In Henry Ford began production of the Model T automobile. Based on his original Model A design first manufactured in , the Model T took five years to develop. Its creation inaugurated what we know today as the mass production assembly line. This revolutionary idea was based on the concept of simply assembling interchangeable component parts. Prior to this time, coaches and buggies had been hand-built in small numbers by specialized craftspeople who rarely duplicated any particular unit. Ford's innovative design reduced the number of parts needed as well as the number of skilled fitters who had always formed the bulk of the assembly operation, giving Ford a tremendous advantage over his competition.
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- Bridging The Gap
- Industrial Automation & Control for Manufacturing & Machinery
- Electronics Manufacturing Equipment: Where are we Headed
- Automotive Electronics Manufacturer
- Original equipment manufacturer
- Auto Components Industry in India
- Engine Manufacturing
- Our capabilities
- Industrial and Manufacturing
Bridging The GapVIDEO ON THE TOPIC: Mercedes Battery Production Factory
RDM Group, formed in , supplies world class products and engineering services to the automotive industry. We have developed an excellent reputation and track record as a tier 1 supplier for high quality, innovative engineering solutions.
We can offer clients ground up vehicle design, development and manufacturing services. Our Advanced Engineering Centre supports ambitious new vehicle builds and cutting edge development work on a host of automotive components. We have developed an excellent reputation for high quality, innovative products and exceptional customer service.
Our experience, expertise and flexible approach are the keys to our success. We are also experts in taking cost and weight out of difficult engineering projects. RDM Group manufactures a wide range of products on a bespoke or low volume basis through to high volume supply within our technical manufacturing facilities in Coventry.
RDM Group uses design and process validation tools together with electrical performance testing, vibration, humidity, environmental tests, EMC and type approval to validate production designs. We also have experience of individual vehicle OEM requirements and techniques, together with specific customer design and validation processes. Once instructed, we will operate on behalf of the customer for the entire supply chain for a product or group of products.
We support all initial warranty issues and liaise with the supplier for further actions. For example, one customer uses RDM to manages in excess of components from over 35 suppliers located all over the world. We would be delighted to discuss in detail your supply chain consolidation and provide a competitive quotation.
We work with customers from the earliest possible development stage and can offer a range of services, from prototyping and electronics, to interior trim and machining. We employ engineers skilled in both ECU hardware and software design together with experience of a wide range of vehicle ECUs. We also specialise in the redesign of existing ECUs to reduce costs and improve efficiency.
RDM Group offer a complete ECU design service from product specification, circuit and schematic diagrams to component selection, including programmable devices and PCB layout. This also features prototype ECUs and production part supply, selection of interface connectors, link wiring harnesses, enclosures and any requirements for fixings and brackets.
Continual customer feedback is sought to ensure the product meets the desired specification. Our range of ECUs completed for customers is vast and includes very simple units, right through to highly complex body controllers. RDM Group offers design and development for mobile applications to interface to consumer products.
We can also develop android applications. Our background in the automotive sector provides us with the expertise and knowledge for the development of apps to enhance the entire vehicle ownership experience.
It also covers non-critical systems including heating, ventilation, lighting and in-car entertainment. The project utilises an Apple iPad to control vehicle functions and provide feedback to the driver. The vehicle components such as the headlamps are individual radio frequency connected ECUs controlled by the iPad. The 6-month project produced a working demonstrator electric vehicle EV with only the iPad, brake pedal, throttle pedal and steering wheel. RDM Group is playing a leading role in the development of next generation, low carbon, zero emission vehicles.
We have been involved and continue to be involved in projects to deliver both electric and hydrogen powered vehicles thanks to our ability to offer a one-stop shop for electrical systems, drive train systems and fuel cell interface. In addition, we have the facilities to support manufacturing, including the wiring systems and control electronics to support vehicle builds and conversions.
It is capable for off-road use but can be used on road for short range work. The installation of a V electric drive train was challenging, and was completed on time to support Land Rover at the Geneva Motor Show in In stage one, a total of seven vehicles were completed and full parts and process documentation undertaken. The vehicle is propelled by a 70KW Nm switched reluctance drive motor. The SR motor is located in the transmission tunnel area and connected via a bespoke drive coupling assembly to drive directly into the standard vehicle transfer box.
A CAN based system control ECU looks after the interaction and operation of the drive motor, battery and driver controls. Our passion for innovation and pushing the boundaries of technology has seen us lead the way in the production of autonomous vehicles within the L-SATS Low-Speed Autonomous Transport System sector. This will enable future driving to be free from fuel, emissions, accidents and opens up new transport opportunities for local authorities plagued by congestion issues.
These striking pods can also be customised to house more passengers and suit other applications, including:. RDM can work with project partners, from initial design and prototyping, through to testing and assembly.
Our Advanced Engineering Centre in Coventry is also capable of small to medium volume production. We had the eyes of the world media on us recently when we unveiled a major UK transport breakthrough in Greenwich, London.
Electric powered, the vehicle can seat two people, will travel at a maximum speed of 15mph and boasts a range of 40 miles.
The build of the first prototype took just 10 months to complete and involved ten specialist engineers at RDM. Three pods were built and trialed on the pavements of Milton Keynes during Not only will the programme help develop the new protocols and connected infrastructure required to deliver future autonomous mobility, it will allow the UK Autodrive team to test public reaction to both driverless cars and self-driving pods. RDM will be responsible for developing up to 40 driverless pods similar to the Lutz pods for a series of trials in Milton Keynes with a couple of guest visit trials in Coventry.
Coventry-based RDM Group had a surprise visitor to their display earlier today at celebrations held to mark the 50th birthday of Milton…. Graham Keene Finance Director gkeene rdmgroup.
Jez Coates Project Chief Engineer jcoates rdmgroup. Degree in Mechanical Engineering from Warwick University. Previously worked for Leyland Vehicles and 23 years at Caterham Cars as Technical Director with responsibility for the design and development for all road and race models.
Experienced executive responsible for growing and managing innovative infrastructure, technology, integration, project and services businesses. Intelligent transport and connected mobility specialist. An engineer and technologist with a background in electronic, software, and transport engineering. Gained a PhD researching the actions of autonomous vehicles in real world dynamic environments. ARUP , is a multinational professional services firm headquartered in London which provides engineering, design, planning, project management and consulting services for all aspects of the built environment.
Coventry University , is a public research university in the city of Coventry, England. Infineon , focuses on the three central challenges facing modern society, energy efficiency, mobility and security.
It offers semiconductors and system solutions for automotive, industrial electronics and chip card and security applications. WMG , part of the University of Warwick, provides innovative solutions to industry, through research, education and collaboration. We take on all ECU projects, whether it is a system appraisal or a bespoke turnkey solution. The aims were to: simplify electrical systems reduce weight within the vehicle provide high levels of configurability to remove the reliance upon carry over of OEM systems for electric vehicle applications.
There are 15 consortium partners including:. Aurrigo Pod Zero. UK Autodrive driverless pod testing in Milton Keynes. Our Latest Posts. RDM to lead driverless vehicle study to unlock congestion in Cambridge May 09 Latest Tweets Loading Send Message.
Our central East Coast location and access to the Southeast, one of the fastest-growing markets in the U. Download Excel. Charleston is well positioned for automotive companies with a government that supports business development, and an area rich in historic and natural beauty that helps attract and attain talent. View Automotive Video. Nearly one-third of the U.
Industrial Automation & Control for Manufacturing & Machinery
An engine is the heart of a vehicle's operating system and ultimately what makes the vehicle a successful form of transportation. Without the engine, a vehicle is just another big piece of stamped out metal appearing in various shapes and sizes. In addition to being manufactured for vehicles, engines are also built for aircraft and large machinery equipment, such as Caterpillar excavators and dozers. They are also used in trailer manufacturing for the hydraulic systems. Companies in the engine manufacturing industry manufacture and assemble diesel engines, electric engines, industrial engines, and natural gas-powered engines. The engines built will eventually be used as the workhorse for automotive vehicles, heavy-duty trucks, mid-duty trucks, and RVs. We cover more below on which industries engines are built for, where the workers are located, and, most importantly, the PPE workers require when manufacturing engines.
Electronics Manufacturing Equipment: Where are we Headed
Direct-Write Technologies covers applications, materials, and the techniques in using direct-write technologies. This book provides an overview of the different direct write techniques currently available, as well as a comparison between the strengths and special attributes for each of the techniques. The techniques described open the door for building prototypes and testing materials. The book also provides an overview of the state-of-the-art technology involved in this field. Basic academic researchers and industrial development engineers who pattern thin film materials will want to have this text on their shelves as a resource for specific applications. Others in this or related fields will want the book to read the introductory material summarizing isuses common to all approaches, in order to compare and contrast different techniques. Everyday applications include electronic components and sensors, especially chemical and biosensors. There is a wide range of research and development problems requiring state-of-the-art direct write tools. This book will appeal to basic researchers and development engineers in university engineering departments and at industrial and national research laboratories. This text should appeal equally well in the United States, Asia, and Europe.
From design to mass-production, we understand flexibility and customer relationship are as important as advanced engineering skills. Placing continuous improvement and excellence at the heart of our processes, we will support your project from any of our facilities the same way: seamlessly. Supporting your growth from prototyping to mass-production, no matter where you are. Electronic Manufacturing Services, mastered.
The Indian electronics manufacturing equipment industry is bound to evolve with the quickly changing electronics manufacturing landscape of the country. The role of manufacturing equipment is crucial to ensure the quality and functionalities of any electronic device or component. The entire processing life cycle of an electronic device travels through various manufacturing equipment, from being a printed circuit board PCB to a finished electronic device. According to changing application requirements, electronic devices and PCBs also need to be developed in various shapes, forms and sizes. The ever-increasing complexity of electronic assembly and miniaturisation of components enhance the demand for advanced manufacturing equipment. As PCBs and electronic components become more miniaturised than before, manufacturers face the challenge of placing accurate deposits of small components on miniaturised boards. This, in turn, fuels the demand for advanced manufacturing equipment with a high degree of reliability and accuracy. This study presents the current trends and growth opportunities in the Indian electronics manufacturing equipment industry with a special focus on surface-mount technology SMT. The Indian electronics manufacturing equipment market is also bound to grow along with the electronics manufacturing sector in the country. The Indian electronics manufacturing industry is on track towards achieving its full potential in terms of manufacturing and designing capabilities.
Automotive Electronics Manufacturer
Account Options Sign in. Business America , Volume 4. Includes articles on international business opportunities. Selected pages Page Page Contents Published biweekly by the U S Department of affecting world trade Commerce Washington D C Annual subscription rate.
Original equipment manufacturer
An original equipment manufacturer OEM is a company that purchases parts and equipment that may be manufactured by another company. The term is also used in several other ways, which causes ambiguity. It sometimes means the maker of a system that includes other companies' subsystems, an end-product producer, an automotive part that is manufactured by the same company that produced the original part used in the automobile's assembly, or a value-added reseller. When referring to auto parts, OEM refers to the manufacturer of the original equipment, that is, the parts assembled and installed during the construction of a new vehicle. In contrast, aftermarket parts are those made by companies other than the OEM, which might be installed as replacements after the car comes out of the factory. For example, if Ford used Autolite spark plugs , Exide batteries, Bosch fuel injectors , and Ford's own engine blocks and heads when building a car, then car restorers and collectors consider those to be the OEM parts.
Auto Components Industry in India
RDM Group, formed in , supplies world class products and engineering services to the automotive industry. We have developed an excellent reputation and track record as a tier 1 supplier for high quality, innovative engineering solutions. We can offer clients ground up vehicle design, development and manufacturing services.
Its other activities include participation in international trade fairs, mounting trade delegations overseas and bringing out publications on various topical subjects related to the automotive industry. Your browser does not support the video tag. Deepak Jain.
You need your assembly process to run efficiently. That means precise data and communications and spotlessly clean components and parts.
Industrial and Manufacturing
You have been detected as being from. Where applicable, you can see country-specific product information, offers, and pricing. Learn about the future of car design and how virtual reality VR , generative design, and real-time clay modeling work together to enhance the design process. Car design studios can take advantage of trends like VR, real-time clay modeling, generative design, and machine learning to stay competitive in the fast changing auto industry.