical semiconductors, and commercial and consumer optical
        semiconductors. Since the activities of the Parties do not overlap in communications
        IR optical semiconductors, the Notifying Party provided only market shares
        concerning commercial and consumer optical semiconductors, which, as shown
        in Table 2, do not materially differ from those concerning optical semiconductors
        overall.
(89)    As the Notifying Party explains, total sales of commercial and consumer optical
        semiconductors (EUR […] in 2019) are very similar to those of optical semi-
        conductors overall (EUR […] in 2019) and the Parties are only active in relation to
        commercial and consumer optical semiconductors (and therefore their sales in
        commercial and consumer optical semiconductors also represent their sales in optical
62  The Notifying Party estimates OSRAM’s sales of semiconductor at EUR […] for LED, EUR […] for light
    sensors and EUR […] for laser diodes, which sum-up to EUR […]. As the EEA market size is estimated at
    EUR […], OSRAM’s market share would amount to [20-30]%.
                                                      19
 ---pagebreak---         semiconductors overall). This explains why market shares for commercial and
        consumer optical semiconductors do not exhibit material differences with those for
        optical semiconductors overall.
Table 2 Global market shares for commercial and consumer optical semiconductors
2017-2019
                                             2017                 2018               2019
                                      EUR                   EUR                EUR
                                                  Share                Share               Share
                                        m                     m                  m
             AMS                       […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             OSRAM                     […]      [5-10]%     […]      [5-10]%    […]       [0-5]%
             Parties’ combined         […]     [5-10]%      […]      [5-10]%    […]     [5-10]%
             Sony Semiconductor                                                         [20-30]%
                                       […]     [10-20]%     […]     [10-20]%    […]
             Solutions Corporation
             Samsung Electronics       […]      [5-10]%     […]      [5-10]%    […]      [5-10]%
             Nichia                    […]      [5-10]%     […]      [5-10]%    […]      [5-10]%
             Broadcom Limited          […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             Omnivision                […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             Lumileds                  […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             Seoul Semiconductor       […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             MLS                       […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             STMicroelectronics        […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             ON Semiconductor          […]       [0-5]%     […]       [0-5]%    […]       [0-5]%
             Others                    […]     [30-40]%     […]     [30-40]%    […]     [30-40]%
             Total                     […]        100%      […]        100%     […]        100%
Source: Form CO, table 10
(90)    With respect to a potential EEA-wide market definition, the Notifying Party’s
        estimate of the market shares for commercial and consumer optical semiconductors
        are the same as those for optical semiconductors overall, i.e. [5-10]%, for AMS and
        about [20-30]% for OSRAM, which lead to a combined market shares
        below [30-40]%.63
(91)    Due to the immaterial difference in sales between optical semiconductors overall and
        commercial and consumer optical semiconductors, this distinction is not further
        considered in the competitive assessment.
(92)    With respect to light sensors, Table 3 reports the Notifying Party’s estimates of the
        Parties’ and their competitors’ global market shares for the years 2017-2019. Since
        the Notifying Party was not able to estimate the sales of a number of its competitors
        for the year 2019, market shares of these competitors are estimated in ranges.
63  Assuming that also in the EEA, the sales of communications IR optical semiconductors are very small
    compared to the sales of commercial and consumer optical semiconductors.
                                                        20
 ---pagebreak--- (93)    The Parties’ combined market share for the supply of light sensors in 2019 is
        estimated at [30-40]%, with an increment brought by OSRAM of [0-5]%. While the
        exact market share of the merged entity’s main competitor (STMicroelectronics)
        in 2019 cannot be estimated, the Notifying Party provides a range of 30-40%, which
        suggests that the merged entity would be of a similar size of its largest competitor.
        Table 3 also shows that there are a number of competitors of the same size of
        OSRAM or even larger active in the market for light sensors.
Table 3 Global market shares in light sensors for the years 2017-2019
                                         2017                   2018              2019
                                 EUR m        Share     EUR m          Share EUR m    Share
         AMS                       […]     [20-30]%       […]       [20-30]%  […]   [20-30]%
         OSRAM                     […]       [0-5]%       […]         [0-5]%  […]    [0-5]%
         Parties’ combined         […]     [20-30]%       […]      [20-30]%   […]   [30-40]%
         STMicroelectronics        […]     [30-40]%       […]       [30-40]%  N/A    30-40%
         Maxim                     […]      [5-10]%       […]        [5-10]%  N/A     5-10%
         Broadcom (Avago)          […]      [5-10]%       […]         [0-5]%  N/A      0-5%
         Lite-On                   […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         Sensortek (Sitronix)      […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         Capella/Vishay            […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         TXC                       […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         Elan                      […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         Sharp                     […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         Rohm                      […]       [0-5]%       […]         [0-5]%  N/A      0-5%
         Others                    […]     [10-20]%       […]        [5-10]%  N/A     5-10%
         Total                     […]        100%        […]          100%   […]     100%
Source: Form CO, table 12.
(94)    Considering the market shares of the year 2018, which have been estimated in a
        more precise way, and not as ranges, the HHI before and after the Transaction are,
        respectively, […] and […], and therefore the HHI variation after the Transaction
        (also referred to as the delta) is 130. According the Horizontal Merger Guidelines,
        “[t]he Commission is unlikely to identify horizontal competition concerns in […] a
        merger with a post-merger HHI above 2 000 and a delta below 150”.64
(95)    With respect to a potential EEA-wide scope of the market for light sensors, in 2019
        AMS generated about EUR […] from the sales of light sensors in the EEA, which is
        estimated to represent a market share below 10%.65 In the same year, OSRAM’s
        sales of light sensors in the EEA were EUR […], corresponding to a market share
        [5-10]%.66 Therefore, the Parties’ combined market share for light sensors in the
        EEA is estimated to be below 20%.
(96)    Within light sensors, the Notifying Party provided also market shares concerning the
        supply of biosensors for consumer electronics and mobile 3D flood illuminators.
64  Horizontal Merger Guidelines, paragraph 20.
65  Form CO, paragraph 168 letter a.
66 The Parties’ reply to request for information RFI 2, question 4.
                                                         21
 ---pagebreak--- (97)  With respect to biosensors, the Parties overlap only regarding consumer electronics.
      [Information about the Parties’ business strategy].67
(98)  The Parties’ combined global market share in the supply of biosensors for
      consumer electronics in 2020 is estimated to be [30-40]% (AMS: [0-5]% and
      OSRAM [30-40]%) with an estimated total market volume of EUR […]. As the
      Notifying Party was not able to provide market shares for biosensors only, the above
      figures also reflect sales of different biosensor components, whereas the market size
      refers to biosensors for consumer electronics excluding components. Therefore the
      Parties’ sales appear to be to a large extent overestimated.
(99)  When the Parties’ sales of biosensor components are considered, most of the merged
      entity’s sales would be from OSRAM’s sales of [information about the Parties’
      sales]. In contrast, AMS’ sales [information about the Parties’ sales], and represent
      only [0-5]% of the overall biosensor for consumer electronics sales in 2020 in value.
      Therefore, at worst, the Transaction would lead to a small increase of the market
      shares.
(100) After the Transaction, Maxim would remain the largest competitor of the merged
      entity in biosensors for consumer electronics with an estimated global market share
      of [30-40]%. The second largest competitor would be Broadcom with [10-20]%
      market share. Other competitors with smaller market shares, such as ADI and TI
      (each with market shares estimated at [5-10]%) would also compete with the merged
      entity in the supply of biosensors for consumer electronics.
(101) As explained in Section 7.2.3, the markets for optical semiconductors, and in
      particular the one for biosensors, are growing considerably (the market size of
      biosensors for consumer electronics is expected to increase from EUR […] in 2020
      to EUR […] by 2025) and is fast evolving thus market shares are expected to change
      rapidly from year to year. Therefore, in order to assess if the market shares of the
      Parties are expected to grow in the future, the Notifying Party provided forecasts for
      the year 2025. The Notifying Party estimates that by 2025 the merged entity’s
      market share would decrease to [20-30]%, at par with Maxim. In addition, by 2025
      TI is expected to grow substantially, i.e. to [10-20]%, thus increasing its competitive
      constrain to the merged entity.
(102) According to the Notifying Party, the changes in market shares from 2020 to 2025
      will occur due more competition in discrete photodiodes ([information about the
      Parties’ business strategy]), and a market preference for integrated solutions
      ([information about the Parties’ business strategy]).
(103) With respect to 3D flood illuminators for mobile applications, [information about
      the Parties’ business strategy], therefore only global market shares are provided. Due
      to the lack of industry reports regarding in particular 3D flood illuminators for
      mobile applications, market shares estimates are prepared by the Notifying Party
      based on the best of its knowledge. The Notifying Party considers that in the years
      2019 and 2020 no appreciable changes occurred in terms of sales and market shares,
      and therefore its estimates for the years 2019 and 2020 are identical.
67 Form CO, paragraph 305.
                                                  22
 ---pagebreak--- (104) The Parties’ combined market share in the supply 3D flood illuminators for mobile
        applications amounts to [10-20]% globally and each of the Parties have similar
        market shares before the Transaction (i.e. about [5-10]%). In addition, after the
        Transaction, the merged entity’s market share will be well smaller than that of its
        largest competitor, Trumpf/Philips, which has a market share of [60-70]%.68
(105) With respect to laser diodes, Table 4 reports the Notifying Party’s estimates of the
        Parties’ and its competitors’ worldwide market shares for the years 2017-2019. The
        Parties’ combined market share in 2019 is [10-20]% with an increment of [0-5]%.
        After the Transaction, the merged entity’s largest competitor would remain Nichia
        with sales about three times larger than the merged entity’s. Lumentum, with
        [10-20]% market shares worldwide would remain the second largest suppliers of
        laser diodes, while the merged entity would have sales of similar order of magnitude
        of other competitors such as Mitsubishi, Panasonic Corporation and Sony
        Semiconductor Solutions.
Table 4 Global market shares for laser diodes for the years 2017-2019
                                           2017                2018            2019
                                   EUR m          Share   EUR m     Share EUR m     Share
      AMS                            […]         [0-5]%    […]     [0-5]%  […]     [0-5]%
      OSRAM                          […]       [10-20]%    […]   [10-20]%  […]   [10-20]%
      Parties’ combined              […]       [10-20]%    […]   [10-20]%  […]   [10-20]%
      Nichia                         […]       [10-20]%    […]   [20-30]%  […]   [30-40]%
      Lumentum                       […]       [10-20]%    […]   [10-20]%  […]   [10-20]%
      Mitsubishi                     […]       [10-20]%    […]   [10-20]%  […]    [5-10]%
      Panasonic Corporation          […]       [10-20]%    […]    [5-10]%  […]    [5-10]%
      Sony Semiconductor
                                     […]        [5-10]%    […]    [5-10]%  […]    [5-10]%
      Solutions
      ROHM Semiconductor             […]        [5-10]%    […]     [0-5]%  […]     [0-5]%
      Sumitomo Electric Device
                                     […]        [5-10]%    […]     [0-5]%  […]     [0-5]%
      Innovations
      Renesas Electronics
                                     […]         [0-5]%    […]     [0-5]%  […]     [0-5]%
      Corporation
      Sharp Electronics              […]         [0-5]%    […]     [0-5]%  […]     [0-5]%
      Hamamatsu Photonics            […]         [0-5]%    […]     [0-5]%  […]     [0-5]%
      Others                         […]         [0-5]%    […]     [0-5]%  […]     [0-5]%
      Total                          […]          100%     […]      100%   […]      100%
Source: Form CO, table 11
(106) With respect to a potential EEA-wide scope of the market for laser diodes, the
        Transaction would not lead to any overlap between the activities of the Parties
        [information about the Parties’ business strategy].69
(107) Within laser diodes, the Notifying Party has provided market share information for
        the supply of laser diodes for LiDAR, [information about the Parties’ business
        strategy].70 The Notifying Party estimates that [information about the Parties’
68  Form CO, table 15.
69  Form CO, paragraph 168 letter a.
70 [Information about the Parties’ business strategy].
                                                        23
 ---pagebreak---        business strategy] the combined worldwide market share of the Parties in laser
       diodes for LiDAR may reach c. [20-30]%.71 The Notifying Party expects that at least
       Hamamatsu, Excelitas, II-VI/Finisar, Lumentum, Trumpf/Philips, and Trilumina will
       be able to secure market positions that are (at least) comparable to the combined
       market position of the merged entity. In general, for laser diodes for LiDAR,
       according to the Notifying Party, future EEA market shares will be similar to global
       market shares due to the strong global position of European automotive
       manufacturers and Tier-1 suppliers.72
(108) Regarding VCSEL only, the Notifying Party estimates that in 2019 AMS will have a
       market share of [0-5]% and OSRAM of [0-5]%, the combined market share being
       [5-10]%.73 However, an industry report upon on which the Parties rely in their
       ordinary course of business,74 indicates higher market shares for AMS and
       potentially for OSRAM. Nevertheless, as explained below, the Parties’ combined
       market share would in any event remain below 30%.
(109) According to such industry report, in 2017 Princeton Optronics (now part of AMS)
       had a global market share of [5-10]%, which grew to [10-20]% in 2018 (Figure 7).
       OSRAM is not mentioned as a major supplier and therefore its market shares are not
       stated explicitly in the report. Instead, the report estimates the market share of all the
       other VCSEL at 14%. Therefore, even assuming that OSRAM accounted for a large
       part of the market share allocated to “others” suppliers, the Parties’ combined market
       share would still remain below 30%.
(110) In conclusion, the market investigation has shown that the Parties’ combined market
       share in VCSEL is below 30%.
71 Form CO, paragraph 276.
72 Form CO, paragraph 277.
73 Form CO, paragraph 196 and the Notifying Party’s reply to request for information RFI 4, question 2.
74 The Notifying Party disagrees with the approach used for estimating VCSEL market shares in this report,
   see Notifying Party’s reply to request for information RFI 4, question 2.
                                                         24
 ---pagebreak--- Figure 7 Global market shares for VCSEL for the years 2017 and 2018
Source: Form CO, Annex 23 ”Status of the Solid-State Lighting Source Industry 2019_ID_LL_0114” [A
report from Yole Développement (Yole), 2019 edition], slide 228 [emphasis added by the Commission]
7.2.2. In most of the plausible product markets, the Parties do not appear to compete
         closely
(111) The Horizontal Merger Guidelines explain that “[p]roducts may be differentiated
         within a relevant market such that some products are closer substitutes than others.
         The higher the degree of substitutability between the merging firms' products, the
         more likely it is that the merging firms will raise prices significantly”.75
(112) As explained in Section 5, the market for optical semiconductors appears to be
         highly differentiated in a number of products with specific end-uses and
         functionalities, and many of them could potentially constitute separate product
         markets. Therefore, the present section assesses if the Parties compete closely in the
         plausible markets considered in Section 5.4.
(113) As explained in Section 7.2.1, for each plausible product market definition, the
         merged entity’s market shares are either small or the increments brought about by
         the Transaction appear to be limited. This is consistent with the fact that, as shown
         below, the Parties either do not compete closely or that competitors taken together
         (but often also individually) have higher market shares than the merged entity in the
         relevant markets.
(114) First, the Parties’ products are based on technologies that are to a large extent
         complementary.
(115) As an OSRAM’s customer active in automotive explains, “OSRAM is the global
         leader and the only European supplier of LED for automotive applications [and a]
         close competitor to OSRAM is the Japanese Nichia”, whereas “AMS is strong in
75  Horizontal Merger Guidelines, paragraph 28.
                                                         25
 ---pagebreak---        sensors, including optical sensors, which are to large extent sold to Apple for
       manufacturing smartphones”.76
(116) A competitor of the Parties further explained that while it regards AMS as one of its
       main competitors in light receiving optical semiconductors (as for example light
       sensors and image sensors), it does not regard OSRAM as a strong competitor
       because it is mainly active in light emitting optical semiconductors (as for example
       LEDs): “[…] OSRAM is primarily a lighting company, with activities in proximity
       light sensors (where AMS is also present) but with a limited market position”. With
       respect to the combination of the Parties’ products, the same market participant
       explained that “[b]y acquiring OSRAM, AMS will reinforce its overall position and
       may generate synergies in segments such as, e.g., under-display solutions (i.e.,
       perfect screens for smartphones or watches) and biosensors (for applications such
       as vital signs monitoring and spectrometry)”.77
(117) For the limited products for which the activities of the Parties do overlap, there is
       also a high degree of technology complementarity.
(118) With respect to laser diodes, OSRAM realises [information about the Parties’
       revenues] with EEL laser diodes and […] with VCSEL. AMS sells [information
       about the Parties’ business strategy]. However, while competition between the
       Parties in VCSEL appears to be limited (one automotive customer stated that “[a]s
       Osram only recently stated activities on VCSEL there is only minor competition
       yet”78), from a technology point of view, the Parties’ VCSEL products appear to
       have similar technical characteristics, as some market participants recognised during
       the market investigation.79
(119) As explained in Section 5.4.2, [information about the Parties’ business strategy]. In
       this respect, one could envisage a competition between the Parties in developing new
       products leading to future competition for the sales of similar products. However,
       there is currently a high degree of uncertainty regarding the LiDAR market uptake
       and therefore it is uncertain how the market conditions will be once LiDAR products
       are deployed. Therefore, the results of the market investigation do not support a
       conclusion that the Parties will in the future compete closely for the manufacture and
       sales of LiDAR solutions in the future.
(120) With respect to light sensors, both the Parties sell biosensors for consumer
       electronics and 3D flood illuminators for mobile applications.
(121) Regarding biosensors for consumer electronics, while OSRAM provides solutions
       and components [information about the Parties’ business strategy], AMS produces
       biosensors and components [information about the Parties’ business strategy].
(122) Figure 8, which shows an AMS’ internal document produced in its ordinary course
       of business, corroborates that [information from internal documents].
76 Minutes of a call with a customer on 18 May 2020, paragraphs 7 and 9.
77 Minutes of a call with a competitor on 24 April 2020, paragraphs 21-22.
78 Replies to questionnaire Q1 – Automotive customers, question 30.1
79 See for example, Replies to questionnaire Q2 – Customers in consumer electronics, question 28.1.
                                                        26
 ---pagebreak--- Figure 8 […]
[…]
Source: Form CO, Annex 29, Appendix 003, slide 6.
(123) Second, the Parties focus on different customers: while AMS’ activities are focused
        on optical semiconductors for consumer electronics, OSRAM has a strong focus on
        automotive applications.
(124) A tier 1 supplier of automotive OEMs, which is considering AMS, among others, as
        a potential supplier of laser diodes for LiDAR, explained that the complementarity of
        the Parties in terms of customer focus would lead to a positive impact of the
        Transaction on the market. More specifically, this market participant explained that
        “[…] if AMS loses its main customer after the lifetime of its smartphones
        agreements (i.e. this can happen every 1-2 years), significant financial troubles
        might occur in the middle of the lifetime of the supply agreement for automotive
        products that the Company needs to deliver to its customers. In this respect, the
        acquisition of OSRAM by AMS would have a positive impact because AMS would be
        able to diversify its risks by relying on a larger number of customers active in
        different markets”.80
(125) [Information from internal documents].
Figure 9 […]
[…]
Source: Form CO, Appendix 014 (ID_LL_0020), slide 4 [emphasis added by the Commission]
(126) Third, the Parties appear to have a different geographic focus. In 2019, while
        OSRAM realised […] in the EEA (that is, EUR […] in the EEA, compared to a
        worldwide turnover of EUR […]), AMS realised only […]% of its turnover in the
        EEA (that is, EUR […]in the EEA, compared to a worldwide turnover of
        EUR […]).81
(127) Fourth, a majority of the market participants that expressed a view during the
        market investigation does not consider the Parties as close competitors and instead
        consider that AMS and OSRAM offer complementary or different products in terms
        of technical specifications, price, and quality. This view regards specifically: light
        sensors overall, light sensors for consumer electronics, biosensors, 3D flood
        illuminators for mobile, laser diodes overall, and laser diodes for LiDAR.82
(128) A number of market participants consider that the Parties offer similar products with
        respect to 3D flood illuminators for mobile world-facing applications. However, for
        the reasons explained in Sections 7.2.1 and 7.2.3 to 7.2.6, the Transaction does not
        raise competition concerns with respect to the 3D flood illuminators for mobile
        offered by the Parties.
80  Minutes of a call with a customer on 18 May 2020, paragraphs 10-11.
81  Form CO, table 3.
82 Replies to questionnaire Q1 – Automotive customers, question 29; Questionnaire Q2 – Customers in
    consumer electronics, question 29; and Questionnaire Q3 – Competitors, question 37.
                                                        27
 ---pagebreak--- (129) Therefore, the Parties cannot be regarded as close competitors neither in the overall
        market for optical semiconductors nor in most plausible narrower product markets,
        the possible exception being in VCSEL and 3D floor illuminators, for which, to
        some extent, the Parties appear to compete relatively closely.83 However,
        notwithstanding this competition between the Parties, the Transaction does not raise
        competition concerns for the reasons explained in Sections 7.2.1 and 7.2.3 to 7.2.7.
7.2.3. Fast evolving products and market dynamics do not allow the Parties to acquire
        market power
(130) Optical semiconductors, and, as such, both light sensors and laser diodes are fast
        evolving products and each product released by suppliers would typically become
        obsolete within a relatively short period of time. Therefore, for the reasons explained
        below, the Parties have limited or no possibility to acquire market power vis-à-vis
        their suppliers.
(131) First, a large majority of the market participants that expressed a view during the
        market investigation does not consider that either light sensors or laser diodes are
        part of a mature market where no major changes are expected.84 On the contrary, a
        majority of the market participants either expects market changes in the near future,
        or consider products and technologies still under development and therefore the
        markets as a “future market[s]”.85
(132) A customer of the Parties, which describes itself as a “distributor of electronic
        components of all varieties, including light sensors and laser diodes from different
        manufacturers”, and therefore with a wide view of different optical semiconductor
        products, explained that “our industry is very dynamic and therefore always
        evolving. More often they drive or enable future markets”.86
(133) Another customer, which is active in the automotive sector, explained that while the
        technologies themselves are well-established, there is an “increasing automation in
        particular of transport [that] will create a large number of new applications”. The
        same market participant explains that this is the reason for the market evolution.87
(134) Another customer of the Parties, which is a supplier of automotive OEMs, further
        explains how the market deployment of laser diodes and light sensors evolved in the
        automotive sector and that important cost reductions are to be expected due to a
        large scale employment of these products: “The market of Automotive HMI [which
        uses light sensors] is slowly evolving as market has initially been established for
        premium cars later on evolving towards intermediate cars. 3D TOF (time of flight)
        and Lidar markets are nascent in Automotive and there is an important pressure
        from car manufacturers to obtain price reduction from their part suppliers […] to
        give to the latters access to large volumes. As such, the technologies have to evolve
83  Replies to questionnaire Q2 – Customers in consumer electronics, questions 29, 29.1, 30, 30.1; Replies to
    questionnaire Q3 – Competitors, question 37; Form CO, paragraphs 204 and 315.
84  Replies to questionnaire Q1 – Automotive customers, question 21; Questionnaire Q2 – Customers in
    consumer electronics, question 22; and Questionnaire Q3 – Competitors, question 34.
85  Replies to questionnaire Q1 – Automotive customers, question 21; Questionnaire Q2 – Customers in
    consumer electronics, question 22; and Questionnaire Q3 – Competitors, question 34.
86  Replies to questionnaire Q2 – Customers in consumer electronics, question 22.1.
87  Replies to questionnaire Q1 – Automotive customers, question 21.1
                                                        28
 ---pagebreak---        in order to drastically cut their development and manufacturing costs. Since light
       sensors and laser diodes are important parts of the bill of materials (BOM) of part
       suppliers […] they are subject to such cost pressure”.88
(135) Second, laser diodes and light sensors are subject to a relatively short replacement
       cycle, which ultimately drives innovation in developing new or improved products.
(136) A market participant which is globally active in manufacturing and selling consumer
       electronics explained that “[t]o the best of our knowledge and understanding, the
       average lifespan (and replacement cycle) of consumer electronics including mobile
       devices is relatively shorter than those of other products, which means that the
       replacement cycle of the light sensors incorporated in the consumer electronics is
       also relatively short. Shorter lifespan and replacement cycle seem to cause somehow
       fast evolution in the product and technology, thus making the market dynamic”.89
(137) The same market participant also explained that “[c]onsumer electronics including
       Smartphones, smart watches, and smart wristbands are quickly evolving, and this
       also leads to fast evolution in the light sensors technology, which is essential to
       support many functions provided through the consumer electronics (e.g., health,
       fitness tracking, and air quality monitoring)”.90
(138) For automotive applications, replacement cycles can be expected to be longer
       because automotive vehicle models are typically sold for about 4 to 6 years,
       compared to, for example, smartphones that can be sold for about 2-3 years.
       However, with respect to light sensors, a market participant active in the automotive
       sector explained that the innovation cycle remains relatively short. While the
       production for a given product is expected to last for 4 to 6 years plus 10 years of
       maintenance, the frequency of introduction of new light sensors to new vehicle
       models is about 2 to 3 years, and for some light sensors this can be as short as 1 to
       2 years.91
(139) Therefore, while manufacturers continue the production of light sensors for up to
       10 years, they need to continue innovate in order to introduce to the market new
       products every 1 to 3 years.
(140) Third, with respect to VCSEL in particular, which is an area where the Parties offer
       and develop similar products, the market appears to be evolving at important rate.
(141) A large majority of the automotive customers that expressed a view during the
       market investigation consider that VCSEL for LiDAR applications belong to a future
       market where products and technologies are still under development.92 One market
       participant active in consumer electronics, when commenting about the evolution of
       the various optical semiconductor markets, identified in particular VCSEL as an area
88 Replies to questionnaire Q1 – Automotive customers, question 21.1
89 Replies to questionnaire Q2 – Customers in consumer electronics, question 24.1.
90 Replies to questionnaire Q2 – Customers in consumer electronics, question 22.1.
91 Replies to questionnaire Q1 – Automotive customers, question 25.2
92 Replies to questionnaire Q1 – Automotive customers, question 21.
                                                      29
 ---pagebreak---          dynamic changes are expected and stated that “[f]or VCSELs there is most dynamics
         present, in particular for the higher power arrays”.93
(142) As Figure 7 shows, the overall market size of VCSEL more than doubled from the
         year 2017 to 2018, i.e. in this period it changed from USD […] to USD […].
         Another slide of the same document shows that the VCSEL market is expected to
         substantially grow from 2018 to 2024, more specifically the related compound
         annual grow rate (‘CAGR’) in this period is estimated to be [30-40]%.94
(143) Figure 7 also shows how volatile market shares can be from one year to the next. For
         example, Prince Optronics (which now belongs to AMS) increased its market share
         from [5-10]% to [10-20]%, while Finisar’s market shares, for example, in the same
         period went from [10-20]% to [10-20]%. A note in the same slide of the report states
         that [information from an industry report].
(144) In this respect, any of the 50 companies identified in Figure 10 might potentially
         erode market shares of the Parties in the near future.
Figure 10 VCSEL manufacturers
Source: Form CO, Annex 23 ”Yole Status of the Solid-State Lighting Source Industry 2019_ID_LL_0114” [A
report from Yole Développement (Yole), 2019], slide 227
(145) In conclusion, all the evidence in the file suggests that the fast evolving products and
         market dynamics do not allow the Parties to acquire market power in the potential
         markets for laser diodes, light sensors, biosensors for consumer electronics, mobile
         3D flood illuminators and VCSELs for LiDAR.
93  Replies to questionnaire Q2 – Customers in consumer electronics, question 26.2.
94  Form CO, Annex 23”Status of the Solid-State Lighting Source Industry 2019_ID_LL_0114” [A report
    from Yole Développement (Yole), 2019 edition], slide 220
                                                        30
 ---pagebreak--- 7.2.4. A number of capable competitors offer viable alternatives to the Parties and barriers
        to entry do not seem to prevent new market entrants
(146) A large number of market participants are active in the manufacture and supply of
        optical semiconductors. The small combined market share of the Parties, and the
        large number of competitors shown in Table 1 well illustrates that the Parties face
        strong competition from a number of optical semiconductor manufacturers.
(147) However, since not all manufacturers supply the same types of optical
        semiconductors, the present section assesses the various alternatives to the Parties,
        for the plausible product markets defined in Section 5.4.
(148) With respect to light sensors, the Parties’ competitors include STMicroelectronics
        (Switzerland, with a global market share of 30-40%), Maxim (US, with a global
        market share of 5-10%) and Broadcom (US, with a global market share of 0-5%)
        among others. With respect to biosensors for consumer electronics ADI (US, with a
        global market share of 5-10%), TI (US, with a global market share of 5-10%),
        Broadcom (with a global market share of [10-20]%), Maxim (with a global market
        share of [30-40]%) and various Asian suppliers (e.g. Pixart, Parton, and Epicore)
        compete with the Parties. With regard to 3D flood illuminators for mobile, the
        Parties compete mainly with Trumpf/Philips, which has a global market share of
        [60-70]%, and to a lesser extent with Lumentum, and II-VI/Finisar.
(149) With respect to laser diodes, the Parties’ competitors include Nichia (Japan, with a
        global market share of [30-40]%), Lumentum (US, with a global market share of
        [10-20]%), Mitsubishi Electronics Corporation (Japan, with a global market share of
        [5-10]%) and Panasonic Corporation (Japan, with a global market share of [5-10]%)
        among others. In automotive LiDAR a number of suppliers are active, including
        suppliers of laser diode such as Lumentum, Trumpf/Philips (Germany), II-VI/Finisar
        (US) and Hamamatsu (Japan), which AMS expects to be able to secure market
        positions comparable to the combined market position of AMS/OSRAM.95
(150) These suppliers exercise important competitive constraints on the Parties for the
        following reasons.
(151) First, a majority of the Parties’ competitors that expressed a view during the market
        investigation consider that the markets for optical semiconductors are either “very
        competitive” or “somehow competitive i.e. the number of suppliers or potential
        suppliers is similar to other markets which [they] consider relatively competitive”.96
(152) When asked to rate the Parties’ competitors, a large majority of the Parties’
        customers that expressed a view during the market investigation considered that for
        both laser diodes overall and light sensors overall, the Parties’ competitors either are
        numerous and strong or exist even if not all of them are as strong as the Parties.97
95  Form CO, paragraph 276.
96  Replies to questionnaire Q1 – Automotive customers, question 22 and questionnaire Q2 – Customers in
    consumer electronics, question 23.
97 Replies to questionnaire Q1 – Automotive customers, question 31 and questionnaire Q2 – Customers in
    consumer electronics, question 31.
                                                     31
 ---pagebreak--- (153) This opinion appears to be equally shared by both automotive and consumer
        electronic customers, even if for consumer electronics customers appear to be even
        less concerned than automotive customers.
(154) When the question was asked for specific products, in some cases, the perception of
        the existence of a large number of competitors decreased. This is the case for
        example, of VCSEL. While an automotive customer stated that after the Transaction
        “[t]here is still a sufficient number of potential suppliers left”,98 some customers
        consider that the number of valid suppliers is somehow limited. However, as
        explained in the next paragraphs, due to the potential market entrance of new
        suppliers this does not seem to be a concern for most customers.
(155) Second, for the limited cases where there are less suppliers available on the market,
        the Parties’ customers do not appear to be concerned about barriers to entry and are
        confident that new suppliers might enter the market.
(156) As a tier-1 automotive supplier explained, “[t]echnical requirements for a given
        system with 3D TOF or laser diodes are generally so high that a maximum of three
        suppliers can reach the required performance. Sometimes, it is even limited to one
        or two suppliers. In the case of VCSEL, a part supplier such as [name of the
        Company] may even have to assist (through training, audit, sometimes financial
        support) its suplier to allow it to reach technical expectancies from the Automotive
        market.”99 This view suggests that barriers to entry do not preclude new suppliers to
        enter the market, especially because certain customers might facilitate their market
        entrance.
(157) Several customers of the Parties that replied to the market investigation observed
        suppliers of laser diodes and light sensors entering the market in the last 5 years, and
        expects new entrants in the next 3 years.100 The observation of new market entrants
        appears to be slightly lower for automotive end uses, where more stringent
        requirements related to safety aspects exist and therefore more time is needed for a
        new supplier to enter the market. However, as one of the Parties’ customers observed
        “[d]ue to the preparation for autonomous driving a huge number of start-ups are on
        the way to developing into an automotive supplier company”.
(158) Regarding VCSEL, for which market participants seem to consider that less
        competitors are present on the market, an industry report upon which the Parties rely
        in their ordinary course of business explains that the VCSEL business attracts a
        number of new entrants from neighbouring markets, and more in particular from the
        LED market, but also start-ups are willing to enter this market (Figure 11).
98  Replies to questionnaire Q1 – Automotive customers, question 45.1.
99  Replies to questionnaire Q1 – Automotive customers, question 22.1.
100 Replies to questionnaire Q2 – Customers in consumer electronics, questions 32-33 and Replies to
    questionnaire Q1 – Automotive customers, questions 33-34.
                                                       32
 ---pagebreak--- Figure 11 Potential new entrants in the VCSEL market
Source: Form CO, Annex 24 “Yole VCSELs Market and Technology Trends 2019_ID_LL_0115” [A report
from Yole Développement (Yole), 2019 edition], slide 29 [emphasis added by the Commission]
(159) Regarding 3D flood illuminators for mobile applications, which both the Parties
         manufacture and sell, an internal document of AMS produced in its ordinary course
         of business illustrates the competitive landscape for the entire level of its supply
         chain (Figure 12). AMS considers that [information from ams’ internal documents].
(160) [Information from ams’ internal documents].
Figure 12 […]
[…]
Source: Form CO, Annex 29 “003_ID_LL_0093”, slide 10
(161) The merged entity will continue to face competition from a number of credible
         competitors and potential new entrants, including (i) laser diode suppliers which may
         expand into the down-stream assembly of complete illuminator modules
         (e.g. leading VCSEL-suppliers Lumentum, II-VI/Finisar, Trumpf/Philips);
         (ii) contract manufacturers (‘CM’)101 that source the relevant input components from
         laser diode suppliers (e.g. Sunny Optical); and (iii) Asian optical solution providers
         with own in-house capacities for optical components (e.g. Himax).
(162) Third, in case of a hypothetical price increase of either laser diodes or light sensors,
         a large majority of the Parties’ customers indicated that they would not pay for the
         price increase and instead they would switch to other suppliers offering similar
         products.102
101 The expression “Contract Manufacturers” refers to companies to which certain manufacturing processes
    are outsourced.
102 Replies to questionnaire Q2 – Customers in consumer electronics, questions 34-35 and Replies to
    questionnaire Q1 – Automotive customers, questions 35-36.
                                                         33
 ---pagebreak--- (163) In conclusion, it appears that a number of capable competitors offer viable
        alternatives to the Parties and barriers to entry do not seem to prevent new market
        entrants. Therefore the merged entity would not have sufficient market power for
        increasing prices after the Transaction.
7.2.5. The customers of the Parties have a certain degree of countervailing buyer power
        and price re-negotiations typically lead to price reductions
(164) The present section demonstrates that for a number of reasons, the customers of the
        Parties have a certain degree of countervailing buyer power and price re-negotiations
        typically lead to price reductions.
(165) First, due to the relatively short replacement cycles of optical semiconductors, the
        Parties’ customers are not subject to lock-in effects and therefore they can switch to
        other suppliers in case of price increase.
(166) Both consumer electronic OEMs and automotive tier-1 suppliers typically select
        their suppliers during the design phase of their products, and once the suppliers are
        selected they prefer not to change them during the production phase.103 However,
        during this period, which is 2 to 3 years for consumer electronics and 4 to 6 years for
        automotive customers (see Section 7.2.3), the Parties’ customers are not subject to
        any type of lock-in effect for two main reasons.
(167) In the first place, and particularly for consumer electronics OEMs, the replacement
        cycle of optical semiconductors is relatively short and a hypothetical price increase
        would give its benefits for a short period of time. In contrast, attempting to increase
        price might result in not being selected for the next consumer electronic model (say,
        for example, a smartphone or a smart watch).
(168) In the second place, both consumer electronics OEMs and automotive tier-1
        suppliers develop different products in parallel and therefore the Parties are
        considered as potential suppliers far more frequently than once in the replacement
        cycle of optical semiconductors. Therefore, any attempt of the Parties to exert
        market power vis-à-vis a certain customer would be subject to retaliation for any
        other upcoming product that such a customer is developing. For instance, consumer
        electronic products such as smartphones are typically introduced every 2 to 3 years.
        Considering that a smartphone OEM would typically supply a portfolio of
        smartphones, it would select suppliers of optical semiconductors much more
        frequently than every 2 to 3 years.
(169) In the automotive sector, new models are introduced less frequently than in
        consumer electronics. However, as explained in paragraph (138), new light sensors
        for new vehicle models, for example, are expected about every 2 to 3 years, and for
        some this can be as short as 1 to 2 years.
(170) Therefore, while in principle it could be possible to lock-in their customers for the
        entire production period of a certain final product, in practice the Parties attempt to
        sell their products to each of their customers on a frequent regular basis, and
103 Replies to questionnaire Q1 – Automotive customers, question 41 and questionnaire Q2 – Customers in
    consumer electronics, question 41.
                                                     34
 ---pagebreak---        therefore they do not have enough market power to raise prices during the
       production phase of a certain final product.
(171) Second, in the markets where the Parties sell their overlapping products, a limited
       number of powerful buyers are typically present. Due to the fundamental differences
       in market structures between automotive and consumer electronics, these are
       analysed separately.
(172) With respect to automotive customers, as explained in Section 5.4, the Parties do not
       have any overlapping activities with respect to sales to automotive customers,
       [information about the Parties’ product development].
(173) The Notifying Party submits that potential tier-1 automotive suppliers that
       [information about the Parties’ business strategy].104
(174) These companies are large in size (and often much large than the Parties) and rely on
       sophisticated purchasing practices and dedicated purchasing departments and
       therefore they would be able to exert some level of buyer power on the merged
       entity.
(175) With respect to customers active in consumer electronics, the Parties typically sell
       their products directly to consumer electronic OEMs, which are typically large
       multinational companies active on a global level such as for example [information
       about customers]. These companies are large in size (and often much large than the
       Parties) and rely on sophisticated purchasing practices and dedicated purchasing
       departments and therefore they would be able to exert some level of buyer power on
       the merged entity.
(176) In addition, each of these consumer electronics OEMs would typically purchase
       from the Parties a large amount of products, which in some cases represent a large
       share of each of the Parties’ revenues.105 Losing any of these customers, and in
       particular the largest ones, would result in a major loss of revenues for the Parties.
       For this reason, consumer electronics OEMs enjoy some level of buyer power vis-à-
       vis the Parties.
(177) This is particularly the case because, as explained in Section 7.2.3, consumer
       electronic OEMs would typically change the type or the model of the optical
       semiconductors they use (and therefore, potentially, their suppliers) every 2 to
       3 years, and they also produce different products in parallel, and therefore a potential
       retaliation due to an attempted price increase would affect the Parties in the short
       term.
(178) Third, with respect to of 3D flood illuminators for mobile, consumer electronics
       OEMs generally engage at different levels of integration, which poses a constraint on
       suppliers of pre-assembled modules.
(179) Whilst some customers procure optical components (such as VCSEL) and rely on
       own or third-party optical assembly capabilities to create the relevant modules and
       3D systems, others procure modules such as flood illuminators or even entire 3D
104 Form CO, Annex 37.
105 Form CO, paragraphs 21.
                                                 35
 ---pagebreak---          systems including the relevant software. In this regard, the Parties only compete for
         the supply of [information about the Parties’ business strategy].106
(180) Mobile manufacturers seem able to shift from modules to individual components or
         vice versa and decide anew for each mobile phone model at which level of the value
         chain to buy relevant input products. Consequently, the Parties and any supplier
         active at module level is under threat that the customer shifts demand to the
         component level (in-sourcing assembly or replying on third-party assemblers). In
         this regard, according to the Notifying Party, mobile manufacturers assemble around
         75% of the flood illuminators assembled today in terms of value.107
(181) Fourth, and as a result of the market power that the Parties’ customers typically
         have, any price renegotiation occurring for supply of optical semiconductors would
         typically result in a price decrease.
(182) Both automotive and consumer electronics customers typically have supply
         agreements with the Parties covering the entire production period, and, to some
         extent covering after market sales. However, prices would typically be subject to
         negotiation on yearly basis. As a market participant explained “supply contract is
         just a framework, but the price is agreed in the orders, which would be adjusted
         during the contract terms”.108
(183) A large majority of the market participants that expressed a view in the market
         investigation indicated that the most likely outcome of a price-renegotiation is a
         price decrease. This indication is consistently provided by all market participants
         (i.e. irrespectively if they are active in automotive, in consumer electronics or if they
         are competitors of the Parties) and across all the product ranges they purchase (in
         case of the Parties’ customers) or they offer (in case of the Parties’ competitors).109
(184) A tier-1 automotive supplier explained that “[e]very year, the prices are
         renegotiated. Most of them will follow the contract, [Company name] will push for
         price decreases, and since the product evolution is fast and the markets attractive,
         we will use new business awards to get from our suppliers price decreases whenever
         possible”.110
(185) The trend of reducing prices over the years, and therefore applying price pressure on
         the Parties, appears to be common for both consumer electronics and automotive
         customers. As one market participant explained, “[p]rices for components have
         historically decreased due to higher volumes and also products reaching maturity or
         end of life”.111
106 [Information about the Parties’ customers and products].
107 Form CO, paragraphs 314 and 322.
108 Replies to questionnaire Q2 – Customers in consumer electronics, question 36.1.
109 Replies to questionnaire Q1 – Automotive customers, question 38; Replies to questionnaire Q2 –
    Customers in consumer electronics, question 37; Replies to questionnaire Q3 – Questionnaire to
    competitors, question 48.
110 Replies to questionnaire Q1 – Automotive customers, question 38.1.
111 Reply to questionnaire Q2 – Customers in consumer electronics, question 37.1.
                                                        36
 ---pagebreak--- (186) In conclusion, the Commission considers that the customers of the Parties have a
        certain degree of countervailing buyer power and price re-negotiations typically lead
        to price reductions.
7.2.6. A majority of market participants appear to be either not concerned or supportive of
        the Transaction
(187) During the market investigation, a large majority of the respondents appeared neutral
        or supportive of the Transaction when asked about the overlapping areas.
(188) With regard to light sensors in particular, a large majority of customers in consumer
        electronics that replied to the market investigation indicated that they do not expect
        the acquisition of OSRAM by AMS to have any impact on their businesses.112 In
        addition, the majority of customers that provided a reply to this question during the
        market investigation consider that the Transaction will have neutral or positive
        impacts in the EEA with regard to price, quality, product range, innovation and
        security of supply of light sensors.113
(189) One automotive customer explained that ‘[c]onsidering the small number of capable
        suppliers, the acquisition of OSRAM by AMS is positive for [customer name], seen
        as an opportunity to reinforce a capable supplier without market distortion’.114
(190) Another customer in consumer electronics stated that ‘[b]oth [AMS and OSRAM
        are] excellent suppliers, we would welcome the combination’.115
(191) One competitor indicated that, post-Transaction, the Parties would have ‘better
        negotiation power, and critical mass and lower cost in their product’ and ‘a
        powerful combined IP portfolio’.116 However, as another competitor explained, ‘[i]t
        is assumed that Osram and AMS [will be able] to offer more light sensor solutions
        by the combination of their products which would have impact to our business to a
        certain extent, however, it should not change the landscape in a significant manner
        since there are many suppliers existing in the market’.117 In addition, several
        competitors indicated that they expect the Transaction to increase innovation for
        light sensors.118
(192) With regard to laser diodes, most competitors and customers that replied to this
        question during the market investigation indicated that they do not expect the
        acquisition of OSRAM by AMS to have any impact on their businesses.119
        Moreover, the majority of the customers that provided a reply to this question during
        the market investigation consider that the Transaction will have neutral or positive
112 Reply to questionnaire Q2 – Customers in consumer electronics, question 42.
113 Replies to questionnaire Q1 – Automotive customers, question 44 and questionnaire Q2 – Customers in
    consumer electronics, question 43. Positive impact is assessed as a potential increase in quality, product
    range, innovation and security of supply and a potential decrease in prices.
114 Replies to questionnaire Q1 – Automotive customers, question 43.1.
115 Reply to questionnaire Q2 – Customers in consumer electronics, question 42.1.
116 Reply to questionnaire Q3 – Competitors, question 50.1.
117 Reply to questionnaire Q3 – Competitors, question 50.1.
118 Reply to questionnaire Q3 – Competitors, question 51.
119 Reply to questionnaire Q1 – Automotive customers, question 45, questionnaire Q2 – Customers in
    consumer electronics, question 44 and questionnaire Q3 – Competitors, question 52.
                                                          37
 ---pagebreak---         impact in the EEA with regard to price, quality, product range, innovation and
        security of supply of laser diodes.120
(193) One customer in consumer electronics indicated that ‘[s]ince OSRAM and ASM are
        two major players in the market, it might cause a less competitive market after [the]
        acquisition’.121 However, another customer in consumer electronics explained that
        ‘there will be a small overlap and therefore cleansing of portfolio, but it will be
        minor compared to the positive effects of more innovation’.122
(194) With regard particularly to VCSEL, one automotive customer stated the Transaction
        would lead to ‘[o]nly one potential supplier for VCSEL that disappears. There is still
        a sufficient number of potential suppliers left’.123
7.2.7. Conclusions on horizontal non-coordinated effects
(195) In light of the considerations in Sections 7.2.1-7.2.6 and based on the results of the
        market investigation and on all the information available to it, the Commission
        concludes that the Transaction does not raise serious doubts as to its compatibility
        with the internal market with respect to horizontal non-coordinated effects.
7.3.    Vertical non-coordinated effects
7.3.1. Description of the vertical links and market context
(196) The Transaction gives rise to potential vertical links between AMS’ provision of
        assembly and packaging services for sensor solutions for mobile phones
        (downstream) and OSRAM’s supplies of laser diodes and LED (upstream).
(197) Any potential vertical effects of the Transaction would only raise if global markets
        are considered as AMS [information about the Parties’ business strategy].124
        [Information about the Parties’ business strategy].
(198) For the provision of assembly and packaging services AMS [information about the
        Parties’ business strategy]. Therefore, any vertical relation between AMS’ and
        OSRAM’s activities would be theoretical in nature as we take into account
        OSRAM’s capabilities.125
(199) In the potential upstream market for the supply of laser diodes, the Parties’ combined
        worldwide market share amounted to [10-20]% in 2019 with an increment of [0-5]%.
        Regarding VCSEL only, [information about the Parties’ business strategy].
(200) In the potential upstream market for the supply of LEDs, OSRAM’s market share
        amounts to [5-10]% worldwide (2019). In the supply of visible and invisible light
        LEDs, OSRAM’s market shares amount to [5-10]% and [10-20]% worldwide
120 Replies to questionnaire Q1 – Automotive customers, question 46 and questionnaire Q2 – Customers in
    consumer electronics, question 45.
121 Reply to questionnaire Q2 – Customers in consumer electronics, question 44.1.
122 Reply to questionnaire Q2 – Customers in consumer electronics, question 44.1.
123 Replies to questionnaire Q1 – Automotive customers, question 45.1.
124 Mobile phone manufacturing is predominantly done in China and Korea.
125 Form CO, paragraph 337.
                                                       38
 ---pagebreak---        (2019), respectively. In the supply of infrared and ultraviolet LEDs, OSRAM’s
       market shares amount to [20-30]% and [0-5]% worldwide (2018), respectively.
       OSRAM was not able to provide reliable market shares for the potential sub-
       segmentations by colour or power. However, OSRAM estimates its share for visible
       LEDs in the red colour spectrum to be around [20-30]% and for the white colour
       spectrum to be around [10-20]% worldwide. As regards LEDs in different power
       classes, OSRAM’s reported market share in the high-power segment is around
       [10-20]%. In the mid- and low-power segment, OSRAM’s reported share is around
       [0-5]%. OSRAM’s position in high-power LEDs is not relevant for the assessment
       of the Transaction [information about the Parties’ business strategy].
(201) With regard to the provision of assembly and packaging services for sensor solutions
       for mobile phones, the Notifying Party indicated that market shares are not available
       and therefore worldwide market shares for mobile camera modules should be used as
       a proxy.126 With this in mind, the Notifying Party estimates that AMS’ market share
       in the global market for the provision of assembly and packaging services for sensor
       solutions for mobile phones amounts to [0-5]% (2018).
7.3.2. The Commission’s assessment
(202) According to the Non-Horizontal Merger Guidelines, non-horizontal mergers pose
       no threat to effective competition unless the merged entity has a significant degree of
       market power in at least one of the markets concerned.127 In this regard, market
       shares provide useful first indications of the market power and the competitive
       importance of the merging parties and the Commission is unlikely to find concern in
       non-horizontal mergers where the market share post-merger of the new entity in each
       of the markets concerned is below 30%.128
(203) The Transaction does not result in any vertically affected market as the market
       shares of the Parties in the downstream market (provision of assembly and
       packaging services for sensor solutions for mobile phones) and upstream markets
       (supply of laser diodes and LEDs) remain below 30%.
(204) Moreover, the Commission finds that the merged entity would have insufficient
       market power to foreclose competitors in the supply of laser diodes or LED markets
       through customer foreclosure strategies. In this regard, AMS’ downstream market
       share in the provision of assembly and packaging services for sensor solutions for
       mobile phones ([0-5]%) is not indicative of such ability. Suppliers of laser diodes or
       LEDs will have access to a sufficient customer base. Other providers of optical
       packaging and assembly services are LG Innotek, Semco, Foxconn, Liteon, Sunny
       Optical, O-Film and Q-Tech.
(205) Likewise, the Commission finds that input foreclosure is unlikely to arise, as the
       merged entity would have insufficient market power to foreclose competitors
       downstream through the input foreclosure of laser diodes or LED components for
       mobile phones and there are sufficient alternative sources of supply for customers,
       such as Nichia, Lumileds, Seoul Semiconductor, MLS, etc.
126 Form CO, paragraph 351.
127 Non-Horizontal Merger Guidelines, paragraph 23.
128 Non-Horizontal Merger Guidelines, paragraphs 24-25.
                                                      39
 ---pagebreak--- (206) Therefore, the merged entity is unlikely to have the market power to engage in any
         foreclosure strategy after the Transaction. In line with this, during the market
         investigation market participants did not express concerns about any potential (input
         or customer) foreclosure strategy from the merged entity post-Transaction.
(207) Based on the results of the market investigation and on all the evidence available to
         it, the Commission concludes that the Transaction does not raise serious doubts as to
         its compatibility with the internal market with regard to vertical non-coordinated
         effects.
7.4.     Conglomerate effects
(208) According to the Non-Horizontal Merger Guidelines, conglomerate effects may arise
         in mergers between companies that are active in closely related markets.129 The main
         concern in the context of conglomerate mergers is that of foreclosure and the
         possibility that the combination of products in related markets may confer on the
         merged entity the ability and incentive to leverage a strong market position from one
         market to another by means of tying or bundling or other exclusionary practices.130
(209) Generally, the merged entity will benefit from a significant scale, engineering
         capabilities and financial strength. However, as one market participant indicated,
         ‘some of the same manufacturing fixed costs can be leveraged [across] several of
         these [optical semiconductors] product areas leading to better economics and ability
         to offer customers lower prices’.131 Indeed, while the combination of AMS and
         OSRAM will increase the number of optical semiconductors that both Parties can
         supply, this is unlikely to give rise to harm to competition for the following reasons.
(210) First, the combined market share of the Parties’ remains below 20% on any
         plausible market except from laser diodes in the EEA and light sensors and
         biosensors for consumer electronics globally. In the supply of laser diodes in the
         EEA, the activities of the Parties do not overlap. In the supply of light sensors and
         biosensors for consumer electronics globally, the increment brought about by the
         combination of the Parties’ market shares amounts only to [0-5]% and [0-5]%,
         respectively. Post-Transaction, the merged entity would thus have limited market
         power to leverage its position in any of the relevant markets to force customers to
         buy products in another market.
(211) Second, the Parties target different customer groups. As shown in Figure 13, AMS’
         main customers are [information about the Parties’ business strategy] whilst
         OSRAM’s main customers are [information about the Parties’ business strategy].
         Therefore, even if, as one market participant indicated, ‘[LEDs, laser diodes,
         couplers, light sensors and image sensors] often are sold to the same customers in
         bundled deals so that commercial strength in one product area can be leveraged to
         help the commercial prospects of other product lines’,132 the customers for the
         Parties’ products are largely different. It is thus unlikely that the Transaction serves
         the merged entity to use any bundling or other foreclosure strategy with OSRAM’s
129 Non-Horizontal Merger Guidelines, paragraph 91.
130 Non-Horizontal Merger Guidelines, paragraph 93.
131 Replies to questionnaire Q3 – Competitors, question 9.2.
132 Replies to questionnaire Q3 – Competitors, question 9.2. In this respect, the Notifying Party submits
    [information about the Parties’ market perception].
                                                        40
 ---pagebreak---          ([information about the Parties’ customer groups]) customers or AMS’ ([information
         about the Parties’ customer groups]) customers, thanks to the addition of the other
         party’s portfolio that targets a different application/customer group.
Figure 13 […]133
[…]
Source: Form CO, Annex_10_Sec 5.4_Appendix 014_ID_LL_0020, slide 6.
(212) Third, as explained in Section 7.2.5, the market investigation has revealed that
         customers of optical semiconductors hold appreciable market power and in case of a
         re-negotiation of prices in the course of a supply contract duration, prices are likely
         to be decreased for the overlapping products of the Parties.
(213) In conclusion, based on all information available and the outcome of the market
         investigation, the Commission concludes that the Transaction does not raise serious
         doubts as to its compatibility with the internal market in relation to possible
         conglomerate effects.
8.       CONCLUSION
(214) For the above reasons, the European Commission has decided not to oppose the
         notified operation and to declare it compatible with the internal market and with the
         EEA Agreement. This decision is adopted in application of Article 6(1)(b) of the
         Merger Regulation and Article 57 of the EEA Agreement.
                                                          For the Commission
                                                          (Signed)
                                                          Margrethe VESTAGER
                                                          Executive Vice-President
133 [Information from internal document].
                                                     41