LPC2292_2294 NXP Semiconductors, LPC2292_2294 Datasheet - Page 17

LPC2292_2294

Manufacturer Part Number

LPC2292_2294

Description

The LPC2292/2294 microcontrollers are based on a 16/32-bit ARM7TDMI-S CPU withreal-time emulation and embedded trace support, together with 256 kB of embeddedhigh-speed flash memory

Manufacturer

NXP Semiconductors

Datasheet

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LPC2292_2294

Product data sheet

6.5.1 Interrupt sources

6.5 Interrupt controller

The VIC accepts all of the interrupt request inputs and categorizes them as Fast Interrupt

Request (FIQ), vectored Interrupt Request (IRQ), and non-vectored IRQ as defined by

programmable settings. The programmable assignment scheme means that priorities of

interrupts from the various peripherals can be dynamically assigned and adjusted.

FIQ has the highest priority. If more than one request is assigned to FIQ, the VIC

combines the requests to produce the FIQ signal to the ARM processor. The fastest

possible FIQ latency is achieved when only one request is classified as FIQ, because then

the FIQ service routine can simply start dealing with that device. But if more than one

request is assigned to the FIQ class, the FIQ service routine can read a word from the VIC

that identifies which FIQ source(s) is (are) requesting an interrupt.

Vectored IRQs have the middle priority. Sixteen of the interrupt requests can be assigned

to this category. Any of the interrupt requests can be assigned to any of the 16 vectored

IRQ slots, among which slot 0 has the highest priority and slot 15 has the lowest.

Non-vectored IRQs have the lowest priority.

The VIC combines the requests from all the vectored and non-vectored IRQs to produce

the IRQ signal to the ARM processor. The IRQ service routine can start by reading a

VIC provides the address of the highest-priority requesting IRQs service routine,

otherwise it provides the address of a default routine that is shared by all the non-vectored

IRQs. The default routine can read another VIC register to see what IRQs are active.

Table 5

one interrupt line connected to the VIC, but may have several internal interrupt flags.

Individual interrupt flags may also represent more than one interrupt source.

Table 5.

Block

WDT

ARM Core

Timer 0

Timer 1

UART0

lists the interrupt sources for each peripheral function. Each peripheral device has

Interrupt sources

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

Flag(s)

Watchdog Interrupt (WDINT)

Reserved for software interrupts only

EmbeddedICE, DbgCommRx

EmbeddedICE, DbgCommTx

Match 0 to 3 (MR0, MR1, MR2, MR3)

Capture 0 to 3 (CR0, CR1, CR2, CR3)

Match 0 to 3 (MR0, MR1, MR2, MR3)

Capture 0 to 3 (CR0, CR1, CR2, CR3)

RX Line Status (RLS)

Transmit Holding Register Empty (THRE)

RX Data Available (RDA)

Character Time-out Indicator (CTI)

Auto-baud time-out (ABTO)

16/32-bit ARM microcontrollers with external memory interface

Rev. 8 — 8 June 2011

[1]

End of auto-baud (ABEO)

LPC2292/2294

[1]

VIC channel #

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LPC2292_2294

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