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LPC2212_08 Datasheet, PDF (14/45 Pages) NXP Semiconductors – 16/32-bit ARM microcontrollers; 128/256 kB ISP/IAP flash with 10-bit ADC and external memory interface
NXP Semiconductors
4.0 GB
3.75 GB
3.5 GB
3.0 GB
LPC2212/2214
16/32-bit ARM microcontrollers
AHB PERIPHERALS
APB PERIPHERALS
RESERVED ADDRESS SPACE
0xFFFF FFFF
0xF000 0000
0xEFFF FFFF
0xE000 0000
0xDFFF FFFF
0xC000 0000
2.0 GB
1.0 GB
BOOT BLOCK (RE-MAPPED FROM
ON-CHIP FLASH MEMORY)
RESERVED ADDRESS SPACE
16 kB ON-CHIP STATIC RAM
0x8000 0000
0x7FFF FFFF
0x7FFF E000
0x7FFF DFFF
0x4000 4000
0x4000 3FFF
0x4000 0000
0x3FFF FFFF
RESERVED ADDRESS SPACE
0.0 GB
256 kB ON-CHIP FLASH MEMORY (LPC2214)
128 kB ON-CHIP FLASH MEMORY (LPC2212)
Fig 3. LPC2212/2214 memory map
0x0004 0000
0x0003 FFFF
0x0002 0000
0x0001 FFFF
0x0000 0000
002aad183
6.5 Interrupt controller
The Vectored Interrupt Controller (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.
The 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.
LPC2212_2214_4
Product data sheet
Rev. 04 — 3 January 2008
© NXP B.V. 2008. All rights reserved.
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