Sidewinder Missile
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Sidewinder Missile
Seminar Report
INTRODUCTION All of the expensive technology that goes into a fighter jet. Attack helicopter or bomber wouldn’t be much use on the battlefield with out any ordnance.while there’re not as expensive or complex as the military that carry them guns, missiles and bombs are pretty impressive aircraft in their own right. Smart weapons don’t just sail through the air: they actually find their own way to the target. One of the oldest and most successful smart weapons in the U.S arsenal, the legendry AIM-9 Sidewinder missile. The small and simple sidewinder is a highly effective combination of electronics and explosive power, brought together with incredible technical ingenuity.
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Sidewinder Missile
Seminar Report
SMART WEAPONS The Sidewinder AIM-9 (air intercept missile 9) is classified as a short-range, air-to-air missile. Simply put, its job is to launch from an airborne aircraft and "kill" an enemy aircraft (damage it to the point that it goes down). Missiles like the Sidewinder are called smart weapons because they have built-in seeking systems that let them home in on a target.
Photo courtesy U.S. Air Force The Sidewinder is a short-range missile for air-to-air combat.
The technology of smart weapons really got going in the decade following World War II. Most early guided weapon prototypes were built around radar technology, which proved to be expensive and problematic. These missiles had their own radar sensors, but obviously could not carry www.seminarsonly.com
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Sidewinder Missile
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their own radar transmitters. For the guidance system to lock on an enemy plane, some remote radar system had to "illuminate" the target by bouncing radar beams off of it. In most cases, this meant the pilot had to keep the aircraft in a vulnerable position after firing in order to keep a radar lock on the enemy until the missile could find it. Additionally, the radar equipment in the missile was large and expensive, which made for a high-cost, bulky weapon. Most of these missiles had something around a 90 percent failure rate (nine shots out of 10 missed their targets).
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Sidewinder Missile
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HEAT SENSING
In 1947, a Naval physicist named Bill McLean took it upon himself to build a better system -- a missile that would seek out the heat from an enemy aircraft's engine system. Since the missile would home in on the target's own emitted energy, rather than reflected radio energy, the pilot could "fire and forget" -- that is, he could launch the missile and get clear. In place of the bulky radar equipment, the missile would use a relatively small heat-sensing photovoltaic cell to "see" the target. This meant it could be built much smaller than the current radar prototypes, and at a much lower cost Officially, the Navy had no interest in non-radar guidance systems, but at the China Lake, California, Naval Ordnance Test Station (NOTS) where McLean was employed, researchers had enough freedom to pursue unconventional projects. Under the guise of missile fuze development, McLean and his colleagues worked out the design of the first Sidewinder prototypes. Six years later, in September 1953, the missile had its first successful test run. Since that time, the Sidewinder has taken a number of different forms, each model adding new technology and capabilities (check out F16.net: AIM-9 Sidewinder for details on the specific models). While today's semiconductor guidance systems are a lot more advanced than the vacuum tubes on the original designs, the overall operation is pretty close. In the next couple of sections, we'll examine the current Sidewinder model, the AIM-9M, and also take a peek at its upcoming replacement, the AIM-9X.
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Sidewinder Missile
Seminar Report
THE COMPONENTS As we saw in the last section, the central idea of the Sidewinder system is to home in on the heat, or infrared energy, from an enemy aircraft (from the engine exhaust or from the hot fuselage itself). Essentially, the missile's job is to keep flying toward the infrared energy until it reaches the target. Then the missile blows up, destroying the enemy aircraft. To do all of this, the Sidewinder needs nine major components:
The rocket motor, which provides the thrust to propel the missile through the air
The rear stabilizing wings, which provide the necessary lift to keep the missile aloft
The seeker, which sees the infrared light from the target
The guidance control electronics, which process the information from the seeker and calculate the proper course for the missile
The control actuation section, which adjusts flight fins near the nose of the missile based on instructions from the guidance electronics
The flight fins themselves, which steer the missiles through the air -just like the flaps on an airplane wing, the moving flight fins generate drag (increase wind resistance) on one side of the missile, causing it to turn in that direction.
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Sidewinder Missile
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The warhead, the explosive device that actually destroys the enemy aircraft
A fuze system that sets the warhead off when the missile reaches the target
A battery to provide power to the onboard electronics
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Sidewinder Missile
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SIDEWINDER STATS (FOR THE AIM-9M)
Length: 9 feet, 5 inches (~2.9 m)
Diameter: 5 inches (~13 cm)
Weight: 188 pounds (~85 kg)
Finspan: 2 feet, 3/4 of an inch (~63 cm)
Cost: $84,000
Top Speed: Mach 2.5
Range: 18 miles (~29 km)
THE SYSTEM www.seminarsonly.com
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Sidewinder Missile
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To see how all these pieces work together, let's examine a typical attack sequence. Before launching, the missile sits under one of the aircraft's wings, mounted to a launcher on the wing by several hangers. An "umbilical cable" near the nose of the missile connects the onboard electronic control system to the aircraft's computer system. When the pilot gets the plane in position -- ideally, behind the enemy -- he or she activates the fire control. The aircraft computer sends a command to the missile control system to activate the Mk 36 rocket motor and release the missile. The rocket motor burns up solid propellant material to generate a high-pressure gas that streams out the back of the missile (the motor uses special low-smoke propellant material to help hide the missile from the enemy). This provides the initial thrust necessary to get the missile off the launcher and push it through the air at supersonic speeds (the current model flies at about Mach 2.5). Once the propellant has burned up, the missile glides the rest of the way to its target.
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Sidewinder Missile
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Photo courtesy U.S. Navy A Sidewinder launches from an F/A-18 Hornet. Each of the four rear wings, which provide the necessary lift to keep the missile flying, is outfitted with a simple stabilizing device called a rolleron. Basically, a rolleron is a metal wheel with notches cut into it. As the missile speeds through the air, the air current spins the rolleron like a pinwheel.
Photo courtesy U.S. Department of Defense The rollerons on the rear wings help stabilize the missile in flight. www.seminarsonly.com
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Sidewinder Missile
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If you've read How Gyroscopes Work, you know that a spinning wheel resists lateral forces acting on it. In this case, the gyroscopic motion counteracts the missile's tendency to roll -- to rotate about its central axis. The simple, cheap rollerons steady the missile as it zips through the air, which keeps the seeker assembly from spinning at top speed. This makes it a lot easier to track the target, as we'll see in the next section.
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Sidewinder Missile
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TRACKING: INFRARED The Sidewinder seeker is something like the CCD in a video camera. It has an array of sensors that generate an electrical signal when exposed to the infrared light given off by hot objects. Since it only sees things in terms of "very hot" and "not very hot," the infrared system is much simpler than a visible-light detection system (an ordinary video camera). Additionally, infrared seekers don't need an outside light source, so they work perfectly well night or day.
Photo courtesy U.S. Department of Defense The Sidewinder's seeker head assembly and flight fins
In the current Sidewinder models, the infrared sensor array is coupled with a conical scanning system. The basic idea of a conical scanning system is to continually move the feed horn -- the assembly of www.seminarsonly.com
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Sidewinder Missile
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lenses and mirrors that directs light to the sensor -- around in a small circle (to visualize this, imagine holding the eraser end of a pencil steady in one hand while moving the pointed end around in a circle). As a whole, the moving feedhorn scans a large section of the sky. The guidance control system figures out where the target is based on fluctuations in the detected infrared light as the feed horn moves around the circle. If the target is to the left of the missile, for example, the sensor will detect greater infrared light when the feed horn is aimed to the left than when it is aimed to the right.
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Sidewinder Missile
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TRACKING: GUIDANCE CONTROL SYSTEM The guidance control system's main goal is to keep the infrared image of the enemy aircraft roughly centered so that the missile nose continues to point toward the target. If the infrared image moves off center, the control system sends a signal to the servo assembly. The servo assembly includes a gas generator that feeds high-pressure gas to pneumatic pistons. The pistons are connected to rocker arms, which move the fins back and forth. The command signal from guidance control activates electric solenoids, which open and close valves leading to these pistons in order to tilt the fins from side to side To compensate for the target's own motion, the control system uses a strategy called proportional navigation. The basic idea of this approach is to over-compensate course corrections. The control system evaluates how far off center the target is, and adjusts its angle of flight proportionally, based on a multiplier. If the multiplier were 2, for example, and the missile were 10 degrees off course, the missile would change its flight direction by 20 degrees. Then, a tenth of a second later it would re-evaluate its heading, and adjust the fins again. By over-correcting in this way, the control system anticipates the path of the moving target, in much the same way a quarterback throws a ball just ahead of a running receiver, anticipating where the receiver will be when the ball actually arrives.
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Sidewinder Missile
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INFLICTING DAMAGE: OPTICAL TARGET DETECTOR The Sidewinder isn't designed to go off when it actually hits the target; it's designed to go off when it gets very close to the target. The missile control system uses an ingenious optical target detector to figure out when it's within range. The detector consists of eight laser-emitter diodes and eight lightsensor diodes arranged around the outside of the missile airframe, just behind the flight fins. When the Sidewinder is in flight, the detector is constantly emitting laser beams in a spoke pattern around the missile. If the missile gets close enough to the target, the laser beams will reflect off the aircraft body and bounce back to the sensor diodes. The control system recognizes that the missile is right next to the target and triggers the warhead.
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Sidewinder Missile
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INFLICTING DAMAGE: WDU-17/B WARHEAD The current Sidewinder, as well as its replacement, the AIM-9X, carries the 20-pound (9-kg) WDU-17/B warhead. The WDU-17/B consists of a case assembly, a good amount of PBXN-3 high explosive, booster plates, an initiator device and nearly 200 titanium fragmentation rods. When the target detector senses the enemy aircraft, it activates the fuze mechanism, which sends an explosive charge through the initiator (a train of low-explosive material) to the booster plates. The explosive charge from the initiator ignites low-explosive material in the booster plate channels, which ignites explosive pellets surrounding the high-explosive material. The pellets ignite the high explosive, causing it to release a huge amount of hot gas in a short amount of time. The powerful explosive force from this expanding gas blasts the titanium rods outward, breaking them apart to form thousands of metal pieces, all zipping through the air at top speed. If the warhead goes off within range of the target, the speeding titanium fragments will break apart the enemy aircraft's fuselage. In some cases, the missile may go right up the target's tailpipe, demolishing the aircraft from the inside. The WDU17/B is referred to as an annular blast fragmentation warhead because the explosive force carries the metal fragments outward in all directions, in an annular, or ring-shaped, pattern.
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Sidewinder Missile
Seminar Report
ADVANTAGES Low cost of development and ownership compared to other missiles. Superior performance exceeds tactical requirement. The sidewinder missiles are one such missiles which was the heat sensing technology. The sidewinder missiles are the leader in advanced infrared missiles and weapon systems.
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Sidewinder Missile
Seminar Report
CONCLUSION The technology of smart weapons really got going in the decade following World War II. Most early guided weapon prototypes were built around radar technology, which proved to be expensive and problematic. The Sidewinder AIM-9 is classified as a short-range, air-to-air missile. Simply put, its job is to launch from an airborne aircraft and "kill" an enemy aircraft .Missiles like the Sidewinder are called smart weapons because they have built-in seeking systems that let them home in on a target.
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Sidewinder Missile
Seminar Report
REFERENCE WWW.HOWSTUFFWORKS.COM. NASA QUEST. MIT PRESS JOURNALS. THE BUSINESS JOURNAL PHOENIX. AMERICAN CITY BUSINESS JOURNAL. www.seminarsonly.com
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Sidewinder Missile
Seminar Report
ABSTRACT In the present age, a large effort is being made to prevent wars. But the lion’s share of any countries budget is devoted to defence various powerful weapons are used for eliminating the enemy planes, bunkers and tankers. Of this, the most commonly used and effective weapons are missiles. Unlike the old conventional missiles using radar technology which is expensive and problematic, a high level research and testing are going on for improving the accuracy and efficiency of weapons, maximum stress is given to prevent the failure keeping this in mind, an ingenious idea that came up was HEAT SEEKING MIISSILES. Side winder missiles are one such missile which was the heat sensing technology. This seminar will provide an overview of the specification working, parts and advantages of side winder missiles.
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Sidewinder Missile
Seminar Report
CONTENTS INTRODUCTION SMART WEAPONS HEAT SENSING THE COMPONENTS SIDEWINDER STATS (FOR THE AIM-9M) THE SYSTEM TRACKING: INFRARED TRACKING: GUIDANCE CONTROL SYSTEM INFLICTING DAMAGE: OPTICAL TARGET DETECTOR INFLICTING DAMAGE: WDU-17/B WARHEAD ADVANTAGES CONCLUSION REFERENCE
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