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In most cases when it comes to laptop adapters, they are usually the first to give out. This is because of the wiring and at times the carelessness of some users......http://www.notebookbatteries.co.nz/
PERFOMANCE BOOST The Freescale* MPXV4115V pressure sensor is the ideal part for automotive vacuum sensing needs such as those found in the brake booster application. Prepared by Marc Osajda Automotive Sensor Marketing Motorola – Toulouse, France Advanced braking systems are becoming increasingly common in today’s automobiles. Higher level systems and technology now being used in “brake assist systems” (BAS) in several European cars, have made it possible for more efficient and intelligent braking systems. A key functional application block found in these braking systems that has advanced with this technology surge, is the vacuum brake booster function. Here are a few driving factors behind the need and use of the brake booster, which helps ensure a safer braking system. Independent Systems: In current gasoline engine cars, the engine’s intake manifold generates the vacuum for the brake booster. This system works fine with one exception. The amount of vacuum in the brake booster is unknown by the braking system. Thus the amount of amplification is also unknown. If heavy braking is needed, there is no possibility for the brake system to interact with the intake manifold if additional amplification is required. The manufacturer’s interest for having the vacuum generated by an auxiliary vacuum pump is that the brake system can manage the amount of vacuum as required, on demand. This in turns gives it the ability to perform amplification on its own, giving it complete independent from the engine’s operating condition. The auxiliary pump is also able to provide higher amounts of vacuum whenever necessary. In situations calling for heavy braking, the pressure will naturally decrease in the brake booster, also causing a decrease in the amplification during braking. With an external pump it is possible to maintain, or even increase the amplification during a heavy braking phase. Smart Safety: Wheel blocking due to high-braking force is controlled by the Anti-Lock Brake System (ABS). However, it has been observed that in many cases, drivers do not...
Introduction Everybody knows that when you press your foot on the brake pedal the vehicle is supposed to stop. But how does the pressure from your foot get to the wheels with enough force to stop a heavy vehicle? In the following sections, we will study the systems and components required to allow brakes to work effectively. Course Objectives Upon completion of this course, technicians should understand and be able to apply their knowledge of: • • • • • • • • • • • • Brake functions and components Split hydraulic systems Master cylinder operations Balance control systems Power brake booster systems Disc brake operation Micrometer reading Drum brake operation Brake fluids Brake bleeding operations Brake lines and hoses Basic diagnosis Using the Job Sheets As you proceed through the online module, on some pages you will find links that will open a window with a printable procedure or job sheet containing hands-on lab activities based on the NATEF standards related to the content you are studying. When you come upon a procedure or job sheet link, click on it and print the job sheet for completion in the shop. See your instructor for guidance in completing the job sheets. Some jobs sheets will require supplemental materials such as a vehicle service manual, equipment manual, or other references. Brake System Functions Automotive brakes are designed to slow and stop a vehicle by transforming kinetic (motion) energy into heat energy. As the brake linings contact the drums/rotors they create friction which produces the heat energy. The intensity of the heat is proportional to the vehicle speed, the weight of the vehicle, and the quickness of the stop. Faster speeds, heavier vehicles, and quicker stops equal more heat. Automotive brake systems can be broken down into several different sub-systems (fig. 1): • Apply system • Boost system • Hydraulic system • Wheel brakes • Balance control system • Warning system (fig. 1) Base Brake Systems .
Written by Donald P. Hessenaur As aircraft engine prices continue to rise beyond the reach of most who would like to build and fly their own aircraft, many are turning to alternate power sources. This is not a new phenomenon. From the Wright brothers on, many have designed, built or converted engines to aircraft use. At one time or another engines have been used from automobiles, motorcycles, outboard motors and even snowmobiles, with varying degrees of success or failure. AUTO ENGINE CONVERSIONS Today many automotive engine conversions are appearing on the aviation scene. They are definitely a viable alternative. The automotive engine today is very advanced technically and relatively low in cost when compared to Lycomings and/or Continentals. Unfortunately, automotive engines are designed and optimized for the automobile and not for aircraft. Generally auto engines operate at a much higher RPM. The torsional vibration characteristics of a given engine, connected to a transmission, drive train and wheels, are quite different from that of the same engine, connected to an aircraft propeller. The damping action of the tires on the road and the inertia effects of the mass of the automobile are not even close to the damping/inertia effects of a propeller turning in air.
Thank you for choosing Electrolux, the new premium brand in home appliances. This Use & Care Guide is part of our commitment to customer satisfaction and product quality throughout the service life of your new appliance. ©2007 Electrolux Home Products, Inc. We view your purchase as the beginning of a relationship. To ensure our ability to continue serving you, please use this page to record important product information. Keep a record for quick reference Purchase date Electrolux model number Electrolux serial number (see picture for location) NOTE Registering your product with Electrolux enhances our ability to serve you. You can register online at www.electroluxusa.com or by dropping your Product Registration Card in the mail. Questions? For toll-free telephone support in the U.S. and Canada: 1-877-4ELECTROLUX (1-877-435-3287) For online support and Internet production information visit http://www.electroluxusa.com All rights reserved. Printed in the USA Safety Important safety instructions Recognize safety symbols, words and labels Safety items throughout this manual are labeled with a WARNING or CAUTION based on the risk type as described below:...
Product No. EW30ES6CGS6 37663376J76S6 Series 30" elec Color stainless Market Canada Wiring Diagram 318550155 Owner's Guide 318203847 Installation Instructions 318201615 Service Data Sheet 318127078 Quick Start Guide 318203404 30-INCH SLIDE-IN RANGE EW30ES65GS.bmp CEW30ES65GWB.eps BEW30ES6CGS5.eps TEW30ES65GSE.eps ELECTRIC DEW30DS6CGS6.eps 318550155-1.eps 318550155-2.eps Model No. EW30ES6CG Electrolux Major Appliances P.O. BOX 8020 CHARLOTTE, NC 28262 Publication No. 5995581237 10/11/22 (EN/SERVICE/ECL) 377 Publication No: 5995581237 EW30ES6CGS6 BACKGUARD 11/10 2 EW30ES6CGS6 Publication No: 5995581237 BACKGUARD POS. NO 18 19 # 20 # 21 22 23 24 25 97A# 99 # 99*# PART NO. 318900301 318387121 316576612 316524400 318905005 5304417153 5303307980 5303131801 316576432 316535201 318578306 DESCRIPTION Subframe, control Control Assembly, glass, black, w/interface Controller, electronic, ES630 Screw, control mtg, 6-32 x .25, (5) Panel, service, stainless Screw, shoulder, 8-18 X 1/2, (4) Screw, 8-32 x 0.437, (8) Screw, 10 x 3/8 Board, power, UIB Board, power supply, 8V Harness, wiring, power supply * # * # * * 318578320 318578321 318163602 5303211311 Harness, wiring, controller, to UIB Harness, wiring, UIB, to power boards Cleaner, stainless steel Screw, 8-18 x 0.500 # Functional Parts * Non-Illustrated Parts 3 11/10 Publication No: 5995581237 EW30ES6CGS6 BODY 11/10 4 EW30ES6CGS6 Publication No: 5995581237 BODY POS. NO 1 1A 2 3 4 4A 6 6A 6B 7 8 8A 8B 8B* 9 10 11 12 13 13* 14 # * # 15 18 20 21 24 29 37 # 39 # 53 # 54 # 54* 54* 54* 55 58A 58B 58C 58D 59 59* 62 62* 66 # 67 # 70 71 76 77 77A # Functional Parts * Non-Illustrated Parts
Made in the U.S.A. All of our harnesses are hand assembled in the U.S.A. Correct Color Wires Our harnesses always match the original factory color codes and gauge sizes. We use U.S.A. made Cross Linked Polyethylene type GXL wire which is much more tolerant to heat than the original PVC type GPT wire that was used from the factory. Dip Soldered (when applicable) All terminals are dip soldered (when applicable) to limit resistance loss. Correct Connectors & Terminals With over 300,000 connectors and terminals in stock you can be sure the harness you receive will look identical to the original. 1 WIRE IGNITION Correct Non-Adhesive & Cloth Tapes All harnesses are wrapped with the correct non-adhesive or cloth woven tapes to assure a 100% factory appearance. Technical Support We don't expect our customers to be “wiring-wizards”, you can call us direct with any technical questions you may have. Custom Modifications Custom modifications are available to allow you to convert from an external regulated alternator to an internal regulated alternator. This modification is available for most '63 and up GM cars and trucks. We can also convert many of our engine harnesses to work with H.E.I. distributors and electric chokes. Our modifications retain the factory appearance. Call our Customer Service Department for more details.
NOTES • are must be taken during customer installation of equipment and wiring C to ensure that all holes drilled in the body are corrosion protected, properly sealed and that vehicle wiring harnesses, piping or other components have not been displaced or damaged. Aftermarket equipment installers must be mindful of applicable Federal Motor Vehicle Safety Standards. This information can be obtained directly from the National Highway Traffic Safety Administration. • These vehicles are equipped with an air bag system. The air bag system in your police vehicle includes front seat back, front knee and side curtain air bags. Customer installed equipment such as security barriers behind the front seats should not be mounted so that the barrier ends are within the side air bag deployment zones. The sensors and other components for the air bag system must not be relocated to accommodate the installation of customer furnished equipment; please refer to the service manual for sensor and other component locations. For information concerning instrument panel top pad mounted equipment and air bag system deployment zones, see the air bag information section in this catalog. • This catalog is not updated during the model year and should not be
WESTERN PRODUCTS, P.O. BOX 245038, MILWAUKEE, WI 53224-9538 Lit. No. 64127 October 31, 2003 CHEVY/GMC 1500/2500/3500 4x4 1999 & LATER VEHICLE SPECIFIC ELECTRICAL INSTALLATION INSTRUCTIONS Model No. 3515 & 3525 and Model No. 3519 & 3529 Straight Blade (Models 3515, 3525, 3519, & 3529) 2003 & Later: Harness Kit No. 64077 (HB-3 & HB-4 QUAD Lights) Headlamp Kit 12-Pin (White) No. 64078 1999-2002: Harness Kit No. 63392 (HB-3 & HB-4 QUAD Lights) Headlamp Kit 9-Pin No. 61540-1 MVP® Blade (Models 3525 & 3529) 2003 & Later: Harness Kit No. 64085 (HB-3 & HB-4 QUAD Lights) Headlamp Kit 12-Pin (White) No. 64078 1999-2002: Plug-In Harness 63394 (HB-3 & HB-4 QUAD Lights) Headlamp Kit 66640-1 MVP 12-Pin CAUTION Read this document before installing the snowplow. CAUTION See your WESTERN outlet for application recommendations. The Selection List has specific vehicle and snowplow requirements. ®
NOTES ON ALL GENERAL MOTORS HARNESS SYSTEMS We have done a great deal of research on General Motors wiring harnesses in order to provide you with the most authentic wiring systems possible. While doing this research, we had the opportunity to study original harness blueprints and specifications for some General Motors products. All of the data we examined specified that the wire was to have a natural cotton base color (a light tan) braided over the rubber insulation, with tracer colors woven in for wire identification. The tracer colors would consist of a single thread parallel tracer or two single thread crossing tracers, as specified on the harness blueprints. After the cotton braid was applied to the wire it was to be given a protective coating consisting of a heat, oil and water resistant varnish. This protective coating would color with age and cause the original wire to appear dark yellow, orange, or brown. All the wire we use for General Motors vehicles conforms to the original color codes as specified by the manufacturer. One note on our General Motors harness systems: At this time we cannot supply the original type GM twist connectors, the rear body plug, or the turn signal switch plug. We do provide substitute connectors...