ZHCSG77F April 2017 – March 2019 INA181 , INA2181 , INA4181

PRODUCTION DATA.

- 1 特性
- 2 应用
- 3 说明
- 4 修订历史记录
- 5 Device Comparison Table
- 6 Pin Configuration and Functions
- 7 Specifications
- 8 Detailed Description
- 9 Application and Implementation
- 10Power Supply Recommendations
- 11Layout
- 12器件和文档支持
- 13机械、封装和可订购信息

The accuracy of the INAx181 is maximized by choosing the current-sense resistor to be as large as possible. A large sense resistor maximizes the differential input signal for a given amount of current flow and reduces the error contribution of the offset voltage. However, there are practical limits as to how large the current-sense resistor can be in a given application. The INAx181 have typical input bias currents of 75 µA for each input when operated at a 12-V common-mode voltage input. When large current-sense resistors are used, these bias currents cause increased offset error and reduced common-mode rejection. Therefore, using current-sense resistors larger than a few ohms is generally not recommended for applications that require current-monitoring accuracy. A second common restriction on the value of the current-sense resistor is the maximum allowable power dissipation that is budgeted for the resistor. Equation 2 gives the maximum value for the current sense resistor for a given power dissipation budget:

Equation 2.

where

- PD
_{MAX}is the maximum allowable power dissipation in R_{SENSE}. - I
_{MAX}is the maximum current that will flow through R_{SENSE}.

An additional limitation on the size of the current-sense resistor and device gain is due to the power-supply voltage, V_{S}, and device swing to rail limitations. In order to make sure that the current-sense signal is properly passed to the output, both positive and negative output swing limitations must be examined. Equation 3 provides the maximum values of R_{SENSE} and GAIN to keep the device from hitting the positive swing limitation.

Equation 3.

where

- I
_{MAX}is the maximum current that will flow through R_{SENSE}. - GAIN is the gain of the current sense-amplifier.
- V
_{SP}is the positive output swing as specified in the data sheet. - V
_{REF}is the externally applied voltage on the REF pin.

To avoid positive output swing limitations when selecting the value of R_{SENSE}, there is always a trade-off between the value of the sense resistor and the gain of the device under consideration. If the sense resistor selected for the maximum power dissipation is too large, then it is possible to select a lower-gain device in order to avoid positive swing limitations.

The negative swing limitation places a limit on how small of a sense resistor can be used in a given application. Equation 4 provides the limit on the minimum size of the sense resistor.

Equation 4.

where

- I
_{MIN}is the minimum current that will flow through R_{SENSE}. - GAIN is the gain of the current sense amplifier.
- V
_{SN}is the negative output swing of the device (see Rail-to-Rail Output Swing). - V
_{REF}is the externally applied voltage on the REF pin.

In addition to adjusting the offset and gain, the voltage applied to the REF pin can be slightly increased to avoid negative swing limitations.