Datasheet
MCF5213 Family Configurations
MCF5213 ColdFire Microcontroller, Rev. 3
Freescale Semiconductor 19
UART 1 UCTS1 SYNCA URXD2 GPIO PDSR[15] PSRR[15] — 98 C3 61
URTS1
SYNCB UTXD2 GPIO PDSR[14] PSRR[14] — 4 B1 2
URXD1 — — GPIO PDSR[13] PSRR[13] — 100 B2 63
UTXD1 — — GPIO PDSR[12] PSRR[12] — 99 A2 62
UART 2 UCTS2
— — GPIO PDSR[27] PSRR[27] — 27 — —
URTS2
— — GPIO PDSR[26] PSRR[26] — 30 — —
URXD2 — — GPIO PDSR[25] PSRR[25] — 28 — —
UTXD2 — — GPIO PDSR[24] PSRR[24] — 29 — —
FlexCAN CANRX
4,11
N/AN/A————
CANTX
4,11
N/AN/A————
VSTBY VSTBY — — — N/A N/A — 55 F8 37
VDD VDD — — — N/A N/A — 1,2,14,22,
23,34,41,
57,68,81,93
D5,E3–E7,
F5
1,10,20,39,5
2
VSS VSS — — — N/A N/A — 3,15,24,25,3
5,42,56,
67,75,82,92
A1,A9,D4,D
6,F4,F6,J1
11,21,38,
53,64
1
The PDSR and PSSR registers are described in the General Purpose I/O chapter. All programmable signals default to 2 mA drive and FAST slew rate in
normal (single-chip) mode.
2
All signals have a pull-up in GPIO mode.
3
These signals are multiplexed on other pins.
4
The multiplexed CANTX and CANRX signals are not available on the MCF5211 or MCF5212.
5
For primary and GPIO functions only.
6
Only when JTAG mode is enabled.
7
CLKMOD0 and CLKMOD1 have internal pull-down resistors; however, the use of external resistors is very strongly recommended.
8
For secondary and GPIO functions only.
9
RSTI has an internal pull-up resistor; however, the use of an external resistor is very strongly recommended.
10
For GPIO function. Primary Function has pull-up control within the GPT module.
11
CANTX and CANRX are secondary functions only.
Table 3. Pin Functions by Primary and Alternate Purpose (continued)
Pin
Group
Primary
Function
Secondary
Function
Tertiary
Function
Quaternary
Function
Drive
Strength /
Control
1
Slew Rate /
Control
1
Pull-up /
Pull-down
2
Pin on
100 LQFP
Pin on 81
MAPBGA
Pin on 64
LQFP/QFN