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Congratulations and thank you for purchasing the innovative TuneFM from Belkin. This product is designed to play your iPod through your car, home, or portable stereo. Please review this User Manual carefully so that you can be sure to get the most from your iPod, virtually anywhere you go. Package Includes: Plastic Spacer (for use only when your iPod is not in a case) TuneFM for iPod Auto Power Cord Introduction | 01 Car Setup Instructions 1. Turn down your car stereo’s volume. 2. Connect the Belkin TuneFM to your iPod (at the bottom of the iPod). 3. Connect the included Auto Power Cord to your cigarette-lighter outlet in your car and to the bottom of your TuneFM for optional powering and charging in the car. Car Setup Instructions | 02 Using the TuneFM Transmitter The TuneFM transmitter function automatically turns on when the iPod is connected. It automatically turns off when the iPod is removed. 1. Tune your stereo frequency to a channel with a weak broadcast signal. The ideal channel is one that is not broadcasting a radio program, or is doing so weakly. 2. Insert the TuneFM into your iPod. The iPod backlight will turn on and the current transmitter frequency will be displayed on the iPod screen. 3. Press the ▲ or ▼ button on the TuneFM to select the transmission frequency chosen in step 1. The frequency will be visible on the iPod’s screen. Pressing and holding either button will provide faster tuning. 4. After displaying the current frequency for five seconds, the iPod screen will return to the iPod Main Menu. This happens whenever you make changes to the TuneFM’s settings. All settings—including transmission frequency, volume-control setting, and stereo/mono-control settings—are permanently stored in memory at this time. Note: iPod playback will pause momentarily when entering and exiting the TuneFM control menu. Playback will quickly resume.
The information in this document is subject to change without notice. Neither Hewlett-Packard ® Company nor Apple Computer, Inc. make any warranties of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. Neither HP or Apple shall be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing, performance, or use of this material. THE WARRANTY TERMS CONTAINED IN THIS STATEMENT, EXCEPT TO THE EXTENT LAWFULLY PERMITTED, DO NOT EXCLUDE, RESTRICT OR MODIFY AND ARE IN ADDITION TO ANY MANDATORY STATUTORY RIGHTS APPLICABLE TO THE SALE OF THIS PRODUCT OR SERVICE TO YOU. HP assumes no responsibility for the use or reliability of its software on equipment that is not furnished by HP. This document contains proprietary information that is protected by copyright. All rights are reserved. No part of this document may be photocopied, reproduced, or translated to another language without the prior written consent of HP. Hewlett-Packard Company P.O. Box 4010 Cupertino, CA 95015-4010 USA © 2005 Hewlett-Packard Development Company, L.P. All rights reserved. Apple, the Apple logo, FireWire, iPod, iTunes, Mac, Macintosh, and Mac OS are trademarks of Apple Computer, Inc., registered in the U.S. and other countries/regions. iTunes Music Store is a service mark of Apple Computer, Inc., registered in the U.S. and other countries/regions. For legal or rightholderauthorized copying only. Don’t steal music.
Set up - Create Account, Install Software, and Sign-In to App 1. From a computer or Mac, visit the library's website at http://www.fspl.org. Click the digital library graphic on the right side of the website. Then click the OneClickdigital graphic or link. 2. The OneClickdigital website will come up on the screen. Click Create New Account. 3. You will need to fill in the following personal information: first name, last name, zip code, email address, username, password, and operating system. 4. Then download the OneClickdigital Media Manager software. Follow the prompts in order to install the software. 5. It will prompt you to restart the computer or Mac before using the software. 6. Sign into the software with your username and password. See step 1 on back page Searching, Checking Out, and Transferring an Audiobook Revised 08-12 1. Click Browse Website. The OneClickdigital website will open in the Internet Browser. 2. Click Login at top right of the screen. Enter your username and password. 3. Search or browse for an audiobook. 4. Click the title you want to check out. On the right side of the screen you can select the number of days you want to have the audiobook. Then click Checkout Now! (See picture to the right.) 5. You will be prompted to either Open or Save the files. Click Open. 6. The title will show up in the OneClickdigital Media Manager. Click the Download/Transfer button and the audio files will start downloading. 7. Plug the MP3 player or iPod into the computer or Mac. 8. Click transfer in the OneClickdigital Media Manger. Follow the prompts to transfer the audio files to your MP3 Player or iPod. (See pictures below.) Please Note: If you are using an iPod you will need to change the iTunes settings to "Manually Manage Music..." in the "Summary" screen of your device. Then you can directly transfer the audio files from the Media Manger to the iPod. Happy Listening!
Cardan (cross) type universal joint operation is typically designed to be in a range of 1 to 3°, figure 1. A cardan type joint can operate for short periods of time at angles up to approximately eight degrees. Angles that are not within the desired range will cause drive line vibration and significantly shorten the life of the universal joint. Vibration that is created by incorrect u-joint angles is usually most noticeable at low speeds, under 40 mph., under load or acceleration. If a problem with u-joint angle is suspected perform the following basic inspection procedures. 1. Rotate the drive shaft to check for binding, or misalignment of the cross or bearing cups. 2. Check that all surfaces are clean. 3. Check the condition of the motor and transmission mounts. Broken mounts are a frequent cause of drive shaft vibration and are often overlooked. If these conditions are satisfactory a preliminary check of angles can be made with an inclinometer. Before attempting to measure angles ensure that tire air pressure is correct, that the vehicle is at the correct trim (chassis) height, and the ground surface is level. 1. Measure the angle of the front slip yoke by placing the inclinometer on the bottom of the bearing cup, figure 2. Position the inclinometer on the clean flat surface of the bearing cup, level the bubble and note the reading. 2. Measure the drive shaft angle, as shown, and subtract the smaller number from the greater to determine the angle. 3. Repeat the same procedure on the rear u-joint and pinion input shaft.
February 2005 Supersedes J3311-DSD May 1994 Contact Information: Dana Corporation Heavy Vehicle Technologies and Systems Service P.O. Box 321 Toledo, OH 43697-0321 1-800-SAY-DANA (729-3262) Dana Corporation Heavy Vehicle Technologies and Systems Service – Canada 5095 South Service Road Beamsville, Ontario, Canada L0R 1B0 Tech Service: 1-905-563-4991 www.dana.com www2.dana.com/expert J3311-1-HVTSS 2/05 Printed in U.S.A. © Dana Corporation 2005 All rights reserved. Dana Corporation Heavy Vehicle Technologies and Systems Service – International 419-861-6325 Driveshaft Installation Safety Precautions General Safety Information WARNING: GUARDING AUXILIARY DRIVESHAFTS To prevent injury to yourself and /or damage to the equipment: • Read carefully all owners manuals, service manuals, and/or other instructions. • Always follow proper procedures and use proper tools and safety equipment. • Be sure to receive proper training. • Never work alone while under a vehicle or while repairing or maintaining equipment. • Always use proper components in applications for which they are approved. • Be sure to assemble components properly. • Never use worn-out or damaged components. • Always block any raised or moving device that may injure a person working on or under a vehicle. • Never operate the controls of the power take-off or other driven equipment from any position that could result in getting caught in the moving machinery. We strongly recommend that a power take-off and a directly mounted pump be used to eliminate the auxiliary driveshaft whenever possible. If an auxiliary driveshaft is used and remains exposed after installation, it is the responsibility of the vehicle designer and PTO installer to install a guard. WARNING: USING SET SCREWS.
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.
Troubleshoot common drive shaft problems. ○ Check ... Remove and replace a drive shaft assembly. ○ Replace ... Drive Shaft Vibration can be caused by. Learning Objectives Troubleshoot common drive shaft problems. Check universal joint wear. Measure drive shaft runout. Remove and replace a drive shaft assembly. Replace universal joints. Perform basic service operations on a transfer case. Cite and practice good safety procedures. Chapter 60 1. Because a Transfer Case is heavy, use a transmission jack when removing. 2. Before disassembling a Universal Joint, Joint scribe/mark each component. Transfer Case Removal Use a hoist and transmission jack Transfer Case Oil Check the oil condition and level first. Replace dirty or contaminated oil
These instructions only apply to this particular version center support bearing and may not be correct for other versions. TOOLS NEEDED: • Ratchet • 12mm serrated wrench (triple square bit) – NAPA # SER2306 • 13mm socket • 18mm socket • 6 inch extension • 18mm open end wrench • Rubber mallet or dead blow hammer. . Expanding flat nosed snap ring pliers . Various other common hand tools INSTRUCTIONS: Read these entirely and understand them BEFORE you attempt this procedure. 1. Apply parking brake and wheel chocks to prevent vehicle from rolling. A lift is recommended for this repair. IMPORTANT: Carefully mark driveshaft orientation on both ends of shaft sections. (Transmission and differential ends, as well as splined ends where the two drive shafts come apart to allow removal of center support) The sections MUST be reassembled EXACTLY as they came apart for the removal of the old center support bearing, and the driveshaft needs to be reinstalled EXACTLY the same way, in the exact same orientation. Failure to do so can result in imbalance, vibration, and potential damage to vehicle. Otherwise a professional drive shaft shop must be employed to re-balance entire assembly. 2. Remove 6 10mm bolts at joint at rear of back driveshaft. Use the M12 triple square (12point) tool. (NAPA part number SER2306). 3. Remove 3 18mm wrench size (12mm bolt size) bolts from front of driveshaft. 4. Remove 3 18mm wrench size (12mm bolt size) bolts on flex disc. 5. Remove 13mm wrench size (8mm bolt size) bolts on plate covering center support. 6. On some models (Turbos), it may be necessary to loosen various exhaust system clamps, hangers and components to ease access to driveshaft. 7. Pull driveshaft toward front of vehicle to separate it from differential.
The automotive marketplace has seen a steady increase in customer demands for quiet and more comfortable vehicles. A customer’s expectations for NVH refinement often contradicts the constraints for lightweight vehicle designs and the need for a powertrain with increased fuel efficiency. The driveline of a vehicle can be a substantial cause of NVH issues. Variants in the driveline architecture (front wheel, rear wheel and four-wheel/all-wheel drive, automatic-, manual-, automatic-shifted manual transmission, etc.) combined with an overall increase in the complexity of the modern driveline systems can make the task of integrating them very challenging. Development of a well refined vehicle requires the understanding and control of several driveline-related noise and vibration problems within different frequency ranges, due to the multitude of driveline components and their potential excitation sources.. A key aspect of the driveline integration process is the realization that a design modification can have an impact on numerous NVH phenomena.
Within the mining industry an increasing trend in equipment design towards larger, more complex and more productive units is being experienced. As equipment grows in both size and capital cost, so downtime reflects not only in increasing maintenance costs, but also in greater loss of production by an idle unit. This has resulted, therefore, in an increasing interest in maintenance schemes that allow maximum operating life. The one viable solution to this is predictive maintenance - measuring machine condition and repairing when and only when measurements indicate it necessary. in a number of the vital phases of the mining operation, with some impressive results. On the s h o v e l s used for ore excavation, the condition of the motorgenerator set, the hoist and swing transmission, and the hoist's Magnetorque® drive are monitored. On the h a u l a g e t r u c k s used for transporting the ore to the primary crushing plant, the monitoring programme cov~ ers the diesel engine and generator. In the mine's c o n c e n t r a t o r , the autogeneous mills, pumps and conveyors are covered.