Datasheet LTC2972 (Analog Devices) - 10
| Manufacturer | Analog Devices |
| Description | 2-Channel PMBus Power System Manager Featuring Programmable Power Good Outputs |
| Pages / Page | 112 / 10 — ELECTRICAL CHARACTERISTICS. The. denotes the specifications which apply … |
| File Format / Size | PDF / 3.0 Mb |
| Document Language | English |
ELECTRICAL CHARACTERISTICS. The. denotes the specifications which apply over the full operating
Model Line for this Datasheet
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link to page 4 link to page 77 link to page 77 link to page 19 LTC2972
ELECTRICAL CHARACTERISTICS The
l
denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TJ = 25°C. VPWR = VIN_SNS = 12V, VDD33 = VDDIO, VDD33, VDD25, REFP and REFM pins floating, unless otherwise indicated. CVDD33 = 100nF, CVDD25 = 100nF, CVIN_SNS_CAP = 10nF and CREF = 100nF. (Note 2) SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS
tSP Pulse Width of Spike Suppressed 98 ns (Note 13) tTIMEOUT_BUS Time Allowed to Complete any Mfr_config_all_longer_pmbus_timeout = 0 l 25 35 ms PMBus Command After Which Time Mfr_config_all_longer_pmbus_timeout = 1 l 200 280 ms SDA Will Be Released and Command Terminated
Additional Digital Timing Characteristics
tOFF_MIN Minimum Off-Time for Any Channel 100 ms
Note 1:
Stresses beyond those listed under Absolute Maximum Ratings
Note 7:
VSENSE and ISENSE input currents are characterized by input may cause permanent damage to the device. Exposure to any Absolute current and input differential current. Input current is defined as current Maximum Rating condition for extended periods may affect device into a single device pin (see Note 2). Input differential current is defined reliability and lifetime. as (I+ – I–) where I+ is the current into the positive device pin and I– is the
Note 2:
All currents into device pins are positive. All currents out of device current into the negative device pin. pins are negative. All voltages are referenced to GND unless otherwise
Note 8:
Nonlinearity is defined from the first code that is greater than or specified. If power is supplied to the chip via the VDD33 pin only, connect equal to the maximum offset specification to full-scale code, 1023. VPWR and VDD33 pins together.
Note 9:
While READ_VIN operates with 0V ≤ VIN_SNS ≤ 15V, the valid READ_
Note 3:
The ADC total unadjusted error includes all error sources. IIN, READ_PIN, and MFR_EIN operating range is 4.5V ≤ VIN_SNS ≤ 15V. First, a two-point analog trim is performed to achieve a flat reference
Note 10:
EEPROM endurance and retention are guaranteed by design, voltage (VREF) over temperature. This results in minimal temperature characterization and correlation with statistical process controls. The coefficient, but the absolute voltage can still vary. To compensate for this, minimum retention specification applies for devices whose EEPROM has a high resolution, drift-free, and noiseless digital trim is applied at the been cycled less than the minimum endurance specification. output of the ADC, resulting in a very high accuracy measurement.
Note 11:
EEPROM endurance and retention will be degraded when
Note 4:
Hysteresis in the output voltage is created by package stress TJ > 105°C. that differs depending on whether IC was previously at a higher or lower
Note 12:
The LTC2972 will not acknowledge any PMBus commands, temperature. Output voltage is always measured at 25°C, but the IC is except for MFR_COMMON, when a STORE_USER_ALL command is being cycled to 105°C or –40°C before successive measurements. Hysteresis is executed. See also Operation section. roughly proportional to the square of the temperature change.
Note 13:
Maximum capacitive load, C
Note 5:
The current sense resolution is determined by the L11 format, B, for SCL and SDA is 400pF. Data and clock rise time (t the value of IOUT_CAL_GAIN, and the magnitude of the current being r) and fall time (tf) are: (20 + 0.1• CB) (ns) < tr < 300ns and (20 + 0.1 • C measured. See Table 5 on page 77 for details. B) (ns) < tf < 300ns. CB = capacitance of one bus line in pF. SCL and SDA external pull-up voltage, VDDIO, is 1.35V < VDDIO < 3.6V.
Note 6:
The nominal time between successive ADC conversions (latency of the ADC) for any given channel is tUPDATE_ADC. Rev. C 10 For more information www.analog.com Document Outline Features Applications Typical Application Description Absolute Maximum Ratings Order Information Pin Configuration Electrical Characteristics PMBus Timing Diagram Typical Performance Characteristics Pin Functions Block Diagram Operation LTC2972 Operation Overview EEPROM AUXFAULTB RESETB VDDIO PMBus Serial Digital Interface PMBus Device Address Processing Commands Addressing and Write Protect PAGE WRITE_PROTECT WRITE PROTECT Pin MFR_PAGE_FF_MASK MFR_I2C_BASE_ADDRESS MFR_COMMAND_PLUS MFR_DATA_PLUS0 and MFR_DATA_PLUS1 MFR_STATUS_PLUS0, and MFR_STATUS_PLUS1 Reading Fault Log Using Command Plus and MFR_DATA_PLUS0 Reading Energy Using MFR_COMMAND_PLUS and MFR_DATA_PLUS0 Peek Operation Using MFR_DATA_PLUS0 Enabling and Disabling Poke Operations Poke Operation Using Mfr_data_plus0 Command Plus Operations Using MFR_DATA_PLUS1 On/Off Control, Margining and Configuration OPERATION ON_OFF_CONFIG MFR_CONFIG_LTC2972 Cascade Sequence ON with Time-Based Sequence OFF MFR_CONFIG2_LTC2972 MFR_CONFIG3_LTC2972 Tracking Supplies On and Off Tracking Implementation MFR_CONFIG_ALL_LTC2972 Programming User EEPROM Space STORE_USER_ALL and RESTORE_USER_ALL MFR_EE_UNLOCK MFR_EE_ERASE MFR_EE_DATA Response When Part Is Busy MFR_EE Erase and Write Programming Time Input Voltage Commands and Limits VIN_ON, VIN_OFF, VIN_OV_FAULT_LIMIT, VIN_OV_WARN_LIMIT, VIN_UV_WARN_LIMIT and VIN_UV_FAULT_LIMIT INPUT Current and ENERGY Energy Measurement and Reporting MFR_EIN MFR_EIN_CONFIG MFR_IIN_CAL_GAIN MFR_IIN_CAL_GAIN_TC MFR_CLEAR_ENERGY Output Voltage Commands and Limits VOUT_MODE VOUT_COMMAND, VOUT_MAX, VOUT_MARGIN_HIGH, VOUT_MARGIN_LOW, VOUT_OV_FAULT_LIMIT, VOUT_OV_WARN_LIMIT, VOUT_UV_WARN_LIMIT, VOUT_UV_FAULT_LIMIT, POWER_GOOD_ON and POWER_GOOD_OFF MFR_VOUT_DISCHARGE_THRESHOLD MFR_DAC_STARTUP MFR_DAC Output CURRENT Commands and Limits IOUT_CAL_GAIN and IOUT_CAL_OFFSET IOUT_OC_WARN_LIMIT MFR_IOUT_CAL_GAIN_TC External Temperature Commands and Limits OT_FAULT_LIMIT, OT_WARN_LIMIT, UT_WARN_LIMIT and UT_FAULT_LIMIT MFR_TEMP_1_GAIN and MFR_TEMP_1_OFFSET MFR_T_SELF_HEAT, MFR_IOUT_CAL_GAIN_TAU_INV and MFR_IOUT_CAL_GAIN_THETA Sequencing Timing Limits and Clock Sharing TON_DELAY, TON_RISE, TON_MAX_FAULT_LIMIT and TOFF_DELAY MFR_RESTART_DELAY Clock Sharing Watchdog Timer and Power Good MFR_PG_CONFIG MFR_PG_GPO MFR_PWRGD_EN MFR_POWERGOOD_ASSERTION_DELAY Watchdog Operation MFR_WATCHDOG_T_FIRST and MFR_WATCHDOG_T Fault Responses Clearing Latched Faults VOUT_OV_FAULT_RESPONSE and VOUT_UV_FAULT_RESPONSE OT_FAULT_RESPONSE, UT_FAULT_RESPONSE, VIN_OV_FAULT_RESPONSE and VIN_UV_FAULT_RESPONSE TON_MAX_FAULT_RESPONSE MFR_RETRY_DELAY MR_RETRY_COUNT Shared External Faults MFR_FAULTB0_PROPAGATE and MFR_FAULTB1_PROPAGATE MFR_FAULTB0_RESPONSE and MFR_FAULTB1_RESPONSE Fault Warning and Status CLEAR_FAULTS STATUS_BYTE STATUS_WORD STATUS_VOUT STATUS_IOUT STATUS_INPUT STATUS_TEMPERATURE STATUS_CML STATUS_MFR_SPECIFIC MFR_PADS MFR_COMMON MFR_STATUS_2 MFR_FIRST_FAULT Telemetry READ_VIN READ_IIN READ_PIN READ_VOUT READ_IOUT MFR_IIN_PEAK READ_TEMPERATURE_2 READ_POUT MFR_READ_IOUT MFR_IOUT_SENSE_VOLTAGE MFR_VIN_PEAK MFR_TEMPERATURE_1_MIN Fault Logging Fault Log Operation MFR_FAULT_LOG_STORE MFR_FAULT_LOG_RESTORE MFR_FAULT_LOG_CLEAR MFR_FAULT_LOG_STATUS MFR_FAULT_LOG MFR_FAULT_LOG Read Example Identification/Information CAPABILITY PMBUS_REVISION MFR_SPECIAL_ID MFR_SPECIAL_LOT MFR_INFO User Scratchpad USER_DATA_00, USER_DATA_01, USER_DATA_02, USER_DATA_03, USER_DATA_04 and MFR_LTC_RESERVED_2 Applications Information Overview Powering the LTC2972 Setting Command Register Values MEASURING INPUT CURRENT MEASURING INPUT VOLTAGE MEASURING INPUT POWER Measuring INPUT ENERGY Sequence, Servo, Margin and Restart Operations Command Units On or Off On Sequencing On State Operation Servo Modes DAC Modes Margining Off Sequencing VOUT Off Threshold Voltage Automatic Restart via MFR_RESTART_DELAY Command and CONTROL Pin Fault Management Output Overvoltage and Undervoltage Faults Output Overvoltage, Undervoltage, and Overcurrent Warnings Configuring the AUXFAULTB Output Multi-Channel Fault Management Interconnect Between Multiple ADI POWER MANAGERS Application Circuits Trimming and Margining DC/DC Converters with External Feedback Resistors Four-Step Resistor Selection Procedure for DC/DC Converters with External Feedback Resistors Trimming and Margining DC/DC Converters with a TRIM Pin Two-Step Resistor and DAC Full-Scale Voltage Selection Procedure for DC/DC Converters with a TRIM Pin Measuring Output with a Sense Resistor Measuring Output with Inductor DCR Single Phase Design Example Measuring Multiphase Currents Measuring Output Current in Buffered IMON Telemetry Mode LT3086 IMON Design Example Anti-Aliasing Filter Considerations Sensing Negative Voltages Connecting the DC1613 USB to I2C/SMBus/PMBus Controller to the LTC2972 in System Accurate DCR Temperature Compensation LTpowerPlay: An Interactive GUI for Power Managers PCB Assembly and Layout Suggestions Bypass Capacitor Placement Exposed Pad Stencil Design PCB Board Layout Unused ADC Sense Inputs Design Checklist I2C Output Enables VIN Sense Input Current Sense External Temperature Sense Logic Signals Unused Inputs DAC Outputs Package Description Revision History Typical Application Related Parts
ELECTRICAL CHARACTERISTICS The
l
denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TJ = 25°C. VPWR = VIN_SNS = 12V, VDD33 = VDDIO, VDD33, VDD25, REFP and REFM pins floating, unless otherwise indicated. CVDD33 = 100nF, CVDD25 = 100nF, CVIN_SNS_CAP = 10nF and CREF = 100nF. (Note 2) SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS
tSP Pulse Width of Spike Suppressed 98 ns (Note 13) tTIMEOUT_BUS Time Allowed to Complete any Mfr_config_all_longer_pmbus_timeout = 0 l 25 35 ms PMBus Command After Which Time Mfr_config_all_longer_pmbus_timeout = 1 l 200 280 ms SDA Will Be Released and Command Terminated
Additional Digital Timing Characteristics
tOFF_MIN Minimum Off-Time for Any Channel 100 ms
Note 1:
Stresses beyond those listed under Absolute Maximum Ratings
Note 7:
VSENSE and ISENSE input currents are characterized by input may cause permanent damage to the device. Exposure to any Absolute current and input differential current. Input current is defined as current Maximum Rating condition for extended periods may affect device into a single device pin (see Note 2). Input differential current is defined reliability and lifetime. as (I+ – I–) where I+ is the current into the positive device pin and I– is the
Note 2:
All currents into device pins are positive. All currents out of device current into the negative device pin. pins are negative. All voltages are referenced to GND unless otherwise
Note 8:
Nonlinearity is defined from the first code that is greater than or specified. If power is supplied to the chip via the VDD33 pin only, connect equal to the maximum offset specification to full-scale code, 1023. VPWR and VDD33 pins together.
Note 9:
While READ_VIN operates with 0V ≤ VIN_SNS ≤ 15V, the valid READ_
Note 3:
The ADC total unadjusted error includes all error sources. IIN, READ_PIN, and MFR_EIN operating range is 4.5V ≤ VIN_SNS ≤ 15V. First, a two-point analog trim is performed to achieve a flat reference
Note 10:
EEPROM endurance and retention are guaranteed by design, voltage (VREF) over temperature. This results in minimal temperature characterization and correlation with statistical process controls. The coefficient, but the absolute voltage can still vary. To compensate for this, minimum retention specification applies for devices whose EEPROM has a high resolution, drift-free, and noiseless digital trim is applied at the been cycled less than the minimum endurance specification. output of the ADC, resulting in a very high accuracy measurement.
Note 11:
EEPROM endurance and retention will be degraded when
Note 4:
Hysteresis in the output voltage is created by package stress TJ > 105°C. that differs depending on whether IC was previously at a higher or lower
Note 12:
The LTC2972 will not acknowledge any PMBus commands, temperature. Output voltage is always measured at 25°C, but the IC is except for MFR_COMMON, when a STORE_USER_ALL command is being cycled to 105°C or –40°C before successive measurements. Hysteresis is executed. See also Operation section. roughly proportional to the square of the temperature change.
Note 13:
Maximum capacitive load, C
Note 5:
The current sense resolution is determined by the L11 format, B, for SCL and SDA is 400pF. Data and clock rise time (t the value of IOUT_CAL_GAIN, and the magnitude of the current being r) and fall time (tf) are: (20 + 0.1• CB) (ns) < tr < 300ns and (20 + 0.1 • C measured. See Table 5 on page 77 for details. B) (ns) < tf < 300ns. CB = capacitance of one bus line in pF. SCL and SDA external pull-up voltage, VDDIO, is 1.35V < VDDIO < 3.6V.
Note 6:
The nominal time between successive ADC conversions (latency of the ADC) for any given channel is tUPDATE_ADC. Rev. C 10 For more information www.analog.com Document Outline Features Applications Typical Application Description Absolute Maximum Ratings Order Information Pin Configuration Electrical Characteristics PMBus Timing Diagram Typical Performance Characteristics Pin Functions Block Diagram Operation LTC2972 Operation Overview EEPROM AUXFAULTB RESETB VDDIO PMBus Serial Digital Interface PMBus Device Address Processing Commands Addressing and Write Protect PAGE WRITE_PROTECT WRITE PROTECT Pin MFR_PAGE_FF_MASK MFR_I2C_BASE_ADDRESS MFR_COMMAND_PLUS MFR_DATA_PLUS0 and MFR_DATA_PLUS1 MFR_STATUS_PLUS0, and MFR_STATUS_PLUS1 Reading Fault Log Using Command Plus and MFR_DATA_PLUS0 Reading Energy Using MFR_COMMAND_PLUS and MFR_DATA_PLUS0 Peek Operation Using MFR_DATA_PLUS0 Enabling and Disabling Poke Operations Poke Operation Using Mfr_data_plus0 Command Plus Operations Using MFR_DATA_PLUS1 On/Off Control, Margining and Configuration OPERATION ON_OFF_CONFIG MFR_CONFIG_LTC2972 Cascade Sequence ON with Time-Based Sequence OFF MFR_CONFIG2_LTC2972 MFR_CONFIG3_LTC2972 Tracking Supplies On and Off Tracking Implementation MFR_CONFIG_ALL_LTC2972 Programming User EEPROM Space STORE_USER_ALL and RESTORE_USER_ALL MFR_EE_UNLOCK MFR_EE_ERASE MFR_EE_DATA Response When Part Is Busy MFR_EE Erase and Write Programming Time Input Voltage Commands and Limits VIN_ON, VIN_OFF, VIN_OV_FAULT_LIMIT, VIN_OV_WARN_LIMIT, VIN_UV_WARN_LIMIT and VIN_UV_FAULT_LIMIT INPUT Current and ENERGY Energy Measurement and Reporting MFR_EIN MFR_EIN_CONFIG MFR_IIN_CAL_GAIN MFR_IIN_CAL_GAIN_TC MFR_CLEAR_ENERGY Output Voltage Commands and Limits VOUT_MODE VOUT_COMMAND, VOUT_MAX, VOUT_MARGIN_HIGH, VOUT_MARGIN_LOW, VOUT_OV_FAULT_LIMIT, VOUT_OV_WARN_LIMIT, VOUT_UV_WARN_LIMIT, VOUT_UV_FAULT_LIMIT, POWER_GOOD_ON and POWER_GOOD_OFF MFR_VOUT_DISCHARGE_THRESHOLD MFR_DAC_STARTUP MFR_DAC Output CURRENT Commands and Limits IOUT_CAL_GAIN and IOUT_CAL_OFFSET IOUT_OC_WARN_LIMIT MFR_IOUT_CAL_GAIN_TC External Temperature Commands and Limits OT_FAULT_LIMIT, OT_WARN_LIMIT, UT_WARN_LIMIT and UT_FAULT_LIMIT MFR_TEMP_1_GAIN and MFR_TEMP_1_OFFSET MFR_T_SELF_HEAT, MFR_IOUT_CAL_GAIN_TAU_INV and MFR_IOUT_CAL_GAIN_THETA Sequencing Timing Limits and Clock Sharing TON_DELAY, TON_RISE, TON_MAX_FAULT_LIMIT and TOFF_DELAY MFR_RESTART_DELAY Clock Sharing Watchdog Timer and Power Good MFR_PG_CONFIG MFR_PG_GPO MFR_PWRGD_EN MFR_POWERGOOD_ASSERTION_DELAY Watchdog Operation MFR_WATCHDOG_T_FIRST and MFR_WATCHDOG_T Fault Responses Clearing Latched Faults VOUT_OV_FAULT_RESPONSE and VOUT_UV_FAULT_RESPONSE OT_FAULT_RESPONSE, UT_FAULT_RESPONSE, VIN_OV_FAULT_RESPONSE and VIN_UV_FAULT_RESPONSE TON_MAX_FAULT_RESPONSE MFR_RETRY_DELAY MR_RETRY_COUNT Shared External Faults MFR_FAULTB0_PROPAGATE and MFR_FAULTB1_PROPAGATE MFR_FAULTB0_RESPONSE and MFR_FAULTB1_RESPONSE Fault Warning and Status CLEAR_FAULTS STATUS_BYTE STATUS_WORD STATUS_VOUT STATUS_IOUT STATUS_INPUT STATUS_TEMPERATURE STATUS_CML STATUS_MFR_SPECIFIC MFR_PADS MFR_COMMON MFR_STATUS_2 MFR_FIRST_FAULT Telemetry READ_VIN READ_IIN READ_PIN READ_VOUT READ_IOUT MFR_IIN_PEAK READ_TEMPERATURE_2 READ_POUT MFR_READ_IOUT MFR_IOUT_SENSE_VOLTAGE MFR_VIN_PEAK MFR_TEMPERATURE_1_MIN Fault Logging Fault Log Operation MFR_FAULT_LOG_STORE MFR_FAULT_LOG_RESTORE MFR_FAULT_LOG_CLEAR MFR_FAULT_LOG_STATUS MFR_FAULT_LOG MFR_FAULT_LOG Read Example Identification/Information CAPABILITY PMBUS_REVISION MFR_SPECIAL_ID MFR_SPECIAL_LOT MFR_INFO User Scratchpad USER_DATA_00, USER_DATA_01, USER_DATA_02, USER_DATA_03, USER_DATA_04 and MFR_LTC_RESERVED_2 Applications Information Overview Powering the LTC2972 Setting Command Register Values MEASURING INPUT CURRENT MEASURING INPUT VOLTAGE MEASURING INPUT POWER Measuring INPUT ENERGY Sequence, Servo, Margin and Restart Operations Command Units On or Off On Sequencing On State Operation Servo Modes DAC Modes Margining Off Sequencing VOUT Off Threshold Voltage Automatic Restart via MFR_RESTART_DELAY Command and CONTROL Pin Fault Management Output Overvoltage and Undervoltage Faults Output Overvoltage, Undervoltage, and Overcurrent Warnings Configuring the AUXFAULTB Output Multi-Channel Fault Management Interconnect Between Multiple ADI POWER MANAGERS Application Circuits Trimming and Margining DC/DC Converters with External Feedback Resistors Four-Step Resistor Selection Procedure for DC/DC Converters with External Feedback Resistors Trimming and Margining DC/DC Converters with a TRIM Pin Two-Step Resistor and DAC Full-Scale Voltage Selection Procedure for DC/DC Converters with a TRIM Pin Measuring Output with a Sense Resistor Measuring Output with Inductor DCR Single Phase Design Example Measuring Multiphase Currents Measuring Output Current in Buffered IMON Telemetry Mode LT3086 IMON Design Example Anti-Aliasing Filter Considerations Sensing Negative Voltages Connecting the DC1613 USB to I2C/SMBus/PMBus Controller to the LTC2972 in System Accurate DCR Temperature Compensation LTpowerPlay: An Interactive GUI for Power Managers PCB Assembly and Layout Suggestions Bypass Capacitor Placement Exposed Pad Stencil Design PCB Board Layout Unused ADC Sense Inputs Design Checklist I2C Output Enables VIN Sense Input Current Sense External Temperature Sense Logic Signals Unused Inputs DAC Outputs Package Description Revision History Typical Application Related Parts