OSU-35K


The OSU-35K is a Polish naval remote weapon station and a close-in weapon system manufactured by PIT-Radwar. Armed with a 35 mm Oerlikon KDA autocannon, it is meant to defend surface combatants against various types of maneuvering aerial targets such as anti-ship missiles, unmanned aerial vehicles, conventional and rotary-wing aircraft, It can also engage surface and coastal targets. It is in service with the Polish Navy on the Kormoran II-class minehunters and is planned to equip the Wicher-class frigates.

Development

The development of the OSU-35K began in 2012 when the Naval High Command submitted a proposal to develop a naval weapon system armed with the KDA autocannon to the National Centre for Research and Development. On December 19, 2012, NCBR signed an agreement with the consortium consisting of the Military University of Technology, Polish Naval Academy, Bumar Elektronika S.A. and ZM Tarnów S.A. First, a prototype version of the system, named OSU-35 was to be developed and tested. The results of the prototype's trials and the experiences gained during its development would serve as a basis for designing a new, production variant of the system, the OSU-35K.
In 2013, the first renders of the OSU-35 were unveiled, showing a conventional design with the gun mounted in a fully enclosed, angular turret. The OSU-35 system consists of four major components: the AM-35 gun-turret armed with the KDA autocannon, the ZGS-158M optical sight fitted, the main fire control station and the emergency fire control station.
The prototype of the OSU-35 underwent trials at the end of 2015 at the Central Air Force Training Ground in Ustka, after which, in May 2016, it was mounted on the ORP Kaszub ASW corvette for the sea trials. The AM-35 turret was fitted on the superstructure, replacing the stern ZU-23-2M Wróbel double 23 mm gun mount, while the ZGS-158M sight was mounted amidships just behind the radar mast. The trials lasted two years and ended on July 21, 2018, when the OSU-35 was formally accepted into service.
The experiences gained during the design and testing of the OSU-35 allowed to start developing a new version of the system named OSU-35K. This variant was to be lighter and more compact as it was meant to be optimized for mounting on the Kormoran II-class minehunters. The design of the turret was changed to an open one, with a layout more similar to the MLG 27 or Mk 38. First renders of the system appeared in 2020, with a more detailed model being shown at the MSPO 2021 expo. The prototype of the system was tested on the Mesko's proving ground in Skarżysko-Kamienna in the summer of 2022.
On September 19, 2022, Polish Armament Group announced that two of its divisions, PIT-Radwar and PGZ Naval Shipyard, signed a contract for the delivery of three OSU-35K systems for the first three Project 258 minehunters - ORP Kormoran, ORP Albatros and ORP Mewa. On November 12, 2022, the AM-35K turret was mounted on the ORP Mewa minehunter to test the interchangeability of the systems between different ships of the class. The first ship to be fully integrated with the OSU-35K was the ORP Albatros, which received the system at the end of November. In mid 2023, the prototype of the system completed sea trials on board of the ORP Albatros, after which the OSU-35K was officially accepted into service in September. Later in 2023, the prototype of the OSU-35K was removed from the Albatros and returned to PIT-Radwar.
At MSPO 2024, PIT-Radwar presented a technology demonstrator of the Tuga X-band AESA radar. With the detection range of up to 50 km, Tuga is meant to be used as a sensor for the VSHORAD and CIWS systems, such as the OSU-35K. It can be used individually, or integrated into a hybrid, radar-optical sensor. During this expo, a prototype of a land-based SA-35 anti-air system was presented as well. It consists of the OSU-35K system mounted on the Jelcz 663.45 6×6 truck and is meant to provide point defense for stationary targets such as critical infrastructure, cities or air defense missile batteries.

Description

Armament

The armament of the system in all of its variants is a single 35 mm Oerlikon KDA autocannon produced by HSW under a license obtained in 1995 for the now cancelled Loara SPAAG program. The gun is gas operated, fires at a rate of 550 rpm and is belt-fed from both sides by two 100 rounds ammo racks. The dual feed feature of the KDA autocannon makes it unique among other guns of the KD family as it allows to use two different ammunition types and switch between them depending on the type of the target, which increases the flexibility of the system when compared to those based on the KDC or the KDG.

AM-35

The AM-35 turret is visually similar to that of the Oerlikon Millenium system, with the gun being placed centrally in an enclosed, angular housing. The ammunition is stored in two vertically placed drums located in the front of the turret, and fed via rigid and then flexible feed chutes. The spent cases are ejected forward, through a chute under the gun. The turret has a traverse range of 175° to each side depending on the ship it's mounted on, and the gun's elevation angles are -10° to +80°. The rate of traverse and elevation is 2 rad/s, with the acceleration of 2 rad/s². An emergency optical sight is mounted on the gun, which enables the turret to track targets independently, in case of the main sight being damaged. The turret system weighs about 4.3 tonnes, is 2.93 meters long, 2.61 meters wide, 1,76 meters tall above deck and the turret ring diameter is 2,12 meters.

AM-35K

The AM-35K is a much different design, more akin to remote control weapon stations mounted on armored vehicles. The turret is more open, made mostly out of carbon fiber. The gun is mounted externally and covered with a shroud to protect it from the adverse weather conditions. Two ammunition boxes are placed at the base of the turret, from which the ammunition is fed via flexible and then rigid feed chutes. The flexible chutes are protected against elements by composite covers to prevent feeding issues. Spent casings are ejected downwards from the gun, behind the turret mounting. The AM-35K turret weighs about 3.3 tonnes without ammunition, can traverse freely and the gun can be elevated from -10° to +85°, The gun shroud is fitted with a 3.2 Mpix camera meant for engaging targets from the emergency fire control station in case of the main sight or the ship's CMS being disabled.

Sensors

ZGS-158M

The sighting system of the OSU-35, the ZGS-158M, is based on the one used in the WD-95 command and fire control vehicle used in the Navy's 57mm land-based air defense batteries of the Blenda system, and it consists of a daytime and thermal cameras as well as a laser rangefinder and an IKZ-02 IFF system. The sight is mounted independently of the turret to eliminate the vibrations caused by the firing. The sight weighs about 350 kg has unlimited horizontal traverse and elevation angles of -10° to +85°, and the rate of both traverse and elevation is 3 rad/s, with the acceleration of 4.5 rad/s².

ZGS-35K

The ZGS-35K sight is made mostly out of carbon fiber and consists of a daytime and thermal cameras as well as a laser rangefinder and an IKZ-50P IFF system. The laser rangefinder has a maximum range of 30 km and a ranging rate of 30 Hz, which allows the system to accurately engage fast moving targets with programmable ammunition. The daylight camera operates in the 350-700 nm wavelength spectrum and has a detection range of 25 km against a 2.3 × 2.3 m target, while the thermal camera has an wavelength spectrum of 3.5 μm and can detect the same sized target at a distance of 15 km. The sight has unlimited horizontal traverse, elevation angles of -10° to +85° and weighs 145 kg.

Tuga radar

One of the intended roles of the Tuga radar is to be integrated with the optical sensors of the OSU-35K and serve as the system's fire control radar. The radar incorporates GaN technology and operates in the X-band. Its detection range is up to 50 km, with small targets being detected at up to 5 km. Thanks to the AESA technology, a single antenna has a coverage of 90° in azimuth and 33° in elevation.

Ammunition

There are three types of ammunition used by the OSU-35 and OSU-35K systems - FAPDS-T and TP-T and ABM, known under the name SAP-35. Both FAPDS and TP rounds were developed in the end of the 20th century for the Loara program before its cancellation. The FAPDS ammunition allows the system to engage targets at longer ranges as well as to engage fast moving targets more easily thanks to the greater velocity of the projectile. The development of the airburst ammunition started somewhere in the 2nd decade of the 21st century in relation to the San and Noteć programs meant to replace the Navy's 57mm land-based air defense systems. The ammunition passed factory trials in 2019, and on December 12, 2022, NCBR and the consortium consisting of the Military University of Technology, PIT-Radwar S.A. and Mesko S.A. signed an agreement for testing and implementation of the SAP-35 airburst ammunition. The ammunition is to be ready for serial production and service by mid 2025.
The SAP-35 ammunition is similar to the German AHEAD, in that it is also programmed at the muzzle consists of 152 tungsten subprojectiles, each weighing around 3.3 grams, that are released at a predetermined distance. Together with a high-frequency laser rangefinder, the programmable ammunition allows the system to engage fast moving and maneuvering targets at ranges up to 3.5 km. The subprojectiles have a penetration of 7 mm RHA directly after the release, which enables SAP-35 to perform C-RAM duties.
TypeDesignationCartridge weight Projectile weight Bursting charge Muzzle velocity Effective range Penetration
FAPDS-T-1460380-14405500N/A
ABMSAP-351850750N/A10503500-
TP-T-1588550-11803000-