{"id":20735,"date":"2019-11-25T09:02:12","date_gmt":"2019-11-25T14:02:12","guid":{"rendered":"http:\/\/fescenter.org\/?page_id=20735"},"modified":"2024-02-12T00:57:23","modified_gmt":"2024-02-12T00:57:23","slug":"technical-development-laboratory","status":"publish","type":"page","link":"https:\/\/fescenter.org\/test\/research-and-participants\/technology-programs\/technical-development-laboratory\/","title":{"rendered":"Technical Development Laboratory"},"content":{"rendered":"

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Introduction<\/strong><\/h3>\n
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The Cleveland FES Center fabricates prototype implantable research devices that are intended for use in human feasibility studies conducted under several Investigational Device Exemptions (IDEs). In 1991, the Technical Development Laboratory (TDL) was established to facilitate the design and development of implantable hardware required for clinical studies within the Cleveland FES Center.<\/strong><\/p>\n

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The Technical Development Laboratory (TDL)<\/h3>\n

The TDL is a resource core for the FES community that provides design, development, fabrication, and testing of implantable and external systems, instrumentation, and software. Technical capabilities include system integration, electronics design, multi-level software design, mechanical design, material science, and project management. The TDL facilities include the cleanroom, micro-fabrication lab, machine shop, electronics lab, embedded systems lab, computer lab.<\/p>\n

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Organization and Control of Human Implantable Device Design<\/h3>\n

To facilitate the transfer of promising technology to the commercial realm, the TDL has implemented Standard Operating Procedures (SOPs) that define and delineate activities related to 21 CFR 820 Subpart C, Design Controls. The ongoing clinical studies within the Cleveland FES Center are conducted under Investigational Device Exemptions (IDEs), which are governed by 21 CFR 812.<\/p>\n

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Facilities<\/h3>\n

The TDL\u2019s\u00a0micro-fabrication lab<\/em>\u00a0is a materials facility used for prototyping and analysis as well as fabrication of components that don\u2019t require the rigors of a cleanroom. The lab includes several types of microscopes that include video and photographic documentation capabilities, circuit board screen printer, a spot welder, soldering\/de-soldering workstations, balances, several ovens including a vacuum oven, a surface-mount technology (SMT) flow oven, furnace, fume hoods, and a water bath.<\/p>\n

The TDL\u2019s\u00a0electronics lab<\/em>\u00a0provides workstations for bench top development and testing, GPIB networked instrumentation including oscilloscopes, bench meters, power supplies, a spectrum analyzer, an RF power meter, arbitrary waveform generators, and custom built instrumentation. The electronics lab maintains an extensive inventory for fabricating prototypes as well as specialized SMT rework stations. Within the electronics lab is the\u00a0embedded systems lab,\u00a0<\/em>which provides software and hardware tools such as compilers, assemblers, linker\/loaders, emulators, background debuggers, and a revision control system. A\u00a0computer modeling lab<\/em>\u00a0provides workstations for CAE\/CAD\/CAM, modeling, rapid prototyping, and simulation.<\/p>\n

TDL has a machine shop<\/em>\u00a0that includes a three-axis CNC milling machine, circuit board prototyping system, bead blaster, diamond dicing saw, lathes, a conventional milling machine, a band saw, a surface grinder, a jeweler\u2019s lathe, drill presses, and a belt\/disk sander.<\/p>\n

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Expertise\/Core Competencies<\/h3>\n

Over the past 25 years, our effective use of the core competencies has enabled the TDL to develop, implement, and transfer to industry numerous implanted hardware components, external hardware components, and integrated software solutions focused on implantable pulse generators for restoration of function in individuals paralyzed by stroke or SCI.<\/p>\n

There are five core areas of expertise:<\/p>\n