DRV2605LYZFT

Haptic Driver

The DRV2605LYZFT is a haptic driver from Texas Instruments. View the full DRV2605LYZFT datasheet below including key specifications, electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Key Specifications

Parameter	Value
Applications	Haptic Feedback
Function	Driver - Fully Integrated, Control and Power Stage
Interface	I2C
Motor Type (DC)	ERM, LRA
Mounting Type	Surface Mount
Operating Temperature	-40°C ~ 150°C (TJ)
Output Configuration	Half Bridge (2)
Package / Case	9-UFBGA, DSBGA
Packaging	MouseReel
Standard Pack Qty	3000
Supplier Device Package	9-DSBGA
Supplier Device Package	9-DSBGA
Diode Technology	Power MOSFET
Load Voltage	2V ~ 5.5V
Supply Voltage	2V ~ 5.5V

Overview

Part: DRV2605L — Texas Instruments

Type: Haptic Driver

Description: The DRV2605L is a low-voltage haptic driver for LRA and ERM actuators, featuring a licensed Immersion TouchSense® 2200 effect library, smart-loop architecture for automatic control, and I2C-controlled digital playback.

Operating Conditions:

Supply voltage: 2–5.2 V
Operating temperature: -40 to 85 °C
PWM input frequency: 10–250 kHz
LRA frequency range: 125–300 Hz

Absolute Maximum Ratings:

Max supply voltage: 5.5 V
Max junction temperature: 150 °C
Max storage temperature: 150 °C

Key Specs:

REG pin voltage: 1.83 V (Typ)
Shutdown current: 4 μA (Typ), 7 μA (Max)
Standby current: 4.1 μA (Typ), 7 μA (Max)
Quiescent current: 0.5 mA (Typ), 0.65 mA (Max)
Load impedance threshold for over-current detection: 4 Ω (Typ)
I2C SCL frequency: 400 kHz (Max)
Start-up time (GO bit or external trigger): 0.7 ms (Typ)

Features:

Flexible Haptic and Vibration Driver for LRA and ERM
I2C-Controlled Digital Playback Engine with Waveform Sequencer and Real-Time Playback
Smart-Loop Architecture for Automatic Overdrive, Braking, Resonance Tracking, Actuator Diagnostic, and Level Calibration
Licensed Immersion TouchSense® 2200 Features: Integrated Effect Library and Audio-to-Vibe
Drive Compensation Over Battery Discharge
Efficient Differential Switching Output Drive
PWM Input with 0% to 100% Duty-Cycle Control Range
Hardware Trigger Input
1.8-V Compatible, VDD-Tolerant Digital Interface

Applications:

Mobile Phones and Tablets
Watches and Wearable Technology
Remote Controls, Mice, and Peripheral Devices
Touch-Enabled Devices
Industrial Human-Machine Interfaces
Electronic Point of Sale (ePOS)

Package:

DSBGA (9) - 1.50 mm × 1.50 mm
VSSOP (10) - 3.00 mm × 3.00 mm

Features

1 · Flexible Haptic and Vibration Driver
-LRA (Linear Resonance Actuator)
-ERM (Eccentric Rotating Mass)
I 2 C-Controlled Digital Playback Engine
-Waveform Sequencer and Trigger
-Real-Time Playback Mode through I 2 C
-I 2 C Dual-Mode Drive (Open and Closed Loop)
Smart-Loop Architecture (Patent Pending Control Algorithm)
-Automatic Overdrive and Braking
-Automatic Resonance Tracking and Reporting (LRA Only)
-Automatic Actuator Diagnostic
-Automatic Level Calibration
-Wide Support for Actuator Models
Licensed Immersion TouchSense ® 2200 Features:
-Integrated Immersion Effect Library
-Audio-to-Vibe
Drive Compensation Over Battery Discharge
Wide Voltage Operation (2 V to 5.2 V)
Efficient Differential Switching Output Drive
PWM Input with 0% to 100% Duty-Cycle Control Range
Hardware Trigger Input
Fast Startup Time
1.8-V Compatible, VDD-Tolerant Digital Interface

Applications

Mobile Phones and Tablets
Watches and Wearable Technology
Remote Controls, Mice, and Peripheral Devices
Touch-Enabled Devices
Industrial Human-Machine Interfaces
Electronic Point of Sale (ePOS)

Pin Configuration

YZF Package 9-Pin DSBGA With 0.5-mm Pitch (Top View)

Electrical Characteristics

TA = 25°C, VDD = 3.6 V (unless otherwise noted)

PARAMETER	PARAMETER	TEST CONDITIONS	TYP	MAX	UNIT
V (REG)	Voltage at the REG pin		1.83		V
I IL	Digital low-level input current	EN, IN/TRIG, SDA, SCL V DD = 5.2 V , V I = 0 V		1	μA
I IH	Digital high-level input current	IN/TRIG, SDA, SCL V DD = 5.2 V, V I = V DD		1	μA
I IH	Digital high-level input current	EN V DD = 5.2 V, V I = V DD		3.5	μA
V OL	Digital low-level output voltage	SDAI OL = 4 mA		0.4	V
R (EN-GND)	Digital pull-down resistance	EN V DD = 5.2 V , V I = V DD	2		M Ω
I (SD)	Shutdown current	V (EN) = 0 V	4	7	μA
I I(standby)	Standby current	V (EN) = 1.8 V, STANDBY = 1	4.1	7	μA
I Q	Quiescent current	V (EN) = 1.8 V, STANDBY = 0, no signal	0.5	0.65	mA
Z I	Input impedance	IN/TRIG to V (CM_ANA)	100		k Ω
V (CM_ANA)	IN/TRIG common-mode voltage (AC-coupled)	AC_COUPLE = 1	0.9		V
Z O(SD)	Output impedance in shutdown	OUT+ to GND, OUT- to GND	15		k Ω
Z L(th)	Load impedance threshold for over-current detection	OUT+ to GND, OUT- to GND	4		Ω
I (BAT_AV)	Average battery current during operation	Duty cycle = 90%, LRA mode, no load	2.4	3.5	mA
I (BAT_AV)	Average battery current during operation	Duty cycle = 90%, ERM mode, no load	2.3	3.5	mA

Absolute Maximum Ratings

over operating free-air temperature range, TA = 25°C (unless otherwise noted)

		MIN	MAX	UNIT
Input	V DD	-0.3	5.5	V
Input	EN	-0.3	V DD + 0.3	V
voltage	SDA	-0.3	V DD + 0.3	V
voltage	SCL	-0.3	V DD + 0.3	V
voltage	IN/TRIG	-0.3	V DD + 0.3	V
Operating free-air temperature, T A	Operating free-air temperature, T A	-40	85	°C
Operating junction temperature, T J	Operating junction temperature, T J	-40	150	°C
Storage temperature, T stg	Storage temperature, T stg	-65	150	°C

Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)

			MIN	MAX	UNIT
V DD	Supply voltage	V DD	2	5.2	V
ƒ (PWM)	PWM input frequency (1)	IN/TRIG Pin	10	250	kHz
Z L	Load impedance (1)	V DD = 5.2 V	8		Ω
V IL	Digital low-level input voltage	EN, IN/TRIG, SDA, SCL		0.5	V
V IH	Digital high-level input voltage	EN, IN/TRIG, SDA, SCL	1.3		V
V I(ANA)	Input voltage (analog mode)	IN/TRIG	0	1.8	V
ƒ (LRA)	LRA Frequency Range (1)		125	300	Hz

Thermal Information

THERMAL METRIC (1)		DRV2605L YZF (DSBGA) (9-PINS)	UNIT
R θ JA	Junction-to-ambient thermal resistance	145.2	°C/W
R θ JC(top)	Junction-to-case (top) thermal resistance	0.9	°C/W
R θ JB	Junction-to-board thermal resistance	105	°C/W
φ JT	Junction-to-top characterization parameter	5.1	°C/W
φ JB	Junction-to-board characterization parameter	103.3	°C/W

Typical Application

The typical application for a haptic driver is in a touch-enabled system that already has an application processor which makes the decision on when to execute haptic effects.

The DRV2605L device can be used fully with I 2 C communications (either using RTP or the memory interface). A system designer can chose to use external triggers to play low-latency effects (such as from a physical button) or can decide to use the PWM interface. Figure 58 shows a typical haptic system implementation. The system designer should not use the internal regulator (REG) to power any external load.

A system designer can also implement audio-to-vibe. Figure 59 shows a typical haptic system implementation supporting audio-to-vibe.

Figure 58. I 2 C Control with Optional PWM Input or External Trigger

Figure 59. I 2 C Control With Audio-to-Vibe Input and Optional AC Coupling

Table 32. Recommended External Components

COMPONENT	DESCRIPTION	SPECIFICATION	TYPICAL VALUE
C (VDD)	Input capacitor	Capacitance	1 μF
C (REG)	Regulator capacitor	Capacitance	1 μF
C (IN)	AC coupling capacitor (optional)	Capacitance	1 μF
R (PU)	Pullup resistor	Resistance	2.2 k Ω

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
DRV2605	Texas Instruments	DSBGA
DRV2605L	Texas Instruments	—
DRV2605L-Q1	Texas Instruments	—
DRV2605LDGSR	Texas Instruments	10-TFSOP, 10-MSOP (0.118", 3.00mm Width)
DRV2605LDGST	Texas Instruments	10-TFSOP, 10-MSOP (0.118", 3.00mm Width)
DRV2605LYZFR	Texas Instruments	9-UFBGA, DSBGA

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