.MODEL LED_RED D (IS=1e-20 N=1.8 RS=1.2 BV=5 VJ=1.8) .MODEL LED_GRN D (IS=1e-20 N=1.9 RS=2.0 BV=5 VJ=2.1) .MODEL LED_BLU D (IS=1e-20 N=2.0 RS=3.5 BV=5 VJ=2.8)
\PROTEUS\ \LIBRARY\ MYLEDS.LIB (schematic symbols) MYLEDS.IDX (index) \MODELS\ MYLEDS.MDF (SPICE models) This paper provides a complete blueprint for creating and using an LED library in Proteus. The methodology can be extended to other discrete components such as transistors, sensors, or connectors.
.MODEL LED_RED D (IS=1e-20 N=1.8 RS=1.2 BV=5 VJ=1.8) .MODEL LED_GRN D (IS=1e-20 N=1.9 RS=2.0 BV=5 VJ=2.1) .MODEL LED_BLU D (IS=1e-20 N=2.0 RS=3.5 BV=5 VJ=2.8)
\PROTEUS\ \LIBRARY\ MYLEDS.LIB (schematic symbols) MYLEDS.IDX (index) \MODELS\ MYLEDS.MDF (SPICE models) This paper provides a complete blueprint for creating and using an LED library in Proteus. The methodology can be extended to other discrete components such as transistors, sensors, or connectors.
We use cookies and similar technologies (collectively, “Cookies”) to ensure our Site functions properly, enhance your browsing experience, analyze traffic, and support other purposes described in our Cookie Policy. You can accept all Cookies, reject non-essential Cookies, or manage your preferences. For details, please see our Cookie Policy.