DRV2603 Series

Haptic driver for ERM/LRA with auto-resonance tracking in QFN package

Catalog

Haptic driver for ERM/LRA with auto-resonance tracking in QFN package

Part	Utilized IC / Part	Function	Embedded	Embedded	Type	Supplied Contents	Secondary Attributes	Technology	Package / Case	Output Configuration	Voltage - Load [Max]	Voltage - Load [Min]	Mounting Type	Applications	Motor Type - AC, DC	Supplier Device Package	Interface	Voltage - Supply [Min]	Voltage - Supply [Max]	Operating Temperature [Max]	Operating Temperature [Min]
Texas Instruments DRV2603EVM-CT	DRV2603	Motor Controller/Driver Haptic/Vibration	16-Bit MCU		Power Management	Board(s) Cable(s)	On-Board LEDs
Texas Instruments DRV2603RUNT		Driver - Fully Integrated Control and Power Stage						Power MOSFET	10-WFQFN	Half Bridge (2)	5.2 V	2.5 V	Surface Mount	Haptic Feedback	ERM LRA	10-WQFN (2x2)	Parallel PWM	2.5 V	5.2 V	150 °C	-40 °C

Catalog

Haptic driver for ERM/LRA with auto-resonance tracking in QFN package

Key Features

• Flexible Haptic/Vibra DriverLRA (Linear Resonance Actuator)ERM (Eccentric Rotating Mass)Auto Resonance Tracking for LRANo Frequency Calibration RequiredAutomatic Drive CommutationAutomatic Braking AlgorithmWide Input PWM Frequency RangeConstant Vibration Strength Over SupplyAutomatic Input Level Translation0% to 100% Duty Cycle Control RangeFast Start Up TimeDifferential Drive from Single-Ended InputWide Supply Voltage Range of 2.5 V to 5.2 VImmersion TouchSense®3000 Compatible1.8-V Compatible, 5-V Tolerant Digital PinsAvailable in a 2 mm × 2 mm × 0.75 mm Leadless QFN Package (RUN)Flexible Haptic/Vibra DriverLRA (Linear Resonance Actuator)ERM (Eccentric Rotating Mass)Auto Resonance Tracking for LRANo Frequency Calibration RequiredAutomatic Drive CommutationAutomatic Braking AlgorithmWide Input PWM Frequency RangeConstant Vibration Strength Over SupplyAutomatic Input Level Translation0% to 100% Duty Cycle Control RangeFast Start Up TimeDifferential Drive from Single-Ended InputWide Supply Voltage Range of 2.5 V to 5.2 VImmersion TouchSense®3000 Compatible1.8-V Compatible, 5-V Tolerant Digital PinsAvailable in a 2 mm × 2 mm × 0.75 mm Leadless QFN Package (RUN)

Description

The DRV2603 is a haptic driver designed specifically to solve common obstacles in driving both Linear Resonance Actuator (LRA) and Eccentric Rotating Mass (ERM) haptic elements. The DRV2603 is designed for low latency, high efficiency, and more drive strength for actuators commonly used for tactile feedback in the portable market. LRA actuators typically have a narrow frequency band over which they have an adequate haptic response. This frequency window is typically ±2.5 Hz wide or less, so driving an LRA actuator presents a challenge. The DRV2603 solves this problem by employing auto resonance tracking, which automatically detects and tracks the LRA resonant frequency in real time. This means that any input PWM frequency within the input range (10 kHz to 250 kHz) will automatically produce the correct resonant output frequency. As an additional benefit, the DRV2603 implements an automatic braking algorithm to prevent LRA ringing at the end of waveforms, leaving the user with a crisp haptic sensation. For both ERM and LRA actuators, the automatic input level translation solves issues with low voltage PWM sources without adding additional external components, so if the digital I/O levels vary, the output voltage does not change. The DRV2603 also has supply correction that ensures no supply regulation is required for constant vibration strength, allowing an efficient, direct-battery connection. The DRV2603 is a haptic driver designed specifically to solve common obstacles in driving both Linear Resonance Actuator (LRA) and Eccentric Rotating Mass (ERM) haptic elements. The DRV2603 is designed for low latency, high efficiency, and more drive strength for actuators commonly used for tactile feedback in the portable market. LRA actuators typically have a narrow frequency band over which they have an adequate haptic response. This frequency window is typically ±2.5 Hz wide or less, so driving an LRA actuator presents a challenge. The DRV2603 solves this problem by employing auto resonance tracking, which automatically detects and tracks the LRA resonant frequency in real time. This means that any input PWM frequency within the input range (10 kHz to 250 kHz) will automatically produce the correct resonant output frequency. As an additional benefit, the DRV2603 implements an automatic braking algorithm to prevent LRA ringing at the end of waveforms, leaving the user with a crisp haptic sensation. For both ERM and LRA actuators, the automatic input level translation solves issues with low voltage PWM sources without adding additional external components, so if the digital I/O levels vary, the output voltage does not change. The DRV2603 also has supply correction that ensures no supply regulation is required for constant vibration strength, allowing an efficient, direct-battery connection.