ISR sensors and cross-domain effects for any mission
CACI’s multi-mission technology payloads enable a hyper-connected battlefield grid of sensors and converged effects, helping customers sense, make sense, and take decisive action across the electromagnetic spectrum.
Locate and deliver effects
CACI’s low-SWaP ISR, EW, and cyber payloads are deployed on customer systems around the world, delivering real-time situational awareness, targeting information, direction finding, geolocation, and active cyber effects against adversary radio frequency systems.
Spectral Sieve – Passive direction-finding geolocation
For tactical unmanned aircraft systems and ground-based applications, Spectral Sieve delivers precision ISR, situational awareness, and targeting data to operational units.
Spectral Sieve – Passive direction-finding geolocation
For tactical unmanned aircraft systems and ground-based applications, Spectral Sieve delivers precision ISR, situational awareness, and targeting data to operational units.
Sieve HF – Low SWaP, high frequency direction-finding system
Sieve HF prosecutes both groundwave and skywave/near vertical incidence skywave signals. The mission-focused design features an easy-to-use interface for either back-packed, or static deployment concept of operations.
Sieve HF – Low SWaP, high frequency direction-finding system
Sieve HF prosecutes both groundwave and skywave/near vertical incidence skywave signals. The mission-focused design features an easy-to-use interface for either back-packed, or static deployment concept of operations.
Kickflip – Software-defined, ultra-wideband radio
Kickflip captures signals from the bottom of cellular bands up to the top of almost all EW requirements. It is customizable and SWaP-optimized, automatically detecting, recording, and processing signals without user intervention.
Kickflip – Software-defined, ultra-wideband radio
Kickflip captures signals from the bottom of cellular bands up to the top of almost all EW requirements. It is customizable and SWaP-optimized, automatically detecting, recording, and processing signals without user intervention.
Pit Viper – Modular EW payload and software-defined radio
Pit Viper is designed for electronic surveillance, electronic attack, and cyber missions on airborne platforms. This low-SWaP payload provides users with host hardware that enables new tactical concepts of operation and delivers capability such as real-time radio frequency survey, passive collection, and a range of cyber effects.
Pit Viper – Modular EW payload and software-defined radio
Pit Viper is designed for electronic surveillance, electronic attack, and cyber missions on airborne platforms. This low-SWaP payload provides users with host hardware that enables new tactical concepts of operation and delivers capability such as real-time radio frequency survey, passive collection, and a range of cyber effects.
TwinFin – High-performance, ultra-wideband software-defined radio
TwinFin enables convergence of large-constellation communications intelligence, high-performance electronic intelligence, and ultra-wideband communications in a form factor that scales to meet SWaP requirements. With rapid tune times, ultra-low phase noise, and wide bandwidths, TwinFin is ideally suited for surveilling emerging millimeter-wave radars and communications, PROFORMA, and 5G waveforms.
TwinFin – High-performance, ultra-wideband software-defined radio
TwinFin enables convergence of large-constellation communications intelligence, high-performance electronic intelligence, and ultra-wideband communications in a form factor that scales to meet SWaP requirements. With rapid tune times, ultra-low phase noise, and wide bandwidths, TwinFin is ideally suited for surveilling emerging millimeter-wave radars and communications, PROFORMA, and 5G waveforms.
Locate and deliver effects
CACI’s low-SWaP ISR, EW, and cyber payloads are deployed on customer systems around the world, delivering real-time situational awareness, targeting information, direction finding, geolocation, and active cyber effects against adversary radio frequency systems.
Spectral Sieve – Passive direction-finding geolocation
For tactical unmanned aircraft systems and ground-based applications, Spectral Sieve delivers precision ISR, situational awareness, and targeting data to operational units.
Spectral Sieve – Passive direction-finding geolocation
For tactical unmanned aircraft systems and ground-based applications, Spectral Sieve delivers precision ISR, situational awareness, and targeting data to operational units.
Sieve HF – Low SWaP, high frequency direction-finding system
Sieve HF prosecutes both groundwave and skywave/near vertical incidence skywave signals. The mission-focused design features an easy-to-use interface for either back-packed, or static deployment concept of operations.
Sieve HF – Low SWaP, high frequency direction-finding system
Sieve HF prosecutes both groundwave and skywave/near vertical incidence skywave signals. The mission-focused design features an easy-to-use interface for either back-packed, or static deployment concept of operations.
Kickflip – Software-defined, ultra-wideband radio
Kickflip captures signals from the bottom of cellular bands up to the top of almost all EW requirements. It is customizable and SWaP-optimized, automatically detecting, recording, and processing signals without user intervention.
Kickflip – Software-defined, ultra-wideband radio
Kickflip captures signals from the bottom of cellular bands up to the top of almost all EW requirements. It is customizable and SWaP-optimized, automatically detecting, recording, and processing signals without user intervention.
Pit Viper – Modular EW payload and software-defined radio
Pit Viper is designed for electronic surveillance, electronic attack, and cyber missions on airborne platforms. This low-SWaP payload provides users with host hardware that enables new tactical concepts of operation and delivers capability such as real-time radio frequency survey, passive collection, and a range of cyber effects.
Pit Viper – Modular EW payload and software-defined radio
Pit Viper is designed for electronic surveillance, electronic attack, and cyber missions on airborne platforms. This low-SWaP payload provides users with host hardware that enables new tactical concepts of operation and delivers capability such as real-time radio frequency survey, passive collection, and a range of cyber effects.
TwinFin – High-performance, ultra-wideband software-defined radio
TwinFin enables convergence of large-constellation communications intelligence, high-performance electronic intelligence, and ultra-wideband communications in a form factor that scales to meet SWaP requirements. With rapid tune times, ultra-low phase noise, and wide bandwidths, TwinFin is ideally suited for surveilling emerging millimeter-wave radars and communications, PROFORMA, and 5G waveforms.
TwinFin – High-performance, ultra-wideband software-defined radio
TwinFin enables convergence of large-constellation communications intelligence, high-performance electronic intelligence, and ultra-wideband communications in a form factor that scales to meet SWaP requirements. With rapid tune times, ultra-low phase noise, and wide bandwidths, TwinFin is ideally suited for surveilling emerging millimeter-wave radars and communications, PROFORMA, and 5G waveforms.
Detect, deny, degrade, and disrupt
CACI radars, signal emulators, and mobile network capabilities help customers sense, listen, verify, jam, and communicate across the electromagnetic spectrum supporting everything from testing and training to passive threat detection.
SPaRK – Silent passive radar
SPaRK is a lightweight, low-power, bi-static, passive radar system for use in air defense and C-UxS applications. Developed for expeditionary missions, it delivers situational awareness and actionable intelligence when deployed in emission-constrained environments. SPaRK can be easily deployed by two-person teams in minutes and requires just a single operator.
SPaRK – Silent passive radar
SPaRK is a lightweight, low-power, bi-static, passive radar system for use in air defense and C-UxS applications. Developed for expeditionary missions, it delivers situational awareness and actionable intelligence when deployed in emission-constrained environments. SPaRK can be easily deployed by two-person teams in minutes and requires just a single operator.
Wave Relay – Integrated UxS radio payload
CACI’s Wave Relay Gen 5 provides a powerful, secure network that unites critical data from multiple resources in real time to deliver the most advanced and scalable mobile ad hoc network (MANET). It allows operators to quickly integrate a MANET radio solution into their platform with minimal effort, as well as provides the flexibility to use the Wave Relay Gen 5 for other modular payload-compliant systems.
Wave Relay – Integrated UxS radio payload
CACI’s Wave Relay Gen 5 provides a powerful, secure network that unites critical data from multiple resources in real time to deliver the most advanced and scalable mobile ad hoc network (MANET). It allows operators to quickly integrate a MANET radio solution into their platform with minimal effort, as well as provides the flexibility to use the Wave Relay Gen 5 for other modular payload-compliant systems.
DS-X Antenna – Counter-satellite electronic warfare system
DS-X is a family of six shaped parabolic antennas built for state-of-the-art wideband aperture efficiency that cover L, S, C, X, Ku, and Ka frequency bands. Designed for counter communication applications, the apertures are integrated on high-speed (up to 20 degrees per second), with each antenna providing simultaneous receive and transmit capabilities and both linear and circular polarizations concurrently. Built-in tracking capability supports all orbital regimes.
DS-X Antenna – Counter-satellite electronic warfare system
DS-X is a family of six shaped parabolic antennas built for state-of-the-art wideband aperture efficiency that cover L, S, C, X, Ku, and Ka frequency bands. Designed for counter communication applications, the apertures are integrated on high-speed (up to 20 degrees per second), with each antenna providing simultaneous receive and transmit capabilities and both linear and circular polarizations concurrently. Built-in tracking capability supports all orbital regimes.
Typhon – AESA electronic warfare system
Typhon is an advanced array design purposefully developed to meet stringent ES and EA mission requirements. Providing 800 MHz to 8.0 GHz frequency coverage without any band blocks, the antenna system can be configured as passive (ESA), or active (AESA), proving EIRP more than 1.4 KW.
Typhon – AESA electronic warfare system
Typhon is an advanced array design purposefully developed to meet stringent ES and EA mission requirements. Providing 800 MHz to 8.0 GHz frequency coverage without any band blocks, the antenna system can be configured as passive (ESA), or active (AESA), proving EIRP more than 1.4 KW.
Magpie – RF signal emulation
Magpie is a low-cost RF emitter capable of playing back raw signal files of up to 6 GHz, with power output options of up to 50 watts. The software application interface is intuitive for users with minimal RF knowledge, and its unique features create complex signal environments to meet mission objectives. Magpie generates RF emissions for testing and verifying RF equipment functionality, as well as for training and simulating signal collection and analysis. It is ideal for environments that require flexible, attributable transmitters.
Magpie – RF signal emulation
Magpie is a low-cost RF emitter capable of playing back raw signal files of up to 6 GHz, with power output options of up to 50 watts. The software application interface is intuitive for users with minimal RF knowledge, and its unique features create complex signal environments to meet mission objectives. Magpie generates RF emissions for testing and verifying RF equipment functionality, as well as for training and simulating signal collection and analysis. It is ideal for environments that require flexible, attributable transmitters.
Detect, deny, degrade, and disrupt
CACI radars, signal emulators, and mobile network capabilities help customers sense, listen, verify, jam, and communicate across the electromagnetic spectrum supporting everything from testing and training to passive threat detection.
SPaRK – Silent passive radar
SPaRK is a lightweight, low-power, bi-static, passive radar system for use in air defense and C-UxS applications. Developed for expeditionary missions, it delivers situational awareness and actionable intelligence when deployed in emission-constrained environments. SPaRK can be easily deployed by two-person teams in minutes and requires just a single operator.
SPaRK – Silent passive radar
SPaRK is a lightweight, low-power, bi-static, passive radar system for use in air defense and C-UxS applications. Developed for expeditionary missions, it delivers situational awareness and actionable intelligence when deployed in emission-constrained environments. SPaRK can be easily deployed by two-person teams in minutes and requires just a single operator.
Wave Relay – Integrated UxS radio payload
CACI’s Wave Relay Gen 5 provides a powerful, secure network that unites critical data from multiple resources in real time to deliver the most advanced and scalable mobile ad hoc network (MANET). It allows operators to quickly integrate a MANET radio solution into their platform with minimal effort, as well as provides the flexibility to use the Wave Relay Gen 5 for other modular payload-compliant systems.
Wave Relay – Integrated UxS radio payload
CACI’s Wave Relay Gen 5 provides a powerful, secure network that unites critical data from multiple resources in real time to deliver the most advanced and scalable mobile ad hoc network (MANET). It allows operators to quickly integrate a MANET radio solution into their platform with minimal effort, as well as provides the flexibility to use the Wave Relay Gen 5 for other modular payload-compliant systems.
DS-X Antenna – Counter-satellite electronic warfare system
DS-X is a family of six shaped parabolic antennas built for state-of-the-art wideband aperture efficiency that cover L, S, C, X, Ku, and Ka frequency bands. Designed for counter communication applications, the apertures are integrated on high-speed (up to 20 degrees per second), with each antenna providing simultaneous receive and transmit capabilities and both linear and circular polarizations concurrently. Built-in tracking capability supports all orbital regimes.
DS-X Antenna – Counter-satellite electronic warfare system
DS-X is a family of six shaped parabolic antennas built for state-of-the-art wideband aperture efficiency that cover L, S, C, X, Ku, and Ka frequency bands. Designed for counter communication applications, the apertures are integrated on high-speed (up to 20 degrees per second), with each antenna providing simultaneous receive and transmit capabilities and both linear and circular polarizations concurrently. Built-in tracking capability supports all orbital regimes.
Typhon – AESA electronic warfare system
Typhon is an advanced array design purposefully developed to meet stringent ES and EA mission requirements. Providing 800 MHz to 8.0 GHz frequency coverage without any band blocks, the antenna system can be configured as passive (ESA), or active (AESA), proving EIRP more than 1.4 KW.
Typhon – AESA electronic warfare system
Typhon is an advanced array design purposefully developed to meet stringent ES and EA mission requirements. Providing 800 MHz to 8.0 GHz frequency coverage without any band blocks, the antenna system can be configured as passive (ESA), or active (AESA), proving EIRP more than 1.4 KW.
Magpie – RF signal emulation
Magpie is a low-cost RF emitter capable of playing back raw signal files of up to 6 GHz, with power output options of up to 50 watts. The software application interface is intuitive for users with minimal RF knowledge, and its unique features create complex signal environments to meet mission objectives. Magpie generates RF emissions for testing and verifying RF equipment functionality, as well as for training and simulating signal collection and analysis. It is ideal for environments that require flexible, attributable transmitters.
Magpie – RF signal emulation
Magpie is a low-cost RF emitter capable of playing back raw signal files of up to 6 GHz, with power output options of up to 50 watts. The software application interface is intuitive for users with minimal RF knowledge, and its unique features create complex signal environments to meet mission objectives. Magpie generates RF emissions for testing and verifying RF equipment functionality, as well as for training and simulating signal collection and analysis. It is ideal for environments that require flexible, attributable transmitters.