Magnetic Sensors - Linear, Compass (ICs)
Magnetic Sensors - Linear, Compass (ICs) - Category Overview
Definition of Magnetic Sensors - Linear, Compass (ICs)
Magnetic Sensors - Linear, Compass (ICs) are specialized semiconductor devices designed to detect, measure, and interpret magnetic fields. These sensors convert magnetic flux into electrical signals, enabling precise linear position tracking, angular measurement (compass functionality), and motion detection. Integrated Circuit (IC) versions enhance performance with embedded signal conditioning, digital interfaces, and low-power operation, making them ideal for modern electronic systems.
Types of Magnetic Sensors in This Category
This classification includes two primary subtypes:
1. Linear Magnetic Sensors Measure the strength and direction of magnetic fields in a straight-line axis, commonly used in industrial automation, automotive (e.g., throttle control, brake systems), and robotics.
2. Compass (Magnetometer) ICs Determine orientation relative to Earth s magnetic field, essential for navigation in smartphones, drones, IoT devices, and automotive ADAS (Advanced Driver Assistance Systems).
Key technologies include:
- Hall Effect Sensors (linear/output proportional to field strength)
- AMR (Anisotropic Magnetoresistive) Sensors (high sensitivity for compass apps)
- GMR (Giant Magnetoresistive) Sensors (ultra-precision for industrial use)
Purchasing Recommendations
When selecting Magnetic Sensor ICs, consider:
1. Application Requirements Prioritize linear range (for position sensing) or angular accuracy (for compass/navigation).
2. Output Type Analog (direct voltage output) or digital (I2C/SPI interfaces) based on system integration needs.
3. Environmental Robustness Automotive-grade (AEC-Q100) or industrial-grade (wider temperature ranges) for harsh conditions.
4. Power Efficiency Critical for battery-powered devices (e.g., wearables).
5. Supplier Support Opt for vendors providing evaluation kits and reference designs (e.g., Texas Instruments, Allegro MicroSystems).
This category serves industries demanding precision motion control and spatial awareness, merging reliability with cutting-edge IC innovation.
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Categories
G-MRCO-001
SENSOR MR ANALOG SOT223
SS94A1
SENSOR HALL ANALOG CERAMIC SIP
DRV5055Z1QDBZR
RATIOMETRIC LINEAR HALL EFFECT S
MLX90363KGO-ABB-000-TU
SENSOR HALL EFFECT SPI 16TSSOP
SI7210-B-11-IM2R
IC HALL SENSOR 0X30 DFN8
DRV5053RAELPGQ1
SENSOR HALL EFFECT ANALOG TO92-3
A1326LUA-T
SENSOR HALL EFFECT ANALOG 3SIP
MLX90333KGO-BCH-000-SP
SENSOR HALL ANALOG/PWM 16TSSOP
DRV5053VAQLPGM
SENSOR HALL EFFECT ANALOG TO92-3
A1315LLHLX-1-T
IC HALL EFFECT SENSOR SOT23W
DRV5057Z2QDBZT
IC MOTOR DRIVER
TMR2104D
TMR SENSOR MAG FIELD 3MV/V/OE
DRV5057A2QDBZT
SENSOR HALL EFFECT PWM SOT23-3
MLX90393ELW-ABA-014-SP
SENSOR HALL I2C/SPI 16QFN
DRV5053CAEDBZTQ1
SENSOR HALL ANALOG SOT23-3
MLX90333KDC-BCH-100-RE
SENSOR HALL EFFECT SPI 8SOIC
TMR2104P
TMR SENSOR MAG FIELD 3MV/V/OE
A1308LLHLT-5-T
SENSOR HALL EFFECT ANALOG SOT23W
DRV5055A2QDBZT
SENSOR HALL ANALOG SOT23-3
CT310LS-HD8-M
TMR SENSOR: 8-LEAD DFN (2.0 X 2.