TI传感解决方案

OPT3001

DLP4500NIR

DLP4500

Material

Material composition sensing/detection is used to uniquely determine the type, amount, or size of conductors, non-conductors, liquids, and other materials. The various ways to sense with material composition are inductive sensing: for conductive materials; capacitive sensing: offers high sensitivity with a low-cost, low-power and highly flexible system design; optical: programmable spectral filtering to measure unique transmission/absorption signatures of some chemicals and materials; and ultrasonic sensing: non-intrusive sensors are simple to design, no maintenance or contact with corrosive materials.

FDC1004	LDC1312/14 & LDC1612/14	LDC1000	LDC1041
LMP91300	TDC1000	PGA450-Q1

Occupancy

Occupancy detection is the ability to determine the presence of an object or person. Sensing the physical presence allows for decisions and actions to be made including conserving power through automatically controlling lights, increasing safety by enabling passenger airbags, or increasing responsiveness during an emergency by knowing building occupancy. The various ways to sense are optical sensing: 3D time of flight (ToF) solutions offer the ability to create an accurate 3D map of an environment with minimal latency and excellent accuracy; temperature sensors: Passive infrared sensors are used to detect a change in the heat signature of the area of interest; and ultrasonic sensing: Ideal for line-of-sight measurements to determine the closest object or for intrusion detection.

OPT3001	DLP4500NIR	DLP4500	TMP007
LMT8x	TMPx75	TDC1000	PGA450-Q1

Position

Position/Motion sensing is used to determine the location and lateral/linear, rotational, or axial motion of any moving object or component in a system. The various ways to sense are current shunt monitors: used for closed loop control to monitor the current flow into a solenoid for valve control or through a motor; hall effect sensor: low-power and low-cost solution to sense magnetic field generated by a magnet on the target object; inductive sensing: provides sub-micron resolution while being insensitive to environmental contaminants; optical sensing: optical 3D time of flight (ToF) delivers high sensitivity and motion tracking capabilities to enable precise finger, hand, and body tracking; and ultrasonic sensing: achieves long distance range with high immunity to dusty environment.

INA300	INA28x	INA226	DRV5013
DRV5023	DRV5033	DRV5053	LDC1312/14 & LDC1612/14
LDC1000	LDC1041	LMP91300	OPT3001
DLP4500NIR	DLP4500	TDC1000	PGA450-Q1

Pressure

Pressure sensors are used to measure the pressure of gases and liquids. Pressure measurements typically are made as either absolute: to measure a pressure relative to a vacuum; gauge: to measure a pressure relative to atmospheric pressure; or differential (or relative); to measure pressure difference between two inputs. The various ways to sense in pressure sensing are with high-precision, programmable sensor signal conditioners for accurate pressure measurements.

PGA308

PGA309

PGA400-Q1

Proximity

Proximity sensing is used in applications that either measure the distance of a target object or simply detect its presence. The various was to sense in proximity sensing are capacitive sensing: offers high sensitivity with a low-cost, low-power and highly flexible system design; hall effect sensors: low-power and low-cost solution to sense magnetic field generated by a magnet on the target object; inductive sensing: provides sub-micron resolution while being insensitive to environmental contaminants; and ultrasonic sensing: achieves long distance range with high immunity to dusty environment.