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Type air-to-air & surface-to-air missiles
Place of origin  China
Service history
In service 1990’s – present
Used by China
Production history
Manufacturer China Aviation Industry Corporation I
Produced since 1990’s
Weight 20 kg
Length 1.9 meter
Diameter 90 mm
Warhead 3 kg warhead
impact / proximity

Engine solid-fuel rocket motor
Propellant solid fuel
0.5 – 6 km
Flight ceiling 6 km
Flight altitude 0 – 6 km
Speed >Mach 2
Air & surface

TY-90 is the first air-to-air missile specifically developed for military helicopters in dogfights. The missile is developed by China with TY stands for Tian Yan (Tianyan), short for Sky (or Celestial) Swallow (天燕). Contrary to the erroneous claims, the missile is not developed from MANPAD missiles such as QW-1 Vanguard, but instead, it is designed as an air-to-air missile from the start. In fact, the surface-to-air version was developed from the air-to-air version.


  • Development 1
  • Specifications 2
  • SG-II ADS 3
  • LS ADS 4
  • YT ADS 5
  • FL-3000N 6
  • References 7


Chinese determined that the MANPAD missiles converted for helicopter use in dogfights was not adequate, so a brand new air-to-air missile specifically for helicopter use was sanctioned, and TY-90 was the resulting product. The 3 kg warhead of the missile is specially designed to sever the rotary wing with a single shot, and the missile has all-aspect attack capability. The missile is designed to ensure a single shot would be sufficient to down an attack helicopter, or at least knock it out of action.

At least three additional versions have been developed in addition to the basic version, and two of them being air-to-air versions. The first adopts a dual-band guidance, adding UV to the original IR, while the second adopts an ImIR guidance. During the 5th Zhuhai Airshow held at the end of 2004, a ground-launched air defense version appeared, with designation of DY-90, which was essentially the original TY-90, but with an additional option of incorporating a rocket booster to increase range upon customer's request.

A navalized surface-to-air version is also developed, utilizing the QW-3 is used. However, this navalized version has not entered service as of 2008, and the reason is reportedly because that the Chinese military wants to wait until the more advanced dual-band or Imaging IR (ImIR) version to be incorporated into the FLS-1 system, which are currently under development. However, at Zhuhai Airshow, AVIC I, the developer of TY-90 only acknowledged the developing and active marketing such systems, but refused to further confirm whether the Chinese military or any foreign customers had placed any orders, and neither did the developer confirm such developmental works were privately funded by the developer or received any funds from the state or foreign customers.

Despite marketing efforts, as of 2008, there is no known export of TY-90 of any kind.


For air-to-air version:

  • length: 1.9 metre
  • diameter: 0.09 metre
  • weight: 20 kg
  • warhead: 3 kg
  • Maximum g-force: 20 g
  • guidance: infrared homing
  • fuze: laser proximity / contact
  • speed: > Mach 2
  • minimum range: 0.5 km
  • maximum range: 6 km
  • minimum altitude: 0 metre
  • maximum altitude: 6 km
  • single-shot kill probability: > 80%
  • developer: China Aviation Industry Corporation I


In 2004, a land based air defense variant of TY-90 is revealed to Chinese public after entering Chinese service in small numbers for sometime. Shengong (Deity Bow, 神弓)-II Air Defense System (SG-II ADS) is the upgrade of its predecessor SG ADS.


During the 5th Zhuhai Airshow held at the end of 2004, a mobile land based air defense variant of TY-90 was revealed, dubbed as LS ADS, short for Lie-Shou (猎手, meaning Hunter) Air Defense System. Eight TY-90 in two groups of four are mounted in the back of a Dongfeng (东风, East Wind) EQ2050 Iron Armor (Tiejia, 铁甲) High Mobility Multipurpose Wheeled Vehicle (HMMWV), and the fire control system consists of electro-optics including laser, IR & TV, mounted between the two quadruple launchers.

The LS ADS is developed by Norinco, with Dongfeng Motor Corporation as the subcontractor to develop chassis (vehicle). LS ADS is capable of being air transported, included being slung under helicopters. The system is operated by a team of two, one driver and one weaponry system officer. The system can also being integrated into larger air defense network. A small number subsequently entered PLA service for evaluation purposes.


In 2005, another mobile land based air defense variant of TY-90 was revealed to the Chinese public, named as YT ADS, short for Yi-Tian (倚天, meaning leaning on the sky) Air Defense System. YT ADS is a development of earlier LS ADS designed to specifically address the shortcomings of the latter, namely, the insufficient armor protection, lack of amphibious capability and radar. Like its predecessor LS ADS, the system is also developed by Norinco.

Weaponry of YT ADS is similar to that of earlier LS ADS, with the missile configuration remains the same as that of LS ADS, but additionally, there is an extra 12.7 mm heavy machine gun and 3 smoke grenade dischargers as secondary armament for added protection. WZ551 is utilized as the chassis of the YT ADS, giving the system amphibious capability and added protection. Additionally, a light solid state 3-D passive phased array radar is added to the fire control system, just above the original electro-optical fire control system, providing the ADS with greater surveillance range. The radar can be fold down for traveling and transportation.


  • Maximum target altitude: 4 km
  • Minimum target altitude: 15 meter
  • Maximum target range: 6 km
  • Minimum target range: 300 meter
  • Maximum target speed: > 400 meter / second
  • Maximum radar searching range: >20 km
  • Maximum radar tracking range: 10 – 12 km
  • System reaction time: 6 – 8 seconds


Octuple launcher of FL-3000N.

Flying Leopard 3000 Naval (FL-3000N) was first revealed to the public at the 7th Zhuhai Airshow at the end of 2008. Although using the Flying Leopard designation, FL-3000N is actually different missile system than FL-2000(V) shown earlier. In fact, the only commonality shared by both SAM system is the launcher design, and even the launchers differ in size due to the different diameters of the missiles used in the systems.

Instead of using QW series MANPAD, FL-3000N is developed from TY-90 missile. The diameter of the missile is enlarged by a third, but the most important design difference is it's guidance system. The FL-3000N missile utilizes a combined guidance system that incorporates both passive radio frequency (RF) guidance and imaging infrared (ImIR) guidance. There are a pair of horn like protrusions mounted on the ImIR seeker at the tip of the missile, and these two protrusions are the passive RF seeker. An optional ImIR only guidance is also available and the missile is a fire and forget weapon.

The fire control system (FCS) of FL-3000N can simultaneously control two launchers, and can be integrated into other FCS on board ships. Alternatively, FL-3000N is also capable being directly controlled by other FCS on board ships. The system is usually fully automatic without human intervention, but manual operation can be inserted when needed.

The primary launching system of FL-3000N is a 24-cell launcher, developed from FLS-1. An optional extra magazine with automated loading system is available for larger warships when there is enough space provided. On smaller surface combatants where space is limited, the extra magazine with the automated loading system is eliminated and the reload is done manually. To further utilize confined space, an 8-cell launcher and a quadruple launcher are also available. Additionally, a single-cell launcher is available for mounting on existing naval gun mounts.

Although dubbed by many Chinese as the Chinese equivalent of RAM, and the similarity is brought closer due to the passive RF / ImIR guidance system shared by both. Moreover, FL-3000N has only two forward steering fins, similar to RIM-116, it has to roll in flight.


  • Length: 2 meters
  • Diameter: 0.12 meter
  • Minimum range: < 500 meters
  • Maximum range: > 9 km for subsonic targets, > 6 km for supersonic targets
  • Guidance: passive RF + ImIR or ImIR only

require('Module:No globals')

local p = {}

-- articles in which traditional Chinese preceeds simplified Chinese local t1st = { ["228 Incident"] = true, ["Chinese calendar"] = true, ["Lippo Centre, Hong Kong"] = true, ["Republic of China"] = true, ["Republic of China at the 1924 Summer Olympics"] = true, ["Taiwan"] = true, ["Taiwan (island)"] = true, ["Taiwan Province"] = true, ["Wei Boyang"] = true, }

-- the labels for each part local labels = { ["c"] = "Chinese", ["s"] = "simplified Chinese", ["t"] = "traditional Chinese", ["p"] = "pinyin", ["tp"] = "Tongyong Pinyin", ["w"] = "Wade–Giles", ["j"] = "Jyutping", ["cy"] = "Cantonese Yale", ["poj"] = "Pe̍h-ōe-jī", ["zhu"] = "Zhuyin Fuhao", ["l"] = "literally", }

-- article titles for wikilinks for each part local wlinks = { ["c"] = "Chinese language", ["s"] = "simplified Chinese characters", ["t"] = "traditional Chinese characters", ["p"] = "pinyin", ["tp"] = "Tongyong Pinyin", ["w"] = "Wade–Giles", ["j"] = "Jyutping", ["cy"] = "Yale romanization of Cantonese", ["poj"] = "Pe̍h-ōe-jī", ["zhu"] = "Bopomofo", }

-- for those parts which are to be treated as languages their ISO code local ISOlang = { ["c"] = "zh", ["t"] = "zh-Hant", ["s"] = "zh-Hans", ["p"] = "zh-Latn-pinyin", ["tp"] = "zh-Latn", ["w"] = "zh-Latn-wadegile", ["j"] = "yue-jyutping", ["cy"] = "yue", ["poj"] = "hak", ["zhu"] = "zh-Bopo", }

local italic = { ["p"] = true, ["tp"] = true, ["w"] = true, ["j"] = true, ["cy"] = true, ["poj"] = true, } -- Categories for different kinds of Chinese text local cats = { ["c"] = "", ["s"] = "", ["t"] = "", }

function p.Zh(frame) -- load arguments module to simplify handling of args local getArgs = require('Module:Arguments').getArgs local args = getArgs(frame) return p._Zh(args) end function p._Zh(args) local uselinks = not (args["links"] == "no") -- whether to add links local uselabels = not (args["labels"] == "no") -- whether to have labels local capfirst = args["scase"] ~= nil

        local t1 = false -- whether traditional Chinese characters go first
        local j1 = false -- whether Cantonese Romanisations go first
        local testChar
        if (args["first"]) then
                 for testChar in mw.ustring.gmatch(args["first"], "%a+") do
          if (testChar == "t") then
           t1 = true
          if (testChar == "j") then
           j1 = true
        if (t1 == false) then
         local title = mw.title.getCurrentTitle()
         t1 = t1st[title.text] == true

-- based on setting/preference specify order local orderlist = {"c", "s", "t", "p", "tp", "w", "j", "cy", "poj", "zhu", "l"} if (t1) then orderlist[2] = "t" orderlist[3] = "s" end if (j1) then orderlist[4] = "j" orderlist[5] = "cy" orderlist[6] = "p" orderlist[7] = "tp" orderlist[8] = "w" end -- rename rules. Rules to change parameters and labels based on other parameters if args["hp"] then -- hp an alias for p ([hanyu] pinyin) args["p"] = args["hp"] end if args["tp"] then -- if also Tongyu pinyin use full name for Hanyu pinyin labels["p"] = "Hanyu Pinyin" end if (args["s"] and args["s"] == args["t"]) then -- Treat simplified + traditional as Chinese if they're the same args["c"] = args["s"] args["s"] = nil args["t"] = nil elseif (not (args["s"] and args["t"])) then -- use short label if only one of simplified and traditional labels["s"] = labels["c"] labels["t"] = labels["c"] end local body = "" -- the output string local params -- for creating HTML spans local label -- the label, i.e. the bit preceeding the supplied text local val -- the supplied text -- go through all possible fields in loop, adding them to the output for i, part in ipairs(orderlist) do if (args[part]) then -- build label label = "" if (uselabels) then label = labels[part] if (capfirst) then label = mw.language.getContentLanguage():ucfirst(


TY-90 missile

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