Win Capp Windowsbased Computer Aided Pulse Plating system
Win. Capp Windows-based Computer Aided Pulse Plating system TCD Teknologi Ap. S Denmark
Win. Capp what can you do with it? • Design Pulse Plating functions in Microsoft Windows • Multitasking • Printing • Copying between applications • Create any shape by defining vertices • Ramps • Squares • Sine waves • Pulses • Form experiments of consecutive linked functions • Sandwich layers • CMA layers • Special property layers • Do Pulse and Pulse Reverse from 1 ms to several hours • Generate signals for your lab rectifier (power supply) • AXA rectifiers • PAR potentio/galvanostat • Others
The Win. Capp system consists of: Potentiostat Galvanostat Win. Capp Function Generator Power output for PAR 263 A and a Win. Capp Function Generator • Generation of control signals • Rectifier interface PC Software for Windows • Design of functions • On-line experiment control External Win. Capp can control power supplies through an external input Power Potentiostat Galvanostat EG&G Princeton Applied Research Potentiostat/Galvanostat model 263/273
The Win. Capp system consists of: Potentiostat Galvanostat Win. Capp Function Generator Power output for PAR 263 A and a Win. Capp Function Generator • Generation of control signals • Rectifier interface PC Software for Windows • Design of functions • On-line experiment control External Win. Capp can control power supplies through an external input Power Potentiostat Galvanostat EG&G Princeton Applied Research Potentiostat/Galvanostat model 263/273
Let’s take a look at the PC-software x
creating a new experiment. . . x
creating a new experiment. . . x File New Open Save as. . . Close Description Printer setup Exit
creating a new experiment. . . x File New Open Save as. . . Close Description Printer setup Exit
creating a new experiment. . . x File New Open Save as. . . Close Description Printer setup Exit
creating a new experiment. . . x Noname. exp This is an empty experiment x
let’s link 3 consecutive functions together. . x Noname. exp x
let’s link 3 consecutive functions together. . x Noname. exp x
let’s link 3 consecutive functions together. . x Noname. exp x
now let’s design them. . . x Noname. exp x
x Noname. exp just click to define a point x
x Noname. exp x
x Noname. exp x
x Noname. exp x
an so on with the rest. . . x Noname. exp x
loops are also possible. . . x x Noname. exp 1000
and we can work with several experiments at the same time. . . x x Noname. exp x Nickel. exp x CMA. exp 1000 200
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