Part Number: UCC21710 Other Parts Discussed in Thread: AMC1302 Hi...
We're planning to use UCC21710 in our application. We're getting the supply from UCC14141 to get a 15V & -4V for the gate driver. We have a 15V supply, that we're planning to as input…
Part Number: UCC21710 Other Parts Discussed in Thread: UCC21732 Hello,
We are using UCC21732 for our current project and looking for some technical information regarding UCC21710 VS UCC21732. If you can guide me to correct field engineer would be great…
Part Number: UCC21710-Q1 Other Parts Discussed in Thread: UCC21710 Hi All,
We are trying to use the UCC21710 and we are having an overcurrent shutdown on our LS FET Driver. We have tried floating it and pulling it down with a 3k. No luck. We tried completely…
Part Number: UCC21710 Hai TI team, I would like to get insight about the clamp circuit connection when driving 2 mosfets in parallel. I have read the forums and in there it is mentioned to use a pnp transistor with clamp pin and then connecting to the…
Part Number: UCC21710-Q1 Tool/software: Hi Ti Team,
I got one issue with this gate driver (UCC21710-Q1) as I am using gate driver for providing gate pulses to 1200V Mosfet (AIMCQ120R030M1TXTMA1) when I am switching my gate driver above 100V i am observing…
Part Number: UCC21710-Q1 Other Parts Discussed in Thread: UCC21750 Tool/software: Dear Sir,
I am New to PSPICE for TI. I want to simulate and understand the functions of the IC. So please share any reference simulations available for
UCC21710-Q1 …
Part Number: UCC21710 Hello Experts,
What are the key considerations to be taken care of when using UCC21710 for driving Sic, in termws of - HS driver, LS driver.
I have replicated the design from UCC reference guide (UCC217xx and ISO5x5x Half-Bridge…
Part Number: UCC21710-Q1 Other Parts Discussed in Thread: UCC21710 Tool/software: Hi,
I am using two UCC21710 ICs to drive two different SiC MOSFETs. The datasheet indicates that the RDY pins on both the UCC21710 chips can be paralleled due to the open…
Part Number: UCC21710-Q1 Tool/software: Hi everyone,
The reason why I'm asking is because the datasheet is a bit vague on that aspect. In table 5.9 the test conditions for the input high and input low voltages are VCC = 3.3V for the logic inputs.
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