The DNS-070 Zagarevo Class is a guided missile frigate vessel as a security force for larger ships in naval units. It operated as a large ship and structured with modern stealthier design. The DNS-070 could be comparable to a destroyer due to its large size and arsenal but are distinguished by their role. There are 8 active Zagarevo Class FFG ships mainly stationed in mainland Divinia. 3 in the west coast, 4 in the east, and 1 currently operating near Tzor. The DNS-070 has a large variety of defensive and offensive weapons for the sovereignty of the ship, and for its fleet, as well as a striking force and deterrence against the enemy forces on ground, air, and sea. The Zagarevo Class has a 76mm automatic main gun for small range and artillery use and for light firepower. 2 Close in Weapons each side of the bridge for a defensive line for counter attacking incoming threats like drones, missiles, or aircraft, as well as a larger CIWs in the front to defend the front deck from any danger heading frontward. The main weapon of the DNS-070 is its 58 cell VLS system for strike missions or defense purposes. In the top middle of the bridge, there are 2 anti-ship cruise missile launcher pods pointing at each side direction with 4 cells each. At the back of the bridge, there are 2 25mm close-range autocannons for smaller threats like incoming small boat attacks. There is 1 RAM system in the back for defensive purposes and a second option if the CIW systems are jammed or not functional. The DNS-070 also has 2; 3 pod torpedo launchers inside of the vessel, and a helicopter for anti submarine warfare or other purposes. First introduced in 2014, it started development in late 2017 with its first model, and then modernized until its last ship was produced in 2026. The Zagarevo Class has a cost of $1.2 billion each due to its modern technological advancements and gear.
Past frigate design seemed smaller for its purpose, so it’ll be converted into either a corvette, or sold to other countries. Ask to use and credit. https://scratch.mit.edu/projects/1304878410
