1 INTRODUCTION 20
1.1 OBJECTIVES 20
1.2 PRODUCT DEFINITION 20
1.3 INCLUSIONS & EXCLUSIONS 21
1.4 MARKET SCOPE 21
1.5 LIMITATIONS 22
1.6 STAKEHOLDERS 22

2 RESEARCH METHODOLOGY 23
2.1 RESEARCH DATA 23
2.2 SECONDARY DATA 25
2.2.1 KEY SECONDARY SOURCES FOR VEHICLE PRODUCTION 25
2.2.2 KEY SECONDARY SOURCES FOR MARKET SIZING 25
2.2.3 KEY DATA FROM SECONDARY SOURCES 26
2.3 PRIMARY DATA 27
2.3.1 SAMPLING TECHNIQUES & DATA COLLECTION METHODS 27
2.3.2 PRIMARY PARTICIPANTS 28
2.4 MARKET SIZE ESTIMATION 28
2.4.1 BOTTOM-UP APPROACH 28
2.4.2 TOP-DOWN APPROACH 30
2.5 MARKET BREAKDOWN AND DATA TRIANGULATION 31
2.6 ASSUMPTIONS & ASSOCIATED RISKS 32

3 EXECUTIVE SUMMARY 35
3.1 PRE- AND POST-COVID-19 SCENARIO 35
3.2 REPORT SUMMARY 37

4 PREMIUM INSIGHTS 39
4.1 ATTRACTIVE OPPORTUNITIES IN THE GLOBAL ELECTRIC COOLANT PUMP MARKET 39
4.2 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC CAR, BY APPLICATION 40
4.3 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC VEHICLES, BY TYPE 41
4.4 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC VEHICLES, BY SEALLESS TYPE 41
4.5 ELECTRIC COOLANT PUMP MARKET, BY ELECTRIC VEHICLE USE 42
4.6 ELECTRIC COOLANT PUMP MARKET, BY ELECTRIC VEHICLE TYPE 42
4.7 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC VEHICLES, BY POWER OUTPUT 43
4.8 ELECTRIC COOLANT PUMP MARKET FOR ICE VEHICLES, BY TYPE 43
4.9 ELECTRIC COOLANT PUMP MARKET, BY VEHICLE VOLTAGE 44
4.10 ELECTRIC COOLANT PUMP MARKET, BY COMMUNICATION INTERFACE 44
4.11 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC CARS, BY REGION 45

5 MARKET OVERVIEW 46
5.1 INTRODUCTION 46
5.2 MARKET DYNAMICS 46
5.2.1 DRIVERS 47
5.2.1.1 Technical benefits of electric coolant pumps over mechanical pumps 47
5.2.1.2 Stringent emission norms anticipated to bolster the demand for electric coolant pumps 47
5.2.1.3 Increasing sales of turbocharged engines 48
5.2.2 RESTRAINTS 49
5.2.2.1 Relatively high cost and maintenance of electric coolant pumps 49
5.2.3 OPPORTUNITIES 49
5.2.3.1 Development of advanced electric coolant pump technologies and strategic partnerships/collaborations between OEMs 49
5.2.3.2 Developments in ceramic seal materials 50
5.2.4 CHALLENGES 50
5.2.4.1 Unreliability of electric coolant pumps 50
5.3 IMPACT OF COVID-19 PANDEMIC 51
5.3.1 COVID-19 HEALTH ASSESSMENT 51
5.4 ELECTRIC COOLANT PUMP MARKET SCENARIO 52
5.4.1 MOST LIKELY/REALISTIC SCENARIO 53
5.4.2 HIGH COVID-19 IMPACT SCENARIO 53
5.4.3 LOW COVID-19 IMPACT SCENARIO 54
5.5 REVENUE SHIFT DRIVING MARKET GROWTH 55
5.6 PRICING ANALYSIS 55
5.7 SUPPLY CHAIN ANALYSIS 56
5.8 ECOSYSTEM/MARKET MAP 57
5.9 TECHNOLOGICAL ANALYSIS 58
5.9.1 ELECTRIC COOLANT PUMP, BY NON-SEALED PUMP MATERIAL 60
5.9.1.1 Shaft materials 60
5.9.1.2 Bearing materials 61

6 RECOMMENDATIONS FROM MARKETSANDMARKETS 63

7 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC CARS, BY APPLICATION 65
7.1 INTRODUCTION 66
7.1.1 RESEARCH METHODOLOGY 66
7.1.2 ASSUMPTIONS 66
7.1.3 INDUSTRY INSIGHTS 67
7.2 POWERTRAIN & HVAC 69
7.2.1 HIGH NEED FOR MAINTAINING OPTIMUM ENGINE TEMPERATURE IS LIKELY TO DRIVE THE GROWTH OF COOLANT PUMPS 69
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7.3 BATTERY & POWER ELECTRONICS 70
7.3.1 DEMAND FOR AUXILIARY PUMPS IS LIKELY TO BE DRIVEN BY THE BATTERY & POWER ELECTRONICS APPLICATION SEGMENT 70
7.4 GEARBOX COOLING 71
7.4.1 INTEGRATION OF GEARBOX COOLING PUMPS WITH OTHER COOLING CIRCUITS IS LIKELY TO CREATE NEW OPPORTUNITIES FOR ECP MANUFACTURERS 71

8 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC VEHICLES, BY TYPE 72
8.1 INTRODUCTION 73
8.1.1 RESEARCH METHODOLOGY 73
8.1.2 ASSUMPTIONS/LIMITATIONS 73
8.1.3 INDUSTRY INSIGHTS 73
8.2 SEALED COOLANT PUMPS 75
8.2.1 DRAWBACKS ASSOCIATED WITH SEALED COOLANT PUMPS TO RESTRAIN THE GROWTH OF THIS MARKET 75
8.2.2 SEAL FACE MATERIAL 76
8.2.2.1 Carbon 76
8.2.2.1.1 Low friction coefficient and high wear resistance are driving the growth of carbon seal face materials 76
8.2.2.2 Ceramics 77
8.2.2.2.1 High strength and hardness with excellent thermal properties are driving the growth of ceramic materials 77
8.3 SEALLESS COOLANT PUMPS 78
8.3.1 HIGHER EFFICIENCY AND BETTER RELIABILITY OF SEALLESS PUMPS ARE SUPPORTING THEIR ADOPTION IN THE ELECTRIC COOLANT PUMP MARKET 78
8.3.2 BEARING MATERIAL 79
8.3.2.1 Engineered plastics 79
8.3.2.1.1 High wear resistance due to multiple advanced material layers is expected to drive market growth 79
8.3.2.2 Powdered metal 80
8.3.2.2.1 Self-lubrication properties are expected to drive the demand for powdered metal materials 80
8.3.2.3 Carbon bearings 81
8.3.2.3.1 High mechanical strength and oxidation-resistant properties are expected to drive the carbon bearings market 81
8.3.3 SHAFT MATERIAL 82
8.3.3.1 Metal 82
8.3.3.1.1 Excellent resistance to corrosion exhibited by metal is expected to drive its demand 82
8.3.3.2 Ceramics 83
8.3.3.2.1 High-temperature tolerance and chemical resistance are expected to drive the growth of ceramic shafts 83
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9 SEALLESS ELECTRIC COOLANT PUMP MARKET, BY TYPE 84
9.1 INTRODUCTION 85
9.1.1 RESEARCH METHODOLOGY 85
9.1.2 ASSUMPTIONS/LIMITATIONS 85
9.1.3 INDUSTRY INSIGHTS 85
9.2 MAGNETICALLY DRIVEN 87
9.2.1 MAGNETICALLY DRIVEN SEALLESS COOLANT PUMPS SEGMENT TO WITNESS THE HIGHEST GROWTH RATE IN THE FORECAST PERIOD 87
9.3 ELECTRICALLY DRIVEN/CANNED 88
9.3.1 ELECTRICALLY DRIVEN/CANNED PUMPS TO HOLD THE LARGEST SHARE DURING THE FORECAST PERIOD 88

10 ELECTRIC COOLANT PUMP MARKET, BY ELECTRIC VEHICLE TYPE 89
10.1 INTRODUCTION 90
10.1.1 RESEARCH METHODOLOGY 90
10.1.2 ASSUMPTIONS/LIMITATIONS 90
10.1.3 INDUSTRY INSIGHTS 91
10.2 BATTERY ELECTRIC VEHICLE (BEV) 92
10.2.1 DEVELOPMENTS IN LITHIUM-ION BATTERIES AND POWER ELECTRONICS TO DRIVE THE MARKET FOR BEV ELECTRIC COOLANT PUMPS 92
10.3 PLUG-IN HYBRID ELECTRIC VEHICLE (PHEV) 93
10.3.1 INCREASING SALES OF PHEVS AND THE AVAILABILITY OF VARIOUS MODELS TO DRIVE MARKET GROWTH 93

11 ELECTRIC COOLANT PUMP MARKET, BY ELECTRIC VEHICLE USE 95
11.1 INTRODUCTION 96
11.1.1 RESEARCH METHODOLOGY 96
11.1.2 ASSUMPTIONS 96
11.1.3 INDUSTRY INSIGHTS 96
11.2 ELECTRIC PASSENGER CAR 98
11.2.1 ESTABLISHED DEMAND FOR ELECTRIC COOLANT PUMPS IN PASSENGER CARS AND THEIR GROWING POPULARITY WILL DRIVE MARKET GROWTH 98
11.3 ELECTRIC COMMERCIAL VEHICLE 99
11.3.1 DEVELOPMENTS IN THE POWER OUTPUT OF ELECTRIC COOLANT PUMPS ARE EXPECTED TO DRIVE THE CV ELECTRIC COOLANT PUMP MARKET 99

12 ELECTRIC COOLANT PUMP MARKET, BY ICE VEHICLE 100
12.1 INTRODUCTION 101
12.1.1 RESEARCH METHODOLOGY 101
12.1.2 ASSUMPTIONS 101
12.1.3 INDUSTRY INSIGHTS 102
12.2 PASSENGER CAR 103
12.2.1 INCREASING SALES OF TURBOCHARGED PASSENGER CARS TO DRIVE THE GROWTH OF THE ELECTRIC COOLANT PUMP MARKET FOR PASSENGER CARS 103
12.3 COMMERCIAL VEHICLE 104
12.3.1 STRINGENT EMISSION NORMS TO DRIVE THE ELECTRIC COOLANT PUMP MARKET FOR COMMERCIAL VEHICLES 104
13 ELECTRIC COOLANT PUMP MARKET, BY VEHICLE VOLTAGE 106
13.1 INTRODUCTION 107
13.1.1 RESEARCH METHODOLOGY 107
13.1.2 ASSUMPTIONS 107
13.1.3 INDUSTRY INSIGHTS 107
13.2 12V 109
13.2.1 GROWING PENETRATION OF ELECTRIC COOLANT PUMPS IN ICE CARS LIKELY TO DRIVE MARKET GROWTH 109
13.3 48V 110
13.3.1 INCREASING SALES OF 48V VEHICLES TO DRIVE GROWTH IN THE 48V ELECTRIC COOLANT PUMP MARKET 110
14 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC VEHICLE, BY POWER OUTPUT 111
14.1 INTRODUCTION 112
14.1.1 RESEARCH METHODOLOGY 112
14.1.2 ASSUMPTIONS/LIMITATIONS 112
14.1.3 INDUSTRY INSIGHTS 112
14.2 UP TO 100W 114
14.2.1 THE GROWING TREND OF ELECTRIC COOLANT PUMPS IN ICE FOR AUXILIARY PURPOSES IS EXPECTED TO DRIVE THIS MARKET 114
14.3 >100W 115
14.3.1 INCREASED ADOPTION IN THE MAIN CIRCUIT OF ENGINE COOLING IS EXPECTED TO DRIVE THE >100W PUMP MARKET 115
15 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC VEHICLE, BY COMMUNICATION INTERFACE 116
15.1 INTRODUCTION 117
15.1.1 RESEARCH METHODOLOGY 117
15.1.2 ASSUMPTIONS 117
15.1.3 INDUSTRY INSIGHTS 117
15.2 LIN 119
15.2.1 REAL-TIME FEEDBACK IS EXPECTED TO DRIVE THE DEMAND FOR ECP WITH LIN COMMUNICATION INTERFACES 119
15.3 CAN 120
15.3.1 TECHNICAL ADVANTAGES ARE EXPECTED TO DRIVE THE DEMAND FOR CAN COMMUNICATION INTERFACES 120
15.4 PWM 121
15.4.1 BETTER CONTROL OVERDRIVE MOTORS (BLDC) IS EXPECTED TO DRIVE THE PWM MARKET 121
16 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC CARS, BY REGION 122
16.1 INTRODUCTION 123
16.1.1 RESEARCH METHODOLOGY 123
16.1.2 ASSUMPTIONS 123
16.1.3 INDUSTRY INSIGHTS 124
16.2 ASIA PACIFIC 125
16.2.1 CHINA 127
16.2.1.1 Increasing sales of battery electric vehicles are expected to drive the electric coolant pump market 127
16.2.2 JAPAN 128
16.2.2.1 The growing popularity of hybrid models is expected to drive the electric coolant pump market 128
16.2.3 SOUTH KOREA 129
16.2.3.1 Increasing exports of hybrid models to drive the electric coolant pump market 129
16.2.4 INDIA 130
16.2.4.1 Introduction of BS-VI is expected to drive the electric coolant pump market in India 130
16.3 EUROPE 131
16.3.1 GERMANY 133
16.3.1.1 The growing popularity of premium vehicles and the presence of major players is expected to drive the market in Germany 133
16.3.2 FRANCE 134
16.3.2.1 Investments by automakers to strengthen EV production capacities to drive the electric coolant pump market 134
16.3.3 UK 135
16.3.3.1 Increasing domestic adoption of EV components is expected to drive the electric coolant pump market 135
16.3.4 SWEDEN 136
16.3.4.1 Attractive government initiatives to build robust charging infrastructures are expected to drive the electric coolant pump market 136
16.3.5 THE NETHERLANDS 137
16.3.5.1 Collaboration between regional players and OEMs is expected to drive the electric coolant pump market 137
16.3.6 NORWAY 138
16.3.6.1 Norway is one of the earliest adopters of electric vehicles 138
16.3.7 AUSTRIA 139
16.3.7.1 Growing popularity of e-trucks for transportation is expected to drive the electric coolant pump market 139
16.3.8 DENMARK 140
16.3.8.1 Demand for economy electric cars is expected to drive the electric coolant pump market in Denmark 140
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16.4 NORTH AMERICA 141
16.4.1 US 142
16.4.1.1 Growing popularity of premium EVs and continuous new hybrid launches to drive the electric coolant pump market 142
16.4.2 CANADA 143
16.4.2.1 Tax discounts on EVs and government efforts to build national charging networks will drive the electric coolant pump market 143

17 COMPETITIVE LANDSCAPE 145
17.1 OVERVIEW 145
17.2 MARKET EVALUATION FRAMEWORK 145
17.3 ELECTRIC COOLANT PUMP MARKET: MARKET RANKING ANALYSIS 146
17.4 COMPETITIVE SCENARIO 149
17.4.1 EXPANSIONS (2018–2019) 150
17.4.2 PARTNERSHIPS/CONTRACTS/ACQUISITIONS (2019–2020) 150
17.5 RIGHT TO WIN 151

18 COMPANY EVALUATION MATRIX AND COMPANY PROFILES 155
18.1 COMPANY EVALUATION MATRIX 155
18.1.1 TERMINOLOGY 155
18.1.2 STARS 155
18.1.3 EMERGING LEADERS 155
18.1.4 PERVASIVE PLAYERS 155
18.2 STRENGTH OF PRODUCT PORTFOLIO 157
18.3 BUSINESS STRATEGY EXCELLENCE 158
18.4 COMPANY PROFILES 159
(Business overview, Products offered, Recent Developments, SWOT analysis, MNM view)*
18.4.1 RHEINMETALL AUTOMOTIVE AG 159
18.4.2 ROBERT BOSCH GMBH 163
18.4.3 AISIN SEIKI CO., LTD. 166
18.4.4 CONTINENTAL AG 169
18.4.5 MAHLE GMBH 172
18.4.6 DENSO CORPORATION 175
18.4.7 JOHNSON ELECTRIC HOLDINGS LIMITED 177
18.4.8 HANON SYSTEMS 178
18.4.9 INDUSTRIE SALERI ITALO S.P.A 180
18.4.10 CONCENTRIC AB 182
*Details on Business overview, Products offered, Recent Developments, SWOT analysis, MNM view might not be captured in case of unlisted companies.
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18.4.11 ADDITIONAL COMPANIES 184
18.4.11.1 SANHUA Automotive 184
18.4.11.2 Grayson Thermal Systems 184
18.4.11.3 B?hler Motor GmbH 184
18.4.11.4 VOVYO Technology Co., Ltd. 184
18.4.11.5 Avid Technology Limited 185
18.4.11.6 Hitachi Automotive Systems Americas, Inc. 185
18.4.11.7 JTEKT Corporation 185
18.4.11.8 GMB Corporation 185

19 APPENDIX 186
19.1 CURRENCY & PRICING 186
19.2 KEY INSIGHTS FROM INDUSTRY EXPERTS 187
19.3 DISCUSSION GUIDE 188
19.5 AVAILABLE CUSTOMIZATIONS 192
19.5.1 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC PASSENGER CARS, BY VEHICLE TYPE 192
19.5.1.1 BEVs 192
19.5.1.2 PHEVs 192
19.5.2 ELECTRIC COOLANT PUMP MARKET FOR ELECTRIC COMMERCIAL VEHICLES, BY VEHICLE TYPE 192
19.5.2.1 BEVs 192
19.5.2.2 PHEVs 192
19.5.3 ELECTRIC COOLANT PUMP MARKET FOR 48V PASSENGER CARS, BY REGION 192
19.5.3.1 North America (US and Canada) 192
19.5.3.2 Europe (UK, France, Germany, Norway, the Netherlands, Denmark, Austria, and Sweden) 192
19.5.3.3 Asia Pacific (China, India, Japan, and South Korea) 192
19.6 RELATED REPORTS 192
19.7 AUTHOR DETAILS 193