Part Number: LM5165-Q1 Other Parts Discussed in Thread: LM5165 , Hi ,
I would like to know if we will have VSSOP package for X version (5 V output) or for adjustable.
This application requires to pass ISO7637-2 for 24V battery application; this specifies…
Part Number: LM5165-Q1 Other Parts Discussed in Thread: LM5165 Hello,
Considering to use LM5165-Q1 for Automotive Thermcon project.
To use this part, it can meet below Load Dump test sepc.
Vin(max) 65~100V --> Thermcon Operating voltage & Current…
Part Number: LM5165-Q1 Hi,
We are checking the loss of each device on the circuit. Is there data on the loss of the IC itself? (Within the entire operating temperature range) (specification) ① VIN: 6 - 18V VOUT: 5 V IOUT: 0.1 A MAX SW: COT, 230 kHz ② VIN: 18-2…
Other Parts Discussed in Thread: LM5165-Q1 Hi everybody
I am using a LM5165Y-Q1 in my application, which should output a fixed 3.3 V. However, the output voltage is always 1.22 V. This would be the expected voltage for the LM5165-Q1, which works with an…
Hi Alex,
Yes, we are also trying our best to manage the part shortage in the semiconductor industry.
The -Q1 grade part have an alternate package of VSSOP which you may be able to bend the leads and fit in to your PCB
https://www.ti.com/lit/ds/symlink…
Other Parts Discussed in Thread: LM63615-Q1 , LMR36503-Q1 I posted I need help replacing a Maxim power part for an automotive customer's radar system. I am planning to use a standard buck in IBB configuration as discussed in:
– Create an Inverting…
Part Number: LM5165 Hi
I made an error that LM5165-Q1 has VSSOP package (adj) as shown in the datasheet (Page 3) but not listed for sale.
My circuit is LM5165Y-Q1 (which is VSON), I was aiming for 2V7 O/P but this device is 3V3.
Is there a way to modify…
Kaji,
These equations are correct and also apply to the LM5165 (all modes). Please see rev B of the LM5165-Q1 datasheet that we just released. The LM5165 datasheet will be similarly revised.
Regards
Tim
Hi,
In power converter designs, a few things you must take into account from a reliability point of view are:
1. Stability analysis
2. Thermal performance
Failure to take into account the two design considerations mentioned above will result in unstable…
Hi Paul,
Thank you for designing with the LM4160A. In a fly-buck topology the secondary side is cross regulated, which is derived by the well-regulated primary side voltage via transformer coupling, minus the secondary diode voltage drop and also some…