ZHCSGJ3D July   2015  – February 2019 TPS65917-Q1

PRODUCTION DATA.  

  1. 1器件概述
    1. 1.1 特性
    2. 1.2 应用
    3. 1.3 说明
    4. 1.4 功能图
  2. 2修订历史记录
  3. 3Pin Configuration and Functions
    1. 3.1 Pin Attributes
      1.      Pin Attributes
    2. 3.2 Signal Descriptions
  4. 4Specifications
    1. 4.1  Absolute Maximum Ratings
    2. 4.2  ESD Ratings
    3. 4.3  Recommended Operating Conditions
    4. 4.4  Thermal Information
    5. 4.5  Electrical Characteristics — LDO Regulators
    6. 4.6  Electrical Characteristics — SMPS1&2 in Dual-Phase Configuration
    7. 4.7  Electrical Characteristics — SMPS1, SMPS2, SMPS3, SMPS4, and SMPS5 Stand-Alone Regulators
    8. 4.8  Electrical Characteristics — Reference Generator (Bandgap)
    9. 4.9  Electrical Characteristics — 32-kHz RC Oscillators and SYNCCLKOUT Output Buffers
    10. 4.10 Electrical Characteristics — 12-Bit Sigma-Delta ADC
    11. 4.11 Electrical Characteristics — Thermal Monitoring and Shutdown
    12. 4.12 Electrical Characteristics — System Control Thresholds
    13. 4.13 Electrical Characteristics — Current Consumption
    14. 4.14 Electrical Characteristics — Digital Input Signal Parameters
    15. 4.15 Electrical Characteristics — Digital Output Signal Parameters
    16. 4.16 I/O Pullup and Pulldown Characteristics
    17. 4.17 Electrical Characteristics — I2C Interface
    18. 4.18 Timing Requirements — I2C Interface
    19. 4.19 Timing Requirements — SPI
    20. 4.20 Switching Characteristics — LDO Regulators
    21. 4.21 Switching Characteristics — SMPS1&2 in Dual-Phase Configuration
    22. 4.22 Switching Characteristics — SMPS1, SMPS2, SMPS3, SMPS4, and SMPS5 Stand-Alone Regulators
    23. 4.23 Switching Characteristics — Reference Generator (Bandgap)
    24. 4.24 Switching Characteristics — PLL for SMPS Clock Generation
    25. 4.25 Switching Characteristics — 32-kHz RC Oscillators and SYNCCLKOUT Output Buffers
    26. 4.26 Switching Characteristics — 12-Bit Sigma-Delta ADC
    27. 4.27 Typical Characteristics
  5. 5Detailed Description
    1. 5.1  Overview
    2. 5.2  Functional Block Diagram
    3. 5.3  Device State Machine
      1. 5.3.1  Embedded Power Controller
      2. 5.3.2  State Transition Requests
        1. 5.3.2.1 ON Requests
        2. 5.3.2.2 OFF Requests
        3. 5.3.2.3 SLEEP and WAKE Requests
      3. 5.3.3  Power Sequences
      4. 5.3.4  Device Power Up Timing
      5. 5.3.5  Power-On Acknowledge
        1. 5.3.5.1 POWERHOLD Mode
        2. 5.3.5.2 AUTODEVON Mode
      6. 5.3.6  BOOT Configuration
        1. 5.3.6.1 Boot Pin Usage and Connection
      7. 5.3.7  Reset Levels
      8. 5.3.8  INT
      9. 5.3.9  Warm Reset
      10. 5.3.10 RESET_IN
    4. 5.4  Power Resources (Step-Down and Step-Up SMPS Regulators, LDOs)
      1. 5.4.1 Step-Down Regulators
        1. 5.4.1.1 Output Voltage and Mode Selection
        2. 5.4.1.2 Clock Generation for SMPS
        3. 5.4.1.3 Current Monitoring and Short Circuit Detection
        4. 5.4.1.4 POWERGOOD
        5. 5.4.1.5 DVS-Capable Regulators
          1. 5.4.1.5.1 Non DVS-Capable Regulators
        6. 5.4.1.6 Step-Down Converters SMPS1, SMPS2 or SMPS1&2
        7. 5.4.1.7 Step-Down Converters SMPS3, SMPS4, and SMPS5
      2. 5.4.2 Low Dropout Regulators (LDOs)
        1. 5.4.2.1 LDOVANA
        2. 5.4.2.2 LDOVRTC
        3. 5.4.2.3 LDO1 and LDO2
        4. 5.4.2.4 Low-Noise LDO (LDO5)
        5. 5.4.2.5 Other LDOs
    5. 5.5  SMPS and LDO Input Supply Connections
    6. 5.6  First Supply Detection
    7. 5.7  Long-Press Key Detection
    8. 5.8  12-Bit Sigma-Delta General-Purpose ADC (GPADC)
      1. 5.8.1 Asynchronous Conversion Request (SW)
      2. 5.8.2 Periodic Conversion (AUTO)
      3. 5.8.3 Calibration
    9. 5.9  General-Purpose I/Os (GPIO Pins)
    10. 5.10 Thermal Monitoring
      1. 5.10.1 Hot-Die Function (HD)
      2. 5.10.2 Thermal Shutdown
    11. 5.11 Interrupts
    12. 5.12 Control Interfaces
      1. 5.12.1 I2C Interfaces
        1. 5.12.1.1 I2C Implementation
        2. 5.12.1.2 F/S Mode Protocol
        3. 5.12.1.3 HS Mode Protocol
      2. 5.12.2 Serial Peripheral Interface (SPI)
        1. 5.12.2.1 SPI Modes
        2. 5.12.2.2 SPI Protocol
    13. 5.13 OTP Configuration Memory
    14. 5.14 Watchdog Timer (WDT)
    15. 5.15 System Voltage Monitoring
    16. 5.16 Register Map
      1. 5.16.1 Functional Register Mapping
    17. 5.17 Device Identification
  6. 6Applications, Implementation, and Layout
    1. 6.1 Application Information
    2. 6.2 Typical Application
      1. 6.2.1 Design Requirements
      2. 6.2.2 Detailed Design Procedure
        1. 6.2.2.1 SMPS Input Capacitors
        2. 6.2.2.2 SMPS Output Capacitors
        3. 6.2.2.3 SMPS Inductors
        4. 6.2.2.4 LDO Input Capacitors
        5. 6.2.2.5 LDO Output Capacitors
        6. 6.2.2.6 VCCA
          1. 6.2.2.6.1 Meeting the Power-Down Sequence
          2. 6.2.2.6.2 Maintaining Sufficient Input Voltage
        7. 6.2.2.7 VIO_IN
        8. 6.2.2.8 GPADC
      3. 6.2.3 Application Curves
    3. 6.3 Layout
      1. 6.3.1 Layout Guidelines
      2. 6.3.2 Layout Example
    4. 6.4 Power Supply Coupling and Bulk Capacitors
  7. 7器件和文档支持
    1. 7.1 器件支持
      1. 7.1.1 第三方米6体育平台手机版_好二三四免责声明
      2. 7.1.2 器件命名规则
    2. 7.2 文档支持
      1. 7.2.1 相关文档
    3. 7.3 接收文档更新通知
    4. 7.4 社区资源
    5. 7.5 商标
    6. 7.6 静电放电警告
    7. 7.7 Glossary
  8. 8机械、封装和可订购信息

封装选项

请参考 PDF 数据表获取器件具体的封装图。

机械数据 (封装 | 引脚)
  • RGZ|48
散热焊盘机械数据 (封装 | 引脚)
订购信息

4.7 Electrical Characteristics — SMPS1, SMPS2, SMPS3, SMPS4, and SMPS5 Stand-Alone Regulators

Over operating free-air temperature range, typical values are at TA = 27°C (unless otherwise noted).
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
Input capacitance (C8, C9, C10, C11, C12) 4.7 µF
Output capacitance (C13, C14, C15, C16, C17)(1) 33 47 57 µF
CESR Filtering capacitor DC ESR 1 to 10 MHz 2 10
Output filter inductance (L1, L2, L3, L4, L5) SMPSx_SW 0.7 1 1.3 µH
DCRL Filter inductor DC resistance 50 100
VIN (SMPSx) Input voltage range, SMPSx_IN VSYS (VCCA) 3.135 5.25 V
VOUT (SMPSx) Output voltage, programmable, SMPSx RANGE = 0 (value for RANGE must not be changed when SMPS is active). In ECO mode the output voltage value is fixed (defined before ECO mode is enabled). 0.7 1.65 V
RANGE = 1 (value for RANGE must not be changed when SMPS is active). In ECO mode the output voltage value is fixed (defined before ECO mode is enabled). 1.0 3.3
Step size, 0.7 V ≤ VOUT ≤ 1.65 V 10 mV
Step size, 1 V ≤ VOUT ≤ 3.3 V 20
DC output voltage accuracy, includes voltage references, DC load and line regulation, process and temperature ECO mode –3% 4%
PWM mode –1% 2%
Ripple Max load, VIN = 3.8 V, VOUT = 1.2 V, ESRCOUT = 2 mΩ, measured with 20-MHz LPF 8 mVPP
DCLNR DC line regulation, ΔVOUT / VOUT VIN = VINmin to VINmax 0.1 %/V
DCLDR DC load regulation, ΔVOUT / VOUT IOUT = 0 to IOUTmax 0.1 %/A
TLDSR Transient load step response SMPS1, SMPS2, SMPS3, SMPS5, IOUT = 0.5 to 500 mA, TR = TF = 100 ns, COUT = 47 µF , L = 1µH 3%
TLDSR Transient load step response SMPS4, IOUT = 0.5 to 500 mA, TR = TF = 1 µs, COUT = 47 µF , L = 1µH 3%
IOUTmax(SMPS1,2) Rated output current, SMPS1, SMPS2 Advance thermal design is required to avoid thermal shut down 3.5 A
IOUTmax(SMPS3) Rated output current, SMPS3 Advance thermal design is required to avoid thermal shut down 3 A
IOUTmax(SMPS4) Rated output current, SMPS4 Advance thermal design is required to avoid thermal shut down 1.5 A
IOUTmax(SMPS5) Rated output current, SMPS5 Advance thermal design is required to avoid thermal shut down 2 A
IOUTmax(ECO) Maximum output current, ECO mode Advance thermal design is required to avoid thermal shut down 5 mA
ILIM HS FET High-side MOSFET forward current limit SMPS1, SMPS2, SMPS3 4.2 4.5 A
SMPS4 2.2 2.5
SMPS5 2.7 3
ILIM LS FET Low-side MOSFET forward current limit SMPS1, SMPS2, SMPS3 4.2 A
SMPS4 2.2
SMPS5 2.7
RDS(ON) HS FET N-channel MOSFET on-resistance (high-side FET) SMPS1, SMPS2, SMPS3, SMPS5 50
SMPS4 110
RDS(ON) LS FET N-channel MOSFET on-resistance (low-side FET) SMPS1, SMPS2, SMPS3, SMPS5 39
SMPS4 79
Overshoot during turn-on 5%
Output voltage slew rate (2) 2.5 mV/μs
RDIS Pulldown discharge resistance at SMPSx output SMPSx_FDBK, SMPS turned off 375
SMPSx_SW, SMPS turned off 9 22
IQoff Quiescent current – Off mode ILOAD = 0 mA 0.1 2.5 μA
IQon(SMPS1,2,3,5) Quiescent current – On mode - SMPS1, SMPS2, SMPS3, SMPS5 ECO mode, device not switching, VOUT < 1.8 V –40°C ≤TA ≤ 85°C 15 25 µA
ECO mode, device not switching, VOUT < 1.8 V 85°C < TA ≤ 105°C 18 25.5
ECO mode, device not switching, VOUT ≥ 1.8 V, –40°C ≤TA ≤ 85°C 16.5 25
ECO mode, device not switching, VOUT ≥ 1.8 V, 85°C < TA ≤ 105°C 19.5 25.5
FORCED_PWM mode, ILOAD = 0 mA, VIN = 3.8 V, VOUT = 1 V, device switching 11 mA
IQon(SMPS4) Quiescent current – On mode - SMPS4 ECO mode, device not switching, VOUT < 1.8 V –40°C ≤TA ≤ 85°C 15 24 µA
ECO mode, device not switching, VOUT < 1.8 V 85°C < TA ≤ 105°C 18 25
ECO mode, device not switching, VOUT ≥ 1.8 V, –40°C ≤TA ≤ 85°C 16.5 24
ECO mode, device not switching, VOUT ≥ 1.8 V, 85°C < TA ≤ 105°C 19.5 25
FORCED_ PWM mode, ILOAD = 0 mA, VIN = 3.8 V, VOUT = 1 V, device switching 7 mA
VSMPSPG Powergood threshold SMPS output voltage rising, referenced to programmed output voltage –4%
SMPS output voltage falling, referenced to programmed output voltage –16%
IL_AVG_COMP Powergood: GPADC monitoring IL_AVG_COMP_rising - SIMPS1, SMPS2 3 A
IL_AVG_COMP_rising - SMPS3 3 A
IL_AVG_COMP_rising - SMPS5 2 A
IL_AVG_COMP_falling - SMPS1, SMPS2, SMPS3 IL_AVG_COMP_rising-5% A
IL_AVG_COMP_falling- SMPS5 IL_AVG_COMP_rising-8% A
(1) Additional information about how this parameter is specified is located in Section 6.2.2.
(2) This slew rate refers to the rate at which the output voltage changes from one voltage level to another voltage after startup is complete.
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