SPRS996F March   2017  – February 2019 TDA2P-ACD

PRODUCTION DATA.  

  1. 1Device Overview
    1. 1.1 Features
    2. 1.2 Applications
    3. 1.3 Description
    4. 1.4 Functional Block Diagram
  2. 2Revision History
  3. 3Device Comparison
    1. 3.1 Device Comparison Table
    2. 3.2 Related Products
  4. 4Terminal Configuration and Functions
    1. 4.1 Pin Diagram
    2. 4.2 Pin Attributes
    3. 4.3 Signal Descriptions
      1. 4.3.1  VIP
      2. 4.3.2  DSS
      3. 4.3.3  HDMI
      4. 4.3.4  Camera Serial Interface 2 CAL bridge (CSI2)
      5. 4.3.5  EMIF
      6. 4.3.6  GPMC
      7. 4.3.7  Timers
      8. 4.3.8  I2C
      9. 4.3.9  UART
      10. 4.3.10 McSPI
      11. 4.3.11 QSPI
      12. 4.3.12 McASP
      13. 4.3.13 USB
      14. 4.3.14 SATA
      15. 4.3.15 PCIe
      16. 4.3.16 DCAN and MCAN
      17. 4.3.17 GMAC_SW
      18. 4.3.18 eMMC/SD/SDIO
      19. 4.3.19 GPIO
      20. 4.3.20 PWM
      21. 4.3.21 System and Miscellaneous
        1. 4.3.21.1 Sysboot Interface
        2. 4.3.21.2 PRCM
        3. 4.3.21.3 SDMA
        4. 4.3.21.4 INTC
        5. 4.3.21.5 Observability
        6. 4.3.21.6 Power Supplies
      22. 4.3.22 Test Interfaces
    4. 4.4 Pin Multiplexing
    5. 4.5 Connections for Unused Pins
  5. 5Specifications
    1. 5.1  Absolute Maximum Ratings
    2. 5.2  ESD Ratings
    3. 5.3  Power-On Hours (POH) Limits
    4. 5.4  Recommended Operating Conditions
    5. 5.5  Operating Performance Points
      1. 5.5.1 AVS and ABB Requirements
      2. 5.5.2 Voltage And Core Clock Specifications
      3. 5.5.3 Maximum Supported Frequency
    6. 5.6  Power Consumption Summary
    7. 5.7  Electrical Characteristics
      1. Table 5-6  LVCMOS DDR DC Electrical Characteristics
      2. Table 5-7  Dual Voltage LVCMOS I2C DC Electrical Characteristics
      3. Table 5-8  IQ1833 Buffers DC Electrical Characteristics
      4. Table 5-9  LVCMOS CSI2 DC Electrical Characteristics
      5. Table 5-10 IHHV1833 Buffers DC Electrical Characteristics
      6. Table 5-11 Dual Voltage SDIO1833 DC Electrical Characteristics
      7. Table 5-12 Dual Voltage LVCMOS DC Electrical Characteristics
      8. 5.7.1      HDMIPHY DC Electrical Characteristics
      9. 5.7.2      SATAPHY DC Electrical Characteristics
      10. 5.7.3      USBPHY DC Electrical Characteristics
      11. 5.7.4      PCIEPHY DC Electrical Characteristics
    8. 5.8  VPP Specifications for One-Time Programmable (OTP) eFuses
      1. Table 5-13 Recommended Operating Conditions for OTP eFuse Programming
      2. 5.8.1      Hardware Requirements
      3. 5.8.2      Programming Sequence
      4. 5.8.3      Impact to Your Hardware Warranty
    9. 5.9  Thermal Resistance Characteristics
      1. 5.9.1 Package Thermal Characteristics
    10. 5.10 Timing Requirements and Switching Characteristics
      1. 5.10.1 Timing Parameters and Information
        1. 5.10.1.1 Parameter Information
          1. 5.10.1.1.1 1.8V and 3.3V Signal Transition Levels
          2. 5.10.1.1.2 1.8V and 3.3V Signal Transition Rates
          3. 5.10.1.1.3 Timing Parameters and Board Routing Analysis
      2. 5.10.2 Interface Clock Specifications
        1. 5.10.2.1 Interface Clock Terminology
        2. 5.10.2.2 Interface Clock Frequency
      3. 5.10.3 Power Supply Sequences
      4. 5.10.4 Clock Specifications
        1. 5.10.4.1 Input Clocks / Oscillators
          1. 5.10.4.1.1 OSC0 External Crystal
          2. 5.10.4.1.2 OSC0 Input Clock
          3. 5.10.4.1.3 Auxiliary Oscillator OSC1 Input Clock
            1. 5.10.4.1.3.1 OSC1 External Crystal
            2. 5.10.4.1.3.2 OSC1 Input Clock
        2. 5.10.4.2 RC On-die Oscillator Clock
        3. 5.10.4.3 Output Clocks
        4. 5.10.4.4 DPLLs, DLLs
          1. 5.10.4.4.1 DPLL Characteristics
          2. 5.10.4.4.2 DLL Characteristics
          3. 5.10.4.4.3 DPLL and DLL Noise Isolation
      5. 5.10.5 Recommended Clock and Control Signal Transition Behavior
      6. 5.10.6 Peripherals
        1. 5.10.6.1  Timing Test Conditions
        2. 5.10.6.2  Virtual and Manual I/O Timing Modes
        3. 5.10.6.3  VIP
        4. 5.10.6.4  DSS
        5. 5.10.6.5  HDMI
        6. 5.10.6.6  EMIF
        7. 5.10.6.7  GPMC
          1. 5.10.6.7.1 GPMC/NOR Flash Interface Synchronous Timing
          2. 5.10.6.7.2 GPMC/NOR Flash Interface Asynchronous Timing
          3. 5.10.6.7.3 GPMC/NAND Flash Interface Asynchronous Timing
        8. 5.10.6.8  Timers
        9. 5.10.6.9  I2C
          1. Table 5-59 Timing Requirements for I2C Input Timings
          2. Table 5-60 Timing Requirements for I2C HS-Mode (I2C3/4/5 Only)
          3. Table 5-61 Switching Characteristics Over Recommended Operating Conditions for I2C Output Timings
        10. 5.10.6.10 UART
          1. Table 5-62 Timing Requirements for UART
          2. Table 5-63 Switching Characteristics Over Recommended Operating Conditions for UART
        11. 5.10.6.11 McSPI
        12. 5.10.6.12 QSPI
        13. 5.10.6.13 McASP
          1. Table 5-70 Timing Requirements for McASP1
          2. Table 5-71 Timing Requirements for McASP2
          3. Table 5-72 Timing Requirements for McASP3/4/5/6/7/8
          4. Table 5-73 Switching Characteristics Over Recommended Operating Conditions for McASP1
          5. Table 5-74 Switching Characteristics Over Recommended Operating Conditions for McASP2
          6. Table 5-75 Switching Characteristics Over Recommended Operating Conditions for McASP3/4/5/6/7/8
        14. 5.10.6.14 USB
          1. 5.10.6.14.1 USB1 DRD PHY
          2. 5.10.6.14.2 USB2 PHY
          3. 5.10.6.14.3 USB3 and USB4 DRD ULPI—SDR—Slave Mode—12-pin Mode
        15. 5.10.6.15 SATA
        16. 5.10.6.16 PCIe
        17. 5.10.6.17 CAN
          1. 5.10.6.17.1 DCAN
          2. 5.10.6.17.2 MCAN-FD
          3. Table 5-90  Timing Requirements for CANx Receive
          4. Table 5-91  Switching Characteristics Over Recommended Operating Conditions for CANx Transmit
        18. 5.10.6.18 GMAC_SW
          1. 5.10.6.18.1 GMAC MII Timings
            1. Table 5-92 Timing Requirements for miin_rxclk - MII Operation
            2. Table 5-93 Timing Requirements for miin_txclk - MII Operation
            3. Table 5-94 Timing Requirements for GMAC MIIn Receive 10/100 Mbit/s
            4. Table 5-95 Switching Characteristics Over Recommended Operating Conditions for GMAC MIIn Transmit 10/100 Mbits/s
          2. 5.10.6.18.2 GMAC MDIO Interface Timings
          3. 5.10.6.18.3 GMAC RMII Timings
            1. Table 5-100 Timing Requirements for GMAC REF_CLK - RMII Operation
            2. Table 5-101 Timing Requirements for GMAC RMIIn Receive
            3. Table 5-102 Switching Characteristics Over Recommended Operating Conditions for GMAC REF_CLK - RMII Operation
            4. Table 5-103 Switching Characteristics Over Recommended Operating Conditions for GMAC RMIIn Transmit 10/100 Mbits/s
          4. 5.10.6.18.4 GMAC RGMII Timings
            1. Table 5-107 Timing Requirements for rgmiin_rxc - RGMIIn Operation
            2. Table 5-108 Timing Requirements for GMAC RGMIIn Input Receive for 10/100/1000 Mbps
            3. Table 5-109 Switching Characteristics Over Recommended Operating Conditions for rgmiin_txctl - RGMIIn Operation for 10/100/1000 Mbit/s
            4. Table 5-110 Switching Characteristics for GMAC RGMIIn Output Transmit for 10/100/1000 Mbps
        19. 5.10.6.19 eMMC/SD/SDIO
          1. 5.10.6.19.1 MMC1—SD Card Interface
            1. 5.10.6.19.1.1 Default speed, 4-bit data, SDR, half-cycle
            2. 5.10.6.19.1.2 High speed, 4-bit data, SDR, half-cycle
            3. 5.10.6.19.1.3 SDR12, 4-bit data, half-cycle
            4. 5.10.6.19.1.4 SDR25, 4-bit data, half-cycle
            5. 5.10.6.19.1.5 UHS-I SDR50, 4-bit data, half-cycle
            6. 5.10.6.19.1.6 UHS-I SDR104, 4-bit data, half-cycle
            7. 5.10.6.19.1.7 UHS-I DDR50, 4-bit data
          2. 5.10.6.19.2 MMC2 — eMMC
            1. 5.10.6.19.2.1 Standard JC64 SDR, 8-bit data, half cycle
            2. 5.10.6.19.2.2 High-Speed JC64 SDR, 8-bit data, half cycle
            3. 5.10.6.19.2.3 High-speed HS200 JC64 SDR, 8-bit data, half cycle
            4. 5.10.6.19.2.4 High-Speed JC64 DDR, 8-bit data
          3. 5.10.6.19.3 MMC3 and MMC4—SDIO/SD
            1. 5.10.6.19.3.1 MMC3 and MMC4, SD Default Speed
            2. 5.10.6.19.3.2 MMC3 and MMC4, SD High Speed
            3. 5.10.6.19.3.3 MMC3 and MMC4, SD and SDIO SDR12 Mode
            4. 5.10.6.19.3.4 MMC3 and MMC4, SD SDR25 Mode
            5. 5.10.6.19.3.5 MMC3 SDIO High-Speed UHS-I SDR50 Mode, Half Cycle
        20. 5.10.6.20 GPIO
        21. 5.10.6.21 System and Miscellaneous interfaces
      7. 5.10.7 Emulation and Debug Subsystem
        1. 5.10.7.1 JTAG
          1. 5.10.7.1.1 JTAG Electrical Data/Timing
            1. Table 5-159 Timing Requirements for IEEE 1149.1 JTAG
            2. Table 5-160 Switching Characteristics Over Recommended Operating Conditions for IEEE 1149.1 JTAG
            3. Table 5-161 Timing Requirements for IEEE 1149.1 JTAG With RTCK
            4. Table 5-162 Switching Characteristics Over Recommended Operating Conditions for IEEE 1149.1 JTAG With RTCK
        2. 5.10.7.2 Trace Port Interface Unit (TPIU)
          1. 5.10.7.2.1 TPIU PLL DDR Mode
  6. 6Detailed Description
    1. 6.1  Description
    2. 6.2  Functional Block Diagram
    3. 6.3  MPU
    4. 6.4  DSP Subsystem
    5. 6.5  ISS
    6. 6.6  IVA
    7. 6.7  EVE
    8. 6.8  IPU
    9. 6.9  VPE
    10. 6.10 GPU
    11. 6.11 Memory Subsystem
      1. 6.11.1 EMIF
      2. 6.11.2 GPMC
      3. 6.11.3 ELM
      4. 6.11.4 OCMC
    12. 6.12 Interprocessor Communication
      1. 6.12.1 Mailbox
      2. 6.12.2 Spinlock
    13. 6.13 Interrupt Controller
    14. 6.14 EDMA
    15. 6.15 Peripherals
      1. 6.15.1  VIP
      2. 6.15.2  DSS
      3. 6.15.3  Timers
      4. 6.15.4  I2C
      5. 6.15.5  UART
        1. 6.15.5.1 UART Features
        2. 6.15.5.2 IrDA Features
        3. 6.15.5.3 CIR Features
      6. 6.15.6  McSPI
      7. 6.15.7  QSPI
      8. 6.15.8  McASP
      9. 6.15.9  USB
      10. 6.15.10 SATA
      11. 6.15.11 PCIe
      12. 6.15.12 CAN
      13. 6.15.13 GMAC_SW
      14. 6.15.14 CSI2
        1. 6.15.14.1 CSI-2 MIPI D-PHY
      15. 6.15.15 eMMC/SD/SDIO
      16. 6.15.16 GPIO
      17. 6.15.17 ePWM
      18. 6.15.18 eCAP
      19. 6.15.19 eQEP
    16. 6.16 On-Chip Debug
  7. 7Applications, Implementation, and Layout
    1. 7.1 Introduction
      1. 7.1.1 Initial Requirements and Guidelines
    2. 7.2 Power Optimizations
      1. 7.2.1 Step 1: PCB Stack-up
      2. 7.2.2 Step 2: Physical Placement
      3. 7.2.3 Step 3: Static Analysis
        1. 7.2.3.1 PDN Resistance and IR Drop
      4. 7.2.4 Step 4: Frequency Analysis
      5. 7.2.5 System ESD Generic Guidelines
        1. 7.2.5.1 System ESD Generic PCB Guideline
        2. 7.2.5.2 Miscellaneous EMC Guidelines to Mitigate ESD Immunity
      6. 7.2.6 EMI / EMC Issues Prevention
        1. 7.2.6.1 Signal Bandwidth
        2. 7.2.6.2 Signal Routing
          1. 7.2.6.2.1 Signal Routing—Sensitive Signals and Shielding
          2. 7.2.6.2.2 Signal Routing—Outer Layer Routing
        3. 7.2.6.3 Ground Guidelines
          1. 7.2.6.3.1 PCB Outer Layers
          2. 7.2.6.3.2 Metallic Frames
          3. 7.2.6.3.3 Connectors
          4. 7.2.6.3.4 Guard Ring on PCB Edges
          5. 7.2.6.3.5 Analog and Digital Ground
    3. 7.3 Core Power Domains
      1. 7.3.1 General Constraints and Theory
      2. 7.3.2 Voltage Decoupling
      3. 7.3.3 Static PDN Analysis
      4. 7.3.4 Dynamic PDN Analysis
      5. 7.3.5 Power Supply Mapping
      6. 7.3.6 DPLL Voltage Requirement
      7. 7.3.7 Loss of Input Power Event
      8. 7.3.8 Example PCB Design
        1. 7.3.8.1 Example Stack-up
        2. 7.3.8.2 vdd_mpu Example Analysis
    4. 7.4 Single-Ended Interfaces
      1. 7.4.1 General Routing Guidelines
      2. 7.4.2 QSPI Board Design and Layout Guidelines
    5. 7.5 Differential Interfaces
      1. 7.5.1 General Routing Guidelines
      2. 7.5.2 USB 2.0 Board Design and Layout Guidelines
        1. 7.5.2.1 Background
        2. 7.5.2.2 USB PHY Layout Guide
          1. 7.5.2.2.1 General Routing and Placement
          2. 7.5.2.2.2 Specific Guidelines for USB PHY Layout
            1. 7.5.2.2.2.1  Analog, PLL, and Digital Power Supply Filtering
            2. 7.5.2.2.2.2  Analog, Digital, and PLL Partitioning
            3. 7.5.2.2.2.3  Board Stackup
            4. 7.5.2.2.2.4  Cable Connector Socket
            5. 7.5.2.2.2.5  Clock Routings
            6. 7.5.2.2.2.6  Crystals/Oscillator
            7. 7.5.2.2.2.7  DP/DM Trace
            8. 7.5.2.2.2.8  DP/DM Vias
            9. 7.5.2.2.2.9  Image Planes
            10. 7.5.2.2.2.10 JTAG Interface
            11. 7.5.2.2.2.11 Power Regulators
        3. 7.5.2.3 Electrostatic Discharge (ESD)
          1. 7.5.2.3.1 IEC ESD Stressing Test
            1. 7.5.2.3.1.1 Test Mode
            2. 7.5.2.3.1.2 Air Discharge Mode
            3. 7.5.2.3.1.3 Test Type
          2. 7.5.2.3.2 TI Component Level IEC ESD Test
          3. 7.5.2.3.3 Construction of a Custom USB Connector
          4. 7.5.2.3.4 ESD Protection System Design Consideration
        4. 7.5.2.4 References
      3. 7.5.3 USB 3.0 Board Design and Layout Guidelines
        1. 7.5.3.1 USB 3.0 interface introduction
        2. 7.5.3.2 USB 3.0 General routing rules
      4. 7.5.4 HDMI Board Design and Layout Guidelines
        1. 7.5.4.1 HDMI Interface Schematic
        2. 7.5.4.2 TMDS General Routing Guidelines
        3. 7.5.4.3 TPD5S115
        4. 7.5.4.4 HDMI ESD Protection Device (Required)
        5. 7.5.4.5 PCB Stackup Specifications
        6. 7.5.4.6 Grounding
      5. 7.5.5 SATA Board Design and Layout Guidelines
        1. 7.5.5.1 SATA Interface Schematic
        2. 7.5.5.2 Compatible SATA Components and Modes
        3. 7.5.5.3 PCB Stackup Specifications
        4. 7.5.5.4 Routing Specifications
      6. 7.5.6 PCIe Board Design and Layout Guidelines
        1. 7.5.6.1 PCIe Connections and Interface Compliance
          1. 7.5.6.1.1 Coupling Capacitors
          2. 7.5.6.1.2 Polarity Inversion
        2. 7.5.6.2 Non-standard PCIe connections
          1. 7.5.6.2.1 PCB Stackup Specifications
          2. 7.5.6.2.2 Routing Specifications
            1. 7.5.6.2.2.1 Impedance
            2. 7.5.6.2.2.2 Differential Coupling
            3. 7.5.6.2.2.3 Pair Length Matching
        3. 7.5.6.3 LJCB_REFN/P Connections
    6. 7.6 CSI2 Board Design and Routing Guidelines
      1. 7.6.1 CSI2_0 and CSI2_1 MIPI CSI-2 (1.5 Gbps)
        1. 7.6.1.1 General Guidelines
        2. 7.6.1.2 Length Mismatch Guidelines
          1. 7.6.1.2.1 CSI2_0 and CSI2_1 MIPI CSI-2 (1.5 Gbps)
        3. 7.6.1.3 Frequency-domain Specification Guidelines
    7. 7.7 DDR2/DDR3 Board Design and Layout Guidelines
      1. 7.7.1 DDR2/DDR3 General Board Layout Guidelines
      2. 7.7.2 DDR2 Board Design and Layout Guidelines
        1. 7.7.2.1 Board Designs
        2. 7.7.2.2 DDR2 Interface
          1. 7.7.2.2.1  DDR2 Interface Schematic
          2. 7.7.2.2.2  Compatible JEDEC DDR2 Devices
          3. 7.7.2.2.3  PCB Stackup
          4. 7.7.2.2.4  Placement
          5. 7.7.2.2.5  DDR2 Keepout Region
          6. 7.7.2.2.6  Bulk Bypass Capacitors
          7. 7.7.2.2.7  High-Speed Bypass Capacitors
          8. 7.7.2.2.8  Net Classes
          9. 7.7.2.2.9  DDR2 Signal Termination
          10. 7.7.2.2.10 VREF Routing
        3. 7.7.2.3 DDR2 CK and ADDR_CTRL Routing
      3. 7.7.3 DDR3 Board Design and Layout Guidelines
        1. 7.7.3.1  Board Designs
        2. 7.7.3.2  DDR3 EMIF
        3. 7.7.3.3  DDR3 Device Combinations
        4. 7.7.3.4  DDR3 Interface Schematic
          1. 7.7.3.4.1 32-Bit DDR3 Interface
          2. 7.7.3.4.2 16-Bit DDR3 Interface
        5. 7.7.3.5  Compatible JEDEC DDR3 Devices
        6. 7.7.3.6  PCB Stackup
        7. 7.7.3.7  Placement
        8. 7.7.3.8  DDR3 Keepout Region
        9. 7.7.3.9  Bulk Bypass Capacitors
        10. 7.7.3.10 High-Speed Bypass Capacitors
          1. 7.7.3.10.1 Return Current Bypass Capacitors
        11. 7.7.3.11 Net Classes
        12. 7.7.3.12 DDR3 Signal Termination
        13. 7.7.3.13 VREF_DDR Routing
        14. 7.7.3.14 VTT
        15. 7.7.3.15 CK and ADDR_CTRL Topologies and Routing Definition
          1. 7.7.3.15.1 Four DDR3 Devices
            1. 7.7.3.15.1.1 CK and ADDR_CTRL Topologies, Four DDR3 Devices
            2. 7.7.3.15.1.2 CK and ADDR_CTRL Routing, Four DDR3 Devices
          2. 7.7.3.15.2 Two DDR3 Devices
            1. 7.7.3.15.2.1 CK and ADDR_CTRL Topologies, Two DDR3 Devices
            2. 7.7.3.15.2.2 CK and ADDR_CTRL Routing, Two DDR3 Devices
          3. 7.7.3.15.3 One DDR3 Device
            1. 7.7.3.15.3.1 CK and ADDR_CTRL Topologies, One DDR3 Device
            2. 7.7.3.15.3.2 CK and ADDR/CTRL Routing, One DDR3 Device
        16. 7.7.3.16 Data Topologies and Routing Definition
          1. 7.7.3.16.1 DQS and DQ/DM Topologies, Any Number of Allowed DDR3 Devices
          2. 7.7.3.16.2 DQS and DQ/DM Routing, Any Number of Allowed DDR3 Devices
        17. 7.7.3.17 Routing Specification
          1. 7.7.3.17.1 CK and ADDR_CTRL Routing Specification
          2. 7.7.3.17.2 DQS and DQ Routing Specification
  8. 8Device and Documentation Support
    1. 8.1 Device Nomenclature and Orderable Information
      1. 8.1.1 Standard Package Symbolization
      2. 8.1.2 Device Naming Convention
    2. 8.2 Tools and Software
    3. 8.3 Documentation Support
      1. 8.3.1 FCC Warning
      2. 8.3.2 Information About Cautions and Warnings
    4. 8.4 Receiving Notification of Documentation Updates
    5. 8.5 Community Resources
    6. 8.6 Trademarks
    7. 8.7 Electrostatic Discharge Caution
    8. 8.8 Export Control Notice
    9. 8.9 Glossary
  9. 9Mechanical Packaging Information
    1. 9.1 Mechanical Data

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

GPMC/NAND Flash Interface Asynchronous Timing

CAUTION

The IO Timings provided in this section are only valid for some GPMC usage modes when the corresponding Virtual IO Timings or Manual IO Timings are configured as described in the tables found in this section.

Table 5-56 and Table 5-57 assume testing over the recommended operating conditions and electrical characteristic conditions below (see Figure 5-35, Figure 5-36, Figure 5-37, and Figure 5-38).

Table 5-56 GPMC/NAND Flash Interface Timing Requirements

NO. PARAMETER DESCRIPTION MIN MAX UNIT
GNF12 tacc(DAT) Data maximum access time (GPMC_FCLK Cycles) J (1) cycles
- tsu(DV-OEH) Setup time, read gpmc_ad[15:0] valid before gpmc_oen_ren high 1.9 ns
- th(OEH-DV) Hold time, read gpmc_ad[15:0] valid after gpmc_oen_ren high 1 ns
  1. J = AccessTime * (TimeParaGranularity + 1)

Table 5-57 GPMC/NAND Flash Interface Switching Characteristics

NO. PARAMETER DESCRIPTION MIN MAX UNIT
GNF0 tw(nWEV) Pulse duration, gpmc_wen valid time A (1) ns
GNF1 td(nCSV-nWEV) Delay time, gpmc_cs[7:0] valid to gpmc_wen valid B - 2 (2) B + 4 (2) ns
GNF2 td(CLEH-nWEV) Delay time, gpmc_ben[1:0] high to gpmc_wen valid C - 2 (3) C + 4 (3) ns
GNF3 td(nWEV-DV) Delay time, gpmc_ad[15:0] valid to gpmc_wen valid D - 2 (4) D + 4 (4) ns
GNF4 td(nWEIV-DIV) Delay time, gpmc_wen invalid to gpmc_ad[15:0] invalid E - 2 (5) E + 4 (5) ns
GNF5 td(nWEIV-CLEIV) Delay time, gpmc_wen invalid to gpmc_ben[1:0] invalid F - 2 (6) F + 4 (6) ns
GNF6 td(nWEIV-nCSIV) Delay time, gpmc_wen invalid to gpmc_cs[7:0] invalid G - 2 (7) G + 4 (7) ns
GNF7 td(ALEH-nWEV) Delay time, gpmc_advn_ale high to gpmc_wen valid C - 2 (3) C + 4 (3) ns
GNF8 td(nWEIV-ALEIV) Delay time, gpmc_wen invalid to gpmc_advn_ale invalid F - 2 (6) F + 4 (6) ns
GNF9 tc(nWE) Cycle time, write cycle time H (8) ns
GNF10 td(nCSV-nOEV) Delay time, gpmc_cs[7:0] valid to gpmc_oen_ren valid I - 2 (9) I + 4 (9) ns
GNF13 tw(nOEV) Pulse duration, gpmc_oen_ren valid time K(10) ns
GNF14 tc(nOE) Cycle time, read cycle time L(11) ns
GNF15 td(nOEIV-nCSIV) Delay time, gpmc_oen_ren invalid to gpmc_cs[7:0] invalid M - 2(12) M + 4 (12) ns
  1. A = (WEOffTime – WEOnTime) × (TimeParaGranularity + 1) × GPMC_FCLK
  2. B = ((WEOnTime – CSOnTime) × (TimeParaGranularity + 1) + 0.5 × (WEExtraDelay – CSExtraDelay)) × GPMC_FCLK
  3. C = ((WEOnTime – ADVOnTime) × (TimeParaGranularity + 1) + 0.5 × (WEExtraDelay – ADVExtraDelay)) × GPMC_FCLK
  4. D = (WEOnTime × (TimeParaGranularity + 1) + 0.5 × WEExtraDelay ) × GPMC_FCLK
  5. E = (WrCycleTime – WEOffTime × (TimeParaGranularity + 1) – 0.5 × WEExtraDelay ) × GPMC_FCLK
  6. F = (ADVWrOffTime – WEOffTime × (TimeParaGranularity + 1) + 0.5 × (ADVExtraDelay – WEExtraDelay) × GPMC_FCLK
  7. G = (CSWrOffTime – WEOffTime × (TimeParaGranularity + 1) + 0.5 × (CSExtraDelay – WEExtraDelay) × GPMC_FCLK
  8. H = WrCycleTime × (1 + TimeParaGranularity) × GPMC_FCLK
  9. I = ((OEOffTime + (n – 1) × PageBurstAccessTime – CSOnTime) × (TimeParaGranularity + 1) + 0.5 × (OEExtraDelay – CSExtraDelay)) × GPMC_FCLK
  10. K = (OEOffTime – OEOnTime) × (1 + TimeParaGranularity) × GPMC_FCLK
  11. L = RdCycleTime × (1 + TimeParaGranularity) × GPMC_FCLK
  12. M = (CSRdOffTime – OEOffTime × (TimeParaGranularity + 1) + 0.5 × (CSExtraDelay – OEExtraDelay) × GPMC_FCLK
TDA2P-ACD vayu_gpmc_13.gifFigure 5-35 GPMC / NAND Flash - Command Latch Cycle Timing(1)
  1. In gpmc_csi, i = 0 to 7.
TDA2P-ACD vayu_gpmc_14.gifFigure 5-36 GPMC / NAND Flash - Address Latch Cycle Timing(1)
  1. In gpmc_csi, i = 0 to 7.
TDA2P-ACD vayu_gpmc_15.gifFigure 5-37 GPMC / NAND Flash - Data Read Cycle Timing(1)(2)(3)
  1. GNF12 parameter illustrates amount of time required to internally sample input Data. It is expressed in number of GPMC functional clock cycles. From start of read cycle and after GNF12 functional clock cycles, input data will be internally sampled by active functional clock edge. GNF12 value must be stored inside AccessTime register bits field.
  2. GPMC_FCLK is an internal clock (GPMC functional clock) not provided externally.
  3. In gpmc_csi, i = 0 to 7. In gpmc_waitj, j = 0 to 1.
TDA2P-ACD vayu_gpmc_16.gifFigure 5-38 GPMC / NAND Flash - Data Write Cycle Timing(1)
  1. In gpmc_csi, i = 0 to 7.

NOTE

To configure the desired virtual mode the user must set MODESELECT bit and DELAYMODE bitfield for each corresponding pad control register.

The pad control registers are presented in Table 4-29 and described in Device TRM, Chapter 18 - Control Module.

Virtual IO Timings Modes must be used to guarantee some IO timings for GPMC. See Table 5-28, Modes Summary for a list of IO timings requiring the use of Virtual IO Timings Modes. See Table 5-58, Virtual Functions Mapping for GPMC for a definition of the Virtual modes.

Table 5-58 presents the values for DELAYMODE bitfield.

Table 5-58 Virtual Functions Mapping for GPMC

BALL BALL NAME Delay Mode Value MUXMODE[15:0]
GPMC_VIRTUAL1 0 1 2 3 5 6 14(1) 14(1)
N5 gpmc_ad0 11 gpmc_ad0
M2 gpmc_ad1 11 gpmc_ad1
L5 gpmc_ad2 11 gpmc_ad2
M1 gpmc_ad3 11 gpmc_ad3
K6 gpmc_ad4 11 gpmc_ad4
L4 gpmc_ad5 11 gpmc_ad5
L3 gpmc_ad6 11 gpmc_ad6
L2 gpmc_ad7 11 gpmc_ad7
L1 gpmc_ad8 11 gpmc_ad8
K1 gpmc_ad9 11 gpmc_ad9
J1 gpmc_ad10 11 gpmc_ad10
J2 gpmc_ad11 11 gpmc_ad11
H1 gpmc_ad12 11 gpmc_ad12
K2 gpmc_ad13 11 gpmc_ad13
H2 gpmc_ad14 11 gpmc_ad14
K3 gpmc_ad15 11 gpmc_ad15
P6 gpmc_a0 11 gpmc_a0 gpmc_a26 gpmc_a16
J6 gpmc_a1 11 gpmc_a1
R4 gpmc_a2 11 gpmc_a2
R5 gpmc_a3 10 gpmc_a3
M6 gpmc_a4 10 gpmc_a4
K4 gpmc_a5 11 gpmc_a5
P5 gpmc_a6 11 gpmc_a6
N6 gpmc_a7 11 gpmc_a7
N4 gpmc_a8 12 gpmc_a8
R3 gpmc_a9 12 gpmc_a9
J5 gpmc_a10 12 gpmc_a10
K5 gpmc_a11 11 gpmc_a11
P4 gpmc_a12 13 gpmc_a12 gpmc_a0
R2 gpmc_a13 12 gpmc_a13
R6 gpmc_a14 12 gpmc_a14
T2 gpmc_a15 12 gpmc_a15
U1 gpmc_a16 12 gpmc_a16
P3 gpmc_a17 12 gpmc_a17
R1 gpmc_a18 12 gpmc_a18
H6 gpmc_a19 11 gpmc_a19 gpmc_a13
G6 gpmc_a20 11 gpmc_a20 gpmc_a14
J4 gpmc_a21 11 gpmc_a21 gpmc_a15
F5 gpmc_a22 11 gpmc_a22 gpmc_a16
G5 gpmc_a23 11 gpmc_a23 gpmc_a17
J3 gpmc_a24 11 gpmc_a24 gpmc_a18
H4 gpmc_a25 11 gpmc_a25 gpmc_a19
H3 gpmc_a26 11 gpmc_a26 gpmc_a20
H5 gpmc_a27 11 gpmc_a27 gpmc_a21
G4 gpmc_cs1 11 gpmc_cs1 gpmc_a22
T1 gpmc_cs0 14 gpmc_cs0
P2 gpmc_cs2 12 gpmc_cs2 gpmc_a23 gpmc_a13
P1 gpmc_cs3 10 gpmc_cs3 gpmc_a1 gpmc_a24 gpmc_a14
L6 gpmc_clk 12 gpmc_clk gpmc_cs7 gpmc_wait1 gpmc_a20
N1 gpmc_advn_ale 13 gpmc_advn_ale gpmc_cs6 gpmc_wait1 gpmc_a2 gpmc_a23 gpmc_a19
M5 gpmc_oen_ren 14 gpmc_oen_ren
M3 gpmc_wen 14 gpmc_wen
N3 gpmc_ben0 11 gpmc_ben0 gpmc_cs4 gpmc_a21
M4 gpmc_ben1 11 gpmc_ben1 gpmc_cs5 gpmc_a3 gpmc_a22
N2 gpmc_wait0 14 gpmc_wait0 gpmc_a25 gpmc_a15
F1 vin2a_clk0 11 gpmc_a27 gpmc_a17
D5 vin2a_fld0 11 gpmc_a27 gpmc_a18
G1 vin2a_hsync0 9 gpmc_a27
G3 vin2a_d8 9 gpmc_a26
C5 vin2a_d9 9 gpmc_a25
D3 vin2a_d10 9 gpmc_a24
F4 vin2a_d11 9 gpmc_a23
F4 vin2a_d11 9 gpmc_a23
AF5 vin1a_d11 9 gpmc_a23
AE5 vin1a_d12 9 gpmc_a24
AF1 vin1a_d13 9 gpmc_a25
AD6 vin1a_d14 9 gpmc_a26
AE3 vin1a_d15 9 gpmc_a27
  1. Some signals listed are virtual functions that present alternate multiplexing options. These virtual functions are controlled via CTRL_CORE_ALT_SELECT_MUX or CTRL_CORE_VIP_MUX_SELECT registers. For more information on how to use these options, please refer to Device TRM, chapter Control Module, section Pad Configuration Registers.