KF-24 Huinmae: Difference between revisions

Jump to navigation Jump to search
No edit summary
 
(10 intermediate revisions by the same user not shown)
Line 1: Line 1:
{{Infobox aircraft
{|{{Infobox aircraft begin
  |name = KF-24 Huinmae
  |name           = KF-24 Huinmae
  |image = Th (59).jpg
  |image           = Th (59).jpg
  |caption = KF-24 Huinmae flies over Daegu city.
  |caption         = KF-24 Huinmae flies over Daegu city.
|alt =
}}{{Infobox aircraft type
  |type = {{wp|Multirole combat aircraft}}
  |type           = {{wpl|Stealth aircraft}}<br>{{wp|Multirole combat aircraft}}
  |national_origin = [[Joseon]]
  |national origin = {{flag|Joseon}}
  |manufacturer = Daesung Aerospace,. Inc.
  |manufacturer   = Daesung Aerospace,. Inc.
  |first_flight = {{Start date and age|2014|06|12|df=yes}}
  |design group    =  
  |introduction = 8 August 2017
|designer        =
  |status = In service
|builder        =
  |retired =  
|first flight    = 12 June 2020
  |primary_user = *[[Royal Joseon Air Force]]
  |introduction   = 8 August 2022
*[[Royal Joseon Navy]]
  |introduced      =  
  |more_users =  
  |retired         =
  |produced = 2014-Present
|status          = In service
  |number_built =  
  |primary user    = [[Royal Joseon Air Force]]<br>[[Royal Joseon Navy]]
  |developed_from =  
  |more users      =  
  |variants =  
  |produced       = 2022-Present
  |developed_into =
  |number built    =  
  |program cost    =  
  |unit cost      =
|developed from  =  
  |variants with their own articles =
}}
}}
|}


The '''Daesung Aerospace KF-24 Huinmae''' is a single-seat, single-engine, stealth multirole combat aircraft designed for air superiority and strike missions. it also has electronic warfare and intelligence, surveillance, and reconnaissance capabilities. Daesung Aerospace is the prime KF-24 contractor and manufacturer. Hanwha Aerospace was responsible for the aircraft's engine manufacturing and installation.
The '''Daesung Aerospace KF-24 Huinmae''' is a single-seat, single-engine, stealth multirole combat aircraft designed for air superiority and strike missions. it also has electronic warfare and intelligence, surveillance, and reconnaissance capabilities. Daesung Aerospace is the prime KF-24 contractor and manufacturer. Hanwha Aerospace was responsible for the aircraft's engine manufacturing and installation.
Like all other combat equipment and vehicles in the [[Royal Joseon Armed Forces]], the KF-24 is also integrated into the Joseon's Battle Management System(BMS), '[[Gongmyeong-2E]],' sharing real-time information about battlefields and changes in conditions with other units and aircraft, vehicles, and ships.


==Development==
==Development==
Line 27: Line 34:
The KF-24 originated from the HETF-2('''H'''igh-'''E'''nd '''T'''actical '''F'''ighter-2) project, a project to develop multirole stealth fighter jets that can be used in a wider variety of missions. The new aircraft had to be affordable compared to the [[KF-23 Chammae|KF-23]], but could be equipped with a variety of air-to-surface weapons and an appropriate level of air-to-air weapons. Like the [[KF-23 Chammae]], the Navy wanted the KF-24 to have the capability to take off and land on the {{wp|CATOBAR}} aircraft carrier.
The KF-24 originated from the HETF-2('''H'''igh-'''E'''nd '''T'''actical '''F'''ighter-2) project, a project to develop multirole stealth fighter jets that can be used in a wider variety of missions. The new aircraft had to be affordable compared to the [[KF-23 Chammae|KF-23]], but could be equipped with a variety of air-to-surface weapons and an appropriate level of air-to-air weapons. Like the [[KF-23 Chammae]], the Navy wanted the KF-24 to have the capability to take off and land on the {{wp|CATOBAR}} aircraft carrier.


The prototype of the KF-24 successfully completed its first flight in 2014, and 10 more prototype aircraft were built by 2015. To make up for the combat power vacuum during the KF-24's development, the Air Force and Navy introduced {{wp|Lockheed Martin F-35 Lightning II|F-35 fighter jets}}, but the quantity was never large.
The prototype of the KF-24 successfully completed its first flight in 2020, and 10 more prototype aircraft were built by 2015. The KF-24 began deploying to the Air Force and Navy in 2022 without any particular trouble or difficulties. Currently, KF-24 maintains a production line, and {{wp|Foreign Military Sales|FMS}} contracts and competitive bidding for exports are permitted on a limited basis.
 
The KF-24 began deploying to the Air Force and Navy in 2017 without any particular trouble or difficulties. Currently, KF-24 maintains a production line, and {{wp|Foreign Military Sales|FMS}} contracts and competitive bidding for exports are permitted on a limited basis.


==Design==
==Design==
Line 35: Line 40:
===Avionics===
===Avionics===


The KF-24's AN/APG-05 radar can detect objects of size 1m^2 at a distance of 320km. This is lower than AN/APG-02, the radar of the KF-23 fighter jet. However, AN/APG-05 inherited the electronic warfare capabilities of AN/APG-02.
The KF-24's AN/APG-05 radar can detect objects of size 1m^2 at a distance of 320km. This is lower than AN/APG-02, the radar of the [[KF-23 Chammae|KF-23 fighter jet]]. However, AN/APG-05 inherited the electronic warfare capabilities of AN/APG-02.


The active scanning radar AN/APG-02 uses 1,200 semiconductor microwave modules (T/W) with a maximum output of 8 watts and a weight of 20g to fire radar beams of different wavelengths. Launching radar beams of these different wavelengths makes it difficult for the enemy fighter's Radar Homing And Warning Receiver (RWR) to detect KF-24's radar operation, and KF-24 can Lock-on the enemy without the enemy knowing it.
The active scanning radar AN/APG-02 uses 1,200 semiconductor microwave modules (T/W) with a maximum output of 8 watts and a weight of 20g to fire radar beams of different wavelengths. Launching radar beams of these different wavelengths makes it difficult for the enemy fighter's Radar Homing And Warning Receiver (RWR) to detect KF-24's radar operation, and KF-24 can Lock-on the enemy without the enemy knowing it.
AN/APG-05 is highly resistant to DRFM jammer attacks due to enhanced electronic protection capabilities, can organically change frequencies or patterns of radio waves, and radio algorithms are also very complex, reducing the risk of exposure to locations through radio backtracking by enemy ESM equipment or Passive radar. The AN/APG-05 radar can also detect smaller targets, such as inbound missiles and can track air targets beyond the range of the aircraft's air-to-air missiles.


In addition, the KF-24 is equipped with AN/APG-06 L-Band AESA radar on both main wings and tail wings to detect enemy stealth aircraft and is used in conjunction with each radar. In this way, KF-24 can detect enemy stealth aircraft by operating radars in various bands.
In addition, the KF-24 is equipped with AN/APG-06 L-Band AESA radar on both main wings and tail wings to detect enemy stealth aircraft and is used in conjunction with each radar. In this way, KF-24 can detect enemy stealth aircraft by operating radars in various bands.
Line 47: Line 54:
Stealth is a key aspect of the KF-24's design, and radar cross-section (RCS) is minimized through careful shaping of the airframe and the use of radar-absorbent materials (RAM), visible measures to reduce RCS include alignment of edges and continuous curvature of surfaces, serration of skin panels, and the masking of the engine face and turbine. Additionally, the KF-24's diverterless supersonic inlet (DSI) uses a compression bump and forward-swept cowl rather than a splitter gap or bleed system to divert the boundary layer away from the inlet duct, eliminating the diverter cavity and further reducing radar signature. The RCS of the KF-24 has been characterized as lower than a metal golf ball at certain frequencies and angles.
Stealth is a key aspect of the KF-24's design, and radar cross-section (RCS) is minimized through careful shaping of the airframe and the use of radar-absorbent materials (RAM), visible measures to reduce RCS include alignment of edges and continuous curvature of surfaces, serration of skin panels, and the masking of the engine face and turbine. Additionally, the KF-24's diverterless supersonic inlet (DSI) uses a compression bump and forward-swept cowl rather than a splitter gap or bleed system to divert the boundary layer away from the inlet duct, eliminating the diverter cavity and further reducing radar signature. The RCS of the KF-24 has been characterized as lower than a metal golf ball at certain frequencies and angles.


The KF-24's stealth design is primarily focused on high-frequency X-band wavelengths. To disguise aircraft's RCS, the KF-24 can mount 4 {{wp|Luneburg lens}} reflectors.
The entire fuselage of the KF-24 is coated with absorbers made of {{wp|metamaterial}}. Since the metamaterial can tailor the common waves such as light, electromagnetic waves, and sound waves, it can implement stealth capabilities for multiple bands of waves. The radio absorbers used in KF-24 are designed to ensure stealth capabilities for radar waves in the L-Band, S-Band, and UHF bands as well as X-Band. This allows KF-24 to implement stealth capabilities for radar propagation in all bands.
 
To disguise aircraft's RCS, the KF-24 can mount 4 {{wp|Luneburg lens}} reflectors.


===Helmet===
===Helmet===
Line 68: Line 77:


==Operators==
==Operators==
[[File:OIG1 (64).jpg|thumb|left|Two squadrons of KF-24 fighters flies over the skies of Mungyeong city.]]


{{flag|Joseon}}:  
{{flag|Joseon}}:  

Latest revision as of 20:48, 10 November 2024

KF-24 Huinmae
Th (59).jpg
KF-24 Huinmae flies over Daegu city.
Role Stealth aircraft
Multirole combat aircraft
National origin  Joseon
Manufacturer Daesung Aerospace,. Inc.
First flight 12 June 2020
Introduction 8 August 2022
Status In service
Primary user Royal Joseon Air Force
Royal Joseon Navy
Produced 2022-Present

The Daesung Aerospace KF-24 Huinmae is a single-seat, single-engine, stealth multirole combat aircraft designed for air superiority and strike missions. it also has electronic warfare and intelligence, surveillance, and reconnaissance capabilities. Daesung Aerospace is the prime KF-24 contractor and manufacturer. Hanwha Aerospace was responsible for the aircraft's engine manufacturing and installation.

Like all other combat equipment and vehicles in the Royal Joseon Armed Forces, the KF-24 is also integrated into the Joseon's Battle Management System(BMS), 'Gongmyeong-2E,' sharing real-time information about battlefields and changes in conditions with other units and aircraft, vehicles, and ships.

Development

The KF-24 originated from the HETF-2(High-End Tactical Fighter-2) project, a project to develop multirole stealth fighter jets that can be used in a wider variety of missions. The new aircraft had to be affordable compared to the KF-23, but could be equipped with a variety of air-to-surface weapons and an appropriate level of air-to-air weapons. Like the KF-23 Chammae, the Navy wanted the KF-24 to have the capability to take off and land on the CATOBAR aircraft carrier.

The prototype of the KF-24 successfully completed its first flight in 2020, and 10 more prototype aircraft were built by 2015. The KF-24 began deploying to the Air Force and Navy in 2022 without any particular trouble or difficulties. Currently, KF-24 maintains a production line, and FMS contracts and competitive bidding for exports are permitted on a limited basis.

Design

Avionics

The KF-24's AN/APG-05 radar can detect objects of size 1m^2 at a distance of 320km. This is lower than AN/APG-02, the radar of the KF-23 fighter jet. However, AN/APG-05 inherited the electronic warfare capabilities of AN/APG-02.

The active scanning radar AN/APG-02 uses 1,200 semiconductor microwave modules (T/W) with a maximum output of 8 watts and a weight of 20g to fire radar beams of different wavelengths. Launching radar beams of these different wavelengths makes it difficult for the enemy fighter's Radar Homing And Warning Receiver (RWR) to detect KF-24's radar operation, and KF-24 can Lock-on the enemy without the enemy knowing it.

AN/APG-05 is highly resistant to DRFM jammer attacks due to enhanced electronic protection capabilities, can organically change frequencies or patterns of radio waves, and radio algorithms are also very complex, reducing the risk of exposure to locations through radio backtracking by enemy ESM equipment or Passive radar. The AN/APG-05 radar can also detect smaller targets, such as inbound missiles and can track air targets beyond the range of the aircraft's air-to-air missiles.

In addition, the KF-24 is equipped with AN/APG-06 L-Band AESA radar on both main wings and tail wings to detect enemy stealth aircraft and is used in conjunction with each radar. In this way, KF-24 can detect enemy stealth aircraft by operating radars in various bands.

The KF-24 Chammae's EOTS is responsible for exploring the approximate location of enemy stealth targets detected by KF-24 using L-Band and X-Band radars in more detail, identifying detailed location information of enemy stealth targets, and guiding radar-guided missiles, including AIM-120D, to enemy stealth targets. The EOTS mounted on the KF-24 has a detection range of 150 kilometers, and if necessary, the KF-24 can perform BVR(Beyond-visual-range) air combat using only EOTS without radar operation.

Stealth

Stealth is a key aspect of the KF-24's design, and radar cross-section (RCS) is minimized through careful shaping of the airframe and the use of radar-absorbent materials (RAM), visible measures to reduce RCS include alignment of edges and continuous curvature of surfaces, serration of skin panels, and the masking of the engine face and turbine. Additionally, the KF-24's diverterless supersonic inlet (DSI) uses a compression bump and forward-swept cowl rather than a splitter gap or bleed system to divert the boundary layer away from the inlet duct, eliminating the diverter cavity and further reducing radar signature. The RCS of the KF-24 has been characterized as lower than a metal golf ball at certain frequencies and angles.

The entire fuselage of the KF-24 is coated with absorbers made of metamaterial. Since the metamaterial can tailor the common waves such as light, electromagnetic waves, and sound waves, it can implement stealth capabilities for multiple bands of waves. The radio absorbers used in KF-24 are designed to ensure stealth capabilities for radar waves in the L-Band, S-Band, and UHF bands as well as X-Band. This allows KF-24 to implement stealth capabilities for radar propagation in all bands.

To disguise aircraft's RCS, the KF-24 can mount 4 Luneburg lens reflectors.

Helmet

The Vision Systems International helmet display is a key piece of the KF-24's human-machine interface. Instead of the head-up display mounted atop the dashboard of earlier fighters, the HMDS puts flight and combat information on the helmet visor, allowing the pilot to see it no matter which way they are facing. Infrared and night vision imagery from the Distributed Aperture System can be displayed directly on the HMDS and enables the pilot to "see through" the aircraft. The HMDS allows a KF-24 pilot to fire missiles at targets even when the nose of the aircraft is pointing elsewhere by cuing missile seekers at high angles off-boresight.

Armament

To preserve its stealth shaping, the KF-24 has two internal weapons bays. 2 internal weapons bays can be carry with 6 air-to-air or 2 air-to-air missiles and 2 air-to-surface armaments/standoff weapons. The KF-24 can use 6 external weapons stations for missions that do not require stealth.

Engine

The aircraft is powered by a single Hanwha Aerospace JT-206 low-bypass augmented turbofan with rated thrust of 28,000 lbf (125 kN) at military power and 43,000 lbf (191 kN) with afterburner. The engine contributes to the KF-24's stealth by having a low-observable augmenter, or afterburner, that incorporates fuel injectors into thick curved vanes, these vanes are covered by ceramic radar-absorbent materials and mask the turbine.

The low-observable axisymmetric nozzle consists of 15 partially overlapping flaps that create a sawtooth pattern at the trailing edge, which reduces radar signature and creates shed vortices that reduce the infrared signature of the exhaust plume. The KF-24's Integrated Power Package (IPP) performs power and thermal management and integrates environment control, auxiliary power unit, engine starting, and other functions into a single system.

Protection

The KF-24 has military-grade protection against non-nuclear and nuclear shock wave EMPs.

Operators

Two squadrons of KF-24 fighters flies over the skies of Mungyeong city.

 Joseon:

Specifications

General characteristics

  • Crew: 1
  • Length: 15.6 m
  • Wingspan: 11.5 m
  • Height: 4.4 m
  • Empty weight: 13,290 kg
  • Gross weight: 22,471 kg
  • Max takeoff weight: 29,900 kg
  • Fuel capacity: 8,278 kg internally
  • Powerplant: 1 x Hanwha Aerospace JT-206 afterburning turbofan, 28,000 lbf (125 kN) thrust dry, 43,000 lbf (191 kN) with afterburner

Performance

  • Maximum speed:
    • Mach 1.60 at high altitude
    • Mach 1.06 at sea level
  • Range:
    • Combat range: 1,359 km, interdiction mission (air-to-surface) on internal fuel
    • 1,470 km, air-to-air configuration on internal fuel
  • Service ceiling: 50,000 ft (15,000 m)
  • g limits: +9.5

Armament

  • Gun: 1× 20 mm M61A2 Vulcan rotary cannon, 430 rounds
  • Air-to-air mission loadout(Internal weapons bays)
    • 6 x AIM-120C/D AMRAAM or KAIM-3
  • Air-to-ground mission loadout(Internal weapons bays)
    • 2 x 2,000 lb JDAM + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x 1,000 lb JDAM + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x 2,000 lb GBU-24 Paveway III + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x 500 lb Paveway IV + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x 1,000 lb GBU-16 Paveway II + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 8 x 250 lb GBU-39 SDB + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x AGM-158 JASSM + 2 x AIM-120C/D AMRAAM or KAIM-3
  • Air-to-ship mission loadout(Internal weapons bays)
    • 2 x NGAM + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x ASM-1100K + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x AGM-158C LRASM + 2 x AIM-120C/D AMRAAM or KAIM-3
    • 2 x Joint Strike Missile (JSM) + 2 x AIM-120C/D AMRAAM or KAIM-3

Avionics

  • AN/APG-05 X-Band AESA Radar
  • AN/APG-06 L-Band AESA Radar
  • AN/ALR-94 RWR
  • KAN/AAQ-04 EOTS
  • KAN/ASQ-23 "Witch" Electronic Warfare System