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INA240-Q1: Gain <20

Shinji Tsuji
Genius 12668 points
Part Number: INA240-Q1
Other Parts Discussed in Thread: INA139-Q1, LMP8278-Q1, INA168-Q1, LMP8601-Q1, INA138-Q1, INA169-Q1

Hi team,

I would like to reduce the gain of INA240A1-Q1 from 20V/V to 10V/V.

Is that possible to adjust the gain externally?

If it is not possible, could you advise the alternative low gain current sense amplifier?

regards,

  • 0
    Guru 140200 points

    Hi Shinji,

    no, this is not possible.

    Have you thought about decreasing the shunt by a factor of two?

    Kai

  • 0 in reply to kai klaas69
    TI__Mastermind 29320 points

    Hi,

    It is not recommended to adjust the gain externally. Please consider reducing the shunt resistor value as Kai suggested. In addition, we have the following lower gain options:

    LMP8278-Q1 gain of 14; INA138-Q1, INA168-Q1, INA139-Q1 and INA169-Q1 with gain set by an external resistor. LMP8601-Q1 with adjustable gain option.

    Regards, Guang

  • 0 in reply to Guang Zhou
    TI__Genius 12668 points

    Hi Kai-san, Guang-san,

    Thank you for your reply.

    Could you advise what is the drawback of reducing gain externally?

    If I can accept the drawback, is it technically feasible to reduce gain externally?

    Since the resistance I measure is MOS FET on resistance, I cannot change the shunt resistance.

    regards,

  • 0 in reply to Shinji Tsuji
    TI__Mastermind 29320 points

    Hi Tsuji-san,

    The system gain is reduced by external resistors Rs. The calculation is described in this paragraph:

    There are a few drawbacks, the main one is that calculated gain is nominal value; the actual gain may be off by a significant percentage. This is because the internal resistors (3000Ohm) have a tolerance of 15%. The external resistor tolerance also contributes to the uncertainty. You may estimate the worst cases to see if the uncertainty is acceptable.

    Regards, Guang

  • 0 in reply to Guang Zhou
    TI__Genius 12668 points

    Hi Guang,

    If I chose Rs=3000ohm, then the Gain error = 50%.

    Does it mean I can reduce the gain by 50% from original gain?

    If I consider 15% internal resistor tolerance and 1% external resistor tolerance,

    it should be 46% to 53%?

    I plan to use 20V/V device and reduce down to 10V/V.

    In this case, if I select Rs=3000ohm, then I can get 9.2V/V to 10.6V/V?

    Is my understanding correct?

    regards,

  • 0 in reply to Shinji Tsuji
    Guru 140200 points

    Hi Shinji,

    but you could put a low ohmic shunt in parallel to the MOSFET's Ron :-)

    Kai

  • 0 in reply to kai klaas69
    TI__Mastermind 29320 points

    Hi Tsuji-san,

    Your calculations are correct considering the extremes, the expected gain would span 9.14 to 10.75.

    Regards, Guang