• LT1019-5 DIP8

    关于LT1019-5 DIP8 是否有可替代的料

  • LT1019:  Dropout curve without normalization

    Please provide the Dropout curve without normalization for the LT1019CS8-4.5. (Dropout vs load current)

    Else, if the dropout curve is not available then please provide the values of dropout at any point.

  • 关于精密电源:LT1019-5

    精密电源:LT1019-5
    封装:DIP8 关于这颗料有没有常销的型号替代,或者有量产的供应商
  • 新风机控制板精密电源:LT1019-5

    用在新风机控制板上的精密电源:LT1019-5-DIP 8请问有常销的料号替代吗?或者是否有量产

  • RE: Very precise 54V DC power supply

    Hi Santiago,

    I sent your schematic around to a few people here, and they have some suggestions for you:

    1. The customer has a 1uF tantalum cap at the output of the LT1019. Have they tried adding an external resistor in series with the cap to deliberately…
  • TAGS LISTS: Voltage References

    LT1460
    LTC1258
    LT1021
    LT1027
    LTC1798
    RH1021-10
    RH1021-5
    RH1021-7
    LT6660
    LH0070
    LTC6655
    AD2700
    AD2702
    AD584S
    REF01S
    REF05S
    REF10S
    REF43S
    REF02S
    AD1582
    AD1583
    AD1584
    AD1585
    LT1019
    LT1236
    LTC6652
    REF02…
  • Low Frequency Noise In Eval-AD5791/91SDZ

    I've got myself an Eval-AD5781/91SDZ board (with an AD5791 onboard) and an SDP board for communicating with it over usb. Using the default jumper configurations, such that the positive and negative references are derived from a 5V reference input and…

  • RE: Use OP AMP(AD797) as DAC(AD5445) output buffer

    William,

    I don't beleave either configuration is going to work for you, but have not benched either to see. I think at best you're going to see only 1/2 the range.

    As per the datasheet, the standard way to get to the possitive ourput is as shown…

  • RE: AD8331 - TGC problem

    Hi Guillaume,

    What you are seeing is the variation in offset voltage of the AD8331.  Here is a TPC from the datasheet that illustratres the offset variations as a function of VGAIN voltage:

    0b9b8c8747e8baa947cabb1c286dfdea.html

    The TPC shows a variation…

  • RE: AD698 excitation

    R1 is 1K, and C1 is 13000pF

    Good call on removing the LVDT from the chip.  Without the transformer, the excitation is a clean sine wave.

    f2e2b36caa052c5143806ac015d884e9.html
    <html><head><title>Jive SBS</title></head>
    <body><font face="arial…