1985 kawasaki 454 can you adjust valves

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KAWASAKI TERYX EFI Installation Instructions.

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Filed Under (Kawasaki) by admin on 08-02-2011

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Basic Tuning Adjustments 1. The following instructions are for basic fuel tuning. Modes 1,2, & 3 are allowing adjustments to increase and decrease the amount of fuel the engine needs. Modes 4 & 5 are for advanced tuning only. DO NOT change modes 4 & 5 when doing basic tuning! 2. To help understand how these modes work, you can think of them as if you were working with a carburetor. 3. Remember each time you push the MODE button you will be advancing to the next mode. Push the MODE button once and you are now in mode 1, push the MODE button again and you are now in mode 2 and so on. You only need to be concerned with modes 1, 2 & 3 for basic tuning. Modes 4 & 5 are for advanced tuning ONLY. 4. If you need to go back to the settings that were pre programmed when you purchased the controller, just look at the picture in each mode, the colored square represents where the settings were when you purchased the controller. 5. Looking at the controller you will see eight lights with numbers under them, this is what you need to look at when changing settings. The #1 light on the controller represents the leanest setting. TRINITY RACING DOES NOT TAKE REPONSIBLITY FOR DAMAGES THAT MAY OCCUR DURING OPERATION OF YOUR VEHICLE UNDER IMPROPER JET SETTINGS. IT IS THE FINAL RESPONSIBLITY OF THE OWNER/RIDER TO ADJUST JETTING TO SPECIFIC RIDING CONDITIONS AND ELEVATION BEFORE RIDING. WARNING! 1.877.FAS TOYS 2.Remove both seats 6. Re-install engine cover and seats. 6. Mode 1 green light represents idle & cruise adjustment (i.e. pilot jet). To adjust this setting push the MODE button once and then push the plus or minus buttons to adjust fuel as needed. 7. Mode 2 yellow light represents an additional amount of fuel added during acceleration (i.e. needle position). To adjust this setting, push MODE twice and then push the plus or minus buttons to adjust fuel as needed. 12 34 56 7 8 12 34 56 7 8 8. Mode 3 red light represents more fuel being added during full throttle (i.e. main jet). To adjust this setting push the MODE button three times and then push the plus or minus buttons to adjust fuel as needed. 9. If you are confident about your tuning skills and feel you need to adjust other parameters, see Advanced Tuning. 12 34 56 7 8 Advanced Tuning Adjustments 1. Advance tuning has two modes in which to adjust. They are called mode 4 and mode 5. In basic tuning, you are changing the amount of fuel that the engine receives, but with advance tuning, you will be changing when the fuel will be available. In each mode you can adjust how soon the fuel delivery occurs. 2. Mode 4 yellow light and blue light represent when the fuel delivery is available during partial throttle acceleration. To adjust this setting, push the MODE button four times and then push the plus or minus buttons to adjust fuel as needed. Only the yellow light will be changing.

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Kawasaki FI Calibration Tool Instruction Manual

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Filed Under (Kawasaki) by admin on 08-02-2011

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System Function Kawasaki FI Calibration Tool (FI Tool) is developed to modify the mapping of the racing machine to gain operating conditions suitable for the course and the rider’s skill. The following are the available setting functions. Table 1 FI Tool Function Model Name Functions Available Setting Range ’04 ZX-10R ’05 ZX-6RR ’05 ZX-10R ’06 ZX-10R ’07 ZX-6R 1) Adjust the injected fuel rate at acceleration -30 % ~ +30 % 〇 〇 〇 〇 〇 2) Adjust the injected fuel rate of No.1 and No.4 cylinder -30 % ~ +30 % 〇 〇 〇 〇 〇 3) Adjust the injected fuel rate of No.2 and No.3 cylinder -30 % ~ +30 % 〇 〇 〇 〇 〇 4) Adjust the injected fuel rate of primary and secondary injector * -30 % ~ +30 % -10 % ~ +10 % — – — 〇 — – — – — 〇 5) Adjust the ignition timing -15°CA~ +5°CA 〇 〇 〇 〇 〇 6) Adjust the sub-throttle opening angle -50 % ~ +50 % -45 % ~ +45 % 〇 — – 〇 〇 — 〇 — – 〇 7) Adjust the exhaust device opening angle -50 % ~ +50 % 〇 — 〇 〇 — 8) Adjust the all injected fuel rates of all cylinders and operating are a simultaneously -30 % ~ +30 % 〇 〇 〇 〇 〇 9) Adjust the value of engine over revolution limiter 0 ~ +300 rpm -1000 ~ +700rpm -1000 ~+1200rpm — – — 〇 — – — 〇 — – — 〇 〇 — – 10) Set the fuel cut or not at deceleration Use or Not Use 〇 〇 〇 〇 〇 11) Set the sub throttle controlled or not Controlled or Full Open Fixed 〇 — – — – 12) Set the exhaust device controlled or not Controlled or Full Open Fixed 〇 〇 〇 〇 〇 13) Set the Auto Shifter Ignition Cut Length Controlled or not, set Ig. Cut Time by gear range — – 〇 〇 〇 14) Set the Pit Road RPM Limit Controlled or not, set Upper Limit RPM by gear range

Adjusting the Pekar K68 for Dnepr or Ural

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Filed Under (Tips and Review) by admin on 11-11-2010

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1. Make sure the ignition timing is correct 2. Adjust the valves as necessary to ensure proper operation 3. Run the engine to warm it up a bit 4. Adjust the float setting. To do this, remove the carburetors (leave the throttle cables attached), remove the bowl and turn the carburetor upside down (fuel will spill). The float should look like this: Adjust as necessary by bending the float support (#37 in Figure 1). Reinstall Installation and idle adjustment 1. First you must adjust the idle. It is acceptable per the manual to adjust the idle by using the idle adjust screws (11). This usually involves screwing them then backing out 1 to 1.5 turns. Or you can adjust looking at the sliders 2. If installing the carburetors: a. Remove the cover (2) b. Reomve the slider (3) c. Place the throttle cable through the guide (18) with the spring (4) on the cable. d. Route the cable through the slide catch (6) e. Insert the slide assembly into the chamber and make sure it easily slides up and down. Direct the needle (8) into the opening of the diffuser (angled side visible). f. Screw assembly together and verify via throttle movement that slide moves freely. Attach fuel delivery lines to (12). 3. Using the idle set screw (11) raise the slider so the lower edge is 1-2 mm. 4. Assemble to engine using the proper gaskets (paper – felt – paper). 5. Using the locknut (26) adjust the free play of the throttle cable (2-3 mm) 6. Adjust the idle mixture screw – turn in completely then out 1 to 1.5 turns. * Starting using the K68′s (cold weather) 1. Verify fuel flow. Apply choke (pull 52 in Fig1). 2. Using the ticklers (13) allow fuel to enter the bowl until fuel drains from (14) 3. With the ignition off, kick 1 or 2 times 4. Turn ignition on, and as soon as engine is warmed up (maybe sooner) push choke mechanisms to open choke Idle Adjustment (engine running and warm) 1. Remove one of the spark plug caps, and with the cap shorted, adjust (11) to decrease RPM’s to a point of being minimally steady. 2. Adjust the mixture (15) out until RPM’s decrease. Turn in until RPM’s increase slightly. Then turn in screws ¼ to 1/3 revoultion. 3. Do the same for the second carburetor with the first spark plug cap shorted. 4. With both cylinders, adjust each idle (11) on each carburetor the same amount each until it’s at a steady, minimal RPM. Use small changes. (at this point you can use your airflow tool to check). 5. Sharply increase, then decrease throttle. Then engine must return to low RPMs smoothly. If the engine goes below limits, readjust (11) from step 4. Synchronization of the K68 Note: Rather than using the opposite cylinder shorted to test the pull of the live cylinder carburetor, you can use something like a Twinmax connected to the test ports (27 Fig 1). Or, if you have a model without these ports, use a Synchrometer (Appendix 2) held against the face of the carburetor. These tools merely show airflow passing through each carburetor (which is dependent on the position and wear on the slide). If using these tools, it’s not necessary to do the following steps. You wil want to use a throttle guide (Appendix 1), to show airflow at various throttle settings. Using the flow meter of your choice make sure each carburetor is the same at the various throttle settings. 1. Place the motorcycle on the center stand ensuring the rear wheel is suspended 2. Make sure you have large area to work with (safety issues here) 3. Shift into the highest gear with the engine running 4. Short one spark plug cap to the cylinder (using a nail or something in the fins) 5. Increase the speed to 40-50 km/hr 6. Fix the throttle using the throttle (maybe using a throttle stop screw under the throttle housing). 7. Reconnect other cylinder and using the opposite carburetor determine the speed which should be the same as the first. 8. Adjust the position of this slide to achieve the referenced speed using the locknut at the top of the carburetor.

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1985-1990 Kawasaki 454LTD EN450 Specifications

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Filed Under (Kawasaki) by admin on 05-11-2010

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Minimum Turning Radius 2.5 m (98.43 in) Braking Distance 12.5 m from 50 km/h (41 ft from 31 mph) DIMENSIONS Overall Length 2,205 mm (86.81 in) Overall Width 820 mm (32.3 in) Overall Height 1,220 mm (48.03 in) Wheelbase 1,485 mm (58.46 in) Road Clearance 130 mm (5.12 in) Dry Weight 180 kg (397 lbs) / 180.5 (398 lbs) ENGINE Type DOHC, 2-cylinder, 4-stroke, liquid-cooled Displacement 454 mL (27.7 cu in) Bore & Stroke 72.5 x 55.0 mm (2.85 x 2.17 in) Compression Ratio 10.7 : 1 Starting System Electric Starter Cylinder Numbering Method Left to Right, 1-2 Firing Order 1-2 Carburetors Keihin CVK34 x2 Ignition System Battery and coil (transistorized ignition) Ignition Timing (Electronically advanced) 10° BTDC @ 1,200 r/min (rpm) – 37.5° BTDC @ 10,000 r/min (rpm) Spark Plugs NGK D9EA or ND X27ES-U NGK DR8ES or ND X27ESR-U Lubrication System Forced lubrication (wet sump) Engine Oil SE or SF class SAE 10W40, 10W50, 20W40, or 20W50 Engine Oil Capacity 3.4 L (3.6 US qt) Coolant Capacity 1.4 L (1.5 US qt) Kawasaki 1985-90 454LTD EN450 Specifications Page 2 of 2 TRANSMISSION Transmission Type 6-speed, constant mesh, return shift Clutch Type Wet, multi disc Driving System Belt Drive Primary Reduction Ratio 2.952 (62/21) Final Reduction Ratio 2.720 (68/25) Overall Drive Ratio 6.840 (Top gear) Gear Ratio: 1st 2.571 (36/14) 2nd 1.777 (32/18) 3rd 1.380 (29/21) 4th 1.125 (27/24) 5th 0.961 (25/26) 6th 0.851 (23/27) FRAME Castor 31.5° Trail 139 mm (5.47 in) Tire Size Front: 100/90-19 57S Rear: 140/90-15 70S Fuel Tank Capacity 11 L (2.9 US gal) ELECTRICAL EQUIPMENT Battery 12 V 12 AH Headlight 12 V 60/55 W Tail/Brake Light 12 V 8/27 W x2

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Kawasaki Ninja 650R (ER-6F) & ER-6N Resource Upgrading the Suspension on the Kawasaki ER6-F/ N

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Filed Under (Kawasaki) by admin on 30-11-2010

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Top fork is as removed. Kawasaki Ninja 650R (ER-6F) & ER-6N Resource Before removing the fork from the clamps on the yokes I loosened the fork top. Before removing the fork top the fork-slider was placed in a vice and the bottom bolt loosened….. … before finally being removed with the fork upside down. Because the springs were still in situ this gave sufficient tension on the damper-rod to prevent it from turning and allow the bolt to be removed. When I turned the fork the right-way up to remove the fork-top I did it over a container to catch the oil. Kawasaki Ninja 650R (ER-6F) & ER-6N Resource All the OE components that will no longer be required. Left to right. Fork-top, spacer tube, washer, spring, damper-rod. Bottom bolts get re-used. Old and new, laid-out for comparison. The damper unit, minus spring and fork-top, drops inside the stanchion and slider. Kawasaki Ninja 650R (ER-6F) & ER-6N Resource Then the bolt goes back in, as tight as possible, to secure it. Top fork is done, second one awaits. Note the spring seat on the right, just below the spring. This drops over the damping rod after the oil has been added. The small locking-nut screws over the threaded part of the damping-rod next, all the way to the bottom. Spring drops in and then the fork-top screws on to the damping-rod as well, all the way down to the lock-nut which is used to secure it. At this point the stanchion is extended to the fork-top which is screwed in. Job done.

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Kawasaki Exhausts – ZX-6 ZX-10 Zx-14 Exhaust – Slip-ons INSTALLATION MANUAL

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

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Our favorite exhaust options for Kawasaki ZX Ninjas – ZX-10,ZX-6r, and the new horsepower king, Zx-14.. Grab your horsepower today. We love Rob Muzzy and Muzzy Exhausts.Going back to Doug Chandler and Scott Russell, Muzzy has been synonomous with Kawasaki and performance – and for years, if you rode Kawasaki,and you were on the podium, Muzzy was on your exhaust. We also feature Arrow and Yoshimura exhausts for your ZX-6R, ZX-10 and ZX-14. We love the sound of a Yosh exhaust on any Kawasaki Ninja. Yoshimura Oval (RS-3) Race Slip-On for Kawasaki ZX14R 2006 The easiest and least expensive way to experience Yoshimura performance is with our Slip-On/Bolt-On lines. Bolt-On style bolts to the O. E. M. mid-pipe Slip-On style with its stainless steel easily attaches to the mid-pipe RS-1 is available where noted Usually, no jetting or re-programming is required and installation is a snap Hindle Stainless Exhaust High Head Pipes – Kawasaki ZX6R-RR 03-04 The worlds lightest stainless steel exhaust system. Increase horsepower and torque throughout the entire rpm range. Lightweight, strong stainless steel header design looks great and weighs less than stock headers. Available in low- and high-mo North Denver News http://northdenvernews.com Powered by Joomla! Generated: 19 October, 2010, 12:28 Hindle Stainless Exhaust Low Head Pipes – Kawasaki ZX9R 00-03 The worlds lightest stainless steel exhaust system. Increase horsepower and torque throughout the entire rpm range. Lightweight, strong stainless steel header design looks great and weighs less than stock headers. Available in low- and high-mo

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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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Ural carburetors Installation and idle adjustment

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Filed Under (Ural) by admin on 02-11-2010

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1. First you must adjust the idle. It is acceptable per the manual to adjust the idle by using the idle adjust screws (11). This usually involves screwing them then backing out 1 to 1.5 turns. Or you can adjust looking at the sliders 2. If installing the carburetors: a. Remove the cover (2) b. Reomve the slider (3) c. Place the throttle cable through the guide (18) with the spring (4) on the cable. d. Route the cable through the slide catch (6) e. Insert the slide assembly into the chamber and make sure it easily slides up and down. Direct the needle (8) into the opening of the diffuser (angled side visible). f. Screw assembly together and verify via throttle movement that slide moves freely. Attach fuel delivery lines to (12). 3. Using the idle set screw (11) raise the slider so the lower edge is 1-2 mm. 4. Assemble to engine using the proper gaskets (paper – felt – paper). 5. Using the locknut (26) adjust the free play of the throttle cable (2-3 mm) 6. Adjust the idle mixture screw – turn in completely then out 1 to 1.5 turns 1. Remove one of the spark plug caps, and with the cap shorted, adjust (11) to decrease RPM’s to a point of being minimally steady. 2. Adjust the mixture (15) out until RPM’s decrease. Turn in until RPM’s increase slightly. Then turn in screws ¼ to 1/3 revoultion. 3. Do the same for the second carburetor with the first spark plug cap shorted. 4. With both cylinders, adjust each idle (11) on each carburetor the same amount each until it’s at a steady, minimal RPM. Use small changes. (at this point you can use your airflow tool to check). 5. Sharply increase, then decrease throttle. Then engine must return to low RPMs smoothly. If the engine goes below limits, readjust (11) from step 4. Synchronization of the K68 Note: Rather than using the opposite cylinder shorted to test the pull of the live cylinder carburetor, you can use something like a Twinmax connected to the test ports (27 Fig 1). Or, if you have a model without these ports, use a Synchrometer (Appendix 2) held against the face of the carburetor. These tools merely show airflow passing through each carburetor (which is dependent on the position and wear on the slide). If using these tools, it’s not necessary to do the following steps. You wil want to use a throttle guide (Appendix 1), to show airflow at various throttle settings. Using the flow meter of your choice make sure each carburetor is the same at the various throttle settings. 1. Place the motorcycle on the center stand ensuring the rear wheel is suspended 2. Make sure you have large area to work with (safety issues here) 3. Shift into the highest gear with the engine running 4. Short one spark plug cap to the cylinder (using a nail or something in the fins) 5. Increase the speed to 40-50 km/hr 6. Fix the throttle using the throttle (maybe using a throttle stop screw under the throttle housing). 7. Reconnect other cylinder and using the opposite carburetor determine the speed which should be the same as the first. 8. Adjust the position of this slide to achieve the referenced speed using the locknut at the top of the carburetor.

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KTM OM-2 Split Body Floating Ball Valves Installation and Maintenance Instructions

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Filed Under (KTM) by admin on 26-01-2012

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Remove the valve from the shipping package (box or pallet) with care taken to avoid any damage to the valve and actuator (plus accessories where applicable). •Before installation, remove the seal discs from the flange. Clean the inside of the valve using an air line that includes an appropriate air-filter. Ensure that there are no solid objects such as pieces of wood, plastic or packing materials within the valve or on the valve seat. •Confirm that the materials of construction listed on the valve nameplates are appropriate for the service intended for and are as specified. When in doubt contact KTM, or your local Tyco facility. •Define the preferred mounting orientation with respect to the system pressure. The arrow on the body helps to identify the upstream side (high pressure) and downstream side (low pressure). •Ensure that all stud bolts and nuts of the body joint are firmly fastened. Caution •Verify that the direction of the flow in the line corresponds to the arrow indicated on the valve body. Valves without the arrow are bi-directional. •See the Actuator User Manual for the actuator preparation. 2.2. Installation Instructions •Ball valves are normally installed in horizontal pipes with the stem facing up. However, there are no limitations regarding the pipe or stem orientation. •Unless otherwise recommended by KTM, the valve should be installed with the ball in the open position, to ensure that the seat rings are not damaged during installation. •Particular care should be taken for valves equipped with “fail-close” actuators. •For operating temperatures above 200°C (392°F), thermal insulation of the valve body is recommended to protect the actuator/accessories from heat beyond the recommended temperature range. •Handling and lifting of the valves during installation MUST be performed following the same criteria and instructions described in points 1.2. and 1.3

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KAWASAKI Jet Ski STX-12F SPECIFICATIONS

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Filed Under (Kawasaki) by admin on 05-11-2010

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FEATURES & BENEFITS Kawasaki 2007 SPECIFICATIONS: JT1200D7F Engine type……………… 4-stroke, water cooled, 4- cylinder Displacement…………… 1,199 cm3 Bore & stroke…………… 83.0 x 55.4 mm Compression ratio…… 11.2:1 Induction system……… DOHC 16 valve (4 valves per cylinder) Maximum power………. 92 kW (125 PS) / 7,200 r/min Maximum torque……… 125 N·m / 6,500 r/min Cooling system……….. inducted water Fuel system…………….. EFI with single 54 mm throttle Starting ……………………. electric Battery…………………….. sealed, 12V 18Ah Propulsion system…… axial flow, single stage jet pump Maximum thrust………. 3,675 N (375 kgf) Seating capacity………. 3 seater Fuel capacity…………… 62 L L x W x H…………………. 3,120 x 1,180 x 1,050 mm Dry weight……………….. 334 kg Colours……………………. Red NOTE: Specifications subject to change without notice ENGINE Ñ 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. Ñ Semi-dry sump uses a single feed oil pump. Ñ Tip over protection shuts the engine off if the craft tilts more than 61o. Ñ 4-valves per cylinder provides maximum valve area for optimum flow. Fuel system Ñ Electronic Fuel Injection (EFI) with a single Mitsubishi throttle body and an injector at each intake port. Ñ Long intake tract enhances low-end power. Ñ Large capacity, low-noise airbox. Ñ Finger-type throttle reduces hand fatigue. Water-jacketed semi-dry exhaust Ñ Double-walled exhaust manifold and dual waterboxes help reduce noise. Ñ Water surrounding the exhaust system lowers engine compartment temperatures for more power. Ñ Semi-dry exhaust system keeps cooling water out of the exhaust before the waterbox to prevent water from entering the engine if the boat should capsize. Ñ Emissions meet US EPA 2006 and CARB 2008 regulations. Lanyard engine stop switch Ñ Engine will not crank with lanyard removed. Ñ Fastened to the rider, lanyard cuts the ignition if the rider dismounts. DRIVE SYSTEM Three-blade oval edge stainless steel impeller Ñ The shape of the blades give maximum efficiency with minimum cavitation. Ñ Fully enclosed impeller for damage protection. Ñ Stainless steel pump insert increases durability and helps ensure reliable performance. Ñ Tough stainless steel is used for incredible durability. HULL Ñ One-piece chopper over foam (COF) hull construction is lighter than a conventional hand-laid hull of similar size. Ñ Cab forward design makes more space for the rider and passengers. Ñ Gel coat for deep, lustrous, scratch resistant finish. Ñ Open rear deck for carrying bulky items, putting on skis, etc. Ñ
An automatically retractable boarding step makes boarding from deep water easy. Kawasaki Smart Steering (KSS) Ñ A steering sensor is linked to the EMM to aid in boat handling when the throttle is quickly released from high speed. Detail features Ñ 62 litre fuel tank for increased range. Ñ LCD instrumentation includes digital speedometer, tachometer, hour meter, clock, trip distance, trip time, fuel level and warning lamps. Ñ Includes high tech. troubleshooting function for the fuel injection system. A computer hook-up allows easy retrieval of entire troubleshooting history. Ñ A remote cooling system flushing point is included. Ñ Front hatch made of ABS for reduced weight, increased durability and enhanced appearance. Ñ Mirrors mounted on the deck reduce weight and enhance appearanced

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