Datasheet ISM330DHCX (STMicroelectronics) - 2
| 制造商 | STMicroelectronics |
| 描述 | iNEMO inertial module with Machine Learning Core |
| 页数 / 页 | 167 / 2 — ISM330DHCX. DS13012. Rev 5. page 2/167 |
| 文件格式/大小 | PDF / 2.6 Mb |
| 文件语言 | 英语 |
ISM330DHCX. DS13012. Rev 5. page 2/167
该数据表的模型线
文件文字版本
ISM330DHCX
In the ISM330DHCX the sensing elements of the accelerometer and of the gyroscope are implemented on the same silicon die, thus guaranteeing superior stability and robustness. The ISM330DHCX has a full-scale acceleration range of ±2/±4/±8/±16 g and a wide angular rate range of ±125/±250/±500/±1000/±2000/±4000 dps that enable its usage in a broad range of applications. All the design aspects and the calibration of the ISM330DHCX have been optimized to reach superior accuracy, stability, extremely low noise and full data synchronization. An unmatched set of embedded features (Machine Learning Core, programmable FSM, FIFO, sensor hub, event decoding and interrupts) are enablers for implementing smart and complex sensor nodes which deliver high performance at very low power. The ISM330DHCX is available in a 14-lead plastic land grid array (LGA) package.
DS13012
-
Rev 5 page 2/167
Document Outline Features Applications Description 1 Overview 2 Embedded low-power features 2.1 Finite State Machine 2.2 Machine Learning Core 3 Pin description 3.1 Pin connections 4 Module specifications 4.1 Mechanical characteristics 4.2 Electrical characteristics 4.3 Temperature sensor characteristics 4.4 Communication interface characteristics 4.4.1 SPI - serial peripheral interface 4.4.2 I²C - inter-IC control interface 4.5 Absolute maximum ratings 4.6 Terminology 4.6.1 Sensitivity 4.6.2 Zero-g and zero-rate level 5 Digital interfaces 5.1 I²C/SPI interface 5.1.1 I²C serial interface 5.1.1.1 I²C operation 5.1.2 SPI bus interface 5.1.2.1 SPI read 5.1.2.2 SPI write 5.1.2.3 SPI read in 3-wire mode 5.2 Master I²C interface 5.3 Auxiliary SPI interface 6 Functionality 6.1 Operating modes 6.2 Gyroscope power modes 6.3 Accelerometer power modes 6.4 Block diagram of filters 6.4.1 Block diagrams of the accelerometer filters 6.4.2 Block diagrams of the gyroscope filters 6.5 FIFO 6.5.1 Bypass mode 6.5.2 FIFO mode 6.5.3 Continuous mode 6.5.4 Continuous-to-FIFO mode 6.5.5 Bypass-to-Continuous mode 6.5.6 Bypass-to-FIFO mode 6.5.7 FIFO reading procedure 7 Application hints 7.1 ISM330DHCX electrical connections in Mode 1 7.2 ISM330DHCX electrical connections in Mode 2 7.3 ISM330DHCX electrical connections in Mode 3 and Mode 4 8 Register mapping 9 Register description 9.1 FUNC_CFG_ACCESS (01h) 9.2 PIN_CTRL (02h) 9.3 FIFO_CTRL1 (07h) 9.4 FIFO_CTRL2 (08h) 9.5 FIFO_CTRL3 (09h) 9.6 FIFO_CTRL4 (0Ah) 9.7 COUNTER_BDR_REG1 (0Bh) 9.8 COUNTER_BDR_REG2 (0Ch) 9.9 INT1_CTRL (0Dh) 9.10 INT2_CTRL (0Eh) 9.11 WHO_AM_I (0Fh) 9.12 CTRL1_XL (10h) 9.13 CTRL2_G (11h) 9.14 CTRL3_C (12h) 9.15 CTRL4_C (13h) 9.16 CTRL5_C (14h) 9.17 CTRL6_C (15h) 9.18 CTRL7_G (16h) 9.19 CTRL8_XL (17h) 9.20 CTRL9_XL (18h) 9.21 CTRL10_C (19h) 9.22 ALL_INT_SRC (1A) 9.23 WAKE_UP_SRC (1Bh) 9.24 TAP_SRC (1Ch) 9.25 DRD_SRC (1Dh) 9.26 STATUS_REG (1Eh) / STATUS_SPIAux (1Eh) 9.27 OUT_TEMP_L (20h), OUT_TEMP_H (21h) 9.28 OUTX_L_G (22h) and OUTX_H_G (23h) 9.29 OUTY_L_G (24h) and OUTY_H_G (25h) 9.30 OUTZ_L_G (26h) and OUTZ_H_G (27h) 9.31 OUTX_L_A (28h) and OUTX_H_A (29h) 9.32 OUTY_L_A (2Ah) and OUTY_H_A (2Bh) 9.33 OUTZ_L_A (2Ch) and OUTZ_H_A (2Dh) 9.34 EMB_FUNC_STATUS_MAINPAGE (35h) 9.35 FSM_STATUS_A_MAINPAGE (36h) 9.36 FSM_STATUS_B_MAINPAGE (37h) 9.37 MLC_STATUS_MAINPAGE (38h) 9.38 STATUS_MASTER_MAINPAGE (39h) 9.39 FIFO_STATUS1 (3Ah) 9.40 FIFO_STATUS2 (3Bh) 9.41 TIMESTAMP0 (40h), TIMESTAMP1 (41h), TIMESTAMP2 (42h), and TIMESTAMP3 (43h) 9.42 TAP_CFG0 (56h) 9.43 TAP_CFG1 (57h) 9.44 TAP_CFG2 (58h) 9.45 TAP_THS_6D (59h) 9.46 INT_DUR2 (5Ah) 9.47 WAKE_UP_THS (5Bh) 9.48 WAKE_UP_DUR (5Ch) 9.49 FREE_FALL (5Dh) 9.50 MD1_CFG (5Eh) 9.51 MD2_CFG (5Fh) 9.52 INTERNAL_FREQ_FINE (63h) 9.53 INT_OIS (6Fh) 9.54 CTRL1_OIS (70h) 9.55 CTRL2_OIS (71h) 9.56 CTRL3_OIS (72h) 9.57 X_OFS_USR (73h) 9.58 Y_OFS_USR (74h) 9.59 Z_OFS_USR (75h) 9.60 FIFO_DATA_OUT_TAG (78h) 9.61 FIFO_DATA_OUT_X_L (79h) and FIFO_DATA_OUT_X_H (7Ah) 9.62 FIFO_DATA_OUT_Y_L (7Bh) and FIFO_DATA_OUT_Y_H (7Ch) 9.63 FIFO_DATA_OUT_Z_L (7Dh) and FIFO_DATA_OUT_Z_H (7Eh) 10 Embedded functions register mapping 11 Embedded functions register description 11.1 PAGE_SEL (02h) 11.2 EMB_FUNC_EN_A (04h) 11.3 EMB_FUNC_EN_B (05h) 11.4 PAGE_ADDRESS (08h) 11.5 PAGE_VALUE (09h) 11.6 EMB_FUNC_INT1 (0Ah) 11.7 FSM_INT1_A (0Bh) 11.8 FSM_INT1_B (0Ch) 11.9 MLC_INT1 (0Dh) 11.10 EMB_FUNC_INT2 (0Eh) 11.11 FSM_INT2_A (0Fh) 11.12 FSM_INT2_B (10h) 11.13 MLC_INT2 (11h) 11.14 EMB_FUNC_STATUS (12h) 11.15 FSM_STATUS_A (13h) 11.16 FSM_STATUS_B (14h) 11.17 MLC_STATUS (15h) 11.18 PAGE_RW (17h) 11.19 EMB_FUNC_FIFO_CFG (44h) 11.20 FSM_ENABLE_A (46h) 11.21 FSM_ENABLE_B (47h) 11.22 FSM_LONG_COUNTER_L (48h) and FSM_LONG_COUNTER_H (49h) 11.23 FSM_LONG_COUNTER_CLEAR (4Ah) 11.24 FSM_OUTS1 (4Ch) 11.25 FSM_OUTS2 (4Dh) 11.26 FSM_OUTS3 (4Eh) 11.27 FSM_OUTS4 (4Fh) 11.28 FSM_OUTS5 (50h) 11.29 FSM_OUTS6 (51h) 11.30 FSM_OUTS7 (52h) 11.31 FSM_OUTS8 (53h) 11.32 FSM_OUTS9 (54h) 11.33 FSM_OUTS10 (55h) 11.34 FSM_OUTS11 (56h) 11.35 FSM_OUTS12 (57h) 11.36 FSM_OUTS13 (58h) 11.37 FSM_OUTS14 (59h) 11.38 FSM_OUTS15 (5Ah) 11.39 FSM_OUTS16 (5Bh) 11.40 EMB_FUNC_ODR_CFG_B (5Fh) 11.41 EMB_FUNC_ODR_CFG_C (60h) 11.42 STEP_COUNTER_L (62h) and STEP_COUNTER_H (63h) 11.43 EMB_FUNC_SRC (64h) 11.44 EMB_FUNC_INIT_A (66h) 11.45 EMB_FUNC_INIT_B (67h) 11.46 MLC0_SRC (70h) 11.47 MLC1_SRC (71h) 11.48 MLC2_SRC (72h) 11.49 MLC3_SRC (73h) 11.50 MLC4_SRC (74h) 11.51 MLC5_SRC (75h) 11.52 MLC6_SRC (76h) 11.53 MLC7_SRC (77h) 12 Embedded advanced features pages 13 Embedded advanced features register description 13.1 Page 0 - Embedded advanced features registers 13.1.1 MAG_SENSITIVITY_L (BAh) and MAG_SENSITIVITY_H (BBh) 13.1.2 MAG_OFFX_L (C0h) and MAG_OFFX_H (C1h) 13.1.3 MAG_OFFY_L (C2h) and MAG_OFFY_H (C3h) 13.1.4 MAG_OFFZ_L (C4h) and MAG_OFFZ_H (C5h) 13.1.5 MAG_SI_XX_L (C6h) and MAG_SI_XX_H (C7h) 13.1.6 MAG_SI_XY_L (C8h) and MAG_SI_XY_H (C9h) 13.1.7 MAG_SI_XZ_L (CAh) and MAG_SI_XZ_H (CBh) 13.1.8 MAG_SI_YY_L (CCh) and MAG_SI_YY_H (CDh) 13.1.9 MAG_SI_YZ_L (CEh) and MAG_SI_YZ_H (CFh) 13.1.10 MAG_SI_ZZ_L (D0h) and MAG_SI_ZZ_H (D1h) 13.1.11 MAG_CFG_A (D4h) 13.1.12 MAG_CFG_B (D5h) 13.2 Page 1 - Embedded advanced features registers 13.2.1 FSM_LC_TIMEOUT_L (7Ah) and FSM_LC_TIMEOUT_H (7Bh) 13.2.2 FSM_PROGRAMS (7Ch) 13.2.3 FSM_START_ADD_L (7Eh) and FSM_START_ADD_H (7Fh) 13.2.4 PEDO_CMD_REG (83h) 13.2.5 PEDO_DEB_CONF (84h) 13.2.6 PEDO_SC_DELTAT_L (D0h) and PEDO_SC_DELTAT_H (D1h) 13.2.7 MLC_MAG_SENSITIVITY_L (E8h) and MLC_MAG_SENSITIVITY_H (E9h) 14 Sensor hub register mapping 15 Sensor hub register description 15.1 SENSOR_HUB_1 (02h) 15.2 SENSOR_HUB_2 (03h) 15.3 SENSOR_HUB_3 (04h) 15.4 SENSOR_HUB_4 (05h) 15.5 SENSOR_HUB_5 (06h) 15.6 SENSOR_HUB_6 (07h) 15.7 SENSOR_HUB_7 (08h) 15.8 SENSOR_HUB_8 (09h) 15.9 SENSOR_HUB_9 (0Ah) 15.10 SENSOR_HUB_10 (0Bh) 15.11 SENSOR_HUB_11 (0Ch) 15.12 SENSOR_HUB_12 (0Dh) 15.13 SENSOR_HUB_13 (0Eh) 15.14 SENSOR_HUB_14 (0Fh) 15.15 SENSOR_HUB_15 (10h) 15.16 SENSOR_HUB_16 (11h) 15.17 SENSOR_HUB_17 (12h) 15.18 SENSOR_HUB_18 (13h) 15.19 MASTER_CONFIG (14h) 15.20 SLV0_ADD (15h) 15.21 SLV0_SUBADD (16h) 15.22 SLAVE0_CONFIG (17h) 15.23 SLV1_ADD (18h) 15.24 SLV1_SUBADD (19h) 15.25 SLAVE1_CONFIG (1Ah) 15.26 SLV2_ADD (1Bh) 15.27 SLV2_SUBADD (1Ch) 15.28 SLAVE2_CONFIG (1Dh) 15.29 SLV3_ADD (1Eh) 15.30 SLV3_SUBADD (1Fh) 15.31 SLAVE3_CONFIG (20h) 15.32 DATAWRITE_SLV0 (21h) 15.33 STATUS_MASTER (22h) 16 Soldering information 17 Package information 17.1 LGA-14L package information 17.2 LGA-14 packing information Revision history Contents List of tables List of figures
In the ISM330DHCX the sensing elements of the accelerometer and of the gyroscope are implemented on the same silicon die, thus guaranteeing superior stability and robustness. The ISM330DHCX has a full-scale acceleration range of ±2/±4/±8/±16 g and a wide angular rate range of ±125/±250/±500/±1000/±2000/±4000 dps that enable its usage in a broad range of applications. All the design aspects and the calibration of the ISM330DHCX have been optimized to reach superior accuracy, stability, extremely low noise and full data synchronization. An unmatched set of embedded features (Machine Learning Core, programmable FSM, FIFO, sensor hub, event decoding and interrupts) are enablers for implementing smart and complex sensor nodes which deliver high performance at very low power. The ISM330DHCX is available in a 14-lead plastic land grid array (LGA) package.
DS13012
-
Rev 5 page 2/167
Document Outline Features Applications Description 1 Overview 2 Embedded low-power features 2.1 Finite State Machine 2.2 Machine Learning Core 3 Pin description 3.1 Pin connections 4 Module specifications 4.1 Mechanical characteristics 4.2 Electrical characteristics 4.3 Temperature sensor characteristics 4.4 Communication interface characteristics 4.4.1 SPI - serial peripheral interface 4.4.2 I²C - inter-IC control interface 4.5 Absolute maximum ratings 4.6 Terminology 4.6.1 Sensitivity 4.6.2 Zero-g and zero-rate level 5 Digital interfaces 5.1 I²C/SPI interface 5.1.1 I²C serial interface 5.1.1.1 I²C operation 5.1.2 SPI bus interface 5.1.2.1 SPI read 5.1.2.2 SPI write 5.1.2.3 SPI read in 3-wire mode 5.2 Master I²C interface 5.3 Auxiliary SPI interface 6 Functionality 6.1 Operating modes 6.2 Gyroscope power modes 6.3 Accelerometer power modes 6.4 Block diagram of filters 6.4.1 Block diagrams of the accelerometer filters 6.4.2 Block diagrams of the gyroscope filters 6.5 FIFO 6.5.1 Bypass mode 6.5.2 FIFO mode 6.5.3 Continuous mode 6.5.4 Continuous-to-FIFO mode 6.5.5 Bypass-to-Continuous mode 6.5.6 Bypass-to-FIFO mode 6.5.7 FIFO reading procedure 7 Application hints 7.1 ISM330DHCX electrical connections in Mode 1 7.2 ISM330DHCX electrical connections in Mode 2 7.3 ISM330DHCX electrical connections in Mode 3 and Mode 4 8 Register mapping 9 Register description 9.1 FUNC_CFG_ACCESS (01h) 9.2 PIN_CTRL (02h) 9.3 FIFO_CTRL1 (07h) 9.4 FIFO_CTRL2 (08h) 9.5 FIFO_CTRL3 (09h) 9.6 FIFO_CTRL4 (0Ah) 9.7 COUNTER_BDR_REG1 (0Bh) 9.8 COUNTER_BDR_REG2 (0Ch) 9.9 INT1_CTRL (0Dh) 9.10 INT2_CTRL (0Eh) 9.11 WHO_AM_I (0Fh) 9.12 CTRL1_XL (10h) 9.13 CTRL2_G (11h) 9.14 CTRL3_C (12h) 9.15 CTRL4_C (13h) 9.16 CTRL5_C (14h) 9.17 CTRL6_C (15h) 9.18 CTRL7_G (16h) 9.19 CTRL8_XL (17h) 9.20 CTRL9_XL (18h) 9.21 CTRL10_C (19h) 9.22 ALL_INT_SRC (1A) 9.23 WAKE_UP_SRC (1Bh) 9.24 TAP_SRC (1Ch) 9.25 DRD_SRC (1Dh) 9.26 STATUS_REG (1Eh) / STATUS_SPIAux (1Eh) 9.27 OUT_TEMP_L (20h), OUT_TEMP_H (21h) 9.28 OUTX_L_G (22h) and OUTX_H_G (23h) 9.29 OUTY_L_G (24h) and OUTY_H_G (25h) 9.30 OUTZ_L_G (26h) and OUTZ_H_G (27h) 9.31 OUTX_L_A (28h) and OUTX_H_A (29h) 9.32 OUTY_L_A (2Ah) and OUTY_H_A (2Bh) 9.33 OUTZ_L_A (2Ch) and OUTZ_H_A (2Dh) 9.34 EMB_FUNC_STATUS_MAINPAGE (35h) 9.35 FSM_STATUS_A_MAINPAGE (36h) 9.36 FSM_STATUS_B_MAINPAGE (37h) 9.37 MLC_STATUS_MAINPAGE (38h) 9.38 STATUS_MASTER_MAINPAGE (39h) 9.39 FIFO_STATUS1 (3Ah) 9.40 FIFO_STATUS2 (3Bh) 9.41 TIMESTAMP0 (40h), TIMESTAMP1 (41h), TIMESTAMP2 (42h), and TIMESTAMP3 (43h) 9.42 TAP_CFG0 (56h) 9.43 TAP_CFG1 (57h) 9.44 TAP_CFG2 (58h) 9.45 TAP_THS_6D (59h) 9.46 INT_DUR2 (5Ah) 9.47 WAKE_UP_THS (5Bh) 9.48 WAKE_UP_DUR (5Ch) 9.49 FREE_FALL (5Dh) 9.50 MD1_CFG (5Eh) 9.51 MD2_CFG (5Fh) 9.52 INTERNAL_FREQ_FINE (63h) 9.53 INT_OIS (6Fh) 9.54 CTRL1_OIS (70h) 9.55 CTRL2_OIS (71h) 9.56 CTRL3_OIS (72h) 9.57 X_OFS_USR (73h) 9.58 Y_OFS_USR (74h) 9.59 Z_OFS_USR (75h) 9.60 FIFO_DATA_OUT_TAG (78h) 9.61 FIFO_DATA_OUT_X_L (79h) and FIFO_DATA_OUT_X_H (7Ah) 9.62 FIFO_DATA_OUT_Y_L (7Bh) and FIFO_DATA_OUT_Y_H (7Ch) 9.63 FIFO_DATA_OUT_Z_L (7Dh) and FIFO_DATA_OUT_Z_H (7Eh) 10 Embedded functions register mapping 11 Embedded functions register description 11.1 PAGE_SEL (02h) 11.2 EMB_FUNC_EN_A (04h) 11.3 EMB_FUNC_EN_B (05h) 11.4 PAGE_ADDRESS (08h) 11.5 PAGE_VALUE (09h) 11.6 EMB_FUNC_INT1 (0Ah) 11.7 FSM_INT1_A (0Bh) 11.8 FSM_INT1_B (0Ch) 11.9 MLC_INT1 (0Dh) 11.10 EMB_FUNC_INT2 (0Eh) 11.11 FSM_INT2_A (0Fh) 11.12 FSM_INT2_B (10h) 11.13 MLC_INT2 (11h) 11.14 EMB_FUNC_STATUS (12h) 11.15 FSM_STATUS_A (13h) 11.16 FSM_STATUS_B (14h) 11.17 MLC_STATUS (15h) 11.18 PAGE_RW (17h) 11.19 EMB_FUNC_FIFO_CFG (44h) 11.20 FSM_ENABLE_A (46h) 11.21 FSM_ENABLE_B (47h) 11.22 FSM_LONG_COUNTER_L (48h) and FSM_LONG_COUNTER_H (49h) 11.23 FSM_LONG_COUNTER_CLEAR (4Ah) 11.24 FSM_OUTS1 (4Ch) 11.25 FSM_OUTS2 (4Dh) 11.26 FSM_OUTS3 (4Eh) 11.27 FSM_OUTS4 (4Fh) 11.28 FSM_OUTS5 (50h) 11.29 FSM_OUTS6 (51h) 11.30 FSM_OUTS7 (52h) 11.31 FSM_OUTS8 (53h) 11.32 FSM_OUTS9 (54h) 11.33 FSM_OUTS10 (55h) 11.34 FSM_OUTS11 (56h) 11.35 FSM_OUTS12 (57h) 11.36 FSM_OUTS13 (58h) 11.37 FSM_OUTS14 (59h) 11.38 FSM_OUTS15 (5Ah) 11.39 FSM_OUTS16 (5Bh) 11.40 EMB_FUNC_ODR_CFG_B (5Fh) 11.41 EMB_FUNC_ODR_CFG_C (60h) 11.42 STEP_COUNTER_L (62h) and STEP_COUNTER_H (63h) 11.43 EMB_FUNC_SRC (64h) 11.44 EMB_FUNC_INIT_A (66h) 11.45 EMB_FUNC_INIT_B (67h) 11.46 MLC0_SRC (70h) 11.47 MLC1_SRC (71h) 11.48 MLC2_SRC (72h) 11.49 MLC3_SRC (73h) 11.50 MLC4_SRC (74h) 11.51 MLC5_SRC (75h) 11.52 MLC6_SRC (76h) 11.53 MLC7_SRC (77h) 12 Embedded advanced features pages 13 Embedded advanced features register description 13.1 Page 0 - Embedded advanced features registers 13.1.1 MAG_SENSITIVITY_L (BAh) and MAG_SENSITIVITY_H (BBh) 13.1.2 MAG_OFFX_L (C0h) and MAG_OFFX_H (C1h) 13.1.3 MAG_OFFY_L (C2h) and MAG_OFFY_H (C3h) 13.1.4 MAG_OFFZ_L (C4h) and MAG_OFFZ_H (C5h) 13.1.5 MAG_SI_XX_L (C6h) and MAG_SI_XX_H (C7h) 13.1.6 MAG_SI_XY_L (C8h) and MAG_SI_XY_H (C9h) 13.1.7 MAG_SI_XZ_L (CAh) and MAG_SI_XZ_H (CBh) 13.1.8 MAG_SI_YY_L (CCh) and MAG_SI_YY_H (CDh) 13.1.9 MAG_SI_YZ_L (CEh) and MAG_SI_YZ_H (CFh) 13.1.10 MAG_SI_ZZ_L (D0h) and MAG_SI_ZZ_H (D1h) 13.1.11 MAG_CFG_A (D4h) 13.1.12 MAG_CFG_B (D5h) 13.2 Page 1 - Embedded advanced features registers 13.2.1 FSM_LC_TIMEOUT_L (7Ah) and FSM_LC_TIMEOUT_H (7Bh) 13.2.2 FSM_PROGRAMS (7Ch) 13.2.3 FSM_START_ADD_L (7Eh) and FSM_START_ADD_H (7Fh) 13.2.4 PEDO_CMD_REG (83h) 13.2.5 PEDO_DEB_CONF (84h) 13.2.6 PEDO_SC_DELTAT_L (D0h) and PEDO_SC_DELTAT_H (D1h) 13.2.7 MLC_MAG_SENSITIVITY_L (E8h) and MLC_MAG_SENSITIVITY_H (E9h) 14 Sensor hub register mapping 15 Sensor hub register description 15.1 SENSOR_HUB_1 (02h) 15.2 SENSOR_HUB_2 (03h) 15.3 SENSOR_HUB_3 (04h) 15.4 SENSOR_HUB_4 (05h) 15.5 SENSOR_HUB_5 (06h) 15.6 SENSOR_HUB_6 (07h) 15.7 SENSOR_HUB_7 (08h) 15.8 SENSOR_HUB_8 (09h) 15.9 SENSOR_HUB_9 (0Ah) 15.10 SENSOR_HUB_10 (0Bh) 15.11 SENSOR_HUB_11 (0Ch) 15.12 SENSOR_HUB_12 (0Dh) 15.13 SENSOR_HUB_13 (0Eh) 15.14 SENSOR_HUB_14 (0Fh) 15.15 SENSOR_HUB_15 (10h) 15.16 SENSOR_HUB_16 (11h) 15.17 SENSOR_HUB_17 (12h) 15.18 SENSOR_HUB_18 (13h) 15.19 MASTER_CONFIG (14h) 15.20 SLV0_ADD (15h) 15.21 SLV0_SUBADD (16h) 15.22 SLAVE0_CONFIG (17h) 15.23 SLV1_ADD (18h) 15.24 SLV1_SUBADD (19h) 15.25 SLAVE1_CONFIG (1Ah) 15.26 SLV2_ADD (1Bh) 15.27 SLV2_SUBADD (1Ch) 15.28 SLAVE2_CONFIG (1Dh) 15.29 SLV3_ADD (1Eh) 15.30 SLV3_SUBADD (1Fh) 15.31 SLAVE3_CONFIG (20h) 15.32 DATAWRITE_SLV0 (21h) 15.33 STATUS_MASTER (22h) 16 Soldering information 17 Package information 17.1 LGA-14L package information 17.2 LGA-14 packing information Revision history Contents List of tables List of figures