General Dynamics

The Tactical Electronic Warfare System (TEWS) is an advanced, modular ground-based system designed to provide comprehensive electronic support and attack capabilities for modern combat scenarios. Operational 24/7 in all weather conditions, TEWS enables Brigade Combat Team Commanders to detect, locate, and disrupt enemy communication and coordination through non-lethal effects, effectively degrading their operational capabilities. With platform independence, TEWS can integrate onto various vehicles such as Stryker, JLTV, and AMPV, offering exceptional mobility and adaptability in dynamic tactical environments. Leveraging AI/ML and open architecture, TEWS supports signals intelligence and electronic warfare targeting, paving the way for multi-domain operations.

The Prophet Enhanced Signals Processing (ESP) system by General Dynamics Mission Systems is a state-of-the-art, all-weather, near-real-time tactical signals intelligence and electronic warfare solution designed for ground-based operations. Deployed at the Brigade Combat Team level, it offers unmatched flexibility across stationary, on-the-move, and manpack configurations. With wideband Beyond Line of Sight (BLOS) capability, Prophet ensures extended operational reach, providing actionable intelligence and situational awareness to support mission-critical decisions. Its modular design allows seamless integration with various platforms, delivering reliable data to common intelligence databases, enhancing battlefield situational understanding, and bolstering force protection.

The DCGS-A Tactical Ground Station (TGS) is a vehicle-mounted component of the U.S. Army's Distributed Common Ground System-Army (DCGS-A), designed to provide real-time intelligence, surveillance, and reconnaissance (ISR) capabilities to analysts and commanders. It integrates classified and unclassified data to rapidly identify emerging threats, enabling critical decision-making in dynamic operational environments. Deployed globally, the TGS offers unparalleled situational awareness by replacing outdated legacy systems and seamlessly connecting with Army networks. Its advanced capabilities allow military personnel to quickly process vast amounts of data, providing actionable insights that support operational effectiveness and enhance mission success.

General Dynamics Mission Systems provides advanced platform and vehicle integration solutions that combine state-of-the-art C4ISR hardware and software to optimize operational efficiency and mission success. Specializing in land, air, sea, and space platforms, the company excels in systems engineering, human-centered design, and open systems architecture. Their tailored solutions reduce size, weight, and power consumption while minimizing lifecycle costs. From military vehicle integration to spaceborne communications, General Dynamics ensures mission-focused technologies that enhance effectiveness, improve system capabilities, and deliver cost-effective, high-performance solutions for defense, intelligence, public safety, and emergency management sectors.

General Dynamics Mission Systems provides advanced Space Operations & Engineering Services, offering a comprehensive range of solutions for spacecraft systems engineering, mission planning, ground system management, and communication network services. With decades of experience, the company supports high-profile clients such as NASA, the U.S. Air Force, and commercial entities. Their contributions include landmark missions like the James Webb Space Telescope, OSIRIS-REx asteroid sample return, and the Landsat Earth observation program. Known for delivering reliable satellite communications, secure GPS systems, and mission-critical ground systems, General Dynamics ensures efficient operations in complex space environments. For more information, visit [here](gdmissionsystems.com/services/space-operations-and-engineering-services).

The Explorer GPS Receiver by General Dynamics Mission Systems is a spaceborne navigation solution designed for optimal performance in Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO). Leveraging the reliable Viceroy® architecture with over 200 years of on-orbit heritage, this compact and robust receiver features 12 tracking channels, dual antenna capability, and advanced radiation-tolerant design. It offers precise position, velocity, and time data, with enhanced resolution and low signal acquisition. Weighing only 2.5 lbs and operating in extreme temperature ranges, it supports autonomous operations, making it ideal for a wide range of space missions.

Viceroy GPS Receiver gdmissionsystems.com/products/-/media/fe707597bf444268b6767a6a0114e3b7.ashx?h=358&w=600&hash=A3A5B99B3259D59E1ADC7B436523AE36 gdmissionsystems.com/products/communications/spaceborne-communications/spaceborne-gps-receivers/viceroy-gps-receiver "The Viceroy-4 GPS Receiver by General Dynamics Mission Systems is a high-performance spaceborne GPS solution designed for Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) applications. With over 200 years of combined on-orbit performance and a heritage of 20 years in spaceflight, the receiver offers reliable position, velocity, and time data. Its architecture includes 12 tracking channels, dual-antenna capability, and enhanced radiation-hardened digital electronics. Supporting RS-422 and MIL-STD-1553 interfaces, the receiver ensures robust operation with features like autonomous cold-start mode, low signal acquisition, and integrated carrier phase tracking. Compact and lightweight, it operates at 20-35 VDC, making it ideal for demanding space missions.gdmissionsystems.com /products/communications/spaceborne-communications/spaceborne-gps-receivers/viceroy-gps-receiver Viceroy GPS Receiver - General Dynamics Mission Systems 4-5 minutes Viceroy GPS Reciver Superior positioning with 200+ years of on-orbit performance Design based on legacy space qualified digital design 20 years of trouble-free spaceflight heritage Same reliable position, velocity, time, pseudorange and carrier phase at 1Hz Same form-factor and interface control as heritage Viceroy receiver Features General Dynamics’ Viceroy-4 Global Positioning System (GPS) Spaceborne Receiver provides position, velocity, and time information for Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) applications. Performance and satellite visibility are enhanced through the use of dual antennas; each of the 18 GPS channels can be assigned to either antenna. The design supports RS-422 or MILSTD-1553 bus interfaces. Space Qualified Digital Design Full Spaceborne Capability Autonomous Operation Pseudorange and Integrated Carrier Phase at One Second Rate One PPS Clock Output Synchronized to GPS Time Radiation Hardened Static RAM Up to 12 Receive Tracking Channels 53 Cubic Inches 2.4 Pounds 20 to 35 VDC Operation Improved Radiation Hardened Digital Electronics 12 Channels Support All-in-View Tracking Dual Antenna – Any Channel Assigned to Either Antenna (LEO only) Fast Cold Start Mode Simplifies Integration and Autonomous Operation Low Signal Acquisition and Tracking Supports GEO Sidelobe Tracking Enhanced Resolution 1 Pulse per Second Output Specifications Viceroy-4 GPS Receiver Data Sheet View Document Receiver Architecture 12 channels with enhanced fast acquisition Dual antenna – any channel to either antenna (LEO only) L1: 1575.42 MHz, C/A code Carrier-aided code tracking Based on legacy Viceroy architecture (hardware and software) Kalman filter or least squares solution Input/Output RS-422 serial I/O (standard) X.25 protocol with ECEF position, velocity, time, longitude, latitude, pseudorange, carrier phase One pulse per second (GPS, UTC, or Measurement Epoch Time) 9-pin male Sub-D for prime power 37-pin female Sub-D for command and telemetry SMA female connector for RF signal Solution Accuracy Autonomous Position: < 15 meters, 1 sigma (LEO) | < 100 meters, 1 sigma (GEO) Autonomous Velocity: < 0.1 meters/second, 1 sigma (LEO) | < 0.01 meters/second, 1 sigma (GEO) 1PPS time: < 100 ns, 1 sigma (typical) Time to First Fix LEO: 4 minutes, cold start GEO: 10 minutes, cold start Orbital Dynamics Altitude: approx 200 km to 2000 km (LEO) | approx 35,800 km (GEO) Velocity: up to 16,000 meters/second Acceleration: 1G Optional and Custom Features Single string or redundant configurations Precision internal reference Ovenized Crystal Oscillator (OCXO) External 10 MHz reference oscillator Time Strobe Input: < 100 ns, 1 sigma MEO and HEO Altitudes Physical/Environmental Size: 6.0” x 5.2” x 1.7” (152 x 132 x 43 mm) Weight: 2.4 lbs (1.1 kg) max DC Power: 8 W max; steady-state tracking (20-35 V) Vibration: 17 Grms Shock: 1750 G @ 500 Hz Temperature: -20°C to +60°C We use cookies to enhance your website experience. By continuing to visit this site, you agree to our use of cookies. Learn More"

The ConDR Configurable Digital Radio from General Dynamics Mission Systems is a high-performance spaceborne communication solution, offering flexible waveforms and frequency plans for reliable Earth-to-spacecraft and spacecraft-to-spacecraft communication. It supports various modulation schemes, including SGLS, USB, PM/PCM, BPSK, QPSK, OQPSK, and 16APSK, with mission RF interfaces for L-band and S-band. The radio features independent receive and transmit channels, compatibility with multiple cryptographic solutions, and advanced telemetry outputs, ensuring mission-critical communication success. Designed to meet stringent space hardware standards, its compact form and durability make it ideal for a wide range of space applications.

General Dynamics Mission Systems provides a broad array of mobile satellite communication solutions, designed to ensure secure and reliable connectivity even in challenging environments. Their offerings include the Iridium 9575 Extreme Phone Kit, featuring a rugged handset with global coverage and a comprehensive range of accessories, as well as the Non-Secure Fly-Away Tactical 9505A kit, which includes rechargeable batteries, antennas, and solar charging options. The solutions are complemented by a variety of accessories such as portable auxiliary antennas, fixed mast antennas, and various cable kits, ensuring extended functionality and flexibility. Additional products include rechargeable batteries, solar chargers, DTCS systems, and installation training, supporting both military and commercial users worldwide in mission-critical applications.

The Sectéra ISM2 by General Dynamics Mission Systems is an advanced Iridium Security Module that provides Type 1 end-to-end encryption for Top Secret and below classified information. Designed to integrate seamlessly with the Iridium 9575A handset, the ISM2 ensures covert operations while maintaining a lightweight form at just 47.6 grams. It features Advanced Cryptographic Capability (ACC), an easy-to-read LED security indicator, and the ability to toggle between clear and secure calls. With enhanced voice quality, secure dialing, and support for multiple communities of interest, including U.S., NATO, and coalition nations, the ISM2 offers uncompromised security, key management, and electronic re-keying for critical communications.

The URC Line of Sight Antennas by General Dynamics Mission Systems offer a comprehensive range of dual-band and tri-band antennas designed for manpack, mobile, and base station applications. Featuring robust models such as the UVU-100 and UVU-120 for dual-band and tri-band capabilities, as well as spring-loaded variants like the UVU-100S and UVU-120S for durability in mobile environments, these antennas ensure reliable communication in various operational settings. The product lineup includes mounting solutions like the AMB-100 and AMB-200, which are adaptable for NATO base antennas with stainless steel U-clamp designs, making them ideal for diverse communication needs.

The UPA-55 VHF/UHF RF Power Amplifier from General Dynamics Mission Systems is a robust and compact accessory designed for the URC-200 Line-of-Sight radios. Capable of delivering 25 or 50 Watts in AM or FM modes, the amplifier ensures reliable performance even in harsh environments, operating at full power with a >3:1 VSWR. It features front-panel controls for ease of use and boasts an impressive average MTBF of 10,000 hours, making it a durable and cost-effective solution for enhancing communication capabilities. The UPA-55 offers a seamless integration that extends the lifespan and functionality of the URC-200 series. For more information, visit [here](gdmissionsystems.com/products/communications/radios/line-of-sight-radios/upa-55-vhf-uhf-rf-power-amplifier).

The PTSH-104 Amplified Audio Speaker by General Dynamics Mission Systems is a robust and adaptable communication device designed for use in demanding environments. It operates with any 12-28 VDC power source or directly from a transceiver, offering flexibility for a variety of applications. With a durable chassis, it features separate volume controls for speaker and handset, automatic muting, and a 2-Watt amplifier to deliver clear and reliable audio performance. The speaker includes an integrated handset connection and supports extension cables up to 100 feet, making it easy to install and compatible with various communication systems.

The Small Form Factor Command & Control (SFF C2) Node by General Dynamics Mission Systems is a compact, versatile solution designed for tactical edge operations. This multi-domain command and control system integrates real-time and near real-time data with a modular, platform-agnostic design, making it ideal for deployment in challenging environments. With low size, weight, and power (SWaP) requirements, it offers advanced computing, storage, and networking capabilities, supporting a wide range of sensors, data links, and engagement systems. Built to MIL-STD-810G standards, it ensures durability and environmental adaptability, featuring direct air cooling and embedded simulation for efficient training and operations in austere conditions.

Secure Data Fabric (SDF) by General Dynamics Mission Systems is a resilient and efficient solution designed to manage and store data across various military echelons, from strategic to tactical levels. It ensures operational survivability by replicating data on-demand and remains mission-capable even during network disruptions. SDF uses an efficient publish/subscribe mechanism to minimize bandwidth usage and supports open standards like REST, JSON, and WebSockets. With a robust PaaS infrastructure, SDF simplifies the integration of third-party applications, supports interoperability, and ensures secure and seamless connections between Army systems and mission partner environments. It provides a unified, agile, and secure platform to build and deploy mission-critical applications and services, while maintaining high levels of data visibility, access control, and protection against insider threats.