SPNS180B September 2012 – June 2015 RM42L432
PRODUCTION DATA.
デバイスごとのパッケージ図は、PDF版データシートをご参照ください。
Figure 4-1 shows the 100-pin PZ QFP package pinout.
Note: Pins can have multiplexed functions. Only the default function is depicted in Figure 4-1.
Table 4-1 through Table 4-16 identify the external signal names, the associated pin numbers along with the mechanical package designator, the pin type (Input, Output, I/O, Power, or Ground), whether the pin has any internal pullup/pulldown, whether the pin can be configured as a GPIO, and a functional pin description.
NOTE
In the Terminal Functions table below, the "Reset Pull State" is the state of the pull applied to the terminal while nPORRST is low and immediately after nPORRST goes High. The default pull direction may change when software configures the pin for an alternate function. The "Pull Type" is the type of pull asserted when the signal name in bold is enabled for the given terminal by the IOMM control registers.
All I/O signals except nRST are configured as inputs while nPORRST is low and immediately after nPORRST goes High. While nPORRST is low, the input buffers are disabled, and the output buffers are disabled with the default pulls enabled.
All output-only signals have the output buffer disabled and the default pull enabled while nPORRST is low, and are configured as outputs with the pulls disabled immediately after nPORRST goes High.
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
N2HET[0] | 19 | I/O | Pulldown | Programmable, 20 µA | Timer input capture or output compare. The N2HET applicable terminals can be programmed as general-purpose input/output (GPIO). Each terminal has a suppression filter with a programmable duration. |
N2HET[2] | 22 | ||||
N2HET[4] | 25 | ||||
N2HET[6] | 26 | ||||
N2HET[8] | 74 | ||||
N2HET[10] | 83 | ||||
N2HET[12] | 89 | ||||
N2HET[14] | 90 | ||||
N2HET[16] | 97 | ||||
MIBSPI1nCS[1]/EQEPS/ N2HET[17] |
93 | ||||
N2HET[18] | 98 | ||||
MIBSPI1nCS[2]/N2HET[20]/ N2HET[19] |
27 | ||||
MIBSPI1nCS[2]/N2HET[20]/ N2HET[19] |
27 | ||||
N2HET[22] | 11 | ||||
N2HET[24] | 64 | ||||
MIBSPI1nCS[3]/N2HET[26] | 39 | ||||
ADEVT/N2HET[28] | 58 | ||||
GIOA[7]/N2HET[29] | 18 | ||||
MIBSPI1nENA/N2HET[23]/ N2HET[30] |
68 | ||||
GIOA[6]/SPI2nCS[1]/N2HET[31] | 12 |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
SPI3CLK/EQEPA | 36 | Input | Pullup | Fixed 20 µA | Enhanced QEP Input A |
SPI3nENA/EQEPB | 37 | Input | Enhanced QEP Input B | ||
SPI3nCS[0]/EQEPI | 38 | I/O | Enhanced QEP Index | ||
MIBSPI1nCS[1]/EQEPS/N2HET[17] | 93 | I/O | Enhanced QEP Strobe |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
GIOA[0]/SPI3nCS[3] | 1 | I/O | Pulldown | Programmable, 20 µA | General-purpose input/output All GPIO terminals can generate interrupts to the CPU on rising/falling/both edges. |
GIOA[1]/SPI3nCS[2] | 2 | ||||
GIOA[2]/SPI3nCS[1] | 5 | ||||
GIOA[3]/SPI2nCS[3] | 8 | ||||
GIOA[4]/SPI2nCS[2] | 9 | ||||
GIOA[5]/EXTCLKIN | 10 | ||||
GIOA[6]/SPI2nCS[1]/N2HET[31] | 12 | ||||
GIOA[7]/N2HET[29] | 18 |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
CAN1RX | 63 | I/O | Pullup | Programmable, 20 µA | CAN1 Receive, or general-purpose I/O (GPIO) |
CAN1TX | 62 | CAN1 Transmit, or GPIO | |||
CAN2RX | 92 | CAN2 Receive, or GPIO | |||
CAN2TX | 91 | CAN2 Transmit, or GPIO |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
MIBSPI1CLK | 67 | I/O | Pullup | Programmable, 20 µA | MibSPI1 Serial Clock, or GPIO |
MIBSPI1nCS[0] | 73 | MibSPI1 Chip Select, or GPIO | |||
MIBSPI1nCS[1]/EQEPS/N2HET[17] | 93 | ||||
MIBSPI1nCS[2]/N2HET[20]/N2HET[19] | 27 | ||||
MIBSPI1nCS[3]/N2HET[26] | 39 | ||||
MIBSPI1nENA/N2HET[23]/N2HET[30] | 68 | MibSPI1 Enable, or GPIO | |||
MIBSPI1SIMO | 65 | MibSPI1 Slave-In-Master-Out, or GPIO | |||
MIBSPI1SOMI | 66 | MibSPI1 Slave-Out-Master-In, or GPIO |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
SPI2CLK | 71 | I/O | Pullup | Programmable, 20 µA | SPI2 Serial Clock, or GPIO |
SPI2nCS[0] | 23 | SPI2 Chip Select, or GPIO | |||
GIOA[6]/SPI2nCS[1]/N2HET[31] | 12 | ||||
GIOA[4]/SPI2nCS[2] | 9 | ||||
GIOA[3]/SPI2nCS[3] | 8 | ||||
SPI2SIMO | 70 | SPI2 Slave-In-Master-Out, or GPIO | |||
SPI2SOMI | 69 | SPI2 Slave-Out-Master-In, or GPIO | |||
The drive strengths for the SPI2CLK, SPI2SIMO, and SPI2SOMI signals are selected individually by configuring the respective SRS bits of the SPIPC9 register fo SPI2. SRS = 0 for 8-mA drive (fast). This is the default mode as the SRS bits in the SPIPC9 register default to 0. SRS = 1 for 2-mA drive (slow) |
|||||
SPI3CLK/EQEPA | 36 | I/O | Pullup | Programmable, 20 µA | SPI3 Serial Clock, or GPIO |
SPI3nCS[0]/EQEPI | 38 | SPI3 Chip Select, or GPIO | |||
GIOA[2]/SPI3nCS[1] | 5 | ||||
GIOA[1]/SPI3nCS[2] | 2 | ||||
GIOA[0]/SPI3nCS[3] | 1 | ||||
SPI3nENA/EQEPB | 37 | SPI3 Enable, or GPIO | |||
SPI3SIMO | 35 | SPI3 Slave-In-Master-Out, or GPIO | |||
SPI3SOMI | 34 | SPI3 Slave-Out-Master-In, or GPIO |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
LINRX | 94 | I/O | Pullup | Programmable, 20 µA | LIN Receive, or GPIO |
LINTX | 95 | LIN Transmit, or GPIO |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
ADEVT/N2HET[28] | 58 | I/O | Pullup | Programmable, 20 µA | ADC event trigger or GPIO |
ADIN[0] | 42 | Input | N/A | None | Analog inputs |
ADIN[1] | 49 | ||||
ADIN[2] | 51 | ||||
ADIN[3] | 52 | ||||
ADIN[4] | 54 | ||||
ADIN[5] | 55 | ||||
ADIN[6] | 56 | ||||
ADIN[7] | 43 | ||||
ADIN[8] | 57 | ||||
ADIN[9] | 48 | ||||
ADIN[10] | 50 | ||||
ADIN[11] | 53 | ||||
ADIN[16] | 40 | ||||
ADIN[17] | 41 | ||||
ADIN[20] | 44 | ||||
ADIN[21] | 45 | ||||
VCCAD/ADREFHI | 46 | Input/Power | N/A | None | ADC high reference level/ADC operating supply |
VSSAD/ADREFLO | 47 | Input/Ground | N/A | None | ADC low reference level/ADC supply ground |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
ECLK | 84 | I/O | Pulldown | Programmable, 20 µA | External prescaled clock output, or GPIO. |
GIOA[5]/EXTCLKIN | 10 | Input | Pulldown | 20 µA | External Clock In |
nPORRST | 31 | Input | Pulldown | 100 µA | Power-on reset, cold reset External power supply monitor circuitry must drive nPORRST low when any of the supplies to the microcontroller fall out of the specified range. This terminal has a glitch filter. |
nRST | 81 | I/O | Pullup | 100 µA | The external circuitry can assert a system reset by driving nRST low. To ensure that an external reset is not arbitrarily generated, TI recommends that an external pullup resistor is connected to this terminal. This terminal has a glitch filter. |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
nERROR | 82 | I/O | Pulldown | 20 µA | ESM error signal. Indicates error of high severity. |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
OSCIN | 14 | Input | N/A | None | From external crystal/resonator, or external clock input |
OSCOUT | 16 | Output | N/A | None | To external crystal/resonator |
KELVIN_GND | 15 | Input | N/A | None | Dedicated ground for oscillator |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
nTRST | 76 | Input | Pulldown | Fixed, 100 µA | JTAG test hardware reset |
RTCK | 80 | Output | N/A | None | JTAG return test clock |
TCK | 79 | Input | Pulldown | Fixed, 100 µA | JTAG test clock |
TDI | 77 | I/O | Pullup | Fixed, 100 µA | JTAG test data in |
TDO | 78 | Output | Fixed, 100-µA Pulldown | None | JTAG test data out |
TMS | 75 | I/O | Pullup | Fixed, 100 µA | JTAG test select |
TEST | 24 | I/O | Pulldown | Fixed, 100 µA | Test enable. This terminal must be connected to ground directly or through a pulldown resistor. |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
FLTP1 | 3 | Input | N/A | None | Flash test pins. For proper operation this terminal must connect only to a test pad or not be connected at all [no connect (NC)]. The test pad must not be exposed in the final product where it might be subjected to an ESD event. |
FLTP2 | 4 | Input | N/A | None | |
VCCP | 96 | 3.3-V Power | N/A | None | Flash external pump voltage (3.3 V). This terminal is required for both flash read and flash program and erase operations. |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
VCC | 13 | 1.2-V Power | N/A | None | Digital logic and RAM supply |
VCC | 21 | ||||
VCC | 30 | ||||
VCC | 32 | ||||
VCC | 61 | ||||
VCC | 88 | ||||
VCC | 99 |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
VCCIO | 6 | 3.3-V Power | N/A | None | I/O supply |
VCCIO | 28 | ||||
VCCIO | 60 | ||||
VCCIO | 85 |
TERMINAL | SIGNAL TYPE | RESET PULL STATE | PULL TYPE | DESCRIPTION | |
---|---|---|---|---|---|
SIGNAL NAME | 100 PZ | ||||
VSS | 7 | Ground | N/A | None | Device Ground Reference. This is a single ground reference for all supplies except for the ADC supply. |
VSS | 17 | ||||
VSS | 20 | ||||
VSS | 29 | ||||
VSS | 33 | ||||
VSS | 59 | ||||
VSS | 72 | ||||
VSS | 86 | ||||
VSS | 87 | ||||
VSS | 100 |
Output multiplexing will be used in the device. The multiplexing is used to allow development of additional package and feature combinations as well as to maintain pinout compatibility with the marketing device family.
In all cases indicated as multiplexed, the output buffers are multiplexed.
Table 4-17 shows the output signal multiplexing and control signals for selecting the desired functionality for each pin.
For example, consider the multiplexing on pin 18, shown in Table 4-18 .
100 PZ PIN | DEFAULT FUNCTION |
CONTROL 1 | OPTION2 | CONTROL 2 | OPTION 3 | CONTROL 3 |
---|---|---|---|---|---|---|
1 | GIOA[0] | PINMMR0[8] | SPI3nCS[3] | PINMMR0[9] | – | – |
2 | GIOA[1] | PINMMR1[0] | SPI3nCS[2] | PINMMR1[1] | – | – |
5 | GIOA[2] | PINMMR1[8] | SPI3nCS[1] | PINMMR1[9] | – | – |
8 | GIOA[3] | PINMMR1[16] | SPI2nCS[3] | PINMMR1[17] | – | – |
9 | GIOA[4] | PINMMR1[24] | SPI2nCS[2] | PINMMR1[25] | – | – |
10 | GIOA[5] | PINMMR2[0] | EXTCLKIN | PINMMR2[1] | – | – |
12 | GIOA[6] | PINMMR2[8] | SPI2nCS[1] | PINMMR2[9] | N2HET[31] | PINMMR2[10] |
18 | GIOA[7] | PINMMR2[16] | N2HET[29] | PINMMR2[17] | – | – |
93 | MIBSPI1nCS[1] | PINMMR6[8] | EQEPS | PINMMR6[9] | N2HET[17] | PINMMR6[10] |
27 | MIBSPI1nCS[2] | PINMMR3[0] | N2HET[20] | PINMMR3[1] | N2HET[19] | PINMMR3[2] |
39 | MIBSPI1nCS[3] | PINMMR4[8] | N2HET[26] | PINMMR4[9] | – | – |
68 | MIBSPI1nENA | PINMMR5[8] | N2HET[23] | PINMMR5[9] | N2HET[30] | PINMMR5[10] |
36 | SPI3CLK | PINMMR3[16] | EQEPA | PINMMR3[17] | – | – |
38 | SPI3nCS[0] | PINMMR4[0] | EQEPI | PINMMR4[1] | – | – |
37 | SPI3nENA | PINMMR3[24] | EQEPB | PINMMR3[25] | – | – |
58 | ADEVT | PINMMR4[16] | N2HET[28] | PINMMR4[17] | – | – |
100 PZ PIN | DEFAULT FUNCTION |
CONTROL 1 | OPTION2 | CONTROL 2 | OPTION 3 | CONTROL 3 |
---|---|---|---|---|---|---|
18 | GIOA[7] | PINMMR2[16] | N2HET[29] | PINMMR2[17] | – | – |
Special controls are implemented to affect particular functions on this microcontroller. These controls are described in this section.