ADSP-BF525BBCZ-5A(RevPrG) 查看數據表(PDF) - Analog Devices
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ADSP-BF525BBCZ-5A Datasheet PDF : 80 Pages
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Preliminary Technical Data
version 2.1. An I2C multiplexer can be used to select one
processor at a time when booting multiple processors from
a single TWI.
• Boot from UART0 host on Port G (BMODE = 0x7) —
Using an autobaud handshake sequence, a boot-stream for-
matted program is downloaded by the host. The host
selects a bit rate within the UART clocking capabilities.
When performing the autobaud, the UART expects a “@”
(0x40) character (eight bits data, one start bit, one stop bit,
no parity bit) on the UART0RX pin to determine the bit
rate. The UART then replies with an acknowledgement
composed of 4 bytes (0xBF, the value of UART0_DLL, the
value of UART0_DLH, then 0x00). The host can then
download the boot stream. To hold off the host the Blackfin
processor signals the host with the boot host wait
(HWAIT) signal. Therefore, the host must monitor
HWAIT before every transmitted byte.
• Boot from UART1 host on Port F (BMODE = 0x8). Same
as BMODE = 0x7 except that the UART1 port is used.
• Boot from SDRAM (BMODE = 0xA) This is a warm boot
scenario, where the boot kernel starts booting from address
0x0000 0010. The SDRAM is expected to contain a valid
boot stream and the SDRAM controller must be configured
by the OTP settings.
• Boot from OTP memory (BMODE = 0xB) — This provides
a stand-alone booting method. The boot stream is loaded
from on-chip OTP memory. By default, the boot stream is
expected to start from OTP page 0x40 and can occupy all
public OTP memory up to page 0xDF. This is 2560 bytes.
Since the start page is programmable, the maximum size of
the boot stream can be extended to 3072 bytes.
Table 9. Fourth Byte for Large Page Devices
Bit Parameter
Value Meaning
D1:D0 Page Size
00 1K byte
(excluding spare area)
01
2K byte
10 4K byte
11
8K byte
D2 Spare Area Size
00 8 byte/512 byte
01 16 byte/512 byte
D5:D4 Block Size
00 64K byte
(excluding spare area)
01
128K byte
10 256K byte
11
512K byte
D6 Bus width
00 x8
01 not supported
D3, D7 Not Used for configuration
ADSP-BF522/523/524/525/526/527
• Boot from 8-bit external NAND flash memory (BMODE =
0xC and BMODE = 0xD) — In this mode, auto detection of
the NAND flash device is performed.
BMODE = 0xC, the processor configures PORTF GPIO
pins PF7:0 for the NAND data pins and PORTH pins
PH15:10 for the NAND control signals.
BMODE = 0xD, the processor configures PORTH GPIO
pins PH7:0 for the NAND data pins and PORTH pins
PH15:10 for the NAND control signals.
For correct device operation pull-up resistors are required
on both ND_CE (PH10) and ND_BUSY (PH13) signals. By
default, a value of 0x0033 is written to the NFC_CTL regis-
ter. The booting procedure always starts by booting from
byte 0 of block 0 of the NAND flash device.
NAND flash boot supports the following features:
—Device Auto Detection
—Error Detection & Correction for maximum reliability
—No boot stream size limitation
—Peripheral DMA providing efficient transfer of all data
(excluding the ECC parity data)
—Software-configurable boot mode for booting from
boot streams spanning multiple blocks, including bad
blocks
—Software-configurable boot mode for booting from
multiple copies of the boot stream, allowing for han-
dling of bad blocks and uncorrectable errors
—Configurable timing via OTP memory
Small page NAND flash devices must have a 512-byte page
size, 32 pages per block, a 16-byte spare area size, and a bus
configuration of 8 bits. By default, all read requests from
the NAND flash are followed by four address cycles. If the
NAND flash device requires only three address cycles, the
device must be capable of ignoring the additional address
cycles.
The small page NAND flash device must comply with the
following command set:
—Reset: 0xFF
—Read lower half of page: 0x00
—Read upper half of page: 0x01
—Read spare area: 0x50
For large-page NAND-flash devices, the four-byte elec-
tronic signature is read in order to configure the kernel for
booting, which allows support for multiple large-page
devices. The fourth byte of the electronic signature must
comply with the specification in Table 9.
Any NAND flash array configuration from Table 9, exclud-
ing 16-bit devices, that also complies with the command set
listed below are directly supported by the boot kernel.
There are no restrictions on the page size or block size as
imposed by the small-page boot kernel.
Rev. PrG | Page 19 of 80 | February 2009
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