Hello,
Please can you tell if our method of measuring a 500KHz triangular current waveform is accurate?
We are just measuring the voltage across a series sense resistor.
This is the shape of current waveform we are trying to measure the average value of:-
http://i39.tinypic.com/2vwsht1.jpg
So we are trying to measure the average inductor current in each inductor of a dual buck converter.
(we need to do this to assess what actual maximum current the load (FPGA) is actually drawing)
We are measuring the current by using a 2mR series resistor. (its a 1% surface mount sense resistor)
-we measure the voltage across the sense resistor with a Hewlett Packard HP34401A digital meter.
(obviously wires (twisted pair) are taken from the sense resistor terminals to the meter)
HP34401A Digital meter User Guide:-
http://www.ee.buffalo.edu/courses/elab/hp34401.pdf
-the total load current, we know is around 15 to 18A , but we need to know it exactly.
-anyway, each inductor current is obviously a triangle current waveform with a few amps peak to peak and 7 to 9A average.
The buck is actually a dual-buck converter supplying an FPGA
Vin = 12V
Vout = 0.9V
Each FET switches at 500KHz (there’s interleaving)
Inductors are 470nH
Iout(max) = What we are measuring here!!!!
So please do you know if our sense resistor voltage being read by the HP34401A is going to give us an accurate way of measuring the current?
NOTE:
Before taking the measurements, we got the software engineer to code the FPGA with code that will make it draw the maximum current.
The dual buck and the FPGA are actually in the environmental chamber at 80degC when we measure the current.
(obviously we cannot put a current probe into the chamber at 80degrees C……even if we could, we’d still have to break the pcb track and bring a wire through the current probe’s “jaws” which would not be advisable at this high frequency)
HP34401A Digital meter datasheet:-
http://www.metrictest.com/catalog/pdfs/product_pdfs/hp_34401a.pdf
HP34401A Digital meter User Guide:-
http://www.ee.buffalo.edu/courses/elab/hp34401.pdf
Please can you tell if our method of measuring a 500KHz triangular current waveform is accurate?
We are just measuring the voltage across a series sense resistor.
This is the shape of current waveform we are trying to measure the average value of:-
http://i39.tinypic.com/2vwsht1.jpg
So we are trying to measure the average inductor current in each inductor of a dual buck converter.
(we need to do this to assess what actual maximum current the load (FPGA) is actually drawing)
We are measuring the current by using a 2mR series resistor. (its a 1% surface mount sense resistor)
-we measure the voltage across the sense resistor with a Hewlett Packard HP34401A digital meter.
(obviously wires (twisted pair) are taken from the sense resistor terminals to the meter)
HP34401A Digital meter User Guide:-
http://www.ee.buffalo.edu/courses/elab/hp34401.pdf
-the total load current, we know is around 15 to 18A , but we need to know it exactly.
-anyway, each inductor current is obviously a triangle current waveform with a few amps peak to peak and 7 to 9A average.
The buck is actually a dual-buck converter supplying an FPGA
Vin = 12V
Vout = 0.9V
Each FET switches at 500KHz (there’s interleaving)
Inductors are 470nH
Iout(max) = What we are measuring here!!!!
So please do you know if our sense resistor voltage being read by the HP34401A is going to give us an accurate way of measuring the current?
NOTE:
Before taking the measurements, we got the software engineer to code the FPGA with code that will make it draw the maximum current.
The dual buck and the FPGA are actually in the environmental chamber at 80degC when we measure the current.
(obviously we cannot put a current probe into the chamber at 80degrees C……even if we could, we’d still have to break the pcb track and bring a wire through the current probe’s “jaws” which would not be advisable at this high frequency)
HP34401A Digital meter datasheet:-
http://www.metrictest.com/catalog/pdfs/product_pdfs/hp_34401a.pdf
HP34401A Digital meter User Guide:-
http://www.ee.buffalo.edu/courses/elab/hp34401.pdf
