Part Number: TPS3838-Q1 Hi team
My customer is currently using Rohm's BD5225G-2MTR. I would like to ask if there is any alternative material from TI that I can recommend to the customer. I've searched but can't find it so far. I would like your help…
Part Number: TPS3838-Q1 Hi team
My customer is currently using Rohm's BD5230G-2MTR. I would like to ask if there is any alternative material from TI that I can recommend to the customer. I've searched but can't find it so far. I would like your help…
Part Number: TPS3838 Other Parts Discussed in Thread: TPS3808 Hi,
I am using the TPS3838 as an open-drain voltage supervisor for a Bluetooth module's VCC.
I also have the push-pull output 'PROG_RSTn' from a TLC555QDRQ1 connected to the same…
Part Number: TPS3838 Hi, Good day. Our customer wants to use the TPS3838. The datasheet states that the minimum pull-up resisitor value can be computed as V /50uA but reference design uses 10K resistor to pull-up to 3.3V.
Now, they want to know what should…
Part Number: TPS3838-Q1 Hi Team,
As title, What are the different between TPS3838K33QDBVRQ1 and 2U3838K33QDBVRG4Q1 ?
What is "2U" and "G4" mean in naming rule ?
Can they drop in replace each others?
Thanks!
Kai
Part Number: TPS3838 Other Parts Discussed in Thread: TPS3899 Hi Team,
My customer is using our TPS3838 in their application to monitor a 3.3V Vcc supply. In their application, they face some inrush current coming from outside of their application and…
Part Number: TPS3838-Q1 Other Parts Discussed in Thread: TPS3838 We are using the TPS3838K33QDBVRQ1 in our design.
On some modules, the device generates a reset, while we cannot see the cause of the reset.
The 3V3 power supply does not fall below 3.15V…
Part Number: TPS3838 Other Parts Discussed in Thread: TPS3808 Hi team,
My customer would like to use TPS3838 because of its low power consumption and now they are evaluating the thermal resistance. I heard that its SON package will add roughly 20~35%…
Part Number: TPS3838 Team,
My customer currently uses our 3.3V , trips at 2.93 Supervisory chip TPS3838K33DBVT.
The question is:
Can they use 3.0V device that trips on 2.64V on a 3.3V rail (and still trip at 2.64V)? TPS3838L30DBVR
Thanks!
Viktorija …