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ADSP-BF523 Datasheet(PDF) 6 Page - Analog Devices

No. de pieza ADSP-BF523
Descripción Electrónicos  Blackfin Embedded Processor
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ADSP-BF523 Datasheet(HTML) 6 Page - Analog Devices

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Rev. PrG
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Page 6 of 80
|
February 2009
ADSP-BF522/523/524/525/526/527
Preliminary Technical Data
The SDRAM controller can be programmed to interface to up
to 128M bytes of SDRAM. A separate row can be open for each
SDRAM internal bank and the SDRAM controller supports up
to 4 internal SDRAM banks, improving overall performance.
The asynchronous memory controller can be programmed to
control up to four banks of devices with very flexible timing
parameters for a wide variety of devices. Each bank occupies a
1M byte segment regardless of the size of the devices used, so
that these banks are only contiguous if each is fully populated
with 1M byte of memory.
NAND Flash Controller (NFC)
The ADSP-BF522/524/526 and ADSP-BF523/525/527 proces-
sors provide a NAND flash controller (NFC). NAND flash
devices provide high-density, low-cost memory. However,
NAND flash devices also have long random access times, invalid
blocks, and lower reliability over device lifetimes. Because of
this, NAND flash is often used for read-only code storage. In
this case, all DSP code can be stored in NAND flash and then
transferred to a faster memory (such as SDRAM or SRAM)
before execution. Another common use of NAND flash is for
storage of multimedia files or other large data segments. In this
case, a software file system may be used to manage reading and
writing of the NAND flash device. The file system selects mem-
ory segments for storage with the goal of avoiding bad blocks
and equally distributing memory accesses across all address
locations. Hardware features of the NFC include:
• Support for page program, page read, and block erase of
NAND flash devices, with accesses aligned to page
boundaries.
• Error checking and correction (ECC) hardware that facili-
tates error detection and correction.
• A single 8-bit external bus interface for commands,
addresses and data.
• Support for SLC (single level cell) NAND flash devices
unlimited in size, with page sizes of 256 and 512 bytes.
Larger page sizes can be supported in software.
• Capability of releasing external bus interface pins during
long accesses.
• Support for internal bus requests of 16-bits
• DMA engine to transfer data between internal memory and
NAND flash device.
One-Time Programmable Memory
The processor has 64K bits of one-time programmable non-vol-
atile memory that can be programmed by the developer only
one time. It includes the array and logic to support read access
and programming. Additionally, its pages can be write
protected.
OTP enables developers to store both public and private data
on-chip. In addition to storing public and private key data for
applications requiring security, it also allows developers to store
completely user-definable data such as customer ID, product
ID, MAC address, etc. Hence generic parts can be shipped
which are then programmed and protected by the developer
within this non-volatile memory.
I/O Memory Space
The processor does not define a separate I/O space. All
resources are mapped through the flat 32-bit address space. On-
chip I/O devices have their control registers mapped into mem-
ory-mapped registers (MMRs) at addresses near the top of the
4G byte address space. These are separated into two smaller
blocks, one which contains the control MMRs for all core func-
tions, and the other which contains the registers needed for
setup and control of the on-chip peripherals outside of the core.
The MMRs are accessible only in supervisor mode and appear
as reserved space to on-chip peripherals.
Booting
The processor contains a small on-chip boot kernel, which con-
figures the appropriate peripheral for booting. If the processor is
configured to boot from boot ROM memory space, the proces-
sor starts executing from the on-chip boot ROM. For more
information, see Booting Modes on Page 18.
Event Handling
The event controller on the processor handles all asynchronous
and synchronous events to the processor. The processor pro-
vides event handling that supports both nesting and
prioritization. Nesting allows multiple event service routines to
be active simultaneously. Prioritization ensures that servicing of
a higher-priority event takes precedence over servicing of a
lower-priority event. The controller provides support for five
different types of events:
• Emulation – An emulation event causes the processor to
enter emulation mode, allowing command and control of
the processor via the JTAG interface.
• RESET – This event resets the processor.
• Nonmaskable Interrupt (NMI) – The NMI event can be
generated by the software watchdog timer or by the NMI
input signal to the processor. The NMI event is frequently
used as a power-down indicator to initiate an orderly shut-
down of the system.
• Exceptions – Events that occur synchronously to program
flow (in other words, the exception is taken before the
instruction is allowed to complete). Conditions such as
data alignment violations and undefined instructions cause
exceptions.
• Interrupts – Events that occur asynchronously to program
flow. They are caused by input signals, timers, and other
peripherals, as well as by an explicit software instruction.
Each event type has an associated register to hold the return
address and an associated return-from-event instruction. When
an event is triggered, the state of the processor is saved on the
supervisor stack.
The processor event controller consists of two stages, the core
event controller (CEC) and the system interrupt controller
(SIC). The core event controller works with the system interrupt


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