MLX90363 MY2016
Datasheet Addendum
Page 1 of 5
REVISION 001 – JAN 2017
1. Introduction
This document is an addendum to the datasheet of MLX90363 covering the ordering codes introduced with
the design change MY2016 where the Z-field component has been disabled. The MLX90363 MY2016 is
sensitive to the flux density applied parallel to the IC surface i.e. the 2 components of the flux density
applied to the IC (i.e. B
X
, B
Y
).
2. Ordering Information (MY2016)
Product
Code
Temperature
Code
Package Code MY2016
Option Code
Packing Form
Code
MY2015 Option Code
For reference only
MLX90363 E DC ABB-500 RE ABB-000
MLX90363 K DC ABB-500 RE ABB-000
MLX90363 L DC ABB-500 RE ABB-000
MLX90363 E GO ABB-500 RE ABB-000
MLX90363 K GO ABB-500 RE ABB-000
MLX90363 L GO ABB-500 RE ABB-000
Legend:
Temperature Code: E: from -40 Deg.C to 85 Deg.C
K: from -40 Deg.C to 125 Deg.C
L: from -40 Deg.C to 150 Deg.C
Package Code: “DC” for SOIC-8 package
“GO” for TSSOP-16 package (dual die)
Option Code: ABB-xxx: die version
xxx-000: 3D sensor (XYZ). See MLX90363 Datasheet
xxx-500: 2D sensor (XY only, no Z-field)
Packing Form: “RE” for Reel
“TU” for Tube
Ordering Example: MLX90363LGO-ABB-500-RE
Table 1 - Legend
MLX90363 MY2016
Datasheet Addendum
Page 2 of 5
REVISION 001 – JAN 2017
10. Accuracy Specification
DC Operating Parameters at V
DD
= 5V (5V Application) or V
DD
= 3.3V (3V3 Application) and for T
A
as specified
by the Temperature suffix (E, K or L).
Parameter Symbol Test Conditions Min Typ Max Units
Mismatch on the Raw Signals
X, Y and Z
SMISM
XY
SMISM
XZ
SMISM
YZ
T
A
= 25 Deg.C
Between X and Y
Between X and Z
Between Y and Z
-1
N/A
N/A
1
N/A
N/A
%
%
%
Magnetic Angle Phase Error
ORTH
XY
ORTH
XZ
ORTH
YZ
T
A
= 25 Deg.C
Between X and Y
Between X and Z
Between Y and Z
-0.3
N/A
N/A
0.3
N/A
N/A
Deg.
Deg.
Deg.
Intrinsic Linearity Error
(1)
Le
T
A
= 25 Deg.C
Magnetic Angle
∠
XY
Magnetic Angle
∠
XZ,
∠
YZ
-1
N/A
1
N/A
Deg.
Deg.
Thermal Drift of Sensitivity
Mismatch
(2)
XY axis
Temperature suffix E and K
Temperature suffix L
XZ axis, YZ axis
-0.5
-0.7
N/A
0.5
0.7
N/A
%
%
Thermal Drift of Magnetic
Angle Phase Error
XY axis
XZ axis, YZ axis
-0.1
N/A
0.1
N/A
Deg
1
The Intrinsic Linearity Error is a consolidation of the IC errors (offset, sensitivity mismatch, phase error) taking into
account an ideal rotating field. Once associated to a practical magnetic construction and the associated mechanical
and magnetic tolerances, the output linearity error increases.
2
For instance, Thermal Drift of Sensitivity Mismatch equal ± 0.4 % yields to max. ± 0.1 Deg. error. See Front End
Application Note for more details