RHOPOINT AAT001-10E

Data Sheet
AAT001-10E TMR Angle Sensor
Key Features
• Tunneling Magnetoresistance (TMR) Technology
• Very High Output Signal Without Amplification
• Wide Airgap Tolerance
• Very High Resistance for Extremely Low Power
• Sine and Cosine Outputs Available
• Ultraminiature TDFN6 Package
Typical Applications
• Rotary Encoders
• Automotive Rotary Position Sensors
• Motor Shaft Position Sensors
• Knob Position Sensors
Description
The AAT001-10E angle sensor is a unique array of four Tunneling Magnetoresistance (TMR) elements
rotated at 90 degree intervals in the package and connected in a bridge configuration. The output can be
configured to represent the sine and cosine functions of the magnetic field applied to the sensor. Each TMR
sensor element has a resistance of approximately 1.25 megaohms. Outputs are proportional to the supply
voltage and peak-to-peak output voltages are much larger than other sensor technologies. The part is
packaged in NVE’s 2.5 mm x 2.5 mm x 0.8 mm TDFN6 surface mount package.
Operation
Each sensor elements contain two magnetic layers: a “pinned,” or fixed direction layer; and a movabledirection, or “free” layer. The diagram below illustrates the configuration, using arrows to represent the two
layers:
ay
er
eL
Fr
e
Pinned Layer
Free layer aligns
with Applied
Magnetic Field
Ap
pli
ed
(30 Ma
to gne
20 tic
0 O Fi
e) eld
Angle between Pinned
and Free layers
determines sensor
resistance
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AAT001-10E TMR Sensor
An external magnet provides a saturating magnetic field (30 to 200 Oe) in the plane of the sensor, as
illustrated below for a bar magnet and a split-pole magnet:
The sensor element free layers will align with the external field. As the applied field changes direction, the
angle between the free layer and the pinned layer changes, changing the resistance of TMR elements, which
changes the device output voltages.
Variations in the air gap between the magnet and the sensor element will cause slight changes in the output
depending on the size and strength of the external magnet. The following chart shows a typical sensor output
versus the angle of applied field using a 12 mm diameter, 4 mm thick split-pole ferrite magnet and a 5 V
supply with three different air gaps:
Angle Sensor Output with Variations in Airgap, 5V Supply
2.9
Cosine, 3mm
2.8
Sine, 3mm
Cosine, 4mm
2.7
Sine, 4mm
Cosine, 5mm
2.6
Voltage
Sine, 5mm
2.5
2.4
2.3
2.2
2.1
2
0
24
48 72 96 120 144 168 192 216 240 264 288 312 336 360
Degrees of Rotation
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AAT001-10E TMR Sensor
Functional Block Diagram, Marking, and Pinout
The AAT001-10E package is marked “FCVe.” The device contains four sensing resistors with the pinned
layer 90 degrees apart. The resistors are connected as two half-bridges, providing sine and cosine outputs:
FCVe
Vcc
Vcc
R3 (Cosine)
Cosine Output
R2 (Sine)
Sine Output
Sin
Cos
R4 (Cosine)
R1 (Sine)
GND
GND
Operating Specifications
Parameter
Resistance (Each Resistor)
Peak-to-Peak Signal Level
Required Applied Magnetic Field Strength
Angular Measurement Error
Supply Voltage
Offset Voltage
Temperature Range of Operation
Temperature Coefficient of Resistance
TCOV3
Test Condition
25°C
Operating at 25°C
Operating
Operating
Operating
Operating at 25°C
Operating
Operating
Operating
Min.
0.6
130
30
Typ.
1.25
160
−10
−40
Max.
2.5
180
200
3
5.5
10
125
+0.09
−0.13
Absolute Maximum Ratings
Parameter
Supply Voltage
Storage Temperature
ESD (Human Body Model)
Applied Magnetic Field1
Notes:
1.
2.
3.
4.
Min.
−40
Typ.
Max.
7
170
2,000
Unlimited
Units
Volts
°C
Volts
Oe
Large magnetic fields CANNOT damage NVE sensors.
1 Oe (Oersted) = 1 Gauss in air = 0.1 millitesla = 79.8 A/m.
TCOV is the percent change in voltage signal over temperature with a constant supply voltage.
Resistance is specified with the saturating magnetic field applied.
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Units
MΩ
mV/V
Oe2
Angular Degrees
V
mV/V
°C
%/°C
%/°C
AAT001-10E TMR Sensor
Package Drawing – TDFN6 2.5 mm x 2.5 mm
RoHS
COMPLIANT
Notes:
• Dimensions in mm.
• The center pad may be left floating or connected to ground.
The information provided by NVE Corporation is believed to be accurate. However, no responsibility is
assumed by NVE Corporation for its use, nor for any infringement of patents, nor rights or licenses granted
to third parties, which may result from its use. No license is granted by implication, or otherwise, under any
patent or patent rights of NVE Corporation. NVE Corporation does not authorize, nor warrant, this product
for use in life support devices or systems or other critical applications.
Specifications are subject to change without notice.
SB-00-024; March 11, 2009
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