Year-round
Posted on 1/2/2026
Manufactures sensors, imaging systems, and avionics
$23.70 - $31.59/hr
No H1B Sponsorship
Camarillo, CA, USA
In Person
US Citizenship Required
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People at Teledyne who can refer or advise you
Teledyne designs and manufactures sensors, imaging cameras, and electronics for aerospace, defense, environmental monitoring, and medical imaging. Its products combine core sensing and imaging capabilities into integrated solutions, including digital imaging sensors, high-reliability cameras, instrumentation, aerospace and defense electronics, and engineered systems for harsh environments. The company differentiates itself by growing through targeted acquisitions, building a diversified portfolio with specialized capabilities and high barriers to entry. Its goal is to expand capabilities and market reach by acquiring complementary technologies while delivering reliable sensing and imaging technology for critical industries.
Company Size
11-50
Company Stage
IPO
Headquarters
Thousand Oaks, California
Founded
1960
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Hybrid Work Options
Alberta backs Teledyne MEMS manufacturing expansion in Edmonton. Teledyne Technologies Incorporated (NYSE: TDY) is expanding its MEMS manufacturing operations in Edmonton, supported by a CA$620,000 grant from the Government of Alberta's Investment and Growth Fund, as demand for advanced semiconductor and sensing technologies continues to rise globally. The expansion will add new wafer processing, inspection, and automation equipment, alongside facility upgrades designed to strengthen the company's manufacturing capabilities and increase production capacity for micro electro-mechanical systems (MEMS) devices. The investment highlights Alberta's ambitions to strengthen its position within the global semiconductor supply chain and attract advanced manufacturing projects capable of generating skilled employment and long-term economic growth. Teledyne MEMS manufactures a range of microfabricated semiconductor devices and sensors serving industries including telecommunications, biomedical technology, industrial sensing, and optical systems. The Edmonton facility plays a role in supplying MEMS technologies used in applications ranging from miniaturized medical devices to advanced sensing platforms. Company officials said the expansion reflects confidence in the region's talent base and innovation ecosystem while supporting future growth opportunities. "As a global and trusted leader in MEMS technology, Teledyne MEMS is committed to growing our presence in Alberta and investing in its talent and innovation ecosystem," said Steve Bonham, Plant Manager at Teledyne MEMS. The project is expected to strengthen local manufacturing capabilities at a time when governments and technology companies are seeking to build more resilient semiconductor supply chains and reduce dependence on concentrated production hubs. Provincial officials said the funding aligns with broader efforts to attract private-sector investment and diversify Alberta's economy through advanced manufacturing and technology-driven industries. "Alberta is open for business, and investments like this show why companies choose to grow here," said Joseph Schow, Alberta's Minister of Jobs, Economy, Trade and Immigration. He said the Investment and Growth Fund is helping secure projects that create jobs and expand the province's industrial base. The expansion comes amid increasing global demand for semiconductor components used in communications infrastructure, industrial automation, healthcare technologies, and next-generation sensing applications.
Teledyne FLIR Defense announces new Block 2 upgrades to Rogue 1 lethal unmanned aerial system. May 21, 2026 Teledyne FLIR Defense, part of Teledyne Technologies Incorporated (NYSE:TDY), announced today at SOF Week the release of Rogue(TM) 1 Block 2, a major upgrade of the revolutionary lethal unmanned aerial system first launched at SOF Week 2024. After two years of customer fielding and success with the U.S. Marine Corps Organic Precision Fires-Light, U.S. Special Operations Command Ground Organic Precision Strike Systems programs and more, the Block 2 upgrade leverages user feedback to greatly enhance performance, resilience, and operational capability - all while maintaining existing form-factor. With operating range doubled to more than 12 miles (20 km), Rogue 1 Block 2 adds a new anti-armor payload option, harnessing 'Shape Charge Jet' technology for expanded mission flexibility against more heavily-armored targets. Redesigned propellers are optimized for long transit and fast attack patterns, while new advanced battery cell technology adds 20% more endurance. Other software and mission capability enhancements include track landing, improved mapping and visualization, and better GPS-denied navigation utilizing both thermal and daylight cameras. More robust onboard computing enables advanced autonomy to further ease user cognitive load, while dual-band radio support improves the unit's range and electronic warfare resiliency. Rogue 1 Block 2 is now available for customer orders, with deliveries beginning in Q3-2026. Military news updates Discover more Military science journal Military history books Armed forces gear Key Rogue 1 Block 2 features include: New anti-armor shape charge payload for expanded lethality options to Rogue 1's existing payload family Improved thermal management, propeller efficiency, and multi-band antenna capabilities Durability enhancements, including redesigned tactical packaging and better drop survivability New Android-based ground control system "Over the last two years, Rogue 1 has delivered critical successes for customers, and the Block 2 upgrades represent the next evolution of that mission," said Tung Ng, Vice President of Unmanned Systems North America at Teledyne FLIR Defense. "These advancements prove our commitment to maintaining Rogue 1 as one of the most versatile precision strike options in the warfighter's kit through a more capable, durable, and future-ready platform." Teledyne FLIR Defense has been providing advanced, mission-critical technology and systems for more than 45 years. Its products are on the frontlines of the world's most pressing military, security and public safety challenges. As a global leader in thermal imaging, Military Leak design and build sophisticated surveillance sensors for air, land and maritime use. Military Leak develop the most rugged, trusted unmanned air and ground platforms, as well as intelligent sensing devices used to detect chemicals, biological agents, radiation and explosives. At Teledyne FLIR Defense Military Leak bring together this expertise to deliver solutions that enable critical decisions and keep its world safe - from any threat, anywhere. Teledyne Technologies is a leading provider of sophisticated digital imaging products and software, instrumentation, aerospace and defense electronics, and engineered systems. Teledyne's operations are primarily located in the United States, the United Kingdom, Canada, and Western and Northern Europe. Defense stock analysis Post Views: 71
Teledyne Technologies has launched an upgraded version of its Prism SKR software, transforming it from an automated targeting solution into a comprehensive closed-loop autonomy platform. The system now controls guided weapon systems including smart loitering munitions, air-launched effects, counter-UAS systems and first-person view drones, integrating task execution and intelligent control. The upgrade manages the entire process from tasking to execution through perception-based automatic target recognition. Additionally, Teledyne's marine division secured a contract with the UK's Ministry of Defence on 31 March to supply autonomous ocean monitoring equipment, including APEX floats and Sentinel and Slocum gliders, supporting the Royal Navy's maritime data gathering projects. Teledyne Technologies provides digital imaging products and electronic components serving industrial development, defence and aviation markets.
Teledyne e2v begins full production of 16GB DDR4-X1 Flight Models for advanced space applications. Teledyne e2v has announced the commencement of full-scale production of its 16GB DDR4-X1 Flight Model, marking a significant step forward in the company's range of high-density, radiation-tolerant memory solutions designed for space applications. This development responds to the increasing demand for advanced onboard computing capabilities driven by next-generation satellite missions. The 16GB DDR4-X1 Flight Model has been engineered to meet the performance and reliability requirements of modern space systems, including AI-enabled satellites, large-scale constellations, broadband connectivity services from orbit, direct-to-device communication networks, and optical inter-satellite links. By combining high memory density with radiation resilience in a compact form factor, the device supports complex data processing tasks in challenging environments. Initial samples of the memory device were delivered to customers in October 2025, enabling early-stage system integration and evaluation. The component delivers data rates of up to 2400 MT/s and is built to withstand radiation effects, including single-event latch-up immunity above 43 MeV - cm[2]/mg and total ionizing dose tolerance up to 35 krad. These characteristics ensure dependable performance in mission-critical conditions. The device maintains a compact footprint of 15 x 20 x 1.92 mm, consistent with other DDR4 products in the company's portfolio. Its pin-to-pin compatibility with lower-density variants allows system designers to increase memory capacity without redesigning existing hardware, simplifying upgrade paths and reducing development timelines. Company representatives highlighted that the transition to production reflects steady progress across the program, supported by completed documentation, radiation testing data, and established customer support resources. These elements are intended to facilitate integration across a wide range of space programs. The 16GB DDR4-X1 is also incorporated into the Qormino(R) QLS1046 space computing modules, which combine a radiation-tolerant processor with DDR4 memory to support advanced onboard applications such as artificial intelligence processing, sensor data fusion, and autonomous spacecraft operations. In addition to the new product, the company's DDR4 portfolio includes 8GB Flight Models and upcoming NASA Level 1 16GB versions intended for geostationary and long-duration missions, expected to be available in the third quarter of 2026. This expanding portfolio provides satellite developers with flexible memory options aligned with diverse mission requirements while maintaining compatibility and long-term supply continuity.
Teledyne FLIR OEM announces upgraded Prism SKR software, boosting automatic target recognition capabilities for the defense industry. Teledyne FLIR 8. April 2026 Software update unifies mission execution and intelligent supervision in a single, closed-loop autonomy platform for guided weapon systems. GOLETA, calif., - April 7, 2026 - Teledyne FLIR OEM, part of Teledyne technologies incorporated (NYSE:TDY), today announced an upgrade to prism(tm) SKR (pronounced "seeker"), evolving the software from automated targeting into a unified, closed-loop autonomy platform. The milestone update sets a new defense industry standard by unifying mission execution and intelligent supervision into a single platform for guided weapon systems, including smart, loitering munitions, air-launched effects (ALE), counter-uas platforms, attritables, interceptors, and first-person view (FPV) drones. Teledyne FLIR OEM's upgraded Prism SKR software manages the entire mission lifecycle, from tasking through execution by delivering perception-based automatic target recognition (ATR) and autonomy with advanced features designed for precision in contested environments. Prism SKR's pixel-lock targeting also addresses the critical final meters of FPV drone missions, ensuring precision autonomy in the terminal phase where manual control often fails due to signal interference. "The upgraded Prism SKR represents a significant leap forward by unifying execution and intelligent supervision to provide operators with greater mission confidence," said Jared Faraudo, vice president of product management, Teledyne FLIR OEM. "By integrating advanced mission scripting with support for AI-accelerated development and execution compatible with large language model (LLM) tools like GitHub Copilot, we are enabling developers to plan and task systems at the speed of intent, while the QgroundControl plugin ensures these capabilities fit naturally into existing operator workflows." [Video (C) Teledyne FLIR] Key enhancements include 3D interactive aimpoint selection, terrain-aware operations, and pixel-lock targeting, which ensures precise, persistent re identification (ReID) tracking through signal degradation or loss, scaling from assisted AI during FPV handoff to fully autonomous mission execution. These capabilities support a wide range of mission scenarios, including air-to-ground, ground-to-air, air-to-air, and ground-to-ground operations. Built for rapid OEM deployment, Prism SKR operates at the edge on low power embedded platforms, including NVIDIA(R) Orin(TM) and Teledyne FLIR OEM's AVP system on module (SOM) based on the Qualcomm Dragonwing(TM) QCS8550. The Weapon Open Systems Architecture (WOSA) compliant software integrates seamlessly with Boson(R) and Neutrino(R) IR cameras, as well as integrator selected visible sensors, delivering real time target tracking and system state. A comprehensive application programming interface (API) and software development kit (SDK) accelerate deployment speed and reduce development risk while enabling performance optimization and customization.