Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 Good morning, if possible, I would like the CAD files or gerber files of the evaluation board UCC28180EVM-573.
Thank you. best regards.
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 , UCC28070A Hi,
I am wondering, if the UCC28180 circuit tolerates short negative peaks below -0.3V, measured at gate drive output. We have measured such peaks, even ~-2 V, originated…
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 , UCC28881EVM-680 , UCC28881 Hi team,
I am trying to evaluate UCC28180EVM-573 in a case for safety reasons, but there was no size information provided. Could you please provide me with…
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 Hi, I am using UCC28180EVM-573 evm board. I am just trying to measure the Vsense resistance from TP9 to TP6 and from TP9 to TP1.
I am trying to measure resistance from TP9 to TP1 and it…
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 , UCC256301 , UCC25630-1EVM-291 , , PFCLLCSREVM034 Hello,
I’m designing power supply system using UCC28180 and UCC256301.
I evaluated these products using “UCC28180EVM-573” and…
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 , UCC28070EVM , UC3854 , UCC2818 , UCC28070 , UCC28065 one of TI's tech support that their UCC28180 had been successfully used at the AC line frequency of 400Hz. We obtained their evaluation…
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 Hi,
I used the reference design UCC21180EVM-573 in my power supply. As the result, it failed the conductive emission at the program frequency 40 Khz with the the Rfreg of 26.1 Kohms…
Part Number: UCC28180EVM-573 Other Parts Discussed in Thread: UCC28180 , Hi Team,
I am working with a customer who is using UCC28180 in an upcoming power supply design and they are validating the solution using UCC28180EVM-573.
What are the changes that…
Hi, Meet
Based on the RC charging circuit R25/R26/R36/R27, time constant is pretty smaller, however, since the rectified voltage on these resistors is pulse DC(because there is no E.CAP), so charging time will be much longer then normal RC charging time…