LM3S5632 Luminary Micro, Inc, LM3S5632 Datasheet - Page 66

LM3S5632

Manufacturer Part Number

LM3S5632

Description

Lm3s5632 Arm Microcontroller

Manufacturer

Luminary Micro, Inc

Datasheet

1.LM3S5632.pdf (685 pages)

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System Control

6.1.3

6.1.3.1

6.1.3.2

6.1.4

6.1.5

6.1.5.1

The watchdog reset timing is shown in Figure 22-13 on page 641.

Non-Maskable Interrupt

The controller has two sources of non-maskable interrupt (NMI):

■

If both sources of NMI are enabled, software must check that the main oscillator verification is the

cause of the interrupt in order to distinguish between the two sources.

NMI Pin

The alternate function to GPIO port pin B7 is an NMI signal. The alternate function must be enabled

in the GPIO for the signal to be used as an interrupt, as described in “General-Purpose Input/Outputs

(GPIOs)” on page 238. Note that enabling the NMI alternate function requires the use of the GPIO

lock and commit function just like the GPIO port pins associated with JTAG/SWD functionality. The

active sense of the NMI signal is High; asserting the enabled NMI signal above V

interrupt sequence.

Main Oscillator Verification Failure

The main oscillator verification circuit may generate a reset event and then, during the subsequent

POR, control is transferred to the NMI handler. The detection circuit is enabled using the CVAL bit

in the Main Oscillator Control (MOSCCTL) register. The main oscillator verification error is indicated

in the main oscillator fail status bit (MOSCFAIL bit in the Reset Cause (RESC) register. The main

oscillator verification circuit action is described in more detail in “Clock Control” on page 66.

Power Control

The Stellaris

power to the majority of the controller's internal logic. The LDO regulator provides software a

mechanism to adjust the regulated value, in small increments (VSTEP), over the range of 2.25 V

to 2.75 V (inclusive)—or 2.5 V ± 10%. The adjustment is made by changing the value of the VADJ

field in the LDO Power Control (LDOPCTL) register.

Note:

Clock Control

System control determines the control of clocks in this part.

Fundamental Clock Sources

There are four clock sources for use in the device:

■

The assertion of the NMI signal.

A main oscillator verification error.

Internal Oscillator (IOSC): The internal oscillator is an on-chip clock source. It does not require

the use of any external components. The frequency of the internal oscillator is 12 MHz ± 30%.

Applications that do not depend on accurate clock sources may use this clock source to reduce

system cost. The internal oscillator is the clock source the device uses during and following POR.

If the main oscillator is required, software must enable the main oscillator following reset and

allow the main oscillator to stabilize before changing the clock reference.

On the printed circuit board, use the LDO output as the source of VDD25 input. In addition,

the LDO requires decoupling capacitors. See “On-Chip Low Drop-Out (LDO) Regulator

Characteristics” on page 631.

microcontroller provides an integrated LDO regulator that may be used to provide

Preliminary

initiates the NMI

June 02, 2008

LM3S5632 Luminary Micro, Inc, LM3S5632 Datasheet - Page 66

LM3S5632

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