ACS752SCA-100 Allegro Microsystems Inc, ACS752SCA-100 Datasheet - Page 6

ACS752SCA-100

Manufacturer Part Number

ACS752SCA-100

Description

SENSOR CURRENT 100A 5V BI 5-CA

Manufacturer

Allegro Microsystems Inc

Series

-r

Datasheet

1.ACS752SCA-100.pdf (9 pages)

Specifications of ACS752SCA-100

Current - Sensing

±100A

Accuracy

±1%

Sensitivity

38 ~ 42 mV/A

Current - Supply

7mA

Sensor Type

Hall Effect

Voltage - Supply

4.5 V ~ 5.5 V

Output

2.5V

Frequency

50kHz

Response Time

8µs

Polarization

Bidirectional

Operating Temperature

-20°C ~ 85°C

Package / Case

5-CA Formed Leads

Lead Free Status / Rohs Status

Contains lead / RoHS non-compliant

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ACS752SCA-100

Definitions of Accuracy Characteristics

Sensitivity (Sens). The change in device output in response to a

1 A change through the primary conductor. The sensitivity is the

product of the magnetic circuit sensitivity (G / A) and the linear

IC amplifier gain (mV/G). The linear IC amplifier gain is pro-

grammed at the factory to optimize the sensitivity (mV/A) for the

full-scale current of the device.

Noise (V

(mV/G) and the noise floor for the Allegro Hall effect linear IC

(≈1 G). The noise floor is derived from the thermal and shot

noise observed in Hall elements. Dividing the noise (mV) by the

sensitivity (mV/A) provides the smallest current that the device is

able to resolve.

Linearity (E

the IC varies in direct proportion to the primary current through

its full-scale amplitude. Nonlinearity in the output can be attrib-

uted to the saturation of the flux concentrator approaching the

full-scale current. The following equation is used to derive the

linearity:

where

Symmetry (E

output from the IC varies in proportion to either a positive or

negative full-scale primary current. The following equation is

used to derive symmetry:

∆ gain = the gain variation as a function of temperature

changes from 25ºC,

% sat = the percentage of saturation of the flux concentra-

tor, which becomes significant as the current being sampled

approaches full-scale ±I

sampled current approximates full-scale ±I

100 1–

IOUT_full-scale amperes

[ {

NOISE

100

Δ gain × % sat (

LIN

SYM



). The product of the linear IC amplifier gain

). The degree to which the voltage output from

2 (V

IOUT

IOUT(Q)

). The degree to which the absolute voltage

IOUT

_+ full-scale amperes – V

= the output voltage (V) when the

– V

_half-scale amperes – V

IOUT

, and

_–full-scale amperes

_full-scale amperes – V

with High Voltage Isolation and a Low-Resistance Current Conductor

IOUT(Q)

Fully Integrated, Hall Effect-Based Linear Current Sensor IC



IOUT(Q)

)

[ {

Quiescent output voltage (V

when the primary current is zero. For a unipolar supply voltage,

it nominally remains at V

olution of the Allegro linear IC quiescent voltage trim, magnetic

hysteresis, and thermal drift.

Electrical offset voltage (V

put from its ideal quiescent value of V

causes.

Magnetic offset error (I

the residual magnetism (remnant field) of the core material. The

magnetic offset error is highest when the magnetic circuit has

been saturated, usually when the device has been subjected to a

full-scale or high-current overload condition. The magnetic offset

is largely dependent on the material used as a flux concentrator.

The larger magnetic offsets are observed at the lower operating

temperatures.

Accuracy (E

tion of the actual output from its ideal value. This is also known

as the total output error. The accuracy is illustrated graphically in

the output voltage versus current chart on the following page.

Accuracy is divided into four areas:

 0 A at 25°C. Accuracy at the zero current flow at 25°C, with-

 0 A over Δ temperature. Accuracy at the zero current flow

 Full-scale current at 25°C. Accuracy at the the full-scale current

 Full-scale current over Δ temperature. Accuracy at the full-

IOUT(Q)

out the effects of temperature.

including temperature effects.

at 25°C, without the effects of temperature.

scale current flow including temperature effects.

= 2.5 V. Variation in V

TOT

). The accuracy represents the maximum devia-

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Allegro MicroSystems, Inc.

Worcester, Massachusetts 01615-0036 U.S.A.

⁄ 2. Thus, V

IOUT(Q)

). The deviation of the device out-

OUT(Q)

). The magnetic offset is due to

). The output of the device

can be attributed to the res-

⁄ 2 due to nonmagnetic

= 5 V translates into

ACS752SCA-100 Allegro Microsystems Inc, ACS752SCA-100 Datasheet - Page 6

ACS752SCA-100

Specifications of ACS752SCA-100

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