AMC1305L25-Q1 Datasheet, PDF(27/38 Page) Texas Instruments – High-Precision, Reinforced Isolated Delta-Sigma Modulators

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AMC1305L25-Q1 Datasheet, PDF (27/38 Pages) Texas Instruments – High-Precision, Reinforced Isolated Delta-Sigma Modulators

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www.ti.com

AMC1305L25-Q1, AMC1305M05-Q1, AMC1305M25-Q1

SBAS797 â FEBRUARY 2017

Typical Applications (continued)

9.2.2 Isolated Voltage Sensing

The AMC1305-Q1 is optimized for usage in current-sensing applications using low-impedance shunts. However,

the device can also be used in isolated voltage-sensing applications if the impact of the (usually higher)

impedance of the resistor used in this case is considered.

High Voltage

Potential

AVDD

AMC1305-Q1

AINP

IIB

RID

AINN

R3'

R4'

R5'

Ã» Modulator

AGND

VCM = 2 V

GND

Figure 56. Using AMC1305-Q1 for Isolated Voltage Sensing

9.2.2.1 Design Requirements

Figure 56 shows a simplified circuit typically used in high-voltage sensing applications. The high impedance

resistors (R1 and R2) are used as voltage dividers and dominate the current value definition. The resistance of

the sensing resistor R3 is chosen to meet the input voltage range of the AMC1305-Q1. This resistor and the

differential input impedance of the device (the AMC1305x25-Q1 is 25 kÎ©, the AMC1305M05-Q1 is 5 kÎ©) also

create a voltage divider that results in an additional gain error. With the assumption of R1, R2, and RIN having a

considerably higher value than R3, the resulting total gain error can be estimated using Equation 4, with EG

being the gain error of the AMC1305-Q1.

E Gtot

R IN

(4)

This gain error can be easily minimized during the initial system level gain calibration procedure.

9.2.2.2 Detailed Design Procedure

As indicated in Figure 56, the output of the integrated differential amplifier is internally biased to a common-mode

voltage of 2 V. This voltage results in a bias current IIB through the resistive network R4 and R5 (or R4' and R5')

used for setting the gain of the amplifier. The value range of this current is specified in the Electrical

Characteristics table. This bias current generates additional offset error that depends on the value of the resistor

R3. Because the value of this bias current depends on the actual common-mode amplitude of the input signal (as

shown in Figure 57), the initial system offset calibration does not minimize its effect. Therefore, in systems with

high accuracy requirements TI recommends using a series resistor at the negative input (AINN) of the AMC1305-

Q1 with a value equal to the shunt resistor R3 (that is R3' = R3 in Figure 56) to eliminate the effect of the bias

current.

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Product Folder Links: AMC1305L25-Q1 AMC1305M05-Q1 AMC1305M25-Q1

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