Bavar-373 Iranian Mobile Surface-to-Air Missile (SAM) System
Bavar-373
Mobile Air Defense Missile System
Other
Basic Information
Name
Bavar-373 Iranian Mobile Surface-to-Air Missile (SAM) System
Designation
Bavar-373
Alternate Designation
Bavar-373
Equipment Type
Mobile Air Defense Missile System
Manufacturer
Ministry of Defence and Armed Forces Logistics
Date of Introduction
2019
Description
The Bavar-373 Iranian Mobile Surface-to-Air Missile (SAM) is developed to integrate with Iran's Integrated Air Defence System (IADS), serving as a key component for long-range and high-altitude air defence, aimed at safeguarding strategic sites and military assets. It requires several vehicles equipped with launchers, radars, and command-and-control assets to function. The system consists of a wheeled platforms based the Zoljanah 10×10 and Zafar 8×8. The system is equipped with Sayyad-4 or Sayyad-4B surface-to-air missiles.
Ground Specifications
Mobility Type
Wheeled (10x10)
Main Weapon
Sayyad-4 or Sayyad-4B surface-to-air missiles
System
Alternative Designation
Bavar-373
Type
Mobile Surface-to-Air Missile (SAM) System
Manufacturer
Ministry of Defence and Armed Forces Logistics
Battery
The Bavar-373 is a multiplatform ‘system of systems', using a range of assets to operate. The smallest formation fielded is the battery, which consists of the following vehicles and equipment: 6 x Bavar-373 Transporter-Erector-Launchers (Each transporter-erector-launcher (TEL) is based on the Zoljanah 10×10 and carries up to four surface-to-air missiles. A total battery therefore carries up to 24 missiles ready-to-fire); 1 x Command-and-Control Vehicle (The C2 vehicle is mounted onto a 6×6 truck and is the communication node of the system); 1 x Radar (X-Band) Vehicle (The X-band active electronically scanned array (AESA) radar is the Bavar-373's engagement radar. It is integrated on the Zafar 8×8); 1 x Hafez Radar (S-Band) Vehicle (The S-band active electronically scanned array (AESA) radar is the Bavar-373 acquisition radar. It is integrated on the Zafar 8×8); 1 x Meraj-4 Battle Management Radar (While not directly apart of the Bavar-373 system, it is long-range and high-altitude surveillance radar utilised in Iran's integrated air-defence system. Likely connected remotely to the battery); 2 x Mobile Power Generation Vehicle (Likely needed to power the systems when stationary and in operation).
Battery Configuration
Characterized as a ‘system of systems', the Bavar-373 comprises multiple vehicle-based components, necessitating approximately half an hour for the battery to be set up. The system primarily employs wired connections for inter-battery communication, reducing vulnerability to electronic countermeasures aimed at wireless communications but limiting its mobility and deployment flexibility.
While capable of functioning independently, the system is enhanced through integration with Iran's broader IADS and the Meraj-4 radar. To assimilate data from national radar installations, a wireless liaison with a central air-defense command center would be needed.
Target Acquisition and Engagement Process
The procedure initiates with target detection, whereupon data is conveyed to the command-and-control (C2) vehicle. This vehicle utilizes the S-band acquisition radar to monitor identified aerial targets within its range.
The Hafez S-band acquisition and X-band engagement radars are equipped with Identification Friend-or-Foe (IFF) systems, which assist in differentiating between friendly and hostile aerial entities.
Engagement authorization necessitates that the target is within the operational range of the X-band engagement radar. The precise capacity of the X-band radar to track multiple targets is thought to be up to six.
The missile system employs an inertial navigation system (INS) for initial guidance, augmented by mid-course corrections. In its terminal phase, the missile utilizes either a semi-active or active homing radar seeker, in coordination with the engagement radar, to refine its approach toward the target. The rocket is engineered to detonate in proximity to or upon impact with the target, with the detonation method varying depending on the nature of the target.
Bavar-373 Transporter-Erector-Launcher (TEL)
TEL
The Bavar-373 uses a transporter-erector-launcher that carries up to four missiles, loaded into protective square-shaped missile containers. Initial versions of the system only presented the launcher with two missiles, but this has since been increased to four. It is also unknown if the launchers can carry a mixture of Sayyad-4 and Sayyad-4B missiles on a single launcher.
The base vehicles, known as the Zoljanah 10×10, was first seen in 2012, and appears to have a similar layout to the other Belarusian, Chinese, or Russian 10×10 designs. Unlike these designs, however, the engine is located under the cab, versus the alternative located behind it. With a rumoured payload capacity of 30 tonnes, the vehicle is developed for heavy loads.
It is estimated that the vehicle has an engine of around 500 hp, providing it with a power-to-weight ratio when fully loaded of 16 hp/t. The base vehicle is said to have a maximum range of 650 km and is crewed by two personnel. It is also designed with tactical mobility in mind and is estimated to be able to ford up to 1.5 m unprepared and cross a trench line that is 2.5 in width.
Sayyad-4 Missile
Seeker
Export brochures indicate that the missile is available with either a semi-active radar homing (SAHR) or an active radar homing (ARH) seeker. This introduces complexity to the guidance method, presenting two possibilities: track-via-missile (TVM) or seeker-aided ground guidance (SAGG).
Considering Iran's topography, a long-range surface-to-air missile might benefit from employing an active rather than a semi-active seeker. Such a choice would enable the missile to maintain target tracking capabilities, even when the line of sight between the engagement radar and the target is obstructed. This factor could influence the system's operational effectiveness, given Iran's mountainous landscape.
Guidance
The Bavar-373 is thought to utilize either track-via-missile (TVM) or seeker-aided ground guidance (SAGG) missile guidance methods.
If the missile employs the track-via-missile (TVM) guidance method, a semi-active radar homing (SARH) seeker coordinates with the launcher and ground-based radar. Electromagnetic (EM) waves are projected by the ground-based engagement radar towards the target. When these EM waves reflect off the target, a portion is redirected towards the approaching surface-to-air missile equipped with an antenna to receive these reflected EM waves. The rocket then relays this information to the ground crew via a secure datalink, which is automatically compared with the data from the ground-based engagement radar. This comparison allows transmitting corrective guidance instructions through a secure uplink to the missile, directing it towards a more precise target location. This process necessitates that the ground-based engagement radar remains operational until the engagement is concluded.
If the missile is equipped with an active radar homing (ARH) seeker, it is more probable to utilize the SAGG. SAGG and TVM share considerable similarities, with the process resembling that of TVM as previously described. However, the SAGG approach permits the missile to process data onboard before transmitting it to the ground crew. This enhances autonomy and allows the rocket equipped with an ARH seeker to remain functional even if the line of sight between the engagement radar and the target is obstructed. This is provided the missile is sufficiently close to the target so that the ARH seeker is within effective range.
Control
Based on interviews with Iranian military officials, it is claimed that the missile incorporates thrust vectoring control (TVC). This missile guidance method manipulates the direction of the exhaust gases through a gimballed thrust chamber or via mechanical means. This technology enables the missile to adjust its pitch and yaw.
The design includes two sets of fins at the missile's tail, just above the rocket motor exhaust. The initial quartet of fins is cropped delta-shaped stabilizing fins designed for maintaining flight stability. The second set consists of smaller, tapered fins capable of actuation, providing the missile with steering capabilities. This is important as TVC only works when the missile's rocket motor is in use. After all fuel is consumed, the TVC method of control is useless, necessitating the use of actuated fins.
Warhead
The hot-launched missile uses a single-stage solid-propellant rocket motor.
Propulsion
The missile has been advertised with a high-explosive fragmentation (HE-FRAG) warhead weighing 180 kg. It is linked to an impact and proximity fuze.
Sayyad-4B Missile
Seeker
Export brochures indicate that the missile is available with either a semi-active radar homing (SAHR) or an active radar homing (ARH) seeker. This introduces complexity to the guidance method, presenting two possibilities: track-via-missile (TVM) or seeker-aided ground guidance (SAGG).
Considering Iran's topography, a long-range surface-to-air missile might benefit from employing an active rather than a semi-active seeker. Such a choice would enable the missile to maintain target tracking capabilities, even when the line of sight between the engagement radar and the target is obstructed. Given Iran's mountainous landscape, this factor could influence the system's operational effectiveness.
Guidance
The Bavar-373 is thought to utilize either track-via-missile (TVM) or seeker-aided ground guidance (SAGG) missile guidance methods.
If the missile employs the track-via-missile (TVM) guidance method, a semi-active radar homing (SARH) seeker coordinates with the launcher and ground-based radar. Electromagnetic (EM) waves are projected by the ground-based engagement radar towards the target. When these EM waves reflect off the target, a portion is redirected towards the approaching surface-to-air missile equipped with an antenna to receive these reflected EM waves. The rocket then relays this information to the ground crew via a secure datalink, which is automatically compared with the data from the ground-based engagement radar. This comparison allows transmitting corrective guidance instructions through a secure uplink to the missile, directing it toward a more precise target location. This process necessitates that the ground-based engagement radar remains operational until the engagement is concluded.
If the missile is equipped with an active radar homing (ARH) seeker, it is more probable to utilize the SAGG. SAGG and TVM share considerable similarities, with the process resembling that of TVM as previously described. However, the SAGG approach permits the missile to process data onboard before transmitting it to the ground crew. This enhances autonomy and allows the rocket equipped with an ARH seeker to remain functional even if the line of sight between the engagement radar and the target is obstructed. This is provided the missile is sufficiently close to the target so that the ARH seeker is within effective range.
Control
Based on interviews with Iranian military officials, it is claimed that the missile incorporates thrust vectoring control (TVC). This missile guidance mechanism manipulates the direction of the exhaust gases through a gimballed thrust chamber or mechanical means. This technology enables the missile to adjust its pitch and yaw.
The design includes two sets of fins at the missile's tail, just above the rocket motor exhaust. The initial quartet of fins are cropped delta-shaped stabilising fins designed for maintaining flight stability. The second set consists of smaller, tapered fins capable of actuation, providing the missile with steering capabilities. This is important as TVC only works when the missile's rocket motor is in use, and after all fuel is consumed, the TVC method of control is useless, necessitating the use of actuated fins.
Propulsion
The hot-launched missile uses a single-stage solid-propellant rocket motor. The Sayyad-4B has a much greater range than the original Sayyad-4B, and this is thought to include the incorporation of a solid fuel that possess a higher energy density.
Warhead
The missile has been advertised with a high-explosive fragmentation (HE-FRAG) warhead weighing below 180 kg. It is linked to an impact and proximity fuze. The warhead on the Sayyad-4B could weigh less to help reduce the overall weight of the missile in combination with other weight-saving measures. This would result in an extended range for the missile without the need to increase its size.
X-band Radar Vehicle
Note
The Bavar-373 system's X-band engagement radar is mounted on the Zafar 8×8 chassis. This chassis's payload is lower than that of the Zoljanah used for the TELs. With the radar integrated into it, it is estimated to weigh up to 24 tonnes. A 400 hp engine powers it, with a range of 800 km. Much like the TEL, this vehicle is also designed for tactical mobility.
The radar is an X-band active electronically scanned array (AESA) radar that can track up to six targets. It is thought to have a maximum range of 260 km, covering -45° to +45° in the azimuth and between -3° to +85° in elevation via digital beam-forming. It also has an integrated IFF antenna for target interrogation.
Hafez S-band Radar Vehicle
Note
The Hafez is the S-band target acquisition radar of the Bavar-373 system. It is mounted on the Zafar 8×8 chassis, which has a lower payload than the Zoljanah used for the TELs. With the radar integrated into it, it is estimated to weigh up to 24 tonnes. A 400 hp engine powers it, and it has a range of 800 km. Much like the TEL, this vehicle is also designed for tactical mobility.
The radar is an S-band AESA radar that can track up to 200 targets. It is thought to have a maximum range of 320 km, covering 360° in the azimuth using mechanical rotation and between -3° to +85° in elevation via digital beam-forming. It also has an integrated IFF antenna for target interrogation.
Meraj-4 Battle Management Radar
Note
The Meraj-4, also known in its translated name as Ascension-4, while not a direct component of the Bavar-373, plays a vital role in Iran's Integrated Air Defence System (IADS). Its unveiling alongside the Bavar-373 in 2016 suggests a developmental connection between the two systems.
This system uses an S-band active electronically scanned array (AESA) radar, capable of detecting objects within a 5–450 km range and providing 360° coverage in azimuth through mechanical rotation. It also covers an elevation range from 0° to 25° via digital beam-forming. The Meraj-4 can track up to 200 targets moving at 20 to 1,030 m/s within an altitude range of 100 m to 25 km. The antenna is designed to complete three to six rotations per minute. Additionally, it incorporates an Identification Friend-or-Foe (IFF) system.
Physically, the radar is large and semi-mobile, mounted on a trailer for towing by a civilian truck. The system's operation necessitates two vehicles: the trailer-mounted radar towed by a lorry and another vehicle serving as a control station for the four operators required to manage the radar in operation. Setting up and dismantling the system each takes approximately half an hour and involves four personnel.
Command-and-Control System
Note
The command-and-control (C2) station is mounted on a 6×6 truck chassis. Limited details have been made public about the vehicle; however, during its public presentation, it was noted to lack visible antennas essential for wireless communication with the associated launchers and radars. It is therefore inferred that the system relies on wired connections between its components, restricting the dispersion of the system's various elements. Nonetheless, there must exist some capacity for wireless connectivity with Iranian air-defence centres, and notably with the Meraj-4 radar, which would not be deployed at the same site as the Bavar-373.
Image Sources
Note
https://armyrecognition.com/focus-analysis-conflicts/army/defence-security-industry-technology/analysis-bavar-373-iranian-made-air-defense-missile-system; https://www.defaiya.com/news/Defense%20News/Asia/2022/10/18/iran-starts-initial-tests-of-bavar-373-missile-system-at-300-km-range; 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; https://armyrecognition.com/news/army-news/2024/iran-unveils-new-bavar-373-air-defense-missile-system-capable-of-intercepting-f-35-fighter-jets
Details
Country of Origin
Iran
Category
Radar Guided Missile Systems
Land > Air Defense > Radar Guided Missile Systems
Filter Label
B
Classification
Domain
Ground
Equipment Status
Active
Operators (1)
Iran
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