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INA290 Datasheet(PDF) 17 Page - Texas Instruments |
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INA290 Datasheet(HTML) 17 Page - Texas Instruments |
17 / 27 page Gain Error (%) = 100 x (Gain Error Factor í 1) IN+ IN± OUT V CM - + Buffer Current Feedback V S GND RL R1 R1 Bias Load R SENSE I SENSE R IN R IN C IN f 3dB = 4ŒRINCIN 1 17 INA290 www.ti.com SBOS961 – JUNE 2020 Product Folder Links: INA290 Submit Documentation Feedback Copyright © 2020, Texas Instruments Incorporated Application Information (continued) (1) Design example with 10-A full-scale current with maximum output voltage set to 5 V. Table 3. RSENSE Selection and Power Dissipation (1) PARAMETER EQUATION RESULTS AT VS = 5 V INA290A1 INA290A2 INA290A3 INA290A4 INA290A5 G Gain 20 V/V 50 V/V 100 V/V 200 V/V 500 V/V VSENSE Ideal differential input voltage (Ignores swing limitation and power supply variation.) VSENSE = VOUT / G 250 mV 100 mV 50 mV 25 mV 10 mV RSENSE Current sense resistor value RSENSE = VSENSE / IMAX 25 mΩ 10 mΩ 5 mΩ 2.5 mΩ 1 mΩ PSENSE Current-sense resistor power dissipation RSENSE x IMAX2 2.5 W 1 W 0.5W 0.25 W 0.1 W 8.1.2 Input Filtering NOTE Input filters are not required for accurate measurements using the INA290, and use of filters in this location is not recommended. If filter components are used on the input of the amplifier, follow the guidelines in this section to minimize the effects on performance. Based strictly on user design requirements, external filtering of the current signal may be desired. The initial location that can be considered for the filter is at the output of the current-sense amplifier. Although placing the filter at the output satisfies the filtering requirements, this location changes the low output impedance measured by any circuitry connected to the output voltage pin. The other location for filter placement is at the current-sense amplifier input pins. This location also satisfies the filtering requirement, but the components must be carefully selected to minimally impact device performance. Figure 38 shows a filter placed at the input pins. Figure 38. Filter at Input Pins External series resistance provides a source of additional measurement error, so keep the value of these series resistors to 10 Ω or less to reduce loss of accuracy. The internal bias network shown in Figure 38 creates a mismatch in input bias currents (see Figure 15, Figure 16, and Figure 17) when a differential voltage is applied between the input pins. If additional external series filter resistors are added to the circuit, a mismatch is created in the voltage drop across the filter resistors. This voltage is a differential error voltage in the shunt resistor voltage. In addition to the absolute resistor value, mismatch resulting from resistor tolerance can significantly impact the error because this value is calculated based on the actual measured resistance. The measurement error expected from the additional external filter resistors can be calculated using Equation 4, where the gain error factor is calculated using Equation 5. (4) |
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