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Emissions Control Technology for Gasoline Engines
Describes emission control systems, explains how emissions are monitored by diagnostic systems, and provides information on emissions control regulations. Sections include sensors; electronic diagnosis; exhaust emissions; reducing emissions; catalytic emissions control; and emissions control legislation. (Color; 96 pages)
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Conventional and Electronic Braking Systems
Brake system components and functions; anti-lock braking system (ABS) requirements and components; electrohydraulic brakes (sensotronic brake control - SBC); electronic brake balancing system; sensors; electronic control units; hydraulic modulator; and brake testing. (Color; 134 pages)
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Gasoline Fuel Injection System Mono-Jetronic
Describes the functions of the Mono-Jetronic fuel injection system: combustion in the engine; mixture formation; Mono-Motronic engine management; and emissions control technology. (Black & White; 49 pages)
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Ignition Systems for Gasoline Engines
Describes the design and operation of modern inductive ignition systems installed in spark ignition engines. Two main sections are the ignition coil and the spark plug. These sections provide detailed descriptions of the design, versions and operating concepts of various coil and plug models. Also included are descriptions of the particular demands imposed by direct gasoline injection and their implications for the selection of ignition components. The chapter on service technology offers insights into the methods employed to test ignition systems along with an overview of the test equipment used in service operations. (Color; 98 pages)
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Automotive Sensors
Sensors are used in all areas of a motor vehicle: in engine management systems, in vehicle safety systems and in comfort and convenience systems. As well as detecting operating states, sensors can also sense the vehicle's environment. The measurement principles of the different sensor groups (position sensors, velocity sensors, pressure sensors, etc.) are explained in this publication. Examples show how these measurement principles are applied in different sensor types. This booklet describes sensory classification, reliability, error types and tolerance requirements, sensor measurement principles, and sensor types. (Color; 165 pages)
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Audio, Navigation and Telematics in the Vehicle
Provides detailed information on car radios, combination units incorporating mobile telephones, telematic and navigation components, and complex driver information systems. (Color; 108 pages)
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Adaptive Cruise Control (ACC)
Provides comprehensive information about the system structure, its components and method of operation, and the different approaches to adaptive cruise control: radar ranging and modules; ACC electronic module and system network; object detection and selection; ACC controls and displays; and data processing in the vehicle and data transfer between automotive electronic systems. (Color; 80 pages)
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Gasoline Engine Management: Basics and Components
Deals with the technical concepts employed in complying with the demands made upon a modern day engine and explains their operation. Sections include: basics of the gasoline engine; cylinder charge control systems; fuel supply; manifold fuel injection; gasoline direct injection; operation of gasoline engines on natural gas; inductive ignition system; catalytic emission control. (Color; 125 pages)
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Diesel Inline Fuel Injection Pumps
Explains the significant aspect of a variety of inline fuel injection pump designs and their components, such as pump units and delivery valves, as well as providing interesting insights into their methods of operation. There are chapters devoted to pump governors and control systems, outlining functions such as intermediate-speed and maximum-speed limiting, design types and methods of operation. Nozzles and nozzle holders, important components of the fuel injection system, are also explained. The chapter on workshop technology describes the tests and adjustments that are performed on fuel injection systems. (Color; 144 pages)
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Gasoline Engine Management: Motronic Systems
Explains the design of various Motronic systems and how they function. The main focus is on electronic control and regulation. Chapters include Motronic engine management; sensors; electronic control unit; electronic control systems; electronic diagnosis; data transfer between automotive electronic systems; and ECU development. (Color; 98 pages)
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Emissions Control Technology for Diesel Engines
Booklet describes the principles of minimizing pollutants inside and outside the engine. Systems for exhaust gas treatment will be described – particulate filter, selective catalytic reduction, NOx storage catalyst, and diesel oxidation-type catalytic converters, as well as control strategies by means of engine and exhaust gas management systems. Also included are sections on electronic diesel control (EDC); fuels; exhaust gas emissions; emission control legislation; exhaust gas measuring techniques; and fault diagnostics. (Color, 133 pages)
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Motor Vehicle Batteries and Electrical Systems
Explains how various types of batteries work, how conventional and future vehicle electrical systems are designed and wired, and many other technical characteristics of these indispensable items of automotive equipment. (Color; 106 pages)
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Distributor Type Diesel Fuel Injection Pumps
Deals with the design and construction of port-controlled and solenoid-valve-controlled distributor injection pumps and how their components interact within the system. The section on workshop technology provides insight in testing and tuning these fuel injection systems. (Color; 133 pages)
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Automotive Networking
This publication starts by explaining the basic principles of networking and uses several examples to demonstrate the need for networking in modern vehicles. It contains all the essential information on the networking of electronic automotive systems and describes the most important bus systems. This booklet describes network topology; network organization; OSI reference model; cross-system functions; requirements and classification of bus systems; applications in the vehicle; coupling of networks; examples of networked vehicles; bus systems: CAN BUS, LIN bus, Bluetooth, MOST bus, TTP/C, FlexRay, diagnosis interfaces; and architectural methods of electronic systems. (Color, 119 pages)
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Hybrid Drives, Fuel Cells and Alternate Fuels
The use of fuel cell vehicles lies in the future. These vehicles do not have an internal combustion engine and thus do not use diesel fuel or gasoline. The drive power is provided by an electric motor alone. Fuel cells, which run on hydrogen as the fuel, supply the electric motor with electrical energy. This enables the vehicle to run locally without emissions. Hybrid drives, fuel cell vehicles and alternative fuels will be discussed in this booklet. (Color; 95 pages)
Hybrid configurations, operating strategies and system componentsFuel cell system for the vehicle driveManufacture, application and criteria for utilization of alternative fuels
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Diesel Fuel Injection Systems-Unit Injector System & Unit Pump System
This book describes the individual system areas of Unit Injection Systems and Unit pump Systems and explains how they work: fuel delivery in the low-pressure stage, high-pressure generation in the unit injector and in the unit pump, and regulation of fuel injection by Electronic Diesel Control (EDC). Significant correlations between the fuel injection system and the creation of emissions and basic fault diagnosis options are also explained.
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