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Students greet family and friends after the Engineering Spring Commencement, Colorado State University May 15, 2009
Cal Poly EE Senior Project 2011 Showcase
Cal Poly Electrical Engineering Spring Senior Project Showcase
Brian Schratz, 2006 electrical engineering alumnus and lead engineer for the entry descent and landing telecommunications on NASA's Mars Science Laboratory mission, gives the keynote address at the 2013 College of Engineering Research Symposium on April 2 at the Nittany Lion Inn. (Photo credit: Curtis Chan)
Battery-operated electrochemical microsensor includes screen-printed, three-electrode sensor linked to electronics board (potentiostat). A) represents functioning in safe environmental conditions; B) shows red LED, indicating increased current magnitude caused by elevated phenol content in seawater. (Insets) Dashed lines indicate threshold for safe – or hazardous – phenol levels.
Visit to Longwood Gardens, September 2012. Plants by day, light sculpture installations by Bruce Munro by night.
These installations are floating compact discs. That's a lot of free time on AOL...
In the special International Railway Congress issue of the Railway Gazette for 1954 English Electric splashed out with their advertising budget taking a series of full colour pages for adverts looking at the company's lineage and products. English Electric had been formed in December 1918 and brought together a number of companies who had been involved in electrical and mechanical engineering along with wartime munitions work. Of the various concerns it was Dick, Kerr of Preston who had been most involved in transport; primarily tramways but also in railways. The following year EE purchased the Siemens Brothers Dynamo Works Limited at Stafford, works that were to become a major centre of EE activity.
Postwar and the early 1920s saw EE, like many other industrial concerns, struggle financially and in 1928 it was necessary to restructure and recapitalise the company to keep it as a going concern. By 1930 it was announced that much of the capital behind the restructuring came from the American Westinghouse businesses. EE now prospered somewhat to become one of the major UK electrical companies alongside GEC and the AEI group. During WW2 EE became involved in aircraft construction and, by acquiring Napier the aero engine company, the post-war aviation business became an important sector. In 1960 this became part of the new British Aircraft Corporation as the sector raionalised under Government pressure.
In terms of railway work, EE made many traction motors and electrification equipment that were used in 1930s schemes for expansion at London Underground and the Southern Railway. The construction of diesel locomotives began in 1936. In post WW2 years EE acquired both the Vulcan Foundry and Robert Stephenson and Hawthorns Ltd in 1955 to strengthen the business. As can be seen from the adverts much of EE's output had been in the form of exports and the UK railway stock shown dated back, some to pre-EE days. In a way the lack of UK materials shows the slow progress that the newly Nationalised British Railways were making in terms of Modernisation and the undertaking's somewhat slow pace in the replacement of steam with diesel and electric traction. In the years after 1954/55 as BR's Modernisation Plan took hold EE did supply many new items of rolling stock to BR.
Taylor, a 1991 electrical engineering alum, built his engineering foundation at Auburn years before he was performing homemade experiments with beer cans and plywood for National Geographic Channel's new show "Rocket City Rednecks"
(Photo Credit: © NGC/ Mark Thiessen)
Brian Schratz, 2006 electrical engineering alumnus and lead engineer for the entry descent and landing telecommunications on NASA's Mars Science Laboratory mission, gives the keynote address at the 2013 College of Engineering Research Symposium on April 2 at the Nittany Lion Inn. (Photo credit: Curtis Chan)
Brian Schratz, 2006 electrical engineering alumnus and lead engineer for the entry descent and landing telecommunications on NASA's Mars Science Laboratory mission, gives the keynote address at the 2013 College of Engineering Research Symposium on April 2 at the Nittany Lion Inn. (Photo credit: Curtis Chan)
The high current high voltage buck converter used to run high power loads. Input is 25 V dc and output is 12 V, 15 A.
Brian Schratz, 2006 electrical engineering alumnus and lead engineer for the entry descent and landing telecommunications on NASA's Mars Science Laboratory mission, gives the keynote address at the 2013 College of Engineering Research Symposium on April 2 at the Nittany Lion Inn. (Photo credit: Curtis Chan)