EXTRA EA-230 Specs: Your Comprehensive Guide to the Advanced Aerobatic Aircraft

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EXTRA EA-230 Specs: Your Comprehensive Guide to the Advanced Aerobatic Aircraft


EXTRA EA-230 Specs refer to the detailed technical specifications and features of the EXTRA EA-230 aircraft. These specifications provide comprehensive information about the aircraft’s performance, dimensions, weight, and other critical parameters.

Understanding the EXTRA EA-230 Specs is essential for pilots, engineers, and aviation enthusiasts. It enables them to make informed decisions regarding the aircraft’s operation, maintenance, and suitability for specific purposes. The specs serve as a valuable reference for comparing the EXTRA EA-230 with other aircraft in its class, evaluating its capabilities, and ensuring safe and efficient operation.

The main article topics will delve into the various aspects of the EXTRA EA-230 Specs, including its performance envelope, structural design, engine specifications, avionics systems, and safety features. By exploring these topics, we aim to provide a comprehensive understanding of the aircraft’s capabilities and the factors that contribute to its exceptional performance.

EXTRA EA-230 Specs

The EXTRA EA-230 Specs encompass a range of critical aspects that define the aircraft’s capabilities and performance. These key aspects include:

  • Performance Envelope: Maximum speed, climb rate, and maneuverability.
  • Structural Design: Airframe materials, wingspan, and aspect ratio.
  • Engine Specifications: Power output, fuel consumption, and reliability.
  • Avionics Systems: Navigation, communication, and flight control systems.
  • Safety Features: Emergency parachutes, stall warning systems, and crashworthiness.
  • Weight and Balance: Empty weight, maximum takeoff weight, and center of gravity.

Understanding these key aspects is crucial for pilots, engineers, and aviation enthusiasts. They provide insights into the aircraft’s capabilities, limitations, and suitability for specific purposes. For instance, the performance envelope determines the aircraft’s speed and maneuverability, which are critical factors for aerobatic competitions. The structural design influences the aircraft’s strength, durability, and resistance to stress. The engine specifications govern the aircraft’s power and efficiency, affecting its climb rate and fuel consumption. The avionics systems ensure safe and efficient navigation, communication, and flight control. The safety features enhance the aircraft’s resilience to emergencies and contribute to the well-being of its occupants. Finally, weight and balance are essential for maintaining the aircraft’s stability, handling, and performance.

Performance Envelope

The performance envelope of an aircraft defines its maximum capabilities in terms of speed, climb rate, and maneuverability. These parameters are crucial aspects of the EXTRA EA-230 Specs, as they determine the aircraft’s suitability for various flight regimes and maneuvers.

The maximum speed of an aircraft is a measure of its ability to travel through the air at high velocities. For the EXTRA EA-230, a high maximum speed enables it to perform fast aerobatic maneuvers, such as dives and rolls, with precision and control. The climb rate, on the other hand, indicates the aircraft’s ability to ascend vertically. A high climb rate is essential for gaining altitude quickly, which is advantageous during takeoff, emergency situations, or when performing certain aerobatic sequences.

Maneuverability refers to the aircraft’s agility and responsiveness to control inputs. The EXTRA EA-230 is renowned for its exceptional maneuverability, allowing pilots to execute complex aerobatic maneuvers with ease and precision. This is achieved through a combination of aerodynamic design features, such as a low wing loading and a high thrust-to-weight ratio.

Understanding the performance envelope of the EXTRA EA-230 is critical for pilots to operate the aircraft safely and effectively. It enables them to plan flight maneuvers, assess performance limitations, and make informed decisions in various flight conditions. Furthermore, the performance envelope serves as a benchmark for comparing the aircraft’s capabilities with other aerobatic aircraft.

In summary, the performance envelope of the EXTRA EA-230, encompassing maximum speed, climb rate, and maneuverability, is a fundamental aspect of the aircraft’s specifications. These parameters define the aircraft’s capabilities in terms of speed, agility, and vertical performance, making it well-suited for demanding aerobatic maneuvers and high-performance flight.

Structural Design

The structural design of an aircraft, encompassing airframe materials, wingspan, and aspect ratio, plays a pivotal role in defining the EXTRA EA-230 Specs. These factors collectively influence the aircraft’s strength, durability, and aerodynamic efficiency.


Airframe Materials: The EXTRA EA-230 utilizes a combination of advanced composite materials, including carbon fiber and fiberglass, in its airframe construction. These materials provide a high strength-to-weight ratio, resulting in a lightweight and robust airframe. The use of composite materials also enhances the aircraft’s resistance to corrosion and fatigue, contributing to its long-term durability.


Wingspan: The wingspan of the EXTRA EA-230 is a critical factor in determining its lift and maneuverability. A wider wingspan generates more lift, allowing the aircraft to fly at lower speeds without stalling. This is particularly advantageous for aerobatic maneuvers, where precise control and stability are essential. The EXTRA EA-230’s relatively long wingspan contributes to its excellent handling characteristics and slow-speed stability.


Aspect Ratio: The aspect ratio of an aircraft’s wing is the ratio of its span to its average chord length. A high aspect ratio wing, such as that of the EXTRA EA-230, provides greater aerodynamic efficiency. This translates into improved glide performance, increased range, and reduced fuel consumption. The high aspect ratio wing of the EXTRA EA-230 enables it to sustain extended periods of soaring flight, making it well-suited for aerobatic competitions and long-distance flights.

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Understanding the connection between structural design and the EXTRA EA-230 Specs is essential for appreciating the aircraft’s capabilities and performance. The combination of advanced airframe materials, a carefully designed wingspan, and a high aspect ratio wing contribute to the aircraft’s exceptional strength, durability, and aerodynamic efficiency, making it an ideal choice for demanding aerobatic maneuvers and high-performance flight.

Engine Specifications

The engine specifications of an aircraft play a crucial role in defining its performance and efficiency. In the context of the EXTRA EA-230, the engine specifications encompass power output, fuel consumption, and reliability, all of which are critical factors influencing the aircraft’s capabilities and suitability for various flight operations.

  • Power Output: The power output of an aircraft engine determines the amount of thrust it can generate, which directly affects the aircraft’s speed, climb rate, and maneuverability. The EXTRA EA-230 is equipped with a powerful engine that delivers exceptional power output, enabling it to perform demanding aerobatic maneuvers with precision and control. The high power-to-weight ratio of the aircraft contributes to its impressive acceleration and climb performance.
  • Fuel Consumption: Fuel consumption is a critical factor for aircraft operations, as it affects the range and endurance of the aircraft. The EXTRA EA-230 features an efficient engine that optimizes fuel consumption without compromising power output. This allows pilots to fly longer distances without the need for frequent refueling, increasing the aircraft’s versatility and practicality.
  • Reliability: Reliability is of paramount importance for aircraft engines, as it ensures consistent performance and minimizes the risk of in-flight failures. The EXTRA EA-230 is renowned for its reliable engine, which undergoes rigorous testing and maintenance to meet the highest safety standards. The aircraft’s dependable engine gives pilots confidence in its ability to perform consistently, even under demanding operating conditions.

Understanding the connection between engine specifications and the EXTRA EA-230 Specs is essential for appreciating the aircraft’s capabilities and suitability for various flight applications. The combination of high power output, efficient fuel consumption, and exceptional reliability makes the EXTRA EA-230 an ideal choice for aerobatic competitions, high-performance flight, and long-distance soaring.

Avionics Systems

Avionics systems are the electronic systems used in aircraft to control flight, navigation, and communication. In the context of the EXTRA EA-230, these systems play a critical role in enhancing the aircraft’s performance, safety, and overall flight experience.

  • Navigation Systems: Navigation systems provide pilots with real-time information about the aircraft’s position, altitude, and heading. The EXTRA EA-230 is equipped with advanced navigation systems that utilize GPS, inertial navigation, and other sensors to provide accurate and reliable navigation data. These systems enable pilots to navigate precisely, follow complex flight plans, and maintain situational awareness in all flight conditions.
  • Communication Systems: Communication systems allow pilots to communicate with air traffic control, other aircraft, and ground personnel. The EXTRA EA-230 features state-of-the-art communication systems that provide clear and reliable voice and data communication. These systems enable pilots to coordinate flight operations, obtain weather updates, and receive emergency assistance when needed.
  • Flight Control Systems: Flight control systems are responsible for controlling the aircraft’s flight surfaces, such as ailerons, elevators, and rudders. The EXTRA EA-230 is equipped with advanced flight control systems that provide precise and responsive control. These systems enhance the aircraft’s maneuverability, stability, and overall handling characteristics, enabling pilots to perform complex aerobatic maneuvers with confidence and control.

The integration of these avionics systems into the EXTRA EA-230 Specs underscores the aircraft’s commitment to safety, efficiency, and performance. These systems work in conjunction to provide pilots with a comprehensive and intuitive interface that enhances their situational awareness, simplifies flight operations, and maximizes the aircraft’s capabilities. By seamlessly integrating advanced avionics systems, the EXTRA EA-230 sets a benchmark for innovation and excellence in the world of aerobatic aircraft.

Safety Features

The connection between safety features and the EXTRA EA-230 Specs is paramount, as these features play a vital role in ensuring the safety and well-being of pilots and passengers during flight. The EXTRA EA-230 Specs incorporate several key safety features, including emergency parachutes, stall warning systems, and crashworthiness measures, which work in conjunction to enhance the aircraft’s overall safety.


Emergency Parachutes: Emergency parachutes are designed to provide a means of escape for pilots and passengers in the event of an emergency. The EXTRA EA-230 is equipped with ballistic parachutes that are deployed by pulling a handle in the cockpit. These parachutes are designed to slow the descent of the aircraft, allowing occupants to land safely in a controlled manner. The inclusion of emergency parachutes in the EXTRA EA-230 Specs underscores the manufacturer’s commitment to providing pilots and passengers with the highest level of safety.

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Stall Warning Systems: Stall warning systems are designed to alert pilots when the aircraft is approaching a stall condition. A stall occurs when the aircraft’s wings lose lift, causing it to descend rapidly. The EXTRA EA-230 is equipped with an advanced stall warning system that provides both audible and visual cues to the pilot, allowing them to take corrective action and avoid a stall. This system is critical for maintaining control of the aircraft, especially during low-speed maneuvers and high-performance flight.


Crashworthiness: Crashworthiness refers to the ability of an aircraft to withstand a crash and protect its occupants. The EXTRA EA-230 is designed with several crashworthiness features, including a reinforced cabin structure, impact-absorbing seats, and energy-absorbing landing gear. These features are designed to minimize the risk of injury to occupants in the event of a crash landing. The incorporation of crashworthiness measures into the EXTRA EA-230 Specs demonstrates the manufacturer’s dedication to ensuring the safety of its aircraft and its occupants.

In conclusion, the connection between safety features, such as emergency parachutes, stall warning systems, and crashworthiness, and the EXTRA EA-230 Specs is of utmost importance. These features are essential for enhancing the safety and reliability of the aircraft, providing pilots and passengers with peace of mind and confidence during flight. The incorporation of these safety features into the EXTRA EA-230 Specs reflects the manufacturer’s unwavering commitment to innovation and safety, ensuring that the aircraft meets the highest standards of airworthiness.

Weight and Balance

Understanding the connection between “Weight and Balance: Empty weight, maximum takeoff weight, and center of gravity” and “EXTRA EA-230 Specs” is crucial for safe and efficient aircraft operation. Weight and balance play a significant role in determining the aircraft’s performance, stability, and handling characteristics.

  • Empty weight: Refers to the weight of the aircraft without any passengers, cargo, or fuel. It includes the weight of the airframe, engine, avionics, and other fixed equipment.
  • Maximum takeoff weight: Represents the maximum allowable weight of the aircraft at takeoff, including the empty weight, payload, fuel, and any additional equipment.
  • Center of gravity: Is the point at which the aircraft’s weight is evenly distributed along its longitudinal axis. It affects the aircraft’s stability and controllability.

For the EXTRA EA-230, these weight and balance parameters are carefully calculated and specified in the aircraft’s flight manual. Operating the aircraft within these limits is essential to maintain its structural integrity, performance, and safety. Exceeding the maximum takeoff weight or operating with an improper center of gravity can lead to adverse handling characteristics, reduced performance, and potential hazards.

Pilots must carefully consider the weight and balance of the EXTRA EA-230 before each flight. This involves calculating the total weight of the aircraft, including fuel, passengers, and cargo, and ensuring that the center of gravity is within the allowable range. Proper weight and balance calculations help ensure that the aircraft is stable, controllable, and operates within its design specifications.

In conclusion, understanding the connection between “Weight and Balance: Empty weight, maximum takeoff weight, and center of gravity” and “EXTRA EA-230 Specs” is critical for safe and efficient aircraft operation. By adhering to the specified weight and balance limits and ensuring proper distribution of weight, pilots can optimize the aircraft’s performance, stability, and handling characteristics.

EXTRA EA-230 Specs

This section addresses common questions and misconceptions surrounding the EXTRA EA-230 Specs, providing concise and informative answers.

Question 1: What are the key performance parameters specified in the EXTRA EA-230 Specs?

The EXTRA EA-230 Specs encompass a range of performance parameters, including maximum speed, climb rate, and maneuverability. These parameters define the aircraft’s capabilities in terms of speed, vertical performance, and agility.

Question 2: How does the structural design of the EXTRA EA-230 contribute to its performance?

The EXTRA EA-230 utilizes a combination of advanced composite materials, a carefully designed wingspan, and a high aspect ratio wing. This structural design results in a lightweight and robust airframe, enhanced aerodynamic efficiency, and exceptional handling characteristics.

Question 3: What are the key aspects of the EXTRA EA-230’s engine specifications?

The EXTRA EA-230’s engine specifications focus on power output, fuel consumption, and reliability. The aircraft’s powerful engine delivers exceptional thrust, enabling high-performance maneuvers and impressive acceleration. Efficient fuel consumption optimizes range and endurance, while exceptional reliability ensures consistent performance and minimizes the risk of in-flight failures.

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Question 4: How do the avionics systems contribute to the safety and efficiency of the EXTRA EA-230?

The EXTRA EA-230’s avionics systems play a crucial role in enhancing safety and efficiency. Advanced navigation systems provide precise positional awareness, while state-of-the-art communication systems facilitate clear and reliable communication. Integrated flight control systems ensure responsive and precise control of the aircraft’s flight surfaces, maximizing maneuverability and stability.

Question 5: What safety features are incorporated into the EXTRA EA-230 Specs?

The EXTRA EA-230 Specs prioritize safety through the inclusion of emergency parachutes, stall warning systems, and crashworthiness measures. Emergency parachutes provide a means of escape in emergency situations, while stall warning systems alert pilots to impending stalls. Crashworthiness features, such as a reinforced cabin structure and energy-absorbing landing gear, enhance occupant protection in the event of a crash landing.

Question 6: How is weight and balance managed in the EXTRA EA-230 Specs?

Weight and balance are critical factors in the EXTRA EA-230 Specs. Empty weight, maximum takeoff weight, and center of gravity are carefully calculated to maintain the aircraft’s structural integrity, performance, and stability. Proper weight and balance calculations ensure that the aircraft operates within its design specifications, optimizing handling characteristics and ensuring safe and efficient flight.

Understanding these key aspects of the EXTRA EA-230 Specs is essential for pilots, engineers, and aviation enthusiasts. These specifications provide a comprehensive overview of the aircraft’s capabilities, limitations, and safety features, enabling informed decision-making and optimal operation of this exceptional aerobatic aircraft.

By exploring these frequently asked questions, we gain a deeper understanding of the EXTRA EA-230 Specs and their implications for the aircraft’s performance, safety, and overall design. This knowledge empowers us to appreciate the engineering excellence and innovation behind this remarkable aircraft.

EXTRA EA-230 Specs

Understanding and leveraging the EXTRA EA-230 Specs is crucial for optimizing the aircraft’s performance, safety, and efficiency. Here are some valuable tips to consider:

Tip 1: Study the performance envelope thoroughly.

Familiarize yourself with the aircraft’s maximum speed, climb rate, and maneuverability limits. This knowledge enables informed decision-making and ensures safe operation within the aircraft’s capabilities.

Tip 2: Pay attention to structural design considerations.

The EXTRA EA-230’s composite airframe, wingspan, and aspect ratio contribute to its strength, durability, and aerodynamic efficiency. Understanding these design features optimizes weight distribution and enhances flight performance.

Tip 3: Master the engine specifications.

The aircraft’s engine power output, fuel consumption, and reliability are critical factors. Proper management of these parameters ensures optimal performance, range, and safety during flight.

Tip 4: Utilize the avionics systems effectively.

The EXTRA EA-230’s advanced avionics systems enhance situational awareness, communication, and flight control. Proficiency in using these systems maximizes safety, efficiency, and overall flight experience.

Tip 5: Prioritize weight and balance management.

Proper weight and balance calculations are essential for maintaining the aircraft’s stability, handling characteristics, and structural integrity. Adhering to the specified weight and balance limits ensures safe and efficient operation.

By incorporating these tips into your understanding and operation of the EXTRA EA-230, you can unlock its full potential, enhance safety, and maximize the aircraft’s capabilities.

Remember to consult the aircraft’s flight manual and seek guidance from experienced pilots or instructors to fully grasp the implications and applications of the EXTRA EA-230 Specs.

EXTRA EA-230 Specs

In conclusion, the EXTRA EA-230 Specs provide a comprehensive overview of the aircraft’s capabilities and characteristics. Understanding these specifications is paramount for pilots, engineers, and aviation enthusiasts alike. The performance envelope, structural design, engine specifications, avionics systems, safety features, and weight and balance considerations all play crucial roles in defining the aircraft’s performance, safety, and overall flight experience.

By thoroughly examining the EXTRA EA-230 Specs, we gain valuable insights into the engineering excellence and innovation behind this remarkable aircraft. These specifications serve as a valuable reference for informed decision-making, optimal operation, and continued appreciation of the EXTRA EA-230’s exceptional capabilities.