Crossfield Technology LLC: Company Profile

Background

Company Overview

Crossfield Technology LLC, established in 2003 and headquartered in Austin, Texas, specializes in developing innovative solutions for complex applications across commercial, industrial, and defense sectors. The company focuses on real-time sensor data acquisition, physics-based simulation, environmental sensing, data logging, and embedded systems. Their products include Instrumentation Gateways, wireless sensors, and high-performance storage, networking, and processing technologies tailored for size, weight, and power (SWaP) constrained applications.

Mission and Vision

Crossfield Technology's mission is to integrate emerging technologies to network the Internet of Things (IoT), aiming to discover new ways to solve problems or apply advanced technology to address new IoT opportunities. Their vision encompasses creating innovative solutions that dramatically impact the size, performance, power consumption, and mobility of products.

Industry Significance

Operating within the Appliances, Electrical, and Electronics Manufacturing industry, Crossfield Technology plays a pivotal role in advancing IoT and M2M applications. Their contributions are significant in sectors requiring high-speed data acquisition, real-time signal processing, and efficient environmental monitoring.

Key Strategic Focus

Core Objectives

Crossfield Technology aims to develop and deliver cutting-edge solutions that address the challenges of real-time data acquisition, signal processing, and environmental monitoring, thereby enhancing the performance and efficiency of IoT and M2M systems.

Areas of Specialization

Instrumentation Gateways: Connecting modular sensors and transducers to real-time signal processors using ultra-high-speed fiber optic links with data rates approaching 100 Gbps.

Wireless Sensors: Designed for environmental sensing and data logging, capable of operating for extended periods on battery power.

Embedded Systems: Applying ultra-high-performance storage, networking, and processing technologies to SWaP-constrained applications.

Key Technologies Utilized

Ultra-High-Speed Fiber Optic Links: Enabling high-bandwidth data transmission for real-time applications.

Wireless Communication Protocols: Facilitating long-duration, low-power data transmission for environmental monitoring.

Embedded System Design: Incorporating advanced storage, networking, and processing capabilities into compact, efficient systems.

Primary Markets Targeted

Crossfield Technology primarily serves the commercial, industrial, and defense markets, focusing on applications that require real-time data acquisition, signal processing, and environmental monitoring.

Financials and Funding

Funding History

Crossfield Technology has been actively involved in securing funding through various channels, including Small Business Innovation Research (SBIR) programs. Notably, in 2021, the company received a Phase II award from the Department of Energy (DOE) amounting to $1,355,474 for the project titled "Machine Learning Controls for Rapid Cycling Synchrotron."

Total Funds Raised

The company has secured a total of $16,106,614 through multiple SBIR awards, comprising 28 Phase I awards totaling $3,322,529 and 9 Phase II awards amounting to $12,784,085.

Notable Investors

Investors include various U.S. government agencies such as the Department of Energy (DOE), Department of Defense (DoD), Department of Homeland Security (DHS), and the National Aeronautics and Space Administration (NASA).

Utilization of Capital

The funds have been utilized to advance research and development efforts, particularly in areas like machine learning controls for rapid cycling synchrotrons, reconfigurable computer architecture, high dynamic range real-time LIDAR digitizers and processors, hardware open system technologies prototype development, and space VPX switch-controllers.

Pipeline Development

Key Pipeline Candidates

Machine Learning Controls for Rapid Cycling Synchrotron: A project funded by the DOE in 2021, focusing on integrating machine learning controls into synchrotron systems.

Reconfigurable Computer Architecture: A project funded by the Army in 2020, aiming to develop adaptable computer architectures for various applications.

High Dynamic Range Real-Time LIDAR Digitizer and Processor: A project funded by the Navy in 2019, focusing on enhancing LIDAR systems for real-time processing.

Hardware Open System Technologies (HOST) Prototype Development: A project funded by the Navy in 2018, aiming to develop prototypes based on open system technologies.

SpaceVPX Switch-Controller: A project funded by NASA in 2017, focusing on developing switch-controllers for space applications.

Stages of Development

These projects are at various stages, from initial development to prototype testing, with specific timelines and milestones outlined in the respective project descriptions.

Target Conditions

The projects target advancements in machine learning integration, computer architecture flexibility, LIDAR processing capabilities, open system technologies, and space-grade hardware components.

Anticipated Milestones

Each project has defined milestones, including prototype development, system integration, and performance validation, as detailed in the project summaries.

Technological Platform and Innovation

Proprietary Technologies

Instrumentation Gateways: Devices that connect modular sensors and transducers to real-time signal processors using ultra-high-speed fiber optic links.