Technical data pertaining to the Husqvarna Svartpilen 801 detail the motorcycle’s performance capabilities, dimensions, and construction. This information encompasses aspects such as engine displacement, power output, chassis design, and component materials, providing a quantitative overview of the machine’s design and performance characteristics. These details are essential for understanding the motorcycle’s intended use and potential limitations.
Understanding this data is crucial for prospective buyers, mechanics, and aftermarket parts manufacturers. It allows consumers to make informed purchasing decisions based on their riding needs and preferences. Mechanics rely on it for maintenance and repair procedures, ensuring proper component replacement and system functionality. Aftermarket companies utilize this information to develop compatible accessories and performance upgrades, expanding the motorcycle’s versatility and customization options. Its relevance spans pre-purchase assessment, operational upkeep, and performance enhancement.
The subsequent sections will delve into specific elements of the motorcycle, addressing its engine and performance, chassis and handling, dimensions and weight, and features, illuminating the complete scope of what this machine has to offer.
1. Engine Performance Data
Engine performance metrics constitute a primary component of the overall technical profile. These specifications define the operational capabilities and inherent limitations of the powertrain. For example, maximum horsepower and torque figures directly correlate to acceleration and load-carrying capacity, factors critical for evaluating the motorcycle’s suitability for various riding conditions. Displacement, compression ratio, and fuel delivery system characteristics collectively influence the engine’s efficiency and responsiveness. Deviation from published engine performance data can indicate mechanical issues or improper maintenance.
Examining the power and torque curves provides insights into the engine’s behavior across the RPM range. A flat torque curve implies readily available power at lower speeds, advantageous for urban riding. Conversely, a peaky power delivery favors high-speed performance on open roads. The stated fuel economy figures, derived under controlled testing, offer a baseline for estimating running costs. Furthermore, the engine’s compliance with emissions regulations determines its environmental impact and legality in different regions.
In summary, engine performance data forms an essential element of its technical profile, directly influencing the machine’s practicality and intended use. A thorough understanding of these parameters allows for informed comparisons with competing models and assists in diagnosing potential operational anomalies. The engine’s performance characteristics, as detailed in the data, are intrinsically linked to the overall rider experience.
2. Chassis and Dimensions
The chassis and dimensions represent critical aspects, forming a fundamental portion of its comprehensive technical data. These specifications dictate the motorcycle’s handling characteristics, rider ergonomics, and overall footprint. Understanding these elements is paramount for evaluating its suitability for diverse riding environments and rider preferences.
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Frame Type and Material
The frame design, whether trellis, backbone, or perimeter, significantly affects rigidity and weight distribution. The material, typically steel or aluminum alloy, impacts strength and weight. For example, a trellis frame constructed from high-strength steel offers a balance of rigidity and weight, contributing to predictable handling. The specific frame design chosen influences the machine’s responsiveness and stability at various speeds.
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Wheelbase and Rake/Trail
Wheelbase, the distance between the front and rear axles, influences stability and turning radius. A longer wheelbase generally promotes stability at higher speeds, while a shorter wheelbase enhances maneuverability in tighter spaces. Rake and trail, related measurements of the front suspension geometry, also impact steering characteristics. Steeper rake angles and shorter trail values result in quicker steering, while shallower angles and longer trail provide greater stability. This interplay is crucial for achieving the desired balance of agility and control.
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Seat Height and Overall Dimensions
Seat height dictates rider accessibility and comfort, particularly for individuals of varying statures. Lower seat heights enhance confidence for shorter riders, while taller seats may provide a more commanding riding position. Overall dimensions, including length, width, and height, determine storage requirements and maneuverability in confined spaces. These figures are also pertinent for transport considerations and navigating congested urban environments.
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Weight Distribution
Weight distribution, typically expressed as a percentage split between the front and rear wheels, significantly influences handling balance. A more front-biased distribution enhances steering response, while a rear-biased distribution improves traction during acceleration. The manufacturer’s specified weight distribution is achieved through careful placement of components and fuel. Maintaining this distribution is important for preserving the intended handling characteristics.
In conclusion, the chassis and dimensions are integral aspects that dictate the motorcycle’s handling, ergonomics, and practical considerations. These metrics, as defined within the complete technical data, directly influence the overall riding experience and application possibilities. Evaluating these elements allows for informed comparisons with alternative models and provides insights into the design trade-offs inherent in the machine’s construction.
3. Feature Set
The inclusion of specific features within the Husqvarna Svartpilen 801 contributes substantially to its overall functionality and intended user experience. These features, enumerated within the technical specifications, represent deliberate design choices aimed at enhancing performance, safety, and rider convenience. Each component warrants individual examination to fully appreciate its impact on the motorcycle’s capabilities.
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Electronic Rider Aids
Electronic rider aids, such as traction control, cornering ABS, and ride modes, utilize sensors and sophisticated algorithms to optimize performance and mitigate risk in various riding conditions. For example, traction control prevents wheel spin during acceleration, enhancing stability on slippery surfaces. Cornering ABS modulates braking force based on lean angle, minimizing the risk of wheel lock-up during cornering maneuvers. Ride modes allow the rider to tailor engine output and chassis settings to suit different preferences and road conditions. These systems rely on precise data acquisition and complex calculations, directly influencing safety and performance margins.
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Suspension Components
The type and quality of suspension components significantly affect handling and rider comfort. Adjustable front forks and rear shock absorbers allow riders to fine-tune the suspension to match their weight, riding style, and road conditions. For instance, adjustable damping allows for controlling the rate of compression and rebound, optimizing bump absorption and preventing excessive chassis movement. The specifications of the suspension, including travel and spring rates, determine its ability to absorb impacts and maintain stability. High-quality suspension components enhance confidence and control, particularly on uneven road surfaces.
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Lighting System
The lighting system plays a crucial role in both visibility and aesthetics. LED headlights provide superior illumination compared to traditional halogen bulbs, enhancing visibility during nighttime riding and in low-light conditions. Integrated turn signals and taillights contribute to a streamlined appearance and improved safety. Daytime running lights increase the motorcycle’s conspicuity to other road users, reducing the risk of accidents. The technical specifications of the lighting system, including light output and beam pattern, dictate its effectiveness in different environmental conditions.
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Instrumentation and Connectivity
The instrumentation panel provides the rider with essential information, such as speed, RPM, fuel level, and trip data. Advanced systems may include features such as Bluetooth connectivity, allowing riders to pair their smartphones for navigation and communication. Integrated displays present information in a clear and concise manner, minimizing distraction. The specifications of the instrumentation, including screen size and resolution, influence readability and ease of use. Connectivity features enhance convenience and functionality, enabling riders to access relevant information on the go.
These multifaceted feature inclusions collectively define the Husqvarna Svartpilen 801 as a technologically advanced and versatile machine. Understanding the specific function and impact of each feature, as described within the overall technical documentation, permits a thorough appreciation of the design considerations and capabilities. Such comprehensive knowledge enables both informed purchasing decisions and optimized utilization of the motorcycle’s full potential.
Conclusion
The preceding sections have dissected various facets of the Husqvarna Svartpilen 801. Engine performance, chassis dimensions, and included features are elements that define its overall character and usability. The detailed data reveals a machine intended to blend performance with practical considerations, as reflected in the engineering choices regarding engine output, frame geometry, and electronic assistance.
A thorough examination of the Husqvarna Svartpilen 801 specifications is crucial for evaluating its suitability for intended applications. It provides a basis for comparison with other models and offers insight into the design compromises inherent in its construction. Continued advancements in motorcycle technology will undoubtedly lead to further refinements and innovations, influencing future iterations of this model and the broader landscape of motorcycle design.
