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TOYOTA ALL MODELS AM STATIC NOISE ON VEHICLES WITH POWER ANTENNAS

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Filed Under (Toyota Manuals) by admin on 16-10-2011

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Vehicles with power antennas may exhibit audible electrical noise on weak AM stations when various electrical accessories (turn signals, rear defogger, cruise control, brakes, etc.) are operated. Poor antenna grounding can cause this condition. To eliminate or reduce the intensity of the noise, use the following repair procedure: AM STATIC NOISE ON VEHICLES WITH POWER ANTENNAS Page 1 of 2 OCTOBER 25, 1996 AUDIO AU002-96 ALL MODELS REPAIR PROCEDURE: 1. Tune the radio to a strong, static-free AM station and slowly move the tip of the antenna
mast forward and back approximately 2 inches (Fig. 1). If static noise is not heard, go to Step 2. If static noise is heard during antenna movement, replace the antenna mast and go to Step 3. NOTE: Do not touch the antenna mast with your bare hands. Use a glove or nonmetallic object to move the antenna. (If you touch the antenna with your hands, you will change the antenna sensitivity). 2. Remove the antenna mast and inspect the base of the mast for corrosion and damage (Fig. 2). Clean with 1500 grit sandpaper. 3. Remove the antenna assembly and inspect the inner fender around the antenna hole for corrosion (Fig. 3). Clean with 1500 grit sandpaper.

RACE TECH SUSPENSION SERVICE TOOLS

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Filed Under (Tips and Review) by admin on 01-12-2010

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SHOCK SEAL BULLET TOOL “Bullet Tools” make seal head installation onto shafts quick and easy. 35-8677 TSSB12512.5 x 10mm Shock Seal Bullet 35-8678 TSSB1414 x 12mm Shock Seal Bullet 35-8679 TSSB1616 x 12mm Shock Seal Bullet FORK CAP WRENCH 46/50MM Black Oxidized steel construction for superior strength. Multiple applications (46/50mm): Honda CR250 (97-00), Suzuki RM125/250 (96-00), and removes compression adjuster assembly on Suzuki RM125/250 (98-00). Sold each. 35-8670 TFCW4650 Fork Cap Wrench SHAFT HOLDING TOOL Holds fork damping rods, cartridges, shock shafts, etc. while servicing. (aluminum) 35-8672 TFSH10 Shaft Holding Tool 10, 12, 12.5, & 14mm (Dampning Rods) 35-8673 TFSH14 Shaft Holding Tool 14, 16, & 18mm (Shock Shafts) 35-8674 TFSH20 Shaft Holding Tool 20, 24, & 29mm (20 & 25mm Fork Cartridges) 35-8675 TFSH32 Shaft Holding Tool 32 & 35mm (28 & 32mm Fork Cartridges) ULTRA SLICK SEAL GREASE Race Tech Ultra-Slick Grease provides maximum lubrication and minimum friction for all seal and bushing needs. Available in 1 oz. container. 35-8682 Ultra Slick Seal Grease SHOCK SEAL HEAD SETTING TOOL Allows easy removal and installation of all 40 – 46mm integral shock seal head assemblies. 35-8676 TFSH32 Shock Seal Head Setting Tool SAG MASTER™ The Sag Master is a tool that makes measuring “Race Sag”a snap because you read it directly. No more subtracting! Also useful in determining proper spring rates and monitoring linkage and seal drag. Comes with complete instructions and, doubles as a tape measure. 35-8681 TSSM01 Sag Master Race Sag Setting Tool FORK SPRING COMPRESSOR TOOL This unique fork spring compressor is designed to work on most current sport bikes and road racers. It allows the spring to be compressed while the fork cap is removed from the rod. It can be used on or off the bike on most models. 35-8680 TFSC01 Fork Spring Compressor Tool

Harley Davidson Softails Airtail Suspension System Installation Instructions

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Filed Under (Harley Davidson) by admin on 30-11-2010

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Step 1: Set the Bottoming Control This is the most important step and needs to be done first. Ideally, with the rear wheel off the ground take a measurement from the axle straight up to a fixed point on the fender (assuming the fender is mounted on the frame and not the swingarm). Then, with the motorcycle back on the ground and the rider on it, pressurize the “Bottoming Control” chamber until you get the same measurement —less 1 ¼ to 1 ½”. For example, if your first measurement was 10.0″ inches then your ending measurement should be between 8.50″ and 8.75″ inches. The difference between the two measurements is referred to as “sag”, and it should equal approximately one third of your total wheel travel (see figure 3). Another method of achieving the proper sag is it start with the bike on the ground — with no rider or load on it. Pressurize the “Bottoming Control” chamber to the highest pressure you can without exceeding 150 psi. At this point the rear wheel should be “topped out” and you need to measure from the axle straight up to a fixed point on the fender as described above. Take the same measurement with rider(s) on the bike — ready to ride. The second measurement should be 1¼” to 1½ ” less than the first. If it isn’t, then bleed off the pressure in the “Bottoming Control” chamber until the proper sag is achieved. If you intend to ride the bike at this “full height” then make sure you still put about 10 psi into the “Ride Height” chamber anyway. This helps the piston that separates the two chambers to move more freely producing a smoother ride. Step 2: Set the Ride Height After you have set the “Bottoming Control” you can now adjust the “Ride Height” chamber. This is a much simpler and less crucial adjustment to make. Simply pressurize the “Ride Height” chamber until the bike is lowered to the desired height. To raise the ride height back up, release pressure in the “Ride Height” chamber. Remember, the pressure in this chamber “holds” the bike down—the more pressure the lower it goes. Though the bike may feel “stiffer” the lower you go, do NOT re-adjust the “Bottoming Control” chamber. Essentially what’s happening here is as you’ve reduced your wheel travel, you’ve proportionally increased the forces that keep you from bottoming out with what wheel travel you have left. If you do need to re-adjust the “Bottoming Control” due the addition (or subtraction) of a passenger or extra load, release the pressure from the “Ride Height” chamber first, then repeat step 1.

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KTM Enduro Engineering Shock Spring Removal And Installation Instructions

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Filed Under (KTM) by admin on 12-11-2010

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1 Place motorcycle on a stand so that the rear wheel is off the ground. 2 Remove the upper shock bolt. (Figure 1) 3 Remove the lower shock bolt. (Figure 2) 4 Remove the shock from the motorcycle by sliding it down and out the right rear side of the bike. (Figure 3) 5 Place the shock upside down in a vice with soft jaws. Loosen the retaining ring lock screw with a 4mm Allen wrench. (Figure 4) 6 Using EE KTM shock wrench #22-300 (Figure 5), loosen the retaining collar enough to provide ¾ clearance between the bottom of the spring and the spring retaining collar. (Figure 6) 7 Push the spring retaining collar down to access the retaining clip. (Figure 7) 8 Remove the retaining clip. 9 Remove the spring retaining collar by sliding it up and off of the shock clevis. (Figure 8) 10 Slide the shock spring up and off of the shock. 11 Slide the new spring onto the shock. It should be sitting on the adjusting collar. 12 Re-install the spring retaining collar by sliding it over the clevis far enough to allow the retaining clip to be installed. 13 Install the retaining clip. Make sure that it is fully seated in the groove. 14 Slide the spring retaining collar up until it bottoms out on the retaining clip. 15 Tighten the spring adjusting collar until the bottom of the spring contacts the spring retaining collar. Turn the spring adjusting collar a couple more turns to put a small amount of pre-load on the spring. 16 Remove the shock from the vice and re-install it on the bike by reversing removal steps. Make sure to torque the upper and lower shock bolts to the manufacturer’s torque spec. 17 Set static and race sag as specified in your owner’s manual. Remember to torque the adjusting collar lock screw to manufacturer’s specification

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Ducati Sport Classic License Plate Bracket Installation Manual

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Filed Under (Ducati) by admin on 25-10-2010

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1. Remove the original fender assembly, it is held on by four M6 bolts. Disconnect the tail light harness connector. 2. Remove the tail light assembly from the fender. Take off the brake light lens by removing two screws on the sides of the unit and switch the turn signal connectors inside as shown. Reinstall the lens. 3. Assemble the base plate, bracket, and tail light as shown. Use hardware provided with the kit. It may be useful to put pieces of tape over the M6x30 bolt heads to temporarily keep them in place. Ducati Sport Classic License Plate Bracket Installation 4. Install the complete assembly on the bike. This may require a bit of patience with the four bolts. Start the locknuts onto the bolts by hand, then push the whole assembly forward and tighten. 5. Reconnect the harness connector. 6. After the installation is complete, it is strongly recommended that the rear spring preload be set to 1″ static sag (stock settings are too soft)

2005-2007 KTM 5018 DCC 5018 SXS 5018 SMR WP SHOCK ABSORBER REPAIR MANUAL

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Filed Under (KTM) by admin on 13-02-2011

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liter fuel consumption is equivalent to approx. 15 operating hours Check the bearing in the shock absorber top / replace if necessary Check the piston rod on scratches / leakage Check the static sag – before riding Check the spring Check the bump rubber Check the O-ring of the spring retainer / replace if necessary Complete maintenance of the shock absorber 10 hours 65 liter 20 hours 130 liter 30 hours 200 liter 40 hours 260 liter 50 hours 325 liter 60 hours 400 liter 70 hours 455 liter 80 hours 520 liter 90 hours 600 liter 100 hours 665 liter Adjusting the position of the compression and rebound damping Rebound damping: -Turn in the adjusting screw 1 in a clockwise direction all the way to the stop. -Turn back the respective number of clicks in a counterclockwise direction. Compression damping, low speed: -Turn in the adjusting screw 2 in a clockwise direction all the way to the stop. -Turn back the respective number of clicks in a counterclockwise direction. Compression damping, high speed: -Turn in the adjusting screw 3 in a clockwise direction all the way to the stop. -Turn back the respective number of clicks in a counterclockwise direction. Adjusting the spring preload NOTE: the spring preload is the difference between the unloaded and preloaded length of the spring. -Tighten the adjusting nut 4 with the special tool T106 until you have the prescribed spring preload. -Tighten the lock screw on the adjusting nut. Recommended periodic maintenance and inspection of the 5018 SXS/SMR Shock absorber

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KTM SX-F 250/ 450 Front Fork Kit INSTALLATION MANUAL

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Filed Under (KTM) by admin on 22-01-2012

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Breather plug Make sure to aerate the front fork at regular intervals: Put the motorcycle on a workstand so that the front wheel barely touches the ground. Loosen the breather plug to release excessive pressure in the front fork. Recommended Service Intervals Every 25 hours. Make your service and maintenance according to Öhlins Workshop manual. Disposal Discarded Öhlins products should be handed over to an authorized Öhlins workshop or distributor for proper disposa Compression damping adjuster The compression adjuster is located at the top of the fork leg. Adjust by turning the slotted screw with a screwdriver. Rebound damping adjuster The rebound adjuster is located at the bottom of the fork leg. Adjust by turning the slotted screw with a screwdriver. To Reset The adjusters have a normal right hand thread. Turn the damping adjusters gently clockwise to fully closed (pos. zero [0]). To open, turn counter clockwise, and count the clicks until you reach the recommended number. For recommended clicks see Set-up data. Static sag can only be changed with softer or harder spring rate.

KAWASAKI ZZR 1400 SPECIFICATIONS/ FEATURES AND BENEFITS

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Filed Under (Kawasaki) by admin on 04-12-2010

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Engine type . …………………….. 4-stroke, liquid-cooled, in-line 4 Displacement . ………………….. 1352 cm3 Bore x stroke . ………………….. 84.0 x 61.0 mm Compression ratio . ………….. 12.0: 1 Valve system . ………………….. DOHC, 16 valves, 4 valves per cylinder Maximum power . ……………… 140 kW (190 PS) / 9,500 r/min (Fr. 78.2 kW (106 PS) / 8,500 r/min) Maximum power + ram air . .. 147 kW (200 PS) / 9,500 r/min Maximum torque . …………….. 154 N•m / 7,500 r/min (Fr. 114 N. m / 4,500 r/min) Fuel system . ……………………. EFI with 4 x 44 mm Mikuni throttle bodies Ignition . …………………………… digital TCBI (ECU controlled) Starting system . ………………. electric Transmission . ………………….. 6-speed Frame type . ……………………… aluminium monocoque Rake / trail . ………………………. 23″ / 94 mm Suspension, front . ……………. 43 mm inverted fork Suspension, rear . …………….. Uni-Trakfi with gas-charged shock absorber Wheel travel, front / rear . ….. 117 / 122 mm Tyre, front / rear . ………………. 120/70 ZR 17 / 190/50 ZR 17 Brake, front . …………………….. 310 mm dual discs with radial mount 4-piston calipers Brake, rear . ……………………… 250 mm disc with single piston caliper L x W x H . ………………………… 2,170 x 760 x 1,170 mm Wheelbase . ……………………… 1,460 mm Seat height . ……………………… 800 mm Fuel capacity . ………………….. 22 L Dry weight . ………………………. ZX1400A6F 215 kg / ZX1400B6F 218 kg Colours . …………………………… Pearl Meteor Grey or Candy Thunder Blue Kawasaki 2006 SUPER SPORTS 5 ZZR1400 (ZX1400A6F/B6F) FEATURES AND BENEFITS ENGINE 1352cm3 4-cylinder DOHC engine ! The most powerful production Kawasaki motorcycle engine ever. ! All new compact 4-cylinder engine. ! Gear-driven dual secondary balancers cut vibration, minimising engine wear, noise and rider fatigue. ! Chrome composite plated cylinders are lightweight, durable, and quickly carry heat away from the combustion chamber and piston for supreme durability at high power output. Fuel system ! Electronic fuel injection feeds the engine exactly the right amount of fuel giving excellent power, fuel economy, driveability and starting. ! High atomising injectors are used to maximise combustion efficiency and minimise emissions. ! Dual throttle valves are fitted to significantly improve driveability. The sub throttle valves are controlled by the ECU to provide precise response. ! An oval throttle pulley improves throttle control, opening less initially but increasing as more throttle is applied. ! ECU is a 32 bit unit to provide the control circuit required to operate the dual throttles. ! The ram air induction system takes cooler, high- pressure air from in front of the cowling and pushes it through the air cleaner and into the engine for maximum power output. ! To minimise emissions, honeycomb-type catalysers are used.

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SUZUKI SV650 Fl SYSTEM DIAGNOSIS SERVICE MANUAL

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Filed Under (Suzuki) by admin on 26-02-2011

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PRECAUTIONS IN SERVICING When handling the component parts or servicing the FI system, observe the following points for the safety of the system . ELECTRICAL PARTS CONNECTOR/COUPLER • * When connecting a connector, be sure to push it in until a click is felt. •With a lock type coupler, be sure to release the lock when isconnecting, and push it in fully till the works when connecting it. • * When disconnecting the coupler, be sure to hold the coupler body and do not pull the lead wires . • * Inspect each terminal on the connector/coupler for looseness or bending. • * Inspect each terminal for corrosion and contamination. The terminals must be clean and free of any foreign material which could impede proper terminal contact . •Inspect each lead wire circuit for poor connection by shaking it by hand lightly. If any abnormal condition is found, repair or replace. •When taking measurements at electrical connectors using a tester probe, be sure to insert the probe from the wire harness side (backside) of the connector/coupler . 0 4 40 O/ 40 16~ Id •When connecting meter probe from the terminal side of the coupler (connection from harness side not being possible), use extra care not to force and cause the male terminal to bend or the female terminal to open . Connect the probe as shown to avoid opening of female ter- minal. Never push in the probe where male terminal is supposed to fit. •Check the male connector for bend and female connector for excessive opening. Also check the coupler for locking (looseness), corrosion, dust, etc . FUSE • * When a fuse blows, always investigate the cause correct it and then replace the fuse . • * Do not use a fuse of a different capacity . • * Do not use wire or any other substitute for the fuse . ECMNARIOUS SENSORS •Since each component is a high-precision part, great care should be taken not to apply any sharp impacts during removal and installation. • * Be careful not to touch the electrical terminals of the ECM . The static electricity from your body may damage this part . FI SYSTEM DIAGNOSIS 4-3
4-4 FI SYSTEM DIAGNOSIS • When disconnecting and connecting the ECM, make sure to turn OFF the ignition switch, or electronic parts may get dam- aged. • * Battery connection in reverse polarity is strictly prohibited . Such a wrong connection will damage the components of the FI system instantly when reverse power is applied . • * Removing any battery terminal of a running engine is strictly prohibited. The moment such removal is made, damaging counter electromotive force will be applied to the ECM which may result in serious damage.

4-STROKE TRIUMPH SINGLE CYLINDER MOTORCYCLES ELECTRONIC IGNITION SYSTEM INSTALLATION INSTRUCTIONS

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Filed Under (Triumph) by admin on 27-10-2010

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1. Remove the petrol tank (and seat if necessary) to gain access to the ignition coil, condensor and wiring. 2. For safety, disconnect the battery, if fitted (preferably both terminals). 3. Remove the spark plug. 4. Remove the alternator rotor cover (if fitted). 5. Loosen the auto-advance centre bolt. Rotate the engine to the correct full advance timing position for your machine (see table on page 6), using one of these methods: • Models from 1967 on: use the marks provided for strobe timing on the rotor & chaincase (inside the rotor cover). Unless these marks are known to be accurate it is recommended that they are checked for correct alignment. These marks should line up at the full advance position, check using one of the methods below and, if necessary, re-mark the rotor. • Models from 1969 on: use the timing plug on the left-hand crankcase • Use a degree disc on the crankshaft / camshaft (see table on page 6) • Use a dial guage down the spark plug hole (see table on page 6) 5. Remove kickstart, gear lever and outer timing cover. 6. Remove the contact-breaker plate and lead from the outer timing cover. 7. Taking the ignition trigger assembly, insert a small cable tie into the two holes in front of the connector block on the ignition trigger. This will be used later to secure the two wires to the plate. 8. Fit the ignition trigger plate with the adjustable slots at approx. 6 & 12 o’clock, using the original pillar fixings & washers, positioned in the centre of the slots (to allow for adjustment in either direction). Handle the trigger with care. • RED EARTHING WIRE • CRIMP CONNECTORS & INSULATORS • LARGE & SMALL CABLE TIES • CABLE TIE ADHESIVE MOUNTING BASE 3
9. Remove the centre bolt securing the auto-advance unit. Remove the complete auto-advance unit with an extractor bolt or by tapping it gently sideways. 10. Fit the magnetic rotor in place of the auto-advance unit, with the magnets/ red marks positioned at approx. 3 & 9 o’clock. The magnetic rotor has a male taper which fits into the taper in the end of the camshaft. There is no keyway, allowing it to be fitted in any desired position. 11. Using the ¼” washer and the appropriate bolt (UNF or BSF), pass the bolt through the centre of the magnetic rotor and into the thread in the camshaft. Finger tighten only at this stage. The magnetic rotor centre thread (metric M8) is provided for attaching a puller, if the rotor should need to be removed for engine servicing, etc. 12. Replace the outer timing cover, gear lever & kickstart. 13. Check that the engine is still at the correct full advance position, then adjust the magnetic rotor position so that one of the red marks is centrally behind the static timing hole at 9 o’clock (see fig. 4, page 7). If your machine’s camshaft rotates clockwise, refer to fig. 3. Gently tap the rotor into the taper & tighten the centre bolt, using a 3/16″ allen key. WIRING: 14. All connections must be of the highest quality, use crimped or soldered connections; twisted wires will not give a satisfactory operation. Avoid coiling up surplus lead.

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