Search tips
Showing 171 results View by: Thread Post Sort by
    Answered

  • TLV733P: cap-free mechanism

    Resolved
    Part Number: TLV733P Hi, It is a question from our customer. Why is cap free LDO stable without the output capacitor? I understand that only the parasitic capacitance can compensate the internal control loop, is it correct? Also, could you please provide…
    • Resolved

  • TLV733P-Q1: Transient response measures

    TI Thinks Resolved
    Part Number: TLV733P-Q1 Hi TI-team The output voltage overshoots when the input voltage is increased or the load current is decreased. How can I reduce the output voltage overshoot ? Please teach me. My customer connected the output capacitance…
    • Answered

  • TLV733P: Foldback current limit characteristic at 1.2Vout

    Resolved
    Part Number: TLV733P Hi team, According to the datasheet, "Foldback current limit vs Iout and temperature" are shown only at 1.0V, 1.8V and 3.3V, and it seems there is no foldback characteristic at 1.2Vout. Could you also provide the foldback current…
    • Resolved

  • TLV733P: Better PSRR LDO

    TI Thinks Resolved
    Part Number: TLV733P Other Parts Discussed in Thread: TLV702-Q1 , LP5907-Q1 , LP5912-Q1 Dear Sir, May customer using TLV73333P-Q1 and TLV73318P-Q1 but looking for better PSRR LDO with same spec.. Do you have suggest what we can promote? Thanks,…
    • Answered

  • TLV733P-Q1: Layout Examples shows NC pins connecting

    Resolved
    Part Number: TLV733P-Q1 Hello, I would like to confirm NC pin treatment of DRV package. In p18 of datasheet, pin2 (NC) is connected pin1(OUT), and pin5(NC) is connected to pin6 (IN). Why are these NC pins connected to other pin? Best Regards,…
    • Resolved

  • RE: TLV733P-Q1: Output voltage accuracy by IOUT

    Hi Fujiwara, As you noted, the test condition for the Electrical Characteristics table is only at 1 mA. The load regulation will need to be added into the accuracy in order to find the accuracy at 50 mA. The typical load regulation for a change in…

  • TLV733P-Q1: How to find 1.2V foldback waveform

    TI Thinks Resolved
    Part Number: TLV733P-Q1 Hi TI-team I got the answer "1.2VOUT performance is much closer to the 1.0V chart". How do I read it from the graph ? Is it possible to consider the result of 1.2V Foldback by replacing 1V of Y axis in Fig. 6 with 1.2V, 0…

  • TLV733P: Voltage Rise time and Fall time

    TI Thinks Resolved
    Part Number: TLV733P What is the rise time and fall time of input(VIN) and output(V)?
    • Answered

  • TLV733P: for layout review

    Resolved
    Part Number: TLV733P Hi team, Can you review if below layout of TLV73318P is okay? -. VIN = 3.3V, CIN = 1uF, EN is tied to VIN -. VOUT = 1.8V, COUT = 4.7uF Thanks, Sam Lee
    • Resolved

  • TLV733P: VDO VS VOUT

    TI Thinks Resolved
    Part Number: TLV733P Hi, all. When I learn the basic knowledge of LDO, I got one question about VDO && VOUT. Whne the output current is the same of TLV73318 and TLV73333, why TLV73333 has a lower VDO? Why VGS voltage is larger in this device…

Didn't find what you are looking for? Post a new question.