ZHCSTC5B October 2023 – June 2024 LM51772
PRODUCTION DATA
Table 8-1 lists the memory-mapped registers for the LM51772 registers. All register offset addresses not listed in Table 8-1 should be considered as reserved locations and the register contents should not be modified.
Address | Acronym | Register Name | Section |
---|---|---|---|
0x3 | CLEAR_FAULTS | CLEAR_FAULTS | Go |
0xA | ILIM_THRESHOLD | ILIM_THRESHOLD | Go |
0xC | VOUT_TARGET1_LSB | VOUT_TARGET1_LSB | Go |
0xD | VOUT_TARGET1_MSB | VOUT_TARGET1_MSB | Go |
0x21 | USB_PD_STATUS_0 | USB_PD_STATUS_0 | Go |
0x78 | STATUS_BYTE | STATUS_BYTE | Go |
0x81 | USB_PD_CONTROL_0 | USB_PD_CONTROL_0 | Go |
0xD0 | MFR_SPECIFIC_D0 | MFR_SPECIFIC_D0 | Go |
0xD1 | MFR_SPECIFIC_D1 | MFR_SPECIFIC_D1 | Go |
0xD2 | MFR_SPECIFIC_D2 | MFR_SPECIFIC_D2 | Go |
0xD3 | MFR_SPECIFIC_D3 | MFR_SPECIFIC_D3 | Go |
0xD4 | MFR_SPECIFIC_D4 | MFR_SPECIFIC_D4 | Go |
0xD5 | MFR_SPECIFIC_D5 | MFR_SPECIFIC_D5 | Go |
0xD6 | MFR_SPECIFIC_D6 | MFR_SPECIFIC_D6 | Go |
0xD7 | MFR_SPECIFIC_D7 | MFR_SPECIFIC_D7 | Go |
0xD8 | MFR_SPECIFIC_D8 | MFR_SPECIFIC_D8 | Go |
0xD9 | MFR_SPECIFIC_D9 | MFR_SPECIFIC_D9 | Go |
0xDA | IVP_VOLTAGE | IVP_VOLTAGE | Go |
Complex bit access types are encoded to fit into small table cells. Table 8-2 shows the codes that are used for access types in this section.
Access Type | Code | Description |
---|---|---|
Read Type | ||
R | R | Read |
Write Type | ||
W | W | Write |
Reset or Default Value | ||
-n | Value after reset or the default value |
CLEAR_FAULTS is shown in Table 8-3.
clear all latched status flags
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | CLEAR_FAULTS | R | 0x0 | accessing the address is enough to clear fault |
ILIM_THRESHOLD is shown in Table 8-4.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | ILIM_THRESHOLD | R/W | 0x64 | ISNS current limit threshold voltage. Value in bracket considers a 10mOhms sens resistor
0x0 = 5mV (0.5 A) 0x1 = 5mV (0.5 A) 0x2 = 5mV (0.5 A) 0x3 = 5mV (0.5 A) 0x4 = 5mV (0.5 A) 0x5 = 5mV (0.5 A) 0x6 = 5mV (0.5 A) 0x7 = 5mV (0.5 A) 0x8 = 5mV (0.5 A) 0x9 = 5mV (0.5 A) 0xA = 5mV (0.5 A) 0xB = 5.5mV (0.55 A) 0xC = 6mV (0.6 A) 0xD = 6.5mV (0.65 A) 0xE = 7mV (0.7 A) 0xF = 7.5mV (0.75 A) 0x10 = 8mV (0.8 A) 0x11 = 8.5mV (0.85 A) 0x12 = 9mV (0.9 A) 0x13 = 9.5mV (0.95 A) 0x14 = 10mV (1 A) 0x15 = 10.5mV (1.05 A) 0x16 = 11mV (1.1 A) 0x17 = 11.5mV (1.15 A) 0x18 = 12mV (1.2 A) 0x19 = 12.5mV (1.25 A) 0x1A = 13mV (1.3 A) 0x1B = 13.5mV (1.35 A) 0x1C = 14mV (1.4 A) 0x1D = 14.5mV (1.45 A) 0x1E = 15mV (1.5 A) 0x1F = 15.5mV (1.55 A) 0x20 = 16mV (1.6 A) 0x21 = 16.5mV (1.65 A) 0x22 = 17mV (1.7 A) 0x23 = 17.5mV (1.75 A) 0x24 = 18mV (1.8 A) 0x25 = 18.5mV (1.85 A) 0x26 = 19mV (1.9 A) 0x27 = 19.5mV (1.95 A) 0x28 = 20mV (2 A) 0x29 = 20.5mV (2.05 A) 0x2A = 21mV (2.1 A) 0x2B = 21.5mV (2.15 A) 0x2C = 22mV (2.2 A) 0x2D = 22.5mV (2.25 A) 0x2E = 23mV (2.3 A) 0x2F = 23.5mV (2.35 A) 0x30 = 24mV (2.4 A) 0x31 = 24.5mV (2.45 A) 0x32 = 25mV (2.5 A) 0x33 = 25.5mV (2.55 A) 0x34 = 26mV (2.6 A) 0x35 = 26.5mV (2.65 A) 0x36 = 27mV (2.7 A) 0x37 = 27.5mV (2.75 A) 0x38 = 28mV (2.8 A) 0x39 = 28.5mV (2.85 A) 0x3A = 29mV (2.9 A) 0x3B = 29.5mV (2.95 A) 0x3C = 30mV (3 A) 0x3D = 30.5mV (3.05 A) 0x3E = 31mV (3.1 A) 0x3F = 31.5mV (3.15 A) 0x40 = 32mV (3.2 A) 0x41 = 32.5mV (3.25 A) 0x42 = 33mV (3.3 A) 0x43 = 33.5mV (3.35 A) 0x44 = 34mV (3.4 A) 0x45 = 34.5mV (3.45 A) 0x46 = 35mV (3.5 A) 0x47 = 35.5mV (3.55 A) 0x48 = 36mV (3.6 A) 0x49 = 36.5mV (3.65 A) 0x4A = 37mV (3.7 A) 0x4B = 37.5mV (3.75 A) 0x4C = 38mV (3.8 A) 0x4D = 38.5mV (3.85 A) 0x4E = 39mV (3.9 A) 0x4F = 39.5mV (3.95 A) 0x50 = 40mV (4 A) 0x51 = 40.5mV (4.05 A) 0x52 = 41mV (4.1 A) 0x53 = 41.5mV (4.15 A) 0x54 = 42mV (4.2 A) 0x55 = 42.5mV (4.25 A) 0x56 = 43mV (4.3 A) 0x57 = 43.5mV (4.35 A) 0x58 = 44mV (4.4 A) 0x59 = 44.5mV (4.45 A) 0x5A = 45mV (4.5 A) 0x5B = 45.5mV (4.55 A) 0x5C = 46mV (4.6 A) 0x5D = 46.5mV (4.65 A) 0x5E = 47mV (4.7 A) 0x5F = 47.5mV (4.75 A) 0x60 = 48mV (4.8 A) 0x61 = 48.5mV (4.85 A) 0x62 = 49mV (4.9 A) 0x63 = 49.5mV (4.95 A) 0x64 = 50mV (5 A) 0x65 = 50.5mV (5.05 A) 0x66 = 51mV (5.1 A) 0x67 = 51.5mV (5.15 A) 0x68 = 52mV (5.2 A) 0x69 = 52.5mV (5.25 A) 0x6A = 53mV (5.3 A) 0x6B = 53.5mV (5.35 A) 0x6C = 54mV (5.4 A) 0x6D = 54.5mV (5.45 A) 0x6E = 55mV (5.5 A) 0x6F = 55.5mV (5.55 A) 0x70 = 56mV (5.6 A) 0x71 = 56.5mV (5.65 A) 0x72 = 57mV (5.7 A) 0x73 = 57.5mV (5.75 A) 0x74 = 58mV (5.8 A) 0x75 = 58.5mV (5.85 A) 0x76 = 59mV (5.9 A) 0x77 = 59.5mV (5.95 A) 0x78 = 60mV (6 A) 0x79 = 60.5mV (6.05 A) 0x7A = 61mV (6.1 A) 0x7B = 61.5mV (6.15 A) 0x7C = 62mV (6.2 A) 0x7D = 62.5mV (6.25 A) 0x7E = 63mV (6.3 A) 0x7F = 63.5mV (6.35 A) 0x80 = 64mV (6.4 A) 0x81 = 64.5mV (6.45 A) 0x82 = 65mV (6.5 A) 0x83 = 65.5mV (6.55 A) 0x84 = 66mV (6.6 A) 0x85 = 66.5mV (6.65 A) 0x86 = 67mV (6.7 A) 0x87 = 67.5mV (6.75 A) 0x88 = 68mV (6.8 A) 0x89 = 68.5mV (6.85 A) 0x8A = 69mV (6.9 A) 0x8B = 69.5mV (6.95 A) 0x8C = 70mV (7 A) 0x8D = 70mV (7 A) 0x8E = 70mV (7 A) 0x8F = 70mV (7 A) 0x90 = 70mV (7 A) 0x91 = 70mV (7 A) 0x92 = 70mV (7 A) 0x93 = 70mV (7 A) 0x94 = 70mV (7 A) 0x95 = 70mV (7 A) 0x96 = 70mV (7 A) 0x97 = 70mV (7 A) 0x98 = 70mV (7 A) 0x99 = 70mV (7 A) 0x9A = 70mV (7 A) 0x9B = 70mV (7 A) 0x9C = 70mV (7 A) 0x9D = 70mV (7 A) 0x9E = 70mV (7 A) 0x9F = 70mV (7 A) 0xA0 = 70mV (7 A) 0xA1 = 70mV (7 A) 0xA2 = 70mV (7 A) 0xA3 = 70mV (7 A) 0xA4 = 70mV (7 A) 0xA5 = 70mV (7 A) 0xA6 = 70mV (7 A) 0xA7 = 70mV (7 A) 0xA8 = 70mV (7 A) 0xA9 = 70mV (7 A) 0xAA = 70mV (7 A) 0xAB = 70mV (7 A) 0xAC = 70mV (7 A) 0xAD = 70mV (7 A) 0xAE = 70mV (7 A) 0xAF = 70mV (7 A) 0xB0 = 70mV (7 A) 0xB1 = 70mV (7 A) 0xB2 = 70mV (7 A) 0xB3 = 70mV (7 A) 0xB4 = 70mV (7 A) 0xB5 = 70mV (7 A) 0xB6 = 70mV (7 A) 0xB7 = 70mV (7 A) 0xB8 = 70mV (7 A) 0xB9 = 70mV (7 A) 0xBA = 70mV (7 A) 0xBB = 70mV (7 A) 0xBC = 70mV (7 A) 0xBD = 70mV (7 A) 0xBE = 70mV (7 A) 0xBF = 70mV (7 A) 0xC0 = 70mV (7 A) 0xC1 = 70mV (7 A) 0xC2 = 70mV (7 A) 0xC3 = 70mV (7 A) 0xC4 = 70mV (7 A) 0xC5 = 70mV (7 A) 0xC6 = 70mV (7 A) 0xC7 = 70mV (7 A) 0xC8 = 70mV (7 A) 0xC9 = 70mV (7 A) 0xCA = 70mV (7 A) 0xCB = 70mV (7 A) 0xCC = 70mV (7 A) 0xCD = 70mV (7 A) 0xCE = 70mV (7 A) 0xCF = 70mV (7 A) 0xD0 = 70mV (7 A) 0xD1 = 70mV (7 A) 0xD2 = 70mV (7 A) 0xD3 = 70mV (7 A) 0xD4 = 70mV (7 A) 0xD5 = 70mV (7 A) 0xD6 = 70mV (7 A) 0xD7 = 70mV (7 A) 0xD8 = 70mV (7 A) 0xD9 = 70mV (7 A) 0xDA = 70mV (7 A) 0xDB = 70mV (7 A) 0xDC = 70mV (7 A) 0xDD = 70mV (7 A) 0xDE = 70mV (7 A) 0xDF = 70mV (7 A) 0xE0 = 70mV (7 A) 0xE1 = 70mV (7 A) 0xE2 = 70mV (7 A) 0xE3 = 70mV (7 A) 0xE4 = 70mV (7 A) 0xE5 = 70mV (7 A) 0xE6 = 70mV (7 A) 0xE7 = 70mV (7 A) 0xE8 = 70mV (7 A) 0xE9 = 70mV (7 A) 0xEA = 70mV (7 A) 0xEB = 70mV (7 A) 0xEC = 70mV (7 A) 0xED = 70mV (7 A) 0xEE = 70mV (7 A) 0xEF = 70mV (7 A) 0xF0 = 70mV (7 A) 0xF1 = 70mV (7 A) 0xF2 = 70mV (7 A) 0xF3 = 70mV (7 A) 0xF4 = 70mV (7 A) 0xF5 = 70mV (7 A) 0xF6 = 70mV (7 A) 0xF7 = 70mV (7 A) 0xF8 = 70mV (7 A) 0xF9 = 70mV (7 A) 0xFA = 70mV (7 A) 0xFB = 70mV (7 A) 0xFC = 70mV (7 A) 0xFD = 70mV (7 A) 0xFE = 70mV (7 A) 0xFF = 70mV (7 A) |
VOUT_TARGET1_LSB is shown in Table 8-5.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | VOUT_A | R/W | 0x58 | Output target Voltage Logical Register Vout Setting Lower Limit: 3.3V or 1V depending on SEL__FB_DIV20 Upper Limit: 48V or 2 V depending on SEL__FB_DIV20 Step size: 20mV or 10mV depending on SEL__FB_DIV20 Value Calculation for 20mV Value Calculation for 10mV |
VOUT_TARGET1_MSB is shown in Table 8-6.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:4 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
3:0 | VOUT_A | R/W | 0x2 | Output target Voltage Logical Register Vout Setting Lower Limit: 3.3V or 1V depending on SEL__FB_DIV20 Upper Limit: 48V or 2 V depending on SEL__FB_DIV20 Step size: 20mV or 10mV depending on SEL__FB_DIV20 Value Calculation for 20mV Value Calculation for 10mV |
USB_PD_STATUS_0 is shown in Table 8-7.
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USB-PD STATUS REGISTER
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
6 | CC_OPERATION | R | 0x0 | Instantanous status for constant current (CC) ILIM operation |
5;0 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
STATUS_BYTE is shown in Table 8-8.
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FAULT STATUS LOW BYTE
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | BUSY | R | 0x0 | unit is busy
0x0 = unit not busy 0x1 = unit busy |
6 | OFF | R | 0x0 | device not providing VOUT and/or unit is off
0x0 = unit on 0x1 = unit off |
5 | VOUT | R | 0x0 | VOUT_OV fault
0x0 = no fault 0x1 = fault |
4 | IOUT | R | 0x0 | IOUT_OC fault
0x0 = no fault 0x1 = fault |
3 | INPUT | R | 0x0 | VIN_UV fault
0x0 = no fault 0x1 = fault |
2 | TEMPERATURE | R | 0x0 | Temperature fault or warning
0x0 = no fault 0x1 = fault |
1 | CML | R | 0x0 | Comm, Logic, Memory event
0x0 = no fault 0x1 = fault |
0 | OTHER | R | 0x0 | other fault or warning
0x0 = no fault 0x1 = fault |
USB_PD_CONTROL_0 is shown in Table 8-9.
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USB-PD CONTROL REGISTER
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:2 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
1 | FORCE_DISCH | R/W | 0x0 | Activates Vo discharge
0x0 = DISABLE 0x1 = ENABLE |
0 | CONV_EN2 | R/W | 0x1 | Enables the power stage
0x0 = DISABLE 0x1 = ENABLE |
MFR_SPECIFIC_D0 is shown in Table 8-10.
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CONFIG_0 Device Configuration Register 0
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
6 | EN_NEG_CL_LIMIT | R/W | 0x0 | Enables ILIM for negative current limit, If disabled ILIM clamps pos I_L
0x0 = DISABLE 0x1 = ENABLE |
5 | EN_VCC1 | R/W | 0x1 | Enables the VCC1 auxiliary LDO
0x0 = DISABLE 0x1 = ENABLE |
4 | IMON_LIMITER_EN | R/W | 0x1 | Enables the Imon in limiter configuration
0x0 = DISABLE 0x1 = ENABLE |
3 | HICCUP_EN | R/W | 0x0 | Enables Hiccup short circuit
0x0 = DISABLE 0x1 = ENABLE |
2 | DRSS_EN | R/W | 0x0 | Enables Dual Spread Spectrum
0x0 = DISABLE 0x1 = ENABLE |
1 | USLEEP_EN | R/W | 0x1 | Enables micro sleep mode
0x0 = DISABLE 0x1 = ENABLE |
0 | CONV_EN | R/W | 0x0 | Enables the power stage
0x0 = DISABLE 0x1 = ENABLE |
MFR_SPECIFIC_D1 is shown in Table 8-11.
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CONFIG_1 Device Configuration Register 1
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | EN_THER_WARN | R/W | 0x0 | Enables Thermal Warning
0x0 = DISABLE 0x1 = ENABLE |
6:5 | THW_THRESHOLD | R/W | 0x0 | Selects the Thermal Warning Threshold
0x0 = 140degC 0x1 = 125degC 0x2 = 110degC 0x3 = 95degC |
4 | EN_NINT | R/W | 0x0 | Conigures the nFLT pin handler to act as interupt pin or nFLT pin
0x0 = DISABLE 0x1 = ENABLE |
3 | EN_DTRK_STARTOVER | R/W | 0x1 | Enables a direct start-up if DTRK is enabled without waiting for the DTRK PWM signal
0x0 = DISABLE 0x1 = ENABLE |
2 | FORCE_BIASPIN | R/W | 0x0 | Enables the priroty to supply VCC2 from BIAS by lowering the threshold.
0x0 = DISABLE 0x1 = ENABLE |
1 | EN_BB_2P_FPWM | R/W | 0x0 | Enables 2phase BB swiching in fPWM mode
0x0 = DISABLE 0x1 = ENABLE |
0 | EN_BB_2P_PSM | R/W | 0x1 | Enables 2phase BB swiching in PSM mode
0x0 = DISABLE 0x1 = ENABLE |
MFR_SPECIFIC_D2 is shown in Table 8-12.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
6 | EN_ACTIVE_DVS | R/W | 0x1 | Enables the active down ramp for DVS using the discharge
0x0 = DISABLE 0x1 = ENABLE |
5:4 | DVS_SLEW_RAMP | R/W | 0x0 | Sets the positive and negative Vo slew rate for DVS
0x0 = 40mV/us 0x1 = 20mV/us 0x2 = 1mV/us 0x3 = 0.5mV/us |
3:2 | DISCHARGE_STRENGTH | R/W | 0x0 | Sets the discharge current for the Vo discharge
0x0 = SLOW (25mA) 0x1 = MEDIUM (50mA) 0x2 = FAST (75mA) 0x3 = FAST (75mA) |
1 | DISCHARGE_CONFIG0 | R/W | 0x0 | Selects the discharge together with CONV_EN
0x0 = DISABLE 0x1 = ENABLE |
0 | DISCHARGE_CONFIG1 | R/W | 0x0 | Selects the discharge until the VTH DISCH
0x0 = DISABLE 0x1 = ENABLE |
MFR_SPECIFIC_D3 is shown in Table 8-13.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | EN_IVP | R/W | 0x0 | Enabled input voltage protection.
0x0 = DISABLE 0x1 = ENABLE |
6 | SEL_IVR | R/W | 0x0 | Selected input voltage regulation instead of the input voltage protection.
0x0 = DISABLE 0x1 = ENABLE |
5 | VDET_EN | R/W | 0x1 | Enables internal VDET function
0x0 = DISABLE 0x1 = ENABLE |
4:0 | VDET_FALL | R/W | 0x0 | VDET falling threshold
0x0 = 2.7V 0x1 = 2.9V 0x2 = 3.1V 0x3 = 3.3V 0x4 = 3.5V 0x5 = 3.7V 0x6 = 3.9V 0x7 = 4.1V 0x8 = 4.3V 0x9 = 4.5V 0xA = 4.7V 0xB = 4.9V 0xC = 5.1V 0xD = 5.3V 0xE = 5.5V 0xF = 5.7V 0x10 = 5.9V 0x11 = 6.1V 0x12 = 6.3V 0x13 = 6.5V 0x14 = 6.7V 0x15 = 6.9V 0x16 = 7.1V 0x17 = 7.3V 0x18 = 7.5V 0x19 = 7.7V 0x1A = 7.9V 0x1B = 8.1V 0x1C = 8.3V 0x1D = 8.5V 0x1E = 8.7V 0x1F = 8.9V |
MFR_SPECIFIC_D4 is shown in Table 8-14.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
4:0 | VDET_RISE | R/W | 0x3 | VDET rising threshold
0x0 = 2.8V 0x1 = 3V 0x2 = 3.2V 0x3 = 3.4V 0x4 = 3.6V 0x5 = 3.8V 0x6 = 4V 0x7 = 4.2V 0x8 = 4.4V 0x9 = 4.6V 0xA = 4.8V 0xB = 5V 0xC = 5.2V 0xD = 5.4V 0xE = 5.6V 0xF = 5.8V 0x10 = 6V 0x11 = 6.2V 0x12 = 6.4V 0x13 = 6.6V 0x14 = 6.8V 0x15 = 7V 0x16 = 7.2V 0x17 = 7.4V 0x18 = 7.6V 0x19 = 7.8V 0x1A = 8V 0x1B = 8.2V 0x1C = 8.4V 0x1D = 8.6V 0x1E = 8.8V 0x1F = 9V |
MFR_SPECIFIC_D5 is shown in Table 8-15.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
5:0 | V_OVP2 | R/W | 0x3F | OVP2 threshold voltage
0x0 = 4.00V 0x1 = 4.500V 0x2 = 5.000V 0x3 = 5.500V 0x4 = 6.000V 0x5 = 6.500V 0x6 = 7.000V 0x7 = 7.500V 0x8 = 8.000V 0x9 = 8.500V 0xA = 9.000V 0xB = 9.500V 0xC = 10.000V 0xD = 10.500V 0xE = 11.000V 0xF = 11.500V 0x10 = 12.000V 0x11 = 12.500V 0x12 = 13.000V 0x13 = 13.500V 0x14 = 14.000V 0x15 = 14.500V 0x16 = 15.000V 0x17 = 15.500V 0x18 = 16.000V 0x19 = 17.000V 0x1A = 18.000V 0x1B = 19.000V 0x1C = 20.000V 0x1D = 21.000V 0x1E = 22.000V 0x1F = 23.000V 0x20 = 24.000V 0x21 = 25.000V 0x22 = 26.000V 0x23 = 27.000V 0x24 = 28.000V 0x25 = 29.000V 0x26 = 30.000V 0x27 = 31.000V 0x28 = 32.000V 0x29 = 33.000V 0x2A = 34.000V 0x2B = 35.000V 0x2C = 36.000V 0x2D = 37.000V 0x2E = 38.000V 0x2F = 39.000V 0x30 = 40.000V 0x31 = 41.000V 0x32 = 42.000V 0x33 = 43.000V 0x34 = 44.000V 0x35 = 45.000V 0x36 = 46.000V 0x37 = 47.000V 0x38 = 48.000V 0x39 = 49.000V 0x3A = 50.000V 0x3B = 51.000V 0x3C = 52.000V 0x3D = 53.000V 0x3E = 54.000V 0x3F = 55.000V |
MFR_SPECIFIC_D6 is shown in Table 8-16.
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PS_Config0 Power stage Configuration
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | CONFIG_SYNC_PIN | R/W | 0x0 | Selects the SYNC function to mainain paralell operation
0x0 = Input sync on rising edge 0x1 = Input sync on falling edge 0x2 = Sync output from internal rising edge 0x3 = Sync output from internal falling edge (180deg phase) |
5 | EN_CONST_TDEAD | R/W | 0x0 | Forces a constant deadtime for the setting of SEL_MIN_DEADTIME_GDRV. Disables frequnecy dependency of min Tdead
0x0 = DISABLE 0x1 = ENABLE |
4 | SEL_SCALE_DT | R/W | 0x1 | Scales the gate driver dead time freq dependence and 2 MHz setpoint
0x0 = DISABLE 0x1 = ENABLE |
3:2 | SEL_MIN_DEADTIME_GDRV | R/W | 0x1 | Defines the minimum dead time at fsw = 2Mhz for the gate driver
0x0 = 10 ns (No delay) 0x1 = 20 ns 0x2 = 40 ns 0x3 = 60 ns |
1:0 | BB_MIN_TIME_OFFSET | R/W | 0x1 | Scales the BB min Ton or Toff time for the gate refresh
0x0 = 0.75 x 0x1 = 1 x 0x2 = 1.25 x 0x3 = 1.5 x |
MFR_SPECIFIC_D7 is shown in Table 8-17.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
5:4 | SEL_INDUC_DERATE | R/W | 0x2 | Select the inductor de-rating for PSM mode to slope
0x0 = DISABLE 0x1 = 20% 0x2 = 30% 0x3 = 40% |
3:0 | SEL_SLOPE_COMP | R/W | 0x8 | Select slope comp current, as ratio of RT current
0x0 = 0.125 0x1 = 0.25 0x2 = 0.375 0x3 = 0.5 0x4 = 0.625 0x5 = 0.75 0x6 = 0.875 0x7 = 1 0x8 = 1.5 0x9 = 2 0xA = 2.5 0xB = 3 0xC = 3.5 0xD = 4 0xE = 4.5 0xF = 5 |
MFR_SPECIFIC_D8 is shown in Table 8-18.
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Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | SEL_FB_DIV20 | R/W | 0x1 | Select internal FB divider ratio of 20
0x0 = DIV10 0x1 = DIV20 |
6 | EN_CDC | R/W | 0x0 | Enables the cable drop compensation
0x0 = DISABLE 0x1 = ENABLE |
5:4 | CDC_GAIN | R/W | 0x0 | Selectes the Gain for the CDC voltage (1V) with respect to Vout
0x0 = 0.250V 0x1 = 0.500V 0x2 = 1.000V 0x3 = 2.000V |
3:2 | SEL_DRV1_SEQ | R/W | 0x1 | Select the sequencing for the DRV 1 operation
0x0 = Pull-Low/ CP running if converter operation is off 0x1 = Pull-Low/ CP running if converter operation is on 0x2 = FORCE ACTIVE 0x3 = FORCE OFF |
1:0 | SEL_DRV1_SUP | R/W | 0x0 | Select the driver configuration for DRV1 pin
0x0 = Open Drain (active = pull low) 0x1 = Vout 0x2 = VBIAS 0x3 = VCC2 (Charge Pump driver) |
MFR_SPECIFIC_D9 is shown in Table 8-19.
Return to the Summary Table.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | NIL | R | 0x0 | This bit is not implemented in hardware. During write operations data for this bit is ignored. During read operations 0 is returned. |
5 | SEL_ISET_PIN | R/W | 0x1 | Forces the ISET pin in I2C active config and disables the ILIM DAC.
0x0 = DISABLE 0x1 = ENABLE |
4:0 | PCM_WINDOW_LOW | R/W | 0xC | Select the lower voltage window threshold refered to VOUT for the PCM
0x0 = 0 (Disable)% 0x1 = 2.50% 0x2 = 5% 0x3 = 7.5% 0x4 = 10% 0x5 = 12.5% 0x6 = 15% 0x7 = 17.5% 0x8 = 20% 0x9 = 22.5% 0xA = 25% 0xB = 27.5% 0xC = 30% 0xD = 32.5% 0xE = 35% 0xF = 37.5% 0x10 = 40% 0x11 = 42.5% 0x12 = 45% 0x13 = 47.5% 0x14 = 50% 0x15 = 52.5% 0x16 = 55% 0x17 = 57.5% 0x18 = 60% 0x19 = 62.5% 0x1A = 65% 0x1B = 67.5% 0x1C = 70% 0x1D = 72.5% 0x1E = 75% 0x1F = 77.5% |
IVP_VOLTAGE is shown in Table 8-20.
Return to the Summary Table.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | V_IVP | R/W | 0xFF | Input Overvoltage Protection and Regulatoin Threshold
0x0 = 4.75V 0x1 = 4.875V 0x2 = 5.000V 0x3 = 5.125V 0x4 = 5.250V 0x5 = 5.375V 0x6 = 5.500V 0x7 = 5.625V 0x8 = 5.750V 0x9 = 5.875V 0xA = 6.000V 0xB = 6.125V 0xC = 6.250V 0xD = 6.375V 0xE = 6.500V 0xF = 6.625V 0x10 = 6.750V 0x11 = 6.875V 0x12 = 7.000V 0x13 = 7.125V 0x14 = 7.250V 0x15 = 7.375V 0x16 = 7.500V 0x17 = 7.625V 0x18 = 7.750V 0x19 = 7.875V 0x1A = 8.000V 0x1B = 8.125V 0x1C = 8.250V 0x1D = 8.375V 0x1E = 8.500V 0x1F = 8.625V 0x20 = 8.750V 0x21 = 8.875V 0x22 = 9.000V 0x23 = 9.125V 0x24 = 9.250V 0x25 = 9.375V 0x26 = 9.500V 0x27 = 9.625V 0x28 = 9.750V 0x29 = 9.875V 0x2A = 10.000V 0x2B = 10.125V 0x2C = 10.250V 0x2D = 10.375V 0x2E = 10.500V 0x2F = 10.625V 0x30 = 10.750V 0x31 = 10.875V 0x32 = 11.000V 0x33 = 11.125V 0x34 = 11.250V 0x35 = 11.375V 0x36 = 11.500V 0x37 = 11.625V 0x38 = 11.750V 0x39 = 11.875V 0x3A = 12.000V 0x3B = 12.125V 0x3C = 12.250V 0x3D = 12.375V 0x3E = 12.500V 0x3F = 12.625V 0x40 = 12.750V 0x41 = 12.875V 0x42 = 13.000V 0x43 = 13.125V 0x44 = 13.250V 0x45 = 13.375V 0x46 = 13.500V 0x47 = 13.625V 0x48 = 13.750V 0x49 = 13.875V 0x4A = 14.000V 0x4B = 14.125V 0x4C = 14.250V 0x4D = 14.375V 0x4E = 14.500V 0x4F = 14.625V 0x50 = 14.750V 0x51 = 14.875V 0x52 = 15.000V 0x53 = 15.125V 0x54 = 15.250V 0x55 = 15.375V 0x56 = 15.500V 0x57 = 15.625V 0x58 = 15.750V 0x59 = 15.875V 0x5A = 16.000V 0x5B = 16.125V 0x5C = 16.250V 0x5D = 16.375V 0x5E = 16.500V 0x5F = 16.625V 0x60 = 16.750V 0x61 = 16.875V 0x62 = 17.000V 0x63 = 17.125V 0x64 = 17.250V 0x65 = 17.375V 0x66 = 17.500V 0x67 = 17.625V 0x68 = 17.750V 0x69 = 17.875V 0x6A = 18.000V 0x6B = 18.125V 0x6C = 18.250V 0x6D = 18.375V 0x6E = 18.500V 0x6F = 18.625V 0x70 = 18.750V 0x71 = 18.875V 0x72 = 19.000V 0x73 = 19.125V 0x74 = 19.250V 0x75 = 19.375V 0x76 = 19.500V 0x77 = 19.625V 0x78 = 19.750V 0x79 = 19.875V 0x7A = 20.000V 0x7B = 20.125V 0x7C = 20.250V 0x7D = 20.375V 0x7E = 20.500V 0x7F = 20.625V 0x80 = 20.750V 0x81 = 20.875V 0x82 = 21.000V 0x83 = 21.125V 0x84 = 21.250V 0x85 = 21.375V 0x86 = 21.500V 0x87 = 21.625V 0x88 = 21.750V 0x89 = 21.875V 0x8A = 22.000V 0x8B = 22.125V 0x8C = 22.250V 0x8D = 22.375V 0x8E = 22.500V 0x8F = 22.625V 0x90 = 22.750V 0x91 = 22.875V 0x92 = 23.000V 0x93 = 23.125V 0x94 = 23.250V 0x95 = 23.500V 0x96 = 23.750V 0x97 = 24.000V 0x98 = 24.250V 0x99 = 24.500V 0x9A = 24.750V 0x9B = 25.000V 0x9C = 25.250V 0x9D = 25.500V 0x9E = 25.750V 0x9F = 26.000V 0xA0 = 26.250V 0xA1 = 26.500V 0xA2 = 26.750V 0xA3 = 27.000V 0xA4 = 27.250V 0xA5 = 27.500V 0xA6 = 27.750V 0xA7 = 28.000V 0xA8 = 28.250V 0xA9 = 28.500V 0xAA = 28.750V 0xAB = 29.000V 0xAC = 29.250V 0xAD = 29.500V 0xAE = 29.750V 0xAF = 30.000V 0xB0 = 30.250V 0xB1 = 30.500V 0xB2 = 30.750V 0xB3 = 31.000V 0xB4 = 31.250V 0xB5 = 31.500V 0xB6 = 31.750V 0xB7 = 32.000V 0xB8 = 32.250V 0xB9 = 32.500V 0xBA = 32.750V 0xBB = 33.000V 0xBC = 33.250V 0xBD = 33.500V 0xBE = 33.750V 0xBF = 34.000V 0xC0 = 34.250V 0xC1 = 34.500V 0xC2 = 34.750V 0xC3 = 35.000V 0xC4 = 35.250V 0xC5 = 35.500V 0xC6 = 35.750V 0xC7 = 36.000V 0xC8 = 36.250V 0xC9 = 36.500V 0xCA = 36.750V 0xCB = 37.000V 0xCC = 37.250V 0xCD = 37.500V 0xCE = 37.750V 0xCF = 38.000V 0xD0 = 38.250V 0xD1 = 38.500V 0xD2 = 38.750V 0xD3 = 39.000V 0xD4 = 39.250V 0xD5 = 39.500V 0xD6 = 39.750V 0xD7 = 40.000V 0xD8 = 40.250V 0xD9 = 40.500V 0xDA = 40.750V 0xDB = 41.000V 0xDC = 41.250V 0xDD = 41.500V 0xDE = 41.750V 0xDF = 42.000V 0xE0 = 42.250V 0xE1 = 42.500V 0xE2 = 42.750V 0xE3 = 43.000V 0xE4 = 43.250V 0xE5 = 43.500V 0xE6 = 43.750V 0xE7 = 44.000V 0xE8 = 44.250V 0xE9 = 44.500V 0xEA = 44.750V 0xEB = 45.000V 0xEC = 45.250V 0xED = 45.500V 0xEE = 45.750V 0xEF = 46.000V 0xF0 = 46.250V 0xF1 = 46.500V 0xF2 = 46.750V 0xF3 = 47.000V 0xF4 = 47.250V 0xF5 = 47.500V 0xF6 = 47.750V 0xF7 = 48.000V 0xF8 = 48.250V 0xF9 = 48.500V 0xFA = 48.750V 0xFB = 49.000V 0xFC = 49.250V 0xFD = 49.500V 0xFE = 49.750V 0xFF = 50.000V |