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Electronics Live
Birmingham, United Kingdom
A
1-10 Employees
-
Key takeaway
Electronics Live is a new platform that highlights the latest technology in the electronic components supply chain, with a specific focus on vehicle electronics.
Reference
Core business
Vehicle Electronics - Electronics Live
Vehicle Electronics
-
1-10 Employees
-
Key takeaway
Vehicle Electronics is a monthly magazine dedicated to automotive electronics engineers, highlighting innovations like Murata's compact MLCC and Infineon's noise-canceling microphone. The publication also discusses industry growth and advancements, such as Microchip's extended USB coverage and Denso's adoption of AMD Xilinx for lidar platforms.
Reference
Core business
Home | Vehicle Electronics
ECU Global
Johannesburg, South Africa
C
1-10 Employees
2020
Key takeaway
The company specializes in automotive electronics, providing essential aftermarket services such as Engine Control Unit (ECU) testing and repair, as well as vehicle diagnostics and programming. Their expertise ensures that electronic vehicles maintain peak performance, offering solutions that save time and money for car owners.
Reference
Core business
ECU Global - Automotive electronics aftermarket services- About Us
We are professional and reliable Automotive electronics aftermarket services provider offering vehicle electronics diagnostics, testing and repair services
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Synergytradeshop
Chippenham, United Kingdom
A
1-10 Employees
-
Key takeaway
Synergy Automotive Electronics specializes in designing, developing, and distributing innovative automotive electronic components that seamlessly integrate with vehicles, enhancing the overall user experience. Their commitment to technology and service ensures they provide effective solutions for both the aftermarket and OEM/Vehicle Manufacturers.
Reference
Core business
Synergy Automotive Electronics About us.
Automotive Electronic Solutions LLC
Longview, United States
B
1-10 Employees
-
Key takeaway
Auto E Solutions provides cost-effective and timely electrical repair and diagnostics for vehicles, making it a valuable resource for automotive electronics. Their services, which include ADAS calibrations, cater to collision shops, mechanic shops, and auto owners.
Reference
Core business
Automotive Electronics | Longview, TX | Automotive Electronic Solutions LLC
Automotive Electronic Solutions is your alternative to dealership high prices and wait time when it comes to electrical repairs and diagnostics. We service Longview, TX, and the surrounding areas. Give us a call today!
MRS Electronic Inc.
Dayton, United States
B
11-50 Employees
2015
Key takeaway
The company specializes in high-quality vehicle electronics and software services, particularly in the e-mobility sector. With over 20 years of experience, they develop and manufacture customized hardware and software solutions for the automotive industry, including controllers, relays, and HMI systems.
Reference
Core business
Home - MRS Electronic, Inc., your partner for automotive electronics and software services.
ITECH Electronics
Macau, China
D
251-500 Employees
-
Key takeaway
ITECH offers innovative testing solutions applicable to various industries, including automotive electronics. Their focus on power regenerative products contributes to reducing CO2 emissions and promoting sustainability.
Reference
Product
Automotive Electronics-Welcome to ITECH
Instrument Sales and Service Inc.
Portland, United States
B
51-100 Employees
1949
Key takeaway
The company is a leading remanufacturer of automotive electronic components, providing high-quality solutions for OEMs and Tier 1 suppliers. With over 20 years of experience, they specialize in remanufacturing electronic and mechatronic parts, addressing the complex lifecycle challenges in vehicle service part supply.
Reference
Core business
Electronic and Mechatronic Part Solutions | ISS
Electronic and Mechatronic Part Solutions for Automotive, Agricultural, Commercial Vehicle and Off-Road/Heavy Duty. Serving OEMs, Tier 1 Suppliers, Dealerships, Aftermarket Companies
ORTEM
Gebze, Turkey
C
51-100 Employees
1998
Key takeaway
Ortem will participate in BUSWORLD 2023, highlighting its role in the automotive sector. The company recently attended the OPEVA Kick-Off meeting in Brussels, focusing on advancements in electric vehicle autonomy.
Reference
Product
Automotive | Ortem Electronics
emovation GmbH
Berlin, Germany
A
1-10 Employees
2017
Key takeaway
Emovation is focused on introducing innovative products to the automotive market, specifically by adapting technologies and innovations from various fields into automotive electronics.
Reference
Service
Automotive Electronics | Emovation
Technologies which have been searched by others and may be interesting for you:
A selection of suitable products and services provided by verified companies according to your search.
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Automotive Engineering
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Custom Electronics
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A selection of suitable use cases for products or services provided by verified companies according to your search.
Use case
Custom Electronic Design
automotive, E-mobility, automation, industrial automation, machinery, industrial machinery, smart industry, industry 4.0
Electronic design frameworks Electronic design starts from the component layout specification. Also, it consists in the definition of interconnections and PCB technology. Finally, component selection is formalized (BOM, Bill of Material), such as the circuit schematics and the layout of PCB traces (gerber file). If the Electronc Systems is composed of multiple circuit boards, electronic design includes the description of the interconnection schemes, and the instructions for the wiring manufacturing. Adgenera develops electronic circuits tailored and suitable for any application. It selects the most valuable technology for the peculiar field of application, in order to ensure the maximum reliability. Electronic design frameworks Custom-designed electronic solutions can be found in many sectors, covering various fields of application and meeting Client needs. The most frequent requests are: design “from the scratch” miniaturization of an existing circuit board cost Reduction electronic board update, when components are no longer available engineering a prototypal board, either partially or completely working functional improvement (for example, adding a wireless interface) performance improvement (for example, power consumption reduction) Other elements increase the complexity of the electronic design: legacy firmware for the previous version of board need for a custom / legacy interface to other electronic existing systems availability of the components on the market within a certain amount of time project constraints due to standards or certifications The steps of the Electronic Design Electronic design aims to respond to the request of designing and producing electronic circuit boards. First, the customer is interviewed on the characteristics of the electronic system to be designed.. The customer is actively involved to identify the best design choices. This preliminary phase leads to the correct identification of development times and costs, allowing the customer to verify the compliance with his needs and to create a preliminary project planning. Now the electronic scheme can be designed. Specific skills of our designers are applied to correctly select and size the components. Once the scheme has been designed, the electronic components available on the market are selected. Then, they will be soldered to the electronic board during its production phase. We select the most suitable package of components depending on the layout, the space available and the type of application. This design phase leads a draft of the BOM (Bills of Materials) necessary to supply and solder the right components. The electronic components chosen are placed on the board surface. Their positions strictly match design constraints principles to guarantee the correct functioning of the electronic system. Usually several alternative arrangements are evaluated. Finally, the chosen one is the one that leads to the best result once the electronic card is produced. Once the components are finally placed in the board, it is necessary to draw the connections (tracks) that appropriately connect the pins of the components themselves. The tracks design needs to follow many rules and best practices: although there are infinite ways to connect the chosen components, only a few solutions guarantee a good quality card. The preliminary electronic design project is ready: the first board samples are created to check the functionality and performance of the designed electronic system in the laboratory. During the tests, the laboratory instrumentation verifies that each quantity measurable on the card corresponds to the value theoretically calculated during the electronic scheme design.
Use case
Custom Electronic Design
automotive, E-mobility, automation, industrial automation, machinery, industrial machinery, smart industry, industry 4.0
Electronic design frameworks Electronic design starts from the component layout specification. Also, it consists in the definition of interconnections and PCB technology. Finally, component selection is formalized (BOM, Bill of Material), such as the circuit schematics and the layout of PCB traces (gerber file). If the Electronc Systems is composed of multiple circuit boards, electronic design includes the description of the interconnection schemes, and the instructions for the wiring manufacturing. Adgenera develops electronic circuits tailored and suitable for any application. It selects the most valuable technology for the peculiar field of application, in order to ensure the maximum reliability. Electronic design frameworks Custom-designed electronic solutions can be found in many sectors, covering various fields of application and meeting Client needs. The most frequent requests are: design “from the scratch” miniaturization of an existing circuit board cost Reduction electronic board update, when components are no longer available engineering a prototypal board, either partially or completely working functional improvement (for example, adding a wireless interface) performance improvement (for example, power consumption reduction) Other elements increase the complexity of the electronic design: legacy firmware for the previous version of board need for a custom / legacy interface to other electronic existing systems availability of the components on the market within a certain amount of time project constraints due to standards or certifications The steps of the Electronic Design Electronic design aims to respond to the request of designing and producing electronic circuit boards. First, the customer is interviewed on the characteristics of the electronic system to be designed.. The customer is actively involved to identify the best design choices. This preliminary phase leads to the correct identification of development times and costs, allowing the customer to verify the compliance with his needs and to create a preliminary project planning. Now the electronic scheme can be designed. Specific skills of our designers are applied to correctly select and size the components. Once the scheme has been designed, the electronic components available on the market are selected. Then, they will be soldered to the electronic board during its production phase. We select the most suitable package of components depending on the layout, the space available and the type of application. This design phase leads a draft of the BOM (Bills of Materials) necessary to supply and solder the right components. The electronic components chosen are placed on the board surface. Their positions strictly match design constraints principles to guarantee the correct functioning of the electronic system. Usually several alternative arrangements are evaluated. Finally, the chosen one is the one that leads to the best result once the electronic card is produced. Once the components are finally placed in the board, it is necessary to draw the connections (tracks) that appropriately connect the pins of the components themselves. The tracks design needs to follow many rules and best practices: although there are infinite ways to connect the chosen components, only a few solutions guarantee a good quality card. The preliminary electronic design project is ready: the first board samples are created to check the functionality and performance of the designed electronic system in the laboratory. During the tests, the laboratory instrumentation verifies that each quantity measurable on the card corresponds to the value theoretically calculated during the electronic scheme design.
Automotive electronics refers to the various electronic systems and components used in vehicles to enhance their functionality, safety, and comfort. This includes systems like engine control units (ECUs), infotainment systems, advanced driver-assistance systems (ADAS), and electronic stability control. These components play a crucial role in modern vehicles, enabling features such as navigation, connectivity, and energy management. With the increasing complexity of automotive technology, the demand for high-quality automotive electronic providers has significantly grown to support the development and integration of these essential systems.
Automotive electronics play a crucial role in enhancing vehicle performance by optimizing various systems within the vehicle. These components are integral in controlling engine functions, transmission systems, and fuel efficiency. Advanced electronic control units (ECUs) monitor and adjust engine parameters in real-time, leading to improved power output and reduced emissions. Additionally, automotive electronics enhance safety and handling through systems like anti-lock braking (ABS) and electronic stability control (ESC). These systems rely on sensors and algorithms to provide better traction and stability, especially in challenging driving conditions. By integrating sophisticated electronics, vehicles can achieve higher efficiency, better performance, and increased safety on the road.
Control Units Control units serve as the brain of automotive electronic systems, managing various functions such as engine performance, safety features, and infotainment systems. These units process information from various sensors to make real-time adjustments to enhance vehicle performance and safety. Sensors Sensors are critical components that gather data from the vehicle's environment and systems. They monitor parameters like temperature, pressure, and speed, providing essential information to control units for effective decision-making. Actuators Actuators translate electronic signals into physical actions within the vehicle, such as adjusting throttle position or deploying airbags. They play a vital role in responding to control unit commands to ensure the vehicle operates smoothly and safely. Communication Networks Communication networks facilitate data exchange between different electronic components in the vehicle. Protocols like CAN (Controller Area Network) enable seamless interaction between control units, sensors, and actuators, ensuring efficient system operation.
Automotive electronic systems play a critical role in enhancing vehicle safety through advanced technology and real-time monitoring. These systems include features such as Anti-lock Braking Systems (ABS), which prevent wheel lock-up during braking, enabling better control and shorter stopping distances. Additionally, Electronic Stability Control (ESC) assists drivers in maintaining control during difficult driving conditions by automatically applying brakes to individual wheels. Systems like Collision Avoidance Systems use sensors and cameras to detect potential hazards, providing alerts or even taking corrective actions to prevent accidents. These innovations collectively contribute to a safer driving experience by significantly reducing the likelihood of collisions and improving vehicle handling.
Recent advancements in automotive electronics are shaping the future of the automotive industry. One significant trend is the integration of advanced driver-assistance systems (ADAS), which enhance vehicle safety and automate driving functions. These systems rely heavily on sensors, cameras, and radar technology to provide real-time data for features like lane-keeping assistance and adaptive cruise control. Another notable trend is the shift towards electric vehicles (EVs), which require sophisticated battery management systems and power electronics to optimize performance. Innovations in wireless charging and vehicle-to-everything (V2X) communication are also gaining traction, allowing vehicles to interact with infrastructure and other road users. Additionally, the rise of over-the-air (OTA) software updates enables manufacturers to improve vehicle functions and security remotely, ensuring vehicles stay up-to-date with the latest technology.
Some interesting numbers and facts about your company results for Automotive Electronic
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 7040 |
| Amount of suitable service providers | 6791 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1949 |
| Youngest suiting company | 2020 |
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Some interesting questions that has been asked about the results you have just received for Automotive Electronic
What are related technologies to Automotive Electronic?
Based on our calculations related technologies to Automotive Electronic are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Which industries are mostly working on Automotive Electronic?
The most represented industries which are working in Automotive Electronic are Automotive, Other, Electronics and Electrical engineering, IT, Software and Services, Automation
How does ensun find these Automotive Electronic Suppliers?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.