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  • LM53601-Q1: LM53601A: feed forward cap on the FB pin

    • Resolved
    Part Number: LM53601 - Q1 Dear sir, We want to improve the peformance of our LM53601AQDSXRQ1 circuit

  • LM53601-Q1: Current Protection Mechanism

    TI Thinks Resolved
    Part Number: LM53601-Q1 Hi Expert, Could you please help share more details about the current protect mode? I want to know the exactly current limit of the Peak and Valley. And after how many circle, the IC will enter Hiccup Mode? Will be appreciated...

  • LM53601-Q1: EN pin cut-off voltage

    • Resolved
    Part Number: LM53601 - Q1 Dear Sir. Please help calculate the voltage divider resistance of EN pin

  • LM53601-Q1: Hiccup Issue

    • Resolved
    Part Number: LM53601 - Q1 Customer is having issues with TPS536015 going into hiccup mode on 10

  • RE: Synchronous BUCK converter

    Hi, You can try this part http://www.ti.com/lit/ds/symlink/lm53601-q1.pdf Thanks -Arief

  • LM53601-Q1: treset_filter apply to VIN

    • Resolved
    Part Number: LM53601 - Q1 Hi Team, Does the treset_filter apply to VIN as well as the FB input

  • RE: LM53601-Q1: LM53601-Q1 minimum input supply threshold voltage for reset to clear (5V fixed)

    Hello Arun, Yes, that is how I calculated the minimum input voltage with RESET high. Two notes: 1) VDROP1 is specified in the systems table in the datasheet so is not assumed. You must add the inductor's effect on this number using DCR*your...

  • LM53601-Q1: LM53601-Q1 power sequence for LCD driver IC

    TI Thinks Resolved
    Part Number: LM53601-Q1 Hi , Could you please let me know who handle this parts. We have power sequence question to ask for? Please add friend with me and I'll send the circuit to you, thank you. Warm Regards, Lin

  • LM53601-Q1: Failure rate,typical failure mode

    TI Thinks Resolved
    Part Number: LM53601-Q1 Hi, My customers are using TI's parts to design their 48V system. Now they need do some work about functional safety, so they want to get the relevant user guide which include failure rate, typical failure mode, and so...

  • RE: LM53601-Q1: Minimum Dmax value to perform WCCA

    Hello Arun, You can calculate the maximum duty factor while maintaining frequency using this device’s minimum off-time. Minimum off time is listed in the datasheet and has a maximum 125 ns. At 2.1 MHz, this gives a worst case maximum duty factor of...

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