SLOS893D September 2014 – August 2025 DRV2624
PRODUCTION DATA
Refer to the PDF data sheet for device specific package drawings
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| LRA_MIN_FREQ_SEL[0] | LRA_RESYNC_FORMAT[0] | Reserved | DRIVE_TIME[4:0] | ||||
| R/W-0 | R/W-0 | R/W-0 | R/W-1 | R/W-0 | R/W-0 | R/W-0 | R/W-0 |
| LEGEND: R/W = Read/Write; R = Read only; -n = value after reset |
| BIT | FIELD | TYPE | DEFAULT | DESCRIPTION | |
|---|---|---|---|---|---|
| 7 | LRA_MIN_FREQ_SEL | R/W | 0 | Selects the minimum frequency supported by the device. | |
| 0 | 125 Hz. | ||||
| 1 | 45 Hz. | ||||
| 6 | LRA_RESYNC_FORMAT | R/W | 0 | Selects the method for re-sync mode to operate. | |
| 0 | Based on LRA_MIN_FREQ_SEL. | ||||
| 1 | Based on DRIVE_TIME × 1.25. | ||||
| 5 | Reserved | R/W | 0 | Reserved | |
| 4-0 | DRIVE_TIME[4:0] | R/W | 16 | LRA Mode: Sets initial guess for LRA drive time in LRA mode. Drive time is automatically adjusted for optimum drive on the fly; however, this register is optimized for the approximate LRA frequency. If LRA drive time is set too low, LRA drive time can affect the actuator startup time. If LRA drive time is set too high, LRA drive time can cause instability. Optimum DriveTime (ms) ≈ 0.5 × LRA Period. If the LRA does not exhibit a valid BEMF, then this parameter also sets the free-running frequency when LRA is not attached or BEMF is not present. ERM Mode: Sets the sample rate for the back-EMF detection. Lower drive times cause higher peak-to-average ratios in the output signal, requiring more supply headroom. Higher drive times cause the feedback to react at a slower rate. | |
| 0 | LRA: 0.5ms; ERM: 1ms. | ||||
| 1 | LRA: 0.6ms; ERM: 1.2ms. | ||||
| 2 | LRA: 0.7ms; ERM: 1.4ms. | ||||
| 3 | LRA: 0.8ms; ERM: 1.6ms. | ||||
| 4 | LRA: 0.9ms; ERM: 1.8ms. | ||||
| 5 | LRA: 1ms; ERM: 2ms. | ||||
| 6 | LRA: 1.1ms; ERM: 2.2ms. | ||||
| 7 | LRA: 1.2ms; ERM: 2.4ms. | ||||
| 8 | LRA: 1.3ms; ERM: 2.6ms. | ||||
| 9 | LRA: 1.4ms; ERM: 2.8ms. | ||||
| 10 | LRA: 1.5ms; ERM: 3ms. | ||||
| 11 | LRA: 1.6ms; ERM: 3.2ms. | ||||
| 12 | LRA: 1.7ms; ERM: 3.4ms. | ||||
| 13 | LRA: 1.8ms; ERM: 3.6ms. | ||||
| 14 | LRA: 1.9ms; ERM: 3.8ms. | ||||
| 15 | LRA: 2ms; ERM: 4ms. | ||||
| 16 | LRA: 2.1ms; ERM: 4.2ms. | ||||
| 17 | LRA: 2.2ms; ERM: 4.4ms. | ||||
| 18 | LRA: 2.3ms; ERM: 4.6ms. | ||||
| 19 | LRA: 2.4ms; ERM: 4.8ms. | ||||
| 20 | LRA: 2.5ms; ERM: 5ms. | ||||
| 21 | LRA: 2.6ms; ERM: 5.2ms. | ||||
| 22 | LRA: 2.7ms; ERM: 5.4ms. | ||||
| 23 | LRA: 2.8ms; ERM: 5.6ms. | ||||
| 24 | LRA: 2.9ms; ERM: 5.8ms. | ||||
| 25 | LRA: 3ms; ERM: 6ms. | ||||
| 26 | LRA: 3.1ms; ERM: 6.2ms. | ||||
| 27 | LRA: 3.2ms; ERM: 6.4ms. | ||||
| 28 | LRA: 3.3ms; ERM: 6.6ms. | ||||
| 29 | LRA: 3.4ms; ERM: 6.8ms. | ||||
| 30 | LRA: 3.5ms; ERM: 7ms. | ||||
| 31 | LRA: 3.6ms; ERM: 7.2ms. | ||||