Double Differential Magneto Resistor FP 425 L 90 Version 2.0 // A C 0.55 0.45 0.04 C 1.2 1.2 1.1 1.1 0.65 0.55 3) 2) 0.2 max. 0.4 E 3.3 3.1 2.06 1.86 0.396 0.390 0.55 0.45 0.2 max. (0.13) E 1 4 2 5 3 6 D 1...6 pin connection 1 0.2 A B R 1-2 B 5 R 2-3 B R5-6 3 0.789 3) 0.783 (0. 8) 1) Punchingpoints 4 R4-5 2 2.96 2.76 3.75 3.55 4.2 4.0 (0.33) <-0.1 0.045 0.025 Incl. lacquer-cover 6 0.2 B 0.04 D 5.55 5.45 6.2 6.0 1) If delivery as tape, seperate at punching-points. 2) 6 fingers on both sides free of lacquer 3) Center-distance between the Diff.-Systems. Approx. weight 0.2 g GPX06897 Dimensions in mm Features Typical Applications * * * * * * * * * * * Double differential magneto resistor on one carrier Accurate intercenter spacing High operating temperature range High output voltage Compact construction Available in strip form for automatic assembly Optimized intercenter spacing on modules m = 0.5 mm * Reduced temperature dependence of offset voltage Data Sheet 1 Incremental angular encoders Detection of sense of rotation Detection of speed Detection of position 2000-07-01 FP 425 L 90 Type Ordering Code FP 425 L 90 Q65425-L90 (singular) FP 425 L 90 Q65425-L0090E001 (taped) 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 silicon substrate. Contact to the magneto resistors is achieved using a copper/polyimide carrier film known as TAB. The basic resistance of each of the magneto resistors is 90 . The two series coupled pairs of magneto resistor are actuated by an external magnetic field or can be biased by a permanent magnet and actuated by a soft iron target. Data Sheet 2 2000-07-01 FP 425 L 90 Absolute Maximum Ratings Parameter Symbol Limit Values Unit Operating temperature - 40 / + 175 C - 40 / + 185 C Power dissipation1) TA Tstg Ptot 800 mW Supply voltage (B = 0.2 T, TA = 25 C) VIN 8 V Thermal conductivity -attached to heatsink -in still air Gthcase GthA 20 2 mW/K mW/K Nominal supply voltage (B = 0.2 T)2) VINN 5 V Basic resistance (I < 1 mA, B = 0 T) R01-3 160 - 280 Center symmetry3) M 3 % Relative resistance change (R0 = R01-3, R04-6 at B = 0 T) B = 0.3 T4) B=1T RB/R0 Temperature coefficient B=0T B = 0.3 T B=1T TCR Storage temperature Electrical Characteristics (TA = 25 C) 1) 2) 3) - > 1.7 >7 - 0.16 - 0.38 - 0.54 %/K %/K %/K T = Tcase T = Tcase, T < 80 C M R 01 - 2 - R 02 - 3 x 100% for R01-2 > R02-3 = -------------------------------- M R 04 - 5 - R 05 - 6 x 100% for R04-5 > R05-6 = -------------------------------- R 01 - 2 R 04 - 5 4) 1 T = 1 Tesla = 104 Gauss Data Sheet 3 2000-07-01 FP 425 L 90 Max. power dissipation versus temperature Ptot = f(T), T = Tcase, TA Maximum supply voltage versus temperature VIN = f(T), B = 0.2 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 Data Sheet 4 2000-07-01