ABL005-00E - NVE - Datasheet.Live

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GT Sensors

Precision Gear Tooth and Encoder Sensors

NVE’s GT Sensor products are based on a Low Hysteresis GMR sensor material and are designed

for use in industrial speed applications where magnetic detection of gear teeth and magnetic encoder

wheels is required.

GT Sensors with both analog and digital outputs are available. The analog parts feature the large signal

and robust characteristics which NVE’s GMR materials are known for (NVE’s GMR sensors are not

damaged by extremely large magnetic fields). The sensor elements themselves are designed to provide

usable output with even the smallest gear teeth. Single and double output versions are available; the

second output is phase shifted with respect to the first, to provide quadrature for determining direction.

The digital sensors take advantage of the high

performance characteristics of GMR sensors to

provide a 50% duty cycle output with a wide

tolerance in airgap and temperature variations.

GT Sensors are available in low-profile MSOP8,

TDFN SO8, and TDFN6 packages, in order to

fit into the tightest possible spaces. An

evaluation kit is available, containing a selection

of sensors, magnets, and PCBs, so that the user

can test the parts in their application

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ABL Sensors

Single/Double Bridge Gear Tooth And Encoder Sensors

Features:

• Large Airgap

• Direct Analog Output

• DC (Zero Speed) Operation

• Sine / Cosine Outputs

• Precise Spacing and Phase Shifting Between Sensor Elements

• Excellent Temperature and Volt a ge Perf o rmance

• Small, Low-Profile Surface Mount Packages

Applications:

• Linear and Angular Speed Sensing

• Linear and Angular Positio n Sensing

• Direction Detection

Description:

The ABL-Series GT Sensors are differential sensor elements that provide an analog sinusoidal output

signal when used with a bias magnet and gear tooth or a magnetic encoder. These chips use NVE’s

proprietary GMR sensor elements featuring an extremely large output signal from the raw sensor

element, which is stable over the rated temperature and voltage range. As a result, ABL-Series GT

Sensors feature excellent airgap performance and an extremely stable operating envelope as well as the

robust reliability characteristics that NVE sensors are known for.

Three different standard spacings are available for use with fine and coarse pitch encoders and gear

teeth. Both single bridge and double bridge configurations are also available. Double bridges are used

to generate sine/cosine outputs. In addition to the standard spacings, NVE can provide custom sp acings

and multiple sensor elements tailored to the individual customer’s application for a nominal design and

tooling charge. Contact NVE for further details.

For digital output applications, these sensors can be used with NVE’s DD001-12 signal processing IC

which converts their output into a 50% duty cycle modulated current signal. This IC allows placement

of the ABL sensor in a very small housing with wires running from the sensor to the signal processing

IC in a remote location. Thus ABL-Series sensors can be used in M8 and smaller housings.

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Specifications:

Parameter Min Typ Max Unit

Single Bridge Resistance at 25°C 4K 5K 7K Ohms

Input Voltage <11 301 Volts

Operating Temperature Range -50 +150 °C

Offset Voltage -4 +4 mV/V

Linear Range ±5 ±100 Oe

Linearity of Output 98 %2

Hysteresis 2 %2

Saturation of GMR Sensor Elements -180 +180 Oe3

Single Resistor Sensitivity .04 %∆R/Oe4

Max Output 80 mV/V

Temperature Coefficient of Resistance +0.11 %/°C

ESD 400 V5

Storage Temperature Range -65 +170 °C

Notes:

1. ABL-Series sensors have a purely ratiometric output. They will operate with input volta ges of 0.1 V or lowe r. The output

signal will scale proportionally with the input voltage. Maximum voltage will be limited by the power dissipati on

allowable in the package and user installation. See the package section for more details.

2. Linearity and Hysteresis measured across linear operating range, unipolar operation.

3. Application of a magnetic field in excess of this value will saturate the GMR sensor elements and no further output will be

obtained. No damage occurs to the sensor elements when saturated. NVE GMR sensors will not be damaged by any large

magnetic field.

4. Percent change in resistance with application of 1 Oersted of magnetic field; corresponds to an 8% change in resistance

with 200 Oersteds of applied magneti c fiel d (1 Oersted = 1 Gauss in air, or 0.1 milliTesla).

5. Pin-to-pin voltage , Huma n B od y M o del fo r ESD.

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IC Drawings:

0.250

1.000

0.5000.250

0.1250.125

0.500

0.250

1.000 0.500

0.5000.250

- All dimensions in mm

- All resistors are 5kΩ

- Sensor elements are located symmetrically about the center of the IC.

0.125

0.140

Center of Die

and Package

ABL014

ABL015

ABL004

ABL005

Note: ABL006 ABL016 Sensor Element Size and Spacing Not Shown

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Schematics:

Part Numbers and Configurations:

Part Number Single or Dual

Bridge

Element

Spacing

(Microns)

Phase Shift

Between

Bridges

(Microns) Package

Marking

ABL004-00 Single 1000 NA FDB

ABL005-00 Single 500 NA FDC

ABL006-00 Single 300 NA FDL

ABL014-00 Dual 1000 500 FDD

ABL015-00 Dual 500 250 FDF

ABL016-00 Dual 300 150 FDM

ABL004-10 Single 1000 NA FDG

ABL005-10 Single 500 NA FDH

ABL006-10 Single 300 NA FDN

ABL014-10 Dual 1000 500 FDJ

ABL015-10 Dual 500 250 FDK

ABL016-10 Dual 300 150 FDP

OUT+

GND

VCC

OUT-

ABL004, ABL005, ABL006

Schematic

OUT+1

GND1

VCC1

OUT-1

R3 R6

OUT+2

GND2

VCC2

OUT-2

ABL014, ABL015, ABL016

Schematic

(Dual Bridge)

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Packages:

The ABL-Series parts are available in MSOP8 and TDFN6 packages. Please see the package drawing

section in the Appendix for dimensions. Please note that for dual differential sensors in the TDFN

package the power and ground connections for both bridges are common.

Pin Configuration:

MSOP8 Package

TDFN6 Package

Direction of Sensitivity

ABL004-00,

ABL005-00,

ABL006-00

Out+

No Connect

Ground

VCC

Out-

No Connect No Connect

No Connect ABL014-00,

ABL015-00,

ABL016-00

Ground1

Out-1

VCC1

VCC2

Ground2

Out+1 Out-2

Out+2

Direction of Sensitivity

ABL004-10,

ABL005-10,

ABL006-10

Out+

Gnd

VCC

Out-

No Connect No Connect ABL014-10,

ABL015-10,

Ground1,

Ground2

Out+1

VCC1

VCC2

Out-2

Out-1 Out+2

ABL006-10 ABL016-10

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AKL Sensors

Digital Output Gear Tooth And Encoder Sensors

Features:

• Large Airgap

• 50% Duty Cycle

• DC (Zero Speed) Operation

• Precise Spacing Between Sensor Elements

• Excellent Temperature and Volt a ge Perf o rmance

• Small, Low-Profile Surface Mount Package

Applications:

• Anti-lock Brake System Sensors

• Transmission Speed Sensors

• Industrial Linear and Angular Speed Sensing

• Linear and Angular Positio n Sens ing

Description:

NVE offers these products specifically for use as sensors for gear tooth wheels or magnetic encoders

with a digital output signal. The pulse output from the sensor corresponds with the gear teeth passing

in front of it. When a gear tooth or magnetic pole is in front of the sensor, the sensor’s output goes

high; when the gear tooth or magnetic pole moves away, the output returns to low. This repeats at

every tooth/pole resulting in a pulse train output that provides speed information from the gear or

encoder. Three part numbers are currently available: the AKL001-12 is designed for gear teeth or

encoders with a pitch of 2.5 to 6 mm, the AKL002-12 for a pitch of 1 to 2.5 mm, and the AKL003-12

for a pitch of 0.6 t o 1. 5 m m.

In order to minimize the number of wires leading to the sensor, the part is configured as a two-wire

device. The two output states are indicated with a change of current through the part. Therefore, when

the part is in the dig ital low state, current is about 3 mA. When th e part is in the digital high state, the

current increases to about 10 mA. If necessary, the two-wire output of the AKL-Series parts can be

easily converted to a three-wire current sinking output with the circuit shown in the GT Sensor

applications section.

The parts are rated for the full automotive and industrial temperature range, -40°C to +150°C. They

feature reverse battery protection and have an operational voltage range of 4.5V to 36V. They operate

from DC to 10 kHz. The parts are available in low-profile, surface mount TDFN SO8 packages.

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Specifications:

Parameter Min Typ Max Unit

Input Voltage 4.5 36 Volts1

Supply Current in Off State

(Input Voltage=12V) 3.2 4.0 4.8 mA2

Supply Current in On State

(Input Voltage=12V) 7.0 8.0 9.0 mA2

Output Duty Cycle 40 50 60 %

Operating Temperature Range -40 +150 °C

AKL001-12 Airgap, Over Full Temperature and

Voltage Range4 1.0 3.5 mm

AKL002-12 Airgap, Over Full Temperature and

Voltage Range4 1.0 2.5 mm

AKL003-12 Airgap, Over Full Temperature and

Voltage Range4 1.0 2.0 mm

Frequency of Operation 0 10K Hz

ESD 2000 V3

Absolute Maximum Ratings

Parameter Limit

Supply Voltage 45V

Reverse Battery Voltage -60V

Continuous Output Current 16mA

Junction Temperature Range -40°C to +170°C

Storage Temperature Range -65°C to +170°C

Notes:

1. The supply voltage must appear across the power and ground terminals of the part. Any additional voltage drop due to the

presence of a series resistor is not included in this specification.

2. Supply currents can be factory progra mm ed to different levels, for exam ple 3 mA and 6 mA, or 7 mA and 14 mA;

contact NVE for details.

3. Pin-to-pin voltage , Huma n B od y M o del fo r ESD

4. Airgap measured with standard ferrous gear tooth; contact NVE for details.

Current

Output

(mA)

Time

Signal Output

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IC Drawings:

The AKL-Series products use the ABL sensor elements described earlier in this section. The AKL001-

12 part uses the ABL004 sensor element, the AKL002-12 uses the ABL005 sensor element, and the

AKL003-12 uses the ABL006 sensor element. Please see the IC drawings in the ABL-Series section

for more information.

Part Numbers and Configurations:

Part Number Single or Dual

Bridge

Element

Spacing

(Microns) Marking

AKL001-12 Single 1000 Part Number

AKL002-12 Single 500 Part Number

AKL003-12 Single 300 Part Number

Schematic:

A block diagram of the AKL-Series part s is sh ow n bel o w:

Packages:

The AKL-Series parts are available in the TDFN8 SO8 package. Please see the package drawing

section in the Appendix for di mensi o ns.

Voltage

Regulator

GMR

Bridge

EEPROM

Offset

Detector

Gain

Switching

Current

Source

Current Level

3.3V

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Pin Configuration:

TDFN8-SO8 Package

TEST

VCC

GND

BRIDGE-

TEST

BRIDGE+

AKL001-12

AKL002-12

AKL003-12

Sensitivity

Note: Bridge + and Bridge - are provided for

analysis purposes only. NVE does not

recommend connecting these pins in a

production product for ESD and loading

reasons. Also, all pins labeled “Test” must be

floating, i.e., not connected to each other or

any other circuit node.