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INA296A Datasheet(PDF) 17 Page - Texas Instruments |
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INA296A Datasheet(HTML) 17 Page - Texas Instruments |
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17 / 43 page  8.3.1.4 Wide Fixed Gain Output The INA296x maximum gain error is ±0.01% at room temperature, with a maximum drift of ±1 ppm/°C over the full temperature range of –40°C to +125°C. The INA296x is available in multiple gain options of 10 V/V, 20 V/V, 50 V/V, 100 V/V, and 200 V/V, which the system designer should select based on their desired signal-to-noise ratio and other system requirements, such as the dynamic current range and full-scale output voltage target. 8.3.1.5 Wide Supply Range The INA296x operates with a wide supply range from 2.7 V to 20 V. While the input common-mode voltage range of the INA296x is independent of the supply voltage, the output voltage is bound by the supply voltage applied to the device. The output voltage can range from as low as 20 mV to as high as 200 mV below the supply voltage. 8.4 Device Functional Modes 8.4.1 Adjusting the Output With the Reference Pins Figure 8-1 shows a test circuit for reference-divider accuracy. The INA296x output is configurable to allow for unidirectional or bidirectional operation. + ± REF2 REF1 VS GND OUT VS IN+ IN± Figure 8-1. Test Circuit For Reference Divider Accuracy The output voltage is set by applying a voltage or voltages to the reference voltage inputs, REF1 and REF2. The reference inputs are connected to an internal gain network. There is no operational difference between the two reference pins. The resistor network connected to the two reference pins are designed with ultra-precision and matching. Output is set accurately at the mid-point voltage between the voltages applied to reference voltage inputs, when current-sense input voltage is 0 V as shown in Equation 1 . In most bidirectional applications, one reference input is connected to the positive supply and the other reference input is connected to the negative supply (GND pin) to set the output voltage to mid-supply. VOUT=G× VIN+− VIN− +VREF1+ VREF2 2 (1) 8.4.2 Reference Pin Connections for Unidirectional Current Measurements Unidirectional operation allows current measurements through a resistive shunt in one direction. For unidirectional operation, connect the device reference pins together and then to the negative rail (see the Ground Referenced Output section) or the positive rail (see the VS Referenced Output section). The required differential input polarity depends on the reference input setting. The amplifier output moves away from the referenced rail proportional to the current passing through the external shunt resistor. If the amplifier reference pins are connected to the positive rail, then the input polarity must be negative to move the amplifier output down (towards ground). If the amplifier reference pins are connected to ground, then the input polarity must be positive to move the amplifier output up (towards supply). The following sections describe how to configure the output for unidirectional operation cases. www.ti.com INA296A, INA296B SBOSA04C – MARCH 2022 – REVISED OCTOBER 2023 Copyright © 2023 Texas Instruments Incorporated Submit Document Feedback 17 Product Folder Links: INA296A INA296B |
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Similar Description - INA296A_V04 |
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