ATS643LSH-I1TN Allegro Microsystems Inc, ATS643LSH-I1TN Datasheet - Page 9

ATS643LSH-I1TN

Manufacturer Part Number

ATS643LSH-I1TN

Description

IC SENSOR GEAR TOOTH 4-SIP

Manufacturer

Allegro Microsystems Inc

Type

Special Purposer

Datasheet

1.ATS643LSH-I1TN.pdf (15 pages)

Specifications of ATS643LSH-I1TN

Sensing Range

65% Trip, 35% Release

Voltage - Supply

4 V ~ 24 V

Current - Supply

8mA

Output Type

Digital, Open Collector

Features

Gear Tooth Type

Operating Temperature

-40°C ~ 150°C

Package / Case

4-SIP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Current - Output (max)

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ATS643LSH

Hall Technology. The ATS643 contains a single-chip differ-

ential Hall effect sensor IC, a samarium cobalt pellet, and a flat

ferrous pole piece (concentrator). As shown in figure 1, the Hall

IC supports two Hall elements, which sense the magnetic profile

of the ferrous gear target simultaneously, but at different points

(spaced at a 2.2 mm pitch), generating a differential internal

analog voltage (V

the digital output signal.

The Hall IC is self-calibrating and also possesses a tempera-

ture compensated amplifier and offset cancellation circuitry. Its

voltage regulator provides supply noise rejection throughout the

operating voltage range. Changes in temperature do not greatly

affect this device due to the stable amplifier design and the offset

rejection circuitry. The Hall transducers and signal processing

electronics are integrated on the same silicon substrate, using a

proprietary BiCMOS process.

Target Profiling During Operation. When proper power is

applied to the IC, it is capable of providing digital information

that is representative of the mechanical features of a rotating

gear. The waveform diagram in figure 3 presents the automatic

translation of the mechanical profile, through the magnetic

profile that it induces, to the digital output signal of the ATS643.

No additional optimization is needed and minimal processing

circuitry is required. This ease of use reduces design time and

Figure 1. Relative motion of the target is detected by the dual Hall ele-

ments mounted on the Hall IC.

Figure 2. This left-to-right (pin 1 to pin 4) direction of target rotation

results in a high output signal when a tooth of the target gear is nearest

the face of the package (see figure 3). A right-to-left (pin 4 to pin 1) rota-

tion inverts the output signal polarity.

Hall Effect Device

Hall Element 2

Dual-Element

Target (Gear)

(Pin n >1 Side)

Rotating Target

PROC

) that is processed for precise switching of

South Pole

North Pole

Gear Tooth Sensor IC with Continuous Update

(Pin 1 Side)

(Concentrator)

Element Pitch

Hall Element 1

Hall IC

Pole Piece

Back-biasing

Rare-earth Pellet

Case

Functional Description

Self-Calibrating, Zero-Speed Differential

Branded Face

of Package

incremental assembly costs for most applications.

Determining Output Signal Polarity. In figure 3, the top

panel, labeled Mechanical Position, represents the mechanical

features of the target gear and orientation to the device. The bot-

tom panel, labeled IC Output Signal, displays the square wave-

form corresponding to the digital output signal that results from

a rotating gear configured as shown in figure 2. That direction of

rotation (of the gear side adjacent to the package face) is: perpen-

dicular to the leads, across the face of the device, from the pin 1

side to the pin 4 side. This results in the IC output switching from

low, I

rising mechanical edge, as detected by the IC) passes the package

face. In this configuration, the device output current switches to

its high polarity when a tooth is the target feature nearest to the

package. If the direction of rotation is reversed, so that the gear

rotates from the pin 4 side to the pin 1 side, then the output polar-

ity inverts. That is, the output signal goes high when a falling

edge is detected, and a valley is the nearest to the package. Note,

however, that the polarity of I

sense resistor, R

Continuous Update of Switchpoints. Switchpoints are the

threshold levels of the differential internal analog signal, V

at which the device changes output signal polarity. The value of

Figure 3. The magnetic profile reflects the geometry of the target, allow-

ing the ATS643 to present an accurate digital output response.

PROC

CC(Low)

is directly proportional to the magnetic flux density, B,

Mechanical Position (Target movement pin 1 to pin 4)

Target Magnetic Profile

Package Orientation to Target

IC Internal Differential Analog Signal, V

IC Internal Switch State

IC Output Signal, I

This tooth

sensed

, to high, I

OP(#1)

Pin 4

Side

SENSE

Off

(see Operating Characteristics table).

CC(High)

OUT

RP(#1)

Package Branded Face

115 Northeast Cutoff

1.508.853.5000; www.allegromicro.com

Allegro MicroSystems, Inc.

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

OUT

(Gear)

Package

Target

, as the leading edge of a tooth (a

depends on the position of the

OP(#2)

Off

PROC

Pin 1

Side

This tooth

sensed

PROC

ATS643LSH-I1TN Allegro Microsystems Inc, ATS643LSH-I1TN Datasheet - Page 9

ATS643LSH-I1TN

Specifications of ATS643LSH-I1TN

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