Part Number: LM5123EVM-BST Hi,
I received a rev A of LM5123EVM-BST board while the details online refers to the revision B of the same EVM. May I have the PCB details such as schematic , layout and component placement for rev A board?
Thanks,
Chris…
Part Number: LM5123EVM-BST Hi,
I received a rev A of LM5123EVM-BST board while the details online refers to the revision B of the same EVM. May I have the PCB details such as schematic , layout and component placement for rev A board?
Thanks,
Chris…
Part Number: LM5123EVM-BST Hi,
I received a revision A EVM of LM5123EVM-BSTnwhile the documentation online is only showing the PCB details (schematic, layout) for revision B of the board.
Can I request for similar PCB details for the revision A?
Thanks…
Part Number: LM5123EVM-BST Hi,
I found there are 2 different LM5123EVM-BST boards. The documentation on the guide refers to the BMC069 A version. May I know where I can locate the schematic and layout for the B version of the EVM?
Thanks,
Christina
Part Number: LM5123EVM-BST Hi team,
Are users of this EVM allowed to change the switching frequency of PWM from 440kHz to 2.1Mhz?
Or will this cause issues?
Thanks,
Luke
Part Number: LM5123EVM-BST Hi team,
Is it possible to change the input voltage to 27V~42V and the output to 45V?
I know that I must change some resistor value, but the components can support this voltage range?
Regards
Part Number: LM5123EVM-BST Hello, Team,
We would like to set Vo to 36V or 48V using LM5123EVM-BST.
Assuming that changing RFBT and RFBB would do, but Vo only went up to 30V (w/o load) after changing R24 = 21kOhm and R26 = 4.7 ~ 36kOhm.
Where do we configure…
Part Number: LM5123-Q1 Other Parts Discussed in Thread: TIDA-020033 , LM5123EVM-BST Hi Team, would it be possible to get the Schematic & PCB Layout Files (preferred Altium) for the LM5123EVM-BST and / or for the Design Guide TIDA-020033 (TIDUA71)?
…
Hello Rishi,
Thank you for your feedback. Let me share my inputs here:
With 15 A of load current and 24Vout, you end up having a very high output power (~360W. which is quite a bit higher than 240W). I see that you selected a diode with a high current…