Russian air defense missile system. The current state of the Russian air defense system. The history of the emergence of air defense forces in Russia

Air defense is a set of steps and b / actions of troops to combat enemy air attack means in order to avert (reduce) losses among the population, damage to objects and military groups from air strikes. To repel (disrupt) attacks (strike) of an air enemy, air defense systems are formed.

The full air defense complex covers systems:

• Reconnaissance of an air enemy, notification actions about him by troops;
• Fighter Air Force Screening;
• Anti-aircraft missile and artillery barrier;
• EW organizations;
• masking;
• Managerial, etc.

Air defense happens:

• Zonal - to protect individual areas within which cover objects are located;
• Zonal-objective - for combining zonal air defense with a direct barrier of especially important objects;
• Object - for the defense of individual especially important objects.

The world experience of wars has turned air defense into one of the most important components in combined arms combat. In August 1958, the air defense troops of the ground forces were formed, and later the military air defense of the RF Armed Forces was organized from them.

Until the end of the fifties, the air defense of the SV were equipped with anti-aircraft artillery systems of that time, as well as specially designed transportable anti-aircraft missile systems. Along with this, in order to reliably cover the troops in combat operations of a mobile form, it was necessary to have highly mobile and highly effective air defense systems, due to the increase in the b / capabilities of air attack weapons.

Along with the fight against tactical aviation, the air defense forces of the ground forces also hit combat helicopters, unmanned and remotely piloted aircraft, cruise missiles, as well as enemy strategic aviation.

In the mid-seventies, the organization of the first generation of anti-aircraft missile weapons of the air defense forces was completed. The troops received the latest air defense missiles and the famous Krugi, Kuba, Wasp-AK, Strela-1 and 2, Shilka, new radars and many other state-of-the-art equipment at that time. The formed anti-aircraft missile systems easily hit almost all aerodynamic targets, so they took part in local wars and armed conflicts.

By that time, the latest means of air attacks were already rapidly developing and improving. These were tactical, operational-tactical, strategic ballistic missiles and high-precision weapons. Unfortunately, the weapons systems of the first generation of the air defense forces did not provide solutions to the tasks of covering military groups from attacks with these weapons.

There was a need to develop and apply systematic approaches to the argumentation of the classification and properties of weapons of the second generation. It was necessary to create weapons systems balanced in terms of classifications and types of objects to be struck and a list of air defense systems, combined into a single control system, equipped with radar reconnaissance, communications and technical equipment. And such weapons systems were created. In the eighties, the air defense forces were fully provided with S-300V, Tors, Bukami-M1, Strelami-10M2, Tunguska, Needles and the latest radars.

Changes have taken place in anti-aircraft missile and anti-aircraft missile and artillery units, units and formations. They have become integral components in combined arms formations from battalions to front-line formations and have become a unified air defense system in military districts. This increased the effectiveness of combat applications in the groupings of air defense forces of military districts and ensured the power of fire action against the enemy with a high density of fire from anti-aircraft guns, layered at altitudes and at ranges.

In the late nineties, in order to improve command, in the Air Defense Forces of the Ground Forces, formations, military units and air defense units of the Coast Guard of the Navy, military units and air defense units of the Airborne Forces, in the formations and military units of the Air Defense Reserve of the Supreme Commander-in-Chief, changes took place. They were united in the military air defense of the Armed Forces of the Russian Federation.

Military air defense missions

Formations and units of military air defense carry out the tasks entrusted to them for interaction with the forces and means of the Armed Forces and the Navy.

The following tasks are assigned to military air defense:

In peacetime:

• Measures to maintain the air defense forces of military districts, formations, units and subunits of the Air Defense of the Coast Guard of the Navy, units and subunits of the air defense of the Airborne Forces in combat readiness for advanced deployments and reflections, together with the forces and means of air defense of the types of the RF Armed Forces attacks by means of air attacks;
• Carrying out second-hand duty within the zone of operation of military districts and in the general air defense systems of the state;
• The sequence of building up combat strengths in air defense formations and units that perform tasks on combat duty when the highest degrees of b / readiness are introduced.

In wartime:

• Measures for complex, echeloned in depth cover from attacks by means of air attacks by the enemy on groupings of troops, military districts (fronts) and military facilities throughout the depth of their operational formations, while interacting with air defense forces and means and other types and branches of the Armed Forces of the Armed Forces;
• Measures for direct cover, which include combined arms formations and formations, as well as formations, units and subunits of the Coast Guard of the Navy, formations and units of the Airborne Forces, rocket troops and artillery in the form of groupings, aviation airfields, command posts, the most important rear facilities in areas of concentration, when advancing, occupying the indicated zones and during operations (b / actions).

Directions for the improvement and development of military air defense

Today, the air defense troops of the SV are the main and most numerous component of the military air defense of the RF Armed Forces. They are united by a harmonious hierarchical structure with the inclusion of front-line, army (corps) complexes of air defense forces, as well as air defense units, motorized rifle (tank) divisions, motorized rifle brigades, air defense units, motorized rifle and tank regiments, battalions.

Air defense forces in military districts have air defense formations, units and subunits, which have at their disposal anti-aircraft missile systems / complexes of various purposes and potentials.

They are connected by reconnaissance and information complexes and control complexes. This makes it possible, under certain circumstances, to form effective multifunctional air defense systems. Until now, the weapons of the Russian military air defense are among the best on the planet.

The most important areas in the improvement and development of military air defense in total include:

• Optimization of organizational and staff structures in the governing bodies, formations and air defense units, in accordance with the assigned tasks;
• Modernization in anti-aircraft missile systems and complexes, intelligence equipment in order to extend the terms of operation and their integration into a single air defense system in the state and in the Armed Forces, endowing them with the functions of non-strategic anti-missile weapons in theaters of military operations;
• Development and maintenance of a unified technical policy to reduce the types of weapons, military equipment, their unification and avoidance of duplication in development;
• Provision of advanced air defense weapons systems with the latest means of automation of control, communications, active, passive and other non-traditional types of intelligence activities, multifunctional anti-aircraft missile systems and new generation air defense systems using the criteria of "efficiency - cost - feasibility";
• Conducting a complex of collective used training of military air defense with other troops, taking into account the upcoming combat missions and the characteristics of the areas of deployment, while concentrating the main efforts in the preparation of formations, units and subunits of high-readiness air defense;
• Formation, provision and training of reserves for a flexible response to changing circumstances, strengthening of air defense force groupings, replenishment of losses of personnel, weapons and military equipment;
• Improving the training of officers in the structure of the military training system, increasing the level of their fundamental (basic) knowledge and practical training and consistency in the transition to continuous military education.

It is planned that in the near future the aerospace defense system will occupy one of the leading directions in the strategic defense of the state and in the Armed Forces, it will become one of the components, and in the future it will become almost the main deterrent in unleashing wars.

Air defense systems are one of the fundamental in the aerospace defense system. To date, military air defense units are able to effectively resolve the tasks of anti-aircraft and, to some extent, non-strategic anti-missile defensive measures in groupings of troops along operational-strategic directions. As practice shows, in tactical exercises using live fire, all available means of Russian military air defense are able to hit cruise missiles.

Air defense in the air defense system of the state and in its Armed Forces tend to grow in proportion to the increase in the threat of air attacks. When resolving the tasks of the aerospace defense, it will be necessary to coordinate the general use of the various types of air defense forces and missile and space defense in operational-strategic areas as the most effective than separate. This will happen as a result of the possibility of combining force with the advantages of various types of weapons and mutual compensation for their shortcomings and weaknesses with a single plan and under one command.

Improving air defense systems is impossible without further modernization of existing weapons, re-equipment of air defense forces in military districts with the most modern air defense systems and air defense systems, with the supply of the latest automated control and communication systems.

The main direction in the development of Russian air defense systems today is:

• Continue development work to create highly effective weapons that will have quality indicators that could not be surpassed by foreign counterparts for 10-15 years;
• To create a promising multifunctional system of armaments of military air defense. This will give impetus to create a flexible organizational and staffing structure for the performance of specific b/tasks. Such a system must be integrated with the main weapons of the ground forces, and act in an integrated manner with other types of troops in the course of solving air defense tasks;
• Introduce automated control systems with robotics and artificial intelligence to reflect further build-up of enemy capabilities and increase the effectiveness of non-use applications by air defense forces;
• Provide models of air defense weapons with electron-optical devices, television systems, thermal imagers in order to ensure the combat capability of air defense systems and air defense systems in conditions of intense interference, which will make it possible to minimize the dependence of air defense systems on the weather;
• Widely apply passive location and electronic warfare equipment;
• Reorient the concept of the prospects for the development of weapons and military equipment for air defense, carry out a radical modernization of existing weapons and military equipment in order to significantly increase the effectiveness of combat use at low costs.

Air Defense Day

Air Defense Day is a memorable day in the RF Armed Forces. It is celebrated every year, every second Sunday in April, in accordance with the Decree of the Russian President of May 31, 2006.

For the first time this holiday was determined by the Presidium of the Supreme Soviet of the USSR in the Decree of February 20, 1975. It was established for the outstanding merits that the air defense forces of the Soviet state showed during the Second World War, as well as for the fact that they carried out especially important tasks in peacetime. It was originally celebrated on April 11, but in October 1980 Air Defense Day was moved to be celebrated every second Sunday in April.

The history of establishing the date of the holiday is connected with the fact that, in fact, in April, the most important government decrees on the organization of the air defense of the state were adopted, which became the basis for the construction of air defense systems, determined the organizational structure of the troops included in it, their formation and further development.

In conclusion, it is worth noting that as the threat of air attacks increases, the role and importance of military air defense will only increase, which has already been confirmed by time.

If you have any questions - leave them in the comments below the article. We or our visitors will be happy to answer them.

To write this article, I was largely inspired by the excessive jingoistic moods of a significant part of the visitors of the Military Review website, which I respect, as well as the cunning of the domestic media, which regularly publish materials about the strengthening of our military power, unprecedented since Soviet times, including the Air Force and Air Defense.

For example, in a number of media outlets, including on "VO", in the section "" not so long ago an article was published entitled: "Two air defense divisions began to protect the airspace of Siberia, the Urals and the Volga region."

In which it is said: “The assistant commander of the troops of the Central Military District, Colonel Yaroslav Roshchupkin, said that two divisions of air defense took up combat duty, starting to protect the airspace of Siberia, the Urals and the Volga region.

“The duty forces of two divisions of air defense took up combat duty to cover administrative, industrial and military facilities in the Volga region, the Urals and Siberia. New formations were formed on the basis of the Novosibirsk and Samara aerospace defense brigades, ”RIA Novosti quotes him as saying.

Combat crews equipped with S-300PS anti-aircraft missile systems will cover the airspace over the territory of 29 constituent entities of the Russian Federation, which are included in the area of ​​​​responsibility of the Central Military District.

After such news, an inexperienced reader may get the impression that our air defense anti-aircraft missile units have received qualitative and quantitative reinforcement with new anti-aircraft systems.

In practice, in this case, no quantitative, much less qualitative strengthening of our air defense has happened. It all comes down to just changing the organizational structure. New equipment did not enter the troops.

The S-300PS anti-aircraft missile system mentioned in the publication, with all its advantages, cannot be considered new in any way.

S-300PS with 5V55R missiles was put into service back in 1983. That is, more than 30 years have passed since the adoption of this system. But at present, in the anti-aircraft missile units of air defense, more than half of the long-range S-300P air defense systems belong to this modification.

In the near future (two or three years), most of the S-300PS will either have to be written off or overhauled. However, it is not known which option is economically preferable, the modernization of old or the construction of new anti-aircraft systems.

The earlier towed version of the S-300PT has either been decommissioned or transferred "for storage" without any chance of returning to the troops.

The most "fresh" complex from the "three hundredth" S-300PM family was delivered to the Russian army in the mid-90s. Most of the anti-aircraft missiles currently in service were produced at the same time.

The new, widely advertised S-400 anti-aircraft missile system has just begun to enter service. In total, as of 2014, 10 regimental kits were delivered to the troops. Taking into account the upcoming mass write-off of military equipment that has exhausted its resource, this amount is absolutely not enough.

Of course, experts, of whom there are many on the site, can reasonably object that the S-400 is significantly superior in its capabilities to the systems it is replacing. However, one should not forget that the means of air attack of the main "potential partner" are constantly being improved qualitatively. In addition, as follows from "open sources", mass production of promising 9M96E and 9M96E2 missiles and 40N6E ultra-long-range missiles has not yet been established. Currently, the S-400 uses 48N6E, 48N6E2, 48N6E3 SAM S-300PM missiles, as well as 48N6DM missiles modified for the S-400.

In total, according to "open sources", in our country there are about 1500 launchers of the S-300 family of air defense systems - this, apparently, taking into account the air defense units of the ground forces that are "in storage" and in service.

Today, Russian air defense forces (those that are part of the Air Force and Air Defense) have 34 regiments with S-300PS, S-300PM and S-400 air defense systems. In addition, not so long ago, several anti-aircraft missile brigades, converted into regiments, were transferred to the Air Force and Air Defense from the air defense of the ground forces - two 2-divisional S-300V and Buk brigades and one mixed (two S-300V divisions , one Buk division). Thus, in the troops we have 38 regiments, including 105 divisions.

However, these forces are distributed extremely unevenly throughout the country, Moscow is best protected, around which there are ten regiments of S-300P air defense systems (two of them have two S-400 divisions each).

Satellite image of Google Earth. The layout of the positions of air defense systems around Moscow. Colored triangles and squares - positions and areas of basing of active air defense systems, blue rhombuses and circles - surveillance radars, white ones - currently liquidated air defense systems and radars

The northern capital, St. Petersburg, is well covered. The sky above it is protected by two regiments of S-300PS and two regiments of S-300PM.

Satellite image of Google Earth. Scheme of placement of air defense systems around St. Petersburg

The bases of the Northern Fleet in Murmansk, Severomorsk and Polyarny are covered by three S-300PS and S-300PM regiments, at the Pacific Fleet in the Vladivostok and Nakhodka regions - two S-300PS regiments, and the Nakhodka regiment received two S-400 divisions. Avacha Bay in Kamchatka, where SSBNs are based, is covered by one S-300PS regiment.

Satellite image of Google Earth. ZRS S-400 in the vicinity of Nakhodka

The Kaliningrad region and the BF base in Baltiysk are protected from air attack by the S-300PS/S-400 mixed regiment.

Satellite image of Google Earth. S-400 air defense system in the Kaliningrad region at the former positions of the S-200 air defense system

Recently, there has been an increase in the anti-aircraft cover of the Black Sea Fleet. Prior to the well-known events related to Ukraine, a mixed regiment with S-300PM and S-400 divisions was deployed in the Novorossiysk region.

At present, there is a significant strengthening of the air defense of the main naval base of the Black Sea Fleet - Sevastopol. It is reported that in November the peninsula's air defense group was replenished with S-300PM air defense systems. Taking into account the fact that complexes of this type are currently not produced by industry for their own needs, most likely they were transferred from another region of the country.

In terms of air defense cover, the central region of our country resembles a "patchwork quilt" in which there are more holes than patches. There is one S-300PS regiment each in the Novgorod region, near Voronezh, Samara and Saratov. The Rostov region is covered by one regiment of S-300PM and Buk.

In the Urals, near Yekaterinburg, there are positions of an anti-aircraft missile regiment armed with S-300PS. Beyond the Urals, in Siberia, only three regiments are deployed on a gigantic territory, one S-300PS regiment each near Novosibirsk, in Irkutsk and Achinsk. In Buryatia, not far from the Dzhida station, one regiment of the Buk air defense system is deployed.

Satellite image of Google Earth. ZRS S-300PS near Irkutsk

In addition to anti-aircraft systems protecting the fleet bases in Primorye and Kamchatka, in the Far East there are two more S-300PS regiments covering Khabarovsk (Knyaz-Volkonskoye) and Komsomolsk-on-Amur (Lian), respectively, one S-300PS regiment is deployed in the vicinity of Birobidzhan. 300V.

That is, the entire vast Far Eastern Federal District is protected by: one regiment of mixed S-300PS / S-400, four regiments of S-300PS, one regiment of S-300V. This is all that remains of the once powerful 11th Air Defense Army.

The "holes" between the air defense facilities in the east of the country are several thousand kilometers long, anyone and anything can fly into them. However, not only in Siberia and the Far East, but throughout the country, a huge number of critical industrial and infrastructure facilities are not covered by any air defense systems.

In a significant part of the country's territory, nuclear and hydroelectric power plants remain unprotected, air strikes on which can lead to catastrophic consequences. Vulnerability from air attack means of deployment of Russian strategic nuclear forces provokes “potential partners” to attempt a “disarming strike” with high-precision means of destroying non-nuclear equipment.

In addition, long-range anti-aircraft systems themselves need protection. They need to be covered from the air with short-range air defense systems. Today, regiments with the S-400 receive the Pantsir-S air defense missile systems for this (2 per division), but the S-300P and B are not covered by anything, except, of course, for effective protection of anti-aircraft machine gun installations of 12.7 mm caliber.

"Pantsir-S"

The situation with the lighting of the air situation is no better. This should be done by radio engineering troops, their functional duty is to issue early information about the beginning of an enemy air attack, provide target designation for anti-aircraft missile forces and air defense aviation, as well as information for controlling air defense formations, units and subunits.

During the years of “reforms”, the continuous radar field formed during the Soviet era was partially, and in some places completely lost.
At present, there is practically no possibility of controlling the air situation over the polar latitudes.

Until recently, our political and former military leadership appears to have been preoccupied with other more pressing issues, such as downsizing the military and selling off "surplus" military property and real estate.

Only recently, at the end of 2014, the Minister of Defense, General of the Army Sergei Shoigu, announced measures that should help correct the existing situation in this area.

As part of the expansion of our military presence in the Arctic, it is planned to build and reconstruct existing facilities on the New Siberian Islands and Franz Josef Land, reconstruct airfields and deploy modern radar stations in Tiksi, Naryan-Mar, Alykel, Vorkuta, Anadyr and Rogachevo. The creation of a continuous radar field over the territory of Russia should be completed by 2018. At the same time, it is planned to upgrade radar stations and data processing and transmission facilities by 30%.

Separate mention deserves fighter aviation, designed to deal with enemy air attack weapons and carry out tasks to gain air superiority. Currently, the Russian Air Force formally has (taking into account those in "storage") about 900 fighters, of which: Su-27 of all modifications - more than 300, Su-30 of all modifications - about 50, Su-35S - 34, MiG -29 of all modifications - about 250, MiG-31 of all modifications - about 250.

It should be borne in mind that a significant part of the Russian fighter fleet is only nominally in the Air Force. Many aircraft produced in the late 80s and early 90s require major repairs and modernization. In addition, due to problems with the supply of spare parts and the replacement of failed avionics units, some of the upgraded fighters are in fact, as the aviators put it, "doves of peace." They can still take to the air, but they can no longer fully complete a combat mission.

The past year 2014 was notable for the volumes of deliveries of aviation equipment to the Russian armed forces that were unprecedented since the times of the USSR.

In 2014, our Air Force received 24 Su-35S multifunctional fighters manufactured by the Yu.A. Gagarin in Komsomolsk-on-Amur (branch of Sukhoi Company OJSC):

Twenty of them became part of the reconstructed 23rd Fighter Aviation Regiment of the 303rd Guards Mixed Aviation Division of the 3rd Air Force and Air Defense Command of Russia at the Dzemgi airfield (Khabarovsk Territory), which is joint with the plant.

All these fighters were built under a contract dated August 2009 with the Russian Ministry of Defense for the construction of 48 Su-35S fighters. Thus, the total number of vehicles manufactured under this contract by the beginning of 2015 reached 34.

The production of Su-30SM fighters for the Russian Air Force is carried out by the Irkut Corporation under two contracts for 30 aircraft each, concluded with the Russian Ministry of Defense in March and December 2012. After the delivery of 18 vehicles in 2014, the total number of Su-30SMs delivered to the Russian Air Force reached 34 units.

Eight more Su-30M2 fighters were produced by the Yu.A. Gagarin in Komsomolsk-on-Amur.

Three fighters of this type entered the newly formed 38th Fighter Aviation Regiment of the 27th Mixed Aviation Division of the 4th Air Force and Air Defense Command of Russia at the Belbek airfield (Crimea).

The Su-30M2 aircraft were built under a contract dated December 2012 for the supply of 16 Su-30M2 fighters, bringing the total number of aircraft built under this contract to 12, and the total number of Su-30M2 in the Russian Air Force to 16.

However, this significant amount by today's standards is absolutely not enough to replace in the fighter regiments written off due to the complete physical deterioration of the aircraft.

Even if the current pace of deliveries of aircraft to the troops is maintained, according to forecasts, in five years the fighter fleet of the Russian Air Force will be reduced to about 600 aircraft.

During the next five years, about 400 Russian fighters will probably be written off - up to 40% of the current payroll.

This is primarily due to the upcoming decommissioning of the old-built MiG-29s (about 200 units) in the very near future. Due to problems with the airframe, about 100 aircraft have already been rejected.

The non-modernized Su-27s, whose flight life is ending in the near future, will also be decommissioned. The number of MiG-31 interceptors will be reduced by more than half. As part of the Air Force, it is planned to leave 30-40 MiG-31s ​​in DZ and BS modifications, another 60 MiG-31s ​​will be upgraded to the BM version. The remaining MiG-31s ​​(about 150 units) are planned to be written off.

Partially, the shortage of long-range interceptors should be resolved after the start of mass deliveries of the PAK FA. It was announced that it is planned to purchase up to 60 PAK FA units by 2020, but so far these are only plans that are likely to undergo significant adjustments.

The Russian Air Force has 15 AWACS A-50 aircraft (another 4 are in “storage”), recently they were supplemented by 3 modernized A-50U.
The first A-50U was delivered to the Russian Air Force in 2011.

As a result of the work carried out as part of the modernization, the functionality of the airborne early warning and control complex has significantly increased. The number of simultaneously tracked targets and simultaneously guided fighters has been increased, the detection range of various aircraft has been increased.

The A-50 should be replaced by the A-100 AWACS aircraft based on the Il-76MD-90A with the PS-90A-76 engine. The antenna complex is built on the basis of an antenna with an active phased array.

At the end of November 2014 TANTK them. G. M. Beriev received the first Il-76MD-90A aircraft for conversion into A-100 AWACS aircraft. Deliveries to the Russian Air Force are scheduled to begin in 2016.

All domestic AWACS aircraft are based on a permanent basis in the European part of the country. Beyond the Urals, they appear quite rarely, for the most part during large-scale exercises.

Unfortunately, loud statements from high tribunes about the revival of our Air Force and Air Defense often have little in common with reality. Absolute irresponsibility for the promises made by high-ranking civil and military officials has become an unpleasant tradition in the “new” Russia.

As part of the state armaments program, it was supposed to have twenty-eight 2-divisional S-400 regiments and up to ten divisions of the latest S-500 air defense system (the latter should perform tasks not only for air defense and tactical missile defense, but also for strategic missile defense) by 2020. Now there is no doubt that these plans will be thwarted. The same fully applies to plans for the production of PAK FA.

However, no one, as usual, will be seriously punished for disrupting the state program. After all, we “do not hand over our own”, and “we are not in our 37th year”, right?

P. S. All the information provided in the article regarding the Russian Air Force and Air Defense is taken from open public sources, the list of which is given. The same applies to possible inaccuracies and errors.

Sources of information:
http://rbase.new-factoria.ru
http://bmpd.livejournal.com
http://geimint.blogspot.ru
Satellite imagery courtesy of Google Earth

1. Introduction

The purpose of this work is to study the history of the development of air defense forces in the USSR and Russia in the period from the 50s of the XX century to the present. The relevance of the topic is emphasized by the fact that as a result of modern scientific and technological progress, military science is increasingly paying attention to technologies related to air defense in order to reliably protect Russia's air borders and counter the "global" attack planned by NATO.

Unfortunately, along with brilliant ideas that make life easier for a person and give him new opportunities, there are ideas no less brilliant, but representing a destructive force and a threat to humanity. A number of states now have a multitude of space satellites, aircraft, intercontinental ballistic missiles, and nuclear warheads.

With the advent of new military technologies and formidable forces, forces opposing them always arise on their basis, as a result, new means of air defense (air defense) and anti-missile defense (ABM) appear.

We are interested in the development and experience of using the first air defense systems, starting from the s-25 (adopted into service in 1955), to new modern systems. Also of interest are the possibilities of other countries in the development and use of air defense systems, and the general prospects for the development of air defense systems. We set the main task in determining how Russia is protected from potential military threats from the air. Air superiority and long-range strikes have always been the focus of the opposing sides in any conflict, even a potential one. It is important for us to understand the capabilities of our country in ensuring air security, because the presence of powerful and modern air defense systems guarantees security not only for us, but for the whole world. The weapons of deterrence in the 21st century are by no means limited to the nuclear shield.

2. The history of the emergence of air defense forces

The phrase comes to mind: "A wise man prepares for war in peacetime" - Horace.

Everything in our world appears for some reason and with a specific purpose. The emergence of air defense forces is no exception. Their formation was due to the fact that in many countries the first aircraft and military aviation began to appear. At the same time, the development of weapons to combat the enemy in the air began.

In 1914, the very first air defense weapon, a submachine gun, was manufactured at the Putilov factory in St. Petersburg. It was used in the defense of Petrograd against German air raids during the First World War at the end of 1914.

Each state strives to win the war and Germany is no exception, its new JU 88 V-5 bombers from September 1939 began to fly at altitudes reaching 5000 meters, which brought them out of the reach of the first air defense guns, which required modernization of weapons and new ideas for its development.

It should be noted that the arms race in the 20th century was a powerful engine for the development of weapons systems and military equipment. During the Cold War, the first anti-aircraft missile stations (SAM) and anti-aircraft missile systems (SAM) were developed. In our country, a great contribution to the creation and development of new air defense systems was made by the design engineer Veniamin Pavlovich Efremov, who took part in the development of the S-25Yu radar system, where he showed his talent. He took part in the development of the Tor, S-300V, Buk air defense systems and all their subsequent upgrades.

3. S-25 "Berkut"

3.1 History of creation

After the Second World War, military aviation switched to the use of jet engines, flight speeds and altitudes increased significantly, outdated anti-aircraft artillery could no longer provide reliable cover in the air, and their combat effectiveness was significantly reduced. So there was a need for new air defense systems.

On August 9, 1950, a resolution was adopted by the Council of Ministers of the USSR on the creation of an air defense missile system controlled by a radar network. Organizational work on this issue was entrusted to the Third Main Directorate under the Council of Ministers of the USSR, personally supervised by L.P. Beria.

The development of the Berkut system was carried out by KB-1 (design bureau), and now OJSC GSKB of the Almaz-Antey Air Defense Concern, headed by K.M. Gerasimov, Deputy Minister of Arms of the USSR and son of L.P. Beria - S.L .Beria, who was the chief designer together with P.N. Kuksenko. At the same time, V-300 missiles were developed for this complex.

According to the plan of the military strategists of the USSR, it was supposed to place two rings of radar detection around Moscow at a distance of 25-30 and 200-250 km from the city. The Kama stations were to become the main control stations. The B-200 stations were also developed to control missile launches.

It was planned to include in the Berkut complex not only a missile resource, but also interceptor aircraft based on Tu-4 bombers. This plan was not carried out. "Berkut" after rigorous testing was adopted on May 7, 1955.

The main performance characteristics (TTX) of this system:

1) hitting a target with a speed of up to 1500 km / h;

2) target height 5-20 km;

3) distance to the target up to 35 km;

4) the number of hit targets - 20;

5) the shelf life of missiles in the warehouse is 2.5 years, on the launcher 6 months.

For the 50s of the twentieth century, this system was the most advanced, designed using the most advanced technologies. It was a real breakthrough! Not a single anti-aircraft missile system of that time had such broad capabilities for detecting and hitting targets. Multi-channel radar stations were a novelty, because. Until the end of the 1960s, there were no analogues of such systems in the world. The Soviet scientist, designer Efremov Veniamin Pavlovich participated in the development of radar stations.

However, such a perfect air defense system of that time had a colossal cost and high maintenance costs. It was advisable to use it only to cover especially important objects; it was not possible to cover the entire territory with it. The air defense plan provided for covering the area around Leningrad, but this project was not implemented due to its high cost.

Another disadvantage was that the Berkut had low mobility, which made it extremely vulnerable to an enemy nuclear strike. In addition, the system was designed to repel a large number of enemy bombers, and by that time the war strategy had changed and the bombers began to fly in small units, which significantly reduced the chances of their detection. It should also be noted that low-flying bombers and cruise missiles were able to bypass this defense system.

3.2 Goals, objectives and experience with the use of S-25

The S-25 complex was developed and put into service in order to protect strategically important objects from enemy aircraft and cruise missiles. According to the general plan, the ground elements of the complex were supposed to monitor the air target, process the received data and issue commands to the guided missile. It was supposed to start vertically and could hit a target at a distance of up to 70 meters from the place of its explosion (the error value of hitting the target).

At the end of July 1951, the first tests of the S-25 and the V-300 missile in particular began. Test runs consisted of several stages. The first 3 launches were to check the rocket at the start, check the characteristics, the time of dropping the gas rudders. The next 5 launches were carried out to test the missile control system. This time, only the second launch occurred without any failures. As a result, shortcomings in the rocket equipment and ground cables were revealed. The following months, until the end of 1951, test launches were carried out, which were crowned with some success, but the missiles still needed to be finalized.

In 1952, a series of launches were carried out aimed at testing various electronic equipment of the rocket. In 1953, after 10 series of launches, the rocket and other elements of the Berkut anti-aircraft missile system received a recommendation for mass production.

In the late spring of 1953, testing and measurement of the combat characteristics of the system began. The possibility of destroying Tu-4 and Il-28 aircraft was tested. The destruction of targets required from one to four missiles. The task was solved by two missiles, as it is established at the present time - 2 missiles are used simultaneously to completely destroy the target.

S-25 "Berkut" was used until the 60s of the twentieth century, after which it was modernized and became known as S-25M. New characteristics made it possible to destroy targets at a speed of 4200 km / h at altitudes from 1.5 to 30 km. The flight range was increased to 43 km, and the storage periods at the launcher and warehouse were increased to 5 and 15 years, respectively.

S-25M were in service with the USSR and protected the sky over Moscow and the Moscow region until the early 80s of the twentieth century. Subsequently, the missiles were replaced with more modern ones and decommissioned in 1988. The sky over our country, together with the S-25, was protected by the S-75 air defense systems, which were simpler, cheaper and had a sufficient degree of mobility.

3.3 Foreign analogues

In 1953, the United States adopted the MIM-3 Nike Ajax anti-aircraft missile system. The complex has been developed since 1946 as a means for the effective destruction of enemy aircraft. The radar system had one channel, unlike our multi-channel system, but was much cheaper and covered all cities and military bases. It consisted of two radars, one of which tracked the enemy target, and the second directed the missile at the target itself. The combat capabilities of the MIM-3 Nike Ajax and C-25 were approximately the same, although the American system was simpler and by the time the C-75 complexes appeared in our country, there were several hundred MIM-3 complexes in the USA.

4. C-75

4.1 History of creation and performance characteristics

On November 20, 1953, the design of a mobile anti-aircraft missile system began on the basis of Decree of the Council of Ministers of the USSR No. 2838/1201 "On the creation of a mobile system of anti-aircraft guided missile weapons to combat enemy aircraft." At that time, tests of the S-25 complex were in full swing, but due to its enormous cost and low mobility, the S-25 could not protect all important facilities and places of concentration of troops. The development was entrusted to the management of KB-1 under the leadership of A.A. Raspletin. At the same time, the OKB-2 department began work under the leadership of P.D. Grushin, who was engaged in the design of the S-75 using the existing developments on the S-25 complex, including those that were not implemented. The missile created for this complex was called the B-750. It was equipped with two stages - starting and marching, which gave the rocket a high initial speed during an inclined start. The SM-63 launchers and the PR-11 transport-loading vehicle were specially developed for it.

The complex was put into service in 1957. The characteristics of the S-75 allowed it to compete with its analogues from other states.

In total there were 3 modifications "Dvina", "Desna" and "Volkhov".

In the Desna variant, the target engagement range was 34 km, and in the Volkhov variant, up to 43 km.

Initially, the range of target engagement heights was from 3 to 22 km, but then in Desna it changed to a range of 0.5-30 km, and in Volkhov it became 0.4-30 km. The maximum speed of hitting targets reached 2300 km / h. In the future, these indicators were improved.

In the mid-70s, the complex began to be equipped with 9Sh33A television optical sights with an optical target tracking channel. This made it possible to guide the target and fire at it without the use of air defense radar systems in the radiation mode. And thanks to the "narrow" beam antennas, the minimum target engagement height was reduced to 100 meters, and the speed was increased to 3600 km / h.

Some of the missiles of the complex were equipped with a special nuclear warhead.

4.2 Goals, objectives and application experience.

The goals of creating the S-75 complex were to reduce the cost compared to the S-25, increase mobility so that it could protect the entire territory of our country. These goals have been achieved. In terms of its capabilities, the S-75 was not inferior to foreign counterparts and was supplied to many Warsaw Pact countries, to Algeria, Vietnam, Iran, Egypt, Iraq, Cuba, China, Libya, Yugoslavia, Syria and many others.

On October 7, 1959, for the first time in the history of air defense, a high-altitude reconnaissance aircraft, an American RB-57D aircraft belonging to the Taiwanese Air Force near Beijing, was shot down by an anti-aircraft guided missile of the S-75 complex. The reconnaissance flight altitude was 20,600 meters.

In the same year, on November 16, an S-75 shot down an American balloon near Stalingrad at an altitude of 28 km.

On May 1, 1960, an S-75 destroyed an American U-2 reconnaissance aircraft of the US Air Force over Sverdlovsk. However, on this day, a MiG-19 fighter of the USSR Air Force was also destroyed by mistake.

In the 60s, during the Caribbean crisis, a U-2 reconnaissance aircraft was also shot down. And then the Chinese Air Force shot down 5 US reconnaissance aircraft over its territory.

During the Vietnam War, according to the USSR Ministry of Defense, 1293 aircraft were destroyed by this complex, including 54 B-52 strategic bombers. But according to the Americans, the losses amounted to only 200 aircraft. In reality, the data of the USSR Ministry of Defense were somewhat overestimated, but in general the complex showed itself from the excellent side.

In addition, the S-75 complex participated in the 1969 Arab-Israeli conflict. During the 1973 Yom Kippur War in the Middle East. In these battles, the complex perfectly demonstrated that it is able to protect the territory and people from enemy attacks.

In the Persian Gulf in 1991, the S-75 was defeated and 38 units were destroyed by electronic warfare and cruise missiles. But the complex managed to shoot down a 4th generation F-15 fighter.

In the 21st century, many countries use this complex, for example, Azerbaijan, Angola, Armenia, Egypt, Iran, but it’s worth moving on to more modern ones, not forgetting to mention foreign counterparts.

4.3 Foreign analogues

To replace the MIM-3, the Americans adopted the MIM-14 Nike-Hercules in 1958.

It was the world's first long-range anti-aircraft missile system - up to 140 km with a strike height of 45 km. The missiles of the complex were designed not only to destroy enemy aircraft, but also to intercept ballistic missiles and destroy ground targets.

MIM-14 Nike-Hercules remained the most advanced until the advent of the Soviet S-200. The large radius of destruction and the presence of a nuclear warhead made it possible to hit all the planes and missiles on the planet at that time.

The MIM-14 is superior to the C-75 in some respects, but in terms of mobility, the MIM-14 Nike-Hercules inherited the low mobility ailment of the MIM-3, which is inferior to the C-75.

5. S-125 "Neva"

5.1 History of creation and performance characteristics

The first anti-aircraft missile systems, such as the S-25, S-75, and their foreign counterparts, did their job well - hitting high-speed high-flying targets that are inaccessible to cannon anti-aircraft artillery and difficult to destroy for fighters.

Due to the fact that previous anti-aircraft missile systems have shown that they are capable of carrying out combat duty and participating in hostilities, it is natural that it was decided to extend this type of weapon to the entire range of heights and speeds of potential threats.

At that time, the minimum height for hitting targets with the S-25 and S-75 complexes was 1-3 km, which fully met the requirements of the early 50s of the twentieth century. But given this trend, it was to be expected that aviation would soon switch to a new method of warfare - combat at low altitudes. Realizing this fact, KB-1 and its head A.A. Raspletin were tasked with creating a low-altitude air defense system. Work began in the autumn of 1955. The latest system was supposed to serve to intercept low-flying targets at altitudes from 100 to 5000 meters at speeds up to 1500 km / h. The range of hitting targets was relatively small - only 12 km. But the main requirement was the full mobility of the complex with all its missiles, radar stations for tracking, control, reconnaissance and communications. The developments were carried out taking into account transportation on an automobile basis, but transportation by rail, sea and air was also envisaged.

As with the S-75, the development of the S-125 used the experience of previous projects. The methods of searching, scanning and tracking the target were completely borrowed from the S-25 and S-75.

The big problem was the reflection of the antenna signal from the surface of the earth and its landscape. It was decided to place the antennas of the guidance stations at an angle, which gave a gradual increase in interference from reflection when tracking the target.

An innovation was the decision to create an automated missile launch system APP-125, which itself determined the boundary of the affected area and fired a missile due to the short time of enemy aircraft approach.

In the course of research and development, a special V-600P rocket was also developed - the first rocket designed according to the "duck" scheme, which provided the rocket with great maneuverability.

In the event of a miss, the rocket automatically went up and self-destructed.

The anti-aircraft missile regiments of the air defense of the USSR Armed Forces were equipped with SNR-125 guidance stations, guided missiles, transport-loading vehicles and interface cabins in 1961.

5.2

The S-125 "Neva" complex was designed to destroy low-flying enemy targets (100 - 5000 meters). Target recognition was provided at a distance of up to 110 km. The Neva had an automatic launch system. It is important to note that during the tests it was revealed that the probability of hitting a target without interference was 0.8-0.9, and the probability of hitting in passive interference was 0.49-0.88.

A large number of S-125s were sold abroad. The buyers were Egypt, Syria, Libya, Myanmar, Vietnam, Venezuela, Turkmenistan. The total cost of deliveries amounted to about $250 million. US dollars.

There were also various modifications of the S-125 for air defense (Neva), for the Navy (Volna) and Export (Pechora).

If we talk about the combat use of the complex, then in 1970 in Egypt, Soviet divisions destroyed 9 Israeli and 1 Egyptian aircraft with 35 missiles.

During the Yom Kippur War between Egypt and Israel, 21 aircraft were shot down by 174 rockets. And Syria shot down 33 aircraft with 131 missiles.

The real sensation was the moment when, on March 27, 1999, a Lockheed F-117 Nighthawk stealth tactical strike aircraft was shot down over Yugoslavia for the first time.

5.3 Foreign analogues

In 1960, the MIM-23 Hawk was adopted by the Americans. Initially, the complex was developed to destroy enemy aircraft, but was later upgraded to destroy missiles.

It was slightly better than our S-125 system in terms of its characteristics, as it could hit targets at altitudes from 60 to 11,000 meters at a distance of 2 to 25 km in its very first modifications. In the future, it was modernized many times until 1995. The Americans themselves did not use this complex in hostilities, but foreign states actively used it.

But, the practice is not so different. For example, during the October War of 1973, Israel fired 57 missiles from this complex, but none hit the target.

6. Z RK S-200

6.1 History of creation and performance characteristics

In the mid-1950s, in the context of the rapid development of supersonic aviation and thermonuclear weapons, it became necessary to create a long-range mobile anti-aircraft missile system that could solve the problem of intercepting a high-flying target. Given that the systems available at that time had a short range, it was very expensive to deploy them throughout the country for reliable protection against air strikes. Especially important was the organization of the defense of the northern territories, where there was the shortest distance of approach for American missiles and bombers. And if we take into account the fact that the northern regions of our country are poorly equipped with road infrastructure and the population density is extremely low, then a completely new air defense system was required.

According to the Government Decree of March 19, 1956 and May 8, 1957 No. 501 and No. 250, a large number of enterprises and workshops were involved in the development of a new long-range air defense system. The general designer of the system, as before, was A.A. Raspletin and P.D. Grushin.

The first sketch of the new B-860 missile was presented at the end of December 1959. Particular attention was paid to the protection of the internal structural elements of the rocket, since as a result of the flight of the rocket at hypersonic speed, the structures were heated.

The initial characteristics of the missile were far from those of foreign counterparts already in service, such as the MIM-14 Nike-Hercules. It was decided to increase the radius of destruction of supersonic targets up to 110-120 km, and subsonic - up to 160-180 km.

The new generation firing complex included: a command post, a radar for clarifying the situation, a digital computer and up to five firing channels. The firing channel of the firing complex included a half-light target radar, a starting position with six launchers, and power supply facilities.

This complex was put into service in 1967 and is currently in service.

The S-200 was produced in various modifications both for our country and for export to foreign countries.

The S-200 Angara was put into service in 1967. The maximum speed of the hit targets reached 1100 km/h, the number of simultaneously fired targets was 6. The height of the hit was from 0.5 to 20 km. Range of defeat from 17 to 180 km. The probability of hitting targets is 0.45-0.98.

S-200V "Vega" was put into service in 1970. The maximum speed of the hit targets reached 2300 km / h, the number of simultaneously fired targets was 6. The height of the hit was from 0.3 to 35 km. Range of defeat from 17 to 240 km. The probability of hitting targets is 0.66-0.99.

S-200D "Dubna" was put into service in 1975. The maximum speed of the hit targets reached 2300 km / h, the number of simultaneously fired targets was 6. The height of the hit was from 0.3 to 40 km. Range of defeat from 17 to 300 km. The probability of hitting targets is 0.72-0.99.

For a greater probability of hitting targets, the S-200 complex was combined with low-altitude S-125, from where the formations of anti-aircraft brigades of mixed composition came from.

By that time, long-range air defense systems were already well known in the West. US space intelligence facilities continuously recorded all stages of its deployment. According to American data, in 1970 the number of S-200 launchers was 1100, in 1975 - 1600, in 1980 -1900. The deployment of this system reached its peak in the mid-1980s, when the number of launchers amounted to 2030 units.

6.2 Goals, objectives and application experience

The S-200 was created as a long-range complex, its task was to cover the country's territory from enemy air strikes. A big plus was the increased range of the system, which made it economically possible to deploy it throughout the country.

It is worth noting that the S-200 was the first air defense system that was capable of the specific purpose of the Lockheed SR-71. For this reason, US reconnaissance aircraft have always flown only along the borders of the USSR and the Warsaw Pact countries.

The S-200 is also known for the tragic incident on October 4, 2001, when a civilian Tu-154 aircraft of Siberia Airlines was mistakenly shot down during exercises in Ukraine. Then 78 people died.

Speaking about the combat use of the complex, on December 6, 1983, the Syrian S-200 complex shot down two Israeli MQM-74 drones.

On March 24, 1986, the Libyan S-200 complex is believed to have shot down American attack aircraft, 2 of which were A-6Es.

The complexes were also in service in Libya in the recent conflict of 2011, but nothing is known about their use in it, except that after an air strike they were completely destroyed on the territory of Libya.

6.3 Foreign analogues

An interesting project was the Boeing CIM-10 Bomarc. This complex was developed from 1949 to 1957. It was put into service in 1959. Currently, it is considered the most long-range air defense system. The range of destruction of Bomarc-A was 450 km, and the modification of 1961 Bomarc-B was up to 800 km with a missile speed of almost 4000 km/h.

But, given that the USSR quickly grew its arsenal of strategic missiles, and this system could only hit aircraft and bombers, then in 1972 the system was withdrawn from service.

7. ZRK S-300

7.1 History of creation and performance characteristics

By the end of the 60s, the experience of using air defense systems in the wars in Vietnam and the Middle East showed that it was necessary to create a complex with the greatest mobility and a short transition time from marching and duty to combat and vice versa. The need is due to the rapid change of position before the arrival of enemy aircraft.

In the USSR at that time, the S-25, S-75, S-125 and S-200 were already in service. Progress did not stand still and it took a new weapon, more modern and versatile. Design work on the S-300 began in 1969. It was decided to create air defense for the ground forces S-300V ("Military"), S-300F ("Navy"), S-300P ("air defense of the country").

The chief designer of the S-300 was Veniamin Pavlovich Efremov. The system was developed taking into account the possibility of hitting ballistic and aerodynamic targets. The task of simultaneously tracking 6 targets and aiming 12 missiles at them was set and solved. For the first time, a system of full automation of the work of the complex was implemented. They included the tasks of detection, tracking, target distribution, target designation, target acquisition, its destruction and evaluation of the result. The crew (combat crew) was tasked with assessing the operation of the system and monitoring the launch of missiles. It was also assumed the possibility of manual intervention in the course of the combat system.

Serial production of the complex and testing began in 1975. By 1978, tests of the complex were completed. In 1979, the S-300P took up combat duty to protect the air borders of the USSR.

Important features are that the complex is capable of operating in various combinations within one modification, operating as part of a battery with various other combat units and systems.

In addition, it is permissible to use various means of camouflage, such as simulators of electromagnetic radiation in the infrared and radio ranges, camouflage nets.

The S-300 systems were widely used in the class of modifications. Separate modifications were developed for sale abroad. As can be seen in Figure No. 19, the S-300 was supplied abroad only for the fleet and air defense, as a means of protecting the Ground Forces, the complex remained only for our country. ​

All modifications are distinguished by various missiles, the ability to protect against electronic warfare, range and the ability to deal with short-range ballistic missiles or low-flying targets.

7.2 Main tasks, application and foreign analogues

The S-300 is designed to defend large industrial and administrative facilities, command posts, and military bases from attacks by enemy aerospace weapons.

According to official figures, the S-300 has never taken part in real hostilities. But, training launches are conducted in many countries.

Their results showed the high combat capability of the S-300.

The main tests of the complex were aimed at countering ballistic missiles. Aircraft were destroyed with just one missile, and two shots were enough to destroy missiles.

In 1995, a P-17 missile was shot down at the Kapustin Yar range during demonstration firing at the range. The training ground was attended by delegations from 11 countries. All targets were completely destroyed.

Speaking of foreign analogues, it is worth pointing out the famous American MIM-104 Patriot complex. It has been created since 1963. Its main task is to intercept enemy ballistic missiles, defeat aircraft at medium altitudes. It was put into service in 1982. This complex could not surpass the S-300. There were Patriot, Patriot PAC-1, Patriot PAC-2 complexes, which were put into service in 1982, 1986, 1987, respectively. Considering the performance characteristics of the Patriot PAC-2, we note that it could hit aerodynamic targets at ranges from 3 to 160 km, ballistic targets up to 20 km, altitude range from 60 meters to 24 km. The maximum target speed is 2200 m/s.

8. Modern air defense systems

8.1 Standing in service with the Russian Federation

The main topic of our work was the consideration of air defense systems of the "C" family, and we should start with the most modern S-400 in service with the RF Armed Forces.

S-400 "Triumph" - long-range and medium-range air defense systems. It is designed to destroy the enemy's means of aerospace attack, such as reconnaissance aircraft, ballistic missiles, hypersonic. This system was put into service relatively recently - on April 28, 2007. The latest air defense system is capable of hitting aerodynamic targets at ranges up to 400 km and up to 60 km - ballistic targets, the speed of which does not exceed 4.8 km/s. The target itself is detected even earlier, at a distance of 600 km. The difference from the "Patriot" and other complexes is that the minimum target engagement height is only 5 m, which gives this complex a huge advantage over others, making it universal. The number of simultaneously fired targets is 36 with 72 guided missiles. The deployment time of the complex is 5-10 minutes, and the time for bringing it to combat readiness is 3 minutes.

The Russian government agreed to sell this complex to China, but not earlier than 2016, when our country will be fully equipped with them.

It is believed that the S-400 has no analogues in the world.

The following complexes that we would like to consider in the framework of this work are TOR M-1 and TOR M-2. These are complexes designed to solve air defense and missile defense tasks at the divisional level. In 1991, the first TOR was put into service as a complex for protecting important administrative facilities and ground forces from all types of enemy air attacks. The complex is a short-range system - from 1 to 12 km, at altitudes from 10 meters to 10 km. The maximum speed of targets hit is 700 m / s.

TOR M-1 is an excellent complex. The Ministry of Defense of the Russian Federation refused China a license to produce it, and as you know, there is no concept of copyright in China, so they created their own copy of the Hongqi-17 TOP.

Since 2003, the Tunguska-M1 anti-aircraft gun-missile system has also been in service. It is designed to provide air defense for tank and motorized rifle units. Tunguska is capable of destroying helicopters, airplanes, cruise missiles, drones, tactical aircraft. It is also distinguished by the fact that both missile and cannon weapons are combined. Cannon armament - two 30-mm anti-aircraft double-barreled guns, the rate of fire of which is 5000 rounds per minute. It is capable of hitting targets at an altitude of up to 3.5 km, a range of 2.5 to 8 km for missiles, 3 km and from 200 meters to 4 km for anti-aircraft guns.

The next means of combating the enemy in the air, we would note the BUK-M2. This is a multifunctional, highly mobile medium-range air defense system. It is designed to destroy aircraft, tactical and strategic aviation, helicopters, drones, cruise missiles. BUK is used to protect military facilities and troops in general, throughout the country to protect industrial and administrative facilities.

It is very interesting to consider another air defense and missile defense weapon of our time, Pantsir-S1. It can be called an improved Tunguska model. This is also a self-propelled anti-aircraft missile and gun system. It is designed to cover civilian and military facilities, including long-range air defense systems, from all modern air attack weapons. It can also perform military operations against ground, surface objects.

It was put into service quite recently - November 16, 2012. The missile unit is capable of hitting targets at altitudes from 15 m to 15 km and a range of 1.2-20 km. The target speed is not more than 1 km/s.

Cannon armament - two 30-mm anti-aircraft double-barreled guns used in the Tunguska-M1 complex.

Up to 6 machines can work simultaneously and together via a digital communication network.

It is known from the Russian media that in 2014 the Shells were used in the Crimea and hit Ukrainian drones.

8.2 Foreign analogues

Let's start with the well-known MIM-104 Patriot PAC-3. This is the latest modification currently in service with the US Army. Its main task is to intercept the warheads of tactical ballistic and cruise missiles of the modern world. It uses highly maneuverable direct-hit missiles. A feature of the PAC-3 is that it has a short range of hitting targets - up to 20 km for ballistic and 40-60 for aerodynamic targets. It is striking that the sale of the missile stock includes PAC-2 missiles. Modernization work was carried out, but this did not give the Patriot complex an advantage over the S-400.

Another object of consideration will be the M1097 Avenger. This is a short-range air defense system. Designed to destroy air targets at altitudes from 0.5 to 3.8 km with a range of 0.5 to 5.5 km. He, like the Patriot, is part of the National Guard, and after September 11, 12 Avenger combat units appeared in the area of ​​\u200b\u200bthe Congress and the White House.

The last complex that we will consider is the NASAMS air defense system. This is a Norwegian mobile anti-aircraft missile system, which is designed to destroy air targets at low and medium altitudes. It was developed by Norway together with the American company "Raytheon Company System". The range of hitting targets is from 2.4 to 40 km, the height is from 30 meters to 16 km. The maximum speed of the hit target is 1000 m/s, and the probability of hitting it with one missile is 0.85.

Consider what our neighbors, China, have? It should be noted right away that their developments in many areas, both in air defense and missile defense, are mostly borrowed. Many of their air defense systems are copies of our types of weapons. For example, take the Chinese HQ-9, a long-range anti-aircraft missile system that is China's most effective air defense system. The complex was developed back in the 80s, but work on it was completed after the purchase of the S-300PMU-1 air defense system from Russia in 1993.

Designed to destroy aircraft, cruise missiles, helicopters, ballistic missiles. The maximum range is 200 km, the height of the defeat is from 500 meters to 30 km. The interception range of ballistic missiles is 30 km.

9. Prospects for the development of air defense and future projects

Russia has the most modern means of combating enemy missiles and aircraft, but there are already defense projects 15-20 years ahead of time, when the place of air combat will be not only the sky, but also near outer space.

Such a complex is the S-500. This type of weapon has not yet been adopted for service, but is being tested. It is assumed that it will be capable of destroying medium-range ballistic missiles with a launch range of 3500 km and intercontinental ballistic missiles. This complex will be able to destroy targets within a radius of 600 km, the speed of which reaches 7 km / s. The detection range is supposed to be increased by 150-200 km compared to the S-400.

The BUK-M3 is also under development and should soon be put into service.

Thus, we note that soon the air defense and missile defense forces will have to defend and fight not only close to the ground, but also in the nearest space. This shows that development will go in the direction of combating enemy aircraft, missiles and satellites in near space.

10. Conclusion

In our work, we examined the development of the air defense system of our country and the United States in the period from the 50s of the twentieth century to the present day, partly looking into the future. It should be noted that the development of the air defense system was not easy for our country, it was a real breakthrough through a number of difficulties. There was a time when we tried to catch up with world military technology. Now everything is different, Russia occupies a leading position in the field of combating enemy aircraft and missiles. We can really consider that we are under reliable protection.

As we have already noted, at first 60 years ago they fought low-flying bombers at subsonic speeds, and now the battle arena is gradually being transferred to near space and hypersonic speeds. Progress does not stand still, so you should think about the prospects for the development of your Armed Forces and predict the actions and development of technologies and tactics of the enemy.

We hope that all the military technology now available will not be needed for combat use. In our time, weapons of deterrence are not only nuclear weapons, but also any other types of weapons, including air defense and missile defense.

List of used literature

1) Anti-aircraft missile forces in the wars in Vietnam and the Middle East (in the period 1965-1973). Under the general editorship of Colonel-General of Artillery I.M. Gurinov. Military publishing house of the Ministry of Defense of the USSR, Moscow 1980

2) General information about the S-200 anti-aircraft missile system and the 5V21A missile device. Tutorial. Military publishing house of the Ministry of Defense of the USSR, Moscow - 1972

3) Berkut. Technical project. Section 1. General characteristics of the Berkut air defense system. 1951

4) Tactics of anti-aircraft missile troops. Textbook. Military publishing house of the Ministry of Defense of the USSR, Moscow - 1969

5) http://www.arms-expo.ru/ "Arms of Russia" - federal directory

6) http://militaryrussia.ru/ - domestic military equipment (after 1945)

7) http://topwar.ru/ - military review

Http://rbase.new-factoria.ru/ - rocket technology

9) https://ru.wikipedia.org - free encyclopedia

ZRS S-300VM "Antey-2500"

The only mobile air defense system in the world that can intercept short and medium range ballistic missiles (up to 2500 km). Another "Antey" can shoot down a modern aircraft, including the stealth Staelth. The Antey target can be hit simultaneously by four or two 9M83 (9M83M) missiles (depending on the launcher used). In addition to the Russian army, the Almaz-Antey concern supplies Antey to Venezuela; also signed a contract with Egypt. But Iran in 2015 abandoned it in favor of the S-300 air defense system.

ZRS S-300V

The S-Z00V military self-propelled anti-aircraft missile system carries two types of missiles. The first is 9M82 in order to shoot down ballistic Pershings and SRAM-type aircraft missiles, as well as far-flying aircraft. The second - 9M83, to destroy aircraft and ballistic missiles such as "Lance" and R-17 "Scud".

Autonomous air defense system "Tor"

Bearing the proud name of the Scandinavian deity, the Thor air defense system can cover not only infantry and equipment, but also buildings and industrial facilities. "Thor" protects, among other things, from high-precision weapons, guided bombs and enemy drones. At the same time, the system itself controls the designated airspace and independently shoots down all air targets that are not identified by the “friend or foe” system. Therefore, they call it autonomous.

Anti-aircraft missile system "Osa" and its modifications "Osa-AK" and "Osa-AKM"

Since the 60s of the XX century, the Osa has been in service with the Soviet, and later the Russian army and the armies of the CIS countries, as well as more than 25 foreign countries. It is capable of protecting ground forces from enemy aircraft, helicopters and cruise missiles operating at extremely low, low and medium altitudes (up to 5 m at a distance of up to 10 km).

SAM MD-PS increased secrecy of functioning

The secrecy of the MD-PS is ensured through the use of optical means for detecting and guiding the missile by infrared radiation of the target in the 8-12 micron wavelength range. The detection system has an all-round view and can simultaneously find up to 50 targets and select the most dangerous ones. Guidance is carried out on the principle of "shot and forget" (missiles with homing heads that "see" the target).

"Tunguska"

The Tunguska anti-aircraft cannon missile system is a short-range air defense system. In combat, it covers infantry from helicopters and attack aircraft operating at low altitudes, and fires at lightly armored ground and floating equipment. She opens fire not only from a place, but also in motion - if only there was no fog and snowfall. In addition to the ZUR9M311 missiles, the Tunguska is equipped with 2A38 anti-aircraft guns, which can turn to the sky up to an angle of 85 degrees.

"Pine - RA"

The light mobile towed Sosna-RA anti-aircraft gun-missile system, like the Tunguska, is equipped with an anti-aircraft gun that hits targets at an altitude of up to 3 km. But the main advantage of Sosna-RA is the 9M337 Sosna-RA hypersonic missile, which already shoots at targets at a height of up to 3500 meters. The range of destruction is from 1.3 to 8 km. "Pine-RA" - light complex; this means that it can be put on any platform that can withstand its weight - trucks Ural-4320, KamAZ-4310 and others.

New

Anti-aircraft missile system of long and medium range S-400 "Triumph"

The defeat of targets at long range in the Russian army is provided, among other things, by the S-400 Triumph air defense system. It is designed to destroy aerospace attack weapons, and is capable of intercepting a target at a distance of more than 200 kilometers and at an altitude of up to 30 kilometers. The Triumph has been in service with the Russian army since 2007.

"Pantsir-S1"

ZRPK "Pantsir-S1" was adopted in 2012. Its automatic cannons and radio-guided guided missiles with infrared and radar tracking can neutralize any target in the air, on land and on the water. Pantsir-S1 is armed with 2 anti-aircraft guns and 12 surface-to-air missiles.

SAM "Pine"

The Sosna short-range mobile anti-aircraft missile system is the latest Russian novelty; The complex will enter service only at the end of this year. It has two parts - armor-piercing and fragmentation-rod action, that is, it can hit armored vehicles, fortifications and ships, shoot down cruise missiles, drones and high-precision weapons. "Pine" is guided by a laser: the rocket flies along the beam.

The Igla-super portable air defense system is a further development of the line of portable air defense systems launched by the Igla complex, which was put into service in 1983.

The most common and combat air defense system: S-75 air defense system

Country: USSR
Adopted: 1957
Rocket type: 13D
Maximum target engagement range: 29–34 km
Target speed: 1500 km/h

John McCain, who lost the last US presidential election to Barack Obama, is known as an active critic of Russian foreign and domestic policy. It is likely that one of the explanations for such an irreconcilable position of the senator lies in the achievements of Soviet designers half a century ago. On October 23, 1967, during the bombing of Hanoi, the plane of a young pilot, a descendant of the family of hereditary admirals John McCain, was shot down. His "Phantom" got an anti-aircraft guided missile of the S-75 complex.

By that time, the Soviet anti-aircraft sword had already caused a lot of trouble for the Americans and their allies. The first “test of the pen” took place in China in 1959, when local air defense, with the help of “Soviet comrades”, interrupted the flight of a Taiwanese high-altitude reconnaissance aircraft created on the basis of the British Canberra bomber. The hopes that the more advanced air reconnaissance aircraft, the Lockheed U-2, would be too tough for the red air defense system were also not destined to come true. One of them was shot down by S-75 over the Urals in 1961, and the other a year later over Cuba.

On account of the legendary anti-aircraft missile created at the Fakel ICD, many other targets were hit in various conflicts from the Far and Middle East to the Caribbean Sea, and the S-75 complex itself was destined for a long life in various modifications. We can safely say that this air defense system has gained fame as the most widespread of all air defense systems of this type in the world.

The most high-tech missile defense system: the Aegis system ("Aegis")

SM-3 missile
Country: USA
first launch: 2001
Length: 6.55 m
Steps: 3
Range: 500 km
Height of the affected area: 250 km

The main element of this shipborne multifunctional combat information and control system is the AN / SPY radar with four flat headlamps with a power of 4 MW. The Aegis is armed with SM-2 and SM-3 missiles (the latter with the ability to intercept ballistic missiles) with a kinetic or fragmentation warhead.

The SM-3 is constantly being modified, and the Block IIA model has already been announced, which will be capable of intercepting ICBMs. On February 21, 2008, an SM-3 missile was fired from the cruiser Lake Erie in the Pacific Ocean and hit the emergency reconnaissance satellite USA-193, located at an altitude of 247 kilometers, moving at a speed of 27,300 km / h.

The newest Russian ZRPK: ZRPK "Shell S-1"

Country Russia
adopted: 2008
Radar: 1RS1-1E and 1RS2 based on HEADLIGHTS
Range: 18 km
Ammunition: 12 missiles 57E6-E
Artillery armament: 30-mm twin anti-aircraft gun

The complex "" is intended for close cover of civilian and military facilities (including long-range air defense systems) from all modern and promising air attack weapons. It can also protect the defended object from ground and surface threats.

Aerial targets include all targets with a minimum reflective surface with speeds up to 1000 m/s, a maximum range of 20000 m and an altitude of up to 15000 m, including helicopters, unmanned aerial vehicles, cruise missiles and precision bombs.

The most nuclear anti-missile: 51T6 Azov transatmospheric interceptor

Country: USSR-Russia
First launch: 1979
Length: 19.8 m
Steps: 2
Starting weight: 45 t
Firing range: 350–500 km
Warhead power: 0.55 Mt

The second-generation (A-135) anti-missile 51T6 ("Azov"), which was part of the missile defense system around Moscow, was developed at the Fakel Design Bureau in 1971-1990. Its tasks included the transatmospheric interception of enemy warheads with the help of a counter nuclear explosion. Serial production and deployment of "Azov" was carried out already in the 1990s, after the collapse of the USSR. The missile has now been decommissioned.

The most effective portable air defense system: Igla-S MANPADS

Country Russia
designed: 2002
Destruction range: 6000 m
Defeat altitude: 3500 m
Target speed: 400 m/s
Weight in combat position: 19 kg

According to many experts, the Russian anti-aircraft system, designed to destroy low-flying air targets of various types in conditions of natural (background) and artificial thermal interference, surpasses all analogues existing in the world.

Closest to our borders: SAM Patriot PAC-3

Country: USA
first launch: 1994
Rocket length: 4.826 m
Rocket weight: 316 kg
Warhead weight: 24 kg
Target engagement height: up to 20 km

Created in the 1990s, a modification of the Patriot PAC-3 air defense system is designed to deal with missiles with a range of up to 1000 km. During the test on March 15, 1999, a target missile, which was the 2nd and 3rd stages of the Minuteman-2 ICBM, was destroyed by a direct hit. After the rejection of the idea of ​​the Third position area of ​​the American strategic missile defense system in Europe, Patriot PAC-3 batteries are deployed in Eastern Europe.

The most common anti-aircraft gun: 20-mm anti-aircraft gun Oerlicon ("Oerlikon")

Country: Germany - Switzerland
Designed: 1914
Caliber: 20 mm
Rate of fire: 300-450 rds / min
Range: 3–4 km

The history of the Oerlikon automatic 20 mm anti-aircraft gun, also known as the Becker gun, is the story of one extremely successful design that has spread throughout the world and is still used to this day, despite the fact that the first sample of this weapon was created by a German designer Reinhold Becker during the First World War.

The high rate of fire was achieved due to the original mechanism, in which the impact ignition of the primer was carried out even before the end of the chambering of the cartridge. Due to the fact that the rights to the German invention were transferred to the company SEMAG from neutral Switzerland, both the Axis countries and the allies in the anti-Hitler coalition produced their versions of the Oerlikons during World War II.

The best anti-aircraft gun of World War II: 88-mm anti-aircraft gun Flugabwehrkanone

Country: Germany
Year: 1918/1936/1937
Caliber: 88 mm
Rate of fire: 15-20 rds / min
Barrel length: 4.98 m
Maximum effective ceiling: 8000 m
Projectile weight: 9.24 kg

One of the best anti-aircraft guns in history, better known as the "eight-eight", was in service from 1933 to 1945. It turned out to be so successful that it became the basis for a whole family of artillery systems, including anti-tank and field ones. In addition, the anti-aircraft gun served as a prototype for the guns of the Tiger tank.

The most promising air defense-missile defense system: the S-400 Triumph air defense system

Country Russia
Designed: 1999
Target detection range: 600 km
Damage range:
- aerodynamic targets - 5–60 km
- ballistic targets - 3-240 km
Height of defeat: 10 m - 27 km

The air defense system is designed to destroy jamming aircraft, radar detection and control aircraft, reconnaissance aircraft, strategic and tactical aircraft, tactical, operational-tactical ballistic missiles, medium-range ballistic missiles, hypersonic targets and other modern and advanced air attack weapons. Each air defense system provides simultaneous shelling of up to 36 targets with up to 72 missiles aimed at them.

The most versatile anti-missile defense system: S-300VM "Antey-2500"

Country: USSR
Designed: 1988
Damage range:
Aerodynamic targets - 200 km
Ballistic targets - up to 40 km
Height of defeat: 25m - 30 km

Mobile universal anti-missile and anti-aircraft "Antey-2500" belongs to a new generation of anti-missile and anti-aircraft defense systems (PRO-PSO). Antey-2500 is the world's only universal missile defense and air defense system capable of effectively fighting both ballistic missiles with a launch range of up to 2,500 km and all types of aerodynamic and aeroballistic targets.

The Antey-2500 system is capable of simultaneously firing at 24 aerodynamic targets, including subtle objects, or 16 ballistic missiles flying at speeds up to 4500 m/s.

/Based on materials popmech.ru and topwar.ru /