Origins |alt= 2008|alt= During the late 1990s,
India and neighbouring nation
Pakistan engaged in a brief but intensely-fought conflict commonly known as the
Kargil War. This war, in which various elements of the Indian military were deployed, revealed operational shortcomings and areas for improvement, particularly the requirement for an
attack helicopter that would be suitable for use within the high altitude climates in which some combat operations were fought along the north-western border region. Accordingly, there was considerable interest in not only the acquisition of a suitable contemporary rotorcraft for the task (as well as to replace several aging types in Indian military service, such as the
Mil Mi 24s, Cheetah and
Chetak), but for such an aircraft to be domestically developed and manufactured in India as well. During early 2004, Indian aerospace manufacturer
Hindustan Aeronautics Limited (HAL) declared that the company was in the midst of discussions with the Indian armed forces on the prospects for a potential light combat helicopter derivative of the company's existing
Dhruv utility helicopter platform for the requirement. During late 2004, the Indian armed forces decided to curtail plans to order foreign-built attack helicopters in anticipation of a decision to formally select the tentative LCH. During 2006, HAL publicly announced that it had embarked upon the development of such an attack helicopter, which it referred to as the
Light Combat Helicopter (LCH). During November 2008, the company declared that, while the first flight had been postponed until March 2009, it was still working to secure
initial operating capability (IOC) for the LCH by December 2010, while it was still anticipated that the type would receive its Final Operational Clearance (FOC) during 2011. During February 2009, Baweja announced another six-month delay to the development timetable, he also attributed some of the setbacks in the programme as having been a result of HAL's suppliers failing to deliver necessary tooling on time.
Prototype and testing During late January 2010, HAL stated that the LCH had successfully completed initial ground tests and was now ready to fly; the first flight was anticipated to occur during February. On 4 February 2010, the first LCH prototype completed its first powered ground run. On 29 March 2010, the maiden flight of the LCH was conducted by the type's first LCH Technology Demonstrator (TD-1). It flew a 20-minute flight from HAL's Helicopter Complex at
Bengaluru, during which the rotorcraft carried out low speed, low altitude checks on the systems on board. Following the completion of the flight, the crew reported that the performance of the helicopter and systems were satisfactory.An extensive test programme, involving a total of four prototypes, was conducted. During the course of these tests, the LCH gained the distinction of being the first attack helicopter to land in
Siachen, having repeatedly landed at several high altitude helipads, some of which being as high as . . On 23 May 2010, following the successful completion of the third test flight of the LCH prototype, it was deemed to have fulfilled the desired parameters, thus enabling further armed tests to proceed. The second LCH prototype (TD-2) differed considerably from its predecessor, as it was fitted with armaments and featured a substantial reduction in weight. It was publicly unveiled at Aero India 2011 in February 2011. Speaking at the event, HAL stated that the program had exceeded the human and payload requirements mandated by the IAF for its development. On 28 June 2011, TD-2 performed its first flight, allowing it to join the test programme. On 1 July 2012, the LCH began a series of trials near
Chennai; among other elements, the onboard air speed measurement system was evaluated and various component stresses were measured. Between late June and early July 2012, the second prototype, TD-2, was involved in a series of sea level trials. These trials covered flight performance, the measurement of loads, and the rotorcraft's handling qualities. rockets and
Mistral missile During mid-2012, the third LCH prototype, which was claimed to be significantly lighter than either of its predecessors as well as incorporating various other improvements, was reportedly set to be delivered. Both TD-3 and TD-4 were extensively used during the test programme for the purpose of testing the rotorcraft's mission sensors and weapon systems, which involved a series of live-firing trials. Reportedly, a total of had been sanctioned for the development and structural build of the fourth prototype. During early 2015, a number of cold weather trials involving the third prototype (TD-3) were carried out at
Leh Air Force Station (AFS). During these tests, engine start-up tests (performed using internal batteries after lengthy overnight exposure to the cold climate without special protective measures being applied) proved satisfactory at the temperatures as low as −18 °C at an altitude of . Several flights were also carried out to assess the rotorcraft's high altitude performance and low speed handling. During the course of these tests, the LCH gained the distinction of being the first attack helicopter to land in
Siachen, having repeatedly landed at several high altitude helipads, some of which being as high as to . During June 2015, the LCH successfully completed hot weather flight trials at
Jodhpur, during which the type was exposed to temperatures ranging from 39 to 42 °C. The flight testing reportedly covered 'temperature survey of engine bay and hydraulic system', 'assessment of performance', 'handling qualities and loads' at different 'all up weights', 'low speed handling' and 'height-velocity diagram establishment'. during
2020–2022 China–India skirmishes On 1 December 2015, LCH TD-4 completed its first flight. By March 2016, the LCH had reportedly completed basic performance flight testing and outstation trials, including a number of live-fire tests involving prototype TD-3 firing 70 mm rockets in its weaponized configuration. By mid-2016, certification firing trials had commenced, these included tests of the integration of its mission sensors, such as the electro-optical system, helmet pointing system, and of the various armaments –
air-to-air missiles, turret gun and rockets – that the type can deploy. During mid-2016, the LCH was recognised as having completed its performance trials, paving way for the certification of its basic configuration; a letter confirming this status had been hand-delivered to HAL by
CEMILAC in the presence of the
Indian Defence Minister earlier on16 October 2015.. On 31 January 2018, LCH TD-2 was flown with an Automatic Flight Control System (AFCS) designed by HAL. The new system is expected to replace the previously imported Automatic Flight Control System. It was reported that an indeginious radar is under development for LCH. On 17 January 2019, LCH completed weapons trials with the successful firing of
Mistral-2 air-to-air missile at a flying target. On the same day, HAL announced that the LCH is ready for operational service after completing the required weapon integration tests.
Production at HAL facility|left On 26 August 2017, full-scale production of the LSP variant of
Prachand was formally inaugurated by
Defence Minister Arun Jaitley after it received
initial operation clearance (IOC) the same day. On 21 February 2019, Thales announced that it was awarded a contract to supply 135 70 mm rockets for 15 LCHs alongside 18
HAL Rudra. The LCH was declared ready for full-scale production in February 2020. HAL's Helicopter Division, based in Bengaluru, has established a dedicated hangar to accommodate the LCH assembly line. During September 2020, the first LCH of the limited series production (LSP) batch had reportedly commenced ground-based testing. Following the
January 2025 HAL Dhruv crash of the Indian Coast Guard in which three personnel lost their lives, the Prachand fleet was also temporarily grounded as the LCH inherited some design features from Dhruv. The fleet was again cleared for operations on 11 June 2025 after replacing few sub-components as suggested by the defect investigation committee (DIC). On 13 April 2026, Secretary (Defence Production), Sanjeev Kumar, inaugurated the LCH production line and an Automated Storage & Retrieval System (ASRS) at the
Tumukru factory. He also visited the LUH production facility and the LCH equipping hangar. This facility will also be used during the production of
HAL DBMRH and
HAL IMRH. Orders By 2010, the Indian Air Force was reportedly set to acquire 65 LCHs while the Indian Army was to also procure 114 LCHs for its own purposes. A total of 162 LCHs are planned to be ordered as of 2020. On 19 November 2021,
Prime Minister Narendra Modi formally handed over the LCH to IAF
Air Chief Marshal Vivek Ram Chaudhari, clearing way for full scale induction. 15 Limited Series Production variants for Army and Air Force are being built at HAL and the first two were scheduled to be delivered by March 2022. An additional hangar was set up in which reportedly is capable of achieving a peak production of 30 helicopters per year. On 22 July 2021, it was announced that HAL will deliver the first three LCHs to the Indian Air Force. On 30 March 2022, the
Cabinet Committee on Security (CCS) approved the limited series production of 15 LCHs, including ten for the IAF and five for the Indian Army. The contract worth along with infrastructure sanctions at was signed in 2022 itself. As of August 2022, HAL had manufactured nine LCHs which were in the process of being delivered to the Services. The LSP deliveries are underway and are scheduled to be finished by July 2024. On September 29, 2023, the Indian Air Force and Indian Army announced their intention to purchase 156 more helicopters. Subsequently, on 30 November 2023, Defence Acquisition Council (DAC) accorded Acceptance of Necessity (AoNs) for procurement of 156 LCH Prachand for both IAF and IA. On 17 June 2024,
Ministry of Defence issued
Request for Proposal (RFP) for 156 additional helicopters. On 28 March 2025, the deal, worth , was cleared by the
Cabinet Committee on Security (CCS). The helicopters will be manufactured in HAL's Bangaluru and Tumukru plant in
Karnataka. On the same day, two contracts, one for 66 helicopters for the Air Force and the second for 90 helicopters for the Army were signed with the Hindustan Aeronautics Limited. Both the contracts include training and other associated equipment. Deliveries will start from the 3rd year of sending the contract and will be followed by delivery of 30 helicopters per year, completing the contract within the next 5 years. The helicopters will have an indigenous content of over 65%. Around 40% of the contract, or , would be outsourced to the private sector firms to enhance defence ecosystem.
Upgrades In comparison to the limited series production helicopters used by the Indian military, the serial production variant will feature 7 new systems, including new weapons systems and at least four major upgrades. Newly integrated systems include directed
infrared countermeasures, Indian-origin
air-to-ground missiles and laser-guided rockets, contemporary
electronic warfare systems,
nuclear detection capabilities, a datalink for secure communication with other Indian military platforms to enhance
network-centric capabilities, and an
obstacle avoidance system. Meanwhile, multiple systems will be upgraded in the serial production helicopters like the
electro-optical pod for improved tracking, surveillance, and targeting, as well as the helmet-mounted pointing system to improve pilot performance, are among the equipment that will be enhanced. The new systems are expected to be ready by 18 months. The final serial production version will gradually raise the indigenous content from 45% by value to above 65%. HAL intents to deliver upgraded batches of Prachand from 2027 onwards and complete its orders for 156 choppers to the Indian Armed Forces by 2033. These choppers will be upgraded with
Directed Infrared countermeasures,
HMDS, a new Targeting system, Secure Datalinks,Nuclear detection and
Electronic warfare suites along with newer weapon systems. ==Design==