INFINEON Q65110-L80F

Double Differential Magneto Resistor
FP 410 L (4 x 80) FM
Dimensions in mm
Features
Typical applications
• Double differential magneto resistor
on same carrier
• Accurate intercenter spacing
• High operating temperature range
• High output voltage
• Compact construction
• Available in strip form for automatic
assembly
•
•
•
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Incremental angular encoders
Detection of sense of rotation
Detection of speed
Detection of position
Type
Ordering Code
FP 410 L (4×80) FM
Q65410-L80E (taped)
FP 410 L (4×80) FM
Q65110-L80F (singular)
Semiconductor Group
1
07.96
FP 410 L (4 x 80) FM
The double differential magneto resistor assembly consists of two pairs of magneto
resistors, (L-type InSb/NiSb semiconductor resistors whose resistance value can be
magnetically controlled), which are fixed to a ferrite substrate. Contact to the magneto
resistors is achieved using a copper/polyimide carrier film known as Micropack.
The basic resistance of each of the magnetic resistors is 80 Ω. The two series coupled
pairs of magnetic resistors are actuated by an external magnetic field or can be biased
by a permanent magnet and actuated by a soft iron target.
Semiconductor Group
2
FP 410 L (4 x 80) FM
Maximum ratings
Parameter
Symbol
Value
Unit
Operating temperature
TA
Tstg
Ptot
VIN
– 40 / + 175
°C
– 40 / + 185
°C
1000
mW
8
V
Storage temperature
Power dissipation1)
Supply voltage2) (B = 0.3 T)
Thermal conductivity
–attached to heatsink
–in still air
mW/K
Gth case
Gth A
≥ 20
2
Basic resistance
(I ≤ 1 mA; B = 0 T)
R01-3
R04-6
110…220
Ω
Center symmetry3)
M
RB/R0
≤6
%
> 1.7
–
Characteristics (TA = 25 °C)
Relative resistance change
(R = R01-3, R04-6 at B = 0 T)
B = ± 0.3 T4)
B=±1T
Temperature coefficient
B=0T
B = ± 0.3 T
B=±1T
>7
TCR
– 0.16
– 0.38
– 0.54
1) Corresponding to diagram Ptot = f(Tcase)
2) Corresponding to diagram VIN = f(Tcase)
M
R 01 – 2 – R 02 – 3
= ------------------------------- × 100% for R01-2 > R02-3
M
R 04 – 5 – R 05 – 6
= ------------------------------- × 100% for R04-5 > R05-6
3)
R 01 – 2
R 04 – 5
4) 1 T = 1 Tesla = 104 Gauss
Semiconductor Group
3
%/K
%/K
%/K
FP 410 L (4 x 80) FM
Max. power dissipation versus
temperature
Ptot = f(T), T = Tcase, TA
Maximum supply voltage
versus temperature
VIN 1-3, 4-6 = f(T), B = 0.3 T
Typical MR resistance
versus temperature
R01-3, 4-6 = f(TA), B = Parameter
Typical MR resistance
versus magnetic induction B
R01-3, 4-6 = f(B), TA = 25 °C
Semiconductor Group
4