porky_kicker
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DRDO, PSU and Private Defence Sector News
- Thread starter Sridhar
- Start date
porky_kicker
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Karthi
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Integrated fire power Exercise TEJ KATAR;
Teams exhibited seamless synergy & integration between weapon system platforms including T-90 Bhisma tanks, BMP-IIs & ALH-WSI while carrying maneuvers & integrated fire on simulated enemy positions.
Karthi
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General MM Naravane COAS visited #MCTE Mhow and witnessed a demonstration on AI based Gun Barrel Inspection system that can analyse the condition of any ArtilleryGun post firing in a short period of time employing an AI-based analytical tool.
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What was init
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Obviously April Fools day joke.
VelociRaptor
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flanker99
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These guys showed anything solid yet?....or just CG
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For Agni-6, I got too excited for a while. Then I realised that it was 1st April.View attachment 83476
Agni 5 deployed.
Agni 6 Test launch next month Amit R Kashyap . Agni 6 was almost ready for some time .
View attachment 83477
Tejas With Two Astra MK1 , Two R73 Two drop tanks And Litening target pod. Bleh DFI fooled me
SUPERPOWER
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SUPERPOWER
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Hope they will change the turret..
Gessler
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It was seen with Elbit UT-30 Mk.2 turret multiple times...but don't know if that's just something on the part of company or actual IA requirement. Most of the time its seen with crappy BMP turret.
Hope they will change the turret..
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Why elbit turret us superior and do we have any indigenous product in design .It was seen with Elbit UT-30 Mk.2 turret multiple times...but don't know if that's just something on the part of company or actual IA requirement. Most of the time its seen with crappy BMP turret.
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This is mk 1 , original model will be mk 2 , which is yet to arrive
Karthi
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Astra Microwave Radars .
MFRS-101 is a system with Phased Array Antenna at L-band frequency (1.3-1.4 GHz). The multi-layer phased array antenna consists of 8 bricks with 3x8 radiating elements on each brick. The total number of radiating elements in the antenna is 192. The overall size of the Antenna structure is 2.6m x 1.7m x 0.7m.
Antenna Backup structure has been configured with the prime requirement of high stiffness to house eight antenna bricks connected to twenty four Transmit/Receive Module Units (TRUs). Each TRU will accommodate eight L-band 200 Watts Transmit/Receive (T/R) modules.
MFRS-102 is a Multi-Function, Active Electronic Scanning Pulsed Phased Array Tracking Radar using solid state Transmit/Receive Modules (TRM), capable of automatic detection and tracking of artillery shells, rocket, mortar-bombs and also the complete trajectory of the targets. The Radar has multi-target tracking capability. Capability is optimized to detect and track targets from 100 m/sec to 1500 m/sec and low RCS (0.03 m2). AMP-MFRS-102 is a state of the art radar with robust design for trouble free operation with minimal maintenance requirement. The system is effective in generation of true air picture with accurate and precise positional information and also the complete trajectory. The radar is capable of scanning electronically both in azimuth and elevation using pencil beam in both Tx and Rx and digital monopulse in azimuth and elevation to provide more accurate angular information.
MFRS-103 is the most advanced, proven and widely used for real-time detection, tracking and warning of hazardous bird activity at commercial airports, military airfields, military training and bombing ranges. The radar enables the local airspace operator to identify large birds and flocks of birds that have potential to cross or interrupt air traffic.
PMTR-204 is a S-band Flat-panel Antenna Monopulse Radar used for precision tracking.
Features
• Dual-polarization (H&V) capability
• Alternate Transmit Simultaneous Receive (ATSR)
• It employs 4-m flat panel array with dual-feed micro-strip patch antennas
• Distributed Solid-state T/R Modules feeding the 32 antenna panels
• 16-kW Radiated Peak power with 10% Duty
• Up to 400-micro sec Pulse width
• Exciter and waveform generator
• Multi-channel Back-end IF Receiver to accommodate both mono-pulse tracking as well as weather signal Processing
• Dual-axis Antenna Pedastal with Elevation over Azimuth steering
• High stiffness Antenna Backup structure to house the Radar head
• Provision for In-built calibration and monitoring
• Weather observation
This is a continuous wave (CW) radar developed in S-band. It is designed and developed in India. It is designed for artillery research applications. This system incorporates existing as well as new features of other comparable systems.
The radar will be deployed in close proximity of gun/launcher at Firing Test Range(s) and operated from block house to measure muzzle velocity and range of the projectile after exit from the muzzle.
When projectile is fired from gun/launcher a trigger will be generated by flash sensor and acousticsensors. With this trigger, Radar starts radiating. Due to projectile velocity, Doppler shift in frequency willbe introduced in back scattered energy, and it is captured by receiving antenna. The received signal isdown converted in two stages to video signal. This signal is subjected to band pass filtering and thensubjected to spectral analysis after analog to digital conversion. The spectral peaks are transformed in tovelocity values with time stamp. This data is continuously transferred to velocity analyzer software (HMI)for further presentation. This acquisition process is controlled by data input through multiple screens onHMI.
PATTS-203 is a S-Band (2.2-2.3 Ghz) Telemetry Receiver System developed using the concept of multi beam shared aperture. It is a high sensitivity receiving equipment, with powerful array processing. This is a receive only system capable of receiving and demodulating(PCM/FM) the data from 4 independent air-borne targets simultaneously in a wide angle sector. The main features of the system are its Compact size, target selectivity, reliability and accuracy of tracking. The system is capable of receiving telemetry data, array processing, beam scheduling and recording of tracking data, RSSI and critical system health status signals. Can be deployed on land based transportable or on ship borne platform.
This is a continuous wave (CW) radar developed in X-band. It is designed and developed in India. It is designed for artillery research applications. This system incorporates existing as well as new features of other comparable systems.
The radar will be deployed in close proximity of gun/launcher at Firing Test Range(s) and operated from block house to measure muzzle velocity and range of the projectile after exit from the muzzle.
When projectile is fired from gun/launcher a trigger will be generated by flash sensor and acousticsensors. With this trigger, Radar starts radiating. Due to projectile velocity, Doppler shift in frequency willbe introduced in back scattered energy, and it is captured by receiving antenna. The received signal isdown converted in two stages to video signal. This signal is subjected to band pass filtering and thensubjected to spectral analysis after analog to digital conversion. The spectral peaks are transformed in tovelocity values with time stamp. This data is continuously transferred to velocity analyzer software (HMI)for further presentation. This acquisition process is controlled by data input through multiple screens on HMI.
AMP-PIDR-302 is a high-resolution, MIMO Digital Beam-Forming Radar operates in X-band. The Radar can provide the Surveillance and Tracking of various object in the wide Field of View. The Target of interest are walking person, moving vehicle and various ships and boats.
The sensors can be networked over Ethernet to the central command and control terminal. The Command and Control is provided through a GUI application that can run on any Windows/Linux based general purpose computers/laptops.
MFRS-101 is a system with Phased Array Antenna at L-band frequency (1.3-1.4 GHz). The multi-layer phased array antenna consists of 8 bricks with 3x8 radiating elements on each brick. The total number of radiating elements in the antenna is 192. The overall size of the Antenna structure is 2.6m x 1.7m x 0.7m.
Antenna Backup structure has been configured with the prime requirement of high stiffness to house eight antenna bricks connected to twenty four Transmit/Receive Module Units (TRUs). Each TRU will accommodate eight L-band 200 Watts Transmit/Receive (T/R) modules.
MFRS-102 is a Multi-Function, Active Electronic Scanning Pulsed Phased Array Tracking Radar using solid state Transmit/Receive Modules (TRM), capable of automatic detection and tracking of artillery shells, rocket, mortar-bombs and also the complete trajectory of the targets. The Radar has multi-target tracking capability. Capability is optimized to detect and track targets from 100 m/sec to 1500 m/sec and low RCS (0.03 m2). AMP-MFRS-102 is a state of the art radar with robust design for trouble free operation with minimal maintenance requirement. The system is effective in generation of true air picture with accurate and precise positional information and also the complete trajectory. The radar is capable of scanning electronically both in azimuth and elevation using pencil beam in both Tx and Rx and digital monopulse in azimuth and elevation to provide more accurate angular information.
MFRS-103 is the most advanced, proven and widely used for real-time detection, tracking and warning of hazardous bird activity at commercial airports, military airfields, military training and bombing ranges. The radar enables the local airspace operator to identify large birds and flocks of birds that have potential to cross or interrupt air traffic.
PMTR-204 is a S-band Flat-panel Antenna Monopulse Radar used for precision tracking.
Features
• Dual-polarization (H&V) capability
• Alternate Transmit Simultaneous Receive (ATSR)
• It employs 4-m flat panel array with dual-feed micro-strip patch antennas
• Distributed Solid-state T/R Modules feeding the 32 antenna panels
• 16-kW Radiated Peak power with 10% Duty
• Up to 400-micro sec Pulse width
• Exciter and waveform generator
• Multi-channel Back-end IF Receiver to accommodate both mono-pulse tracking as well as weather signal Processing
• Dual-axis Antenna Pedastal with Elevation over Azimuth steering
• High stiffness Antenna Backup structure to house the Radar head
• Provision for In-built calibration and monitoring
• Weather observation
This is a continuous wave (CW) radar developed in S-band. It is designed and developed in India. It is designed for artillery research applications. This system incorporates existing as well as new features of other comparable systems.
The radar will be deployed in close proximity of gun/launcher at Firing Test Range(s) and operated from block house to measure muzzle velocity and range of the projectile after exit from the muzzle.
When projectile is fired from gun/launcher a trigger will be generated by flash sensor and acousticsensors. With this trigger, Radar starts radiating. Due to projectile velocity, Doppler shift in frequency willbe introduced in back scattered energy, and it is captured by receiving antenna. The received signal isdown converted in two stages to video signal. This signal is subjected to band pass filtering and thensubjected to spectral analysis after analog to digital conversion. The spectral peaks are transformed in tovelocity values with time stamp. This data is continuously transferred to velocity analyzer software (HMI)for further presentation. This acquisition process is controlled by data input through multiple screens onHMI.
PATTS-203 is a S-Band (2.2-2.3 Ghz) Telemetry Receiver System developed using the concept of multi beam shared aperture. It is a high sensitivity receiving equipment, with powerful array processing. This is a receive only system capable of receiving and demodulating(PCM/FM) the data from 4 independent air-borne targets simultaneously in a wide angle sector. The main features of the system are its Compact size, target selectivity, reliability and accuracy of tracking. The system is capable of receiving telemetry data, array processing, beam scheduling and recording of tracking data, RSSI and critical system health status signals. Can be deployed on land based transportable or on ship borne platform.
This is a continuous wave (CW) radar developed in X-band. It is designed and developed in India. It is designed for artillery research applications. This system incorporates existing as well as new features of other comparable systems.
The radar will be deployed in close proximity of gun/launcher at Firing Test Range(s) and operated from block house to measure muzzle velocity and range of the projectile after exit from the muzzle.
When projectile is fired from gun/launcher a trigger will be generated by flash sensor and acousticsensors. With this trigger, Radar starts radiating. Due to projectile velocity, Doppler shift in frequency willbe introduced in back scattered energy, and it is captured by receiving antenna. The received signal isdown converted in two stages to video signal. This signal is subjected to band pass filtering and thensubjected to spectral analysis after analog to digital conversion. The spectral peaks are transformed in tovelocity values with time stamp. This data is continuously transferred to velocity analyzer software (HMI)for further presentation. This acquisition process is controlled by data input through multiple screens on HMI.
AMP-PIDR-302 is a high-resolution, MIMO Digital Beam-Forming Radar operates in X-band. The Radar can provide the Surveillance and Tracking of various object in the wide Field of View. The Target of interest are walking person, moving vehicle and various ships and boats.
The sensors can be networked over Ethernet to the central command and control terminal. The Command and Control is provided through a GUI application that can run on any Windows/Linux based general purpose computers/laptops.
