LM3S608 Datasheet, PDF(56/416 Page) List of Unclassifed Manufacturers – Microcontroller

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

LM3S608 Datasheet, PDF (56/416 Pages) List of Unclassifed Manufacturers – Microcontroller

◁

System Control

6.1.5

6.2

System Control

For power-savings purposes, the RCGCn , SCGCn , and DCGCn registers control the clock gating

logic for each peripheral or block in the system while the controller is in Run, Sleep, and Deep-Sleep

mode, respectively. The DC1 , DC2 and DC4 registers act as a write mask for the RCGCn , SCGCn,

and DCGCn registers.

In Run mode, the controller is actively executing code. In Sleep mode, the clocking of the device is

unchanged but the controller no longer executes code (and is no longer clocked). In Deep-Sleep

mode, the clocking of the device may change (depending on the Run mode clock configuration)

and the controller no longer executes code (and is no longer clocked). An interrupt returns the device

to Run mode from one of the sleep modes. Each mode is described in more detail in this section.

There are four levels of operation for the device defined as:

â Run Mode. Run mode provides normal operation of the processor and all of the peripherals that

are currently enabled by the RCGCn registers. The system clock can be any of the available

clock sources including the PLL.

â Sleep Mode. Sleep mode is entered by the Cortex-M3 core executing a WFI (Wait for

Interrupt) instruction. Any properly configured interrupt event in the system will bring the

processor back into Run mode. See the system control NVIC section of the ARMÂ® Cortexâ¢-M3

Technical Reference Manual for more details.

In Sleep mode, the Cortex-M3 processor core and the memory subsystem are not clocked.

Peripherals are clocked that are enabled in the SCGCn register when auto-clock gating is enabled

(see the RCC register) or the RCGCn register when the auto-clock gating is disabled. The system

clock has the same source and frequency as that during Run mode.

â Deep-Sleep Mode. Deep-Sleep mode is entered by first writing the Deep Sleep Enable bit in

the ARM Cortex-M3 NVIC system control register and then executing a WFI instruction. Any

properly configured interrupt event in the system will bring the processor back into Run mode.

See the system control NVIC section of the ARMÂ® Cortexâ¢-M3 Technical Reference Manual

for more details.

The Cortex-M3 processor core and the memory subsystem are not clocked. Peripherals are

clocked that are enabled in the DCGCn register when auto-clock gating is enabled (see the RCC

register) or the RCGCn register when auto-clock gating is disabled. The system clock source is

the main oscillator by default or the internal oscillator specified in the DSLPCLKCFG register if

one is enabled. When the DSLPCLKCFG register is used, the internal oscillator is powered up,

if necessary, and the main oscillator is powered down. If the PLL is running at the time of the

WFI instruction, hardware will power the PLL down and override the SYSDIV field of the active

RCC register to be /16 or /64, respectively. When the Deep-Sleep exit event occurs, hardware

brings the system clock back to the source and frequency it had at the onset of Deep-Sleep

mode before enabling the clocks that had been stopped during the Deep-Sleep duration.

Initialization and Configuration

The PLL is configured using direct register writes to the RCC register. The steps required to

successfully change the PLL-based system clock are:

1. Bypass the PLL and system clock divider by setting the BYPASS bit and clearing the USESYS

bit in the RCC register. This configures the system to run off a ârawâ clock source (using the

main oscillator or internal oscillator) and allows for the new PLL configuration to be validated

before switching the system clock to the PLL.

56

October 01, 2007

Preliminary

▷