lpc2917 NXP Semiconductors, lpc2917 Datasheet - Page 15
lpc2917
Manufacturer Part Number
lpc2917
Description
Arm9 Microcontroller With Can And Lin
Manufacturer
NXP Semiconductors
Datasheet
1.LPC2917.pdf
(68 pages)
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NXP Semiconductors
LPC2917_19_1
Preliminary data sheet
8.1.2 Description
The flash memory has a 128-bit wide data interface and the flash controller offers two
128-bit buffer lines to improve system performance. The flash has to be programmed
initially via JTAG. In-system programming must be supported by the boot loader.
In-application programming is possible. Flash memory contents can be protected by
disabling JTAG access. Suspension of burning or erasing is not supported.
The key features are:
After reset flash initialization is started, which takes t
initialization flash access is not possible and AHB transfers to flash are stalled, blocking
the AHB bus.
During flash initialization the index sector is read to identify the status of the JTAG access
protection and sector security. If JTAG access protection is active the flash is not
accessible via JTAG. ARM debug facilities are disabled to protect the flash-memory
contents against unwanted reading out externally. If sector security is active only the
concerned sections are read.
Flash can be read synchronously or asynchronously to the system clock. In synchronous
operation the flash goes into standby after returning the read data. Started reads cannot
be stopped, and speculative reading and dual buffering are therefore not supported.
With asynchronous reading, transfer of the address to the flash and of read data from the
flash is done asynchronously, giving the fastest possible response time. Started reads can
be stopped, so speculative reading and dual buffering are supported.
Buffering is offered because the flash has a 128-bit wide data interface while the AHB
interface has only 32 bits. With buffering a buffer line holds the complete 128-bit flash
word, from which four words can be read. Without buffering every AHB data port read
starts a flash read. A flash read is a slow process compared to the minimum AHB cycle
time, so with buffering the average read time is reduced. This can improve system
performance.
With single buffering the most recently read flash word remains available until the next
flash read. When an AHB data-port read transfer requires data from the same flash word
as the previous read transfer, no new flash read is done and the read data is given without
wait cycles.
When an AHB data-port read transfer requires data from a different flash word to that
involved in the previous read transfer, a new flash read is done and wait states are given
until the new read data is available.
With dual buffering a secondary buffer line is used, the output of the flash being
considered as the primary buffer. On a primary buffer hit data can be copied to the
secondary buffer line, which allows the flash to start a speculative read of the next flash
word.
•
•
•
•
Programming by CPU via AHB
Programming by external programmer via JTAG
JTAG access protection
Burn-finished and erase-finished interrupt
Rev. 1.01 — 15 November 2007
ARM9 microcontroller with CAN and LIN
init
time, see
LPC2917/19
Section
© NXP B.V. 2007. All rights reserved.
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