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The OMTAS (Orta Menzilli Tanksavar Sistemi), also known as Mızrak-O,[6] is a Turkish medium range anti-tank guided missile developed by Roketsan.[3][4][5]

Key Information

OMTAS is an advanced system with various types of latest technologies, effective against modern armored threats on the battlefield.[7]

Design

[edit]

OMTAS weapon system is a combination of missile, missile launching platform with fire control unit, carrying cases, and training simulator. It intended to destroy stationary and moving armored targets. Firing can occur from a tripod mount, vehicle, stabilized land platform, or remote controlled turret. The missile has two types of selectable warhead to use, tandem-charge high-explosive anti-tank (HEAT) and high explosive (HE) fragmentation. The tandem HEAT warhead is designed to counter the armor of modern main battle tanks and HE fragmentation warhead to attack infantry positions and light or non-armored vehicles. The system can use a thermographic camera sight.[3][4]

OMTAS features day and night all-weather abilities, direct attack and top attack modes, switching targets during flight, fire-behind-mask, fire-and-forget, and fire-and-update modes. The impact point on a target can be updated during flight.[3][4] OMTAS's uncooled imaging infrared (IIR) seeker [8] is supplied by another Turkish defense company Aselsan.[2] Actual armor penetration of the tandem-charge HEAT warhead is still classified but it can be assumed that it is not less than 1000 mm behind explosive reactive armor (ERA) and could be more deadly with its wider 160 mm diameter.[7]

Replacement

[edit]

OMTAS is likely to replace current 152 mm BGM-71 TOW and 103 mm MILAN in Turkish service.[2] As of 2021, OMTAS is the largest top attack missile developed by a NATO member state.[9]

Operators

[edit]
Turkey: Turkish Land Forces[10][11]
Kosovo: Kosovo Security Force[12]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

OMTAS

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The OMTAS (Orta Menzilli Tanksavar Sistemi), also known as Mızrak-O, is a Turkish medium-range system developed by the defense company to counter armored threats on the battlefield. It employs an imaging infrared seeker for all-weather and day/night operations, enabling or fire-and-update modes with a maximum range of 4 kilometers. Development of the OMTAS began in 2007 under Roketsan's initiative, in collaboration with Turkish firms MKEK for the and for electronics, as part of Turkey's push for indigenous defense technologies. The system achieved operational readiness and was officially adopted by the in 2017, marking a significant milestone in the country's self-reliance in anti-tank weaponry. Key features include a tandem capable of penetrating modern reactive armor, an RF for mid-flight target updates or switching, and insensitive munitions design to enhance safety against impacts or fires. The OMTAS can be launched from portable tripods for use or integrated into various land platforms, such as armored vehicles with open or enclosed turrets, providing flexibility across tactical scenarios. Its operational modes allow locking on targets before or after launch, with capabilities for strike-point adjustments and firing from concealed positions to minimize exposure. The measures 1.8 meters in length, has a diameter of 160 mm, and weighs 35 kg including the launch tube, making it suitable for man-portable deployment while maintaining high lethality against static or moving armored vehicles. As of 2025, the system has seen exports, including to and , and integrations like on the Kaplan 10 armored vehicle, underscoring its growing international adoption.

Development

Background and requirements

The Turkish Land Forces identified a critical need for a modern medium-range anti-tank missile in the early 2000s, driven by the limitations of aging foreign systems such as the and , which proved inadequate against evolving armored threats during operations in and border security contexts. These experiences, particularly in efforts along southeastern borders, underscored the requirement for a domestically developed system to enhance tactical flexibility and reduce reliance on imported munitions vulnerable to supply disruptions. The OMTAS program was initiated in 2007 as part of Turkey's broader defense localization initiatives, which aimed to boost indigenous production from approximately 25% of military needs in 2003 to over 60% by the mid-2010s, fostering technological self-sufficiency amid regional instabilities. was selected as the lead developer, leveraging its expertise in rocket and missile systems, while collaborating with to integrate advanced imaging infrared seeker technology for enhanced guidance capabilities. This partnership aligned with national efforts to prioritize homegrown solutions, supported by government policies under the Undersecretariat for Defense Industries to address strategic vulnerabilities. Core requirements for OMTAS emphasized functionality to enable rapid engagement without continuous operator exposure, all-weather operability for reliable performance in diverse terrains, and a top-attack to defeat modern main battle tanks equipped with reactive armor. The system was specified to achieve an effective range of 200–4,000 meters, balancing portability for use with sufficient standoff distance to counter heavily armored vehicles in dynamic battlefield scenarios. These features were designed to provide the with a versatile, survivable anti-armor capability tailored to contemporary threats.

Testing and production

The development of the OMTAS medium-range system took place under Roketsan's indigenous programs to meet requirements for advanced anti-armor capabilities. First test firings occurred in 2013, validating the missile's core and guidance functions during initial live-fire evaluations. Qualification tests, encompassing environmental, , and integration assessments, were completed in 2016, paving the way for operational certification. The system officially entered service with the in June 2017, following the delivery of initial units including one launching system and eight missiles. Key testing milestones included live-fire trials at maximum ranges of up to 4 km, confirming the missile's ability to engage armored targets effectively under controlled conditions. The imaging infrared seeker was validated for reliable operation in both day and night scenarios, as well as adverse , through a series of seeker-specific and full-system firings that demonstrated lock-on before and after launch modes. Integration tests on tripod-mounted configurations and vehicle platforms, such as the 4x4 and KAPLAN, were successfully conducted, including firings from moving platforms to verify stability and accuracy in dynamic environments. Production commenced with low-rate initial serial manufacturing by in , immediately following qualification, to support early fielding and training. By 2020, production scaled to full serial rates, enabling broader integration into Turkish systems and increased output for buildup. In 2024, initiated development of the L-OMTAS, a laser-guided variant of the system. Local suppliers played a key role, with providing the imaging infrared seeker and contributing to the fire control unit components, enhancing domestic content and .

Design

System components

The OMTAS (Orta Menzilli Tanksavar Sistemi) system integrates several key hardware elements for effective anti-tank operations, emphasizing portability and adaptability across and vehicular roles. At its core is the all-up-round encased in a disposable launch tube, measuring 160 mm in and 1.8 m in , with a total weight of 35 kg. This configuration facilitates easy handling and integration into various launch platforms. The primary launcher variant is a lightweight, -mounted unit designed for dismounted use, weighing 36 kg and enabling rapid deployment by a two-person team. The launcher incorporates a fire control unit equipped with a thermographic sight for target detection and engagement, supporting modes such as via an RF . For enhanced mobility, the system includes dedicated transport cases to protect components during movement. To extend operational flexibility, OMTAS features vehicle-integrated launcher variants compatible with wheeled and tracked platforms, including the Kaplan-10 and PARS 4x4 armored vehicles produced by FNSS. These integrations allow for stabilized firing from moving or stationary positions, with the tube interfacing directly into the vehicle's stations. Additionally, turret-mounted configurations support remote operation from open or enclosed turrets on land platforms, maintaining the system's core fire control and sighting capabilities. Complementing the hardware, the OMTAS package includes a simulator for operator familiarization and proficiency development without expending live munitions. This simulator replicates the full interface, including the fire control unit and sight, to ensure safe and efficient crew . Overall, these components prioritize modularity, enabling seamless and deployment in diverse tactical environments.

Guidance and warhead

The OMTAS missile utilizes an uncooled imaging infrared (IIR) seeker developed by , which enables operation through automatic lock-on before launch and advanced image processing for reliable in cluttered or adverse environments. This gyro-stabilized seeker features a high-resolution with wide and regard, supporting day/night and all-weather engagements while allowing mid-flight target switching and aim point updates via an integrated two-way RF . Additionally, the facilitates top-attack profiles, directing the missile to strike vulnerable upper armor sections of armored vehicles for enhanced lethality. The primary is a tandem high-explosive anti-tank () configuration, optimized for penetrating modern armored threats equipped with explosive reactive (ERA). In this design, a precursor detonates to neutralize ERA, enabling the main charge to generate a focused, high-velocity metal jet that achieves penetration behind ERA, leveraging the Munroe effect for directed explosive energy. For versatility against non-armored targets, selectable options include a high-explosive blast fragmentation and a thermobaric variant, both effective against soft-skinned vehicles, personnel, and light structures. Propulsion is provided by a solid-fuel motor using hydroxy-terminated polybutadiene (HTPB)-based , ensuring low and visual signatures for reduced detectability during launch and flight. This motor delivers rapid initial acceleration, propelling the missile to operational speeds shortly after launch to support its medium-range engagement envelope.

Specifications

Physical characteristics

The OMTAS , in its standard configuration with the integrated launch tube, has a length of 1.8 meters and a of 160 millimeters. The missile body incorporates deployable control surfaces for aerodynamic stability during flight. The missile and its disposable launch tube together weigh 35 kilograms, enabling man-portable deployment by teams. The accompanying tripod launcher, which includes the fire control and sighting units, adds 36 kilograms to the setup. This results in a total portable system weight of approximately 71 kilograms for the primary ground-launched configuration.

Performance parameters

The operates with a minimum engagement range of 200 meters and a maximum range of 4,000 meters, enabling versatile deployment against armored threats. It supports both line-of-sight direct attack and beyond-line-of-sight top-attack modes, allowing attacks on targets hidden from direct view by employing an overfly . In terms of , the OMTAS is effective against stationary and moving . Its tandem , with blast fragmentation and thermobaric effects, provides penetration capability sufficient to defeat modern main battle tanks equipped with explosive reactive armor. The guidance mode further supports multi-target engagement, as the operator can acquire and launch against additional threats immediately after initial firing without sustained line-of-sight. This accuracy is enabled by the imaging infrared seeker technology, which maintains target lock even in adverse conditions.

Operational history

Entry into service

The OMTAS medium-range was officially adopted by the in June 2017, marking its entry into active military service. On June 2, 2017, the acquired the initial batch consisting of one OMTAS launching and eight missiles, which were designated for integration into the inventory of anti-tank battalions. This induction represented the culmination of qualification processes and enabled the system's initial fielding to specialized and mechanized units equipped for armored threat neutralization. Following adoption, operator programs were established, incorporating the system's built-in training simulator to facilitate realistic scenario-based instruction for fire control and launch operations. These programs supported doctrinal updates within anti-tank units, emphasizing portable tripod deployment and rapid response tactics. Additionally, integration efforts progressed, with achieved for mounting OMTAS on platforms such as the FNSS Kaplan STA armored ; qualification tests for this configuration were successfully completed, allowing initial deliveries of equipped Kaplan vehicles to the by 2020. Early logistics for OMTAS were managed under , the system's developer, with a focus on establishing a domestic for spare parts and maintenance support to ensure operational readiness in field units. Serial production ramp-up paralleled these efforts, enabling broader rollout to anti-tank battalions beyond the initial acquisition.

Combat deployments

As of November 2025, detailed public information on specific combat deployments of the OMTAS system is limited. The system has been integrated into platforms for operations in regions such as northern and along the Turkey-Iraq border, where Turkish forces continue counter-terrorism efforts against PKK/YPG threats. Its technical capabilities, including a maximum range of 4 km and imaging infrared seeker for all-weather operations, support potential use in such asymmetric engagements.

Operators

Turkish users

The OMTAS (Orta Menzilli Tanksavar Sistemi) serves as the primary system for the , forming a cornerstone of Turkey's indigenous defense capabilities. Developed by , it has been procured in significant quantities to equip frontline units. These acquisitions support the replacement of older foreign systems like the TOW, enhancing operational independence and effectiveness against armored threats. Within the , OMTAS is primarily assigned to brigades and units, where its man-portable and vehicle-mounted configurations provide versatile deployment options. For instance, it equips teams in high-mobility scenarios and supports rapid response operations by units requiring precision strikes at medium ranges. This assignment pattern ensures broad coverage across Turkey's diverse terrain, from border regions to expeditionary roles. Integration of OMTAS into Turkish platforms underscores its role in modernizing the army's arsenal. It is mounted on indigenous wheeled vehicles such as the PARS 4x4 anti-tank vehicle and Kaplan platforms, enabling fire-on-the-move capabilities for mechanized formations. In October 2025, the received additional OMTAS-equipped PARS 4x4 and Kaplan vehicles, further enhancing inventory. Additionally, variant compatibility allows deployment from T129 Atak helicopters via the related air-launched configuration, facilitating operations with aerial support. These integrations replace legacy systems in frontline roles, improving survivability and tactical flexibility. The adoption of OMTAS bolsters Turkey's defense self-reliance by reducing dependence on imported munitions, aligning with national goals for domestic production under . Annual training exercises conducted by the validate its interoperability with other systems, such as the long-range variant, through joint maneuvers that simulate real-world scenarios and refine crew proficiency. This ongoing validation process ensures seamless integration within broader networked warfare doctrines.

International operators

The Kosovo Security Force became the first confirmed international operator of the OMTAS anti-tank guided missile system in 2023, acquiring it to enhance territorial defense capabilities against armored threats. The acquisition included the standard portable configuration, comprising the missile, tripod-mounted launch platform, fire control unit, and training simulator, without reported major modifications. Turkish experts provided operation and maintenance training to Kosovo personnel during the NATO-led Defender Europe 2023 exercise, supporting interoperability within the alliance framework. Potential interest in OMTAS has been expressed by other nations, including and , as evidenced by 's participation in regional defense exhibitions from 2023 to 2025. In , showcased the system at the DIMDEX 2024 event, highlighting its integration potential for various platforms. Similarly, at the ADEX 2024 exhibition in , Turkish firms including presented anti-tank solutions amid ongoing military cooperation discussions. No deliveries to these countries have been confirmed as of November 2025. These exports underscore Turkey's emerging role as a significant ally in providing advanced anti-tank systems to partners, with OMTAS emphasizing guidance for day-night operations. No combat deployments by international operators have been reported to date.

References

  1. https://www.roketsan.com.tr/en/products/omtas-medium-range-anti-tank-weapon-system
  2. https://www.aa.com.tr/en/science-technology/turkish-army-adopts-home-grown-anti-tank-missile-system/838182
  3. https://en.topwar.ru/11446-vooruzhenie-tureckih-vs-protivotankovyy-raketnyy-kompleks-omtas.html
  4. https://www.overtdefense.com/2023/05/24/kosovo-procures-omtas-anti-tank-missiles-and-pmt-76-57a-machine-guns-from-turkey/
  5. https://turdef.com/article/roketsan-exports-atgms-to-malaysia
  6. https://armyrecognition.com/archives/archives-land-defense/land-defense-2024/omtas-anti-tank-weapon-mounted-on-kaplan-10-armored-vehicle-of-turkish-army-at-saha
  7. https://www.c4defence.com/en/2018/08/27/ready-to-serial-production/
  8. https://www.aberfoylesecurity.com/?p=1176
  9. https://media.setav.org/en/file/2019/04/the-rise-of-the-turkish-defense-industry.pdf
  10. https://www.janes.com/osint-insights/defence-news/aselsan-signs-for-serial-production-of-omtas-ir-seeker
  11. https://researchcentre.trtworld.com/wp-content/uploads/2020/11/Turkeys-National-Defence-Industry-Origins-Transformation-and-Achievements.pdf
  12. https://armyrecognition.com/archives/archives-land-defense/land-defense-2019/roketsan-delivers-antitank-missiles-to-turkish-army
  13. https://www.defenceturkey.com/en/content/the-first-omtas-shot-from-a-moving-vehicle-accomplished-as-part-of-the-atv-project-3702
  14. https://www.armyrecognition.com/archives/archives-land-defense/2017/idef-2017-roketsan-about-to-complete-umtas-omtas-anti-tank-missiles-development-project-20905173
  15. https://www.dailysabah.com/business/defense/turkish-army-receives-first-batch-of-domestic-anti-tank-turret-mounted-vehicles
  16. https://bulgarianmilitary.com/2024/02/18/roketsan-innovates-ultra-affordable-anti-tank-laser-guided-missile/
  17. https://wwwcdn.aselsan.com/api/file/UMTAS_OMTAS_IIR_SEEKER_ENG.pdf
  18. https://www.roketsan.com.tr/uploads/docs/kataloglar/ENG/2024/1726595983_omtas.pdf
  19. https://www.globalsecurity.org/military/world/europe/omtas.htm
  20. https://www.militaryperiscope.com/weapons/missilesrocketsbombs/anti-tank/omtas-medium-range-anti-tank-missile/overview/
  21. https://cdn.aselsan.emrg.me/api/file/UMTAS_IIR_SEEKER_ENG.pdf
  22. https://defensetalks.com/roketsans-anti-tank-missiles-continue-to-prove-their-success-in-the-field/
  23. https://www.researchgate.net/publication/371959374_Analysis_Of_The_Development_Of_Five_Generation_Of_Anti-Armor_Missile_Systems
  24. https://cdn.turdef.com/files/articles/4706/mXDQSoPhi7c2kXcfBGrhOqIHCcW7xAlkQhUJJj8b.pdf
  25. https://thaimilitaryandasianregion.wordpress.com/2017/06/10/omtas-anti-tank-and-anti-armor-missiles/
  26. https://militaryleak.com/2018/09/06/omtas-anti-tank-guided-missile-atgm/
  27. https://alert5.com/2017/06/12/roketsan-omtas-inducted-into-service-with-turkey/
  28. https://www.armyrecognition.com/archives/archives-land-defense/2021/idef-2021-roketsan-showcases-omtas-medium-range-antitank-weapon-system
  29. https://defensemirror.com/news/27282/Turkish_KAPLAN_Armored_Vehicles_now_Equipped_with_Anti_tank_Missiles
  30. https://www.iletisim.gov.tr/images/uploads/yayin/turk-savunma-sanayisinin-yukselis-hikayesi-en.pdf
  31. https://millimudafaa.com/current-news/turkiyes-new-anti-tank-power-kaplan-and-pars-vehicles-enter-taf-inventory
  32. https://defensehere.com/en/taf-receives-new-omtas-mrat-missiles-carrying-kaplan-and-pars-at-vehicles/
  33. https://www.globalsecurity.org/military/world/europe/umtas.htm
  34. https://www.dailysabah.com/business/defense/homegrown-missiles-systems-of-turkiyes-roketsan-ensure-national-security
  35. https://www.defenceturkey.com/en/content/roketsan-presents-its-advanced-technology-defence-systems-in-qatar-5882
  36. https://www.aa.com.tr/en/science-technology/turkish-defense-firms-showcased-at-azerbaijan-international-defense-expo/3343963
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