Recent Changes for "Schilling Robotics" - Davis Wikihttp://daviswiki.org/Schilling_RoboticsRecent Changes of the page "Schilling Robotics" on Davis Wiki.en-us Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2013-08-22 22:11:40VinhBoyUpdate ownership of this company <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 15: </td> <td> Line 15: </td> </tr> <tr> <td> <span>-</span> '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling and by Wes Gerriets. The company makes mechanical arms as well as remotely operated (unmanned) submersible vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine. <span>Apparently it has been sold again there is a bigger name on the building</span>... </td> <td> <span>+</span> '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling and by Wes Gerriets. The company makes mechanical arms as well as remotely operated (unmanned) submersible vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine. <span>It is now owned by [http://www</span>.<span>fmctechnologies</span>.<span>com/Schillingrobotics</span>.<span>aspx FMC Technologies]</span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2012-07-22 18:06:17StevenDaubertsold again? <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 15: </td> <td> Line 15: </td> </tr> <tr> <td> <span>-</span> '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling and by Wes Gerriets. The company makes mechanical arms as well as remotely operated (unmanned) submersible vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine. </td> <td> <span>+</span> '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling and by Wes Gerriets. The company makes mechanical arms as well as remotely operated (unmanned) submersible vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine.<span>&nbsp;Apparently it has been sold again there is a bigger name on the building...</span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2011-08-06 12:55:03PeteBRevert to version 11 (Spam). <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 19: </td> <td> Line 19: </td> </tr> <tr> <td> <span>-</span> Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software, manufacturing, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?!<span>&nbsp;[http://forexrobot.eu.com/ forex trading robots]</span> </td> <td> <span>+</span> Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software, manufacturing, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?! </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2011-08-06 12:28:50JohnMolos <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 19: </td> <td> Line 19: </td> </tr> <tr> <td> <span>-</span> Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software, manufacturing, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?! </td> <td> <span>+</span> Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software, manufacturing, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?!<span>&nbsp;[http://forexrobot.eu.com/ forex trading robots]</span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2011-07-12 11:51:52JabberWokkyRevert to version 9 (Um. No. Spam.). <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 20: </td> <td> Line 20: </td> </tr> <tr> <td> <span>- <br> - For more informations about robots visit:[http://forexrobot.eu.com forex robot]</span> </td> <td> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2011-07-12 10:54:27JohnMolos <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 20: </td> <td> Line 20: </td> </tr> <tr> <td> </td> <td> <span>+ <br> + For more informations about robots visit:[http://forexrobot.eu.com forex robot]</span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2010-02-23 22:44:35DagonJonesadding a photo <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 1: </td> <td> Line 1: </td> </tr> <tr> <td> <span>-</span> [[Image(schilling.jpg, <span>25</span>0, right, thumbnail)]] </td> <td> <span>+</span> [[Image(schilling.jpg, <span>30</span>0, right, thumbnail)]]<span><br> + [[Image(titan4.jpg, right, thumbnail, 300, " Titan 4 ")]]</span> </td> </tr> <tr> <td> Line 19: </td> <td> Line 20: </td> </tr> <tr> <td> <span>- <br> - <br> - <br> - <br> - </span> </td> <td> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2010-02-23 22:42:16DagonJonesUpload of image <a href="http://daviswiki.org/Schilling_Robotics?action=Files&do=view&target=titan4.jpg">titan4.jpg</a>.Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-05-09 08:45:14BarbaraGardner <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 1: </td> <td> Line 1: </td> </tr> <tr> <td> <span>-</span> [[<span>Thu</span>m<span>bn</span>a<span>il</span>(schilling.jpg, right, <span>250</span>)]] </td> <td> <span>+</span> [[<span>I</span>ma<span>ge</span>(schilling.jpg, <span>250, </span>right, <span>thumbnail</span>)]] </td> </tr> <tr> <td> Line 6: </td> <td> Line 6: </td> </tr> <tr> <td> <span>- ||(Please fill in hours)||</span> </td> <td> <span>+ ||8 a.m. to 5 p.m., M-F||</span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-05-09 08:44:07BarbaraGardner <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 14: </td> <td> Line 14: </td> </tr> <tr> <td> <span>-</span> '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling. The company makes mechanical arms as well as remotely operated vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine. </td> <td> <span>+</span> '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling<span>&nbsp;and by Wes Gerriets</span>. The company makes mechanical arms as well as remotely operated<span>&nbsp;(unmanned) submersible</span> vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine. </td> </tr> <tr> <td> Line 16: </td> <td> Line 16: </td> </tr> <tr> <td> <span>-</span> Today, much of Schilling Robotics' business comes from offshore oil drilling and exploration. The company's deep-sea robotic manipulators are industry standard, capturing 75%-80% percent of the market - their titanium arms can withstand the crushing pressure of the sea at 6,500 meters, 20,000 feet deeper than professional divers can go. The robotic manipulators can do fine movements, such as picking up a seashell, as well as lift <span>25</span>0 pounds and grasp with <span>2</span>,000 pounds of pressure. Schilling manipulators range from $30,000 to $150,000. The Woods Hole Oceanographic Institution has a remote submersible with two arms, but only one is a Schilling, due in part to the high cost and specialized functions of each manipulator. Schilling also does terrestrial projects for scientific, military, and nuclear applications. </td> <td> <span>+</span> Today, much of Schilling Robotics' business comes from offshore oil drilling and exploration. The company's deep-sea robotic manipulators are industry standard, capturing 75%-80% percent of the market - their titanium arms can withstand the crushing pressure of the sea at 6,500 meters, 20,000 feet deeper than professional divers can go. The robotic manipulators can do fine movements, such as picking up a seashell, as well as lift <span>as much as 100</span>0 pounds and grasp with <span>1</span>,000 pounds of pressure. Schilling manipulators range from $30,000 to $150,000. The Woods Hole Oceanographic Institution has a remote submersible with two arms, but only one is a Schilling, due in part to the high cost and specialized functions of each manipulator. Schilling also does terrestrial projects for scientific, military, and nuclear applications. </td> </tr> <tr> <td> Line 18: </td> <td> Line 18: </td> </tr> <tr> <td> <span>-</span> Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?! </td> <td> <span>+</span> Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software<span>, manufacturing</span>, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?! </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-02-05 22:27:25SteveDavison <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 4: </td> <td> Line 4: </td> </tr> <tr> <td> <span>-</span> ||201 ["Cousteau Place"]<span>||<br> -</span> <span>||</span>(on ["2nd Street"], near ["Peak Performance"])|| </td> <td> <span>+</span> ||201 ["Cousteau Place"] (on ["2nd Street"], near ["Peak Performance"])|| </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-01-29 15:48:24JasonAller <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 4: </td> <td> Line 4: </td> </tr> <tr> <td> <span>-</span> ||201 Cousteau Place|| </td> <td> <span>+</span> ||201 <span>["</span>Cousteau Place<span>"]</span>|| </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-01-16 20:53:08JasonAller <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 1: </td> <td> Line 1: </td> </tr> <tr> <td> <span>-</span> [[Thumbnail(schilling.jpg)]] </td> <td> <span>+</span> [[Thumbnail(schilling.jpg<span>, right, 250</span>)]] </td> </tr> <tr> <td> Line 12: </td> <td> Line 12: </td> </tr> <tr> <td> </td> <td> <span>+ ||&lt;bgcolor='#E0E0FF'&gt;'''Established'''||<br> + ||1985||</span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-01-16 20:48:41MattJurachadded pic <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 1: </td> <td> Line 1: </td> </tr> <tr> <td> </td> <td> <span>+ [[Thumbnail(schilling.jpg)]]<br> + </span> </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2006-01-16 20:47:49MattJurachUpload of image <a href="http://daviswiki.org/Schilling_Robotics?action=Files&do=view&target=schilling.jpg">schilling.jpg</a>.Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2005-08-04 15:25:35MiriamKaufmanlink <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 3: </td> <td> Line 3: </td> </tr> <tr> <td> <span>-</span> ||(on <span>Seco</span>nd Street, near ["Peak Performance"])|| </td> <td> <span>+</span> ||(on <span>["2</span>nd Street<span>"]</span>, near ["Peak Performance"])|| </td> </tr> </table> </div> Schilling Roboticshttp://daviswiki.org/Schilling_Robotics2005-03-03 15:45:06AlphaDog <div id="content" class="wikipage content"> Differences for Schilling Robotics<p><strong></strong></p><table> <tr> <td> <span> Deletions are marked with - . </span> </td> <td> <span> Additions are marked with +. </span> </td> </tr> <tr> <td> Line 1: </td> <td> Line 1: </td> </tr> <tr> <td> </td> <td> <span>+ ||&lt;bgcolor='#E0E0FF'&gt;'''Location'''||<br> + ||201 Cousteau Place||<br> + ||(on Second Street, near ["Peak Performance"])||<br> + ||&lt;bgcolor='#E0E0FF'&gt;'''Hours'''||<br> + ||(Please fill in hours)||<br> + ||&lt;bgcolor='#E0E0FF'&gt;'''Phone'''||<br> + ||(530)753-6718||<br> + ||&lt;bgcolor='#E0E0FF'&gt;'''Website'''||<br> + ||[http://www.schilling.com]||<br> + <br> + '''Schilling Robotics''' was founded by former ["Sacramento City College"] student Tyler Schilling. The company makes mechanical arms as well as remotely operated vehicles. Schilling started building the company in 1985; before that, the avid scuba diver had done a couple of semesters at Sacramento City College, a yearlong stint with an auto racing team and about a year working for an oceanographic equipment company in San Diego. In 1992, the company was sold to French conglomerate, Alstom, who sold it back to Schilling in late 2002 after one of it's early remotely operated submersibles was used to lift and tow the Japanese trawler Ehime Maru, sunk by a surfacing US nuclear submarine.<br> + <br> + Today, much of Schilling Robotics' business comes from offshore oil drilling and exploration. The company's deep-sea robotic manipulators are industry standard, capturing 75%-80% percent of the market - their titanium arms can withstand the crushing pressure of the sea at 6,500 meters, 20,000 feet deeper than professional divers can go. The robotic manipulators can do fine movements, such as picking up a seashell, as well as lift 250 pounds and grasp with 2,000 pounds of pressure. Schilling manipulators range from $30,000 to $150,000. The Woods Hole Oceanographic Institution has a remote submersible with two arms, but only one is a Schilling, due in part to the high cost and specialized functions of each manipulator. Schilling also does terrestrial projects for scientific, military, and nuclear applications.<br> + <br> + Schilling's headquarters and main facility in Davis was built to specifications: the facility emphasizes space for operations in design, manufacturing, assembly, inspection, testing, training, and customer service. They are have a complete staff of mechanical, electrical, software, and systems engineers specializing in the design, development, manufacture, and field service of remotely operated systems. The manufacturing facility in includes a state-of-the-art machine shop with computer-controlled EDM and milling machines, along with manually controlled equipment for milling, welding, grinding, bead-blasting, and chemical etching. Testing facilities include electronics and hydraulics laboratories, above-ground test tanks, and an in-ground equipment test tank for hydrotesting underwater equipment. The hydraulic test laboratory is equipped to perform static tests on components at pressures up to 1,360 bar (20,000 psi). The lab can also test subsystems and components to characterize pressure and system flow, repeatability, hysteresis, output force, friction, and drift. The electronics laboratory is fully equipped to facilitate designing, prototyping, debugging, and producing digital, analog, and fiber optic devices, with associated control software. High-voltage power facilities allow testing of devices that use up to 3.3kVAC, 3-phase, 50/60 Hz power. Pretty cool, huh!?!<br> + <br> + <br> + <br> + <br> + </span> </td> </tr> </table> </div>