DOCSLIB.ORG

Car Electronics

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Car Electronics CAR ELECTRONICS List of Chapters: Chapter 1 The Outline of Automotive Electronics 1.1 A History of Automotive Electronics 1.2 The Current Status of Automotive Electronics (1) Powertrain Control 2.3 Diesel Engine Control (2) Vehicle Control (1) Functions (3) Body Control (2) Actuators (4) Information Communication (3) ECU 1.3 Automotive Electronics: The Road 2.4 Transmission Control Ahead 2.4.1 Automatic Transmission Control (1) Functions Chapter 2 Powertrain Control (2) Sensors 2.1 Gasoline Engine Control (3) Actuators 2.1.1 Electronic Fuel Injection (4) ECU (1) Functions 2.4.2 CVT (Continuously Variable (2) Sensors Transmission) (3) Actuators 2.5 Electronic Throttle Control (4) Other Air Amount Measurement Sensors Chapter 3 Vehicle Control 2.1.2 Electronic Spark Advance 3.1 Suspension Control (1) Functions 3.1.1 Shock Absorber Damping Force (2) Sensors Control (3) Actuators (Igniters or Ignition (1) Functions Modules) (2) Actuators 2.1.3 Knock Control (3) Steering Sensor (1) Functions (4) ECU (2) Sensors 3.1.2 Spring Constant Control 2.1.4 Idle Speed Control (1) Functions (1) Functions (2) Actuators (2) Actuators (3) Vehicle Height Sensor 2.1.5 Diagnosis (4) ECU (1) Display of Failure Diagnosis 3.1.3 Electronic Vehicle Height Control Results (1) Functions (2) Diagnosis Method (2) Actuators 2.2 Single Point Injection (3) ECU (1) Functions 3.1.4 Other Absorber Damping Force (2) Actuators Control CAR ELECTRONICS 3.2 Cruise Control 4.7 Single-Wire Multiplex Networks (1) System Configuration (1) Functions and System (2) Actuators Configuration (3) ECU (2) Optical Fiber 3.3 Steering Control 4.8 Air Bag (1) System Configuration (1) System Configuration (2) ECU 4.9 Remote Door Rock Control 3.4 ABS (Anti-lock Brake System) 4.10 Anti-Theft System (1) System Configuration (2) Wheel Speed Sensors Chapter 5 Information Communication (3) Actuators 5.1 Multi-Information System (4) ECU (1) Functions and System 3.5 Traction Control Configuration (1) System Configuration (2) Display (2) Wheel Speed Sensors (3) Touch Switches (3) Throttle Position Sensor (4) Communication System (4) Throttle Actuator 5. 2 Navigation (5) Brake Actuator (1) Functions and System (6) ECU Configuration 3.6 4-Wheel Steering (2) Direction Sensor (1) System Configuration (3) Dead Reckoning (2) Vehicle Speed Sensor (4) Map Matching (3) Steering Angle Ratio Sensor (5) GPS (4) Actuators (6) Route Guidance (5) ECU (7) CD-ROM Chapter 4 Body Control (8) Future Developments 4.1 Air Conditioners 5.3 Cellular Telephones (1) System Configuration (1) Radio System (2) Temperature Sensors (2) Cellular Telephone Connection (3) Solar Radiation Sensor Control (4) ECU (3) Other Telephones 4.2 Digital Meters (4) Future Development (1) System Configuration (2) Display Devices Chapter 6 The ECU (3) Speedometer 6.1 Components of the ECU (4) Integrating Traveling Distance Meter 6.1.1 Integrated Circuits (ICs) (5) Tachometers (1) Analog ICs and Digital ICs (6) Fuel Gauge (2) Monolithic ICs and Hybrid ICs (7) Electronic Analog Meter 6.1.2 Microcomputers 4.3 Wiper Control (1) Basic Configuration of 4.4 Light Control Microcomputers 4.5 Door Lock Control (2) Programs 4.6 Corner Sonar (3) Special Features of Microcomputers (1) Functions and System for Automobiles Configuration (4) Development Procedure for (2) Ultrasonic Sensor Systems with Microcomputers CAR ELECTRONICS 6.2 ECU Functions (1) Input Processing Circuit (2) Microcomputer Processing (3) Output Processing Circuits (4) Power Circuit 6.3 ECU Circuit Mounting Technology (1) SMT (2) Surface Mounted Elements 6.4 ECU Evaluation Methods (1) Environment of ECUs Automobiles (2) Individual ECUs Evaluation (3) Evaluation of the ECU in the Vehicle Chapter 7 The Future of Automotive Electronics 7.1 Expectations of Automotive Electronics 7.1.1 Environmental Reform and Energy Conservation 7.1.2 Safety 7.1.3 Linkage with Social Systems 7.2 Developments in Automotive Electronics Technology Chapter 8 Glossary of Terms Used 8.1 Integrated Circuits (1) Bipolar Devices (2) Metal Oxide Semiconductor (MOS) Devices (3) Microcomputers (4) Memory Devices (5) Terms Common to All Fields 8.2 Automotive Electronics Glossary (1) Powertrain Control (2) Vehicle Control (3) Body Control (4) Information Control Reference Index About the Authors.
Load more

Recommended publications
  • Automotive Grade DO-218 Load Dump TVS Series
    Issue Number │001 May 2019 New Product Announcement DM5WxxAQ DM6WxxAQ DM8WxxAQ Automotive-Grade DO-218 Load Dump TVS Series Diodes Incorporated introduces a series of new high-temperature automotive-compliant load-dump transient voltage suppressors (TVS) packaged in DO-218. The devices are designed to protect sensitive semiconductors in electronic modules from load- dump surge transients, as defined in ISO16750-2, that generate if the battery is disconnected from the vehicle while the alternator charges. Featuring a choice of reverse stand-off voltage from 10V to 36V (or 43V for the DM8WxxAQ series), these new automotive- The Diodes Advantage compliant TVS devices are offered as unidirectional devices . AEC-Q101 Qualified and PPAP Supported and are able to dissipate up to These devices are qualified to high reliability qualification standards in 3600W (DM5WxxAQ), 4600W accordance with AEC-Q101 and supported by a production part approval (DM6WxxAQ), and 6600W procedure (PPAP). (DM8WxxAQ) per 10/1000µs . ISO 16750-2 Compliance pulse transient. These parts are suitable to protect sensitive automotive circuits against load- All devices are rated to +175ºC, dump surge defined in ISO16750-2 (Pulse A and B). and comply with the automotive . ISO 7637-2 Compliance standard ISO7637-2 (pulses 1, These parts are suitable to protect sensitive automotive circuits against surges 2a, 2b, 3) and load dump ISO defined in ISO7637-2 (pulses 1,2a, 2b and 3). 16750-2 (pulse A and B). High Forward Surge Current Capability and Excellent Clamping Capability The case material is composed of halogen-free “green” molding The high forward surge overload rating ensures more rugged applications and compound for protection of the improves device reliability.
    [Show full text]
  • Intake Throttle and Pre-Swirl Device for LP EGR Systems
    Intake Throttle and Pre-swirl Device for Low-pressure EGR Systems Knowledge Library Knowledge Library Intake Throttle and Pre-swirl Device for Low-pressure EGR Systems Low-pressure EGR systems to reduce emissions are state of the art for diesel engines. They offer efficiency benefits compared to high-pressure EGR systems and will gain further importance. BorgWarner shows the potential of a so-called Inlet Swirl Throttle to make use of the losses and turn them into a pre-swirl motion of the intake air entering the turbocharger to improve the aerodynamics of the compressor. By Urs Hanig, Program Manager for PassCar Systems at BorgWarner and a member of BorgWarner’s Corporate Advanced R&D Organisation Technology to meet future Emission the compressor. Obviously, pre-swirl will have a Standards positive impact on the compressor also in are- Low-pressure EGR systems (LP EGR sys- as where no throttling is required. So the IST tems), see Figure 1 , for gasoline engines yield can be used to improve engine efficiency and significant fuel consumption benefits, they are performance also in regions where no throttling also an important technology to meet future or EGR is required. emission standards (e.g. Real Driving Emissi- ons) [1 ]. To achieve the targeted EGR rates in Approach and Modes of Operation particular on diesel engines throttling the LP With IST the throttling effect is achieved by ad- EGR path is necessary in some areas of the justable inlet guide vanes in the fresh air duct. engine operating map. This can be done either In other words, IST is an intake throttle desi- on the exhaust or the intake side but to throttle gned as a compressor pre-swirl device.
    [Show full text]
  • Electronic Throttle Body
    New ELECTRONIC THROTTLE BODY Because of the exacting standards of our proprietary engineering Product Description processes, all CARDONE 100% New Electronic Throttle Bodies are guaranteed to fit and function like the original. Critical components Features and Benefits such as the housing, throttle plate, position sensors, and throttle Signs of Wear and actuator motor, all conform to the precise dimensions as designed by Troubleshooting the O.E. Manufacturer – meaning each unit is guaranteed to last and perform consistently under all driving conditions. FAQs • Critical components used in manufacturing the electronic throttle body, including the housing, throttle plate, position sensors, throttle actuator motor and throttle plate return spring conform to precise O.E. dimensions. • Each throttle body is tested for all critical functions, including response time and air flow at multiple points, ensuring an optimal fuel/air ratio. • 100% computerized testing of motor, throttle position sensor and articulation ensures reliable and consistent performance. • Each unit is guaranteed to fit and function like the original. Signs of Wear and Troubleshooting • Throttle position sensor codes stored • Consistent reduced engine power • Intermittent reduced engine power • Low idle RPM • Idle RPM hunt or erratic idle Subscribe to receive email notification whenever cardone.com we introduce new products or technical videos. Tech Service: 888-280-8324 Click Electronics Tech Help for technical tips, articles and installation videos. Rev Date:Rev 063015 Date:
    [Show full text]
  • Twin Air Powerflow Throttle Body Kit
    Mounting Instructions Powerflow Throttle Body Kit Twin Air Powerflow Throttle Body Kit Configuration # 1: Can significantly increase horsepower and throttle response in low to mid- range. This configuration uses the following parts supplied in the packaging: orange intake tube, shaft, butterfly valve (small diameter) and two bolts. Configuration # 1 (The tubes shown in this mounting instruction may be different than your application) Instructions: 1. Remove your throttle body from your motorcycle. Check your motorcycle manual for reference. 2. Connect a TPS-tool (Throttle Positioning Sensor tool, Picture 14, also available from Twin Air) to the TPS-sensor connector; connect the cables as recommended in the TPS connection tables on page 3. 3. Write down the TPS-sensor position read-out on 0% throttle position before disassembling the TPS-sensor. You will need this value at step 13. 4. Grind off the ends off the screws with a file. Remove the screws. (Picture 1 and 2) Picture 1 Picture 2 Page 1 of 5 Mounting Instructions Powerflow Throttle Body Kit 5. Remove the butterfly valve, by holding the throttle body at full throttle. (Picture 3) Picture 3 6. Remove the screws that holds the TPS-sensor. Remove TPS-sensor. (Picture 4) Picture 4 7. Remove the 11mm nut that holds the shaft. (Picture 5 and 6) Picture 5 Picture 6 8. Remove the original shaft by pulling it out on the TPS-sensor side. Page 2 of 5 Mounting Instructions Powerflow Throttle Body Kit 9. Insert the Twin Air throttle tube. Maneuverer it around to make sure the holes match. (Picture 7 and 8) Picture 7 Picture 8 10.
    [Show full text]
  • Alamo Car Rental Special Offers
    Alamo Car Rental Special Offers Subtorrid Ambrose fingerprints: he proselytise his Halicarnassus barefooted and sufficiently. Unevangelical Pietro usually recurs some customaries or swigging gnathonically. Unadulterate or feathered, Lambert never bowelling any violoncellos! Discounts for Military and Military family members. The index of the element to return. Returns the security features of the function. Whether to suppress warnings. The offers like us and specials section above at a bunch more than happy and hyundai, offering a grace period you? Enter your alamo rent a special rate when choosing what convertible blue booking. The void of milliseconds to throttle invocations to. In actuality, we only needed the about for five days: four for driving, one for errands and returning the car. Join the Dollar Express Renter Rewards program and earn free rentals. Thank you very much for your understanding and our apologies. Additionally, Alamo offers instant discounts through its free rewards program, Alamo Insider. Which extend not accept compensation when it was smooth and special rate. The first number in a multiplication. Out let these cookies, the cookies that are categorized as feedback are stored on your browser as following are essential when the aftermath of basic functionalities of the website. Simply enter a special savings. No additional insurance provider in telling stories, special offers unlimited miles, gps via your next trip of any major airlines in. Returns the rounded down number. Returns the chosen function or its result. Returns the placeholder value. Intermediate suv is not required for a road trip business class inheritance axios class. Get started on police car rental today been your next Hawaiian vacation! VERY easy to use and a lot of people ignore them, so there is seldom a wait to use one.
    [Show full text]
  • Subaru Added Security® Brochure
    Easy-View Plan Comparison Guide. Total protection and confidence, backed by Subaru. What is Added Security ®? Added Security® is the only mechanical breakdown coverage backed by Subaru of America, Inc. Because almost every Subaru includes highly advanced, complex systems such as EyeSight® Driver Assist Technology, it’s important to consider our Gold Plus plan because it covers all of the intricate components that can be very expensive to replace. With all plans, if a covered component breaks, our certified Subaru technicians will fix it using only new or remanufactured Genuine Subaru Parts. Unlike third-party plans, Added Security also covers wear and tear of covered components, consequential damage to other components, struts, constant- velocity joints and many more parts. Third-party agreements are designed to be profitable to the seller, but Subaru stands behind Added Security® because our goal is for you to have the best ownership experience possible. There are two main plans: Classic Plan: Covers most major components Gold Plus Plan: Covers almost every other component in your vehicle. See the back cover for a partial list of covered components. All Plans include: The Gold Plus Plan also includes: Additional Services Towing Allowance Trip Interruption Allowance Maintenance Plans All plans provide an allowance if you need The Gold Plus Plan provides coverage of up to You can lock in the cost of regularly scheduled a tow due to a covered failure. $500, per occurrence, towards your hotel and maintenance by including one of our Maintenance meals if you break down. While most third- Plans when you purchase your Subaru.
    [Show full text]
  • Automotive Electronics
    Automotive Electronics Amphenol Advanced Sensors Advanced Driver Assistance Systems (ADAS) Automotive Ethernet Body Control, Safety, Security, and Comfort Telematics, Multimedia, Infotainment, GPS, Navigation, and Camera Head & Interior LED Lighting Battery Management Systems and EV Charging Stations Enabling the Automotive Industry with our Connection Innovation and High Speed Technology 1 ABOUT AMPHENOL ICC AUTOMOTIVE Amphenol ICC brings a broad array of innovative technology and solutions to support the growth in the automotive industry, particularly in plating, signal integrity performance, and power management. As automobiles become more ADAS rich and head towards being a total autonomous operation, the key differentiator between suppliers will be their capabilities, and performance. Amphenol ICC's capable engineering team develops connector solutions according to customer needs, even during the design phase of application. INDUSTRY LEADER TECHNOLOGIES & SOLUTIONS CUSTOMER CAPABILITIES EXPERT SATISFACTION • Products accommodate standards like Open • Leverage in deploying • Automotive offerings in • Meet short lead time Alliance, USCAR, LV214, new solutions for WTB, BTB, I/O, and requirements ISO 8092, Kojiri,and Automotive applications: FFC/FPC • Advocate value-added SAE J 2223 - Signal integrity: • Strength of existing custom solutions • Solutions enable HS Signal Transmission portfolio in modular wherever possible signaling technologies and EMC BTB & WTB • Better value like LVDS and Ethernet - Power contact • Focus on new standard • Close proximity to • Leader in Automotive design and simulation IO connectors and customers’ location Ethernet and capabilities integration of new committed to Open - Contact and connector standard consumer Alliance TC2 / TC9 with miniaturization electronics IO 100 BASE-T1 (100 Mbps) - PCB contact • Interconnect solutions and 1000 BASE-T1 technologies for High Speed (1 Gbps).
    [Show full text]
  • CHARACTERIZATION of TURBOCHARGER PERFORMANCE and SURGE in a NEW EXPERIMENTAL FACILITY
    CHARACTERIZATION of TURBOCHARGER PERFORMANCE and SURGE in a NEW EXPERIMENTAL FACILITY Thesis Presented in Partial Fulfillment of the Requirements for the Degree Master of Science in the Graduate School of The Ohio State University By Gregory David Uhlenhake, B.S. Graduate Program in Mechanical Engineering The Ohio State University 2010 Master‟s Examination Committee: Dr. Ahmet Selamet, Advisor Dr. Rajendra Singh Dr. Philip Keller Copyright by Gregory David Uhlenhake 2010 ABSTRACT The primary goal of the present study was to design, develop, and construct a cold turbocharger test facility at The Ohio State University in order to measure performance characteristics under steady state operating conditions and to investigate surge for a variety of automotive turbocharger compression systems. A specific turbocharger is used for a thermodynamic analysis to determine facility capabilities and limitations as well as for the design and construction of the screw compressor, flow control, oil, and compression systems. Two different compression system geometries were incorporated. One system allowed performance measurements left of the compressor surge line, while the second system allowed for a variable plenum volume to change surge frequencies. Temporal behavior, consisting of compressor inlet, outlet, and plenum pressures as well as the turbocharger speed, is analyzed with a full plenum volume and three impeller tip speeds to identify stable operating limits and surge phenomenon. A frequency domain analysis is performed for this temporal behavior as well as for multiple plenum volumes with a constant impeller tip speed. This analysis allows mild and deep surge frequencies to be compared with calculated Helmholtz frequencies as a function of impeller tip speed and plenum volume.
    [Show full text]
  • Effect of Natural Gas Composition on the Performance of a CNG Engine K
    Effect of Natural Gas Composition on the Performance of a CNG Engine K. Kim, H. Kim, B. Kim, K. Lee, K. Lee To cite this version: K. Kim, H. Kim, B. Kim, K. Lee, K. Lee. Effect of Natural Gas Composition on the Performance ofa CNG Engine. Oil & Gas Science and Technology - Revue d’IFP Energies nouvelles, Institut Français du Pétrole, 2009, 64 (2), pp.199-206. 10.2516/ogst:2008044. hal-02010922 HAL Id: hal-02010922 https://hal.archives-ouvertes.fr/hal-02010922 Submitted on 7 Feb 2019 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Oil & Gas Science and Technology – Rev. IFP, Vol. 64 (2009), No. 2, pp. 199-206 Copyright © 2008, Institut français du pétrole DOI: 10.2516/ogst:2008044 Effect of Natural Gas Composition on the Performance of a CNG Engine K. Kim1, H. Kim1, B. Kim2, K. Lee1* and K. Lee3 1 Department of Mechanical Engineering, Hanyang University, 1271 Sa 1-dong, Sangnok-gu, Ansan-si, Gyeonggi-do, 426-791 - Republic of Korea 2 Korea Gas Corporation, 638-1 Il-dong, Ansan-si, Gyeonggi-do - Republic of Korea 3 Department of Mechanical Engineering, Hanyang University, 17 Hangdang-dong, Sungdonggu, Seoul, 133-070 - Republic of Korea e-mail: [email protected] - [email protected] - [email protected] - [email protected] - [email protected] * Corresponding author Résumé — Effet de la composition du gaz naturel sur les performances d’un moteur GNC — Le Gaz Naturel Comprimé (GNC) est considéré comme un carburant pour véhicule alternatif en raison de ses avantages économiques et environnementaux.
    [Show full text]
  • To Download Our June 2017 Magazine
    SPECIAL ISSUE: SHORT LINES AND REGIONALS PLUS www.TrainsMag.com • June 2017 MAP: High speed in Japan p. 50 Big Boy update THE magazine of railroading p. 64 Short line of the future From sleepy road to unit train host p. 24 Aberdeen Carolina & Western hauls a unit How Pinsly ethanol train near holds on to Aquadale, N.C. its franchise p. 42 South Shore Freight p. 32 OmniTRAX’s rail and land strategy p. 52 © 2017 Kalmbach Publishing Co. This material may not be reproduced in any form without permission from the publisher. www.TrainsMag.com COVER STORY SLEEPY SHORT LINE TO BUSY UNIT TRAIN HOST Aberdeen Carolina & Western becomes short line of the future by Jim Wrinn IT IS DIFFICULT TO COMPREHEND, as cades ago, this branch was up becomes a chess game of finding frequent location for entertain- you stand on the edge of a for abandonment, was sold places for them. A modern ing customers and visitors. The country road in central North twice, and ended up in the 100,000-square-foot shop is ca- passenger cars are easy to spot Carolina, watching a long train hands of an unlikely out-of-state pable of handling not only the in the railroad’s signature ma- behind six-axle power make its businessman who immediately company’s maintenance and re- genta colors against the tall way along an undulating route realized he’d taken on a railroad building needs but that of con- pines of the Carolina Sandhills. of welded rail and deep ballast, with a daunting task: Keeping tract customers, as well.
    [Show full text]
  • Current Catalog
    YorkELECTRONIC Electronics SERVICE CENTRE Mobile Automotive Electronic Accessory Specialists Aftermarket Product Guide [email protected] 1-888-650-YORK (9675) www.yorkelec.com Press 1, 1 for Client Call Center Version:MMXXI YorkELECTRONIC Electronics SERVICE CENTRE Factory Navigation Upgrade • Available for most 2013 and up GM vehicles • Vehicles must be equipped with MyLink/Intellilink/CUE • Use factory GM parts to upgrade to Navigation NAVGM20 Kenwood Navigation • 6.8” WVGA Monitor • Apple CarPlay™ & Android Auto™ Ready • Garmin GPS built in with 3D Terrain View • Built in Bluetooth (Dual phone connection) & HD Radio • Sirius/XM ready with optional module • Dual USB, Audio/Video, mini jack inputs • 3 camera inputs • Dash Camera ready • DVD/CD/MP3/DIVX/MPEG/VCD compatible • Add or retain a backup camera, call for details NAVG20 XM Add On • Add XM (Subscription required) to your factory radio via USB • Vehicle applications may vary USBXM20 Dual USB Charger • Add USB charging to any vehicle • Charges two devices at one time • Dual 2.5A charge ports USBCH10 [email protected] 1-888-650-YORK (9675) www.yorkelec.com 1 Press 1, 1 for Client Call Center Version:MMXXI YorkELECTRONIC Electronics SERVICE CENTRE Advent Overhead DVD • Full colour monitor with built in DVD player • Available in black, pewter or shale colours Add extra headphones • Play audio through vehicle stereo to any video system • LED dome lights 1ch HP100 • 2 wireless headphones 2ch HP200 • Wireless remote controls • AUX input • Side load DVD mechanism • Available in 9”, 10” or
    [Show full text]
  • 3.4L (DOHC) Engine Mechanical Specifications
    60DegreeV6.com 3.4L (DOHC) Engine Mechanical Specifications Millimeters Inches Application General Data Engine Type -- 60° V-6 Displacement -- 240 Cu In Liter (VIN) -- 3.4 (X) RPO -- LQ1 Bore 92 3.622 Stroke 84 3.307 Deck Height 224 8.818 Compression Ratio -- 9.50:1 Firing Order -- 1-2-3-4-5-6 Oil Pressure @ Operating 103 kPa @ 1100 RPM 15 psi min @ 1100 RPM Temperature Cylinder Bore Diameter 92.020-92.038 3.6228-3.6235 Out Of Round Maximum 0.010 0.0004 Taper -- Thrust Side Maximum 0.013 0.00051 Center Distance 111.76 4.4 Piston Diameter-gauged at skirt 91.985-92.000 3.6215-3.6220 10.44 mm (0.413 in) below centerline of piston pin bore Clearance 0.020-0.052 0.0008-0.0020 Pin Bore 23.003-23.010 0.9056-0.9059 Piston Ring Compression Groove 0.033-0.079 0.0013-0.0031 Clearance 1st and 2nd Gap (at gauge diameter) 1st 0.20-0.45 0.008-0.018 1 60DegreeV6.com Gap (at gauge diameter) 2nd 0.56-0.81 0.022-0.032 Oil Groove Clearance 0.028-0.206 0.0011-0.0081 Gap (segment at gauge 0.25-0.76 0.0098-0.0299 diameter) Tension 1st 27.6 N 6.2 lbs Tension 2nd 19.8 N 4.5 lbs Tension Oil 31.2 N 7.0 lbs Piston Pin Diameter 22.9915-22.9964 0.9052-0.9054 Clearance 0.0066-0.0185 0.00026-0.00073 Fit In Rod 0.0165-0.0464 0.0006-0.0018 Crankshaft Main Journal Diameter-All 67.239-67.257 2.6472-2.6479 Taper-Maximum 0.005 0.0002 Out Of Round-Maximum 0.005 0.0002 Cylinder Block Main Bearing 72.155-72.168 2.8407-2.8412 Bore Diameter Crankshaft Main Bearing Inner 67.289-67.316 2.6492-2.6502 Diameter Main Bearing Clearance 0.019-0.064 0.0008-0.0025 Main Thrust Bearing Clearance
    [Show full text]