SPRS727C August 2012 – April 2014 TMS320C5517
PRODUCTION DATA.
Refer to the PDF data sheet for device specific package drawings
Figure 4-1 shows the bottom view of the package pin assignments.
The signal descriptions tables (Table 4-1 through Table 4-19) identify the external signal names, the associated pin (ball) numbers along with the mechanical package designator, the pin type, whether the pin has any internal pullup or pulldown resistors or bus-holders, and a functional pin description. For more information on pin multiplexing, see Section 4.3, Pin Multiplexing.
For proper device operation, external pullup and pulldown resistors may be required on some pins. Section 5.7.20.1.1, Pullup and Pulldown Resistors discusses situations where external pullup and pulldown resistors are required.
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
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NAME | NO. | ||||||
CLKOUT | A7 | O/Z | IPD DVDDIO BH |
DSP clock output signal. For debug purposes, the CLKOUT pin can be used to tap different clocks within the system clock generator. The CLKOUT_SRC bits in the CLKOUT Configuration Register (CLKOUTCR) can be used to specify the CLKOUT pin source. Additionally, the slew rate of the CLKOUT pin can be controlled by the Output Slew Rate Control Register (OSRCR) [0x1C16]. The output driver of the CLKOUT pin is enabled and disabled through the CLKOFF bit in the CPU ST3_55 register. When disabled, the CLKOUT pin's output driver is placed in high-impedance (Hi-Z) and the IPD is automatically enabled. When enabled, the output driver of the pin is enabled and the IPD is automatically disabled. At reset the CLKOUT pin is enabled until the beginning of the boot sequence, at which point the on-chip Bootloader sets CLKOFF = 1 and the CLKOUT pin is disabled (Hi-Z). For more information on the ST3_55 register, see the C55x 3.0 CPU Reference Guide [literature number: SWPU073]. The IPD resistor on this pin is enabled when CLKOUT is in Hi-Z state. |
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CLKIN | A8 | I | IPD DVDDIO BH |
Input clock. This signal is used to input an external clock when the 12-MHz on-chip USB oscillator is not used as the system clock (CLK_SEL = 1). To appropriately set the various serial port frequencies during bootloading, the bootloader ROM code assumes CLKIN is running at the frequency indicated by the setting (see Section 6.4, Boot Modes, for the supported frequencies and details about the bootmode). The CLK_SEL pin selects the source for the system clock generator, with the options being the USB oscillator (CLK_SEL=0) or CLKIN (CLK_SEL=1) pins. When the CLK_SEL pin is low, this pin should be tied to ground (VSS). When CLK_SEL is high, this pin should be driven by an external clock source. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD disabled at reset. |
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CLK_SEL | C7 | I | – DVDDIO BH |
Clock input select. This pin selects between the on-chip USB oscillator or CLKIN. 0 = The on-chip USB oscillator is enabled at reset and drives the system clock generator. The CLKIN is ignored. Also, the USB LDOO is enabled at reset (USB_LDO_EN=1). The on-chip USB oscillator and USB_LDO cannot be disabled if CLK_SEL=0. 1 = CLKIN drives the system clock generator. The on-chip USB oscillator and USB LDO are disabled at reset (USB_LDO_EN=1), but they can be enabled by software. This pin is not allowed to change during device operation; it must be tied high or low at the board. |
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VDDA_PLL | C10 | PWR | see Section 5.2, ROC | 1.3-V Analog PLL power supply for the system clock generator. This supply pin must not be connected to ANA_LDOO pin. The supply pin must be externally powered. |
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VSSA_PLL | D9 | GND | see Section 5.2, ROC | Analog PLL ground for the system clock generator. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
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NAME | NO. | ||||||
RTC_XO | A9 | O/Z | – CVDDRTC DVDDRTC |
Real-time clock oscillator output. This pin operates at the RTC core voltage, CVDDRTC, and supports a 32.768-kHz crystal. If the RTC oscillator is not used, it can be disabled by connecting RTC_XI to CVDDRTC and RTC_XO to ground (VSS). A voltage must still be applied to CVDDRTC by an external power source (see Section 5.2, Recommended Operating Conditions). None of the on-chip LDOs can power CVDDRTC. Note: When RTC oscillator is disabled, the RTC registers (I/O address range 1900h – 197Fh) are not accessible. |
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RTC_XI | B9 | I | – CVDDRTC DVDDRTC |
Real-time clock oscillator input. If the RTC oscillator is not used, it can be disabled by connecting RTC_XI to CVDDRTC and RTC_XO to ground (VSS). A voltage must still be applied to CVDDRTC by an external power source (see Section 5.2, Recommended Operating Conditions). None of the on-chip LDOs can power CVDDRTC. Note: When RTC oscillator is disabled, the RTC registers (I/O address range 1900h – 197Fh) are not accessible. |
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RTC_CLKOUT | D8 | O/Z | – DVDDRTC |
Real-time clock output pin. This pin operates at DVDDRTC voltage. The RTC_CLKOUT pin is enabled and disabled through the RTCCLKOUTEN bit in the RTC Power Management Register (RTCPMGT). At reset, the RTC_CLKOUT pin is disabled (high-impedance [Hi-Z]). |
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WAKEUP | E8 | I/O/Z | – DVDDRTC |
The active-high pin is used to WAKEUP the core from idle condition. This pin defaults to an input at CVDDRTC powerup, but can also be configured as an active-low open-drain output signal to wakeup an external device from an RTC alarm. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
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NAME | NO. | ||||||
RESET | |||||||
XF | M8 | O/Z | IPU DVDDIO BH |
External Flag Output. XF is used for signaling other processors in multiprocessor configurations or XF can be used as a fast general-purpose output pin. XF is set high by the BSET XF instruction and XF is set low by the BCLR XF instruction or by writing to bit 13 of the ST1_55 register. For more information on the ST1_55 register, see the C55x 3.0 CPU Reference Guide [literature number: SWPU073]. For the XF pin's states after reset, see Figure 5-9, BootMode Latching. XF pin can manually configured as Hi-Z state only in boundary-scan mode. When this pin is in Hi-Z state, the IPU is enabled. The IPU on this pin is disabled at reset. |
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RESET | D6 | I | IPU DVDDIO BH |
Device reset. RESET causes the DSP to terminate execution and loads the program counter with the contents of the reset vector. When RESET is brought to a high level, the reset vector in ROM at FFFF00h forces the program execution to branch to the location of the on-chip ROM bootloader. RESET affects the various registers and status bits. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h). The IPU is disabled at reset. |
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JTAG | |||||||
For more detailed information on emulation header design guidelines, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. | |||||||
TMS | L8 | I | IPU DVDDIO BH |
IEEE standard 1149.1 test mode select. This serial control input is clocked into the TAP controller on the rising edge of TCK. If the emulation header is located greater than 6 inches from the device, TMS must be buffered. In this case, the input buffer for TMS needs a pullup resistor connected to DVDDIO to hold the signal at a known value when the emulator is not connected. A resistor value of 4.7 kΩ or greater is suggested. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is enabled at reset. |
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TDO | M7 | I/O/Z | IPU DVDDIO BH |
IEEE standard 1149.1 test data output. The contents of the selected register (instruction or data) are shifted out of TDO on the falling edge of TCK. TDO is in the high-impedance (Hi-Z) state except when the scanning of data is in progress. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. If the emulation header is located greater than 6 inches from the device, TDO must be buffered. Despite the fact that the IEEE 1149.1 (JTAG) standard defines the TDO pin as a 3-state output (O/Z), this device has a bidirectional IO-cell. The bidirectional cell's input buffer is used for non-JTAG production test purposes. To achieve the lowest power, this input buffer must not be allowed to float. The IEEE standard defines the pin as tri-stated in the Test-Logic-Reset state and our device obeys that requirement. Therefore, to achieve the lowest power the IPU should remain enabled. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is enabled at reset. |
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TDI | L7 | I | IPU DVDDIO BH |
IEEE standard 1149.1 test data input. TDI is clocked into the selected register (instruction or data) on a rising edge of TCK. If the emulation header is located greater than 6 inches from the device, TDI must be buffered. In this case, the input buffer for TDI needs a pullup resistor connected to DVDDIO to hold this signal at a known value when the emulator is not connected. A resistor value of 4.7 kΩ or greater is suggested. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is enabled at reset. |
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TCK | M6 | I | IPU DVDDIO BH |
IEEE standard 1149.1 test clock. TCK is normally a free-running clock signal with a 50% duty cycle. The changes on input signals TMS and TDI are clocked into the TAP controller, instruction register, or selected test data register on the rising edge of TCK. Changes at the TAP output signal (TDO) occur on the falling edge of TCK. If the emulation header is located greater than 6 inches from the device, TCK must be buffered. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is enabled at reset. |
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TRST | M9 | I | IPD DVDDIO BH |
IEEE standard 1149.1 reset signal for test and emulation logic. TRST, when high, allows the IEEE standard 1149.1 scan and emulation logic to take control of the operations of the device. If TRST is not connected or is driven low, the device operates in its functional mode, and the IEEE standard 1149.1 signals are ignored. The device will not operate properly if this reset pin is never asserted low. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. It is recommended that an external pulldown resistor be used in addition to the IPD -- especially if there is a long trace to an emulation header. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is enabled at reset. |
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EMU1 | M5 | I/O/Z | IPU DVDDIO BH |
Emulator 1 pin. EMU1 is used as an interrupt to or from the emulator system and is defined as input/output by way of the emulation logic. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. An external pullup to DVDDIO is required to provide a signal rise time of less than 10 µsec. A 4.7-kΩ resistor is suggested for most applications. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is enabled at reset. |
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EMU0 | L6 | I/O/Z | IPU DVDDIO BH |
Emulator 0 pin. When TRST is driven low and then high, the state of the EMU0 pin is latched and used to connect the JTAG pins (TCK, TMS, TDI, TDO) to either the IEEE1149.1 Boundary-Scan TAP (when the latched value of EMU0 = 0) or to the DSP Emulation TAP (when the latched value of EMU0 = 1). Once TRST is high, EMU0 is used as an interrupt to or from the emulator system and is defined as input/output by way of the emulation logic. An external pullup to DVDDIO is required to provide a signal rise time of less than 10 µsec. A 4.7-kΩ resistor is suggested for most applications. For board design guidelines related to the emulation header, see the XDS560 Emulator Technical Reference [literature number: SPRU589]. The IPU resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is enabled at reset. |
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EXTERNAL INTERRUPTS | |||||||
INT1 | E7 | I | IPU DVDDIO BH |
External interrupt inputs (INT1 and INT0). These pins are maskable via their specific Interrupt Mask Register (IMR1, IMR0) and the interrupt mode bit. The pins can be polled and reset by their specific Interrupt Flag Register (IFR1, IFR0). The IPU resistor on these pins can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPU is disabled at reset. |
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INT0 | C6 | I | IPU DVDDIO BH |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
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NAME(5) | NO. | ||||||
EMIF FUNCTIONAL PINS: ASYNC (NOR, SRAM, and NAND) | |||||||
Note: When accessing 8-bit Asynchronous memory:
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GP[26]/ EM_A[20] |
J3 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For EMIF, this pin is the EMIF external address pin 20. Mux control via the A20_MODE bit in the EBSR (see Figure 5-10). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[25]/ EM_A[19] |
G4 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For EMIF, this pin is the EMIF external address pin 19. Mux control via the A19_MODE bit in the EBSR (see Figure 5-10). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[24]/ EM_A[18] |
G2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For EMIF, this pin is the EMIF external address pin 18. Mux control via the A18_MODE bit in the EBSR (see Figure 5-10). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[23]/ EM_A[17] |
F2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For EMIF, this pin is the EMIF external address pin 17. Mux control via the A17_MODE bit in the EBSR (see Figure 5-10). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[22]/ EM_A[16] |
E2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For EMIF, this pin is the EMIF external address pin 16. Mux control via the A16_MODE bit in the EBSR (see Figure 5-10). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[21]/ EM_A[15] |
N1 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For EMIF, this pin is the EMIF external address pin 15. Mux control via the A15_MODE bit in the EBSR (see Figure 5-10). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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EM_A[14] | M1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 14. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[13] | L1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 13. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[12]/ (CLE) |
K1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 12. When interfacing with NAND Flash, this pin also acts as Command Latch Enable (CLE). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[11]/ (ALE) |
K2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 11. When interfacing with NAND Flash, this pin also acts as Address Latch Enable (ALE). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[10] | L2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 10. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[9] | J2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 9. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[8] | J1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 8. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[7] | H2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 7. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[6] | F1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 6. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[5] | D1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 5. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[4] | C1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 4. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[3] | D2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 3. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[2] | E1 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 2. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[1] | C2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 1. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_A[0] | B2 | I/O/Z | IPD DVDDEMIF BH |
This pin is the EMIF external address pin 0. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR5 (1C4Dh) register. The IPD is disabled at reset. |
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EM_D[15] | J4 | I/O/Z | IPD DVDDEMIF BH |
EMIF 16-bit bidirectional bus. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR4 (1C4Ch) register. The IPD is disabled at reset. |
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EM_D[14] | K3 | ||||||
EM_D[13] | K4 | ||||||
EM_D[12] | L3 | ||||||
EM_D[11] | C4 | ||||||
EM_D[10] | D3 | ||||||
EM_D[9] | F4 | ||||||
EM_D[8] | E3 | ||||||
EM_D[7] | H3 | ||||||
EM_D[6] | K5 | ||||||
EM_D[5] | M2 | ||||||
EM_D[4] | L4 | ||||||
EM_D[3] | D4 | ||||||
EM_D[2] | F3 | ||||||
EM_D[1] | E5 | ||||||
EM_D[0] | G3 | ||||||
EM_CS5 | A3 | O/Z | IPD DVDDEMIF BH |
EMIF chip select 5 output for use with asynchronous memories (that is, NOR flash, NAND flash, or SRAM). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_CS4 | C3 | O/Z | IPD DVDDEMIF BH |
EMIF chip select 4 output for use with asynchronous memories (that is, NOR flash, NAND flash, or SRAM). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_CS3 | M4 | O/Z | IPD DVDDEMIF BH |
EMIF NAND chip select 3 output for use with asynchronous memories (that is, NOR flash, NAND flash, or SRAM). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_CS2 | C5 | O/Z | IPD DVDDEMIF BH |
EMIF NAND chip select 2 output for use with asynchronous memories (that is, NOR flash, NAND flash, or SRAM). The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_WE | H1 | O/Z | IPD DVDDEMIF BH |
EMIF asynchronous memory write enable output The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_OE | E4 | O/Z | IPD DVDDEMIF BH |
EMIF asynchronous memory read enable output The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_R/W | B6 | O/Z | IPD DVDDEMIF BH |
EMIF asynchronous read and write output The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_DQM1/ UHPI_HBE1 |
P1 | I/O/Z | IPD DVDDEMIF BH |
These pins are multiplexed between EMIF and UHPI. For EMIF, asynchronous data write strobes and byte enables or EMIF SDRAM and mSDRAM data mask bits. Mux control via the PPMODE bits in the EBSR. The IPD resistor on these pins can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_DQM0/ UHPI_HBE0 |
B5 | I/O/Z | IPD DVDDEMIF BH |
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EM_BA[1] | B1 | O/Z | IPD DVDDEMIF BH |
EMIF asynchronous bank address 16-bit wide memory: EM_BA[1] forms the device address[0] and BA[0] forms device address [23]. 8-bit wide memory: EM_BA[1] forms the device address[1] and BA[0] forms device address [0]. EMIF SDRAM and mSDRAM bank address. The IPD resistor on these pins can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
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EM_BA[0] | A1 | O/Z | IPD DVDDEMIF BH |
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EM_WAIT5 | H4 | I | IPD DVDDEMIF BH |
EMIF wait state extension input 5 for EM_CS5 The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is enabled at reset. |
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EM_WAIT4 | G1 | I | IPD DVDDEMIF BH |
EMIF wait state extension input 4 for EM_CS4 The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is enabled at reset. |
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EM_WAIT3 | K6 | I | IPD DVDDEMIF BH |
EMIF wait state extension input 3 for EM_CS3 The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is enabled at reset. |
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EM_WAIT2 | D5 | I | IPD DVDDEMIF BH |
EMIF wait state extension input 2 for EM_CS2 The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is enabled at reset. |
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EMIF FUNCTIONAL PINS: SDRAM and mSDRAM ONLY | |||||||
EM_CS1/ UHPI_HDS2 |
A4 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and UHPI. For EMIF, SDRAM and mSDRAM chip select 1 output Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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EM_CS0/ UHPI_HDS1 |
B3 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and UHPI. For EMIF, SDRAM and mSDRAM chip select 0 output Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. |
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EM_SDCLK | M3 | O/Z | IPD DVDDEMIF BH |
EMIF SDRAM and mSDRAM clock The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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EM_SDCKE/ UHPI_HHWIL |
N2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and UHPI. For EMIF, SDRAM and mSDRAM clock enable Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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EM_SDRAS/ UHPI_HAS |
A6 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and UHPI. For EMIF, SDRAM and mSDRAM row address strobe Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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EM_SDCAS/ UHPI_HCS |
B4 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and UHPI. For EMIF, SDRAM and mSDRAM column strobe Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
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NAME | NO. | ||||||
I2C | |||||||
SCL | B7 | I/O/Z | – DVDDIO BH |
This pin is the I2C clock output. Per the I2C standard, an external pullup is required on this pin. | |||
SDA | B8 | I/O/Z | – DVDDIO BH |
This pin is the I2C bidirectional data signal. Per the I2C standard, an external pullup is required on this pin. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
Interface 0 (I2S0) | |||||||
MMC0_D0/ I2S0_DX/ GP[2]/ McBSP_DX |
L9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For I2S, it is I2S0 transmit data output I2S0_DX. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_CLK/ I2S0_CLK/ GP[0]/ McBSP_CLKX |
L10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For I2S, it is I2S0 clock input/output I2S0_CLK. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D1/ I2S0_RX/ GP[3]/ McBSP_DR |
M10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For I2S, it is I2S0 receive data input I2S0_RX. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_CMD/ I2S0_FS/ GP[1]/ McBSP_FSX |
M11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For I2S, it is I2S0 frame synchronization input/output I2S0_FS. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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Interface 1 (I2S2) | |||||||
I2S2_DX/ UHPI_HD[11]/ GP[27]/ SPI_TX |
P12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. For I2S, it is I2S2 transmit data output I2S2_DX. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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I2S2_CLK/ UHPI_HD[8]/ GP[18]/ SPI_CLK |
N10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. For I2S, it is I2S2 clock input/output I2S2_CLK. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_RX/ UHPI_HD[10]/ GP[20]/ SPI_RX |
N11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, I2S2, GPIO, and SPI. For I2S, it is I2S2 receive data input I2S2_RX. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_FS/ UHPI_HD[9]/ GP[19]/ SPI_CS0 |
P11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. For I2S, it is I2S2 frame synchronization input/output I2S2_FS. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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Interface 2 (I2S3) | |||||||
UART_TXD/ UHPI_HD[15]/ GP[31]/ I2S3_DX |
P14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For I2S, it is I2S3 transmit data output I2S3_DX. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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UART_RTS/ UHPI_HD[12]/ GP[28]/ I2S3_CLK |
N12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For I2S, it is I2S3 clock input/output I2S3_CLK. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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UART_RXD/ UHPI_HD[14]/ GP[30]/ I2S3_RX |
N13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For I2S, it is I2S3 receive data input I2S3_RX. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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UART_CTS/ UHPI_HD[13]/ GP[29]/ I2S3_FS |
P13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed betweenUART, UHPI, GPIO, and I2S3. For I2S, it is I2S3 frame synchronization input/output I2S3_FS. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
McBSP | |||||||
MMC0_CLK/ I2S0_CLK/ GP[0]/ McBSP_CLKX |
L10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For McBSP, this is the McBSP transmit clock, McBSP_CLKX. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_CMD/ I2S0_FS/ GP[1]/ McBSP_FSX |
M11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For McBSP, this is the McBSP transmit frame sync, McBSP_FSX. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D0/ I2S0_DX/ GP[2]/ McBSP_DX |
L9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For McBSP, this is the McBSP transmit data , McBSP_DX. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D1/ I2S0_RX/ GP[3]/ McBSP_DR |
M10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP and GPIO. For McBSP, this is the McBSP receive data, McBSP_RX. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D2/ GP[4]/ McBSP_FSR |
L12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, McBSP and GPIO. For McBSP, this is the McBSP receive frame sync, McBSP_FSR. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D3/ GP[5]/ McBSP_CLKR_ CLKS |
L11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, McBSP and GPIO. For McBSP, this is the McBSP receive clock, McBSP_CLKR or the McBSP sample rate generator clock input, McBSP_CLKS. The bit 15 of EBSR register determines this port to be McBSP_CLKR or McBSP_CLKS. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
McSPI | |||||||
MMC1_CLK/ McSPI_CLK/ GP[6] |
M13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI and GPIO. For McSPI, this is the McSPI data clock, McSPI_CLK. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_CMD/ McSPI_CS0/ GP[7] |
L14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI and GPIO. For McSPI, this is the McSPI chip select 0 signal, McSPI_CS0. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D0/ McSPI_SIMO/ GP[8] |
M14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI and GPIO. For McSPI, this is the McSPI data, McSPI_SIMO (Slave Input Master Output). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D1/ McSPI_SOMI/ GP[9] |
M12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI and GPIO. For McSPI, this is the McSPI data, McSPI_SOMI (Slave Output Master Input). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D2/ McSPI_CS1/ GP[10] |
K14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI and GPIO. For McSPI, this is the McSPI chip select 1 signal, McSPI_CS1. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D3/ McSPI_CS2/ GP[11] |
L13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI and GPIO. For McSPI, this is the McSPI chip select 2 signal, McSPI_CS2. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
Serial Port Interface (SPI) | |||||||
SPI_CS0/ UHPI_HCNTL0 |
P4 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is SPI chip select SPI_CS0. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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I2S2_FS/ UHPI_HD[9]/ GP[19]/ SPI_CS0 |
P11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is SPI chip select SPI_CS0. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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SPI_CS1/ UHPI_HCNTL1 |
N4 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is SPI chip select SPI_CS1. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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SPI_CS2/ UHPI_HR_NW |
P5 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. For SPI, this pin is SPI chip select SPI_CS2. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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SPI_CS3/ UHPI_HRDY |
N5 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is SPI chip select SPI_CS3. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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SPI_CLK/ UHPI_HINT |
N3 | O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is clock output SPI_CLK. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
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I2S2_CLK/ UHPI_HD[8]/ GP[18]/ SPI_CLK |
N10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is clock output SPI_CLK. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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SPI_TX/ UHPI_HD[1] |
N6 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is SPI transmit data output. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_DX/ UHPI_HD[11]/ GP[27]/ SPI_TX |
P12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. Mux control via the PPMODE bits in the EBSR. For SPI, this pin is SPI transmit data output. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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SPI_RX/ UHPI_HD[0] |
P6 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. Mux control via the PPMODE bits in the EBSR. For SPI this pin is SPI receive data input. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_RX/ UHPI_HD[10]/ GP[20]/ SPI_RX |
N11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. Mux control via the PPMODE bits in the EBSR. For SPI this pin is SPI receive data input. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
UART | |||||||
UART_RXD/ UHPI_HD[14]/ GP[30]/ I2S3_RX |
N13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. When used by UART, it is the receive data input UART_RXD. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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UART_TXD/ UHPI_HD[15]/ GP[31]/ I2S3_DX |
P14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. In UART mode, it is the transmit data output UART_TXD. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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UART_CTS/ UHPI_HD[13]/ GP[29]/ I2S3_FS |
P13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. In UART mode, it is the clear to send input UART_CTS. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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UART_RTS/ UHPI_HD[12]/ GP[28]/ I2S3_CLK |
N12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. In UART mode, it is the ready to send output UART_RTS. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME | NO. | ||||||
USB 2.0 | |||||||
USB_MXI | G13 | I | USB_VDDOSC | 12-MHz crystal oscillator input used for the USB subsystem and optionally for the system clock generator. If CLK_SEL=0, the USB oscillator is enabled at reset and is used as the clock source for the system clock generator. In this configuration (CLK_SEL=0), the USB oscillator cannot be disabled. If CLK_SEL=1, the USB oscillator is disabled at reset and the CLKIN pin is used as the source for the system clock generator. In this configuration (CLK_SEL=1), the USB oscillator can be enabled or disabled via software. When using an external 12-MHz oscillator, the external oscillator clock signal should be connected to the USB_MXI pin and the amplitude of the oscillator clock signal must meet the VIH requirement (see Section 5.2, Recommended Operating Conditions). The USB_MXO is left unconnected and the USB_VSSOSC signal is connected to board ground (VSS). |
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USB_MXO | G14 | O | USB_VDDOSC | 12-MHz crystal oscillator output used for the USB subsystem and optionally for the system clock generator. If CLK_SEL=0, the USB oscillator is enabled at reset and is used as the clock source for the system clock generator. In this configuration (CLK_SEL=0), the USB oscillator cannot be disabled. If CLK_SEL=1, the USB oscillator is disabled at reset and the CLKIN pin is used as the source for the system clock generator. In this configuration (CLK_SEL=1), the USB oscillator can be enabled or disabled via software. When using an external 12-MHz oscillator, the external oscillator clock signal should be connected to the USB_MXI pin and the amplitude of the oscillator clock signal must meet the VIH requirement (see Section 5.2, Recommended Operating Conditions). The USB_MXO is left unconnected and the USB_VSSOSC signal is connected to board ground (VSS). |
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USB_VDDOSC | G12 | S | see Section 5.2, ROC | 3.3-V power supply for USB oscillator. When the USB peripheral is not used, USB_VDDOSC should be connected to ground (VSS). |
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USB_VSSOSC | F11 | S | see Section 5.2, ROC | Ground for USB oscillator. When using a 12-MHz crystal, this pin is a local ground for the crystal and must not be connected to the board ground (See Figure 5-11). When using an external 12-MHz oscillator, the external oscillator clock signal should be connected to the USB_MXI pin and the amplitude of the oscillator clock signal must meet the VIH requirement (see Section 5.2, Recommended Operating Conditions). The USB_MXO is left unconnected and the USB_VSSOSC signal is connected to board ground (VSS). |
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USB_VBUS | J12 | A | see Section 5.2, ROC | USB power detect. 5-V input that signifies that VBUS is connected. This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VBUS signal should be connected to ground (VSS). |
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USB_DP | H14 | A I/O | USB_VDDA3P3 | USB bidirectional Data Differential signal pair [positive and negative]. When the USB peripheral is not used, the USB_DP and USB_DM signals should both be tied to ground (VSS). |
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USB_DM | J14 | A I/O | USB_VDDA3P3 | ||||
USB_R1 | G9 | A I/O | USB_VDDA3P3 | External resistor connect. Reference current output. This pin must be connected via a 10-kΩ ±1% resistor to USB_VSSREF and be placed as close to the device as possible. When the USB peripheral is not used, the USB_R1 signal should be connected via a 10-kΩ resistor to USB_VSSREF. |
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USB_VSSREF | G10 | GND | see Section 5.2, ROC | Ground for reference current. This must be connected via a 10-kΩ ±1% resistor to USB_R1. When the USB peripheral is not used, the USB_VSSREF signal should be connected directly to ground (Vss). |
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USB_VDDA3P3 | H12 | S | see Section 5.2, ROC | Analog 3.3 V power supply for USB PHY. This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VDDA3P3 signal should be connected to ground (VSS). |
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USB_VSSA3P3 | H11 | GND | see Section 5.2, ROC | Analog ground for USB PHY. | |||
USB_VDDA1P3 | H10 | S | see Section 5.2, ROC | Analog 1.3 V power supply for USB PHY. [For high-speed sensitive analog circuits] This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VDDA1P3 signal should be connected to ground (VSS). |
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USB_VSSA1P3 | H9 | GND | see Section 5.2, ROC | Analog ground for USB PHY [For high speed sensitive analog circuits]. | |||
USB_VDD1P3 | J13 | S | see Section 5.2, ROC | 1.3-V digital core power supply for USB PHY. This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VDD1P3 signal should be connected to ground (VSS). |
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USB_VSS1P3 | H13 | GND | see Section 5.2, ROC | Digital core ground for USB PHY. | |||
USB_VDDPLL | G8 | S | see Section 5.2, ROC | 3.3 V USB Analog PLL power supply. Care should be taken to prevent noise on this supply. Consider using a ferrite bead if the power supply for this pin is shared with digital logic. See the Filtering Techniques Application Report [literature number: SCAA048] for more information. When the USB peripheral is not used, the USB_VDDPLL signal should be connected to ground (VSS). |
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USB_VSSPLL | G11 | GND | see Section 5.2, ROC | USB Analog PLL ground. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | |
---|---|---|---|---|
NAME(5) | NO. | |||
SPI_CLK/ UHPI_HINT |
N3 | O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. For UHPI, this pin is UHPI host interrupt, UHPI_HINT. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
SPI_CS0/ UHPI_HCNTL0 |
P4 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. For UHPI, this pin is UHPI access control, UHPI_HCNTL0. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
SPI_CS1/ UHPI_HCNTL1 |
N4 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. For UHPI, this pin is UHPI access control, UHPI_HCNTL1. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
SPI_CS2/ UHPI_HR_NW |
P5 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. For UHPI this pin is UHPI read and write, UHPI_HR_NW. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
SPI_CS3/ UHPI_HRDY |
N5 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between SPI and UHPI. For UHPI, this pin is the UHPI ready, UHPI_HRDY. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
UART_TXD/ UHPI_HD[15]/ GP[31]/ I2S3_DX |
P14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
UART_RXD/ UHPI_HD[14]/ GP[30]/ I2S3_RX |
N13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
UART_CTS/ UHPI_HD[13]/ GP[29]/ I2S3_FS |
P13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
UART_RTS/ UHPI_HD[12]/ GP[28]/ I2S3_CLK |
N12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
I2S2_DX/ UHPI_HD[11]/ GP[27]/ SPI_TX |
P12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
I2S2_RX/ UHPI_HD[10]/ GP[20]/ SPI_RX |
N11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
I2S2_FS/ UHPI_HD[9]/ GP[19]/ SPI_CS0 |
P11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
I2S2_CLK/ UHPI_HD[8]/ GP[18]/ SPI_CLK |
N10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI, UART, SPI, I2S, and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
GP[17]/ UHPI_HD[7] |
P10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
GP[16]/ UHPI_HD[6] |
N9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
GP[15]/ UHPI_HD[5] |
P9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
GP[14]/ UHPI_HD[4] |
N8 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
GP[13]/ UHPI_HD[3] |
N7 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
GP[12]/ UHPI_HD[2] |
P7 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and GPIO. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
SPI_TX/ UHPI_HD[1] |
N6 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SPI. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
SPI_RX/ UHPI_HD[0] |
P6 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SPI. For UHPI, this pin is the UHPI data bus, UHPI_HD[15:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
EM_DQM1/ UHPI_HBE1 |
P1 | I/O/Z | IPD DVDDIO BH |
These two pins are multiplexed between UHPI and SDRAM. For UHPI, these two pins are UHPI Byte Enables, UHPI_HBE[1:0]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on these pins can be enabled or disabled via the PUDINHIBR6 (1C4Fh) register. The IPD is disabled at reset. |
EM_DQM0/ UHPI_HBE0 |
B5 | I/O/Z | IPD DVDDIO BH |
|
EM_CS1/ UHPI_HDS2 |
A4 | I/O/Z | IPD DVDDIO BH |
These two pins are multiplexed between UHPI and SDRAM. For UHPI, these two pins are UHPI data strobe pins, UHPI_HDS[2:1]. Mux control via the PPMODE bits in the EBSR. The IPD resistor on these pins can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
EM_CS0/ UHPI_HDS1 |
B3 | I/O/Z | IPD DVDDIO BH |
|
EM_SDCKE/ UHPI_HHWIL |
N2 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SDRAM. For UHPI, this pin is Half-word Identification control input pin, UHPI_HHWIL. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
EM_SDRAS/ UHPI_HAS |
A6 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SDRAM. For UHPI, this pin is address strobe pin, UHPI_HAS. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
EM_SDCAS/ UHPI_HCS |
B4 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UHPI and SDRAM. For UHPI, this pin is chip select pin, UHPI_HCS. Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR7 (1C50h) register. The IPD is disabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
MMC and SD | |||||||
MMC1_CLK/ McSPI_CLK/ GP[6] |
M13 | O | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For MMC and SD, this is the MMC1 data clock output MMC1_CLK. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_CMD/ McSPI_CS0/ GP[7] |
L14 | O | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For MMC and SD, this is the MMC1 command I/O output MMC1_CMD. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D3/ McSPI_CS2/ GP[11] |
L13 | I/O/Z | IPD DVDDIO BH |
These pins are multiplexed between MMC1, McSPI, and GPIO. In MMC and SD mode, all these pins are the MMC1 nibble wide bidirectional data bus. Mux control via the SP1MODE bits in the EBSR. The IPD resistor on these pins can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D2/ McSPI_CS1/ GP[10] |
K14 | I/O/Z | IPD DVDDIO BH |
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MMC1_D1/ McSPI_SOMI/ GP[9] |
M12 | I/O/Z | IPD DVDDIO BH |
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MMC1_D0/ McSPI_SIMO/ GP[8] |
M14 | I/O/Z | IPD DVDDIO BH |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
MMC and SD | |||||||
MMC0_CLK/ I2S0_CLK/ GP[0]/ McBSP_CLKX |
L10 | O | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP, and GPIO. For MMC and SD, this is the MMC0 data clock output MMC0_CLK. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_CMD/ I2S0_FS/ GP[1]/ McBSP_FSX |
M11 | O | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP, and GPIO. For MMC and SD, this is the MMC0 command I/O output MMC0_CMD. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D3/ GP[5]/ McBSP_CLKR_ CLKS |
L11 | I/O/Z | IPD DVDDIO BH |
These pins are multiplexed between MMC0, I2S0, McBSP and GPIO In MMC and SD mode, these pins are the MMC0 nibble wide bidirectional data bus. Mux control via the SP0MODE bits in the EBSR. The IPD resistor on these pins can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D2/ GP[4]/ McBSP_FSR |
L12 | I/O/Z | IPD DVDDIO BH |
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MMC0_D1/ I2S0_RX/ GP[3]/ McBSP_DR |
M10 | I/O/Z | IPD DVDDIO BH |
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MMC0_D0/ I2S0_DX/ GP[2]/ McBSP_DX |
L9 | I/O/Z | IPD DVDDIO BH |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME | NO. | ||||||
SAR ADC | |||||||
GPAIN0 | D10 | I/O | VDDA_ANA | GPAIN0: General -Purpose Output and Analog Input pin 0. This pin is demuxed internally into ADC Channels 0, 1, and 2. GPAIN0 can also be used as a general-purpose open-drain output. This pin is unique among the GPAIN pins in that it is the only pin that is 3.6 V-tolerant to support measuring a battery voltage. GPAIN0 can accommodate input voltages from 0 V to 3.6 V; although, the ADC is unable to accept signals greater than VDDA_ANA without clamping. ADC Channel 1 is capable of switching in an internal resistor divider that has a divide ratio of approximately 1/8. | |||
GPAIN1 | A11 | I/O | VDDA_ANA | GPAIN1: General -Purpose Output and Analog Input pin 1. This pin is connected to ADC Channel 3. GPAIN1 can be used as a general-purpose output if certain requirements are met (see the following note). GPAIN1 can accommodate input voltages from 0 V to VDDA_ANA. Note: If the ANA_LDO is used to supply power to VDDA_ANA, this pin must not be used as a general-purpose output (driving high) since the max current capability (see the ISD parameter in Section 5.3.2, Electrical Characteristics) of the ANA_LDO can be exceeded. Doing so may result in the on-chip power-on reset (POR) resetting the chip. |
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GPAIN2 | B11 | I/O | VDDA_ANA | GPAIN2: General -Purpose Output and Analog Input pin 2. This pin is connected to ADC Channel 4. GPAIN2 can be used as a general-purpose output if certain requirements are met (see the following note). GPAIN2 can accommodate input voltages from 0 V to VDDA_ANA. Note: If the ANA_LDO is used to supply power to VDDA_ANA, this pin must not be used as a general-purpose output (driving high) since the max current capability (see the ISD parameter in Section 5.3.2, Electrical Characteristics) of the ANA_LDO can be exceeded. Doing so may result in the on-chip POR resetting the chip. |
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GPAIN3 | C11 | I/O | VDDA_ANA | GPAIN3: General -Purpose Output and Analog Input pin 3. This pin is connected to ADC Channel 5. GPAIN3 can be used as a general-purpose output if certain requirements are met (see the following note). GPAIN3 can accommodate input voltages from 0 V to VDDA_ANA. Note: If the ANA_LDO is used to supply power to VDDA_ANA, this pin must not be used as a general-purpose output (driving high) since the max current capability (see the ISD parameter in Section 5.3.2, Electrical Characteristics) of the ANA_LDO can be exceeded. Doing so may result in the on-chip POR resetting the chip. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME(5) | NO. | ||||||
General-Purpose Input/Output | |||||||
XF | M8 | O/Z | IPU DVDDIO BH |
External Flag Output. XF is used for signaling other processors in multiprocessor configurations or XF can be used as a fast general-purpose output pin. XF is set high by the BSET XF instruction and XF is set low by the BCLR XF instruction or by writing to bit 13 of the ST1_55 register. For more information on the ST1_55 register, see the C55x 3.0 CPU Reference Guide [literature number: SWPU073]. For the XF pin's states after reset, see Figure 5-9, BootMode Latching. XF pin can manually configured as Hi-Z state only in boundary-scan mode. When this pin is in Hi-Z state, the IPU is enabled. The IPU on this pin is disabled at reset. |
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MMC0_CLK/ I2S0_CLK/ GP[0]/ McBSP_CLKX |
L10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP, and GPIO. For GPIO, it is general-purpose input/output pin 0 (GP[0]). Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_CMD/ I2S0_FS/ GP[1]/ McBSP_FSX |
M11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP, and GPIO. For GPIO, it is general-purpose input/output pin 1 (GP[1]). Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D0/ I2S0_DX/ GP[2]/ McBSP_DX |
L9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP, and GPIO. For GPIO, it is general-purpose input/output pin 2 (GP[2]). Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D1/ I2S0_RX/ GP[3]/ McBSP_DR |
M10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, I2S0, McBSP, and GPIO. For GPIO, it is general-purpose input/output pin 3 (GP[3]). Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D2/ GP[4]/ McBSP_FSR |
L12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, McBSP, and GPIO. For GPIO, it is general-purpose input/output pin 4 (GP[4]). Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC0_D3/ GP[5]/ McBSP_CLKR_ CLKS |
L11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC0, McBSP, and GPIO. For GPIO, it is general-purpose input/output pin 5 (GP[5]). Mux control via the SP0MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_CLK/ McSPI_CLK/ GP[6] |
M13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For GPIO, it is general-purpose input/output pin 6 (GP[6]). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_CMD/ McSPI_CS0/ GP[7] |
L14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For GPIO, it is general-purpose input/output pin 7 (GP[7]). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D0/ McSPI_SIMO/ GP[8] |
M14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For GPIO, it is general-purpose input/output pin 8 (GP[8]). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D1/ McSPI_SOMI/ GP[9] |
M12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For GPIO, it is general-purpose input/output pin 9 (GP[9]). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D2/ McSPI_CS1/ GP[10] |
K14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For GPIO, it is general-purpose input/output pin 10 (GP[10]). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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MMC1_D3/ McSPI_CS2/ GP[11] |
L13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between MMC1, McSPI, and GPIO. For GPIO, it is general-purpose input/output pin 11 (GP[11]). Mux control via the SP1MODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR1 (1C17h) register. The IPD is disabled at reset. |
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GP[12]/ UHPI_HD[2] |
P7 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between GPIO and UHPI. For GPIO, it is general-purpose input/output pin 12 (GP[12]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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GP[13]/ UHPI_HD[3] |
N7 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between GPIO and UHPI. For GPIO, it is general-purpose input/output pin 13 (GP[13]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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GP[14]/ UHPI_HD[4] |
N8 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between GPIO and UHPI. For GPIO, it is general-purpose input/output pin 14 (GP[14]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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GP[15]/ UHPI_HD[5] |
P9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between GPIO and UHPI. For GPIO, it is general-purpose input/output pin 15 (GP[15]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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GP[16]/ UHPI_HD[6] |
N9 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between GPIO and UHPI. For GPIO, it is general-purpose input/output pin 16 (GP[16]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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GP[17]/ UHPI_HD[7] |
P10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between GPIO and UHPI. For GPIO, it is general-purpose input/output pin 17 (GP[17]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_CLK/ UHPI_HD[8]/ GP[18]/ SPI_CLK |
N10 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. For GPIO, it is general-purpose input/output pin 18 (GP[18]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_FS/ UHPI_HD[9]/ GP[19]/ SPI_CS0 |
P11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO and SPI. For GPIO, it is general-purpose input/output pin 19 (GP[19]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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I2S2_RX/ UHPI_HD[10]/ GP[20]/ SPI_RX |
N11 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO and SPI. For GPIO, it is general-purpose input/output pin 20 (GP[20]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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GP[21]/ EM_A[15] |
N1 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For GPIO, it is general-purpose input/output pin 21 (GP[21]). Mux control via the A15_MODE bit in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[22]/ EM_A[16] |
E2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For GPIO, it is general-purpose input/output pin 22 (GP[22]). Mux control via the A16_MODE bit in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[23]/ EM_A[17] |
F2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For GPIO, it is general-purpose input/output pin 23 (GP[23]). Mux control via the A17_MODE bit in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[24]/ EM_A[18] |
G2 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For GPIO, it is general-purpose input/output pin 24 (GP[24]). Mux control via the A18_MODE bit in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
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GP[25]/ EM_A[19] |
G4 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For GPIO, it is general-purpose input/output pin 25 (GP[25]). Mux control via the A19_MODE bit in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
|||
GP[26]/ EM_A[20] |
J3 | I/O/Z | IPD DVDDEMIF BH |
This pin is multiplexed between EMIF and GPIO. For GPIO, it is general-purpose input/output pin 26 (GP[26]). Mux control via the A20_MODE bit in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR2 (1C18h) register. The IPD is disabled at reset. |
|||
I2S2_DX/ UHPI_HD[11]/ GP[27]/ SPI_TX |
P12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between I2S2, UHPI, GPIO, and SPI. For GPIO, it is general-purpose input/output pin 27 (GP[27]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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UART_RTS/ UHPI_HD[12]/ GP[28]/ I2S3_CLK |
N12 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For GPIO, it is general-purpose input/output pin 28 (GP[28]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
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UART_CTS/ UHPI_HD[13]/ GP[29]/ I2S3_FS |
P13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For GPIO, it is general-purpose input/output pin 29 (GP[29]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
|||
UART_RXD/ UHPI_HD[14]/ GP[30]/ I2S3_RX |
N13 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For GPIO, it is general-purpose input/output pin 30 (GP[30]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is enabled at reset. |
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UART_TXD/ UHPI_HD[15]/ GP[31]/ I2S3_DX |
P14 | I/O/Z | IPD DVDDIO BH |
This pin is multiplexed between UART, UHPI, GPIO, and I2S3. For GPIO, it is general-purpose input/output pin 31 (GP[31]). Mux control via the PPMODE bits in the EBSR. The IPD resistor on this pin can be enabled or disabled via the PUDINHIBR3 (1C19h) register. The IPD is disabled at reset. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME | NO. | ||||||
Regulators | |||||||
DSP_LDOO | E10 | S | DSP_LDO output. When enabled, this output provides a regulated 1.3 V or 1.05 V output and up to 250 mA of current (see the ISD parameter in Section 5.3.2, Electrical Characteristics). The DSP_LDO is intended to supply current to the digital core circuits only (CVDD) but not to CVDDRTC or external devices. For proper device operation, the external decoupling capacitor of this pin should be 5µF ~ 10µF. For more detailed information, see Section 5.7.2.5, Power-Supply Decoupling. When disabled, this pin is in the high-impedance (Hi-Z) state. |
||||
LDOI | F14, F13, B12 |
S | LDO inputs. For proper device operation, LDOI must always be powered. The LDOI pins must be connected to the same power supply source with a voltage range of 1.8 V to 3.6 V. These pins supply power to the internal LDOs, the bandgap reference generator circuits, and serve as the I/O supply for some input pins. | ||||
DSP_LDO_EN | D12 | I | – LDOI |
DSP_LDO enable input. This signal is not intended to be dynamically switched. 0 = DSP_LDO is enabled. The internal POR monitors the DSP_LDOO pin voltage and generates the internal POWERGOOD signal. 1 = DSP_LDO is disabled. The internal POR voltage monitoring is also disabled. The internal POWERGOOD signal is forced high and the external reset signal on the RESET pin (D6) is the only source of the device reset. Note, the device's internal reset signal is generated as the logical AND of the RESET pin and the internal POWERGOOD signal. |
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USB_LDOO | F12 | S | USB_LDO output. This output provides a regulated 1.3 V output and up to 25 mA of current (see the ISD parameter in Section 5.3.2, Electrical Characteristics). For proper device operation, this pin must be connected to a 1 µF ~ 2 µF decoupling capacitor to VSS. For more detailed information, see Section 5.7.2.5, Power-Supply Decoupling. This LDO is intended to supply power to the USB_VDD1P3, USB_VDDA1P3 pins but not to CVDDRTC or external devices. Note: The reset state of the register that enables and disables the USB_LDO is dependent on the setting of CLK_SEL pin at reset. If CLK_SEL is high, the USB_LDO is disabled at reset but can be enabled by software. If CLK_SEL is low, the USB LDO is enabled (USB_LDO_EN=1) at reset and cannot be disabled by software. (See Section 5.7.2.1.1.2.1LDO Control for details.) |
||||
ANA_LDOO | A12 | S | ANA_LDO output. This output provides a regulated 1.3 V output and up to 4 mA of current (see the ISD parameter in Section 5.3.2, Electrical Characteristics). For proper device operation, this pin must be connected to an ~ 1.0 µF decoupling capacitor to VSS. For more detailed information, see Section 5.7.2.5, Power-Supply Decoupling. This LDO is intended to supply power to the VDDA_ANA pin but not to VDDA_PLL, CVDDRTC or external devices. |
||||
BG_CAP | B13 | A, O | Bandgap reference filter signal. For proper device operation, this pin needs to be bypassed with a 0.1 µF capacitor to analog ground (VSSA_ANA). BG_CAP provides a settling time of 200 ms that must elapse before executing bootloader code. The settling time time is used by Timer0. This external capacitor provides filtering for stable reference voltages and currents generated by the bandgap circuit. The bandgap produces the references for use by the SAR and POR circuits. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME | NO. | ||||||
SUPPLY VOLTAGES | |||||||
F6 | |||||||
H8 | 1.05-V Digital Core supply voltage (75 MHz) | ||||||
J6 | PWR | 1.3-V Digital Core supply voltage (175 MHz) | |||||
CVDD | K10 | 1.4-V Digital Core supply voltage (200 MHz) | |||||
L5 | |||||||
F7 | |||||||
K7 | |||||||
DVDDIO | K12 | PWR | 1.8-V, 2.75-V, or 3.3-V I/O power supply for non-EMIF and non-RTC I/Os | ||||
N14 | DVDDIO must always be powered for proper operation. | ||||||
P3 | |||||||
P8 | |||||||
A2 | |||||||
A5 | |||||||
E6 | |||||||
F5 | 1.8-V, 2.75-V, or 3.3-V EMIF I/O power supply | ||||||
DVDDEMIF | G5 | PWR | DVDDEMIF must always be powered for proper operation. GP[26:21] are used for boot mode configuration. | ||||
H5 | |||||||
H7 | |||||||
J5 | |||||||
P2 | |||||||
CVDDRTC | C8 | PWR | 1.05-V RTC digital core and RTC oscillator power supply. Note: The CVDDRTC pin must always be powered by an external power source even though RTC is not used. None of the on-chip LDOs can power CVDDRTC. |
||||
DVDDRTC | F8 | PWR | 1.8-V, 2.75-V, or 3.3-V I/O power supply for peripheral pins. DVDDRTC can be tied to ground (VSS) when RTC_CLKOUT and WAKEUP pins are not used permanently. In this case, the WAKEUP pin must be configured as output by software. (See Table 5-1, RTCPMGT Register Bit Descriptions.) |
||||
VDDA_PLL | C10 | PWR | see Section 5.2, ROC | 1.3-V Analog PLL power supply for the system clock generator. Care should be taken to prevent noise on this supply. Consider using a ferrite bead if the power supply for this pin is shared with digital logic. See the Filtering Techniques Application Report [literature number: SCAA048] for more information. This signal cannot be powered from the ANA_LDOO pin. It must be powered externally. |
|||
USB_VDDPLL | G8 | S | see Section 5.2, ROC | 3.3 V USB Analog PLL power supply. Care should be taken to prevent noise on this supply. Consider using a ferrite bead if the power supply for this pin is shared with digital logic. See the Filtering Techniques Application Report [literature number: SCAA048] for more information. When the USB peripheral is not used, the USB_VDDPLL signal should be connected to ground (VSS). |
|||
USB_VDD1P3 | J13 | S | see Section 5.2, ROC | 1.3-V digital core power supply for USB PHY. This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VDD1P3 signal should be connected to ground (VSS). |
|||
USB_VDDA1P3 | H10 | S | see Section 5.2, ROC | Analog 1.3 V power supply for USB PHY. [For high-speed sensitive analog circuits] This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VDDA1P3 signal should be connected to ground (VSS). |
|||
USB_VDDA3P3 | H12 | S | see Section 5.2, ROC | Analog 3.3 V power supply for USB PHY. This signal must be powered on in the order listed in Section 5.7.2.2, Power-Supply Sequencing. When the USB peripheral is not used, the USB_VDDA3P3 signal should be connected to ground (VSS). |
|||
USB_VDDOSC | G12 | S | see Section 5.2, ROC | 3.3-V power supply for USB oscillator. When the USB peripheral is not used, USB_VDDOSC should be connected to ground (VSS). |
|||
VDDA_ANA | A10 | PWR | 1.3-V supply for power management and 10-bit SAR ADC This signal can be powered from the ANA_LDOO pin. |
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME | NO. | ||||||
A13 | |||||||
A14 | |||||||
D7 | |||||||
D11 | |||||||
E9 | |||||||
E11 | |||||||
E12 | |||||||
E13 | |||||||
E14 | |||||||
VSS | F9 | GND | Ground pins | ||||
F10 | |||||||
G6 | |||||||
G7 | |||||||
H6 | |||||||
J7 | |||||||
J8 | |||||||
J9 | |||||||
K8 | |||||||
K9 | |||||||
K11 | |||||||
K13 | |||||||
VSSRTC | C9 | GND | Ground for RTC oscillator. When using a 32.768-kHz crystal, this pin is a local ground for the crystal and must not be connected to the board ground (See Figure 5-13 and Figure 5-16). When not using RTC and the crystal is not populated on the board, this pin is connected to the board ground. | ||||
VSSA_PLL | D9 | GND | see Section 5.2, ROC | Analog PLL ground for the system clock generator. | |||
USB_VSSPLL | G11 | GND | see Section 5.2, ROC | USB Analog PLL ground. | |||
USB_VSS1P3 | H13 | GND | see Section 5.2, ROC | Digital core ground for USB PHY. | |||
USB_VSSA1P3 | H9 | GND | see Section 5.2, ROC | Analog ground for USB PHY [For high speed sensitive analog circuits]. | |||
USB_VSSA3P3 | H11 | GND | see Section 5.2, ROC | Analog ground for USB PHY. | |||
USB_VSSOSC | F11 | GND | see Section 5.2, ROC | Ground for USB oscillator. | |||
USB_VSSREF | G10 | GND | see Section 5.2, ROC | Ground for reference current. This must be connected via a 10-kΩ ±1% resistor to USB_R1. When the USB peripheral is not used, the USB_VSSREF signal should be connected directly to ground (Vss). |
|||
VSSA_ANA | B10 | GND | Analog ground pins for power management (POR and Bandgap circuits) and 10-bit SAR ADC | ||||
B14 |
Extensive pin multiplexing is used to accommodate the largest number of peripheral functions in the smallest possible package. The external bus selection register (EBSR) controls all the pin multiplexing functions on the device.
This section discusses how to program the external bus selection register (EBSR) to select the desired peripheral functions and pin muxing. See the individual subsections for muxing details for a specific muxed pin. After changing any of the pin mux control registers, it will be necessary to reset the peripherals that are affected.
The UHPI, SPI, UART, I2S2, I2S3, and GPIO signal muxing is determined by the value of the PPMODE bit fields in the External Bus Selection Register (EBSR) register. For more details on the actual pin functions, see Table 4-20.
PULLUP and PULLDOWN CONTROL REGISTER BIT |
PIN NUMBER | EBSR PPMODE BITS | ||||||
---|---|---|---|---|---|---|---|---|
MODE 0 | MODE 1 | MODE 2 | MODE 3 | MODE 4 | MODE 5 | MODE 6 | ||
000 | 001 (Reset Default) |
010 | 011 | 100 | 101 | 110 | ||
PUDINHIBR7 (0x1C50) Bit 12 | N3 | UHPI_HINT | SPI_CLK | Reserved | Reserved | Reserved | Reserved | SPI_CLK |
PUDINHIBR3 (0x1C19) Bit 0 | P6 | UHPI_HD[0] | SPI_RX | Reserved | Reserved | Reserved | Reserved | SPI_RX |
PUDINHIBR3 (0x1C19) Bit 1 | N6 | UHPI_HD[1] | SPI_TX | Reserved | Reserved | Reserved | Reserved | SPI_TX |
PUDINHIBR3 (0x1C19) Bit 2 | P7 | UHPI_HD[2] | GP[12] | Reserved | Reserved | Reserved | Reserved | GP[12] |
PUDINHIBR3 (0x1C19) Bit 3 | N7 | UHPI_HD[3] | GP[13] | Reserved | Reserved | Reserved | Reserved | GP[13] |
PUDINHIBR3 (0x1C19) Bit 4 | N8 | UHPI_HD[4] | GP[14] | Reserved | Reserved | Reserved | Reserved | GP[14] |
PUDINHIBR3 (0x1C19) Bit 5 | P9 | UHPI_HD[5] | GP[15] | Reserved | Reserved | Reserved | Reserved | GP[15] |
PUDINHIBR3 (0x1C19) Bit 6 | N9 | UHPI_HD[6] | GP[16] | Reserved | Reserved | Reserved | Reserved | GP[16] |
PUDINHIBR3 (0x1C19) Bit 7 | P10 | UHPI_HD[7] | GP[17] | Reserved | Reserved | Reserved | Reserved | GP[17] |
PUDINHIBR3 (0x1C19) Bit 8 | N10 | UHPI_HD[8] | I2S2_CLK | GP[18] | SPI_CLK | I2S2_CLK | SPI_CLK | I2S2_CLK |
PUDINHIBR3 (0x1C19) Bit 9 | P11 | UHPI_HD[9] | I2S2_FS | GP[19] | SPI_CS0 | I2S2_FS | SPI_CS0 | I2S2_FS |
PUDINHIBR3 (0x1C19) Bit 10 | N11 | UHPI_HD[10] | I2S2_RX | GP[20] | SPI_RX | I2S2_RX | SPI_RX | I2S2_RX |
PUDINHIBR3 (0x1C19) Bit 11 | P12 | UHPI_HD[11] | I2S2_DX | GP[27] | SPI_TX | I2S2_DX | SPI_TX | I2S2_DX |
PUDINHIBR3 (0x1C19) Bit 12 | N12 | UHPI_HD[12] | UART_RTS | GP[28] | I2S3_CLK | UART_RTS | UART_RTS | I2S3_CLK |
PUDINHIBR3 (0x1C19) Bit 13 | P13 | UHPI_HD[13] | UART_CTS | GP[29] | I2S3_FS | UART_CTS | UART_CTS | I2S3_FS |
PUDINHIBR3 (0x1C19) Bit 14 | N13 | UHPI_HD[14] | UART_RXD | GP[30] | I2S3_RX | UART_RXD | UART_RXD | I2S3_RX |
PUDINHIBR3 (0x1C19) Bit 15 | P14 | UHPI_HD[15] | UART_TXD | GP[31] | I2S3_DX | UART_TXD | UART_TXD | I2S3_DX |
PUDINHIBR7 (0x1C50) Bit 8 | P4 | UHPI_HCNTL0 | SPI_CS0 | Reserved | Reserved | Reserved | Reserved | SPI_CS0 |
PUDINHIBR7 (0x1C50) Bit 9 | N4 | UHPI_HCNTL1 | SPI_CS1 | Reserved | Reserved | Reserved | Reserved | SPI_CS1 |
PUDINHIBR7 (0x1C50) Bit 10 | P5 | UHPI_HR_NW | SPI_CS2 | Reserved | Reserved | Reserved | Reserved | SPI_CS2 |
PUDINHIBR7 (0x1C50) Bit 11 | N5 | UHPI_HRDY | SPI_CS3 | Reserved | Reserved | Reserved | Reserved | SPI_CS3 |
PUDINHIBR6 (0x1C4F) Bit 7 | B5 | UHPI_HBE0 | EM_DQM0 | EM_DQM0 | EM_DQM0 | EM_DQM0 | EM_DQM0 | EM_D1M0 |
PUDINHIBR6 (0x1C4F) Bit 8 | P1 | UHPI_HBE1 | EM_DQM1 | EM_DQM1 | EM_DQM1 | EM_DQM1 | EM_DQM1 | EM_DQM1 |
PUDINHIBR7 (0x1C50) Bit 3 | A6 | UHPI_HAS | EM_SDRAS | EM_SDRAS | EM_SDRAS | EM_SDRAS | EM_SDRAS | EM_SDRAS |
PUDINHIBR7 (0x1C50) Bit 2 | B4 | UHPI_HCS | EM_SDCAS | EM_SDCAS | EM_SDCAS | EM_SDCAS | EM_SDCAS | EM_SDCAS |
PUDINHIBR7 (0x1C50) Bit 4 | B3 | UHPI_HDS1 | EM_CS0 | EM_CS0 | EM_CS0 | EM_CS0 | EM_CS0 | EM_CS0 |
PUDINHIBR7 (0x1C50) Bit 5 | A4 | UHPI_HDS2 | EM_CS1 | EM_CS1 | EM_CS1 | EM_CS1 | EM_CS1 | EM_CS1 |
PUDINHIBR7 (0x1C50) Bit 1 | N2 | UHPI_HHWIL | EM_SDCKE | EM_SDCKE | EM_SDCKE | EM_SDCKE | EM_SDCKE | EM_SDCKE |
The MMC1, McSPI, and GPIO signal muxing is determined by the value of the SP1MODE bit fields in the External Bus Selection Register (EBSR) register. For more details on the actual pin functions, see Table 4-21.
PUDINHIBR1 REGISTER BIT(1) |
PIN NUMBER | EBSR SP1MODE BITS | ||
---|---|---|---|---|
MODE 0 | MODE 1 | MODE 2 | ||
00 (Reset Default) |
01 | 10 | ||
Bit 8 | M13 | MMC1_CLK | McSPI_CLK | GP[6] |
Bit 9 | L14 | MMC1_CMD | McSPI_CS0 | GP[7] |
Bit 10 | M14 | MMC1_D0 | McSPI_SIMO | GP[8] |
Bit 11 | M12 | MMC1_D1 | McSPI_SOMI | GP[9] |
Bit 12 | K14 | MMC1_D2 | McSPI_CS1 | GP[10] |
Bit 13 | L13 | MMC1_D3 | McSPI_CS2 | GP[11] |
The MMC0, I2S0, McBSP, and GPIO signal muxing is determined by the value of the SP0MODE bit fields in the External Bus Selection Register (EBSR) register. For more details on the actual pin functions, see Table 4-22.
PUDINHIBR1 REGISTER BIT(1) |
PIN NUMBER | EBSR SP0MODE BITS | |||
---|---|---|---|---|---|
MODE 0 | MODE 1 | MODE 2 | MODE 3 | ||
00 (Reset Default) |
01 | 10 | 11 | ||
Bit 0 | L10 | MMC0_CLK | I2S0_CLK | GP[0] | McBSP_CLKX |
Bit 1 | M11 | MMC0_CMD | I2S0_FS | GP[1] | McBSP_FSX |
Bit 2 | L9 | MMC0_D0 | I2S0_DX | GP[2] | McBSP_DX |
Bit 3 | M10 | MMC0_D1 | I2S0_RX | GP[3] | McBSP_DR |
Bit 4 | L12 | MMC0_D2 | GP[4] | GP[4] | McBSP_FSR |
Bit 5 | L11 | MMC0_D3 | GP[5] | GP[5] | McBSP_CLKR_CLKS(2) |
The EMIF Address and GPIO signal muxing is determined by the value of the A20_MODE, A19_MODE, A18_MODE, A17_MODE, A16_MODE, and A15_MODE bit fields in the External Bus Selection Register (EBSR) register. For more details on the actual pin functions, see Table 4-23.
PUDINHIBR2 REGISTER BIT(1) |
PIN NUMBER | Axx_MODE BIT | |
---|---|---|---|
0 | 1 | ||
Bit 0 | N1 | EM_A[15] | GP[21] |
Bit 1 | E2 | EM_A[16] | GP[22] |
Bit 2 | F2 | EM_A[17] | GP[23] |
Bit 3 | G2 | EM_A[18] | GP[24] |
Bit 4 | G4 | EM_A[19] | GP[25] |
Bit 5 | J3 | EM_A[20] | GP[26] |
Table 4-24 lists the signals that are reserved or are not connected on this device.
SIGNAL | TYPE(1)(4) | OTHER(2)(3) | DESCRIPTION | ||||
---|---|---|---|---|---|---|---|
NAME | NO. | ||||||
Reserved | |||||||
RSV0 | C12 | I | – LDOI |
Reserved. For proper device operation, this pin must be tied directly to VSS. | |||
RSV1 | J10 | PWR | Reserved. For proper device operation, this pin must be tied directly to CVDD. | ||||
RSV2 | J11 | PWR | Reserved. For proper device operation, this pin must be tied directly to CVDD. | ||||
RSV3 | D14 | I | – LDOI |
Reserved. For proper device operation, this pin must be tied directly to VSS. | |||
RSV4 | C14 | I | – LDOI |
Reserved. For proper device operation, this pin must be tied directly to VSS. | |||
RSV5 | C13 | I | – LDOI |
Reserved. For proper device operation, this pin must be tied directly to VSS. | |||
RSV16 | D13 | I | – LDOI |
Reserved. For proper device operation, this pin must be tied directly to VSS. |