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Twin Tec Installation Instructions for TC88A-IH Ignition

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Filed Under (Tips and Review) by admin on 29-11-2010

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INSTALLATION ON 2004 MODELS 1. Turn off the ignition switch and disconnect the battery ground cable before proceeding. 2. Refer to Figures 2 and 3 for wiring details. 3. Remove the Gill Module. 4. Cut off the OE 18 terminal AMP connector used with the Gill module. Refer to the terminal list. Crimp new Deutsch terminals on the wires, and install into the 12 terminal Deutsch connector required by the TC88A-IH module. 5. Install the new TC88A-IH module. 6. Reconnect the battery ground cable. INSTALLATION ON 2005 AND LATER MODELS 1. Turn off the ignition switch and disconnect the battery ground cable before proceeding. 2. Refer to Figures 4 and 5 for wiring details. 3. Remove the Gill Module. 4. Cut off the OE 18 terminal AMP connector used with the Gill module. 5. The crankshaft position (CKP), MAP, and engine temperature (ET) sensor share a common ground Daytona Twin Tec LLC, 933 Beville Road, Suite 101-H, S. Daytona, FL 32119 TC88A-IH (386) 304-0700 www.daytona-twintec.com 10/2009 Page 2 return. This is not compatible with the TC88A-IH and some rewiring will be required. The temperature sensor is not used, but does not require removal. 6. Trace the BK/GN ground return wires from terminal B of the ET sensor and terminal A of the MAP sensor to where they join the BK/GY ground return wire from the CKP sensor. Cut the ET and MAP sensor ground return wires off at this point. You can tape up the ground return wire from the ET sensor – this wire will not be used. 7. Extend the ground return wire from terminal A of the MAP sensor up to the ignition module, crimp on a Deutsch terminal and install in position 4 on the Deutsch connector. 8. Refer to the terminal list. Crimp new Deutsch terminals on the remaining wires, and install into the 12 terminal Deutsch connector required by the TC88A-IH module. 9. Use a DVM to verify isolation (no continuity) between terminals 4 and 9 on the Deutsch connector. 10. Verify continuity between terminal A at the MAP sensor and terminal 4 on the Deutsch connector. 11. Verify continuity between terminal 2 at the CKP sensor and terminal 9 on the on the Deutsch connector. 12. Install the new TC88A-IH module. 13. Reconnect the battery ground cable. Terminal List for American IronHorse Ignition Conversion TC88A Deutsch Connector OE AMP Connector Signal Wire Color Code 1 2 +12V Power W/R

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Ignition Upgrade Module for 2004-up Carbureted Harley Davidson Motorcycles Owner's Manual

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Filed Under (Harley Davidson) by admin on 25-11-2010

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1. Disconnect the negative battery cable. 2. Grasp the sides of the electrical caddy (located next the ignition coil) and pull outward to remove. 3. Remove the relay and fuse panels from the electrical caddy. a. Insert a small screwdriver into the slot under each fuse and relay panel. b. Using a screwdriver, disengage the panel from the electrical caddy. 4. Disconnect the main fuse connector from the electrical caddy a. Remove the main fuse from the connector b. Insert small screwdrivers into the slots on each side of the main fuse c. Depress the tabs of the main fuse connector to disengage it from the electrical caddy
Thunder Heart Performance Corp. 615-672-8811 www.thunder-heart.com 2 EI5075.doc 5. Depress the tab located on the electrical caddy securing the TSM/TSSM. Pull it from the electrical caddy. Disconnect the TSM/TSSM connector. 6. Slide the data link connector towards the front of the motorcycle to disengage it from the electrical caddy. 7. Disconnect the ignition control module connector. 8. Disconnect the ignition coil connector and spark plug cables from the coil. 9. Remove the electrical caddy fasteners (3 total). 10. Remove the wiring from the electrical caddy. 11. Remove the fasteners securing the factory ignition control module from the electrical caddy. 12. Installation of the Digital Ignition Module is the reverse of removal. 2.2 Touring Models 1. Disconnect the negative battery cable. 2. Remove the right saddlebag. 3. Gently pull the side cover from the frame downtubes (no tools required). 4. Depress the external latches and use a rocking motion to remove the electrical connector from the ignition control module. 5. Remove the two socket screws to detach the ignition control module from the electrical bracket. 6. To install the Digital Ignition Module, install and tighten the socket screws to 50-60 in-lbs . The remainder of installation is the reverse of removal. 2.3 Softail Models 1. Remove the seat. 2. Disconnect the negative battery cable. 3. Remove the two screws to free the ignition control module from the mounting bracket. 4. Depress the external latches and use a rocking motion to remove the electrical connector from the ignition control module. 5. To install the Digital Ignition Module, install and tighten the socket screws to 15-21 in-lbs . The remainder of installation is the reverse of removal

Victory LED Brake Light Module Installation

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Filed Under (Victory) by admin on 31-10-2010

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Brake Module Installation: Locate the Auto Cancel Module (ACM) under the seat on the right side of the battery box area. Select a suitable location to mount this product near the ACM module. Disconnect negative terminal on battery before installation.. Do not attached attach the product at this time. Setup: Set dip switches according to the chart below. Switch Settings: 1 2 3 4 Result OFF OFF OFF OFF 3 Flashes-Solid-Repeat ON OFF OFF OFF 3 Strobes-Solid-Repeat OFF ON OFF OFF 3 Strobes -Solid ON ON OFF OFF 3 Flashes – Solid OFF OFF ON OFF Variable Flash Rate – Use Pot to adjust flash rate Route and connect the wires as follows: Refer to block diagram on page 2. Locate the White with Pink Tracer wire leading into the ACM module. Cut this wire approximately 2-3 inches from the ACM module. A: Red: Input: Connect this wire to the cut White/Pink wire leading away from the ACM module using supplied posi-tap. (See enclosed instructions for Posi-Tap) B: Yellow: Output: Connect this wire to the cut White/Pink leading into the ACM module using supplied posi-tap. C: Black: Ground: Connect this wire to a good bare metal contact or negative terminal of battery using supplied terminal ring, crimp terminal ring onto black wire, heat terminal ring to form with heat gun or hair dryer until heat shrink, shrinks. Attach the unit to your vehicle using supplied 3M tape or tie wraps. Reconnect negative terminal to battery. Operation: Apply power and check that LED(s) operate correctly in both running light and brake light mode. Caution! This product is designed for use on DC motorcycle applications with negative ground only! This product is not recommended or approved for any other application. Warning! This product is intended to drive high output LEDs ONLY. Do not connect this product’s output to any other type lamp. Maximum output current is 2 amps. Overloading, improper use or improper operation of this product will void the warranty and many damage the product. Warning! Consult your owners’ manual or the vehicle manufacture before installing this or any other electronic product

NORTON LIGHTWEIGHT TWIN ELECTRONIC IGNITION Installation Instructions

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Filed Under (Norton) by admin on 31-10-2010

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1. All connections must be of the highest quality, use crimped or soldered connections; twisted wires will not give a satisfactory operation. 2. Remove the petrol tank and/or seat to gain access to the ignition coils, condensers and wiring. 3. For safety, disconnect the battery (preferably both terminals). 4. Remove timing cover. 5. Disconnect the two wires (usually black-white & black-yellow) and remove the contact-breaker plate. At the other end, these two wires must be disconnected from the ignition coils & condensers. The condensers are no longer required and can be removed. They should not be connected to the electronic ignition system. 6. Remove auto-advance unit. 7. Disconnect the remaining wires from the ignition coils. These come from the ignition switch supply. The colour of this ignition supply wire may be different on some machines; if so check using a test lamp or meter to find the live wire when the ignition is switched on. 8. Find a suitable place for the ignition module, preferably near to the ignition coils. Secure the ignition module to the frame using one or more large cable ties. An adhesive mounting base is provided; this can be affixed to the underside of the module and the cable tie passed through and around the module and frame. Do not completely wrap the module in foam rubber. 9. Using the black coil link wire, connect the negative (—) terminal of one ignition coil to the positive (+) terminal of the other ignition coil. See figs. 1/2 on page 7. • BLACK COIL LINK WIRE • RED EARTHING WIRE • CRIMP CONNECTORS & INSULATORS • LARGE & SMALL CABLE TIES • CABLE TIE ADHESIVE MOUNTING BASE 3 10. Take the black wire from the ignition module, cut to length and fit an insulator and female spade connector to the end. Connect to the negative (—) terminal on ignition coil #2. See figs. 1/2 on page 7. 11. Take the red wire from the ignition module, cut to length and fit an insulator and female spade connector to the end. Connect to the positive (+) terminal on ignition coil #1. See figs. 1/2 on page 7. 12. For NEGATIVE EARTH electrics go to step 15. 13. For POSITIVE EARTH electrics (standard): Take the white wire from the ignition module, cut to length and fit an insulator and male spade connector to the end. Connect to one of the negative ignition feed wires previously removed in step 7. The other wire (if fitted) is spare and should be covered with insulation to prevent shorting to the frame etc. 14. Take the red earthing wire, fit an insulator and female spade connector on one end and connect to the positive (+) terminal on ignition coil #1. Cut to length and fit a ring terminal on the other end and connect to a good earth point on the frame, ideally the battery positive (+) terminal. See fig.1 GOTO STEP 17.

TRIUMPH TWIN CYLINDER MOTORCYCLES WITH POINTS IN THE SIDE CASING INSTALLATION INSTRUCTIONS

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Filed Under (Triumph) by admin on 30-10-2010

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1. All connections must be of the highest quality, use crimped or soldered connections; twisted wires will not give a satisfactory operation. 2. Remove the petrol tank and/or seat to gain access to the ignition coils, condensors and wiring. 3. For safety, disconnect the battery (preferably both terminals). 4. Remove timing cover. (The Atlas engine has the points housing behind the cylinder head). 5. Disconnect the two wires (usually black-white & black-yellow) and remove the contact-breaker plate. At the other end, these two wires must be disconnected from the ignition coils & condensors. The condensors are no longer required and can be removed. They should not be connected to the electronic ignition system. 6. Remove auto-advance unit. 7. Disconnect the remaining wires from the ignition coils. These come from the ignition switch supply. On the Norton Commando, remove the white-blue wire from the ballast resistor between the two ignition coils; the ballast resistor is no longer required. The colour of this ignition supply wire may be different on some machines; if so check using a test lamp or meter to find the live wire when the ignition is switched on. 8. Find a suitable place for the ignition module, preferably near to the ignition coils. Secure the ignition module to the frame using one or more large cable ties. An adhesive mounting base is provided; this can be affixed to the underside of the module and the cable tie passed through and around the module and frame. Do not completely wrap the module in foam rubber. 9. Using the black coil link wire, connect the negative (—) terminal of one ignition coil to the positive (+) terminal of the other ignition coil. See figs. 1/2 on page 7. 10. Take the black wire from the ignition module, cut to length and fit an insulator and female spade connector to the end. Connect to the negative (—) terminal on ignition coil #2. See figs. 1/2 on page 7. 11. Take the red wire from the ignition module, cut to length and fit an insulator and female spade connector to the end. Connect to the positive (+) terminal on ignition • BLACK COIL LINK WIRE • RED EARTHING WIRE • CRIMP CONNECTORS & INSULATORS • LARGE & SMALL CABLE TIES • CABLE TIE ADHESIVE MOUNTING BASE 3 coil #1. See figs. 1/2 on page 7. 12. For NEGATIVE EARTH electrics go to step 15. 13. For POSITIVE EARTH electrics (standard): Take the white wire from the ignition module, cut to length and fit an insulator and male spade connector to the end. Connect to one of the negative ignition feed wires previously removed in step 7 (white-blue wire for Norton Commando). The other wire (if fitted) is spare and should be covered with insulation to prevent shorting to the frame etc. 14. Take the red earthing wire, fit an insulator and female spade connector on one end and connect to the positive (+) terminal on ignition coil #1. Cut to length and fit a ring terminal on the other end and connect to a good earth point on the frame, ideally the battery positive (+) terminal. For the Norton Commando, the earth tag on the end of the condensor pack can be used (fit a female spade connector to the end of the red earthing wire). See fig.1 GOTO STEP 17

Harley-Davidson Big Twin Evolution and Twin Cam Edelbrock/ JE Sport INSTALLATION INSTRUCTIONSsman Pistons

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Filed Under (Harley Davidson) by admin on 07-02-2011

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INSTALLATION PROCEDURE Note: All Evolution® “Big Twin” pistons are marked “Front” or “Rear” and come with rings, wrist pins, and locks. • Note: We highly recommend that a dealer or trained mechanic perform the installation of these pistons. Specialized equipment is required for honing and finishing the cylinders to ensure long life of the piston and cylinder assembly. 1. Remove original equipment cylinders from engine. Refer to a shop manual or other reference book for specific steps, if needed. (Note: Care should be taken not to bend the studs or damage the cylinder during removal of the cylinders.) 2. With a small screwdriver, move the wrist pin retainer around to gain access to the tail of the retainer as it lines up with the notch in the bottom of the wrist pin hole. 3. Use a small screwdriver, pick or awl to roll the wrist pin retainer out of its groove. 4. Push wrist pin out and remove piston. 5. Repeat procedure for the other piston. 6. At this point, take cylinders, new pistons, and piston-to-wall clearance specifications to your dealer or machine shop to perform necessary machining operations. • IMPORTANT NOTE (Evolution® and Twin Cam®): The cylinder bore must be machined/honed to provide .0025″ of piston-to-wall clearance. Measure the piston diameter at a point .500″ up from the lower skirt (See Figure 3). 7. Starting with the front cylinder, install new piston rings and one wrist pin retaining clip (Note: Second ring has a dot which must face up when the ring is installed) . 8. Place the piston over the conecting rod, making sure that the intake valve pocket is towards the intake side. (For Evolution ® , see Figure 1. For Twin Cam ® , see Figure 2) . Coat the wrist pin with engine oil and insert it into the piston. Install the second wrist pin retainer into the groove. 9. Lightly coat the piston skirt with engine oil. Place a piston ring compressor over the piston/ring assembly and compress. Place the cylinder over the piston and gently push down until all rings are in the cylinder. Remove the ring compressor, and push the cylinder the rest of the way down. (Note: Be careful not to get oil onto the base gasket.) 10. Place two nuts and washers on opposite corners of the #1 cylinder to hold it down while you repeat the procedure for cylinder #2. 11. Assemble the rest of the engine per factory specifications. Start the engine and let it run at 2000 rpm for about 10 minutes.

KAWASAKI 1700cc Liquid-Cooled V-Twin Engine 6-Speed Transmission with Overdrive

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Filed Under (Kawasaki) by admin on 13-12-2010

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Kawasaki’s first production bagger model is ready to take the street by force. The new Vulcan® 1700 Vaquero™ motorcycle combines the authority of a massive 1700cc liquid-cooled V-Twin engine together with low-slung, streetwise styling of a frame-mounted front cowling and lower chin fairing, sleek side-opening hard bags, and a choice of stealthy Ebony or fiery Candy Fire Red monotone paint. Besides its unmistakable style, the Vaquero also includes a smooth-shifting 6-speed overdrive transmission, cruise control, a full-feature audio system, and a host of custom-designed accessories. Get ready to rumble. 1700cc Liquid-Cooled V-Twin Engine The Vulcan 1700 Vaquero’s 1700cc V- Twin bristles with low-rpm torque, ensuring immediate and potent acceleration. 6-Speed Transmission with Overdrive With its overdrive top gear, the Vaquero’s 6-speed transmission teams up with the V-Twin engine for a relaxed highway cruising experience. Frame Mounted Front Cowling Muscular front cowling features a cut-down windscreen for a minimalist look and uninterrupted airflow, and is frame-mounted for light handling. Side-Opening Hard Bags Holding an impressive 9.2 gallons of storage apiece, the side bags integrate neatly into the Vaquero™’s smooth, clean lines. Electronic Cruise Control Conveniently located on the right handlebar, the Vaquero’s standard electronic cruise control precisely maintains speeds between 30 and 85 mph. Full-Feature Audio System High-fidelity audio system features AM/FM and weather radio, and is can be accessorized with iPod players, XM Radio and CB radios. Multi-Function LCD Instrumentation Located on the Vaquero’s stylish “muscle car” inspired dashboard, the multi-function LCD instrumentation clearly organizes and presents all essential information.
Engine Four-stroke, liquid-cooled, SOHC, four valve per cylinder, 52° V-twin Displacement 1,700cc / 103.7ci Bore X Stroke 102 x 104mm Compression Ratio 9.5:1 Maximum Torque 108 lb-ft @ 2,750 rpm Cooling System Liquid, plus cooling fins Ignition TCBI with Digital Advance Induction Digital fuel injection, dual 42mm throttle bodies Transmission 6-speed with overdrive and positive neutral finder Frame Type Steel, double-cradle with box-section single-tube backbone Rake/Trail 30° / 7.0 in. Front Suspension / Wheel Travel 45mm hydraulic fork / 5.5 in. Rear Suspension / Wheel Travel Swingarm with twin air-assisted shocks, with 4-way rebound damping / 3.1 in. Front Tire Size 130/90×16 Rear Tire Size 170/70×16 Brakes, Front / Rear Dual 300mm discs, dual twin-piston calipers / Single 300mm disc, twin-piston caliper Overall Length 98.8 in. Overall Width 38.2 in. Overall Height 50.8 in. Seat Height 28.7 in. Curb Weight 835.7 lbs.** Wheelbase 65.6 in. Fuel Capacity 5.3 gal. Color Choices Ebony, Candy Fire Red Warranty 36 months Good Times™ Protection Plan 12, 24 or 36 months ** Curb weight includes all necessary materials and fluids to operate correctly, full tank of fuel (more than 90-percent capacity) and tool kit (if supplied

1965 Shelby Cobra FIA Daytona Replica specifications

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Filed Under (Cobra) by admin on 15-11-2010

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Color: Blue (dark) Odometer: 196 Miles Transmission: Manual LHD/RHD: LHD Convertible: No Listed under categories: 1950-69 Post-War, Race/Track/Rally Country: United States State/ Province: OH City/ Town: MENTOR Zip/ Postal Code: 44060 Description: It’samazinghowmuch fuss six little cars can make. Six cars designed bya 24 year old art school graduate, in 1964, were enough to turn FIA racing upside down. The bodies turned out to be golden, the chassis were proven and the will to win was provided by a certain Texan who you may have heard of. More than forty years later the power of the Shelby Cobra Daytona’s triumph is still celebrated by small volume builders making replicas of the car that conquered Europe. Many people consider these modern replicas to be”kit cars,”but where an outfit like Highland Daytona Racing is concerned, the cars released are anything but boxes of parts. Highland sells only turnkey cars, built to customer specifications and a very high standard. This gorgeous car here, resplendent in the classic blue and white paint scheme, runs and drives extremely well, goes like stink thanks toits traditional small block Fordengine—just like the originals. The car is also titled as a ’65 Shelby—no state issued, generic or random year tags here! The original six Daytona Cobra Coupe factory racers enjoyed a short but impressive racing career: Originally built for the 1964-65 racing season using 289 Shelby Cobra roadster chassis, these were America’sanswerto Ferrari’shighly successful 250 GTO. In their first year of competition, the Daytona Coupes won the GT class at Sebringandthen placed 4thoverallat Le Mans. They proved to be so competitive that Ferrariofficials, fearing a loss of the championship, managed to get the Monza, Italy final round cancelled, knowing the Daytonaswouldwin the race and the Championship. Consequently, Ferrariclaimed the 1964 FIA World Manufacturer’sChampionship. The following year Enzo Ferrari, realizing he would lose to the Daytona’s, pulled his factory support from the GT program, paving the way for the Daytona Coupe walkover. In 1965, the ex-Shelby Daytona Coupes of the UK’sAlanMannracing team won the FIA’s World Manufacturer’s GT title with ease. Everyone knows Cobra roadster replicas are great fun fora quick sprint on a sunny day, but the new crop of Daytona Coupe replicas presents anew concept: Cobra clones for serious long-distance touring. Many enthusiasts attend cruise nights, car club tours, and marathon events like the Hot Rod Power Tour and the One Lap of America. But as fun as roadsters are, withmega-power and rock-solid suspension, the smile factor can wear a little thin after an hour or soon the straight and narrow.

NORTON TWIN CYLINDER MOTORCYCLES ELECTRONIC IGNITION SYSTEM INSTALLATION INSTRUCTIONS

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Filed Under (Norton) by admin on 31-10-2010

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1. All connections must be of the highest quality, use crimped or soldered connections; twisted wires will not give a satisfactory operation. 2. Remove the petrol tank and/or seat to gain access to the ignition coils, condensors and wiring. 3. For safety, disconnect the battery (preferably both terminals). 4. Remove timing cover. (The Atlas engine has the points housing behind the cylinder head). 5. Disconnect the two wires (usually black-white & black-yellow) and remove the contact-breaker plate. At the other end, these two wires must be disconnected from the ignition coils & condensors. The condensors are no longer required and can be removed. They should not be connected to the electronic ignition system. 6. Remove auto-advance unit. 7. Disconnect the remaining wires from the ignition coils. These come from the ignition switch supply. On the Norton Commando, remove the white-blue wire from the ballast resistor between the two ignition coils; the ballast resistor is no longer required. The colour of this ignition supply wire may be different on some machines; if so check using a test lamp or meter to find the live wire when the ignition is switched on. 8. Find a suitable place for the ignition module, preferably near to the ignition coils. Secure the ignition module to the frame using one or more large cable ties. An adhesive mounting base is provided; this can be affixed to the underside of the module and the cable tie passed through and around the module and frame. Do not completely wrap the module in foam rubber. 9. Using the black coil link wire, connect the negative (—) terminal of one ignition coil to the positive (+) terminal of the other ignition coil. See figs. 1/2 on page 7. 10. Take the black wire from the ignition module, cut to length and fit an insulator and female spade connector to the end. Connect to the negative (—) terminal on ignition coil #2. See figs. 1/2 on page 7. 11. Take the red wire from the ignition module, cut to length and fit an insulator and female spade connector to the end. Connect to the positive (+) terminal on ignition

DIAGNOSTIC TESTER CONTROLLER AREA NETWORK (CAN) INTERFACE MODULE

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Filed Under (Toyota Manuals) by admin on 30-10-2011

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Remove the original DLC3 Cable and store it in the Diagnostic Tester storage case. 2. Connect the CAN Interface Module to the DLC Cable. 3. Use the Diagnostic Tester with the CAN Module installed for all DLC3/J1962 based vehicle communication. 4. If you experience problems with the Diagnostic Tester or CAN Interface Module, please contact Toyota Special Service Tool Customer Support at 1-800-933-8335. NOTE: There is no need to remove the CAN Interface Module when working with non-CAN systems or older software versions (Version 10.1a or earlier). The Diagnostic Tester will communicate with all DLC3/J1962 based systems with the CAN Interface Module installed. For DLC1 and DLC2 communication you must continue to use the Vehicle Interface Module (VIM)

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