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Harley Davidson CVO Street Glide

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Make Model

Harley Davidson CVO Street Glide

Year

2021

Engine

Four stroke, V-Twin, Milwaukee-Eight 117, Pushrod-operated, overhead valves with hydraulic, self-adjusting lifters, 4 valves per cylinder

Capacity

1923 cc / 117 cu-in
Bore x Stroke 103.5 X 114.3 mm
Cooling System Air cooled
Compression Ratio 10.2:1
Exhaust Dual, with crossover

Induction

Electronic Sequential Port Fuel Injection

Lubrication Pressurized, dry-sump with oil cooler
Exhaust Dual, with crossover

Ignition 

Single-fire, non-wasted, map-controlled spark ignition
Starting Electric

Max Torque

169 Nm / 124.6 lb-ft @ 3500 rpm

Transmission 

6 Speed 
Primary Drive Chain, 34/46 ratio
Final Drive Belt
Gear Ratio 1st 9.593  2nd 6.65  3rd 4.938  4th 4  5th 3.407  6th 2.875
Frame Mild steel, square-section backbone with twin downtubes

Lean Angle, Left

31º

Lean Angle, Right

32º

Front Suspension

Showa dual bending valve front suspension

Rear Suspension

Emulsion rear suspension with hand-adjustable pre-load

Front Brakes

Caliper Type 32 mm, 4-piston fixed

Rear Brakes

Caliper Type 32 mm, 4-piston fixed
Wheels Optional Style Type Charcoal Gray Fugitive
Front Wheel Gloss Black and Contrast Chrome Talon
Rear Wheel Gloss Black and Contrast Chrome Talon

Front Tyre

130/60B19 61H

Rear Tyre

180/65B16 80H

Rake 26° 
Trail 170 mm / 6.7 in
Dimensions Length 2435 mm / 95.9 in
Seat Height 695 mm / 27.1 in
Wheelbase 1625 mm / 64.0 in
Ground Clearance 130 mm / 5.1 in
Dry Weight 377 kg / 831 lbs

Wet Weight

393 kg / 866 lbs

Fuel Capacity

22.7 Litres / US 6.0 gal
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The pinnacle of factory-custom touring style and comfort. Visually stunning and loaded with power. Riders seeking a showstopping custom bagger. High-performance Stage II Harley-Davidson Audio powered by Rockford Fosgate. Milwaukee-Eight 117 V-Twin engine and Fugitive wheels. The most-advanced headlamp system ever developed for a Harley-Davidson motorcycle with the Daymaker Adaptive LED Headlamp.

The pinnacle of factory-custom touring style and comfort. Visually stunning and loaded with power.

THIS IS THE RIGHT BIKE FOR
Riders seeking a showstopping custom bagger
Stage II Harley-Davidson® Audio powered by Rockford Fosgate
Milwaukee-Eight® 117 V-Twin engine and Fugitive™ wheels
Upright riding position
Floorboards
Passenger seat
Saddlebags
Fork mounted fairing
Infotainment
RDRS standard


HARLEY-DAVIDSON® RDRS SAFETY ENHANCEMENTS DESIGNED TO BOOST MOTORCYCLE RIDER CONFIDENCE

Motorcycle-Specific Technology Matches Performance to Available Traction

Harley-Davidson® RDRS Safety Enhancements (formerly known as RDRS) is a collection of technology designed to enhance rider confidence during unexpected situations or poor road conditions. RDRS Safety Enhancements are designed to match motorcycle performance to available traction during acceleration, deceleration and braking, in a straight line or while in a turn. The systems are electronic and utilize the latest chassis control, electronic brake control and powertrain technology.

“RDRS Safety Enhancements are technologies developed by Harley-Davidson and designed to make motorcycling more intuitive,” said VP Marketing Theo Keetell. “Our intent is to assist riders of every skill level in an unanticipated moment when electronic intervention may react more quickly, and with more precision, than our own reflexes can react. A situation that activates an RDRS Safety Enhancement may be rare, but if it occurs, this technology may be invaluable.”

Introduced for many 2020 Harley-Davidson® motorcycles, RDRS Safety Enhancements are standard on all 2021 Harley-Davidson CVO™, Tri Glide® Ultra, Freewheeler®, and LiveWire® models. RDRS Safety Enhancements are optional on all 2021 Touring models in the U.S. The RDRS Safety Enhancements are bundled together, except where noted.

Important Note: Available traction is determined by the road/tire interface. RDRS Safety Enhancements on motorcycles are only able to adjust brake pressure or powertrain torque in an attempt to keep the forces at the tire from exceeding available grip. These technologies do not have the ability to increase grip, or to intervene when the rider has not made a brake or throttle application (e.g. coasting through a corner with the clutch disengaged). RDRS Safety Enhancements on motorcycles do not have the ability to directly influence vehicle direction. This is a key difference between motorcycle RDRS Safety Enhancements and automotive stability control. The rider is ultimately responsible for speed, steering and path corrections.

Cornering Enhanced RDRS Safety Enhancements

Some RDRS Safety Enhancements may be “cornering enhanced,” technology that is motorcycle-specific and a key difference between RDRS Safety Enhancements and automotive traction/stability control systems. Harley-Davidson motorcycles equipped with RDRS Safety Enhancements have an inertial measurement unit, or IMU, that measures and reports the lean angle of two-wheel motorcycles, or the lateral acceleration of a Trike (three-wheel motorcycle), as it navigates a turn. Because many motorcycles have different size front and rear tires, when the motorcycle leans into a turn the wheels begin to rotate at slightly different speeds. The tire traction patch – the part of the tire actually touching the pavement – also changes as the motorcycle leans in a turn. Cornering enhanced technology takes this into account and for optimal performance intervenes differently when the motorcycle is leaned compared to when the motorcycle is upright.

RDRS Safety Enhancements

Cornering Enhanced Electronic Linked Braking (C-ELB)

This technology applies braking effort to both wheels when the rider uses either the hand lever (front) or foot pedal (rear) brake control, which can help many riders achieve better braking performance. The C-ELB system provides more responsiveness and allows for more balanced front and rear braking under a wide variety of brake applications. The system provides more linking when the rider is applying heavier braking and reduces or eliminates linking for light braking and low speeds. When linked, applying the front brake lever alone will cause the system to also dynamically apply an amount of braking to the rear. Applying the rear brake pedal alone will cause the system to also apply an amount of braking to the left front caliper. C-ELB takes into account the motorcycle lean angle or Trike lateral acceleration. C-ELB will alter the proportioning of brake pressure between the front and rear brakes when braking while cornering in an attempt to improve the ability of the bike to maintain the rider’s intended path.

This technology is standard on all 2020-later CVO™ models and optional on most 2020 Touring models.

Cornering Enhanced Antilock Braking System (C-ABS)

ABS is designed to prevent the wheels from locking under braking and helps the rider maintain control when braking in a straight-line, urgent situation. ABS operates independently on front and rear brakes to keep the wheels rolling and prevent uncontrolled wheel lock. Cornering Enhanced Antilock Braking System (C-ABS) is a variant of ABS that takes into consideration the lean angle of a two-wheel motorcycle, or the lateral acceleration of a Trike model. The brake pressure required to limit wheel slip when cornering is typically lower than the pressure required under straight line operation.

This technology is standard on 2020-later LiveWire and CVO models and optional on most 2020-later Touring models.

Cornering Enhanced Traction Control System (C-TCS)

The Cornering Enhanced Traction Control System (C-TCS) is designed to prevent the rear wheel from excessive spinning under acceleration when going straight or cornering. C-TCS can improve rider confidence when available traction is compromised by wet weather, a sudden unanticipated change in the surface, or when riding on an unpaved road. The rider may select one of two traction control modes: Standard Mode is optimized for dry surfaces; Rain Mode is optimized for wet surfaces. The system can also be turned off. The action of C-TCS is also tailored when cornering based on lean angle.

This technology is standard on all 2020-later LiveWire and CVO models and optional on most 2020-later Touring models.

Drag-Torque Slip Control System (DSCS)

Cornering Enhanced Drag-Torque Slip Control System (C-DSCS)

Drag-Torque Slip Control (DSCS) is designed to reduce excessive rear-wheel slip under deceleration, which typically occurs when the rider makes an abrupt down-shift gear change or decelerates abruptly on wet or slippery road surfaces. When DSCS detects excessive rear wheel slip under deceleration it will adjust engine torque delivery to better match rear-wheel speed to road speed. On models equipped with C-DSCS the action of DSCS may be tailored when cornering, based on detected lean angle (two-wheel motorcycles) or lateral acceleration (Trike models).

DSCS is standard on all 2020-later CVO models and optional on most 2020-later Touring models. C-DSCS is standard on all 2020-later Trike models.

Vehicle Hold Control (VHC)

Vehicle Hold Control (VHC) applies and holds brake pressure when activated and prevents the motorcycle from rolling after the rider has released the brake controls. The primary function of VHC is to prevent the motorcycle from rolling when it is stopped, for example at a stop sign on a hill, in stop-and-go traffic on a slope, or on a steep decline out of a parking structure. VHC is designed to make it easier to ride away with confidence by minimizing the number of controls needed to pull away smoothly. The system applies brake pressure until the rider actuates the throttle and clutch to pull away. VHC may also be engaged when the motorcycle is stopped on a flat surface if the rider wants to maintain position without applying pressure to a brake control.

The rider activates VHC by momentarily applying extra pressure to either the front-brake hand lever or the rear-brake foot control after the motorcycle has come to a complete stop. If rider brakes very hard to a stop, and holds the brake pressure after stopping, VHC may also set without any added squeeze. A VHC indicator light will illuminate to confirm that the rider has activated VHC, and the ABS system will hold brake pressure after the rider releases the brake control. VHC is disengaged automatically as the rider begins to pull away from a stop, or if the rider applies and releases either brake control.

VHC is not to be used as a parking brake, so it will also disengage if the rider lowers the side stand (on models with a side-stand sensor, not a feature in all markets) or shifts into neutral on models without a side-stand sensor, or if the engine is turned off. In most situations after five minutes the indicator light will flash and the VHC will release if there is no rider action.

This feature is standard on 2020-later CVO™ models and optional on most 2020-later Touring models. VHC is not intended as a substitute for a parking brake in any situation.

Tire Pressure Monitoring System (TPMS)

TPMS alerts the rider to low tire air pressure. Maintaining proper tire air pressure is important both for vehicle performance and tire life. The TPMS displays current front and rear tire pressure on the Boom!™ Box GTS screen (or on the odometer on Road King® models) and displays an indicator to alert the rider when tire pressure is low, and the pressure should be checked.

TPMS is part of the collection of RDRS Safety Enhancements and is also available as a stand-alone accessory through Harley-Davidson® Genuine Motor Parts & Accessories for 2020-later Touring models (except Japan) equipped with original equipment or accessory wheels that accept a TPMS sensor.

MILWAUKEE-EIGHT® 117 ENGINE
The most powerful V-Twin engine ever offered from the H-D® factory, and only available in CVO™ models. Features color accented Rocker Box Lowers with Blaze Red finish

PREMIUM PAINT AND FINISHES
Exclusive paint colors and designs executed to a level of intricate quality that is unmatched in the motorcycle and automotive categories.

BOOM!™ GTS INFOTAINMENT SYSTEM
An evolved interface experience that offers a contemporary look, feel and function, with exceptional durability and features designed specifically for motorcycling. Every element is optimized to enhance the rider’s interaction with the bike and connectivity with the world.