Datasheet
Table Of Contents
- General Description
- Key Features
- Applications
- System Diagrams
- Contents
- Figures
- Tables
- Legal
- Product Family
- 1 Terms and Definitions
- 2 Block Diagram
- 3 Pinout
- 4 Characteristics
- 5 Functional Description
- 5.1 Features Description
- Driving LRA and ERM Actuators
- Automatic LRA Resonant Frequency Tracking
- Wideband LRA Support
- I2C and PWM Input Streaming
- Low Latency I2C/GPI Wake-Up from IDLE State
- Three GPI Sequence Triggers for up to Six Independent Haptic Responses
- On-Board Waveform Memory with Amplitude, Time, and Frequency Control
- Active Acceleration and Rapid Stop for High-Fidelity Haptic Feedback
- Continuous Actuator Diagnostics and Fault Handling
- No Software Requirements with Embedded Operation
- Differential Output Drive
- Current Driven System
- Configurable EMI Suppression
- Automatic Short Circuit Protection
- Ultra-Low Power Consumption with State Retention
- Ultra-Low Latency in STANDBY State
- Supply Monitoring, Reporting, and Automatic Output Limiting
- Open- and Closed-Loop Modes
- Open-Loop Sine/Custom Wave Drive Support
- Small Solution Footprint
- Additional Features
- 5.2 Functional Modes
- 5.3 Resonant Frequency Tracking
- 5.4 Active Acceleration and Rapid Stop
- 5.5 Wideband Frequency Control
- 5.6 Device Configuration and Playback
- 5.7 Advanced Operation
- 5.7.1 Frequency Tracking
- 5.7.2 Rapid Stop
- 5.7.3 Initial Impedance Update
- 5.7.4 Amplitude PID
- 5.7.5 Wideband Operation
- 5.7.6 Custom Waveform Operation
- 5.7.7 Embedded Operation
- 5.7.8 Polarity Change Reporting for Half-Period Control in DRO Mode
- 5.7.9 Loop Filter Configuration
- 5.7.10 UVLO Threshold
- 5.7.11 Edge Rate Control
- 5.7.12 Double Output Current Range
- 5.7.13 Supply Monitoring, Reporting, and Automatic Output Limiting
- 5.7.14 BEMF Fault Limit
- 5.7.15 Increasing Impedance Detection Accuracy
- 5.7.16 Frequency Pause during Rapid Stop
- 5.7.17 Frequency Pause during Rapid Stop
- 5.7.18 Coin ERM Operation
- 5.8 Waveform Memory
- 5.9 General Data Format
- 5.10 I2C Control Interface
- 5.1 Features Description
- 6 Register Overview
- 7 Package Information
- 8 Ordering Information
- 9 Application Information
- 10 Layout Guidelines
DA7280
LRA/ERM Haptic Driver with Multiple Input Triggers,
Integrated Waveform Memory and Wideband Support
Datasheet
Revision 3.0
30-Jul-2019
CFR0011-120-00
66 of 76
© 2019 Dialog Semiconductor
Table 54: GPI_1_CTL (0x002A)
Bit
Mode
Symbol
Description
Reset
[6:3]
RW
GPI1_SEQUENCE_ID
GPI_1 sequence ID, see Section 5.2.7.
0x1
[2]
RW
GPI1_MODE
GPI_1 mode of operation, see Section 5.2.7.
0x0 = Single sequence
0x1 = Multi-sequence
0x0
[1:0]
RW
GPI1_POLARITY
Selection which GPI edge triggers an event:
0x0 = Rising edge
0x1 = Falling edge
0x2 = Both edges
0x0
Table 55: GPI_2_CTL (0x002B)
Bit
Mode
Symbol
Description
Reset
[6:3]
RW
GPI2_SEQUENCE_ID
GPI_2 mode of operation, see Section 5.2.7.
0x2
[2]
RW
GPI2_MODE
GPI_2 mode of operation, see Section 5.2.7.
0x0 = Single sequence
0x1 = Multi-sequence
0x0
[1:0]
RW
GPI2_POLARITY
Selection which GPI edge triggers an event:
0x0 = Rising edge
0x1 = Falling edge
0x2 = Both edges
0x0
Table 56: MEM_CTL1 (0x002C)
Bit
Mode
Symbol
Description
Reset
[7:0]
RO
WAV_MEM_BAS
E_ADDR
Snippet memory start address, see Section 5.8.
0x84
Table 57: MEM_CTL2 (0x002D)
Bit
Mode
Symbol
Description
Reset
[7]
RW
WAV_MEM_LOCK
Lock bit for preventing access to Waveform Memory, see
Section 0.
0x0 = Locked
0x1 = Unlocked
0x1
Table 58: ADC_DATA_H1 (0x002E)
Bit
Mode
Symbol
Description
Reset
[7:0]
RO
ADC_VDD_H
Unsigned VDD measurement, see Section 5.7.13
0xFF