Tuesday, May 28, 2019

'Desi' Active RF Seeker For Astra-1 & Astra-2 BVRAAMs, QR-SAM & Akash-1S E-SHORADS


Technological convergence coupled with engineering innovation have resulted in the indigenous Ku-band active RF seeker developed by the DRDO’s Hyderabad-based Research Centre Imarat (RCI) being adopted for use by three different types of guided-missiles: the Astra-1 beyond visual-range air-to-air missile (BVRAAM), the land-mobile QR-SAM for both the Indian Army and Indian Air Force, and the Akash-1S E-SHORADS for both the Indian Army and Indian Air Force.
Given the huge requirement within a short timeframe for this seeker, parallel final-assembly lines are now being created within the state-owned Bharat Dynamics Ltd, VEM Technologies and the Kalyani Group.
It may be recalled that during the DEFEXPO 2018 expo at Chennai, Kalyani Group had unveilled its version of this seeker, which was then known as ‘Netra’. VEM Technologies, on the other hand, had been showing its version of the same seeker since 2015.
The maiden test-firing of an Akash-1S surface-to-air missile equipped with this Ku-band actiove RF seeker was conducted on December 5, 2017 from the Launch Complex-III at Integrated Test Range at Chandipur in Odisha. This was followed by two successive test-firings on May 26 and 27, 2019.
Following a final round of user-trials of the QR-SAM and Akash-1 before the year’s end, series-production of up to 4,000 rounds each of the QR-SAM and Akash-1S will commence next year.
The very same RF seeker will also equip the projected Astra-2 BVRAAMs powered by SFDRs.

Thursday, May 16, 2019

About SDRs, Jaguar MAX & Alpha-S Multi-Purpose UAS


Certification-related testing of the DRDO/DEAL-developed High Frequency (HF), Very High Frequency (VHF) and Ultra High Frequency (UHF) software-defined radio (SDR-NC), covering a waveband of 3 megaHertz to 3 gigaHertz, has been completed, thereby paving the way for Bharat Electronics Ltd (BEL) to commence series-production of the SDR-NC units for all now Indian Navy principal surface combatants and submarines.
The SDR-NC accommodates 10 waveforms for carrying voice and data traffic with proprietary encryption and frequency-hopping communications security. In terms of data rates, rates of 9.6 kiloBits-per-second (kBps) are achievable when using the HF radio, although this increases to 200kBps when using the VHF radio. The SDR-NC comprises a single HF radio and two VHF transceivers. Given the size of the programme, BEL expects deliveries of the SDR-NCs to continue until around 2025. In the airborne domain, BEL is moving towards the third phase of testing of the airborne version of the SDR-NC.
The SDR-NC is also used as the transmitting/receiving platform for the Indian Navy’s Link-2 family of secure tactical/strategic data-link network that allows for seamless transmission and reception of data/imagery/voice inputs in real-time not only between different platforms, but also between different fleets—indigenous and multinational.
In other words, the SDR-NC/Link-2 combination is the Indian Navy’s answer to the US Navy’s Combined Enterprise Regional Information Exchange System (CENTRIXS), with the latter existing as long ago as the mid-1980s!
More information on the CENTRIXS is available here:



The SDR-NC/Link-2 combination was operationally tested as recently as two days ago when the Barak-8 LR-SAMs fired by two Project 15A guided-missile destroyers were provided fire-control guidance by just one Project 15A DDG, i.e. the tactical air situation picture and target engagement was provided by only one warship, while the weapons were concurrently launched by two warships. This capability now also enables an airborne platform (like shipborne NMRHs and LRMR/ASW platforms) to acquire its target far beyond the warship’s horizon and relay the tactical surface situation picture to a warship, which will enable the latter to launch its long-range anti-ship cruise missiles without the warship’s Garpun Bal-E target acquisition radar ever acquiring and illuminating its surface targets.
Be it for warships, submarines or airborne platforms, the secondary transmitting/receiving systems for the SDR-NC/LINK-2 combination (apart from the VHF/UHF transceivers) are ORBIT-supplied OceanTRx (Rukmani) stabilised VSAT antennae that operate in the C, Ka, Ku and X bands.
The V/UHF transceiver has been undergoing testing on an Indian Navy-owned and Hindustan Aeronautics Ltd-built (HAL) Dornier Do-228-101/201 turboprop. The third test phase is expected to commence by the end of this July, prior to the commencement of additional testing. Tentatively, BEL expects to commence production of the airborne SDR-NCs in 2020.
For the Indian Air Force (IAF), the combat aircraft-type to incorporate SDR will be the Jaguar IS/DARIN-3, which is expected to enter squadron service by this August. The SDR used is the HAL-developed SOFTNET SDR-2010.
The SDR-2010 was originally developed for the Super Su-30MKI project.
For the projected 83 Tejas Mk.1A L-MRCAs, the SDR selected is RAFAEL Advanced Defence Systems-developed BNET-AR.
Homegrown IFF Transponders Explained
BrahMos-A Test-Fired
The second test-firing of the BrahMos-A ALCM was successfully undertaken on May 22, 2019 when the BrahMos-A, after being gravity-dropped from a Su-30MKI’s fuselage, flew for its full range towards the designated land target set at the Car Nicobar Island.
The Su-30MKI had taken off from Thanjavur air base in Tamil Nadu.
On the very same day, a BrahMos-1 was successfully test-fired by a MAL of the Indian Army’s Eastern Command from Car Nicobar Island at 1450 hours as part of a joint training exercise with the IAF and Indian Navy.
BrahMos Aerospace had conducted the maiden successful test-firing of the BrahMos-A ALCM against a ship target in November 2017 in the Bay of Bengal off India’s eastern coast.
IAI-Delivered RISAT-2B Launched By ISRO
The 615kg RISAT-2B, delivered to ISRO by Israel Aerospace Industries (IAI) to ISRO, was successfully launched on May 22, 2019. There will also be two identical IAI-delivered duplicate satellites, named RISAT-2B1 and RISAT-2B2, to be launched in the future, with 2B1 expected to be in orbit later this year. They all will orbit at an altitude of 555km. There are two new components on this launch vehiclean indigenous microprocessor chip called Vikram and a low-cost MEMS-based Inertial Navigation System (INS) that works with the Indian version of GPS called NAVIC. Both these components are expected to be fitted into future ISRO-built rockets as well. Vikram and the MEMS-based INS were developed by Semi-Conductor Laboratory (SCL), Chandigarh and ISRO Inertial Systems Unit, Thiruvananthapuram, respectively.
The RISAT-2/TecSAR/Polaris overhead recce satellite launched in 2009. The ISRO-developed RISAT-1 was launched three years later in 2012 and operated for six years. In 2018, it was declared non-operational by ISRO.
ADA-Developed Flight Trajectory Optimisation Kits For Inertially-Guided Bombs