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llms.txt
Generated by All in One SEO v4.9.6.2, this is an llms.txt file, used by LLMs to index the site. # TSC Detect, Defend, Defeat ## Sitemaps - [XML Sitemap](https://tsc.com/sitemap.xml): Contains all public & indexable URLs for this website. ## Posts - [VIPER](https://tsc.com/viper/) - TSC’s proximity sensor technology allows for aim-point selection, a wide range of end game velocities, and uses very little SWaP. - [TROPOSCATTER RECORD](https://tsc.com/troposcatter-record/) - Record-Setting 80-Mile Terrestrial Mobile Troposcatter Communications Link Demonstrated by TrellisWare and TSC. A live demonstration was conducted before members of NATO’s BLOS Comms Capabilities Team, with representatives from multiple allied nations in attendance. - [APEX](https://tsc.com/apex/) - TSC’s APEX family of seekers has been designed specifically to support affordable engagements for air defense and strike missions. - [LabVIEW Test Solutions](https://tsc.com/atcs/) - Lifecycle Integration to Simplify and Standardize Diverse Testing Environments. TSC is an NI Integration Partner and has been developing LabVIEW solutions for over 20 years. - [AQUILA](https://tsc.com/aquila/) - Aquila is designed to meet the SWAP-C constraints of tactical UAS and provides radar seeker functions for loitering munitions. - [MARIANA](https://tsc.com/mariana/) - MARIANA Our legacy LEA UAS reborn. Years of collective operational expertise, including cost reduction manufacturing and modular functionality to further optimize ISR mission performance. MARIANA delivers unmatched ISR mission performance at an optimal cost point, reimagined from TSC’s legacy long-endurance aircraft (LEA). TSC’s LEA systems are force multipliers designed to extend the reach of human awareness and accelerate decision-making where - [TAK Plugin for MTS](https://tsc.com/tak-plugin-for-mts/) - TSC is proud to announce the development of a new Team Awareness Kit (TAK) plugin that seamlessly integrates with our MTS. - [Electronically Steerable Array Antennas (ESA)](https://tsc.com/esa/) - TSC's Low SWaP / Low-Cost ESA Antennas are come in various sizes for multiple platforms and use cases, and are designed to meet your specific needs. - [TestForge](https://tsc.com/testforge/) - TestForge is a test management solution for designing and implementing tests for multiple Units Under Test (UUTs) over the life of a test bench. - [CORA](https://tsc.com/cora/) - Common Radar Architecture (CORA) delivers Software-defined radar waveform generation, radar receiver and digital processing. - [SILAS – Battery and Power Test Systems](https://tsc.com/silas-battery-power-test-systems/) - TSC has extensive experience in the creation of battery & power test systems. This includes designing, building, and deploying full test solutions to simulate a wide variety of real-world scenarios. - [NATHUSIUS](https://tsc.com/nathusius/) - Longest Endurance Commercial Platform in its Class TSC proudly unveils Nathusius, the next-generation, long-endurance commercial platform designed for enduring mission-critical operations. With unmatched operational efficiency and cost-effective lifecycle management, Nathusius is the ideal solution for missions ranging from maritime research and humanitarian aid to environmental monitoring and security services. Combining advanced autonomous features and flexible, - [Nathusius Press Release](https://tsc.com/nathusius-press-release/) - TSC Unveils NATHUSIUS: The Longest Endurance Commercial Platform in its Class with Low-Cost Advantages for Enduring Services - [MTS 3.0](https://tsc.com/mts-3-0/) - TSC Mobile Tracking System 3.0 (MTS 3.0) extends the range of air-to-ground data links. - [MTS 2.0](https://tsc.com/mts-2-0/) - TSC's Mobile Tracking System (MTS) is a simple to use, turn-key solution that provides automatic tracking of nodes in a Mobile Ad hoc Network (MANET). - [TSC at AUVSI Xponential 2024](https://tsc.com/tsc-at-auvsi-xponential-2024/) - TSC will be exhibiting at AUVSI from April 22-25, 2024. Stop by booth 2727 to see how our Mobile Tracking Systems can perform radio agnostic tracking in GPS denied environments. - [TSC AT AUVSI XPO 2025](https://tsc.com/tsc-at-auvsi-xpo-2025/) - TSC will be exhibiting at AUVSI from May 19-22, 2025. Stop by booth 3909 to see how our Mobile Tracking Systems can perform radio agnostic tracking in GPS denied environments. - [TSC AT AAAA 2025](https://tsc.com/tsc-at-aaaa-2025/) - TSC will be exhibiting at AAAA from May 14-16, 2025. Stop by booth 2109 to see how our Precision Weapon sensors and solutions can solve your mission requirements. - [TSC AT SOF WEEK](https://tsc.com/tsc-at-sof-week/) - TSC will be exhibiting at SOF Week from May 5-8, 2025. Stop by booth 1213 to learn more about our MTS product line, APEX Seeker family, and our Airborne ISR services. - [Testable Systems With Threats For Analysis And Requirements (TSTAR)](https://tsc.com/tstar/) - TSTAR integrates hardware models, physics models and tactical code that can re-host tactical program code or use verified TSC models. Models include: AN/SPY-1 and AN/SPQ-9B radar; C&D/WCS/FCS/VLS/CEP/SGS models; and SM-2/6/3, ESSM - [WIDEBAND ANTENNA FEEDS NOW AVAILABLE](https://tsc.com/wideband-antenna-feeds-now-available/) - We are excited to announce the production of Wideband Antenna Feeds for our family of Mobile Tracking Systems (MTS). With a wideband antenna feed on any version of TSC's MTS, UAV operators can maintain strong and consistent data links over multiple frequency bands without any hardware changes. Click here for more Information about Wideband Antenna Feeds - [Passive Angle Sensing Antennas (PAS)](https://tsc.com/pas/) - TSC's BroadEye-101 represents a cutting-edge technology for any operator interested in homing in on the location of a signal of interest. - [TSC adopts NCMA's CMS and CMBOK](https://tsc.com/tsc-adopts-ncmas-cms-and-cmbok/) - TSC Becomes First Employee-Owned Company to Adopt NCMA’s Contract Management Standard and Contract Management Body of Knowledge Reston, VA, September 10, 2024 – Technology Service Corporation (TSC), an employee-owned(ESOP), high-technology engineering firm, proudly announces its adoption of the National Contract Management Association’s (NCMA) Contract Management Standard® (CMS™) and Contract Management Body of Knowledge® (CMBOK™). As the first employee-owned company to - [MTS RADOME](https://tsc.com/mts-radome/) - TSC's Mobile Tracking System Radome (MTS Radome) is designed for permanent installation in harsh environments. - [TSC at AAAA](https://tsc.com/tsc-at-aaaa/) - TSC will be exhibiting at AAAA from April 24-26, 2024. Stop by booth 1728 to see how our Precision Weapon sensors and solutions can solve your mission requirements. Technology highlights include: Height of Burst (HoB) TSC sensors adds low-cost HoB capability to and APKWS or Hydra 70 rocket Seekers Discover how sensors provide pinpoint accuracy when it matters - [Mission Specific Antennas (MSA)](https://tsc.com/msa/) - Your mission is our mission, and drives the work we do. Wo provide custom solutions to unique challenges that Detects, Defends against, and Defeats adversaries. - [Conformal Antennas (CFM)](https://tsc.com/cfm/) - Our conformal antennas are designed to work with multiple missile diameters and across various frequency bands to meet your mission requirements. - [MTS Firmware 2.1.0 Now Available](https://tsc.com/mts-firmware-2-1-0-now-available/) - Mobile Tracking System (MTS) Firmware 2.1.0 is now available through TSC’s Customer Portal. This update is for MTS 2.0/3.0/Radome and includes the new RF Tracking feature. - [FUZE for APKWS – Press Release](https://tsc.com/fuze-press-release/) - In collaboration with L3-Harris Technologies, TSC is pleased to introduced our new proximity sensor to support the Counter-Unmanned Aircraft Systems (C-UAS) mission. (Image Courtesy of BAE Systems) - [2001](https://tsc.com/2001-2/) - Washington Navy Yard Office Opens. - [2004](https://tsc.com/2004-2/) - TSC acquires Phase IV Systems and PIVC, LLC (Now Alabama Operations) - [2012](https://tsc.com/2012/) - TSC acquires Polyphase Microwave, Inc. - [2021](https://tsc.com/2021-4/) - TSC acquires Praxis Products. - [2021](https://tsc.com/2021-3/) - TSC acquires Avwatch. - [1978](https://tsc.com/1978-2/) - TSC is acquired by Allied Technology, Inc. Connecticut Office Opens - [1985](https://tsc.com/1985-2/) - TSC is acquired by Westinghouse Electric Corp. - [2016](https://tsc.com/2016/) - TSC celebrates 50 years of innovation - [1966](https://tsc.com/1966/) - TSC is founded in California by Dr. Peter Swerling - [1970](https://tsc.com/1970-2/) - Washington Office Opens (Now Silver Spring Office) - [1980](https://tsc.com/1980-2/) - Indiana Office Opens - [1983](https://tsc.com/1983-2/) - Public offering of 650,000 shares of TSC - [1984](https://tsc.com/1984-2/) - Dahlgren Office Opens - [1993](https://tsc.com/1993-2/) - TSC becomes an employee-owned company Bob Graziano becomes President & CEO - [1998](https://tsc.com/1998-2/) - TSC acquires Bird Engineering Assoc. (now Virginia Operations) - [1999](https://tsc.com/1999-2/) - TSC acquires Colorado Office from Northrop Grumman - [2008](https://tsc.com/2008-2/) - TSC acquires Magnacom, Inc. - [2013](https://tsc.com/2013/) - The TSC Board of Directors appoints Michael Syracuse as President & CEO - [2018](https://tsc.com/2018/) - The TSC Board of Directors appoints Brandon Wolfson as President & CEO - [2021](https://tsc.com/2021-2/) - Denver, CO office opened - [Wide-Field Imager For Solar Probe](https://tsc.com/wide-field-imager-for-solar-probe/) - Solar instrument for NASA's Solar Probe Plus investigation. WISPR will image inner coronal plasma with unprecedented spatial resolution, cadence, and sensitivity. TSC supported systems, I&T and checkout, electrical, and mechanical engineering activities. - [MTS Firmware 2.0.1 Now Available](https://tsc.com/mts-firmware-2-0-1-now-available/) - Mobile Tracking Systems (MTS) Firmware Version 2.0.1 is for MTS 2.0, MTS 3.0, and MTS Radome. Please visit the TSC Customer Portal to download the firmware. - [New Customer Portal](https://tsc.com/new-customer-portal/) - TSC's Customer Portal is a centralized repository where customers can log in and download technical information related to TSC products. This information includes: Firmware Updates, Product Documentation, Product APIs, Surface Models, and other relevant materials. - [Aircraft Maintenance](https://tsc.com/aircraft-maintenance/) - Customer-oriented maintenance solutions for aircraft owners and operators. Premium services using detailed electronic compliance tracking. - [MARITIME SURVEILLANCE RADAR](https://tsc.com/maritime-surveillance-radar/) - High performance radar for wide-area search & detection Up to 100 nautical mile search rangeMultimode features including:Maritime SearchSearch Inverse SARSAR Terrain MappingWeather RadarMil-Spec Performance - [EO/IR MULTISPECTRAL CAMERA](https://tsc.com/eo-ir-multispectral-camera/) - Camera for vessel identification, documentation, and collection of prosecutable evidence that simultaneously detects targets with both IR and EO sensors. Includes redundant GPS logging and documentation. Mounted in a gyro-stabilized turret designed for long range optics with automatic video tracking and capture. Built to Mil-spec Performance. - [Holographic SAR](https://tsc.com/holographic-sar/) - TSC has developed Holographic SAR algorithms for multiple airborne SAR platforms. Holographic SAR is a 3-D tomographic backprojection image formation technique with associated change detection algorithms. The technique achieves superior target resolution in the vertical dimension. - [TCAR](https://tsc.com/tcar/) - TCAR is an X-band, software-defined radar designed to function as a low-cost data collection platform for Airborne ISR applications, such as SAR and MTI. It has a 4-channel RF receiver with an arbitrary waveform generator for signal generation. TCAR is currently being used to test new waveforms for ISR and C-UAS applications. - [Long Endurance Aircraft (LEA) Press Release](https://tsc.com/long-endurance-aircraft-lea-press-release/) - Deployed since 2016, the LEA system provides cost-effective and enduring continuous full motion video and electronic surveillance for beyond line of sight ISR operations. - [TSC formally acquires Praxis Products as of 1 September, 2021](https://tsc.com/tsc-formally-acquires-praxis-products-as-of-1-september-2021/) - TSC is pleased to announce the formal acquisition of Praxis Products as of 1 September 2021. Praxis Products is an exciting addition to the TSC team that brings a wealth of subject matter expertise for wireless and SIGINT solutions with a complementary set of hardware and software solutions. - [PXIe Block Up/Down Converter](https://tsc.com/pxie-block-up-down-converter/) - TSC manufactures high-performance specialty mixer components, assemblies, and instrumentation for demanding RF/microwave transmitters and receivers. - [Test Sets & Threat Simulators](https://tsc.com/test-sets-threat-simulators/) - Our simulation products comprise a broad span of radar analysis and system engineering tools that range from detailed antenna models to flexible effects-based tools for systems-of-systems design. TSC brings multi-discipline expertise to meet the simulation needs of our customers that include: Target models as a RF signalPropagation EffectsSea and Land ClutterEA and EMI SimulationSignal ProcessingRadar - [Radar Algorithm Development, Modeling, and Simulation for Ballistic Missile Defense](https://tsc.com/algorithm-development-and-simulation/) - Discrimination, distinguishing lethal objects from non-lethal ones, is the most challenging problem of ballistic missile defense. The primary objective of the missile defense shield is to neutralize the lethal warhead. - [BMD Simulation Framework](https://tsc.com/bmd-simulation-framework/) - The Ballistic Missile Defense Simulation Framework (BMDSF) is a plug-and-play application programming interface library that provides communications among functional modules in a Ballistic Missile Defense simulation. - [Terminal High Altitude Area Defense](https://tsc.com/terminal-high-altitude-area-defense/) - TSC has been an integral part of the THAAD program since the weapons systems inception back in the early nineties. TSC was instrumental in developing the HWIL system (Radar Interface Unit), which provided the RF uplinks to the THAAD missile during and prior to flight. TSC, working with the THAAD Fire Command & Control (TFCC) - [TSC formally acquires Avwatch as of 2 August, 2021](https://tsc.com/tsc-formally-acquires-avwatch-as-of-2-august-2021/) - TSC is pleased to announce the formal acquisition of Avwatch as of 2 August 2021. Avwatch is an innovative aviation company that has pioneered the use of new technologies in defense and homeland security operations both domestically and overseas. - [Hostile Fire Indicator (HFI) Test System](https://tsc.com/hostile-fire-indicator-hfi-test-system/) - Missile warning systems currently under development by the United States military, such as the Joint and Allied Threat Awareness System (JATAS), are incorporating an additional warning requirement – that of hostile fire indication. Hostile fire includes small arms, rocket-propelled grenades, and other ground threats. Some ground- threat signatures exhibit rapid, short-duration bursts of infrared energy - [Exciters](https://tsc.com/exciters/) - Using arbitrary waveform generation and Direct-Digital Synthesis, our Exciters provide a great mix of performance based on phase noise, bandwidth, SFDR, size, and cost. - [DIRCM Monitor System for ISTF Testing](https://tsc.com/dircm-monitor-system-for-istf-testing/) - Test and evaluation (T&E) of Aircraft Survivability Equipment (ASE) missile warning and countermeasure systems is essential for verifying and optimizing ASE system performance. Specialized test equipment is required to evaluate the performance of ASE Directional Infrared Countermeasures (DIRCM) systems. DIRCM pointing accuracy and jitter, energy on target (EOT), and target acquisition time (slew and track - [RF Sensors & Defense Electronics](https://tsc.com/rf-sensors-defense-electronics/) - TSC’s RF and microwave engineering expertise stems from multiple decades of designing, integrating, testing and fielding defense electronics. Our Systems development and Production Division, headquartered in Huntsville, AL specializes in rapid research and development through qualification and low rate production of radars, seekers, proximity sensors, Height of Burst (HOB) sensors, datalinks, phased array and conformal - [Accelerated Improved Intercept Initiative](https://tsc.com/accelerated-improved-intercept-initiative/) - TSC developed the Target Detection Device (TDD) for Raytheon’s Accelerated Improved Intercept Initiative (AI3). The AI3 system was developed and successfully tested to take on the difficult Counter Rockets, Artillery, and Mortars (C-RAM) mission. This system is composed of the AI3 missile, a fire control radar, command and control node, and launcher. During the live - [GMLRS Enhanced Proximity Sensor](https://tsc.com/gmlrs-enhanced-proximity-sensor/) - TSC personnel supported a live fire demonstration of their Enhanced Proximity Sensor (EPS) for the Guided Multiple Launch Rocket System (GMLRS) at White Sands Missile Range (WSMR). The EPS is designed to provide a specific Height of Burst (HOB) for detonation of the rocket platform. Accurately being able to detect HOB allows area type warheads - [Ocean Data Telemetry Micorsat Data](https://tsc.com/ocean-data-telemetry-micorsat-data/) - Low powered UHF satellite or UAV payload for a communications system designed to extract data from widely distributed sensors. TSC was responsible for system design, development, and testing. Mission operations software support was provided to TacSat-, TacSat-4, and STP-Sat-2. - [Geo-Robotics](https://tsc.com/geo-robotics/) - Satellite to service and repair geostationary satellites on orbit using semi-autonomous robotic algorithms and highly dexterous seven degree-of-freedom manipulators. TSC is supporting systems, electrical, and mechanical engineering, as well as program planning and control activities. - [IR/UV Sensors and Solutions](https://tsc.com/reallr-api-for-ir-sensor-sim/) - RealIR™ API for IR Sensor Simulation Technology Service Corporation (TSC) developed the RealIR™ application programming interface (API) to provide a toolkit for real-time sensor simulation developers. The RealIR API implements physics-based models for thermal IR sensor simulation, compatible with standard scene database formats and real-time simulation engines. The API has been incorporated in simulations for - [Mission Support](https://tsc.com/mission-support-2/) - TSC supports multiple Air-Force, Army, and NAVY UAS initiatives ranging from new UAS design and payload development to OCONUS operations. Our programs address urgent operational needs, such as ISR, Counter-IED, Counter-Insurgency, Counter-UAS, Electronic Warfare and Precision Strike. We have extensive experience with coordinating overseas operations, including logistics and staffing for foreign deployments. We support UAS - [Research & Rapid Development](https://tsc.com/research-rapid-development/) - TSC has been designing and building highly-advanced, turn-key RF sensors since the 1980s. From requirements analysis and simulation, to RF and digital circuit and antenna design, to Low-Rate Initial Production – We do it. TSC is an ISO 9001-2008 certified design and production house, with an extensive track record of delivering success on challenging DoD - [SEA, AIR, SPACE SYMPOSIUM](https://tsc.com/sea-air-space-symposium/) - We are pleased to announce our in-person attendance to the 2021 Sea, Air, Space Symposium on August 2-4! - [Airborne Electronic Attack (AEA) Depot](https://tsc.com/airborne-electronic-attack-aea-depot/) - TSC provides ongoing engineering and programmatic expertise for the establishment and support for the AEA depot at NAVSEA Crane. The depot supports the electronic warfare suite for the EA-18G Growler, a carrier-based electronic warfare aircraft. TSC combines years of engineering experience and certified LabVIEW expertise to create a custom test bench with integrated hardware and - [Past Performance](https://tsc.com/past-performance-2/) - TSC has supported XX flight hours over X missions. We have deployed XX to X locations globally. - [Space Systems and Intelligence](https://tsc.com/space-systems-and-intelligence/) - For over 30 years, TSC has put good ideas into orbit and beyond. From spacecraft manufacturing, integration & test, mission support, space instrument design, and ground stations development, TSC’s space capabilities transforms problems of national interest into high-flying realities. - [Precision Weapons](https://tsc.com/precision-weapons/) - asdgadfgsdfgdsfgsdfgsdfgsdfgsdfg - [Airborne Systems](https://tsc.com/airborne-systems/) - TSC has decades of experience in designing, building, testing, and deploying Airborne Sensors for ISR Mission Support. We support RF sensor employment from System Requirements Analysis, to Hardware/Software/Firmware Prototype Development, to Low-Rate Initial Production, to Deployment and Mission Support. ## Pages - [Home](https://tsc.com/) - Recent News TROPOSCATTER RECORDTSC NewsRecord-Setting 80-Mile Terrestrial Mobile Troposcatter Communications Link Demonstrated by TrellisWare and TSC. A live demonstration was conducted before members of NATO’s BLOS Comms Capabilities Team, with representatives from multiple allied nations in attendance. TAK Plugin for MTSTSC NewsTSC is proud to announce the development of a new Team Awareness Kit (TAK) - [TSC Leadership](https://tsc.com/tsc-leadership/) - Brandon WolfsonPresident & CEOBrandon Wolfson serves as President and CEO of TSC, headquartered in Arlington, VA, where he is responsible for the management of executive staff and leading the execution of corporate business plans.Read MoreMark KingChief Operating OfficerMark King serves as Chief Operating Officer and is responsible for day-to-day operations, budget management, corporate infrastructure alignment, - [Privacy Policy](https://tsc.com/privacy/) - Privacy Policy This privacy policy describes how we collect, use, and protect your personal information when you use our website and services. 1. Information We Collect We collect information that you provide directly to us, such as when you create an account, make a purchase, or contact us for support. This may include your name, - [Careers](https://tsc.com/careers/) - From CO-OP to TSC Employee Olivia Mishloney SkillBridge / TSC Esaul Diaz Engineering Technician Marcus Moore Work-Life Balance at TSC Summer Hutchins Business Development Chris Whited Work Flexibility and Teamwork Stephanie Abercombie Production Design Mike Maleski Here at TSC we have more of a hands on kind of atmosphere. You get to see how the - [Mobile Tracking Systems](https://tsc.com/airborne/mts/) - RADIO AGNOSTICUltimate flexibility to mount a wide range of antennas for any purpose. PRECISION TRACKINGMTS offers focused and consistent tracking regardless of environmental factors. SIMPLIFIED OPERATIONSMTS 3.0 offers an easy-to-use unit that minimizes user error and maximizes network performance. - [Precision Weapons](https://tsc.com/precision/) - VIPERTSC’s proximity sensor technology allows for aim-point selection, a wide range of end game velocities, and uses very little SWaP. Continue reading →AQUILAAquila is designed to meet the SWAP-C constraints of tactical UAS and provides radar seeker functions for loitering munitions. Continue reading →APEXTSC’s APEX family of seekers has been designed specifically to support affordable - [ESOP](https://tsc.com/esop/) - Stock OwnershipCompany stock represents the ownership of a company. Instead of individual owners holding all the stock, the ESOP holds 100% of TSC—allowing everyone to have an ownership stake. Employees have accounts within the ESOP, which is a long-term retirement plan. Over time, shares of TSC stock get added to your account by the company. - [RF Analysis & Processing](https://tsc.com/rfap/) - RF Analysis & Processing TSC’s Connecticut Office provides leading edge engineering in the areas of RF, modeling and simulation, algorithm development, and AI/ML automated target recognition. Pulse-by-Pulse Radar Simulations Arbitrary Waveforms Phased Array & other Antennas Ship/Missile & Target Motion Sea & Ground Clutter Measurement Ambiguities Range/Doppler Maps High Fidelity RCS Modeling Ships Aircraft Buoys - [FASTRAK](https://tsc.com/ew/fastrak/) - FASTRAK TSC’s FASTRAK hardware supports simultaneous search, survey, and geolocation of WiFi and Bluetooth devices, collection of WiFi packets, cellular downlink survey and geolocation, and C-UAS functions. For FASTRAK Firmware and Software Updates please use our Customer Portal Datasheet Download FM 208 Designed for low power and high performance, the FM-208 family is an ideal - [Antennas](https://tsc.com/antennas/) - Antennas TSC works collaboratively to meet your antenna requirements and mission needs. With 35+ years designing advanced RF solutions (Radar, EW, Missile Sensors) for DEVCOM, we can tailor existing products or create entirely new solutions to solve your programs greatest challenges. Passive Angle Sensing Antennas (PAS)TSC’s BroadEye-101 represents a cutting-edge technology for any operator interested - [Air and Missile Defense](https://tsc.com/defense/) - Air and Missile Defense TSC has been a strong technical participant in Aegis Ballistic Missile Defense (BMD) programs for over 20 years, beginning with the Navy Area program, continuing through the Navy Theater-Wide program, and currently with Aegis BMD. Our primary contributions are technical systems engineering and integrated logistics support, where we assist with timely - [The TSC Advantage](https://tsc.com/the-tsc-advantage/) - Small Biz. High Tech. Our size allows us to develop novel and unique solutions to improve the accuracy, range and capabilities of new and existing technologies. TSC’s in-house prototyping and manufacturing capabilities enable our world class engineers to rapidly research and develop solutions to current and next generation detect, defend, and defeat technologies. Proven - [About TSC](https://tsc.com/about/) - Where We WorkWith offices across the US, TSC is able to support our customers where they work. We also support OCONUS customers in INDOPACOM and other areas across the globe. Wherever you are, we are here to support and progress your programs and projects. We Are Problem SolversWith strong technical knowledge and experience to develop - [Electronic Warfare](https://tsc.com/ew/) - Electronic Warfare Our engineering expertise provides strong EW capabilities across ground, sea, and sky to the Navy’s electronic protect systems. We support advanced radar testing by developing prediction and analysis tools to solve Electronic Protection (EP) requirements for the U.S. Navy. TSC has the expertise to define, develop, integrate, and test a comprehensive EP capability - [Radar and Fire Control](https://tsc.com/radar/) - Radar and Fire Control TSC develops turnkey radar and fire control systems that enhance the performance of ground systems. We have proven capabilities in areas such as Antennas, Exciters, Receivers, Transmitters, Digital Signal Processors, Arbitrary Waveform Generators, Missile Datalinks, Fire Control Algorithms, Enhanced Target Range and Classification, and much more. We provide support for integration - [High West](https://tsc.com/airborne/high-west/) - High West Software Defined Radio (SDR) Payload – fully integrated SDR system designed specifically to meet the SWAP-C constraints and security requirements of tactical unmanned systems. For FASTRAK Firmware and Software Updates please use our Customer Portal High West Datasheet Contact TSC for Pricing TSC Customer Portal for FW/SW Updates MODPAYLOAD Compliant 70 MHz to - [Sea Dragon](https://tsc.com/airborne/seadragon/) - Datasheet DownloadDisruptively Low Cost TSC’s Sea Dragon offers disruptively low cost ISR solutions to detect and track assets and threats. Datasheet DownloadMaritime Domain Awareness Platform agnostic Maritime Domain Awareness with mission selectable ISR payloads. Datasheet DownloadCoordinated Enforcement High quality ISR outputs enable local law enforcement to better protect national exclusive economic zones. PLATFORMS Unmanned, Manned - [Airborne Solutions](https://tsc.com/airborne/) - Airborne Solutions Increased domain awareness through manned / unmanned systems, plus mobile data connections for improved tracking and networking of aerial assets. Datasheet DownloadSea Dragon Platform agnostic Maritime Domain Awareness with mission selectable Intelligence Surveillance & Reconnaissance (ISR) payloads. LEARN MORE Datasheet DownloadMTS TSC’s Mobile Tracking Systems (MTS) offer simplified air-to-ground data links allow operators - [Long Endurance Aircraft (LEA)](https://tsc.com/airborne/lea/) - Long Endurance Aircraft (LEA) Unmanned, Group IV aircraft providing highly efficient Intelligence, Surveillance & Reconnaissance (ISR) with customer selected data collection payloads. LEA Datasheet 40,000+ Flight hours for customers 3,000+ Sorties for customers TAILORED TO YOUR NEEDSCustomer selected command and control datalinks, collection payloads, and other mission essential kit. LOS and BLOS Capable Capable of - [Space Systems and Intelligence](https://tsc.com/ssi/) - Space Systems and Intelligence For over 30 years, TSC has put good ideas into orbit and beyond. From spacecraft manufacturing, integration & test, mission support, space instrument design, and ground stations development, TSC’s space capabilities transforms problems of national interest into high-flying realities. Datasheet DownloadSpace Robotics Intelligent robotic systems that operate in demanding environment of - [TSC x SOF Week](https://tsc.com/tsc-x-sof-week/) - https://tsc.com/wp-content/uploads/2025/05/TSC_Nathusius_Product-Feature_vFinal_YouTube-4K-H265-cover.mp4NATHUSIUSLongest Endurance Commercial Platform in its Class TSC proudly unveils Nathusius, the next-generation, long-endurance commercial platform designed for enduring mission-critical operations. With unmatched operational efficiency and cost-effective lifecycle management, Nathusius is the ideal solution for missions ranging from maritime research and humanitarian aid to environmental monitoring and security services. Learn Morehttps://tsc.com/wp-content/uploads/2022/05/MTS2-TSC-website-hero_segment-720p-compressed.mp4Mobile Tracking Systems (MTS)Air-to-Ground data - [Veterans](https://tsc.com/careers/veterans/) - Esaul Diaz discusses going from a SkillBridge intern to working full-time at TSC. SkillBridge PartnerAs a proud SkillBridge partner, TSC is dedicated to facilitating seamless transitions for service members into civilian careers. The Department of Defense SkillBridge program offers valuable training and hands-on experience to help veterans translate their military skills into successful civilian careers. - [Internships and Co-Ops](https://tsc.com/careers/intern-coop/) - INTERNSHIPs & CO-OPs Welcome to TSC Careers! At TSC, we believe in nurturing future leaders and providing them with the platform to thrive. Our College Internship and Co-op Program is designed to offer you a robust, hands-on experience that complements your academic journey and propels your professional growth. Internship & Co-op Positions WHY TSC. Innovative - [Contact](https://tsc.com/contact/) - For TSC Product Firmware and Software Updates please use our Customer Portal TSC would like to hear your questions or comments. Please complete the form below and we will respond as quickly as possible. 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Yes No Branch(Required)ArmyAir ForceCoast - [TSC Products - Downloads](https://tsc.com/tsc-products-downloads/) - Product Guides Product Selection Guide 1 file(s) 3 MB Click Here to Download Application Notes AN-101A “Driving the QM Series Quadrature Modulators” 1 file(s) 960.97 KB Click Here to Download AN-102A "Interface Circuits for the QD Series Quadrature Demodulators" 1 file(s) 952.56 KB Click Here to Download White Papers Private File - Access Forbidden AD0105B - [Our History](https://tsc.com/who-we-are/our-history/) - 2021TSC acquires Praxis Products.2021TSC acquires Avwatch.2021Denver, CO office opened2018The TSC Board of Directors appoints Brandon Wolfson as President & CEO2016TSC celebrates 50 years of innovation2013The TSC Board of Directors appoints Michael Syracuse as President & CEO2012TSC acquires Polyphase Microwave, Inc.2008TSC acquires Magnacom, Inc.2004TSC acquires Phase IV Systems and PIVC, LLC (Now Alabama Operations)2001Washington Navy Yard - [Avwatch, Inc.](https://tsc.com/avwatch-inc/) - Avwatch, Inc. acquired by TSC TSC formally acquired Avwatch, Inc. on 2 August 2021. TSC is pleased to continue offering all Avwatch services and products. Please see the TSC Airborne Systems web page for more info. Airborne SystemsTSC has decades of experience in designing, building, testing, and deploying Airborne Sensors for ISR Mission Support. We support - [Single-Sideband Mixers (SSB)](https://tsc.com/single-sideband-mixers-ssb/) - Upconvert an IF signal to the desired RF sideband while suppressing the unwanted RF sideband. SSB modulators simplify the design of high-performance upconverters and transmitters. The SSB series features enhanced sideband suppression, linearity, and ultra-low LO leakage. The SSB product line is available in the following frequencies (GHz): 0.5 – 5.0 • 0.55 – 1.1 - [Quadrature Modulators (QM/Passive, AM/Active)](https://tsc.com/quadrature-modulators-qm-passive-am-active/) - Quadrature modulators generate any bandpass RF modulation including QPSK, QAM, OFDM, FM, PM, AM, and pulsed Doppler. I and Q baseband inputs directly modulate the LO input to generate a modulated RF output. AM series modulators use active designs with superior linearity and have integrated LO amplifiers. QM series modulators are passive for the lowest - [Image Reject Mixers (IRM)](https://tsc.com/image-reject-mixers-irm/) - The desired RF sideband is downconverted to an IF output while the unwanted RF image is rejected. The IRM series features enhanced image rejection, linearity, and LO-RF isolation making them ideal for high-performance microwave downconverters and receivers. The Image Reject Mixer line is available in the following frequencies (GHz): 0.55 – 1.1 • 0.6 – - [Quadrature Demodulators (QD/Passive, AD/Active)](https://tsc.com/quadrature-demodulators-qd-passive-ad-active/) - Quadrature demodulators directly convert RF signals to I and Q baseband outputs. Internally matched lowpass filters provide anti-aliasing for easy interfacing with digitizers or ADCs. AD series demodulators are active designs with the best overall performance. QD series demodulators use passive mixers for the lowest possible output noise. The Quadrature Demodulator product line is available - [Doing Business With TSC](https://tsc.com/suppliers/) - MULTIPLE AWARD SCHEDULE (MAS) –SCHEDULE NO. GS-23F-0240S The Multiple Award Schedule (MAS) is an indefinite delivery/indefinite quantity (IDIQ) schedule, providing direct access to simple or complex Fixed-Price or Labor-Hour professional services. Special Item Numbers: SIN 541330ENG – Engineering Services, SIN 541420 – Engineering System Design and Integration Services, SIN 541380 – Testing Laboratory Services, SIN - [Airborne Systems](https://tsc.com/airborne-systems/) - Mobile Tracking SystemsMTS 2.0MTS RADOMEMTS 3.0Sea DragonLong Endurance Aircraft (LEA)High West TSC has decades of experience in designing, building, testing, and deploying Airborne Sensors for ISR Mission Support. We support RF sensor employment from System Requirements Analysis, to Hardware/Software/Firmware Prototype Development, to Low-Rate Initial Production, to Deployment and Mission Support. MOBILE TRACKING SYSTEMS (MTS) TSC’s - [Employment Verification](https://tsc.com/employment-verification/) - Current and former TSC employees can provide proof of employment and income with secure, 24/7 access through a phone number and website. For employees initiating verification Supply the firm or agency with the following: Your social security number TSC’s employer code: 107109 A salary key may be required for proof of employment plus income. Employees can - [Register](https://tsc.com/register/) - [Polyphase Microwave Inc. Return Policy](https://tsc.com/polyphase-microwave-inc-return-policy/) - If you are not 100% satisfied with your purchase, you can return your order for a full refund. You can return your purchase for up to 1 year from the purchase date. Returned products must be in the condition you received them and in the original box and/or packaging and must be authorized. To request - [Polyphase Microwave Products](https://tsc.com/polyphase-microwave-products/) - Polyphase Microwave manufactures high-performance specialty mixer components, assemblies, and instrumentation for demanding RF/microwave transmitters and receivers. Our products are critical elements in wireless communications systems, radar/EW systems, test instrumentation, and scientific R&D. We stock a complete line of specialty mixer components including image-reject mixers, quadrature (I/Q) modulators, quadrature (I/Q) demodulators, and single-sideband modulators. polyphase microwave - [Products](https://tsc.com/products/) - Modeling and Simulation Hostile Fire Indicator (HFI) Test SystemMissile warning systems currently under development by the United States military, such as the Joint and Allied Threat Awareness System (JATAS), are incorporating an additional warning requirement – that of…Read MoreIR/UV Sensors and SolutionsRealIR™ API for IR Sensor Simulation Technology Service Corporation (TSC) developed the RealIR™ application - [Privacy Policy](https://tsc.com/privacy-policy/) - Last updated: December 01, 2021 This Privacy Policy describes Our policies and procedures on the collection, use and disclosure of Your information when You use the Service and tells You about Your privacy rights and how the law protects You. We use Your Personal data to provide and improve the Service. By using the Service, - [ProtoTx](https://tsc.com/prototx/) - The protoTx PTX-0350 is a user-programmable I/Q to RF upconverter and IF to RF upconverter with internal LO synthesizer. The PTX-0350 is programmed over USB 2.0 with a Windows-based soft front panel. User settings are stored in nonvolatile memory and recalled at power-up, enabling applications in target systems without USB control. The internal LO synthesizer - [Polyphase Microwave Inc. - Terms and Conditions](https://tsc.com/polyphase-microwave-inc-terms-and-conditions/) - The Terms and Conditions of Sale contained herein (the “Agreement”) constitute the entire agreement between POLYPHASE MICROWAVE INC., Inc. (“Seller” or “POLYPHASE MICROWAVE INC.”) and the party which places a purchase order with POLYPHASE MICROWAVE INC. (“Buyer”) and shall control all purchases of Products (as hereinafter defined) by Buyer from POLYPHASE MICROWAVE INC. POLYPHASE MICROWAVE - [Test Equipment](https://tsc.com/test-equipment/) - Stock and Custom Test Equipment Read more Read more Read more Read more - [Multipurpose Frequency Converters](https://tsc.com/multipurpose-frequency-converters/) - Read more - [Caseless Mixers](https://tsc.com/caseless-mixers/) - Polyphase Microwave’s caseless mixers may be directly mounted to an RF mainboard. SMP male push-on connectors provide excellent RF signal interconnection to 12 GHz. Most standard mixers are available in caseless configurations. Advantages of caseless mixers: Smaller Size Light weight Reduced cost No RF cables Special attention must be given to RF shielding and the - [Praxis - Suppliers](https://tsc.com/praxis-suppliers/) - At Praxis, the relationships we forge with our suppliers are key to our integrity, agility, and competitiveness, as well as our ability to meet our customers’ needs. Praxis is committed to providing our suppliers with advanced procurement tools and processes, and best-in-class Supply Chain Management (SCM) systems to enable fast, secure and efficient ways to - [Praxis - OASIS](https://tsc.com/praxis-oasis/) - OASIS SB OVERVIEW One Acquisition Solution for Integrated Services – Small Business (OASIS SB) is designed to address agencies’ need for a full range of service requirements that integrate multiple professional service disciplines and ancillary services/products with the flexibility for all contract types and pricing at the task order level. The services to be provided - [Join Teams as a Guest](https://tsc.com/jointeams-htm/) - How to Join a TSC Hosted Teams Meeting as a Guest MICROSOFT 365 GCC HIGH TSC Teams meetings are hosted on a secure GCC High tenant. External participants will not be able to join meetings using their 365 account and must instead join as a guest. 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Name(Required) First Last Phone(Required)Email(Required) TSC Operation(Required)COVID-19 Question(Required)CAPTCHA - [Supplier Resources](https://tsc.com/supplier-resources/) - Resource Links Click a link below to visit the linked resource site: U.S. Small Business Administration (HUBZone) – Historically Underutlized Business Zones Small Disadvantaged Business (SDB) Women Business Owner Resources 8(a) Business Development Program Business.USA.Gov – The Official Business Link to the U.S. Government Business.gov is a collaborative effort managed by the U.S. - [Small Business Program](https://tsc.com/small-business-program/) - Technology Service Corporation is committed to supporting small business concerns, including those of socially and economically disadvantaged businesses, in its acquisition programs. Accordingly, TSC maintains a Small Business Program. Our Small Business Program is intended to give small, HUBZone small, small disadvantaged, veteran-owned small, service-disabled veteran-owned small, and women-owned small business concerns, and historically black - [Supplier Registration](https://tsc.com/supplier-registration/) - Please complete the following information about your company by completing this form. "*" indicates required fields Company Name*Address* Street Address Address Line 2 City State / Province / Region ZIP / Postal Code AfghanistanAlbaniaAlgeriaAmerican SamoaAndorraAngolaAnguillaAntarcticaAntigua and BarbudaArgentinaArmeniaArubaAustraliaAustriaAzerbaijanBahamasBahrainBangladeshBarbadosBelarusBelgiumBelizeBeninBermudaBhutanBoliviaBonaire, Sint Eustatius and SabaBosnia and HerzegovinaBotswanaBouvet IslandBrazilBritish Indian Ocean TerritoryBrunei DarussalamBulgariaBurkina FasoBurundiCabo VerdeCambodiaCameroonCanadaCayman IslandsCentral African RepublicChadChileChinaChristmas IslandCocos IslandsColombiaComorosCongoCongo, - [What We Do](https://tsc.com/what-we-do/) - [Who We Are](https://tsc.com/who-we-are/) - Technology Service Corporation (TSC) is an employee-owned, high-technology company primarily engaged in providing engineering services to the US Government. TSC provides full life cycle support, from advanced concept development through operational support, for sensors and solutions related to land, sea, air, and space. TSC has supported Federal Government, commercial, and international customers for over 50 ## Staff - [London Propst](https://tsc.com/staff/london-propst/) - Mr. Propst serves as General Counsel overseeing TSC’s legal, contracts, and trade compliance departments, where he manages and successfully resolves complex business and corporate problems. - [Dr. Dan Lawrence](https://tsc.com/staff/dr-lawrence/) - Dr. Dan Lawrence serves as Chief Science Officer (CSO) for TSC where he provides technical leadership for the successful execution of key programs and fosters the development of innovative and enabling technologies for future growth. - [Eric Wanosky](https://tsc.com/staff/eric-wanosky/) - Eric Wanosky serves as TSC’s Chief Technology Officer (CTO) where he directs TSC’s pursuits and investments in the technology needs to meet our customers’ requirements and mission needs. - [Bill Hooper](https://tsc.com/staff/bill-hooper/) - Bill Hooper serves as a Vice President and Technical Fellow for TSC, where he is responsible for the development and execution of TSC’s product offerings. - [Andrew Surowiec](https://tsc.com/staff/andrew-surowiec/) - Andrew Surowiec leads TSC’s Product Solutions (PS) Division, overseeing P&L, strategy, and program execution associated with the development and delivery of TSC’s government and commercial products. - [Travis Fields](https://tsc.com/staff/travis-fields/) - Travis Fields serves as TSC’s Vice President of Contracts. With over 20 years of experience, his contracts management and leadership talents have been instrumental in supporting company strategic goals and objectives. - [Kemal Piskin](https://tsc.com/staff/kemal-piskin/) - Piskin serves as Vice President of Security and Information Technology of TSC, headquartered in Arlington, VA, where he is responsible for leading the strategic direction and oversight of TSC’s company-wide physical security, cybersecurity, and IT infrastructure. - [Brandon Wolfson](https://tsc.com/staff/brandon-wolfson/) - Brandon Wolfson serves as President and CEO of TSC, headquartered in Arlington, VA, where he is responsible for the management of executive staff and leading the execution of corporate business plans. - [Darren Durkee](https://tsc.com/staff/darren-durkee/) - Darren Durkee leads TSC’s Defense & Space Systems (DSS) Division, providing Research and Development (R&D) and Science and Technology (S&T) support for US Government and commercial customers. - [William Barrett](https://tsc.com/staff/william-barrett/) - Mr. Barrett serves as Division Manager of TSC’s AISR Division where he is responsible the overall strategic management of the AISR portfolio. - [Craig Jennings](https://tsc.com/staff/craig-jennings/) - Craig Jennings is V.P. and Division Manager of Systems Engineering and Analysis (SEA) and is responsible for new business development, overall profit/loss, supporting Corporate Strategic Vision, and generating and meeting annual financial objectives for the SEA Division. - [Mark King](https://tsc.com/staff/mark-king/) - Mark King serves as Chief Operating Officer and is responsible for day-to-day operations, budget management, corporate infrastructure alignment, TSC’s program management organization (PMO), marketing, government relations, growth, and production. - [Chris Edwards](https://tsc.com/staff/chris-edwards/) - Christopher Edwards serves as Chief Financial Officer and oversees all aspects of financial planning and reporting, treasury and investments, financial/accounting business systems, program control, estimating/pricing, internal/external audit, compliance, and M&A. ## Testimonials - [Olivia Mishloney](https://tsc.com/testimonial/olivia-mishloney/) - From day one at TSC I've been assigned programs and efforts that felt intentional and purposeful not only to my education, but also for the company as a whole. - [Marcus Moore](https://tsc.com/testimonial/marcus-moore/) - Here at TSC we have more of a hands on kind of atmosphere. You get to see how the whole process works, beginning to end. - [Esaul Diaz](https://tsc.com/testimonial/esaul-diaz/) - Working at TSC, the environment is great. Working with like minded people, and people that put the mission first, who love being there, it's a great environment and I love it. - [Stephanie Abercrombie](https://tsc.com/testimonial/stephanie-abercrombie/) - TSC has given me and most of the people I know, opportunities to find our strengths, offered mentorships, they’re open to us trying new things, they’re always encouraging. ## Downloads - [TSC Contract Requirements](https://tsc.com/download/tsc-contract-requirements/) - [TSC Supplier Quality Clauses](https://tsc.com/download/supplier-quality-clauses/) - [SSB0260A AM0260 SoftPanel V1.0](https://tsc.com/download/ssb0260a-am0260-softpanel-v1-0/) - [QD/QM Series IQ Bandwidth](https://tsc.com/download/qd-qm-series-iq-bandwidth/) - Customer inquired about the IQ bandwidth of the QD/QM series of modulators. The data in this document summarizes the results of measuring the QD/QM1422 IQ bandwidth with two different IQ channel configurations; Standard IQ Filter and 770MHz -3dB LPF. This data should be representative of all QD/QM models. - [AD0105B IQ Bandwidth to 400MHz](https://tsc.com/download/ad0105b-iq-bandwidth-to-400mhz/) - Customer inquired about increasing the IQ bandwidth of the AD0105B. The data in this document summarizes the results of measuring the AD0105B IQ bandwidth to 400MHz with three different IQ channel configurations; Standard, 350MHz -3dB LPF and 560MHz -3dB LPF. - [AD0105B IQ Bandwidth to 900MHz](https://tsc.com/download/ad0105b-iq-bandwidth-to-900mhz/) - Customer inquired about increasing the IQ bandwidth of the AD0105B. The data in this document summarizes the results of measuring the AD0105B IQ bandwidth to 900MHz with three different IQ channel configurations; Standard, 350MHz -3dB LPF and 560MHz -3dB LPF. - [Product Selection Guide](https://tsc.com/download/product-selection-guide/) - In-Stock and Custom Products - We stock a complete line of specialty mixer components including image-reject mixers, quadrature (I/Q) modulators, quadrature (I/Q) demodulators, and single-sideband modulators. Our standard products are often just the starting point for a customized solution. Our experienced engineering staff is ready to discuss your application requirements and find the best solution for your system. - [AM0350A IQ Bandwidth](https://tsc.com/download/am0350a-iq-bandwidth/) - Customer inquired about the IQ bandwidth of the AM0350A. The data in this document summarizes the results of measuring the AM0350A IQ bandwidth with two different IQ channel configurations; Standard IQ Filter and 770MHz -3dB LPF. - [AM0260A IQ Bandwidth](https://tsc.com/download/am0260a-iq-bandwidth/) - Customer inquired about the IQ bandwidth of the AM0260A. The data in this document summarizes the results of measuring the AM0260A IQ bandwidth with two different IQ channel configurations; No IQ Filter and 770MHz -3dB LPF. - [AD0540B IQ Bandwidth](https://tsc.com/download/ad0540b-iq-bandwidth/) - Customer inquired about increasing the IQ bandwidth of the AD0540B. The data in this document summarizes the results of measuring the AD0540B IQ bandwidth with three different IQ channel configurations; No IQ Filter, 770MHz -3dB LPF and 770MHz -3dB LPF including reduced IQ Amplifier Gain. - [AN-101A “Driving the QM Series Quadrature Modulators”](https://tsc.com/download/an-101a-driving-the-qm-series-quadrature-modulators/) - Discusses common methods of driving the QM series baseband I/Q inputs. Active and passive interface circuits are presented for driving the QM series Quadrature Modulators with single-ended I and Q signal sources. An active driver circuit for interfacing to differential D/A converters is also included. - [AN-102A "Interface Circuits for the QD Series Quadrature Demodulators"](https://tsc.com/download/an-102a-interface-circuits-for-the-qd-series-quadrature-demodulators/) ## Products - [SSB (0.2-6.0)GHz](https://tsc.com/product/ssb-0-2-6-0ghz/) - FEATURES RF Frequency: 200 – 6000 MHz Input P1dB: +32 dBm Sideband Suppression: -45 dBc (Typical) LO Leakage: -50 dBm (Typical) _________ - [AM (0.2-6.0)GHz](https://tsc.com/product/am-0-2-6-0ghz/) - FEATURES RF Frequency: 200 – 6000 MHz Input P1dB: +32 dBm Sideband Suppression: -45 dBc (Typical) LO Leakage: -50 dBm (Typical) _________ - [C-Series Calibration Software](https://tsc.com/product/c-series-calibration-software1/) - C-Series Calibration Software: TSC-CSER-CAL00 - [SSB (0.5-5.0)GHz](https://tsc.com/product/ssb-0-5-5-0ghz/) - FEATURES RF Frequency: 500 – 5000 MHz Input P1dB: +16 dBm Sideband Suppression: -40 dBc LO Leakage: -35 dBm LO Power: +5 dBm DC Power: +5 V @ 250 mA, -5 V @ 25 mA Module Frequency (GHz): 0.5 - 5.0 Sideband (Typ / Min dBc): -40 / -30 DESCRIPTION The SSB0550A is a single-sideband - [AD (0.4-6.0)GHz](https://tsc.com/product/ad-0-4-6-0ghz/) - FEATURES LO/RF Frequency: 400 – 6000 MHz I/Q Bandwidth: 275 MHz Input P1dB: +12 dBm Amplitude Imbalance: ±0.05 dB Phase Error: ±0.5 Degree LO Power: +0 dBm DC Supplies: +5V @ 290 mA, -5V @ 50 mA Active Frequency (GHz): 0.4 - 6.0 DESCRIPTION When a LO signal is applied, the AD0460B converts the RF input - [AD (0.1-0.5)GHz](https://tsc.com/product/ad-0-1-0-5ghz/) - FEATURES LO/RF Frequency: 100 – 500 MHz I/Q Bandwidth: 100 MHz Input IP3: +30 dBm Input P1dB: +15 dBm Amplitude Imbalance: ±0.1 dB Phase Error: ±1.5 Degree LO Power: +5 dBm DC Power: +5V @ 100 mA, -5V @ 50 mA Active Frequency (GHz): 0.1 - 0.5 DESCRIPTION When a LO signal is applied, the - [AD (0.5-4.0)GHz](https://tsc.com/product/ad-0-5-4-0ghz/) - FEATURES LO/RF Frequency: 500 – 4000 MHz I/Q Bandwidth: 275 MHz Input IP3: +30 dBm Input P1dB: +12 dBm Amplitude Imbalance: ±0.05 dB Phase Error: ±0.5 Degree LO Power: +0 dBm DC Supplies: +5V @ 290 mA, -5V @ 50 mA Active Frequency (GHz): 0.5 - 4.0 DESCRIPTION When a LO signal is applied, the - [QD (0.5-1.1)GHz](https://tsc.com/product/qd-0-5-1-1ghz/) - FEATURES LO/RF Frequency: 550 – 1100 MHz Input IP2: +64 dBm Input IP3: +15 dBm Input P1dB: +7 dBm Amplitude imbalance: 0.1 dB rms Quadrature phase error: 1.6° rms LO Power: +14 dBm Passive Frequency (GHz): 0.55 - 1.1 SKU: QD0511B - [QD (0.6-2.2)GHz](https://tsc.com/product/qd-0-6-2-2ghz/) - FEATURES LO/RF Frequency: 600 – 2200 MHz Input IP2: +65 dBm Input IP3: +12 dBm Input P1dB: +6 dBm Amplitude imbalance: 0.1 dB rms Quadrature phase error: 1.4° rms LO Power: +14 dBm Passive Frequency (GHz): 0.6 - 2.2 DESCRIPTION The QD0622B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive - [AM (0.3-5.0)GHz](https://tsc.com/product/am-0-3-5-0ghz/) - FEATURES LO/RF Frequency: 300 – 5000 MHz Input IP3: +25 dBm Sideband Suppression: -40 dBc LO Leakage: -35 dBm LO Power: +5 dBm DC Power: +5 V @ 250 mA, -5 V @ 25 mA Active Frequency (GHz): 0.3 - 5.0 DESCRIPTION The AM0350A quadrature modulator is ideal for converting baseband I/Q modulation directly to - [QM (0.55 - 1.1)GHz](https://tsc.com/product/qm-0-55-1-1ghz/) - FEATURES LO/RF Frequency: 550 – 1100 MHz Input IP3: +14 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -35 dBc LO Leakage: -52 dBm LO Power: +14 dBm Passive Frequency (GHz): 0.55 - 1.1 DESCRIPTION The QM0511A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are - [QM (0.6 - 2.2)GHz](https://tsc.com/product/qm-0-6-2-2ghz/) - FEATURES LO/RF Frequency: 600 – 2200 MHz Input IP3: +16 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -35 dBc LO Leakage: -55 dBm LO Power: +14 dBm Passive Frequency (GHz): 0.6 - 2.2 DESCRIPTION The QM0622A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are - [QM (1.2 - 1.4)GHz](https://tsc.com/product/qm-1-2-1-4ghz/) - FEATURES LO/RF Frequency: 1200 – 1400 MHz Input IP3: +18 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -42 dBc LO Leakage: -50 dBm LO Power: +14 dBm Passive Frequency (GHz): 1.2 - 1.4 DESCRIPTION The QM1214A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are - [QM (1.2 - 2.0)GHz](https://tsc.com/product/qm-1-2-2-0ghz/) - FEATURES LO/RF Frequency: 1200 – 2000 MHz Input IP3: +18 dBm Input P1dB: +8 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -40 dBc LO Leakage: -50 dBm LO Power: +14 dBm Passive Frequency (GHz): 1.2 - 2.0 DESCRIPTION The QM1220A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I - [QM (1.4 - 2.2)GHz](https://tsc.com/product/qm-1-4-2-2ghz/) - FEATURES LO/RF Frequency: 1400 – 2200 MHz Input IP3: +17 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -40 dBc LO Leakage: -52 dBm LO Power: +14 dBm Passive Frequency (GHz): 1.4 - 2.2 DESCRIPTION The QM1422A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are - [QM (2.0 - 4.0)GHz](https://tsc.com/product/qm-2-0-4-0ghz/) - FEATURES LO/RF Frequency: 2000 – 4000 MHz Input IP3: +17 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -34 dBc LO Leakage: -42 dBm LO Power: +15 dBm Passive Frequency (GHz): 2.0 - 4.0 DESCRIPTION The QM2040A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are - [SSB (1.2-1.4)GHz](https://tsc.com/product/ssb-1-2-1-4ghz/) - FEATURES RF Frequency: 1200 – 1400 MHz Input IP3: +17 dBm Input P1dB: +8 dBm Sideband Suppression: -40 dBc LO Leakage: -48 dBm LO Power: +14 dBm Module Frequency (GHz): 1.2 - 1.4 Sideband (Typ / Min dBc): -40 / -30 DESCRIPTION The SSB1214A is a single- sideband modulator optimized for linear modulation of an - [SSB (0.6-2.2)GHz](https://tsc.com/product/ssb-0-6-2-2ghz/) - FEATURES RF Frequency: 600 – 2200 MHz Input IP3: +12 dBm Input P1dB: +5 dBm Sideband Suppression: -38 dBc LO Leakage: -45 dBm LO Power: +14 dBm Module Frequency (GHz): 0.6 - 2.2 Sideband (Typ / Min dBc): -38 / -28 DESCRIPTION The SSB0622A is a single- sideband modulator optimized for linear modulation of an - [SSB (0.55-1.1)GHz](https://tsc.com/product/ssb-0-55-1-1ghz/) - FEATURES RF Frequency: 550 – 1100 MHz Input IP3: +15 dBm Input P1dB: +7 dBm Sideband Suppression: -35 dBc LO Leakage: -50 dBm LO Power: +14 dBm Module Frequency (GHz): 0.55 - 1.1 Sideband (Typ / Min dBc): -35 / -25 DESCRIPTION The SSB0511A is a single- sideband modulator optimized for linear modulation of an - [IRM (0.55-1.1)GHz](https://tsc.com/product/irm-0-55-1-1ghz/) - FEATURES LO Frequency: 550 – 1100 MHz Image Rejection: 37 dB LO-RF Isolation: 65 dB Input IP3: +15 dBm Input P1dB: +7 dBm LO Power: +14 dBm Module Frequency (GHz): 0.55 - 1.1 IIP3 (dBm): +15 Image Rejection (Typ/Min dB): 37/27 DESCRIPTION The IRM0511B is an image-reject mixer with enhanced linearity. The desired RF sideband - [IRM (0.6-2.2)GHz](https://tsc.com/product/irm-0-6-2-2ghz/) - FEATURES LO Frequency: 600 – 2200 MHz Image Rejection: 35 dB LO-RF Isolation: 60 dB Input IP3: +12 dBm Input P1dB: +5 dBm LO Power: +14 dBm Module Frequency (GHz): 0.6 - 2.2 IIP3 (dBm): +12 Image Rejection (Typ/Min dB): 35/25 DESCRIPTION The IRM0622B is an image-reject mixer with enhanced linearity. The desired RF si - [IRM (1.2-1.4)GHz](https://tsc.com/product/irm-1-2-1-4ghz/) - FEATURES LO Frequency: 1200 – 1400 MHz Image Rejection: 40 dB LO-RF Isolation: 65 dB Input IP3: +17 dBm Input P1dB: +8 dBm LO Power: +14 dBm Module Frequency (GHz): 1.2 - 1.4 IIP3 (dBm): +17 Image Rejection (Typ/Min dB): 40/30 - [IRM (2.0-4.0)GHz](https://tsc.com/product/irm-2-0-4-0ghz/) - TYPICAL PERFORMANCE: LO Frequency (GHz): 2.0 – 4.0 Image Rejection (dB): 35 LO-RF Isolation (dB): 55 Input IP3 (dBm): +17 Input P1dB (dBm): +6 LO Power (dBm): +15 DESCRIPTION The IRM2040B is an image-reject mixer with enhanced linearity. The desired RF si deband is downconverted to the IF while the unwanted RF sideband is internally - [QD (1.2-1.4)GHz](https://tsc.com/product/qd-1-2-1-4ghz/) - FEATURES LO/RF Frequency: 1200 – 1400 MHz Input IP2: +65 dBm Input IP3: +17 dBm Input P1dB: +8 dBm Amplitude imbalance: 0.1 dB rms Quadrature phase error: 1.1° rms LO Power: +14 dBm Passive Frequency (GHz): 1.2 - 1.4 DESCRIPTION The QD1214B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive - [QD (1.2-2.0)GHz](https://tsc.com/product/qd-1-2-2-0ghz/) - FEATURES LO/RF Frequency: 1200 – 2000 MHz Input IP2: +65 dBm Input IP3: +18 dBm Input P1dB: +8 dBm Amplitude imbalance: 0.1 dB rms Quadrature phase error: 1.2° rms LO Power: +14 dBm Passive Frequency (GHz): 1.2 - 2.0 DESCRIPTION The QD1220B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive - [QD (1.4-2.2)GHz](https://tsc.com/product/qd-1-4-2-2ghz/) - FEATURES LO/RF Frequency: 1400 – 2200 MHz Input IP2: +65 dBm Input IP3: +18 dBm Input P1dB: +7 dBm Amplitude imbalance: 0.1 dB rms Quadrature phase error: 1.5° rms LO Power: +14 dBm Passive Frequency (GHz): 1.4 - 2.2 DESCRIPTION The QD1422B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive - [QD (2.0-4.0)GHz](https://tsc.com/product/qd-2-0-4-0ghz/) - FEATURES LO/RF Frequency: 2000 – 4000 MHz Input IP2: +65 dBm Input IP3: +16 dBm Input P1dB: +6 dBm Amplitude imbalance: 0.2 dB rms Quadrature phase error: 2.5° rms LO Power: +15 dBm Passive Frequency (GHz): 2.0 - 4.0 DESCRIPTION The QD2040B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive demodulator - [AD (2.0-6.0)GHz](https://tsc.com/product/ad-2-0-6-0ghz/) - FEATURES LO/RF Frequency: 2000 – 6000 MHz I/Q Bandwidth: 275 MHz Input IP3: +30 dBm Input P1dB: +12 dBm Amplitude imbalance: ±0.05 dB rms Phase Error: ±0.5 Degree LO Power: +5 dBm DC Supplies: +5V @ 290 mA, -5V @ 50 mA Active Frequency (GHz): 2.0 - 6.0 DESCRIPTION When a LO signal is applied, the - [QD (2.3-2.6)GHz](https://tsc.com/product/qd-2-3-2-6ghz/) - FEATURES LO/RF Frequency: 2300 – 2600 MHz Input IP2: +65 dBm Input IP3: +15 dBm Input P1dB: +6 dBm Amplitude imbalance: ±0.05 dB rms Quadrature Phase Error: 0.5 rms LO Power: +14 dBm Passive Frequency (GHz): 2.3 - 2.6 DESCRIPTION The QD2326B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive demodulator is - [QD (3.0-4.0)GHz](https://tsc.com/product/qd-3-0-4-0ghz/) - FEATURES LO/RF Frequency: 3000 – 4000 MHz Input IP2: +70 dBm Input IP3: +17 dBm Input P1dB: +7 dBm Amplitude imbalance: .1 dB rms Quadrature Phase Error: 1.6° rms LO Power: +15 dBm Passive Frequency (GHz): 3.0 - 4.0 DESCRIPTION The QD3040B is a quadrature (I/Q) demodulator optimized for direct conversion receivers. When the passive demodulator is supplied with - [AD (6.0-10.0)GHz](https://tsc.com/product/ad-6-0-10-0ghz/) - FEATURES LO/RF Frequency: 6 – 10 GHz I/Q Bandwidth: 275 MHz Input IP3: +22 dBm Input P1dB: +12 dBm Amplitude imbalance: ±0.1 dB Phase Error: -2 Degrees LO Power: +5 dBm DC Supplies: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 6.0 - 10.0 DESCRIPTION When a LO signal is applied, the AD60100B converts the - [AD (4.0-8.0)GHz](https://tsc.com/product/ad-4-0-8-0ghz/) - FEATURES LO/RF Frequency: 4000 – 8000 MHz I/Q Bandwidth: 275 MHz Input IP3: +23 dBm Input P1dB: +14 dBm Amplitude imbalance: ±0.1 dB Phase Error: ±2 Degrees LO Power: +4 dBm DC Supplies: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 4.0 - 8.0 DESCRIPTION When a LO signal is applied, the AD4080B converts the - [AD (15.5-18.0)GHz](https://tsc.com/product/ad-15-5-18-0ghz/) - FEATURES LO/RF Frequency: 15.5 – 18 GHz I/Q Bandwidth: 275 MHz Input IP3: +18 dBm Input P1dB: +10 dBm Amplitude imbalance: ±0.3 dB Phase Error: ±1 Degree LO Power: +6 dBm DC Supplies: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 15.5 - 18.0 DESCRIPTION When a LO signal is applied, the AD155180B converts the - [AD (11.0-14.0)GHz](https://tsc.com/product/ad-11-0-14-0ghz/) - FEATURES LO/RF Frequency: 11 – 14 GHz I/Q Bandwidth: 275 MHz Input IP3: +20 dBm Input P1dB: +12 dBm Amplitude imbalance: ±0.2 dB Phase Error: ±2 Degrees LO Power: +5 dBm DC Supplies: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 11.0 - 14.0 DESCRIPTION When a LO signal is applied, the AD110140B converts the - [AD (9.0-12.0)GHz](https://tsc.com/product/ad-9-0-12-0ghz/) - FEATURES LO/RF Frequency: 9 – 12 GHz I/Q Bandwidth: 275 MHz Input IP3: +23 dBm Input P1dB: +13 dBm Amplitude imbalance: ±0.1 dB Phase Error: -1 Degrees LO Power: +5 dBm DC Supplies: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 9.0 - 12.0 DESCRIPTION When a LO signal is applied, the AD90120B converts the - [AM (3.5-7.0)GHz](https://tsc.com/product/am-3-5-7-0ghz/) - FEATURES LO/RF Frequency: 3.5 – 7.0 GHz Input IP3: +23 dBm Sideband Suppression: -31 dBc LO Leakage: -35 dBm LO Power: +4 dBm DC Power: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 3.5 - 7.0 DESCRIPTION The AM3570A quadrature modulator is ideal for converting baseband I/Q modulation directly to RF. All bandpass RF - [QM (2.3-2.6)GHz](https://tsc.com/product/qm-2-3-2-6ghz/) - FEATURES LO/RF Frequency: 2300 – 2600 MHz Input IP3: +18 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -45 dBc LO Leakage: -50 dBm LO Power: +14 dBm Passive Frequency (GHz): 2.3 - 2.6 DESCRIPTION The QM2326A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are - [QM (4.0-7.5)GHz](https://tsc.com/product/qm-4-0-7-5ghz/) - FEATURES LO/RF Frequency: 4000 – 7500 MHz Input IP3: +23 dBm Noise Floor: -173 dBm/Hz Sideband Suppression: -34 dBc LO Leakage: -25 dBm LO Power: +19 dBm Passive Frequency (GHz): 4.0 - 7.5 DESCRIPTION The QM4075A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are mixed with - [AM (4.0-8.0)GHz](https://tsc.com/product/am-4-0-8-0ghz/) - FEATURES LO/RF Frequency: 4.0 – 8.0 GHz Input IP3: +23 dBm Sideband Suppression: -38 dBc LO Leakage: -35 dBm LO Power: +4 dBm DC Power: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 4.0 - 8.0 DESCRIPTION The AM4080A quadrature modulator is ideal for converting baseband I/Q modulation directly to RF. All bandpass RF - [AM (7.0-10.0)GHz](https://tsc.com/product/am-7-0-10-0ghz/) - FEATURES LO/RF Frequency: 7.0 – 10.0 GHz Input IP3: +23 dBm Sideband Suppression: -40 dBc LO Leakage: -45 dBm LO Power: +5 dBm DC Power: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 7.0 - 10.0 DESCRIPTION The AM70100A quadrature modulator is ideal for converting baseband I/Q modulation directly to RF. All bandpass RF - [AM (9.0-12.0)GHz](https://tsc.com/product/am-9-0-12-0ghz/) - FEATURES LO/RF Frequency: 9.0 – 12.0 GHz Input IP3: +23 dBm Sideband Suppression: -40 dBc LO Leakage: -45 dBm LO Power: +5 dBm DC Power: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 9.0 - 12.0 DESCRIPTION The AM90120A quadrature modulator is ideal for converting baseband I/Q modulation directly to RF. All bandpass RF - [AM (11.0-14.0)GHz](https://tsc.com/product/am-11-0-14-0ghz/) - FEATURES LO/RF Frequency: 11.0 – 14.0 GHz Input IP3: +20 dBm Sideband Suppression: -32 dBc LO Leakage: -40 dBm LO Power: +5 dBm DC Power: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 11.0 - 14.0 DESCRIPTION The AM110140A quadrature modulator is ideal for converting baseband I/Q modulation directly to RF. All bandpass RF - [AM (15.0- 17.5)GHz](https://tsc.com/product/am-15-0-17-5ghz/) - FEATURES LO/RF Frequency: 15.0 – 17.5 GHz Input IP3: +18 dBm Sideband Suppression: -35 dBc LO Leakage: -45 dBm LO Power: +6 dBm DC Power: +5V @ 110 mA, -5V @ 40 mA Active Frequency (GHz): 15.0 - 17.5 DESCRIPTION The AM150175A quadrature modulator is ideal for converting baseband I/Q modulation directly to RF. All bandpass RF - [IRM (3.0-4.0)GHz](https://tsc.com/product/irm-3-0-4-0ghz/) - FEATURES LO Frequency: 3000 – 4000 MHz Image Rejection: 35 dB LO-RF Isolation: 55 dB Input IP3: +17 dBm Input P1dB: +6 dBm LO Power: +15 dBm Module Frequency (GHz): 3 - 4 IIP3 (dBm): +17 Image Rejection (Typ/Min dB): 37/27 DESCRIPTION The IRM3040B is an image-reject mixer with enhanced linearity. The desired RF si deband - [IRM (3.5-7.0)GHz](https://tsc.com/product/irm-3-5-7-0ghz/) - FEATURES LO Frequency: 3.5 – 7.0 GHz Image Rejection: 30 dB LO-RF Isolation: 50 dB Input IP3: +23 dBm Input P1dB: +12 dBm Size: 1.35” X 2.0” [3.4 cm X 5.1 cm] Module Frequency (GHz): 3.5 - 7 IIP3 (dBm): +23 Image Rejection (Typ/Min dB): 30/25 DESCRIPTION The IRM3570B image-reject mixer is ideal for high performance microwave downconverters - [IRM (4.0-8.0)GHz](https://tsc.com/product/irm-4-0-8-0ghz/) - FEATURES LO Frequency: 4.0 – 8.0 GHz Image Rejection: 35 dB LO-RF Isolation: 55 dB Input IP3: +24 dBm Input P1dB: +14 dBm Size: 1.35” X 2.0” [3.4 cm X 5.1 cm] Module Frequency (GHz): 4-8 IIP3 (dBm): +24 Image Rejection (Typ/Min dB): 35/25 DESCRIPTION The IRM4080B image-reject mixer is ideal for high performance microwave downconverters and - [IRM (8.0-12.0)GHz](https://tsc.com/product/irm-8-0-12-0ghz/) - FEATURES LO Frequency: 8.0 – 12.0 GHz Image Rejection: 33 dB LO-RF Isolation: 50 dB Input IP3: +23 dBm Input P1dB: +14 dBm Module IIP3 (dBm): +23 Image Rejection (Typ/Min dB): 33/23 DESCRIPTION The IRM80120B image-reject mixer is ideal for high performance microwave downconverters and receivers. The desired RF sideband is downconverted to the IF while the - [IRM (5.0-10.0)GHz](https://tsc.com/product/irm-5-0-10-0ghz/) - FEATURES LO Frequency: 5.0 – 10.0 GHz Image Rejection: 32 dB LO-RF Isolation: 50 dB Input IP3: +23 dBm Input P1dB: +12 dBm Module IIP3 (dBm): +23 Image Rejection (Typ/Min dB): 32/22 DESCRIPTION The IRM50100B image-reject mixer is ideal for high performance microwave downconverters and receivers. The desired RF sideband is downconverted to the IF while - [IRM (7.0-10.0)GHz](https://tsc.com/product/irm-7-0-10-0ghz/) - FEATURES LO Frequency: 7.0 – 10.0 GHz Image Rejection: 40 dB LO-RF Isolation: 55 dB Input IP3: +23 dBm Input P1dB: +12 dBm Module IIP3 (dBm): +23 Image Rejection (Typ/Min dB): 40/28 DESCRIPTION The IRM70100B image-reject mixer is ideal for high performance microwave downconverters and receivers. The desired RF sideband is downconverted to the IF while the - [IRM (11.0-15.0)GHz](https://tsc.com/product/irm-11-0-15-0ghz/) - FEATURES LO Frequency: 11.0 – 15.0 GHz Image Rejection: 30 dB LO-RF Isolation: 55 dB Input IP3: +23 dBm Input P1dB: +14 dBm Module IIP3 (dBm): +23 Image Rejection (Typ/Min dB): 30/22 DESCRIPTION The IRM110150B image-reject mixer is ideal for high performance microwave downconverters and receivers. The desired RF sideband is downconverted to the IF while the - [IRM (14.0-18.0)GHz](https://tsc.com/product/irm-14-0-18-0ghz/) - FEATURES LO Frequency: 14.0 – 18.0 GHz Image Rejection: 32 dB LO-RF Isolation: 50 dB Input IP3: +23 dBm Input P1dB: +14 dBm Module IIP3 (dBm): +23 Image Rejection (Typ/Min dB): 32/24 DESCRIPTION The IRM140180B image-reject mixer is ideal for high performance microwave downconverters and receivers. The desired RF sideband is downconverted to the IF while the - [SSB (2.0-4.0)GHz](https://tsc.com/product/ssb-2-0-4-0ghz/) - FEATURES RF Frequency: 2000 – 4000 MHz Input IP3: +17 dBm Input P1dB: +6 dBm Sideband Suppression: -33 dBc LO Leakage: -37 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -37 / -27 DESCRIPTION The SSB2040A is a single- sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input - [SSB (3.0-4.0)GHz](https://tsc.com/product/ssb-3-0-4-0ghz/) - FEATURES RF Frequency: 3000 – 4000 MHz Input IP3: +18 dBm Input P1dB: +7 dBm Sideband Suppression: -35 dBc LO Leakage: -38 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -35 / -27 DESCRIPTION The SSB3040A is a single- sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input - [SSB (3.5-7.0)GHz](https://tsc.com/product/ssb-3-5-7-0ghz/) - FEATURES RF Frequency: 3.5 – 7.0 GHz Input IP3: +23 dBm Sideband Suppression: -34 dBc LO Leakage: -32 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -34 / -25 DESCRIPTION The SSB3570A is a single-sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input is upconverted to the desired - [SSB (4.0-8.0)GHz](https://tsc.com/product/ssb-4-0-8-0ghz/) - FEATURES RF Frequency: 4 – 8 GHz Input IP3: +24 dBm Sideband Suppression: -37 dBc LO Leakage: -35 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -35 / -25 DESCRIPTION The SSB4080A is a single-sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input is upconverted to the desired RF - [SSB (7.0-10.0)GHz](https://tsc.com/product/ssb-7-0-10-0ghz/) - FEATURES RF Frequency: 7 – 10 GHz Input IP3: +23 dBm Sideband Suppression: -37 dBc LO Leakage: -40 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -37 / -27 DESCRIPTION The SSB70100A is a single-sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input is upconverted to the desired RF - [SSB (8.0-12.0)GHz](https://tsc.com/product/ssb-8-0-12-0ghz/) - FEATURES RF Frequency: 8.0 – 12.0 GHz Input IP3: +23 dBm Sideband Suppression: -35 dBc LO Leakage: -37 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -35 / -23 DESCRIPTION The SSB80120A is a single-sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input is upconverted to the desired RF - [SSB (11.0-15.0)GHz](https://tsc.com/product/ssb-11-0-15-0ghz/) - FEATURES RF Frequency: 11.0 – 15.0 GHz Input IP3: +23 dBm Sideband Suppression: -34 dBc LO Leakage: -32 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -34 / -24 DESCRIPTION The SSB110150A is a single-sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input is upconverted to the desired RF - [SSB (14.0-18.0)GHz](https://tsc.com/product/ssb-14-0-18-0ghz/) - FEATURES RF Frequency: 14.0 – 18.0 GHz Input IP3: +23 dBm Sideband Suppression: -33 dBc LO Leakage: -33 dBm LO Power: +15 dBm Module Sideband (Typ / Min dBc): -33 / -22 DESCRIPTION The SSB140180A is a single-sideband modulator optimized for linear modulation of an RF carrier (LO). The IF input is upconverted to the desired RF - [QM (3.0-4.0)GHz](https://tsc.com/product/qm-3-0-4-0ghz/) - FEATURES LO/RF Frequency: 3.0 – 4.0 GHz Input IP3: +17 dBm Sideband Suppression: -38 dBc LO Leakage: -40 dBm LO Power: +15 dBm DC Power: Passive SKU: QM3040A DESCRIPTION The QM3040A is a quadrature (I/Q) modulator optimized for direct modulation of an RF carrier. Differential I and Q inputs are mixed with the local oscillator (LO) - [N-Channel Rack Mount Modulator](https://tsc.com/product/n-channel-rack-mount-modulator/) - Please contact Polyphase Microwave for official quotation. - [Vector Demodulator (VDM)](https://tsc.com/product/vector-demodulator-vdm/) - DESCRIPTION This product facilitates the measurement of ultra-low phase noise devices. Its compact robust design includes a high performance IQ modulator and IF amplifier. Control lines are provided allowing the user to select either the in-phase or quadrature signal to be routed to the output. The user also has the ability to amplify the chosen - [Dual Channel Downconverter (DCD)](https://tsc.com/product/dual-channel-downconverter-dcd/) - DESCRIPTION This product facilitates the complex response measurements of pulsed two-port RF devices. Its compact and economical design includes a two-channel heterodyne receiver architecture that downconverts two frequency-agile, pulsed RF signals to identical fixed intermediate frequency (IF) signals without the use of a tunable oscillator. These fixed IF outputs contain amplitude and relative phase information - [RF Up&Down Converter (RFUDC)](https://tsc.com/product/rf-updown-converter-rfudc/) - Pricing information detailed below is for budgetary purposes only. Please contact Polyphase Microwave for official quotation. - [(4.0 - 8.0)GHz Transceiver, Up/Down Converter](https://tsc.com/product/4-0-8-0ghz-transceiver-up-down-converter/) - OPERATING FREQUENCY LO/RF Frequency (GHz): 4.0-8.0 OPERATING MODES Transceiver I/Q upconverter I/Q downconverter FEATURES Software programmable via GUI or custom program Internal LO synthesizer or external LO input 1Hz step size LO nulling control RF attenuator, 0 to 31.75 dB in 0.25 dB steps DESCRIPTION This product is a highly configurable 4.0GHz to 8.0GHz frequency converter. ## Everest Timeline - [TSC History](https://tsc.com/everest-timeline/437/) ## Categories - [Uncategorized](https://tsc.com/category/uncategorized/) - [TSC News](https://tsc.com/category/news/) - [Products](https://tsc.com/category/products/) - For over 50 years TSC has developed and integrated products for the Federal Government, commercial, and international customers. Our Government customers include the US Military Services, Defense Agencies, Federal Aviation Administration, as well as various international customers. TSC maintains offices in 11 locations nationwide. TSC has the production facilities (ISO 9001 certified Production plant), experience, and capabilities to support your development needs and production requirements. - [TSC History](https://tsc.com/category/history/) - [Modeling and Simulation](https://tsc.com/category/products/mod-and-sim-products/) - Product Line Overview TSC provides infrared/ultraviolet (IR/UV) systems engineering, modeling and simulation, and hardware development for government, commercial, and foreign customers. The IR/UV line of business conceptualizes, develops and integrates real-time computer-controlled infrared/ultraviolet simulator/stimulator and monitoring systems. 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They are based on open architecture standards and are qualified to common military standards like MIL-STD-810, MIL-STD-461, MIL-STD-1275, and MIL-STD-704. - [Test Solutions](https://tsc.com/category/products/test-solutions/) - TSC has developed test solutions for a number of industries across many diverse fields. We have created real-time, closedloop control systems requiring reliable software and hardware safety features. Our engineers design, build, test and sell RF mixer and modulator components. We have developed highly precise, calibrated, lab measurement solutions for research labs. Many of our designs are fully ruggedized systems capable of functioning in military and industrial environments. We support our customers in providing everything from software widgets to integrated test boxes to turnkey rack-mounted and test bench solutions. - [Antennas](https://tsc.com/category/antenna/) - [MTS](https://tsc.com/category/mts-product/) - [Seekers](https://tsc.com/category/seekers/) - [AISR](https://tsc.com/airborne/) ## Tags - [Antennas](https://tsc.com/tag/antenna-tag/) ## Staff Categories - [TSC Leadership](https://tsc.com/staff-category/leadership/) ## Testimonials Categories - [Employee](https://tsc.com/testimonials-category/employee/) ## Categories - [Contract Requirements](https://tsc.com/download-category/contracts/) ## Product categories - [Uncategorized](https://tsc.com/product-category/uncategorized/) - [Single-Sideband Mixers (SSB)](https://tsc.com/product-category/single-sideband-mixers-ssb/) - Upconvert an IF signal to the desired RF sideband while suppressing the unwanted RF sideband. SSB modulators simplify the design of high-performance upconverters and transmitters. The SSB series features enhanced sideband suppression, linearity, and ultra-low LO leakage. The SSB product line is available in the following frequencies (GHz): 0.5 – 5.0 • 0.55 – 1.1 • 0.6 – 2.2 • 1.2 – 1.4 • 2.0 – 4.0 • 3.0 – 4.0 • 3.5 – 7.0 • 4.0 – 8.0 • 7.0 – 10.0 • 8.0 – 12.0 • 9.0 – 12.0 • 11.0 – 15.0 • 14.0 – 18.0 - [Quadrature Demodulators (QD/Passive, AD/Active)](https://tsc.com/product-category/quadrature-demodulators-qd-passive-ad-active/) - Quadrature demodulators directly convert RF signals to I and Q baseband outputs. Internally matched lowpass filters provide anti-aliasing for easy interfacing with digitizers or ADCs. AD series demodulators are active designs with the best overall performance. QD series demodulators use passive mixers for the lowest possible output noise. The Quadrature Demodulator product line is available in the following frequencies (GHz): 0.1 – 0.5 • 0.5 – 4.0 • 0.55-1.1 • 0.6 – 2.2 • 1.2 – 1.4 • 1.2 – 2.0 • 1.4 – 2.2 • 2.0 – 4.0 • 2.0 – 6.0 • 2.3 – 2.6 • 3.0 – 4.0 • 4.0 – 7.0 • 4.0 – 8.0 • 6.0 – 10.0 • 9.0 – 12.0 • 11.0 – 14.0 • 15.5 – 18.0 - [Multipurpose Frequency Converters](https://tsc.com/product-category/multipurpose-frequency-converters/) - [Quadrature Modulators (QM/Passive, AM/Active)](https://tsc.com/product-category/quadrature-modulators-qm-passive-am-active/) - Quadrature modulators generate any bandpass RF modulation including QPSK, QAM, OFDM, FM, PM, AM, and pulsed Doppler. I and Q baseband inputs directly modulate the LO input to generate a modulated RF output. AM series modulators use active designs with superior linearity and have integrated LO amplifiers. QM series modulators are passive for the lowest output noise. Most products can be offered with single-ended inputs instead of differential. Please ask for details regarding the product of interest. The Quadrature Modulater line is available in the following frequencies (GHz): 0.3 – 5.0 • 0.55 – 1.1 • 0.6 – 2.2 • 1.2 – 1.4 • 1.2 – 2.0 • 1.4 – 2.2 • 2.0 – 4.0 • 2.3 – 2.6 • 3.0 – 4.0 • 3.5 – 7.0 • 4.0 – 8.0 • 7.0 – 10.0 • 9.0 – 12.0 • 11.0 – 14.0 • 15.0 – 17.5 - [Image Reject Mixers (IRM)](https://tsc.com/product-category/image-reject-mixers-irm/) - The desired RF sideband is downconverted to an IF output while the unwanted RF image is rejected. The IRM series features enhanced image rejection, linearity, and LO-RF isolation making them ideal for high-performance microwave downconverters and receivers. The Image Reject Mixer line is available in the following frequencies (GHz): 0.55 – 1.1 • 0.6 – 2.2 • 1.2 – 1.4 • 2.0 – 4.0 • 3.0 – 4.0 • 3.5 – 7.0 • 4.0 – 8.0 • 5.0 – 10.0 • 5.1 – 5.6 • 7.0 – 10.0 • 8.0 – 12.0 • 9.0 – 12.0 • 11.0 – 15.0 • 14.0 – 18.0 - [Test Equipment](https://tsc.com/product-category/test-equipment/) - Stock and Custom Test Equipment - [All Products](https://tsc.com/product-category/all-products/) - [Software](https://tsc.com/product-category/software/)
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