Test
1)Turn on the fan.
2)Adjust the input voltage to the desired operating point.
3)Set the electronic or resistive load at 50% of maximum load.
4)Change channel 1 to scope probe and measure across the Rdynamic .
5)Set the switch SW2 to the converter ON.
6)Set channel 2 on the oscilloscope to be AC coupled and to 50mV/Div and for 5mS/Div. Set the trigger to auto and adjust the trigger point at a negative going pulse for step load change from 50% to 100% of Io or adjust the trigger point at positive going pulse for step load change from 100% to 50% (Please refer to data sheet)
7)Measure the
8.3.2 Turn-On Response Time.
1.) Turn on the module by using the External switch to control input voltage.
2.) Turn on module by using the Enable on/off.
Note: There is some difference in the performance of each mode - please refer to the data sheet for the detailed information.
Test (Turn on the module by using the external switch)
1)Turn on the fan.
2)Turn on the input power supply and set it to the desired operating point.
3)Set channel 1 on the oscilloscope to be DC coupled and to the appropriate range for the input voltage.
4)Connect a coaxial cable from channel 1 to BNC1 on the Evaluation Board.
5)Set channel 2 on the oscilloscope to be DC coupled and to the appropriate range for the output voltage.
6)Connect a coaxial cable from channel 2 to BNC2 on the Evaluation Board.
7)Set the Time base to 2mS/Div
8)Set the Trigger for a
9)Enable the external on/off switch to supply power and use the cursor V Bars for measurement of the delay time, and then record the waveform on the oscilloscope.
Test (Turn on the module by using the Enable on/off)
1.Turn on the fan.
2.Turn on the input power supply and set it to the desired operating point.
3.Set channel 1 on the oscilloscope to be DC coupled and to 1V/division. (Please refer to data sheet).
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