DRV2605YZFR.A

Haptic Driver

The DRV2605YZFR.A is a haptic driver from Texas Instruments. View the full DRV2605YZFR.A datasheet below including electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Overview

Part: DRV2605 — Texas Instruments

Type: Haptic Driver for ERM and LRA

Description: The DRV2605 is a flexible haptic driver for ERM and LRA actuators, featuring I2C control, a built-in Immersion effect library, and Smart-Loop Architecture for automatic overdrive/braking, resonance tracking, and actuator diagnostics.

Operating Conditions:

Supply voltage: 2.5–5.5 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: 6 V
Max junction temperature: 150 °C
Max storage temperature: 150 °C

Key Specs:

REG pin voltage: 1.84 V (typ)
Shutdown current: 1.75 μA (typ)
Standby current: 1.9 μA (typ)
Quiescent current: 0.6 mA (typ, no signal)
Input impedance (IN/TRIG): 100 kΩ (typ)
Load impedance threshold for over-current detection: 4 Ω
Average battery current (LRA/ERM mode, no load, 90% duty cycle): 2.5 mA (typ)
I2C SCL frequency: 400 kHz (max)

Features:

Flexible Haptic/Vibra Driver for LRA and ERM
I2C Controlled Digital Playback Engine with Real-Time Playback Mode
Smart Loop Architecture for automatic overdrive/braking, resonance tracking, diagnostics, and level calibration
Licensed Immersion™ TouchSense® 2200 features: Integrated Immersion Effect Library and Audio to Vibe
Optional PWM Input with 0% to 100% Duty Cycle Control Range
Optional Analog Input Control
Optional Hardware Trigger Pin
1.8 V Compatible, VDD Tolerant Digital Pins

Applications:

Mobile Phones and Tablets
Watches and Wearable Technology
Remote Controls, Mice, and Peripheral Devices
Touch-Enabled Devices
Human-Machine Interfaces

Package:

DSBGA (9) - 1.50 mm × 1.50 mm

Features

1 · Flexible Haptic/Vibra Driver
-LRA (Linear Resonance Actuator)
-ERM (Eccentric Rotating Mass)
I 2 C Controlled Digital Playback Engine
-Real-Time Playback Mode via I 2 C
Smart Loop Architecture (1)
-Automatic Overdrive/Braking (ERM/LRA)
-Automatic Resonance Tracking (LRA)
-Automatic Actuator Diagnostic (ERM/LRA)
-Automatic Level Calibration (ERM/LRA)
Licensed Immersion™ TouchSense ® 2200 features:
-Integrated Immersion Effect Library
-Audio to Vibe
Optional PWM Input with 0% to 100% Duty Cycle Control Range
Optional Analog Input Control
Optional Hardware Trigger Pin
Efficient Output Drive
Fast Start Up Time
Constant Acceleration Over Supply Voltage
1.8 V Compatible, VDD Tolerant Digital Pins
(1) Patent pending control algorithm

Applications

Mobile Phones and Tablets
Watches and Wearable Technology
Remote Controls, Mice, and Peripheral Devices
Touch-Enabled Devices
Human-Machine Interfaces

Pin Configuration

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

Pin Functions

PIN	PIN	TYPE (1)	DESCRIPTION
NO.	NAME	TYPE (1)	DESCRIPTION
A1	EN	I	Device enable
A2	REG	O	The REG pin is the 1.8-V regulator output. A 1-μF capacitor is required.
A3	OUT+	O	Positive haptic driver differential output
B1	IN/TRIG	I	Multi-mode Input. I 2 C selectable as PWM, analog, or trigger. If not used, this pin should be connected to GND
B2	SDA	I/O	I 2 C data
B3	GND	P	Supply ground
C1	SCL	I	I 2 C clock
C3	OUT-	O	Negative haptic-driver differential output
C2	V DD	P	Supply input (2.5 to 5.5 V). A 0.1-μF capacitor is required.

Pin Functions

Electrical Characteristics

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

PARAMETER	PARAMETER	TEST CONDITIONS	MIN TYP	MAX	UNIT
V (REG)	Voltage at the REG pin		1.84		V
I IL	Digital low-level input current	EN V DD = 5.5 V , V I = 0 V		1	μA
I IH	Digital high-level input current	IN/TRIG, SDA, SCL V DD = 5.5 V, V I = V DD		1	μA
I IH	Digital high-level input current	EN V DD = 5.5 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 = 5.5 V , V I = V DD	2		M Ω
I (SD)	Shutdown current	V (EN) = 0 V	1.75	4	μA
I I(standby)	Standby current	V (EN) = 1.8 V, STANDBY = 1	1.9	5	μA
I Q	Quiescent current	V (EN) = 1.8 V, STANDBY = 0, no signal	0.6	1	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	2.5	3.25	mA
I (BAT_AV)	Average battery current during operation	Duty cycle = 90%, ERM mode, no load	2.5	3.25	mA

Absolute Maximum Ratings

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

		MIN	MAX	UNIT
Input	V DD	-0.3	6	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	5.5	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)		DRV2605 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 DRV2605 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 54 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 55 shows a typical haptic system implementation supporting audio-to-vibe.

Figure 54. I 2 C Control with Optional PWM Input or External Trigger

Figure 55. I 2 C Control With Audio-to-Vibe Input and Optional AC Coupling

Table 30. 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	—
DRV2605YZFR	Texas Instruments	9-UFBGA, DSBGA
DRV2605YZFT	Texas Instruments	9-UFBGA, DSBGA
DRV2605YZFT.A	Texas Instruments	—

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