Voltage Collapse Animation (DC) Created by Chad Thompson and Pete Sauer of The University of Illinois at Urbana-Champaign Based on a previous animation.

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Presentation transcript:

Voltage Collapse Animation (DC) Created by Chad Thompson and Pete Sauer of The University of Illinois at Urbana-Champaign Based on a previous animation by Bob Thomas of Cornell University © 2003 Peter W. Sauer PS ERC

Suppose a control system is designed to switch lights on in a room in order to bring a room brightness to 30 Watts (equivalent to a certain level of lumens). This animation will switch lights on in sequence as you advance the slides in order to reach the 30 Watt level. The control system would continue to switch lights in as it tries to obtain a total power output of 30 Watts. If the voltage source supplying the light bulbs was ideal (no internal resistance), this would be possible. But, this animation shows that adding load to a source with internal resistance changes the voltage available to the load and eventually results in voltages so low that the addition of another light bulb actually lowers the total power and therefore overall brightness. The control system would continue to add more light bulbs to try and achieve 30 Watts of total power – but it would not be able to do so – as it adds more light bulbs, the room would get darker and darker and the voltage would continue to drop - this can be interpreted as a voltage collapse.

No lights on 0 Watts total (room is dark) Voltage is normal One light on 14 Watts total (some light in room) Voltage drops some Two lights on 20 Watts total (room gets brighter) Voltage drops more Three lights on 23 Watts total (room gets brighter) Voltage drops more Four lights on 24 Watts total (room gets brighter) Voltage drops more Five lights on 25 Watts total (room gets brighter) Voltage drops more Six lights on 24 Watts total (room gets darker) Voltage drops more