Electronics and Radar Development Establishment

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Electronics & Radar Development Establishment
इलेक्ट्रोनिक्स एवं रडार विकास स्थापना
Established1962
Field of research
Radar Systems
DirectorShri. P Radhakrishna
AddressDRDO Complex,
C.V. Raman Nagar,
Bengaluru-560 093
LocationBengaluru, Karnataka, India
Operating agency
DRDO
WebsiteLRDE

Electronics and Radar Development Establishment (LRDE) is a laboratory of the Defence Research & Development Organisation (DRDO), India. Located in C.V. Raman Nagar, Bengaluru, Karnataka, its primary function is research and development of radars and related technologies.[1] It was founded by S. P. Chakravarti, the father of Electronics and Telecommunication engineering in India, who also founded DLRL and DRDL.[2]

LRDE is sometimes mis-abbreviated as "ERDE". To distinguish between "Electrical" and "Electronic", the latter is abbreviated with the first letter of its Latin root (lektra). The same approach is used with for the DLRL. The LRDE is India's premier radar design and development establishment and is deeply involved in Indian radar efforts. Its primary production partners include Bharat Electronics Limited (BEL) and various private firms like Mistral Solutions in Bengaluru, Astra microwave in Hyderabad and Data Patterns in Chennai.

LRDE Radars[edit]

The DRDO's initial projects included short range 2D systems (Indra-1), but it now manufactures high power 3D systems, airborne surveillance and fire control radars as well. The publicly known projects include:

  • INDRA series of 2D radars meant for the Army and the Air Force use. This was the first high power radar developed by the DRDO, with the Indra-I radar for the Indian Army, followed by Indra Pulse Compression (PC) version for the Indian Air Force, also known as the Indra-II, which is a low level radar to search and track low flying cruise missiles, helicopters and aircraft. These are basically 2D radars which provide range, and azimuth information, and are meant to be used as gapfillers. The Indra 2 PC has pulse compression providing improved range resolution. The series are used both by the Indian Air Force and the Indian Army[3]
  • Rajendra fire control radar for the Akash SAM: The Rajendra is a high power, Passive electronically scanned array radar (PESA), with the ability able to guide up to 12 Akash SAMs against aircraft flying at low to medium altitudes. The Rajendra has a detection range of 80 km with 18 km height coverage against small fighter sized targets and is able to track 64 targets, engaging 4 simultaneously, with up to 3 missiles per target. The Rajendra features a digital high speed signal processing system with adaptive moving target indicator, coherent signal processing, FFTs, and variable pulse repetition frequency. The entire PESA antenna array can swivel 360 degrees on a rotating platform. This allows the radar antenna to be rapidly repositioned, and even conduct all round surveillance.[4]
  • Central Acquisition Radar, a state of the art planar array, S Band radar operating on the stacked beam principle. With a range of 180 km against fighter sized targets, it can track while scan 200 of them. Its systems are integrated on high mobility, locally built TATRA trucks for the Army and the Air Force; however it is meant to be used by all three services. Initially developed for the long-running Akash SAM system, seven were ordered by the Indian Air Force for their radar modernisation program, and two of another variant were ordered by the Indian Navy for their P-28 Corvettes. The CAR has been a significant success for radar development in India, with its state of the art signal processing hardware.[5][6]
  • BFSR-SR, a 2D short range Battle Field Surveillance Radar, meant to be man-portable. Designed and developed by the LRDE, the project was a systematic example of concurrent engineering, with the production agency involved through the design and development stage. This enabled the design to be brought into production quickly.[7][8]
    BFSR-SR
  • Long Range Tracking Radar: The LRTR a 3D AESA was developed with assistance from Elta of Israel, and is similar to Elta's GreenPine long range Active Array radar. The DRDO developed the signal processing and software for tracking high speed ballistic missile targets as well as introduced more ruggedisation. The radar uses mostly Indian designed and manufactured components such as its critical high power, L Band Transmit-Receive modules plus the other enabling technologies necessary for active phased array radars. The LRTR can track 200 targets and had a range of above 600 kilometres (370 mi) and can detect Intermediate Range Ballistic Missiles. The LRTR would be amongst the key elements of the Indian ABM system.[9]
  • 2D Low Level Lightweight Radar (LLLR) "Bharani" for the Army. The LLLR is a 2D radar with a range of 40 km against a 2 target, intended as a gapfiller to plug detection gaps versus low level aircraft in an integrated Air Defence Ground network. The LLLR makes use of Indra-2 technology, namely a similar antenna array, but has roughly half the range and is much smaller and a far more portable unit. The LLLR can track while scan 100 targets and provide details about their speed, azimuth and range to the operator. The LLLR makes use of the BFSR-SR experience and many of the subsystem providers are the same. Multiple LLLRs can be networked together. The LLLR is meant to detect low level intruders, and will alert Army Air Defence fire control units to cue their weapon systems.[10]
  • A model of the BEL Weapon Locating Radar
    BEL Weapon Locating Radar: A 3D radar developed from the Rajendra fire control radar for the Akash system, this radar uses a passive electronically scanned array to detect multiple targets for fire correction and weapon location. The system has been developed and demonstrated to the Army and orders have been placed[11]

Apart from the above, the DRDO has also several other radar systems currently under development or in trials. The systems on which publicly available information is available include:

  • Active Phased Array radar: Uttam AESA is an indigenously developed active electronically scanned array (AESA) fire control radar. It is being developed for the LCA Mk2 and Mk1 (presumably Mk1s will be upgraded with the system) and also other aircraft upgrades such as the IAF's Jaguars and MiG-29Ks. Hardware has already been realised for this radar which has a range of 100 km against small fighter sized targets and rooftop testing is underway. Though the Uttam AESA currently weighs 120 kg which is some 40 kg more than the current MMR, there will be no problem in integrating it with the LCA Mk-II which can easily carry a radar of this weight.[12] It is a 3D radar for fighters, a MMR follow on, the APAR project aims to field a fully fledged operational AESA fire control radar for the expected Mark-2 version of the Light Combat Aircraft. This will be the second airborne AESA program after the AEW&C project and intends to transfer the success the DRDO has achieved in the Ground-based radar segment to airborne systems. The overall airborne APAR program aims to prevent this technology gap from developing, with a broad based program to bring DRDO up to par with international developers in airborne systems: both fire control and surveillance.
  • Airborne Warning and Control: Ready for delivery as of 2015. A new radar based on Active Electronically Scanned Array technology. The aim of the project is to develop inhouse capability for high power AEW&C systems, with the system covering the development of a S Band AESA array. The aircraft will also have datalinks to link fighters plus communicate with the IAF's C3I infrastructure, as well as a local SATCOM (satellite communication system), along with other onboard ESM and COMINT systems.[13]
  • Air Defence Tactical Control Radar (ADTCR): The Air Defence Tactical Control Radar (ADTCR) is a 3D AESA radar. It is developed by Electronics and Radar Development Establishment (LRDE), a laboratory of the DRDO which is being developed for Indian Army. Air Defence Tactical Control Radar (ADTCR) is used for volumetric surveillance, detection, tracking and friend/foe identification of aerial targets of different types, and transmission of prioritised target data to multiple command posts/ weapon systems. The radar is capable of detecting very small targets and low flying targets. It is capable of tracking 100 aerial targets at a time. It has a range of 500 km (maximum).

Products[edit]

References[edit]

  1. "Electronics and Radar Development Establishment". Archived from the original on 31 January 2008. Retrieved 8 February 2008.
  2. "Prof. S.P. Chakravarti (1904–1981) | Mitra, S.N. | download".
  3. Indra-I radar, image copyright Bharat Rakshak Archived 26 February 2009 at the Wayback Machine
  4. Rajendra Radar, image copyright Bharat Rakshak and DRDO Archived 26 February 2009 at the Wayback Machine
  5. "JPEG image of the 3D CAR, image copyright Acig.org". Retrieved 31 August 2010.
  6. "IAF modernisation". The Economic Times. Economictimes.indiatimes.com. 12 November 2008. Retrieved 31 August 2010.
  7. Source (8 February 2005). "BFSR orders and export push". Finance.indiainfo.com. Archived from the original on 10 January 2009. Retrieved 31 August 2010.
  8. "BEL to export anti-infiltration radar to Indonesia". Hinduonnet.com. 6 August 2007. Archived from the original on 13 October 2007. Retrieved 31 August 2010.{{cite web}}: CS1 maint: unfit URL (link)
  9. "Details of LRTR from 2004". The Hindu. 15 April 2005. Archived from the original on 20 April 2005. Retrieved 31 August 2010.
  10. "LLLR Specifications". Media.bharat-rakshak.com. 18 January 2007. Archived from the original on 21 October 2007. Retrieved 31 August 2010.
  11. "WLR prototype, image copyright Bharat Rakshak". Bharat-rakshak.com. 18 January 2007. Archived from the original on 10 August 2010. Retrieved 31 August 2010.
  12. "Saurav Jha's Blog : The Radiance of Tejas: A bright prospect for 'Make in India'". ibnlive.in.com. Archived from the original on 24 December 2014. Retrieved 17 January 2022.
  13. "Aircraft for AWACS to be chosen by the IAF". Blonnet.com. 25 January 2006. Archived from the original on 13 August 2010. Retrieved 31 August 2010.

External links[edit]

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