(E/E) EV System Integration

September 3, 2024

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Introduction

The fast adoption of electric cars (EVs) is causing a seismic shift in the global automotive surroundings. Electrification is being embraced by governments and industry globally as a means of reducing transportation’s negative environmental effects and decreasing dependency on fossil fuels. EV System Integration is one of the most important and challenging aspects of this shift as EVs become more common. The performance, credibility, and efficiency of an electric car depend on the seamless integration of its numerous parts, which range from software and charging infrastructure to battery systems and power electronics.

This blog explores the future of this developing field as well as the significance of EV System Integration for electric vehicles and the essential elements that go into it.

EV System Integration is divided into three main Components:

1. High Voltage Components

2. Low Voltage Components

3. Multiple CAN Networks

High Voltage Components

High-voltage components are found in both hybrid and all-electric vehicles. High-voltage components are directly connected to the power battery in pure electric vehicles.

Battery packs or fuel cells, battery management systems (BMS), electric motors, motor control units (MCU), power distribution units (PDU), electric air conditioning compressors, DC/DC converters, on-board chargers (OBC), EV chargers, charging outlets, PTC heaters, and high-voltage wiring harnesses are some of the most common examples of high-voltage component.

Battery Management System (BMS): Also known as the battery controller, the BMS is the essential component of battery management and protection. Its duties include monitoring the charging and draining of battery packs, assuring the safe and dependable usage of EV batteries, and providing the vehicle control unit (VCU) with basic parameter and fault diagnosis data.

Currently, the normal working voltage of electric car battery systems is between 200 and 600 volts. Additionally, its output current is 500A. EV driving range is directly impacted by battery capacity, which also influences charging time and efficiency.

Lithium-ion batteries currently rule the global market. Since lithium-ion battery technology is limited at this time, most electric automobiles employ them. Meanwhile, high-voltage electric vehicle systems use shielding design to lessen electromagnetic radiation produced by high-voltage components.

A motor controller is a device that controls the flow of energy from the battery to the drive motor. Vehicle advance (motor revolving in a forward direction), vehicle reverse (motor rotating in the opposite direction), DC/AC conversion, and other operations are among its primary duties. It achieves effective control to operate the motor by converting high voltage direct current to alternating current and interacting with other modules of the electric car through signals.

3. Power Distribution Unit (PDU): A PDU distributes high-voltage electricity throughout the vehicle in a manner akin to that of an electrical fuse box in a low-voltage circuit system.

High-voltage electrical equipment, including motor controllers, drive motors, electric air conditioner compressors, PTC heaters, and DC-DC converters, are powered by high-voltage battery distribution. A high-voltage charging current is distributed to the battery pack simultaneously from the AC or DC charging connector to charge it.

Certain DC/DCs convert high voltage to high voltage to support three things: 1) fast charging, 2) connection to standard charging stations, 3) BMS dependability.

Modern e-compressor technology is developing at a rapid pace, leading to the development of innovative, highly efficient heat pumps that are used to warm car interiors.

Low Voltage Components:

Low-voltage parts of an electric vehicle (EV) run independently of the high-voltage battery system that powers the electric motor, often on a 12V or 48V electrical system. These low-voltage parts are necessary for the car’s different support systems. The primary low-voltage parts of an EV are as follows:

1. 12V Battery

provides power to low-voltage electronics, such as lighting, control, and entertainment systems. Function: Supplies power to these components even when the high-voltage system is off by acting as a buffer.

2. Lighting System

Headlights, tail lights, and interior lights operate on a 12V electrical system and provide interior comfort and driving illumination.

3. Information Display System

Contains GPS, radios, touchscreens, and other multimedia interfaces for its intended use. Function: It manages user interactions and media entertainment and is powered by low-voltage technology.

4. Controls for HVAC Systems

HVAC (heating, ventilation, and air conditioning) controls and displays perform this role.

Function: Controls the temperature within the cabin using low-voltage electronics, even if the high-voltage system may still be used to power the compressor.

5. Braking and Power Steering Assistance

Its function is to supply power assistance for braking and steering. Function: To ensure ease of handling, low-voltage electric motors are used to increase the driver’s input effort.

6. Cooling Fans and Pumps

Its purpose is to control the cooling of a few low-power parts, such as auxiliary systems and some electronics. Function: Low voltage power source keeps systems within operating temperature ranges.

7. Power Windows, Wiper Motors, and Additional Comfort Systems

Manage vital car components including the wipers, seats, and windows. Function: Low voltage power supply ensures safe and convenient operation.

8. Instrument Cluster and Dashboard Displays

Function: Offers car data such as range, battery level, speed, and navigation. Function: Provides the driver with real-time data by running on low-voltage electricity.

9. Vehicle Control Unit (VCU):

The Vehicle Control Unit, also known as the “brain” of an electric vehicle (EV), functions as the main controller. It is essential to make sure that the electric powertrain, battery management system (BMS), and power electronics, among other various EV subsystems, all function as a unit. The vehicle’s central processing unit (VCU) gathers, processes, and transmits commands to different actuators to control operations including energy regeneration, braking, acceleration, and battery management.

Multiple CAN Networks

Multiple Controller Area Network (CAN) buses are frequently utilized in contemporary electric cars (EVs) to handle the intricate communication requirements between different Vehicle control units (VCUs) and other components. For dependable, real-time communication between the many systems in the car, CAN networks are essential. CAN networks are designed to handle specific duties for each other, which enables fault isolation and more efficient data delivery. The many CAN networks that are frequently seen in EVs are summarized as follows:

1. Powertrain CAN

Establishes communication between the electric powertrain’s parts. Key Components: Battery Management System (BMS): Keeps an eye on and regulates battery safety, charging, and performance. Motor controllers and inverters: Manage the power supply and regenerative braking of the electric motor. The Vehicle Control Unit (VCU) is in charge of managing the complete powertrain system and guaranteeing peak performance. Provides real-time data interchange for motor control, energy management, torque requirements, and battery status.

2. CAN Chassis

oversees communications regarding vehicle dynamics and safety systems? Key Components: The Anti-lock Braking System (ABS) regulates brakes and keeps track of wheel speed to keep wheels from locking up. Electronic Stability Control (ESC) keeps the car stable by controlling brake force distribution and engine power. The power steering system regulates and provides feedback for electric power steering. Function: By coordinating sensors and actuators connected to the suspension, steering, and braking systems, it preserves the stability and safety of the vehicle.

3. Battery CAN Network

The Battery CAN Network’s mission is to oversee and control batteries. Key Components: Temperature, voltage, and current battery sensors are part of the battery management system (BMS). Functions: The battery pack’s optimal operation is the responsibility of this CAN network. It controls the flow of data about diagnostics, thermal regulation, charging status, battery health, and cell balancing. To avoid overcharging, overheating, or any other problems that can compromise performance or safety, the network continuously checks on the battery.

4. HVAC CAN Network

Controls the temperature in the cabin and operates the HVAC system. Key Components: HVAC Control Unit Temperature sensors for electric compressors and heat pumps Functions: The interior climate control of the car is effectively ensured by this network. It controls how the seat heaters, defrosters, and cabin heating and cooling systems interact. This data is separated on a separate CAN network to avoid interfering with important driving systems.

5. Charging CAN Network

Function: Managing correspondence between the car’s internal charging infrastructure and external charging outlets. Key Components: Port Control Unit for Charging On-Board Charger (OBC) External Charging Station Interface The management of communication between the vehicle and the charging infrastructure is the sole purpose of this network. To provide safe and effective charging, it controls voltage and current, monitors charging status, and organizes the flow of electricity during charging. For instance, it makes sure the battery gets the right amount of power during fast charging so it doesn’t overheat or sustain damage.

Conclusion

An essential component of the shift to electric mobility is the integration of electric vehicle systems. It goes beyond simply putting different parts together; it also involves making sure they function effectively, safely, and sustainably as a whole. The EV System Integration issues will persist in their evolution along with the growth in EV adoption, and the corresponding technologies and processes will also change. The future of EV system integration promises to uncover even greater possibilities for electric vehicles, influencing the development of energy and transportation systems, thanks to advancements in batteries, power electronics, and software.

It is impossible to overestimate the significance of smooth EV system integration as the globe continues to move toward cleaner and more sustainable modes of transportation. It is the foundation of the electric car revolution, making sure that the promise of more intelligent, efficient, and environmentally friendly mobility is realized.

“Empowering your EV solutions with high-performance VCUs, cutting-edge CAN keypads, versatile CAN displays, and innovative EV software services — driving efficiency, connectivity, and reliability into every journey.” Connect with us @ [email protected]

Intelligent Power Distribution Unit (PDU) Market Forecast 2024 to 2032

An Intelligent Power Distribution Unit (PDU) is an advanced electrical device designed to efficiently manage and distribute electrical power to various equipment and devices in data centers, server rooms, and industrial settings. It provides real-time monitoring, control, and data collection of power consumption, voltage, current, and other critical metrics.

Intelligent Power Distribution Unit (PDU) Market was valued at USD 1191 Million in 2022 and is expected to register a CAGR of 7.17% by 2032.

Key drivers in the Intelligent Power Distribution Unit (PDU) market include the increasing demand for efficient energy management solutions, the growing complexity of data centers and IT infrastructure, and the need for remote monitoring and control capabilities.

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The global Power Distribution Unit Market is projected to reach $5.2 billion by 2024 from an estimated $3.7 billion in 2019, at a CAGR of 7.1% during the forecast period. The rising investments in data centers along with increasing cloud-based networking are driving the demand for power distribution units.

Europe: The second-largest market for power distribution unit

The rise in the PDU market is influenced by various end-user industries such as networking, telecoms & IT, BFSI, and healthcare. The increase in investments for AI-driven cloud-based data centers results in the vast growth of intelligent PDUs. It also helps in real-time data monitoring and leads to customer growth & expansion. For instance, Huawei introduced the AI-driven data center switches to improve IT network operations. The new switch has 64-core ARM server processor. Thus, AI-driven data centers lead to innovation and create competitive advantages with new business opportunities.

America is projected to be the largest market for power distribution unit

The America is projected to be the largest market from 2019 to 2024, driven by the growth in demand for data centers in the US and Canada. The telecom & IT sectors witness a rise in demand for PDU, owing to the rise in developments in IT infrastructure. Similarly, the healthcare sector provides an opportunity for the PDU market, owing to the increase in demand for lifesaving equipment, which requires an uninterrupted power supply for critical operations. The region is witnessing a substantial growth for colocation data centers and provides lucrative opportunities for the players operating in the power distribution unit in the Americas.

Power Distribution Unit (PDU) Market Dynamics, Forecasts to 2024, Sales and Revenue Analysis Report Power Distribution Unit (PDU) Market Report The report offers an overview of the Power Distribution Unit (PDU) with the help of application segments and geographical regions (United States, Europe, China, Japan, Southeast Asia, India, Central & South America, ROW) that govern the market currently.

Global Power Distribution Units (PDU) Market is value is valued to reach USD 5.2 billion by 2024, and is expected to register CAGR of 6.5% over the forecast period 2020-2026.

Intelligent Power Distribution Unit (PDU) Market Upcoming Trends Forecast till 2024: APC, Cyber Power Systems, Eaton

Global Intelligent Power Distribution Unit (PDU) Market Report 2019 – 2024 Overview, Share, Revenue, Price and Gross Margin, Trend and Forecast is a professional and in-depth study on the current state of the Intelligent Power Distribution Unit (PDU) industry.

The global Intelligent Power Distribution Unit (PDU) market is completely analyzed and researched in the report to help players to develop their business tactics and ensure long-term success. The report provides useful Intelligent Power Distribution Unit (PDU) information to players and proposes results-oriented strategies for achieving a competitive edge. It also analyzes the Intelligent Power Distribution Unit (PDU) industry future trends, risks and entry barriers, status, development rate, Intelligent Power Distribution Unit (PDU) market factors, opportunities and challenges, sales channels, distributors and Porter’s Five Forces Analysis.

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Leading players in the market:

APC, Cyber Power Systems, Eaton, Raritan, Vertiv, ABB, Black Box Corporation, Cisco Systems, Enlogic, Geist, Hewlett Packward Enterprise, Leviton Manufacturing, Rittal, The Siemon Company, Tripp Lite, Anord Critical Power, BMC Manufacturing, Chatsworth Products, Elcom International, PDU Expert UK

Differentiation of the market based on types of product:

Single Phase

Three Phase

Differentiation of the market based on types of its application:

Telecom & IT

BFSI

Healthcare

Transportation

Industrial Manufacturing

Government

Energy

Geographical Classification of the market:

North America (U.S., Canada, Mexico) Europe (Germany, U.K., France, Italy, Russia, Spain, etc.) Asia-Pacific (China, India, Japan, Southeast Asia, etc.) South America (Brazil, Argentina, etc.) Middle East & Africa (South Africa, Saudi Arabia, etc.)

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A chapter-wise format in the form of numbers, graphical representations are given. The Intelligent Power Distribution Unit (PDU) leading industry players all around the world are identified to help in-process state and direction of the business. In addition, complete Intelligent Power Distribution Unit (PDU) information of these manufacturers and their market share by various regions, with the company and product introduction. The Intelligent Power Distribution Unit (PDU) is a crucial source for each market segment, speculator, and other players.

Intelligent Power Distribution Unit (PDU) solutions help customers in various application areas such as supply chain analytics, risk study, demand forecasting, and vendor management. The Intelligent Power Distribution Unit (PDU) market solutions include various modules, such as financial survey, real-time and batch data analysis, category management, and compliance and policy management. The implementation of Intelligent Power Distribution Unit (PDU) modules in the organizations will lead to higher data optimization, automated data cleansing, and sourcing category analysis.

Objective of Studies:

Save and reduce time by identifying Intelligent Power Distribution Unit (PDU) production, volume, leading players and segments

Highlights key business preference so as to help Intelligent Power Distribution Unit (PDU) industry to adjust their business strategies

Key findings and recommendations illustrate important disruptive Intelligent Power Distribution Unit (PDU) market developments, helping players to develop successful future strategies.

Develop Intelligent Power Distribution Unit (PDU) business expansion plans by using substantial growth providing developed and rising markets.

Analyze in-depth global Intelligent Power Distribution Unit (PDU) market trends and outlook as well as the factors driving the market, similarly as those hindering it.

Improve the decision-making process by recognizing approaches for related goods, segmentation and Intelligent Power Distribution Unit (PDU) market verticals that underpin industrial interest.

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Is the Demand For Data Center Rack PDU will Increase in The Upcoming Years?

The demand to reduce power consumption in data centers has increased the growth of PDUs worldwide. The use of intelligent PDUs is gaining traction among colocation end-users due to increased demand for monitoring and metering of rack power consumption. The market is further witnessing a decline in the adoption of basic PDU solutions, which are likely to be replaced by intelligent PDU in facilities, thereby fueling the demand for data center rack PDU globally. However, the migration from basic to intelligent PDU solution is expected to be slow in developing countries. Further, countries such as the US, the UK, Germany, France, the Netherlands, Singapore, China, and Hong Kong, and Australia are expected to be the significant contributors to the growth of data center rack PDU market.  The data center rack PDU market is likely to reach around $1.5 billion by 2024, growing at a CAGR of approximately 7% during 2018–2024.

Read more: https://www.arizton.com/market-reports/data-center-rack-power-distribution-unit-market-pdu-market

Global Power Distribution Units (PDU) Market 2019 | Manufacturers In-Depth Analysis Report to 2024

The latest trending report Global Power Distribution Units (PDU) Market 2019-2024 added by DecisionDatabases.com

This report studies the Power Distribution Units (PDU) market. A power distribution unit (PDU) or mains distribution unit (MDU) is a device fitted with multiple outputs designed to distribute electric power, especially to racks of computers and networking equipment located within a data center. Data centers face challenges in power protection and management solutions. This is why many data centers rely on PDU monitoring to improve efficiency, uptime, and growth.

The worldwide market for Power Distribution Units (PDU) is expected to grow at a CAGR of roughly 4.8% over the next five years, will reach 75 million US$ in 2024, from 57 million US$ in 2019.

This report focuses on the Power Distribution Units (PDU) in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

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Market Segment by Manufacturers, this report covers

 APC

 ABB

 Cisco

 Eaton

 Emerson

 Raritan

 CIS Global

 Leviton

 Server Technology

 Cyber Power Systems

 Geist

 HPE

 Tripp Lite

 Hpxin

 Delta Power Solutions

 Fujitsu

 GE

Market Segment by Regions, regional analysis covers

 North America (United States, Canada and     Mexico)

 Europe (Germany, France, UK, Russia and     Italy)

 Asia-Pacific (China, Japan, Korea, India     and Southeast Asia)

 South America (Brazil, Argentina,     Colombia etc.)

 Middle East and Africa (Saudi Arabia,     UAE, Egypt, Nigeria and South Africa)

Market Segment by Type, covers

 Basic PDU

 Metering PDU

 Monitoring PDU

 Switch PDU

 Others

Market Segment by Applications, can be divided into

 Telecommunications and IT

 Finance and Insurance

 Energy

 Medical Insurance

 Other

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The content of the study subjects, includes a total of 15 chapters: Chapter 1, to describe Power Distribution Units (PDU) product scope, market overview, market opportunities, market driving force and market risks. Chapter 2, to profile the top manufacturers of Power Distribution Units (PDU), with price, sales, revenue and global market share of Power Distribution Units (PDU) in 2017 and 2018. Chapter 3, the Power Distribution Units (PDU) competitive situation, sales, revenue and global market share of top manufacturers are analyzed emphatically by landscape contrast. Chapter 4, the Power Distribution Units (PDU) breakdown data are shown at the regional level, to show the sales, revenue and growth by regions, from 2014 to 2019. Chapter 5, 6, 7, 8 and 9, to break the sales data at the country level, with sales, revenue and market share for key countries in the world, from 2014 to 2019. Chapter 10 and 11, to segment the sales by type and application, with sales market share and growth rate by type, application, from 2014 to 2019. Chapter 12, Power Distribution Units (PDU) market forecast, by regions, type and application, with sales and revenue, from 2019 to 2024. Chapter 13, 14 and 15, to describe Power Distribution Units (PDU) sales channel, distributors, customers, research findings and conclusion, appendix and data source.

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Global Hydraulic Workover Units Market 2019 by Manufacturers, Regions, Type and Application, Forecast to 2024 @ https://www.decisiondatabases.com/ip/25882-hydraulic-workover-units-market-analysis-report

Global Cleanroom Fan Filter Unit Market 2019 by Manufacturers, Regions, Type and Application, Forecast to 2024 @ https://www.decisiondatabases.com/ip/39787-cleanroom-fan-filter-unit-industry-analysis-report

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Power Distribution Unit (PDU) Market 2019 Research Report

Power Distribution Unit (PDU) Market 2019 Research Report

The global Power Distribution Unit (PDU) market will reach xxx Million USD in 2019 and CAGR xx% 2019-2024. The report begins from overview of Industry Chain structure, and describes industry environment, then analyses market size and forecast of Power Distribution Unit (PDU) by product, region and application, in addition, this report introduces market competition situation among the vendors and…

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The global power distribution unit market is projected to reach USD 5.2 billion by 2024 from an estimated USD 3.7 billion in 2019, at a CAGR of 7.1% during the forecast period. The rising concerns overpower stability for uninterrupted business operations; rising power distribution unit installations for reducing energy losses, and the increasing number of data centers are driving the power distribution unit market.

The three phase segment is projected to grow at a faster rate during the forecast period. Three phase power distribution units at the cabinets and data centers help in minimizing losses and simplifies the load balance at all input and output power points. The advantages of installing three phase power distribution units are that the cost of cabling for three phase is very low as compared to single phase; also, the total installation time is less. These power distribution units are suitable for heavy industries that require continuous power. With hyper-scale data centers and increasing cloud-based operations across the end-user industries, the demand for three phase power distribution units is projected to increase during the forecast period.

The Americas is projected to be the largest market during the forecast period.

The Americas is projected to be the largest market from 2019 to 2024, driven by the growth in demand for data centers in the US and Canada. The telecom & IT sectors witness a rise in demand for PDU, owing to the rise in developments in IT infrastructure. Similarly, the healthcare sector provides an opportunity for the PDU market, owing to the increase in demand for lifesaving equipment, which requires an uninterrupted power supply for critical operations. The region is witnessing a substantial growth for colocation data centers and provides lucrative opportunities for the players operating in the power distribution unit in the Americas.

Power Distribution Unit (PDU) Market is Driven By An Increase In Acceptance Of Cloud Computing And Server Virtualization

The top five players in the global power distribution unit (PDU) market held a share of nearly 61% in 2015, rendering its vendor landscape consolidated. These companies are Cyber Power Systems, Inc., Emerson Electric Co., Raritan, Server Technology, and Schneider Electric. Despite the prevailing consolidation, fierce rivalry exists among the market players, finds Transparency Market Research (TMR) in a new study. It is therefore observed that these companies are focusing on product development to cater to the dynamic consumer preference. Besides this, many of them are focusing on research activities, innovations, and exploring novel technologies to strengthen their foothold.

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For instance, Schneider Electric has shown keenness towards investing in research and development activities in the past years. The company majorly focuses on innovating state-of-the-art technology and commercializing the same to gain traction around the world. Likewise, Server Technology owns around 48 patents, while TMR states that 54 patent applications are pending. With the leading players investing in product innovation, it is expected to give much impetus to the market in the coming years.

As per TMR, the global power distribution unit market is expected to reach US$2.26 bn by the end of 2024. Its valuation in 2015 was US$1.14 bn and between 2016 and 2024, the market is expected to demonstrate a CAGR of 7.9%. In terms of revenue, the IT and telecom sector emerged dominant with a share of 31.3% in the overall market in 2015. Regionally, North America emerged dominant with a share of 35.7% in the global market in 2015. However, Asia Pacific is likely to showcase the most lucrative opportunities during the forecast period.

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