Waveform Lab March 2003 Waveform Lab Wednesday 3/5/03 - 2:00 to 4:00 PM Phasor Labs 5420 Glenway Circle March 2003 Oregon, Wisconsin 53575 608-835-9605 voice 608-835-9039 fax [email protected] [email protected] 1 Assume all waveforms are voltage waveforms recorded at cow contact with a 500 ohm resistor. Using the sensitivity chart determine if the voltage applied is significant. March 2003 [email protected] [email protected] 2 1 Waveform Lab March 2003 2 v/div vert - 5 ms/div horiz - use upper trace March 2003 [email protected] 3 1 v/div vert - 500 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 4 2 Waveform Lab March 2003 1 v/div vert - 20 ms/div horiz - use upper trace March 2003 [email protected] 5 2 v/div vert - 5,000 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 6 3 Waveform Lab March 2003 2 v/div vert - 0.5 ms/div horiz - use upper trace March 2003 [email protected] 7 2 v/div vert - 2 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 8 4 Waveform Lab March 2003 2 v/div vert - 5 ms/div horiz - use upper trace March 2003 [email protected] 9 2 v/div vert - 0.5 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 10 5 Waveform Lab March 2003 5 v/div vert - 0.1 ms/div horiz - use upper trace March 2003 [email protected] 11 2 v/div vert - 5 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 12 6 Waveform Lab March 2003 2 v/div vert - 5 ms/div horiz - use upper trace March 2003 [email protected] 13 5 v/div vert - 5 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 14 7 Waveform Lab March 2003 2 v/div vert - 1,000 ms/div horiz March 2003 [email protected] 15 5 v/div vert - 20 usec/div horiz March 2003 [email protected] [email protected] 16 8 Waveform Lab March 2003 5 v/div vert - 5 ms/div horiz - use upper trace March 2003 [email protected] 17 2 v/div vert - 5 ms/div horiz March 2003 [email protected] [email protected] 18 9 Waveform Lab March 2003 2 v/div vert - 5 ms/div horiz March 2003 [email protected] 19 0.2 v/div vert - 5 ms/div horiz March 2003 [email protected] [email protected] 20 10 Waveform Lab March 2003 500 mv/div vert - 100,000 ms/div horiz - use upper trace March 2003 [email protected] 21 1 v/div vert - 30 ms/div horiz - use upper trace March 2003 [email protected] [email protected] 22 11 Waveform Lab March 2003 Is this “Duration”? Here is an impulse burst similar to that caused by secondary load switching Duration = 50 ns = 0.05 usec Magnitude = 2.5 v peak March 2003 [email protected] 23 Or is this “Duration”? Here is part of the SAME impulse burst expanded 10 times Duration = 13 ns = 0.013 usec Magnitude = 1.0 v peak March 2003 [email protected] [email protected] 24 12 March 2003 [email protected] [email protected] Volts (Zero to Peak) across a 500 ohm resistor Multiple Cycle 1 Cycle, Biphasic 1 Cycle, Monophasic 0.1 Reprinted with permission C. Forster 7/5/00 0.01 1 10 100 1,000 10,000 Phase Duration (microseconds) = Time between zero crossings 0.1 1 10 Typ. Fencer March 2003 100 1,000 10,000 Behavioral response for 5% of the most sensitive cows using sine waves from muzzle to hooves exposure Volts (Zero to Peak) across a 500 ohm resistor Typ. Fencer Multiple Cycle 1 Cycle, Biphasic 1 Cycle, Monophasic 0.1 Reprinted with permission C. Forster 7/5/00 0.01 1 10 100 1,000 10,000 Phase Duration (microseconds) = Time between zero crossings 0.1 1 10 100 1,000 10,000 Behavioral response for 5% of the most sensitive cows using sine waves from muzzle to hooves exposure Waveform Lab March 2003 [email protected] 25 26 13 March 2003 [email protected] [email protected] Volts (Zero to Peak) across a 500 ohm resistor Multiple Cycle 1 Cycle, Biphasic 1 Cycle, Monophasic 0.1 Reprinted with permission C. Forster 7/5/00 0.01 1 10 100 1,000 10,000 Phase Duration (microseconds) = Time between zero crossings 0.1 1 10 Typ. Fencer March 2003 100 1,000 10,000 Behavioral response for 5% of the most sensitive cows using sine waves from muzzle to hooves exposure Volts (Zero to Peak) across a 500 ohm resistor Typ. Fencer Multiple Cycle 1 Cycle, Biphasic 1 Cycle, Monophasic 0.1 Reprinted with permission C. Forster 7/5/00 0.01 1 10 100 1,000 10,000 Phase Duration (microseconds) = Time between zero crossings 0.1 1 10 100 1,000 10,000 Behavioral response for 5% of the most sensitive cows using sine waves from muzzle to hooves exposure Waveform Lab March 2003 [email protected] 27 28 14 March 2003 [email protected] [email protected] Volts (Zero to Peak) across a 500 ohm resistor Multiple Cycle 1 Cycle, Biphasic 1 Cycle, Monophasic 0.1 Reprinted with permission C. Forster 7/5/00 0.01 1 10 100 1,000 10,000 Phase Duration (microseconds) = Time between zero crossings 0.1 1 10 Typ. Fencer March 2003 100 1,000 10,000 Behavioral response for 5% of the most sensitive cows using sine waves from muzzle to hooves exposure Volts (Zero to Peak) across a 500 ohm resistor Typ. Fencer Multiple Cycle 1 Cycle, Biphasic 1 Cycle, Monophasic 0.1 Reprinted with permission C. Forster 7/5/00 0.01 1 10 100 1,000 10,000 Phase Duration (microseconds) = Time between zero crossings 0.1 1 10 100 1,000 10,000 Behavioral response for 5% of the most sensitive cows using sine waves from muzzle to hooves exposure Waveform Lab March 2003 [email protected] 29 30 15 Waveform Lab March 2003 Nope, didn’t feel a thing! March 2003 [email protected] 31 Some conversion factors: 1 second = 1,000 milliseconds = 1,000,000 microseconds = 1,000,000,000 nanoseconds = 1,000,000,000,000 picoseconds March 2003 [email protected] [email protected] 32 16 Waveform Lab March 2003 Some conversion factors: 0.001 second = 1 milliseconds = 1,000 microseconds = 1,000,000 nanoseconds = 1,000,000,000 picoseconds March 2003 [email protected] 33 Some conversion factors: 0.000001 second = 0.001 milliseconds = 1 microseconds = 1,000 nanoseconds = 1,000,000 picoseconds March 2003 [email protected] [email protected] 34 17 Waveform Lab March 2003 Periods for sine waves: 1 Hertz = 1,000 milliseconds 60 Hertz = 16.7 milliseconds 1 kHz = 1 millisecond 1,000 kHz = 1,000 microseconds 1 MHz = 1 microsecond March 2003 [email protected] 35 Periods for sine waves: 1 MHz = 1 microsecond 10 MHz = 0.1 microsecond 10 MHz = 100 nanoseconds 100 MHz = 10 nanoseconds 200 MHz = 5 nanoseconds March 2003 [email protected] [email protected] 36 18 Waveform Lab March 2003 Thanks! If you have any questions contact me: Chuck Forster [email protected] www.phasorlabs.com March 2003 [email protected] [email protected] 37 19
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