Part Number: UCC5320 Hello,
I have to use a isolated driver to drive MOSFET quickly.
Data sheet page 27 § 10.3 say :
For operation with unipolar supply, the VCC2 supply is connected to 15 V with respect to VEE2 for IGBTs, and 20 V for SiC MOSFETs…
Part Number: UCC5320 Hi,
We got a question from the customer about UCC5320. Could you help us?
[Question] They are considering using UCC5320 as isolated high side SW for relay driving. Please refer to below figure.
- Are there any concerns for this usage…
Part Number: UCC5320 Hi,
we have UCC5320E which has VCC2, VEE2, so we can get bipolar output.
But in TIDA01606, S version UCC5320S is chosen for bipolar output shown below(+12V and -5V). So we can also use the S version for bipolar output, so what's the…
Part Number: UCC5320
Hi,
my question is not specifically for UCC5320 but for all gate driver.
Our datasheet does not tell what switching frequency the gate driver can achieve, but sometimes the customer will ask such question, so how to answer?
Can we…
Part Number: UCC5320 Hi
Let me ask you about UCC5320S.
If I use UCC5320S as high side driver, could I use this device as attached document?
UCC5320S.pdf
Best regrds,
Yokota
Part Number: UCC5320 Hi team.
My customer try to use at power conditioner application.
And, could you tell me about this IC?
<Question>
①:I saw the block diagram at Figure 25 "Functional Block Diagram UCC 5320S and UCC 5390 S Split Outputs" and Table…
Part Number: UCC5320 Hi,
in datasheet we have peak source current and peak sink current.
The test condition is:
VCC1 = 3.3 V or 5 V, 0.1-µF capacitor from VCC1 to GND1, VCC2= 15 V, 1-µF capacitor from VCC2 to VEE2, CL = 100pF.
So I think CL…