Specification	DRV5055A1QLPGM

Axis	Single
Bandwidth	20 kHz
Current - Output (Max) [Max]	1 mA
Current - Supply (Max) [Max]	10 mA
Features	Temperature Compensated
Mounting Type	Through Hole
Operating Temperature [Max]	125 °C
Operating Temperature [Min]	-40 °C
Output Type	Analog Voltage
Package / Case	TO-226-3, TO-92-3 Short Body
Sensing Range	21 mT, 22 mT
Supplier Device Package	TO-92-3
Technology	Hall Effect
Voltage - Supply [Max]	5.5 V, 3.63 V
Voltage - Supply [Min]	4.5 V, 3 V

DRV5055-Q1 Series

Automotive, ratiometric linear Hall-effect sensor with analog output

Part	Package / Case	Operating Temperature [Max]	Operating Temperature [Min]	Mounting Type	Voltage - Supply [Min]	Voltage - Supply [Max]	Technology	Axis	Supplier Device Package	Output Type	Current - Supply (Max) [Max]	Sensing Range	Bandwidth	Current - Output (Max) [Max]	Features	Sensor Type	Supplied Contents	Utilized IC / Part	Voltage - Supply	Voltage - Supply	Embedded	Grade	Qualification	Sensing Range [Max]	Sensing Range [Min]
Texas Instruments DRV5055A3QDBZT	SC-59 SOT-23-3 TO-236-3	125 °C	-40 °C	Surface Mount	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	SOT-23-3	Analog Voltage	10 mA	85 mT	20 kHz	1 mA	Temperature Compensated
Texas Instruments DRV5055-5057EVM																Hall Effect	Accessories Board(s) Cable(s)	DRV5055 DRV5056 DRV5057	5 V	USB	16-Bit MCU
Texas Instruments DRV5055Z2QDBZR	SC-59 SOT-23-3 TO-236-3	125 °C	-40 °C	Surface Mount	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	SOT-23-3	Analog Voltage	10 mA	42 mT	20 kHz	1 mA	Temperature Compensated
Texas Instruments DRV5055A1QLPGM	TO-226-3 TO-92-3 Short Body	125 °C	-40 °C	Through Hole	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	TO-92-3	Analog Voltage	10 mA	21 mT 22 mT	20 kHz	1 mA	Temperature Compensated
Texas Instruments DRV5055A4ELPGQ1	TO-226-3 TO-92-3 Short Body			Through Hole	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	TO-92-3	Analog Voltage	10 mA	176 mT	20 kHz	1 mA	Temperature Compensated							Automotive	AEC-Q100
Texas Instruments DRV5055A3QLPG	TO-226-3 TO-92-3 Short Body	125 °C	-40 °C	Through Hole	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	TO-92-3	Analog Voltage	10 mA	85 mT 88 mT	20 kHz	1 mA	Temperature Compensated
Texas Instruments DRV5055A2QDBZT	SC-59 SOT-23-3 TO-236-3	125 °C	-40 °C	Surface Mount	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	SOT-23-3	Analog Voltage	10 mA	42 mT	20 kHz	1 mA	Temperature Compensated
Texas Instruments DRV5055A1QLPG	TO-226-3 TO-92-3 Short Body	125 °C	-40 °C	Through Hole	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	TO-92-3	Analog Voltage	10 mA	21 mT 22 mT	20 kHz	1 mA	Temperature Compensated
Texas Instruments DRV5055A2ELPGQ1	TO-226-3 TO-92-3 Short Body			Through Hole	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	TO-92-3	Analog Voltage	10 mA		20 kHz	1 mA	Temperature Compensated							Automotive	AEC-Q100	44 mT	-44 mT
Texas Instruments DRV5055A3ELPGMQ1	TO-226-3 TO-92-3 Short Body			Through Hole	3 V 4.5 V	3.63 V 5.5 V	Hall Effect	Single	TO-92-3	Analog Voltage	10 mA	85 mT	20 kHz	1 mA	Temperature Compensated							Automotive	AEC-Q100

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

Distributor	Package	Quantity	$

Arrow	N/A	1	$ 0.82
		10	$ 0.65
		50	$ 0.61
		100	$ 0.50
		200	$ 0.48
Digikey	Cut Tape (CT)	1	$ 1.60
		10	$ 1.20
		25	$ 0.96
		100	$ 0.88
		500	$ 0.74
		1000	$ 0.66
	Tape & Box (TB)	3000	$ 0.64
		6000	$ 0.60
		9000	$ 0.57
		15000	$ 0.55
Texas Instruments	AMMO	1	$ 0.54
		100	$ 0.42
		250	$ 0.31
		1000	$ 0.22

Description

General part information

DRV5055-Q1 Series

The DRV5055 is a linear Hall effect sensor that responds proportionally to magnetic flux density. The device can be used for accurate position sensing in a wide range of applications.

The device operates from 3.3-V or 5-V power supplies. When no magnetic field is present, the analog output drives half of VCC. The output changes linearly with the applied magnetic flux density, and four sensitivity options enable maximal output voltage swing based on the required sensing range. North and south magnetic poles produce unique voltages.

Magnetic flux perpendicular to the top of the package is sensed, and the two package options provide different sensing directions.