0-10mA Magnetic Field Sensors 9

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Part	Manufacturer	Sensors or Transducers Type	Mounting Feature	No. of Terminals	Output Type	Package Shape or Style	Output Range	Package Body Material	Minimum Range Of Magnetic Field	Maximum Supply Voltage	Maximum Output Current	Technology	Input Mode	Maximum Magnetic Field Range	Hysteresis	Body Length/Diameter	Body Width	Power Supplies (V)	Output Circuit Type	Package Equivalence Code	No. of Axes	Sub-Category	Body Height	Minimum Supply Voltage	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	Termination Type	Output (V)	Maximum Operating Current	Output Polarity	Additional Features	Housing	JESD-609 Code
TLE49662KHTSA1	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT	6	DIGITAL CURRENT	RECTANGULAR	0-10mA	PLASTIC/EPOXY	-9.5 mT	24 V	10 A	BIPOLAR	BIPOLAR	9.5 mT	15 mT	2.9 mm	1.6 inch	2.7/18		TSOP6,.11,37		Other Sensors	1.1 mm	2.7 V			TIN	SOLDER	OPEN-COLLECTOR	7 mA	INVERTING	DUAL OUTPUT	PLASTIC	e3
TLE49663KHTSA1	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT	6	DIGITAL CURRENT	RECTANGULAR	0-10mA	PLASTIC/EPOXY	-4.2 mT	18 V	10 A			4.2 mT	5 mT	2.9 mm	1.6 inch	2.7/18	SINGLE-ENDED	TSOP6,.11,37		Other Sensors	1.1 mm	2.7 V			TIN	SOLDER	SINGLE-ENDED	7 mA			PLASTIC	e3
TLE4966V1KHTSA1	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT		CURRENT OUTPUT	RECTANGULAR	0-10mA		-4.1 mT	32 V	10 A			4.1 mT	5 mT	2.9 mm	1.6 inch						1.1 mm	3.5 V			TIN	SOLDER		7.5 mA			PLASTIC	e3
TLE4966-3K	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT		DIGITAL CURRENT	RECTANGULAR	0-10mA		-4.2 mT	18 V	10 A			4.2 mT	5 mT	2.9 mm	1.6 inch						1.1 mm	2.7 V			TIN	SOLDER		7 mA			PLASTIC	e3
TMAG5110A2AQDBVR	Texas Instruments	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT	5	DIGITAL CURRENT	RECTANGULAR	0-10mA	PLASTIC/EPOXY	-2.6 mT	38 V	10 A		BIPOLAR(LATCHED)	2.6 mT	2.75 mT	2.9 mm	1.6 inch		OPEN-DRAIN	TSOP5/6,.11,37	2		1.1 mm	2.5 V	125 Cel	-40 Cel	MATTE TIN	SOLDER	OPEN-DRAIN	8 mA			PLASTIC	e3
TMAG5110A2AQDBVT	Texas Instruments	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT	5	DIGITAL CURRENT	RECTANGULAR	0-10mA	PLASTIC/EPOXY	-2.6 mT	38 V	10 A		BIPOLAR(LATCHED)	2.6 mT	2.75 mT	2.9 mm	1.6 inch		OPEN-DRAIN	TSOP5/6,.11,37	2		1.1 mm	2.5 V	125 Cel	-40 Cel	MATTE TIN	SOLDER	OPEN-DRAIN	8 mA			PLASTIC	e3
SP000997990	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT		CURRENT OUTPUT	RECTANGULAR	0-10mA		-4.1 mT	32 V	10 A			4.1 mT	5 mT	2.9 mm	1.6 inch						1.1 mm	3.5 V				SOLDER		7.5 mA			PLASTIC
TLE4966-2K	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT		DIGITAL CURRENT	RECTANGULAR	0-10mA		-9.5 mT	24 V	10 A			9.5 mT	15 mT	2.9 mm	1.6 inch						1.1 mm	2.7 V			TIN	SOLDER		7 mA		DUAL OUTPUT	PLASTIC	e3
TLE4966V-1K	Infineon Technologies	MAGNETIC FIELD SENSOR,HALL EFFECT	SURFACE MOUNT		CURRENT OUTPUT	RECTANGULAR	0-10mA		-4.1 mT	32 V	10 A			4.1 mT	5 mT	2.9 mm	1.6 inch						1.1 mm	3.5 V			TIN	SOLDER		7.5 mA			PLASTIC	e3

Magnetic Field Sensors

Magnetic field sensors are electronic devices that measure the strength and direction of magnetic fields and convert them into a measurable electrical signal. They are commonly used in a variety of applications, such as navigation, automotive, industrial, and medical.

Magnetic field sensors work by detecting the change in magnetic field strength or direction as a magnetic field interacts with a sensing element. The sensing element is typically a small piece of magnetic material, such as a magnetoresistive or Hall-effect sensor, which generates a measurable electrical signal proportional to the strength and direction of the magnetic field.

There are several types of magnetic field sensors, including Hall-effect sensors, magnetoresistive sensors, and fluxgate sensors. Hall-effect sensors work by measuring the change in voltage across a thin strip of semiconductor material as it is exposed to a magnetic field. Magnetoresistive sensors work by measuring the change in resistance of a thin film of magnetic material as it is exposed to a magnetic field. Fluxgate sensors work by using a coil to detect the magnetic field and a feedback circuit to measure the strength and direction of the field.