SPNS184C September 2012 – June 2015 RM46L450 , RM46L850
PRODUCTION DATA.
- 1Device Overview
- 2Revision History
- 3Device Comparison
-
4Terminal Configuration and Functions
- 4.1 PGE QFP Package Pinout (144-Pin)
- 4.2 ZWT BGA Package Ball-Map (337 Ball Grid Array)
- 4.3
Terminal Functions
- 4.3.1
PGE Package
- 4.3.1.1 Multibuffered Analog-to-Digital Converters (MibADC)
- 4.3.1.2 Enhanced High-End Timer Modules (N2HET)
- 4.3.1.3 Enhanced Capture Modules (eCAP)
- 4.3.1.4 Enhanced Quadrature Encoder Pulse Modules (eQEP)
- 4.3.1.5 Enhanced Pulse-Width Modulator Modules (ePWM)
- 4.3.1.6 General-Purpose Input / Output (GPIO)
- 4.3.1.7 Controller Area Network Controllers (DCAN)
- 4.3.1.8 Local Interconnect Network Interface Module (LIN)
- 4.3.1.9 Standard Serial Communication Interface (SCI)
- 4.3.1.10 Inter-Integrated Circuit Interface Module (I2C)
- 4.3.1.11 Standard Serial Peripheral Interface (SPI)
- 4.3.1.12 Multibuffered Serial Peripheral Interface Modules (MibSPI)
- 4.3.1.13 Ethernet Controller
- 4.3.1.14 USB Host and Device Port Controller Interface
- 4.3.1.15 System Module Interface
- 4.3.1.16 Clock Inputs and Outputs
- 4.3.1.17 Test and Debug Modules Interface
- 4.3.1.18 Flash Supply and Test Pads
- 4.3.1.19 Supply for Core Logic: 1.2V nominal
- 4.3.1.20 Supply for I/O Cells: 3.3V nominal
- 4.3.1.21 Ground Reference for All Supplies Except VCCAD
- 4.3.2
ZWT Package
- 4.3.2.1 Multibuffered Analog-to-Digital Converters (MibADC)
- 4.3.2.2 Enhanced High-End Timer Modules (N2HET)
- 4.3.2.3 Enhanced Capture Modules (eCAP)
- 4.3.2.4 Enhanced Quadrature Encoder Pulse Modules (eQEP)
- 4.3.2.5 Enhanced Pulse-Width Modulator Modules (ePWM)
- 4.3.2.6 General-Purpose Input / Output (GPIO)
- 4.3.2.7 Controller Area Network Controllers (DCAN)
- 4.3.2.8 Local Interconnect Network Interface Module (LIN)
- 4.3.2.9 Standard Serial Communication Interface (SCI)
- 4.3.2.10 Inter-Integrated Circuit Interface Module (I2C)
- 4.3.2.11 Standard Serial Peripheral Interface (SPI)
- 4.3.2.12 Multibuffered Serial Peripheral Interface Modules (MibSPI)
- 4.3.2.13 Ethernet Controller
- 4.3.2.14 USB Host and Device Port Controller Interface
- 4.3.2.15 External Memory Interface (EMIF)
- 4.3.2.16 System Module Interface
- 4.3.2.17 Clock Inputs and Outputs
- 4.3.2.18 Test and Debug Modules Interface
- 4.3.2.19 Flash Supply and Test Pads
- 4.3.2.20 Reserved
- 4.3.2.21 No Connects
- 4.3.2.22 Supply for Core Logic: 1.2V nominal
- 4.3.2.23 Supply for I/O Cells: 3.3V nominal
- 4.3.2.24 Ground Reference for All Supplies Except VCCAD
- 4.3.1
PGE Package
-
5Specifications
- 5.1 Absolute Maximum Ratings Over Operating Free-Air Temperature Range
- 5.2 ESD Ratings
- 5.3 Power-On Hours (POH)
- 5.4 Device Recommended Operating Conditions
- 5.5 Switching Characteristics Over Recommended Operating Conditions for Clock Domains
- 5.6 Wait States Required
- 5.7 Power Consumption Over Recommended Operating Conditions
- 5.8 Input/Output Electrical Characteristics Over Recommended Operating Conditions
- 5.9 Thermal Resistance Characteristics
- 5.10 Output Buffer Drive Strengths
- 5.11 Input Timings
- 5.12 Output Timings
- 5.13 Low-EMI Output Buffers
-
6System Information and Electrical Specifications
- 6.1 Device Power Domains
- 6.2 Voltage Monitor Characteristics
- 6.3 Power Sequencing and Power On Reset
- 6.4 Warm Reset (nRST)
- 6.5 ARM Cortex-R4F CPU Information
- 6.6 Clocks
- 6.7 Clock Monitoring
- 6.8 Glitch Filters
- 6.9 Device Memory Map
- 6.10 Flash Memory
- 6.11 Tightly Coupled RAM Interface Module
- 6.12 Parity Protection for Accesses to Peripheral RAMs
- 6.13 On-Chip SRAM Initialization and Testing
- 6.14 External Memory Interface (EMIF)
- 6.15 Vectored Interrupt Manager
- 6.16 DMA Controller
- 6.17 Real Time Interrupt Module
- 6.18 Error Signaling Module
- 6.19 Reset / Abort / Error Sources
- 6.20 Digital Windowed Watchdog
- 6.21 Debug Subsystem
-
7Peripheral Information and Electrical Specifications
- 7.1
Enhanced Translator PWM Modules (ePWM)
- 7.1.1 ePWM Clocking and Reset
- 7.1.2 Synchronization of ePWMx Time Base Counters
- 7.1.3 Synchronizing all ePWM Modules to the N2HET1 Module Time Base
- 7.1.4 Phase-Locking the Time-Base Clocks of Multiple ePWM Modules
- 7.1.5 ePWM Synchronization with External Devices
- 7.1.6 ePWM Trip Zones
- 7.1.7 Triggering of ADC Start of Conversion Using ePWMx SOCA and SOCB Outputs
- 7.1.8 Enhanced Translator-Pulse Width Modulator (ePWMx) Timings
- 7.2 Enhanced Capture Modules (eCAP)
- 7.3 Enhanced Quadrature Encoder (eQEP)
- 7.4 Multibuffered 12bit Analog-to-Digital Converter
- 7.5 General-Purpose Input/Output
- 7.6 Enhanced High-End Timer (N2HET)
- 7.7 Controller Area Network (DCAN)
- 7.8 Local Interconnect Network Interface (LIN)
- 7.9 Serial Communication Interface (SCI)
- 7.10 Inter-Integrated Circuit (I2C)
- 7.11 Multibuffered / Standard Serial Peripheral Interface
- 7.12 Ethernet Media Access Controller
- 7.13 Universal Serial Bus (USB) Host and Device Controllers
- 7.1
Enhanced Translator PWM Modules (ePWM)
- 8Device and Documentation Support
- 9Mechanical Packaging and Orderable Information
4 Terminal Configuration and Functions
4.1 PGE QFP Package Pinout (144-Pin)
Figure 4-1 PGE QFP Package Pinout (144-Pin)
Note: Pins can have multiplexed functions. Only the default function is depicted in above diagram.
4.2 ZWT BGA Package Ball-Map (337 Ball Grid Array)
Figure 4-2 ZWT Package Pinout. Top View
Note: Balls can have multiplexed functions. Only the default function is depicted in above diagram.
4.3 Terminal Functions
Section 4.3.1 and Section 4.3.2 identify the external signal names, the associated pin/ball numbers along with the mechanical package designator, the pin/ball type (Input, Output, IO, Power or Ground), whether the pin/ball has any internal pullup/pulldown, whether the pin/ball can be configured as a GPIO, and a functional pin/ball description. The first signal name listed is the primary function for that terminal. The signal name in Bold is the function being described. Refer to the I/O Multiplexing Module (IOMM) chapter of the RM46x Technical Reference Manual (SPNU514).
NOTE
In the Terminal Functions table below, the "Reset Pull State" is the state of the pull applied to the terminal while nPORRST is low and immediately after nPORRST goes High. The default pull direction may change when software configures the pin for an alternate function. The "Pull Type" is the type of pull asserted when the signal name in bold is enabled for the given terminal by the IOMM control registers.
All I/O signals except nRST are configured as inputs while nPORRST is low and immediately after nPORRST goes High. While nPORRST is low, the input buffers are disabled, and the output buffers are disabled with the default pulls enabled.
All output-only signals have the output buffer disabled and the default pull enabled while nPORRST is low, and are configured as outputs with the pulls disabled immediately after nPORRST goes High.
4.3.1 PGE Package
4.3.1.1 Multibuffered Analog-to-Digital Converters (MibADC)
Table 4-1 PGE Multibuffered Analog-to-Digital Converters (MibADC1, MibADC2)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| ADREFHI(1) | 66 | Power | N/A | None | ADC high reference supply |
| ADREFLO(1) | 67 | Power | ADC low reference supply | ||
| VCCAD(1) | 69 | Power | Operating supply for ADC | ||
| VSSAD(1) | 68 | Ground | |||
| AD1EVT/MII_RX_ER/RMII_RX_ER | 86 | I/O | Pulldown | Programmable, 20 µA | ADC1 event trigger input, or GPIO |
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
55 | I/O | Pullup | Programmable, 20 µA | ADC2 event trigger input, or GPIO |
| AD1IN[0] | 60 | Input | N/A | None | ADC1 analog input |
| AD1IN[1] | 71 | ||||
| AD1IN[2] | 73 | ||||
| AD1IN[3] | 74 | ||||
| AD1IN[4] | 76 | ||||
| AD1IN[5] | 78 | ||||
| AD1IN[6] | 80 | ||||
| AD1IN[7] | 61 | ||||
| AD1IN[8] / AD2IN[8] | 83 | Input | N/A | None | ADC1/ADC2 shared analog inputs |
| AD1IN[9] / AD2IN[9] | 70 | ||||
| AD1IN[10] / AD2IN[10] | 72 | ||||
| AD1IN[11] / AD2IN[11] | 75 | ||||
| AD1IN[12] / AD2IN[12] | 77 | ||||
| AD1IN[13] / AD2IN[13] | 79 | ||||
| AD1IN[14] / AD2IN[14] | 82 | ||||
| AD1IN[15] / AD2IN[15] | 85 | ||||
| AD1IN[16] / AD2IN[0] | 58 | ||||
| AD1IN[17] / AD2IN[1] | 59 | ||||
| AD1IN[18] / AD2IN[2] | 62 | ||||
| AD1IN[19] / AD2IN[3] | 63 | ||||
| AD1IN[20] / AD2IN[4] | 64 | ||||
| AD1IN[21] / AD2IN[5] | 65 | ||||
| AD1IN[22] / AD2IN[6] | 81 | ||||
| AD1IN[23] / AD2IN[7] | 84 | ||||
| MIBSPI3SOMI[0]/AWM1_EXT_ENA/ECAP2 | 51 | Output | Pullup | None | AWM1 external analog mux enable |
| MIBSPI3SIMO[0]/AWM1_EXT_SEL[0]/ECAP3 | 52 | Output | Pullup | None | AWM1 external analog mux select line0 |
| MIBSPI3CLK/AWM1_EXT_SEL[1]/EQEP1A | 53 | Output | Pullup | None | AWM1 external analog mux select line0 |
(1) The ADREFHI, ADREFLO, VCCAD and VSSAD connections are common for both ADC cores.
4.3.1.2 Enhanced High-End Timer Modules (N2HET)
Table 4-2 PGE Enhanced High-End Timer Modules (N2HET)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| N2HET1[0]/SPI4CLK/EPWM2B | 25 | I/O | Pulldown | Programmable, 20 µA |
N2HET1 time input capture or output compare, or GIO. Each terminal has a suppression filter with a programmable duration. |
| N2HET1[1]/SPI4NENA/USB2.TXEN/ USB_FUNC.PUENO/N2HET2[8]/EQEP2A |
23 | ||||
| N2HET1[2]/SPI4SIMO[0]/EPWM3A | 30 | ||||
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
24 | ||||
| N2HET1[4]/EPWM4B | 36 | ||||
| N2HET1[5]/SPI4SOMI[0]/N2HET2[12]/EPWM3B | 31 | ||||
| N2HET1[6]/SCIRX/EPWM5A | 38 | ||||
| N2HET1[7]/USB2.PORTPOWER/USB_FUNC.GZO/ N2HET2[14]/EPWM7B |
33 | ||||
| N2HET1[8]/MIBSPI1SIMO[1]/MII_TXD[3]/ USB1.OVERCURRENT |
106 | ||||
| N2HET1[9]/N2HET2[16]/USB2.SUSPEND/ USB_FUNC.SUSPENDO/EPWM7A |
35 | ||||
| N2HET1[10]/MII_TXCLK/USB1.TXEN /MII_TX_VCLKA4/nTZ3 |
118 | ||||
| N2HET1[11]/MIBSPI3NCS[4]/N2HET2[18]/ USB2.OVERCURRENT/USB_FUNC.VBUSI/ EPWM1SYNCO |
6 | ||||
| N2HET1[12]/MII_CRS/RMII_CRS_DV | 124 | ||||
| N2HET1[13]/SCITX/EPWM5B | 39 | ||||
| N2HET1[14]/USB1.TXSE0 | 125 | ||||
| N2HET1[15]/MIBSPI1NCS[4]/ECAP1 | 41 | ||||
| N2HET1[16]/EPWM1SYNCI/EPWM1SYNCO | 139 | ||||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL/ USB1.SUSPEND/EQEP1S |
130 | Pullup | |||
| N2HET1[18]/EPWM6A | 140 | Pulldown | |||
| MIBSPI1NCS[2]/N2HET1[19]/MDIO | 40 | Pullup | |||
| N2HET1[20]/EPWM6B | 141 | Pulldown | |||
| N2HET1[22]/USB2.TXSE0/USB_FUNC.SE0O | 15 | ||||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/ USB1.VP/ECAP4 |
96 | Pullup | |||
| N2HET1[24]/MIBSPI1NCS[5]/MII_RXD[0]/RMII_RXD[0] | 91 | Pulldown | |||
| MIBSPI3NCS[1]/N2HET1[25]/MDCLK | 37 | Pullup | |||
| N2HET1[26]/MII_RXD[1]/RMII_RXD[1] | 92 | Pulldown | |||
| MIBSPI3NCS[2]/I2C_SDA/N2HET1[27]/nTZ2 | 4 | Pullup | |||
| N2HET1[28]/MII_RXCLK/RMII_REFCLK/MII_RX_VCLKA4 | 107 | Pulldown | |||
| MIBSPI3NCS[3]/I2C_SCL/N2HET1[29]/nTZ1 | 3 | Pullup | |||
| N2HET1[30]/MII_RX_DV/USB1.SPEED/EQEP2S | 127 | Pulldown | |||
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | 54 | Pullup | |||
| GIOA[5]/EXTCLKIN/EPWM1A/N2HET1_PIN_nDIS | 14 | I/O | Pulldown | Programmable, 20 µA(1) | Disable selected PWM outputs |
| GIOA[2]/USB2.TXDAT/USB_FUNC.TXDO/N2HET2[0]/ EQEP2I |
9 | I/O | Pulldown | Programmable, 20 µA |
N2HET2 time input capture or output compare, or GPIO Each terminal has a suppression filter with a programmable duration. |
| GIOA[6]/N2HET2[4]/EPWM1B | 16 | ||||
| GIOA[7]/N2HET2[6]/EPWM2A | 22 | ||||
| N2HET1[1]/SPI4NENA/USB2.TXEN/ USB_FUNC.PUENO/N2HET2[8]/EQEP2A |
23 | ||||
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
24 | ||||
| N2HET1[5]/SPI4SOMI[0]/N2HET2[12]/EPWM3B | 31 | ||||
| N2HET1[7]/USB2.PORTPOWER/USB_FUNC.GZO/ N2HET2[14]/EPWM7B |
33 | ||||
| N2HET1[9]/N2HET2[16]/USB2.SUSPEND/ USB_FUNC.SUSPENDO/EPWM7A |
35 | ||||
| N2HET1[11]/MIBSPI3NCS[4]/N2HET2[18]/ USB2.OVERCURRENT/USB_FUNC.VBUSI/ EPWM1SYNCO |
6 | ||||
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
55 | I/O | Pullup | Programmable, 20 µA(1) | Disable selected PWM outputs |
(1) The N2HETx_PIN_nDIS function is always available on this terminal. There is no mux control to select this function. The pull direction is controlled by the function which is selected by the output mux control for this terminal.
4.3.1.3 Enhanced Capture Modules (eCAP)
Table 4-3 PGE Enhanced Capture Modules (eCAP)(1)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| N2HET1[15]/MIBSPI1NCS[4]/ECAP1 | 41 | I/O | Pulldown | Fixed 20 µA Pullup |
Enhanced Capture Module 1 I/O |
| MIBSPI3SOMI[0]/AWM1_EXT_ENA/ECAP2 | 51 | Pullup | Enhanced Capture Module 2 I/O | ||
| MIBSPI3SIMO[0]/AWM1_EXT_SEL[0]/ECAP3 | 52 | Enhanced Capture Module 3 I/O | |||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/ USB1.VP/ECAP4 |
96 | Enhanced Capture Module 4 I/O | |||
| MIBSPI5NENA/MII_RXD[3]/USB1.VM/MIBSPI5SOMI[1]/ ECAP5 |
97 | Enhanced Capture Module 5 I/O | |||
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/ USB1.RCV/ECAP6 |
105 | Enhanced Capture Module 6 I/O | |||
(1) These signals, when used as inputs, are double-synchronized and then optionally filtered with a 6-cycle VCLK4-based counter.
4.3.1.4 Enhanced Quadrature Encoder Pulse Modules (eQEP)
Table 4-4 PGE Enhanced Quadrature Encoder Pulse Modules (eQEP)(1)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| MIBSPI3CLK/AWM1_EXT_SEL[1]/EQEP1A | 53 | Input | Pullup | Fixed 20 µA Pullup |
Enhanced QEP1 Input A |
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | 54 | Input | Enhanced QEP1 Input B | ||
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
55 | I/O | Enhanced QEP1 Index | ||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL
/USB1.SUSPEND /EQEP1S |
130 | I/O | Enhanced QEP1 Strobe | ||
| N2HET1[1]/SPI4NENA/USB2.TXEN/ USB_FUNC.PUENO/N2HET2[8]/EQEP2A |
23 | Input | Pulldown | Enhanced QEP2 Input A | |
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
24 | Input | Enhanced QEP2 Input B | ||
| GIOA[2]/USB2.TXDAT/USB_FUNC.TXDO/N2HET2[0]/ EQEP2I |
9 | I/O | Enhanced QEP2 Index | ||
| N2HET1[30]/MII_RX_DV/USB1.SPEED/EQEP2S | 127 | I/O | Enhanced QEP2 Strobe | ||
(1) These signals are double-synchronized and then optionally filtered with a 6-cycle VCLK4-based counter.
4.3.1.5 Enhanced Pulse-Width Modulator Modules (ePWM)
Table 4-5 PGE Enhanced Pulse-Width Modulator Modules (ePWM)
4.3.1.6 General-Purpose Input / Output (GPIO)
Table 4-6 PGE General-Purpose Input / Output (GPIO)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| GIOA[0]/USB2.VP/USB_FUNC.RXDPI | 2 | I/O | Pulldown | Programmable, 20 µA | General-purpose I/O. All GPIO terminals are capable of generating interrupts to the CPU on rising / falling / both edges. |
| GIOA[1]/USB2.VM/USB_FUNC.RXDMI | 5 | ||||
| GIOA[2]/USB2.TXDAT/USB_FUNC.TXDO/N2HET2[0]
/EQEP2I |
9 | ||||
| GIOA[5]/EXTCLKIN/EPWM1A/N2HET1_PIN_nDIS | 14 | ||||
| GIOA[6]/N2HET2[4]/EPWM1B | 16 | ||||
| GIOA[7]/N2HET2[6]/EPWM2A | 22 | ||||
| GIOB[0]/USB1.TXDAT | 126 | ||||
| GIOB[1]/USB1.PORTPOWER | 133 | ||||
| GIOB[2] | 142 | ||||
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
55(1) | Pullup | |||
| GIOB[3]/USB2.RCV/USB_FUNC.RXDI | 1 | Pulldown | |||
(1) GIOB[2] cannot output a level on to pin 55. Only the input functionality is supported so that the application can generate an interrupt whenever the N2HET2_PIN_nDIS is asserted (driven low). Also, a pullup is enabled on the input. This is not programmable using the GIO module control registers.
4.3.1.7 Controller Area Network Controllers (DCAN)
Table 4-7 PGE Controller Area Network Controllers (DCAN)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| CAN1RX | 90 | I/O | Pullup | Programmable, 20 µA | CAN1 receive, or GPIO |
| CAN1TX | 89 | CAN1 transmit, or GPIO | |||
| CAN2RX | 129 | CAN2 receive, or GPIO | |||
| CAN2TX | 128 | CAN2 transmit, or GPIO | |||
| CAN3RX | 12 | CAN3 receive, or GPIO | |||
| CAN3TX | 13 | CAN3 transmit, or GPIO | |||
4.3.1.8 Local Interconnect Network Interface Module (LIN)
Table 4-8 PGE Local Interconnect Network Interface Module (LIN)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| LINRX | 131 | I/O | Pullup | Programmable, 20 µA | LIN receive, or GPIO |
| LINTX | 132 | LIN transmit, or GPIO | |||
4.3.1.9 Standard Serial Communication Interface (SCI)
Table 4-9 PGE Standard Serial Communication Interface (SCI)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| N2HET1[6]/SCIRX/EPWM5A | 38 | I/O | Pulldown | Programmable, 20 µA | SCI receive, or GPIO |
| N2HET1[13]/SCITX/EPWM5B | 39 | SCI transmit, or GPIO | |||
4.3.1.10 Inter-Integrated Circuit Interface Module (I2C)
Table 4-10 PGE Inter-Integrated Circuit Interface Module (I2C)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| MIBSPI3NCS[2]/I2C_SDA/N2HET1[27]/nTZ2 | 4 | I/O | Pullup | Programmable, 20 µA | I2C serial data, or GPIO |
| MIBSPI3NCS[3]/I2C_SCL/N2HET1[29]/nTZ1 | 3 | I2C serial clock, or GPIO | |||
4.3.1.11 Standard Serial Peripheral Interface (SPI)
Table 4-11 PGE Standard Serial Peripheral Interface (SPI)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| N2HET1[0]/SPI4CLK/EPWM2B | 25 | I/O | Pulldown | Programmable, 20 µA | SPI4 clock, or GPIO |
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
24 | SPI4 chip select, or GPIO | |||
| N2HET1[1]/SPI4NENA/USB2.TXEN/ USB_FUNC.PUENO/N2HET2[8]/EQEP2A |
23 | SPI4 enable, or GPIO | |||
| N2HET1[2]/SPI4SIMO[0]/EPWM3A | 30 | SPI4 slave-input master-output, or GPIO | |||
| N2HET1[5]/SPI4SOMI[0]/N2HET2[12]/EPWM3B | 31 | SPI4 slave-output master-input, or GPIO | |||
4.3.1.12 Multibuffered Serial Peripheral Interface Modules (MibSPI)
Table 4-12 PGE Multibuffered Serial Peripheral Interface Modules (MibSPI)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| MIBSPI1CLK | 95 | I/O | Pullup | Programmable, 20 µA | MibSPI1 clock, or GPIO |
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/ USB1.RCV/ECAP6 |
105 | MibSPI1 chip select, or GPIO | |||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL
/USB1.SUSPEND /EQEP1S |
130 | ||||
| MIBSPI1NCS[2]/N2HET1[19]/MDIO | 40 | ||||
| N2HET1[15]/MIBSPI1NCS[4]/ECAP1 | 41 | Pulldown | Programmable, 20 µA | MibSPI1 chip select, or GPIO | |
| N2HET1[24]/MIBSPI1NCS[5]/MII_RXD[0]/RMII_RXD[0] | 91 | ||||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/ USB1.VP/ECAP4 |
96 | Pullup | Programmable, 20 µA | MibSPI1 enable, or GPIO | |
| MIBSPI1SIMO[0] | 93 | MibSPI1 slave-in master-out, or GPIO | |||
| N2HET1[8]/MIBSPI1SIMO[1]/MII_TXD[3]/ USB1.OVERCURRENT |
106 | Pulldown | Programmable, 20 µA | MibSPI1 slave-in master-out, or GPIO | |
| MIBSPI1SOMI[0] | 94 | Pullup | Programmable, 20 µA | MibSPI1 slave-out master-in, or GPIO | |
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/ USB1.RCV/ECAP6 |
105 | ||||
| MIBSPI3CLK/AWM1_EXT_SEL[1]/EQEP1A | 53 | I/O | Pullup | Programmable, 20 µA | MibSPI3 clock, or GPIO |
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
55 | MibSPI3 chip select, or GPIO | |||
| MIBSPI3NCS[1]/N2HET1[25]/MDCLK | 37 | ||||
| MIBSPI3NCS[2]/I2C_SDA/N2HET1[27]/nTZ2 | 4 | ||||
| MIBSPI3NCS[3]/I2C_SCL/N2HET1[29]/nTZ1 | 3 | ||||
| N2HET1[11]/MIBSPI3NCS[4]/N2HET2[18]/ USB2.OVERCURRENT/USB_FUNC.VBUSI/EPWM1SYNCO |
6 | Pulldown | Programmable, 20 µA | MibSPI3 chip select, or GPIO | |
| MIBSPI3NENA /MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | 54 | Pullup | Programmable, 20 µA | MibSPI3 chip select, or GPIO | |
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | 54 | MibSPI3 enable, or GPIO | |||
| MIBSPI3SIMO[0]/AWM1_EXT_SEL[0]/ECAP3 | 52 | MibSPI3 slave-in master-out, or GPIO | |||
| MIBSPI3SOMI[0]/AWM1_EXT_ENA/ECAP2 | 51 | MibSPI3 slave-out master-in, or GPIO | |||
| MIBSPI5CLK/MII_TXEN/RMII_TXEN | 100 | I/O | Pullup | Programmable, 20 µA | MibSPI5 clock, or GPIO |
| MIBSPI5NCS[0]/EPWM4A | 32 | MibSPI5 chip select, or GPIO | |||
| MIBSPI5NENA/MII_RXD[3]/USB1.VM/MIBSPI5SOMI[1]/ ECAP5 |
97 | MibSPI5 enable, or GPIO | |||
| MIBSPI5SIMO[0]/MII_TXD[1]/RMII_TXD[1]/MIBSPI5SOMI[2] | 99 | MibSPI5 slave-in master-out, or GPIO | |||
| MIBSPI5SOMI[0]/MII_TXD[0]/RMII_TXD[0] | 98 | MibSPI5 slave-out master-in, or GPIO | |||
| MIBSPI5NENA/MII_RXD[3]/USB1.VM/MIBSPI5SOMI[1]/ ECAP5 |
97 | MibSPI5 slave-out master-in, or GPIO | |||
| MIBSPI5SIMO[0]/MII_TXD[1]/RMII_TXD[1]/MIBSPI5SOMI[2] | 99 | MibSPI5 slave-out master-in, or GPIO | |||
4.3.1.13 Ethernet Controller
Table 4-13 PGE Ethernet Controller: MDIO Interface
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| MIBSPI3NCS[1]/N2HET1[25]/MDCLK | 37 | Output | Pullup | None | Serial clock output |
| MIBSPI1NCS[2]/N2HET1[19]/MDIO | 40 | I/O | Pullup | Fixed 20 µA Pullup |
Serial data input/output |
Table 4-14 PGE Ethernet Controller: Reduced Media Independent Interface (RMII)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| N2HET1[12]/MII_CRS/RMII_CRS_DV | 124 | Input | Pulldown | Fixed 20 µA Pulldown |
RMII carrier sense and data valid |
| N2HET1[28]/MII_RXCLK/RMII_REFCLK/MII_RX_VCLKA4 | 107 | RMII synchronous reference clock for receive, transmit and control interface | |||
| AD1EVT/MII_RX_ER/RMII_RX_ER | 86 | RMII receive error | |||
| N2HET1[24]/MIBSPI1NCS[5]/MII_RXD[0]/RMII_RXD[0] | 91 | RMII receive data | |||
| N2HET1[26]/MII_RXD[1]/RMII_RXD[1] | 92 | ||||
| MIBSPI5SOMI[0]/MII_TXD[0]/RMII_TXD[0] | 98 | Output | Pullup | None | RMII transmit data |
| MIBSPI5SIMO[0]/MII_TXD[1]/RMII_TXD[1]/MIBSPI5SOMI[2] | 99 | ||||
| MIBSPI5CLK/MII_TXEN/RMII_TXEN | 100 | RMII transmit enable | |||
Table 4-15 PGE Ethernet Controller: Media Independent Interface (MII)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL/ USB1.SUSPEND/EQEP1S |
130 | Input | Pullup | None | Collision detect |
| N2HET1[12]/MII_CRS/RMII_CRS_DV | 124 | Pulldown | Fixed 20 µA Pulldown |
Carrier sense and receive data valid | |
| N2HET1[28]/MII_RXCLK/RMII_REFCLK/MII_RX_VCLKA4 | 107 | I/O | Pulldown | None | MII output receive clock |
| N2HET1[30]/MII_RX_DV/USB1.SPEED/EQEP2S | 127 | Input | Pulldown | Fixed 20 µA Pulldown |
Received data valid |
| AD1EVT/MII_RX_ER/RMII_RX_ER | 86 | Receive error | |||
| N2HET1[28]/MII_RXCLK/RMII_REFCLK/MII_RX_VCLKA4 | 107 | I/O | Receive clock | ||
| N2HET1[24]/MIBSPI1NCS[5]/MII_RXD[0]/RMII_RXD[0] | 91 | Input | Receive data | ||
| N2HET1[26]/MII_RXD[1]/RMII_RXD[1] | 92 | ||||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/ USB1.VP/ECAP4 |
96 | Pullup | Fixed 20 µA Pulldown |
||
| MIBSPI5NENA/MII_RXD[3]/USB1.VM/MIBSPI5SOMI[1]/ ECAP5 |
97 | ||||
| N2HET1[10]/MII_TXCLK/USB1.TXEN/ MII_TX_VCLKA4/nTZ3 |
118 | I/O | Pulldown | None | MII output transmit clock |
| N2HET1[10]/MII_TXCLK/USB1.TXEN /MII_TX_VCLKA4/nTZ3 |
118 | Fixed 20 µA Pulldown |
Transmit clock | ||
| MIBSPI5SOMI[0]/MII_TXD[0]/RMII_TXD[0] | 98 | Output | Pullup | None | Transmit data |
| MIBSPI5SIMO[0]/MIBSPI5SOMI[2]/MII_TXD[1]/RMII_TXD[1] | 99 | ||||
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/ USB1.RCV/ECAP6 |
105 | ||||
| N2HET1[8]/MIBSPI1SIMO[1]/MII_TXD[3]/ USB1.OVERCURRENT |
106 | Pulldown | |||
| MIBSPI5CLK/MII_TXEN/RMII_TXEN | 100 | Pullup | Transmit enable | ||
4.3.1.14 USB Host and Device Port Controller Interface
The USB Host Controller includes a root hub with two ports. USB1 pins are for Root Hub Port 0. USB2 pins are for Root Hub Port 1.
Table 4-16 PGE USB Host Port Controller Interface (USB1, USB2)
Table 4-17 PGE USB Device Port Controller Interface (USB_FUNC)
4.3.1.15 System Module Interface
Table 4-18 PGE System Module Interface
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| nPORRST | 46 | Input | Pulldown | Fixed 100 µA Pulldown |
Power-on reset, cold reset External power supply monitor circuitry must drive nPORRST low when any of the supplies to the microcontroller fall out of the specified range. This terminal has a glitch filter. See Section 6.8. |
| nRST | 116 | I/O | Pullup | Fixed 100 µA Pullup |
System reset, warm reset, bidirectional. The internal circuitry indicates any reset condition by driving nRST low. The external circuitry can assert a system reset by driving nRST low. To ensure that an external reset is not arbitrarily generated, TI recommends that an external pullup resistor is connected to this terminal. This terminal has a glitch filter. See Section 6.8. |
| nERROR | 117 | I/O | Pulldown | Fixed 20 µA Pulldown |
ESM Error Signal Indicates error of high severity. See Section 6.18. |
4.3.1.16 Clock Inputs and Outputs
Table 4-19 PGE Clock Inputs and Outputs
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| OSCIN | 18 | Input | N/A | None | From external crystal/resonator, or external clock input |
| KELVIN_GND | 19 | Input | Kelvin ground for oscillator | ||
| OSCOUT | 20 | Output | To external crystal/resonator | ||
| ECLK | 119 | I/O | Pulldown | Programmable, 20 µA | External prescaled clock output, or GPIO. |
| GIOA[5]/EXTCLKIN/EPWM1A /N2HET1_PIN_nDIS | 14 | Input | Pulldown | Fixed 20 µA Pulldown |
External clock input #1 |
4.3.1.17 Test and Debug Modules Interface
Table 4-20 PGE Test and Debug Modules Interface
4.3.1.18 Flash Supply and Test Pads
Table 4-21 PGE Flash Supply and Test Pads
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| VCCP | 134 | 3.3V Power | N/A | None | Flash pump supply |
| FLTP1 | 7 | - | N/A- | None | Flash test pads. These terminals are reserved for TI use only. For proper operation these terminals must connect only to a test pad or not be connected at all [no connect (NC)]. |
| FLTP2 | 8 | ||||
4.3.1.19 Supply for Core Logic: 1.2V nominal
Table 4-22 PGE Supply for Core Logic: 1.2V nominal
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| VCC | 17 | 1.2V Power | N/A | None | Core supply |
| VCC | 29 | ||||
| VCC | 45 | ||||
| VCC | 48 | ||||
| VCC | 49 | ||||
| VCC | 57 | ||||
| VCC | 87 | ||||
| VCC | 101 | ||||
| VCC | 114 | ||||
| VCC | 123 | ||||
| VCC | 137 | ||||
| VCC | 143 | ||||
4.3.1.20 Supply for I/O Cells: 3.3V nominal
Table 4-23 PGE Supply for I/O Cells: 3.3V nominal
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| VCCIO | 10 | 3.3V Power | N/A | None | Operating supply for I/Os |
| VCCIO | 26 | ||||
| VCCIO | 42 | ||||
| VCCIO | 104 | ||||
| VCCIO | 120 | ||||
| VCCIO | 136 | ||||
4.3.1.21 Ground Reference for All Supplies Except VCCAD
Table 4-24 PGE Ground Reference for All Supplies Except VCCAD
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 144 PGE | ||||
| VSS | 11 | Ground | N/A | None | Ground reference |
| VSS | 21 | ||||
| VSS | 27 | ||||
| VSS | 28 | ||||
| VSS | 43 | ||||
| VSS | 44 | ||||
| VSS | 47 | ||||
| VSS | 50 | ||||
| VSS | 56 | ||||
| VSS | 88 | ||||
| VSS | 102 | ||||
| VSS | 103 | ||||
| VSS | 115 | ||||
| VSS | 121 | ||||
| VSS | 122 | ||||
| VSS | 135 | ||||
| VSS | 138 | ||||
| VSS | 144 | ||||
4.3.2 ZWT Package
4.3.2.1 Multibuffered Analog-to-Digital Converters (MibADC)
Table 4-25 ZWT Multibuffered Analog-to-Digital Converters (MibADC1, MibADC2)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| ADREFHI(1) | V15 | Power | N/A | None | ADC high reference supply |
| ADREFLO(1) | V16 | Power | ADC low reference supply | ||
| VCCAD(1) | W15 | Power | Operating supply for ADC | ||
| VSSAD | V19 | Ground | N/A | None | ADC supply power |
| VSSAD | W16 | ||||
| VSSAD | W18 | ||||
| VSSAD | W19 | ||||
| AD1EVT/MII_RX_ER/RMII_RX_ER | N19 | I/O | Pulldown | Programmable, 20 µA | ADC1 event trigger input, or GPIO |
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
V10 | I/O | Pullup | Programmable, 20 µA | ADC2 event trigger input, or GPIO |
| AD1IN[0] | W14 | Input | N/A | None | ADC1 analog input |
| AD1IN[1] | V17 | ||||
| AD1IN[2] | V18 | ||||
| AD1IN[3] | T17 | ||||
| AD1IN[4] | U18 | ||||
| AD1IN[5] | R17 | ||||
| AD1IN[6] | T19 | ||||
| AD1IN[7] | V14 | ||||
| AD1IN[8] / AD2IN[8] | P18 | Input | N/A | None | ADC1/ADC2 shared analog inputs |
| AD1IN[9] / AD2IN[9] | W17 | ||||
| AD1IN[10] / AD2IN[10] | U17 | ||||
| AD1IN[11] / AD2IN[11] | U19 | ||||
| AD1IN[12] / AD2IN[12] | T16 | ||||
| AD1IN[13] / AD2IN[13] | T18 | ||||
| AD1IN[14] / AD2IN[14] | R18 | ||||
| AD1IN[15] / AD2IN[15] | P19 | ||||
| AD1IN[16] / AD2IN[0] | V13 | ||||
| AD1IN[17] / AD2IN[1] | U13 | ||||
| AD1IN[18] / AD2IN[2] | U14 | ||||
| AD1IN[19] / AD2IN[3] | U16 | ||||
| AD1IN[20] / AD2IN[4] | U15 | ||||
| AD1IN[21] / AD2IN[5] | T15 | ||||
| AD1IN[22] / AD2IN[6] | R19 | ||||
| AD1IN[23] / AD2IN[7] | R16 | ||||
| MIBSPI3SOMI[0]/AWM1_EXT_ENA/ECAP2 | V8 | Output | Pullup | None | AWM1 external analog mux enable |
| MIBSPI3SIMO[0]/AWM1_EXT_SEL[0]/ECAP3 | W8 | AWM1 external analog mux select line0 | |||
| MIBSPI3CLK/AWM1_EXT_SEL[1]/EQEP1A | V9 | AWM1 external analog mux select line0 | |||
(1) The ADREFHI, ADREFLO, VCCAD and VSSAD connections are common for both ADC cores.
4.3.2.2 Enhanced High-End Timer Modules (N2HET)
Table 4-26 ZWT Enhanced High-End Timer Modules (N2HET)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| N2HET1[0]/SPI4CLK/EPWM2B | K18 | I/O | Pulldown | Programmable, 20 µA |
N2HET1 time input capture or output compare, or GIO. Each terminal has a suppression filter with a programmable duration. |
| N2HET1[1]/SPI4NENA/USB2.TXEN/ USB_FUNC.PUENO/N2HET2[8]/EQEP2A |
V2 | ||||
| N2HET1[2]/SPI4SIMO[0]/EPWM3A | W5 | ||||
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
U1 | ||||
| N2HET1[4]/EPWM4B | B12 | ||||
| N2HET1[5]/SPI4SOMI[0]/N2HET2[12]/EPWM3B | V6 | ||||
| N2HET1[6]/SCIRX/EPWM5A | W3 | ||||
| N2HET1[7]/USB2.PORTPOWER/ USB_FUNC.GZO/N2HET2[14]/EPWM7B |
T1 | ||||
| N2HET1[8]/MIBSPI1SIMO[1]/MII_TXD[3]/ USB1.OVERCURRENT |
E18 | ||||
| N2HET1[9]/N2HET2[16]/ USB2.SUSPEND/USB_FUNC.SUSPENDO/EPWM7A |
V7 | ||||
| N2HET1[10]/MII_TXCLK/ USB1.TXEN/MII_TX_VCLKA4/nTZ3 |
D19 | ||||
| N2HET1[11]/MIBSPI3NCS[4]/N2HET2[18]/ USB2.OVERCURRENT/USB_FUNC.VBUSI/EPWM1SYNCO |
E3 | ||||
| N2HET1[12]/MII_CRS/RMII_CRS_DV | B4 | ||||
| N2HET1[13]/SCITX/EPWM5B | N2 | ||||
| N2HET1[14]/USB1.TXSE0 | A11 | ||||
| N2HET1[15]/MIBSPI1NCS[4]/ECAP1 | N1 | ||||
| N2HET1[16]/EPWM1SYNCI/EPWM1SYNCO | A4 | ||||
| N2HET1[17] | A13 | ||||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL/USB1.SUSPEND/ EQEP1S |
F3 | ||||
| N2HET1[18]/EPWM6A | J1 | ||||
| N2HET1[19] | B13 | ||||
| MIBSPI1NCS[2]/N2HET1[19]/MDIO | G3 | ||||
| N2HET1[20]/EPWM6B | P2 | ||||
| N2HET1[21] | H4 | ||||
| MIBSPI1NCS[3]/N2HET1[21] | J3 | ||||
| N2HET1[22]/USB2.TXSE0/USB_FUNC.SE0O | B3 | ||||
| N2HET1[23] | J4 | ||||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/ USB1.VP/ECAP4 |
G19 | Pullup | |||
| N2HET1[24]/MIBSPI1NCS[5]/MII_RXD[0]/RMII_RXD[0] | P1 | Pulldown | |||
| N2HET1[25] | M3 | ||||
| MIBSPI3NCS[1]/N2HET1[25]/MDCLK | V5 | ||||
| N2HET1[26]/MII_RXD[1]/RMII_RXD[1] | A14 | ||||
| N2HET1[27] | A9 | ||||
| MIBSPI3NCS[2]/I2C_SDA/N2HET1[27]/nTZ2 | B2 | Pullup | |||
| N2HET1[28]/MII_RXCLK/RMII_REFCLK/MII_RX_VCLKA4 | K19 | Pulldown | |||
| N2HET1[29] | A3 | ||||
| MIBSPI3NCS[3]/I2C_SCL/N2HET1[29]/nTZ1 | C3 | ||||
| N2HET1[30]/MII_RX_DV/USB1.SPEED/EQEP2S | B11 | I/O | Pulldown | Programmable, 20 µA | |
| N2HET1[31] | J17 | ||||
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | W9 | Pullup | |||
| GIOA[5]/EXTCLKIN/EPWM1A/N2HET1_PIN_nDIS | B5 | input | Pulldown | Programmable, 20 µA(1) | Disable selected PWM outputs |
| GIOA[2]/USB2.TXDAT/USB_FUNC.TXDO/N2HET2[0]
/EQEP2I |
C1 | I/O | Pulldown | Programmable, 20 µA |
N2HET2 time input capture or output compare, or GIO. Each terminal has a suppression filter with a programmable duration. |
| EMIF_ADDR[0]/N2HET2[1] | D4 | ||||
| GIOA[3]/N2HET2[2] | E1 | ||||
| EMIF_ADDR[1]/N2HET2[3] | D5 | ||||
| GIOA[6]/N2HET2[4]/EPWM1B | H3 | ||||
| EMIF_BA[1]/N2HET2[5] | D16 | ||||
| GIOA[7]/N2HET2[6]/EPWM2A | M1 | ||||
| EMIF_nCS[0]/N2HET2[7] | N17 | ||||
| N2HET1[1]/SPI4NENA/USB2.TXEN/USB_FUNC.PUENO/ N2HET2[8]/EQEP2A |
V2 | ||||
| EMIF_nCS[3]/N2HET2[9] | K17 | ||||
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
U1 | ||||
| EMIF_ADDR[6]/N2HET2[11] | C4 | ||||
| N2HET1[5]/SPI4SOMI[0]/N2HET2[12]/EPWM3B | V6 | ||||
| EMIF_ADDR[7]/N2HET2[13] | C5 | ||||
| N2HET1[7]/USB2.PORTPOWER/ USB_FUNC.GZO/N2HET2[14]/EPWM7B |
T1 | ||||
| EMIF_ADDR[8]/N2HET2[15] | C6 | ||||
| N2HET1[9]/N2HET2[16]/USB2.SUSPEND/ USB_FUNC.SUSPENDO/EPWM7A |
V7 | ||||
| N2HET1[11]/MIBSPI3NCS[4]/N2HET2[18]/ USB2.OVERCURRENT/USB_FUNC.VBUSI/EPWM1SYNCO |
E3 | ||||
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
V10 | I/O | Pullup | Programmable, 20 µA(1) | Disable selected PWM outputs |
(1) The N2HETx_PIN_nDIS function is always available on this terminal. There is no mux control to select this function. The pull direction is controlled by the function which is selected by the output mux control for this terminal.
4.3.2.3 Enhanced Capture Modules (eCAP)
Table 4-27 ZWT Enhanced Capture Modules (eCAP)(1)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| N2HET1[15]/MIBSPI1NCS[4]/ECAP1 | N1 | I/O | Pulldown | Fixed 20 µA Pullup |
Enhanced Capture Module 1 I/O |
| MIBSPI3SOMI[0]/AWM1_EXT_ENA/ECAP2 | V8 | I/O | Pullup | Enhanced Capture Module 2 I/O | |
| MIBSPI3SIMO[0]/AWM1_EXT_SEL[0]/ECAP3 | W8 | I/O | Enhanced Capture Module 3 I/O | ||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/USB1.VP/ECAP4 | G19 | I/O | Enhanced Capture Module 4 I/O | ||
| MIBSPI5NENA/MII_RXD[3]/USB1.VM/MIBSPI5SOMI[1]/ ECAP5 |
H18 | I/O | Enhanced Capture Module 5 I/O | ||
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/USB1.RCV/
ECAP6 |
R2 | I/O | Enhanced Capture Module 6 I/O | ||
(1) These signals, when used as inputs, are double-synchronized and then optionally filtered with a 6-cycle VCLK4-based counter.
4.3.2.4 Enhanced Quadrature Encoder Pulse Modules (eQEP)
Table 4-28 ZWT Enhanced Quadrature Encoder Pulse Modules (eQEP)(1)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| MIBSPI3CLK/AWM1_EXT_SEL[1]/EQEP1A | V9 | Input | Pullup | Fixed 20 µA Pullup |
Enhanced QEP1 Input A |
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | W9 | Input | Enhanced QEP1 Input B | ||
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
V10 | I/O | Enhanced QEP1 Index | ||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL/USB1.SUSPEND/ EQEP1S |
F3 | I/O | Enhanced QEP1 Strobe | ||
| N2HET1[1]/SPI4NENA/USB2.TXEN/USB_FUNC.PUENO/ N2HET2[8]/EQEP2A |
V2 | Input | Pulldown | Enhanced QEP2 Input A | |
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/USB_FUNC.PUENON/N2HET2[10]/EQEP2B | U1 | Input | Pulldown | Enhanced QEP2 Input B | |
| GIOA[2]/USB2.TXDAT/USB_FUNC.TXDO/N2HET2[0]/ EQEP2I |
C1 | I/O | Pulldown | Enhanced QEP2 Index | |
| N2HET1[30]/MII_RX_DV/USB1.SPEED/EQEP2S | B11 | I/O | Pulldown | Enhanced QEP2 Strobe | |
(1) These signals are double-synchronized and then optionally filtered with a 6-cycle VCLK4-based counter.
4.3.2.5 Enhanced Pulse-Width Modulator Modules (ePWM)
Table 4-29 ZWT Enhanced Pulse-Width Modulator Modules (ePWM)
4.3.2.6 General-Purpose Input / Output (GPIO)
Table 4-30 ZWT General-Purpose Input / Output (GPIO)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| GIOA[0]/USB2.VP/USB_FUNC.RXDPI | A5 | I/O | Pulldown | Programmable, 20 µA | General-purpose I/O. All GPIO terminals are capable of generating interrupts to the CPU on rising / falling / both edges. |
| GIOA[1]/USB2.VM/USB_FUNC.RXDMI | C2 | ||||
| GIOA[2]/USB2.TXDAT/USB_FUNC.TXDO/N2HET2[0] /EQEP2I | C1 | ||||
| GIOA[3]/N2HET2[2] | E1 | ||||
| GIOA[4] | A6 | ||||
| GIOA[5]/EXTCLKIN/EPWM1A/N2HET1_PIN_nDIS | B5 | ||||
| GIOA[6]/N2HET2[4]/EPWM1B | H3 | ||||
| GIOA[7]/N2HET2[6]/EPWM2A | M1 | ||||
| GIOB[0]/USB1.TXDAT | M2 | ||||
| GIOB[1]/USB1.PORTPOWER | K2 | ||||
| GIOB[2] | F2 | ||||
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
V10(1) | ||||
| GIOB[3]/USB2.RCV /USB_FUNC.RXDI | W10 | ||||
| GIOB[4] | G1 | ||||
| GIOB[5] | G2 | ||||
| GIOB[6] | J2 | ||||
| GIOB[7] | F1 | ||||
(1) GIOB[2] cannot output a level on to terminal V10. Only the input functionality is supported so that the application can generate an interrupt whenever the N2HET2_PIN_nDIS is asserted (driven low). Also, a pullup is enabled on the input. This is not programmable using the GIO module control registers.
4.3.2.7 Controller Area Network Controllers (DCAN)
Table 4-31 ZWT Controller Area Network Controllers (DCAN)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| CAN1RX | B10 | I/O | Pullup | Programmable, 20 µA | CAN1 receive, or GPIO |
| CAN1TX | A10 | CAN1 transmit, or GPIO | |||
| CAN2RX | H1 | CAN2 receive, or GPIO | |||
| CAN2TX | H2 | CAN2 transmit, or GPIO | |||
| CAN3RX | M19 | CAN3 receive, or GPIO | |||
| CAN3TX | M18 | CAN3 transmit, or GPIO | |||
4.3.2.8 Local Interconnect Network Interface Module (LIN)
Table 4-32 ZWT Local Interconnect Network Interface Module (LIN)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| LINRX | A7 | I/O | Pullup | Programmable, 20 µA | LIN receive, or GPIO |
| LINTX | B7 | LIN transmit, or GPIO | |||
4.3.2.9 Standard Serial Communication Interface (SCI)
Table 4-33 ZWT Standard Serial Communication Interface (SCI)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| N2HET1[6]/SCIRX/EPWM5A | W3 | I/O | Pulldown | Programmable, 20 µA | SCI receive, or GPIO |
| N2HET1[13]/SCITX/EPWM5B | N2 | SCI transmit, or GPIO | |||
4.3.2.10 Inter-Integrated Circuit Interface Module (I2C)
Table 4-34 ZWT Inter-Integrated Circuit Interface Module (I2C)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| MIBSPI3NCS[2]/I2C_SDA/N2HET1[27]/nTZ2 | B2 | I/O | Pullup | Programmable, 20 µA | I2C serial data, or GPIO |
| MIBSPI3NCS[3]/I2C_SCL/N2HET1[29]/nTZ1 | C3 | I2C serial clock, or GPIO | |||
4.3.2.11 Standard Serial Peripheral Interface (SPI)
Table 4-35 ZWT Standard Serial Peripheral Interface (SPI)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| SPI2CLK | E2 | I/O | Pullup | Programmable, 20 µA | SPI2 clock, or GPIO |
| SPI2NCS[0] | N3 | SPI2 chip select, or GPIO | |||
| SPI2NENA/SPI2NCS[1] | D3 | SPI2 chip select, or GPIO | |||
| SPI2NENA/SPI2NCS[1] | D3 | SPI2 enable, or GPIO | |||
| SPI2SIMO[0] | D1 | SPI2 slave-input master-output, or GPIO | |||
| SPI2SOMI[0] | D2 | SPI2 slave-output master-input, or GPIO | |||
| N2HET1[0]/SPI4CLK/EPWM2B | K18 | I/O | Pulldown | Programmable, 20 µA | SPI4 clock, or GPIO |
| N2HET1[3]/SPI4NCS[0]/USB2.SPEED/ USB_FUNC.PUENON/N2HET2[10]/EQEP2B |
U1 | SPI4 chip select, or GPIO | |||
| N2HET1[1]/SPI4NENA/USB2.TXEN/ USB_FUNC.PUENO/N2HET2[8]/EQEP2A |
V2 | SPI4 enable, or GPIO | |||
| N2HET1[2]/SPI4SIMO[0]/EPWM3A | W5 | SPI4 slave-input master-output, or GPIO | |||
| N2HET1[5]/SPI4SOMI[0]/N2HET2[12]/EPWM3B | V6 | SPI4 slave-output master-input, or GPIO | |||
4.3.2.12 Multibuffered Serial Peripheral Interface Modules (MibSPI)
Table 4-36 ZWT Multibuffered Serial Peripheral Interface Modules (MibSPI)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| MIBSPI1CLK | F18 | I/O | Pullup | Programmable, 20 µA | MibSPI1 clock, or GPIO |
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/ USB1.RCV/ECAP6 |
R2 | MibSPI1 chip select, or GPIO | |||
| MIBSPI1NCS[1]/N2HET1[17]/MII_COL/ USB1.SUSPEND /EQEP1S |
F3 | ||||
| MIBSPI1NCS[2]/N2HET1[19]/MDIO | G3 | ||||
| MIBSPI1NCS[3]/N2HET1[21] | J3 | ||||
| N2HET1[15]/MIBSPI1NCS[4]/ECAP1 | N1 | Pulldown | Programmable, 20 µA | MibSPI1 chip select, or GPIO | |
| N2HET1[24]/MIBSPI1NCS[5]/MII_RXD[0]/RMII_RXD[0] | P1 | ||||
| MIBSPI1NENA/N2HET1[23]/MII_RXD[2]/ USB1.VP/ECAP4 |
G19 | Pullup | Programmable, 20 µA | MibSPI1 enable, or GPIO | |
| MIBSPI1SIMO[0] | F19 | MibSPI1 slave-in master-out, or GPIO | |||
| N2HET1[8]/MIBSPI1SIMO[1]/MII_TXD[3]/ USB1.OVERCURRENT |
E18 | Pulldown | Programmable, 20 µA | MibSPI1 slave-in master-out, or GPIO | |
| MIBSPI1SOMI[0] | G18 | Pullup | Programmable, 20 µA | MibSPI1 slave-out master-in, or GPIO | |
| MIBSPI1NCS[0]/MIBSPI1SOMI[1]/MII_TXD[2]/ USB1.RCV/ECAP6 |
R2 | ||||
| MIBSPI3CLK/AWM1_EXT_SEL[1]/EQEP1A | V9 | I/O | Pullup | Programmable, 20 µA | MibSPI3 clock, or GPIO |
| MIBSPI3NCS[0]/AD2EVT/GIOB[2]/ EQEP1I/N2HET2_PIN_nDIS |
V10 | MibSPI3 chip select, or GPIO | |||
| MIBSPI3NCS[1]/N2HET1[25]/MDCLK | V5 | ||||
| MIBSPI3NCS[2]/I2C_SDA/N2HET1[27]/nTZ2 | B2 | ||||
| MIBSPI3NCS[3]/I2C_SCL/N2HET1[29]/nTZ1 | C3 | ||||
| N2HET1[11]/MIBSPI3NCS[4]/N2HET2[18]/ USB2.OVERCURRENT/USB_FUNC.VBUSI/EPWM1SYNCO |
E3 | Pulldown | Programmable, 20 µA | MibSPI3 chip select, or GPIO | |
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | W9 | Pullup | Programmable, 20 µA | MibSPI3 chip select, or GPIO | |
| MIBSPI3NENA/MIBSPI3NCS[5]/N2HET1[31]/EQEP1B | W9 | MibSPI3 enable, or GPIO | |||
| MIBSPI3SIMO[0]/AWM1_EXT_SEL[0]/ECAP3 | W8 | MibSPI3 slave-in master-out, or GPIO | |||
| MIBSPI3SOMI[0]/AWM1_EXT_ENA/ECAP2 | V8 | MibSPI3 slave-out master-in, or GPIO | |||
| MIBSPI5CLK/MII_TXEN/RMII_TXEN | H19 | I/O | Pullup | Programmable, 20 µA | MibSPI5 clock, or GPIO |
| MIBSPI5NCS[0]/EPWM4A | E19 | MibSPI5 chip select, or GPIO | |||
| MIBSPI5NCS[1] | B6 | ||||
| MIBSPI5NCS[2] | W6 | ||||
| MIBSPI5NCS[3] | T12 | ||||
| MIBSPI5NENA/MII_RXD[3]/ USB1.VM/MIBSPI5SOMI[1]/ECAP5 |
H18 | MibSPI5 enable, or GPIO | |||
| MIBSPI5SIMO[0]/MIBSPI5SOMI[2]/MII_TXD[1]/RMII_TXD[1] | J19 | MibSPI5 slave-in master-out, or GPIO | |||
| MIBSPI5SIMO[1] | E16 | ||||
| MIBSPI5SIMO[2] | H17 | ||||
| MIBSPI5SIMO[3] | G17 | ||||
| MIBSPI5SOMI[0]/MII_TXD[0]/RMII_TXD[0] | J18 | MibSPI5 slave-out master-in, or GPIO | |||
| MIBSPI5SOMI[1] | E17 | ||||
| MIBSPI5NENA/MII_RXD[3]/ USB1.VM/MIBSPI5SOMI[1]/ECAP5 |
H18 | ||||
| MIBSPI5SOMI[2] | H16 | ||||
| MIBSPI5SIMO[0]/MIBSPI5SOMI[2]/MII_TXD[1]/RMII_TXD[1] | J19 | ||||
| MIBSPI5SOMI[3] | G16 | ||||
4.3.2.13 Ethernet Controller
Table 4-37 ZWT Ethernet Controller: MDIO Interface
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| MIBSPI3NCS[1]/N2HET1[25]/MDCLK | V5 | Output | Pullup | None | Serial clock output |
| MIBSPI1NCS[2]/N2HET1[19]/MDIO | G3 | I/O | Pullup | Fixed 20 µA Pullup |
Serial data input/output |
Table 4-38 ZWT Ethernet Controller: Reduced Media Independent Interface (RMII)
Table 4-39 ZWT Ethernet Controller: Media Independent Interface (MII)
4.3.2.14 USB Host and Device Port Controller Interface
The USB Host Controller includes a root hub with two ports. USB1 pin are for Root Hub Port 0. USB2 pins are for Root Hub Port 1.
Table 4-40 ZWT USB Host Port Controller Interface (USB1, USB2)
Table 4-41 ZWT USB Device Port Controller Interface (USB_FUNC)
4.3.2.15 External Memory Interface (EMIF)
Table 4-42 External Memory Interface (EMIF)
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| EMIF_CKE | L3 | Output | Pullup | None | EMIF Clock Enable |
| EMIF_CLK | K3 | I/O | None | EMIF clock. This is an output signal in functional mode. It is gated off by default, so that the signal is pulled up. PINMUX29[8] must be cleared to enable this output. | |
| EMIF_nOE | E12 | Output | Pullup | None | EMIF Read Enable |
| EMIF_nWAIT | P3 | I/O | Pullup | Fixed 20 µA Pullup |
EMIF Extended Wait Signal |
| EMIF_nWE | D17 | Output | Pullup | None | EMIF Write Enable |
| EMIF_nCAS | R4 | Output | EMIF column address strobe | ||
| EMIF_nRAS | R3 | Output | EMIF row address strobe | ||
| EMIF_nCS[0]/N2HET2[7](1) | N17 | Output | EMIF chip select, synchronous | ||
| EMIF_nCS[2] | L17 | Output | EMIF chip selects, asynchronous This applies to chip selects 2, 3 and 4 |
||
| EMIF_nCS[3]/N2HET2[9](1) | K17 | Output | |||
| EMIF_nCS[4] | M17 | Output | |||
| EMIF_nDQM[0] | E10 | Output | EMIF Data Mask or Write Strobe. Data mask for SDRAM devices, write strobe for connected asynchronous devices. |
||
| EMIF_nDQM[1] | E11 | Output | |||
| EMIF_BA[0] | E13 | Output | EMIF bank address or address line | ||
| EMIF_BA[1]/N2HET2[5](1) | D16 | Output | EMIF bank address or address line | ||
| EMIF_ADDR[0]/N2HET2[1](1) | D4 | Output | EMIF address | ||
| EMIF_ADDR[1]/N2HET2[3](1) | D5 | Output | |||
| EMIF_ADDR[2] | E6 | Output | |||
| EMIF_ADDR[3] | E7 | Output | |||
| EMIF_ADDR[4] | E8 | Output | |||
| EMIF_ADDR[5] | E9 | Output | |||
| EMIF_ADDR[6]/N2HET2[11](1) | C4 | Output | |||
| EMIF_ADDR[7]/N2HET2[13](1) | C5 | Output | |||
| EMIF_ADDR[8]/N2HET2[15](1) | C6 | Output | |||
| EMIF_ADDR[9] | C7 | Output | |||
| EMIF_ADDR[10] | C8 | Output | |||
| EMIF_ADDR[11] | C9 | Output | |||
| EMIF_ADDR[12] | C10 | Output | |||
| EMIF_DATA[0] | K15 | I/O | Pullup | Fixed 20 µA Pullup |
EMIF Data |
| EMIF_DATA[1] | L15 | I/O | |||
| EMIF_DATA[2] | M15 | I/O | |||
| EMIF_DATA[3] | N15 | I/O | |||
| EMIF_DATA[4] | E5 | I/O | |||
| EMIF_DATA[5] | F5 | I/O | |||
| EMIF_DATA[6] | G5 | I/O | |||
| EMIF_DATA[7] | K5 | I/O | |||
| EMIF_DATA[8] | L5 | I/O | |||
| EMIF_DATA[9] | M5 | I/O | |||
| EMIF_DATA[10] | N5 | I/O | |||
| EMIF_DATA[11] | P5 | I/O | |||
| EMIF_DATA[12] | R5 | I/O | |||
| EMIF_DATA[13] | R6 | I/O | |||
| EMIF_DATA[14] | R7 | I/O | |||
| EMIF_DATA[15] | R8 | I/O | |||
(1) These signals are tri-stated and pulled up by default after power-up. Any application that requires the EMIF must set the bit 31 of the system module general-purpose register GPREG1.
4.3.2.16 System Module Interface
Table 4-43 ZWT System Module Interface
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| nPORRST | W7 | Input | Pulldown | Fixed 100 µA Pulldown |
Power-on reset, cold reset External power supply monitor circuitry must drive nPORRST low when any of the supplies to the microcontroller fall out of the specified range. This terminal has a glitch filter. See Section 6.8. |
| nRST | B17 | I/O | Pullup | Fixed 100 µA Pullup |
System reset, warm reset, bidirectional. The internal circuitry indicates any reset condition by driving nRST low. The external circuitry can assert a system reset by driving nRST low. To ensure that an external reset is not arbitrarily generated, TI recommends that an external pullup resistor is connected to this terminal. This terminal has a glitch filter. See Section 6.8. |
| nERROR | B14 | I/O | Pulldown | Fixed 20 µA Pulldown |
ESM Error Signal Indicates error of high severity. See Section 6.18. |
4.3.2.17 Clock Inputs and Outputs
Table 4-44 ZWT Clock Inputs and Outputs
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| OSCIN | K1 | Input | N/A | None | From external crystal/resonator, or external clock input |
| KELVIN_GND | L2 | Input | Kelvin ground for oscillator | ||
| OSCOUT | L1 | Output | To external crystal/resonator | ||
| ECLK | A12 | I/O | Pulldown | Programmable, 20 µA | External prescaled clock output, or GIO. |
| GIOA[5]/EXTCLKIN/EPWM1A/N2HET1_PIN_nDIS | B5 | Input | Pulldown | 20 µA | External clock input #1 |
| EXTCLKIN2 | R9 | Input | External clock input #2 | ||
| VCCPLL | P11 | 1.2V Power | N/A | None | Dedicated core supply for PLL's |
4.3.2.18 Test and Debug Modules Interface
Table 4-45 ZWT Test and Debug Modules Interface
4.3.2.19 Flash Supply and Test Pads
Table 4-46 ZWT Flash Supply and Test Pads
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| VCCP | F8 | 3.3V Power | N/A | None | Flash pump supply |
| FLTP1 | J5 | - | N/A | None | Flash test pads. These terminals are reserved for TI use only. For proper operation these terminals must connect only to a test pad or not be connected at all [no connect (NC)]. |
| FLTP2 | H5 | ||||
4.3.2.20 Reserved
Table 4-47 Reserved
4.3.2.21 No Connects
Table 4-48 No Connects
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| NC | C11 | - | N/A | None | No Connects. These balls are not connected to any internal logic and can be connected to the PCB ground without affecting the functionality of the device. |
| NC | C12 | - | N/A | None | |
| NC | C13 | - | N/A | None | |
| NC | C14 | - | N/A | None | |
| NC | C15 | - | N/A | None | |
| NC | C16 | - | N/A | None | |
| NC | C17 | - | N/A | None | |
| NC | D6 | - | N/A | None | |
| NC | D7 | - | N/A | None | |
| NC | D8 | - | N/A | None | |
| NC | D9 | - | N/A | None | |
| NC | D10 | - | N/A | None | |
| NC | D11 | - | N/A | None | |
| NC | D12 | - | N/A | None | |
| NC | D13 | - | N/A | None | |
| NC | D14 | - | N/A | None | |
| NC | D15 | - | N/A | None | |
| NC | E4 | - | N/A | None | |
| NC | E14 | - | N/A | None | |
| NC | E15 | - | N/A | None | |
| NC | F4 | - | N/A | None | |
| NC | F15 | - | N/A | None | |
| NC | F16 | - | N/A | None | |
| NC | F17 | - | N/A | None | |
| NC | G4 | - | N/A | None | |
| NC | G15 | - | N/A | None | |
| NC | H15 | - | N/A | None | |
| NC | J15 | - | N/A | None | |
| NC | J16 | - | N/A | None | |
| NC | K4 | - | N/A | None | |
| NC | K16 | - | N/A | None | |
| NC | L4 | - | N/A | None | |
| NC | L16 | - | N/A | None | |
| NC | L18 | - | N/A | None | |
| NC | L19 | - | N/A | None | |
| NC | M4 | - | N/A | None | |
| NC | M16 | - | N/A | None | |
| NC | N4 | - | N/A | None | |
| NC | N16 | - | N/A | None | |
| NC | N18 | - | N/A | None | |
| NC | P4 | - | N/A | None | |
| NC | P15 | - | N/A | None | No Connects. These balls are not connected to any internal logic and can be connected to the PCB ground without affecting the functionality of the device. |
| NC | P16 | - | N/A | None | |
| NC | P17 | - | N/A | None | |
| NC | R1 | - | N/A | None | |
| NC | R10 | - | N/A | None | |
| NC | R11 | - | N/A | None | |
| NC | R12 | - | N/A | None | |
| NC | R13 | - | N/A | None | |
| NC | R14 | - | N/A | None | |
| NC | R15 | - | N/A | None | |
| NC | T2 | - | N/A | None | |
| NC | T3 | - | N/A | None | |
| NC | T4 | - | N/A | None | |
| NC | T5 | - | N/A | None | |
| NC | T6 | - | N/A | None | |
| NC | T7 | - | N/A | None | |
| NC | T8 | - | N/A | None | |
| NC | T9 | - | N/A | None | |
| NC | T10 | - | N/A | None | |
| NC | T11 | - | N/A | None | |
| NC | T13 | - | N/A | None | |
| NC | T14 | - | N/A | None | |
| NC | U3 | - | N/A- | None | |
| NC | U4 | - | N/A | None | |
| NC | U5 | - | N/A | None | |
| NC | U6 | - | N/A | None | |
| NC | U7 | - | N/A | None | |
| NC | U8 | - | N/A | None | |
| NC | U9 | - | N/A | None | |
| NC | U10 | - | N/A | None | |
| NC | U11 | - | N/A | None | |
| NC | U12 | - | N/A | None | |
| NC | V3 | - | N/A | None | |
| NC | V4 | - | N/A | None | |
| NC | V11 | - | N/A | None | |
| NC | V12 | - | N/A | None | |
| NC | W4 | - | N/A | None | |
| NC | W11 | - | N/A | None | |
| NC | W12 | - | N/A | None | |
| NC | W13 | - | N/A | None | |
4.3.2.22 Supply for Core Logic: 1.2V nominal
Table 4-49 ZWT Supply for Core Logic: 1.2V nominal
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| VCC | F9 | 1.2V Power | N/A | None | Core supply |
| VCC | F10 | ||||
| VCC | H10 | ||||
| VCC | J14 | ||||
| VCC | K6 | ||||
| VCC | K8 | ||||
| VCC | K12 | ||||
| VCC | K14 | ||||
| VCC | L6 | ||||
| VCC | M10 | ||||
| VCC | P10 | ||||
4.3.2.23 Supply for I/O Cells: 3.3V nominal
Table 4-50 ZWT Supply for I/O Cells: 3.3V nominal
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| VCCIO | F6 | 3.3V Power | N/A | None | Operating supply for I/Os |
| VCCIO | F7 | ||||
| VCCIO | F11 | ||||
| VCCIO | F12 | ||||
| VCCIO | F13 | ||||
| VCCIO | F14 | ||||
| VCCIO | G6 | ||||
| VCCIO | G14 | ||||
| VCCIO | H6 | ||||
| VCCIO | H14 | ||||
| VCCIO | J6 | ||||
| VCCIO | L14 | ||||
| VCCIO | M6 | ||||
| VCCIO | M14 | ||||
| VCCIO | N6 | ||||
| VCCIO | N14 | ||||
| VCCIO | P6 | ||||
| VCCIO | P7 | ||||
| VCCIO | P8 | ||||
| VCCIO | P9 | ||||
| VCCIO | P12 | ||||
| VCCIO | P13 | ||||
| VCCIO | P14 | ||||
4.3.2.24 Ground Reference for All Supplies Except VCCAD
Table 4-51 ZWT Ground Reference for All Supplies Except VCCAD
| Terminal | Signal Type | Reset Pull State | Pull Type | Description | |
|---|---|---|---|---|---|
| Signal Name | 337 ZWT | ||||
| VSS | A1 | Ground | N/A | None | Ground reference |
| VSS | A2 | ||||
| VSS | A18 | ||||
| VSS | A19 | ||||
| VSS | B1 | ||||
| VSS | B19 | ||||
| VSS | H8 | ||||
| VSS | H9 | ||||
| VSS | H11 | ||||
| VSS | H12 | ||||
| VSS | J8 | ||||
| VSS | J9 | ||||
| VSS | J10 | ||||
| VSS | J11 | ||||
| VSS | J12 | ||||
| VSS | K9 | ||||
| VSS | K10 | ||||
| VSS | K11 | ||||
| VSS | L8 | ||||
| VSS | L9 | ||||
| VSS | L10 | ||||
| VSS | L11 | ||||
| VSS | L12 | ||||
| VSS | M8 | ||||
| VSS | M9 | ||||
| VSS | M11 | ||||
| VSS | M12 | ||||
| VSS | V1 | ||||
| VSS | W1 | ||||
| VSS | W2 | ||||