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Note: In addition to the Hibernation signals that are part of the Hibernation Module, GPIO pins

K[7:4] can be configured as external wake sources. Refer to “Waking from

Hibernate” on page 576 for more information.

Note: Port pins PM[7:4] operate as Fast GPIO pads but support only 2-, 4-, 6-, and 8-mA drive

capability. 10- and 12-mA drive are not supported. All standard GPIO register controls,

except for the GPIODR12R register, apply to these port pins. Refer to “General-Purpose

Input/Outputs (GPIOs)” on page 771 and “Recommended GPIO Operating

Characteristics” on page 2103 for more information.

Table 7-1. Hibernate Signals (212BGA)

DescriptionBuffer TypePin TypePin Mux / Pin

Assignment

Pin NumberPin Name

GND for the Hibernation oscillator. When using a

crystal clock source, this pin should be connected

to digital ground along with the crystal load

capacitors. When using an external oscillator, this

pin should be connected to digital ground.

Power-fixedR18GNDX

An output that indicates the processor is in

Hibernate mode.

TTLOfixedM17HIB

Buffered version of the Hibernation module's

32.768-kHz clock. This signal is not output when

the part is in Hibernate mode and before being

configured after power-on reset.

TTLOPC5 (7)

PK7 (5)

PP3 (7)

W16

C12

RTCCLK

Tamper signal 0.TTLI/OPM7N18TMPR0

Tamper signal 1.TTLI/OPM6N19TMPR1

Tamper signal 2.TTLI/OPM5G15TMPR2

Tamper signal 3.TTLI/OPM4M18TMPR3

Power source for the Hibernation module. It is

normally connected to the positive terminal of a

battery and serves as the battery

backup/Hibernation module power-source supply.

Power-fixedP19VBAT

An external input that brings the processor out of

Hibernate mode when asserted.

TTLIfixedU18WAKE

Hibernation module oscillator crystal input or an

external clock reference input. Note that this is

either a crystal or a 32.768-kHz oscillator for the

Hibernation module RTC.

AnalogIfixedT18XOSC0

Hibernation module oscillator crystal output. Leave

unconnected when using a single-ended clock

source.

AnalogOfixedT19XOSC1

7.3 Functional Description

The Hibernation module provides two mechanisms for power control:

■ The first mechanism uses internal switches to control power to the Cortex-M4F as well as to

most analog and digital functions while retaining I/O pin power (VDD3ON mode).

■ The second mechanism controls the power to the microcontroller with a control signal (HIB) that

signals an external voltage regulator to turn on or off.

The Hibernation module power source is supplied by V

as long as it is within a valid range, even

if V

BAT

. The Hibernation module also has an independent clock source to maintain a real-time

December 13, 2013564

Texas Instruments-Advance Information

Hibernation Module