LPC2212_2214 NXP Semiconductors, LPC2212_2214 Datasheet - Page 24

LPC2212_2214

Manufacturer Part Number

LPC2212_2214

Description

The LPC2212/2214 are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulationand embedded trace support, together with 128/256 kB of embedded high-speed flashmemory

Manufacturer

NXP Semiconductors

Datasheet

1.LPC2212_2214.pdf (47 pages)

Current page: 24 of 47
Download datasheet (338Kb)

NXP Semiconductors

LPC2212_2214

Product data sheet

6.18.6 Memory mapping control

6.18.7 Power control

6.18.8 APB

6.19.1 EmbeddedICE

6.19 Emulation and debugging

The Memory Mapping Control alters the mapping of the interrupt vectors that appear

beginning at address 0x0000 0000. Vectors may be mapped to the bottom of the on-chip

flash memory, or to the on-chip static RAM. This allows code running in different memory

spaces to have control of the interrupts.

The LPC2212/2214 support two reduced power modes: Idle mode and Power-down

mode. In Idle mode, execution of instructions is suspended until either a Reset or interrupt

occurs. Peripheral functions continue operation during Idle mode and may generate

interrupts to cause the processor to resume execution. Idle mode eliminates power used

by the processor itself, memory systems and related controllers, and internal buses.

In Power-down mode, the oscillator is shut down and the chip receives no internal clocks.

The processor state and registers, peripheral registers, and internal SRAM values are

preserved throughout Power-down mode and the logic levels of chip output pins remain

static. The Power-down mode can be terminated and normal operation resumed by either

a Reset or certain specific interrupts that are able to function without clocks. Since all

dynamic operation of the chip is suspended, Power-down mode reduces chip power

consumption to nearly zero.

A Power Control for Peripherals feature allows individual peripherals to be turned off if

they are not needed in the application, resulting in additional power savings.

The APB divider determines the relationship between the processor clock (CCLK) and the

clock used by peripheral devices (PCLK). The APB divider serves two purposes. The first

is to provide peripherals with the desired PCLK via APB so that they can operate at the

speed chosen for the ARM processor. In order to achieve this, the APB may be slowed

down to

power-up (and its timing cannot be altered if it does not work since the APB divider control

registers reside on the APB), the default condition at reset is for the APB to run at

processor clock rate. The second purpose of the APB divider is to allow power savings

when an application does not require any peripherals to run at the full processor rate.

Because the APB divider is connected to the PLL output, the PLL remains active (if it was

running) during Idle mode.

The LPC2212/2214 support emulation and debugging via a JTAG serial port. A trace port

allows tracing program execution. Debugging and trace functions are multiplexed only

with GPIOs on Port 1. This means that all communication, timer and interface peripherals

residing on Port 0 are available during the development and debugging phase as they are

when the application is run in the embedded system itself.

Standard ARM EmbeddedICE logic provides on-chip debug support. The debugging of

the target system requires a host computer running the debugger software and an

EmbeddedICE protocol convertor. EmbeddedICE protocol convertor converts the Remote

Debug Protocol commands to the JTAG data needed to access the ARM core.

⁄

All information provided in this document is subject to legal disclaimers.

of the processor clock rate. Because the APB bus must work properly at

Rev. 5 — 14 June 2011

Single-chip 16/32-bit ARM microcontrollers

LPC2212/2214

⁄

24 of 47

of the

LPC2212_2214 NXP Semiconductors, LPC2212_2214 Datasheet - Page 24

LPC2212_2214

Related parts for LPC2212_2214