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Be sure to connect the Xbox LIVE communication cable in the proper order: 1. ... PARTS NEEDED FROM PACKAGE CONTENTS (REFERENCE PAGE 3). 1. 2. 1 Mic Mute: Slide the mic mute switch down to mute the microphone so others cannot hear you. 2 Master Volume and Mute: Use to adjust the master volume of game audio. Push in to mute all game sound. 3 Breakaway In-line Connector 4 Xbox LIVE Port: Use to connnect to Xbox LIVE. 5 Voice Communication Volume and SVM Control: Use to adjust the volume of the voices of other players. SVM = Selectable Voice Monitoring. SVM allows the user to hear his or her own voice through the headset. Push in to turn SVM ON/OFF.Headset Microphone Insertion Directions Insert the microphone into the headset by lining up the small dot on the microphone with the small dot on the headset. Firmly press the microphone into place. Rotate the microphone in a clockwise direction until it stops.
This project came about when trying to make a low cost autonomous robot for use in education. The idea being that students would be able to identify with the Xbox controller and enjoy hacking it into something far more interesting! The Concept: This was a concept to make a low cost autonomous programmable robot for education using low cost every day things that the students could identify with – ie. The Xbox Controller. There are of course several existing product in this market most notably the Lego NXT and the Vex Systems. Both of these allow users to build and program autonomous robots, but there are two key differences, 1) On the XBugBot the programming and the processor are not separate! 2) The price! The XBugBot can be build for around 1/10th of the cost of the competing products! The humble Xbox Controller. What is the Xbox controller? Well once connected to the PC it becomes a low cost wireless DAQ (Data Acquisition System), it has several digital inputs (Buttons) and several analogue inputs (Joy Sticks etc.), plus two motor control outputs (Vibration Motors). What can it become? - Meet XBugBot: Hack your Xbox Controller and add a couple of wheels and sensors and you get an XBugBot! How is it Controlled? Using the FlowStone graphical programming language from DSPRobotics: (www.dsprobotics.com ) FlowStone is an awesome teaching tool for science, technology, engineering and mathematics (STEM) as is graphical so students can easily relate and understand it. Also the Xbox Controller is already pre-programmed into FlowStone so you can just use the Xbox Module and start programming your Bot. Programming and Processor:...
For P/No: 04998 & 04999 only. 1. In the engine bay, disconnect the negative and positive battery terminals. 2. Remove the vehicle battery (1) by first removing any fasteners. 3. Locate the vehicle grommet behind the battery cavity area. 4. Pierce a hole in the vehicle grommet. Note: Do not connect the harness to the battery at this point. Issue Date 27-09-10 For P/No: 04997 only. 5. In the engine bay, locate the vehicle battery (1). 6. Route the body harness (2) down through to the chassis. Note: Do not connect the harness to the battery at this point. 7. Route the power input harness (1) from the engine bay down through to the chassis, following the path of the brake and fuel lines. For P/No: 04997 & 04999 only. 8. Following the diagram on the right, house the two power & ground input harness female terminals (4) into the mating connector (3). 9. Connect the power input harness connector (3) to the body harness mating connector. Issue Date 27-09-10 For P/No: 04998 only. 10. Following the diagram on the right, house the three power & ground input harness female terminals (4) into the mating connector (5). 11. Connect the power input harness connector (5) to the body harness mating connector. 12. Route the body harness (1) along the LHS chassis rail, following the path of the blue vehicle harness towards the rear of the vehicle. 13. Route the body harness (1) along the rear of the vehicle towbar towards the towbar mounting bracket. Issue Date 27-09-10
Volkswagen Amarok Canyon The most exciting Amarok model to hit Australian roads has finally arrived. Based on the Amarok TDI400/420 Highline, the Canyon delivers high levels of standard equipment, plus cutting edge design elements and features, including sports and side bars, new “Roca” alloys with AT-R tyres and two-tone Nappa Leather. Unique features and specification include: - Black gloss sports and side bars 17” Roca Alloy wheels with Pirelli Scorpion AR-R Tyres Two-tone Nappa Leather with orange interior highlights RNS315 Satellite Navigation with Rear-view Camera Load area coating (impact & UV resistant) Tinted tail lamps and Canyon rear & side decals Unique communication colour – Copper Orange To find out more about the Amarok Canyon Edition and your chance to win a cut of $250,000 of Stihl Power Tools call Bruce or Nathan on (08) 87213400 today. Barry Maney Group Motor eTorque – April 2014
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.
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.
4.00x4.50x1/4" steel caster mounts - 3/8" holes on 2.75x3.25 centers 2x2x.083 steel square tubing 2.000 Engine Stand, Main Frame 60.000 1" square tubing 7.750 4.000 30.000 30.000 truncate corner approx .5" .625 .500 Dia (2 pl) 7.200 4.563 .438 Dia * 8.250 7.625 1.688 .250 *Center hole is shown as corrected (original was 3/16 up and 3/16 left) Install CarQuest MOU 31-3097 motor mounts with studs towards center (78-79 Buick/Olds, 79 Chev, 75-76 Pontiac Transmission Mount) .875 See Mountbar.dc for main bar dims Mtl: 1.5 x 2.5 x .187 steel 1.500 Mount is to place crankshaft 10" above main frame 1.000 14.750 2.500 12.750 7.313 3.750 .438 Dia Small Block Ford Front Engine Mount Bar (mountbarSBFfront.dc) 2.000 4.750 .000, .000 2.875, -0.500 Matl: 1x1 tubing 3.375, -1.000 .500, -0.500 Generic Engine Mount Bar (mountbar.dc) .000, .000 28.500, -1.000 .438 Dia (typical) 2.875, -1.000 .500, -1.000 Matl: 2x2, .120 wall, square tubing 30.875, -1.000 CL = 15.687 31.375, -2.000 MountBarFordRear.dc Supports GM T-10, T5 and Tremec .500 R .000, .000 10.120, -1.000 1.880, -1.000 Matl: .375 al plate 1.750, -1.067 10.250, -1.067 6.000, -3.000 1.990, -1.530 9.910, -1.530 .500 Dia (9 pl) 1.120, -5.810 10.250, -5.810 1.000 .377 10.250, -7.377 1.750, -7.377 tap thru 3/8-16 (3 pl) .800 .500, -8.000 6.000, -8.000 2.440, -7.800 8.760, -7.800 11.500, -8.000 1.000 1.623 12.000, -9.000 .438 Dia Matl: 2x2x.125 angle 2.000 1.250 3.000 9.000 12.000 1.000 .438 Dia 10.813 14.563 16.813 20.563 Install CarQuest MOU 31-3097 motor mounts (78-79 Buick/Olds, 79 Chev, 75-76 Pontiac Transmission Mount) See Mountbar.dc for main bar dims Mount is to place crankshaft 10" above main frame .000, .000 1.000 2.000, -.500 .201 Dia (6 pl) 9.020, -1.860 1.625, -1.860 23.000, -.500 12.500, -.500 22.375, -1.750 12.000, -3.688 2.125, -2.235 .500 Dia 2.187, -2.297 Corners for .125 end mill 8.438, -5.438 23.250, -2.500 16.250, -2.500 16.250, -5.500 19.250, -2.500 21.500, -2.500 19.250, -5.500 8.500, -5.500 1.000 .156 Dia (4 pl) 9.020, -5.500 1.625, -5.500 21.500, -6.400 3.375 Dia .125 Dia (4 pl) 2.062 Dia (4 pl) 2.000, -7.375 .750 23.000, -7.375 12.500, -7.375 25.000, -7.750 MountBarDashPanel 23.250, -6.400 2x2x.083 steel square tubing. 4.00x4.50x1/4" steel caster mounts - 3/8" holes on 2.75x3.25 centers. 4.000. 7.750. 1" square tubing. Engine Stand, Main Frame ...
These bolts are on OEM engine/ transmission assembly. 3. Use two 3 / 8” - 16 x 1 3/4” bolts with nuts to anchor front of motor to stand. Rev a. 3/00. No.1022-IS. Instruction Sheet For Tool No.1022 Twin cam 88™ engine stand use on all twin cam 88™ except 2000 & later softail Refer to H.D.® Service Manual for specifications 1. Can be mounted to bench with the four holes provided in the two legs. 2. Use two 3 / 8” - 16 x 2” bolts to anchor to rear of motor in slots. These bolts are on OEM engine/ transmission assembly. 3. Use two 3 / 8” - 16 x 1 3/4” bolts with nuts to anchor front of motor to stand. CAUTION: Wear safety glasses. Excessive force may damage parts and tool. See JIMS® catalog for over 100 other top quality professional tools. The last tools you will ever need to buy. “From the Track... To the Street!” 555 Dawson Drive, Camarillo, CA 93012 Phone 805-482-6913 • Fax 805-482-7422 Rev a 3/00 No.1022-IS Instruction Sheet For Tool No.1022 Twin cam 88™ engine stand use on all twin cam 88™ except 2000 & later softail Refer to H.D.® Service Manual for specifications 1. Can be mounted to bench with the four holes provided in the two legs. 2. Use two 3 / 8” - 16 x 2” bolts to anchor to rear of motor in slots. These bolts are on OEM engine/ transmission assembly. 3. Use two 3 / 8” - 16 x 1 3/4” bolts with nuts to anchor front of motor to stand. CAUTION: Wear safety glasses. Excessive force may damage parts and tool. See JIMS® catalog for over 100 other top quality professional tools. The last tools you will ever need to buy. “From the Track... To the Street!” 555 Dawson Drive, Camarillo, CA 93012 Phone 805-482-6913 • Fax 805-482-7422
AUTOMATIC FWD MODELS REMOVAL 1) Remove battery and battery tray. On 3000GT, remove undercover(s). On Eclipse turbo, drain and remove intercooler. On all models, remove air cleaner and case. Raise and support vehicle. Remove wheels. Disconnect control cables at transaxle. Drain transaxle fluid. 2) On Mirage 1.6L, disconnect tension rod. On all models, disconnect neutral safety switch connector, oil cooler hoses and electrical connectors from transaxle. Disconnect speedometer cable and throttle control cable (if equipped). Remove starter motor. 3) On Galant models with electronically controlled suspension, remove air compressor and bracket. Disconnect front height sensor rod at lower control arm. 4) On all models, remove upper transaxle-to-engine bolts. Remove engine undercover (if equipped). On all models, remove drive axle shafts. See FWD AXLE SHAFTS article in DRIVE AXLES. Separate lower control arms from struts for access to axle shafts (if necessary). 5) Remove front exhaust pipe (if necessary). On Eclipse 4WD, Galant 4WD and 3000GT, remove right member and gusset. On 4WD models, separate transfer assembly from transaxle. Reference mark transfer assembly-to-drive shaft and remove transfer assembly. 6) On all models, remove transmission inspection (dust) cover. Place index mark on torque converter and drive plate for reassembly reference. Remove torque converter-to-drive plate bolts. Push torque converter away from engine into transaxle. 7) Support transaxle with jack. Remove transaxle mounts bolts, mounting brackets and remaining transaxle-to-engine bolts. Slide transaxle assembly to right and lower to remove. CAUTION: Ensure torque converter is fully seated in transaxle before installation. Always install new snap rings on inner constant velocity joints.
PURPOSE During the OBD--II drive cycle, the OBD--II system checks each emission control system by monitoring it for proper operation. It is necessary to run the OBD--II drive cycle: D After repairing an affected vehicle to eliminate a fuel--related or emission--related diagnostic trouble code (DTC). The OBD--II drive cycle will monitor the affected emission system and confirm that the repair was successful. D If the vehicle’s I/M test (“smog check”) results indicate that the OBD--II Readiness Monitors are “incomplete.” Readiness Codes for 1996--98 models are not set to “complete” until all required monitors have gone through one complete monitor cycle. OBD--II monitors could identify a failure. After that, Readiness Codes are set to “complete” after each individual monitor has been completed. Effective January 2, 2001, the U.S. Environmental Protection Agency (EPA) will require that vehicles must have all OBD--II Readiness Codes “complete” at the time of an I/M test. This bulletin contains: S OBD--II drive cycle procedure for 1996-97 affected vehicles only (Refer to the appropriate service manual for 1998 and later model OBD--II drive cyle procedures.) S Warranty claim information for OBD--II drive cycle on all affected vehicles. NOTE: On 1996--97 V6 models, after all Readiness codes are complete, turning the ignition off will cause all the Readiness status readings to show incomplete (“INCMP”). This may require that an I/M test be performed before the ignition key is turned off.