MOTOROLA MCF5249PB

Freescale Semiconductor, Inc.
Product Brief
MCF5249PB/D
Rev. 0, 3/2002
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MCF5249 Integrated
ColdFire® Microprocessor
Product Brief
This document provides an overview of the MCF5249 ColdFire® processor and general
descriptions of MCF5249 features and modules.
The MCF5249 was designed as a system controller/decoder for MP3 music players, especially
portable MP3 CD players. The 32-bit ColdFire core with Enhanced Multiply Accumulate
(EMAC) unit provides optimum performance and code density for the combination of control
code and signal processing required for MP3 decode, file management, and system control.
Low power features include a hardwired CD ROM decoder, advanced 0.18um CMOS process
technology, 1.8V core power supply, and on-chip 96 Kbyte SRAM. MP3 decode requires less
than 20 MHz CPU bandwidth and runs in on-chip SRAM with external access only for data
input and output.
The MCF5249 is also an excellent general purpose system controller with over 125
Dhrystone 2.1 MIPS @ 140 MHz performance at a very competitive price. The integrated
peripherals and EMAC allow the MCF5249 to replace both the microcontroller and the DSP
in certain applications. Most peripheral pins can also be remapped as general-purpose I/O
pins.
1.1
MCF5249 Features: Introduction
The MCF5249 integrated microprocessor combines a Version 2 ColdFire® processor core
operating at 140 MHz with the following modules:
•
DMA controller with 4 DMA channels
•
Integrated Enhanced Multiply-accumulate Unit (EMAC)
•
8-Kbyte Direct Mapped Instruction Cache
•
96-Kbyte SRAM (a 64K and 32K bank)
•
Operates from external crystal oscillator
•
Supports 16-bit wide SDRAM memories
•
Serial Audio Interface which supports IIS and EIAJ audio protocols
•
Digital audio transmitter and two receivers compliant with IEC958 audio protocol
•
CD-ROM and CD-ROM XA block decoding and encoding function
•
Two UARTs
•
Queued Serial Peripheral Interface (QSPI) (Master Only)
•
Two timers
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MCF5249 Block Diagram
•
IDE and SmartMedia interfaces
•
Analog/Digital Converter
•
Flash Memory Card Interface
•
Two I2C modules
•
System debug support
•
General Purpose I/O pins shared with other functions
•
1.8V core, 3.3V I/O
•
160 pin MAPBGA package (qualified at 140 MHz) and 144 pin QFP package (qualified at 120
MHz)
1.2
MCF5249 Block Diagram
Figure 1 shows the block diagram of the MCF5249.
2
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MCF5249 Block Diagram
Standard ColdFire Peripheral Blocks
Debug
Module w/
JTAG
DMA
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Instruction
Cache
SRAM1
(160 BGA
140 MHz)
SRAM0
(144 QFP
120 MHz)
64K
32K
Timer
Support
I2C
I2C
Interface
Dual
UART
UART
Interface
5x08
Interrupt
ColdFire
V2 Core
Timer
5x08
Arbiter
S/DRAM
Interface
MUX
(S)DRAM
SRAM
IDE
External
Bus
IDE
SmartMedia
Clock
Multiplied
PLL
IDE-IORDY
SWE
SRE
Translator
Interrupt
Controller
QSPI
Interface
Audio
Interfaces
ADC
Flash Memory/
Card
Interface
BufEn_b1
BufEn_b2
IDE-DIOR
IDE-DIOW
QSPI_Din
QSPI_Dout
QSPI_CS[3:0]
QSPI_CLK
Serial Audio
Interface
ebuin3_adin0_gpi38
ebuin4_adin1_gpi39
rxd2_adin2_gpi28
cts2_adin3_gpi31
tout1_adout_gpi35
MemoryStick/
SecureDigital
Interface
Figure 1. MCF5249 Block Diagram
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MCF5249 Features: Details
1.3
MCF5249 Features: Details
The primary features of the MCF5249 integrated processor include the following:
•
ColdFire V2 Processor Core operating at 140 MHz
— Clock-doubled Version 2 microprocessor core
— 32-bit internal data bus, 16 bit external data bus
— 16 user-visible, 32-bit general-purpose registers
— Supervisor/user modes for system protection
— Vector base register to relocate exception-vector table
— Optimized for high-level language constructs
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•
DMA controller
— Four fully programmable channels: Two dedicated to the audio interface module and two
dedicated to the UART module (External requests are not supported.)
— Supports dual- and single-address transfers with 32-bit data capability
— Two address pointers that can increment or remain constant
— 16-/24-bit transfer counter
— Operand packing and unpacking support
— Auto-alignment transfers supported for efficient block movement
— Supports bursting and cycle stealing
— All channels support memory to memory transfers
— Interrupt capability
— Provides two clock cycle internal access
•
Enhanced Multiply-accumulator Unit
— Single-cycle multiply-accumulate operations for 32 x 32 bit and 16 x 16 bit operands
— Support for signed, unsigned, integer, and fixed-point fractional input operands
— Four 48-bit accumulators to allow the use of a 40-bit product
— The addition of 8 extension bits to increase the dynamic number range
— Fast signed and unsigned integer multiplies
•
8-Kbyte Direct Mapped instruction cache
— Clocked core clock frequency
— Flush capability
— Non-blocking cache provides fast access to critical code and data
•
96-Kbyte SRAM
— Provides one-cycle access to critical code and data
— Split into two banks, SRAM0 (32K), and SRAM1 (64K)
— DMA requests to/from internal SRAM1 supported
•
Crystal Trim
— The XTRIM output can be used to trim an external crystal oscillator circuit which would allow
lock with an incoming IEC958 or serial audio signal
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MCF5249 Features: Details
•
Audio Interfaces
— IEC958 input and output
— Four serial Philips IIS/Sony EIAJ interfaces
– One with input and output, one with output only, two with input only (Three inputs, two
outputs)
– Master and Slave operation
•
CD Text Interface
— Allows the interface of CD subcode (transmitter only)
•
Dual Universal Synchronous/Asynchronous Receiver/Transmitter (Dual UART)
— Full duplex operation
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— Baud-rate generator
— Modem control signals: clear-to-send (CTS) and request-to-send (RTS)
— DMA interrupt capability
— Processor-interrupt capability
•
Queued Serial Peripheral Interface (QSPI)
— Programmable queue to support up to 16 transfers without user intervention
— Supports transfer sizes of 8 to 16 bits in 1-bit increments
— Four peripheral chip-select lines for control of up to 15 devices
— Baud rates from 273 Kbps to 17.5 Mbps at 140MHz
— Programmable delays before and after transfers
— Programmable clock phase and polarity
— Supports wraparound mode for continuous transfers
— Master mode only
•
Dual 16-bit General-purpose Multimode Timers
— Clock source selectable from external, CPU clock/2 and CPU clock/32.
— 8-bit programmable prescaler
— 2 timer inputs and 2 outputs
— Processor-interrupt capability
— 14.3 nS resolution with CPU clock at 140MHz
•
IDE/ SmartMedia Interface
— Allows direct connection to an IDE hard drive or other IDE peripheral
•
Analog/Digital Converter
— 12-Bit Resolution
— 4 Muxed inputs
•
Flash Memory Card Interface
— Allows connection to Sony MemoryStick compatible devices
— Support SD cards and other types of flash media
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160 MAPBGA Ball Assignments
•
Dual I2C Interfaces
— Interchip bus interface for EEPROMs, LCD controllers, A/D converters, keypads
— Master and slave modes, support for multiple masters
— Automatic interrupt generation with programmable level
•
System debug support
— Real-time instruction trace for determining dynamic execution path
— Background debug mode (BDM) for debug features while halted
— Debug exception processing capability
— Real-time debug support
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•
System Interface
— Glueless bus interface and DRAMC support for interface to 16-bit for DRAM, SRAM, ROM,
FLASH, and I/O devices
— Two programmable chip-select signals for static memories or peripherals with programmable
wait states and port sizes.
— Two dedicated chip selects for 16-bit wide DRAM/SDRAM.
CS0 is active after reset to provide boot-up from external FLASH/ROM.
— Two dedicated chip selects (CS2 and CS3) are used for the IDE and/or SmartMedia interface
— Programmable interrupt controller (low interrupt latency, eight external interrupt requests,
programmable autovector generator)
— 44 programmable general-purpose inputs (for the 160 MAPBGA package)
— 46 programmable general-purpose outputs (for the 160 MAPBGA package)
— IEEE 1149.1 Test (JTAG) Module
•
Clocking
— Clock-multiplied PLL, programmable frequency
•
1.8V core, 3.3V I/O
•
160 pin MAPBGA package (qualified at 140 MHz) and 144 pin QFP package (qualified at 120
MHz)
1.4
160 MAPBGA Ball Assignments
The following signals are not available on the 144 QFP package.
NOTE
The 144 QFP part is qualified for 120 MHz operation. The 160 MAPBGA
part is qualified for 140 MHz.
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MCF5249 Functional Overview
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Table 1. 160 MAPBGA Ball Assignments
1.5
160MAPBGA Ball
Number
Function
GPIO
E3
cmd_sdio2
gpio34
G4
sdata0_sdio1
gpio54
H3
RSTO/sdata2_bs2
K3
A25
gpio8
L4
QSPI_CS1
gpio24
L8
QSPI_CS3
gpio22
N8
SDRAM_CS2
gpio7
P9
EbuOut2
gpo 37
K11
BUFENb2
gpio17
G12
subr
gpio 53
F13
sfsy
gpio 52
F12
rck
gpio 51
E8
SRE
gpio11
B8
lrck3
gpio 45
E7
SWE
gpio12
A7
sclk3
gpio 49
MCF5249 Functional Overview
This section provides a brief summary of the functional blocks in the MCF5249. For more details refer to
the MCF5249 User’s Manual.
1.5.1
ColdFire V2 Core
The ColdFire processor Version 2 core consists of two independent, decoupled pipeline structures to
maximize performance while minimizing core size.The instruction fetch pipeline (IFP) is a two-stage
pipeline for prefetching instructions. The prefetched instruction stream is then gated into the two-stage
operand execution pipeline (OEP), which decodes the instruction, fetches the required operands, and then
executes the required function. Because the IFP and OEP pipelines are decoupled by an instruction buffer
that serves as a FIFO queue, the IFP can prefetch instructions in advance of their actual use by the OEP,
which minimizes time stalled waiting for instructions. The OEP is implemented in a two-stage pipeline
featuring a traditional RISC data path with a dual-read-ported register file feeding an arithmetic/logic unit
(ALU).
1.5.2
DMA Controller
The MCF5249 provides four fully programmable DMA channels for quick data transfer. Single and dual
address mode is supported with the ability to program bursting and cycle stealing. Data transfer is selectable
as 8, 16, 32, or 128-bits. Packing and unpacking is supported.
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Two internal audio channels and the dual UART can be used with the DMA channels. All channels can
perform memory to memory transfers. The DMA controller has a user-selectable, 24- or 16-bit counter and
a programmable DMA exception handler.
External requests are not supported.
1.5.3
Enhanced Multiply and Accumulate Module (EMAC)
The integrated EMAC unit provides a common set of DSP operations and enhances the integer multiply
instructions in the ColdFire architecture. The EMAC provides functionality in three related areas:
1. Faster signed and unsigned integer multiplies
2. New multiply-accumulate operations supporting signed and unsigned operands
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3. New miscellaneous register operations
Multiplies of 16x16 and 32x32 with 48-bit accumulates are supported in addition to a full set of extensions
for signed and unsigned integers plus signed, fixed-point fractional input operands. The EMAC has a
single-clock issue for 32x32-bit multiplication instructions and implements a four-stage execution pipeline.
1.5.4
Instruction Cache
The instruction cache improves system performance by providing cached instructions to the execution unit
in a single clock. The MCF5249 processor uses an 8 Kbyte, direct-mapped instruction cache to achieve 125
MIPS at 140 MHz. The cache is accessed by physical addresses, where each 16-byte line consists of an
address tag and a valid bit. The instruction cache also includes a bursting interface for 16-bit and 8-bit port
sizes to quickly fill cache lines.
1.5.5
Internal 96-Kbyte SRAM
The 96-Kbyte on-chip SRAM is split over two banks, SRAM0 (64k) and SRAM1 (32K). It provides one
clock-cycle access for the ColdFire core. This SRAM can store processor stack and critical code or data
segments to maximize performance. Memory in the second bank can be accessed under DMA.
1.5.6
DRAM Controller
The MCF5249 DRAM controller provides a glueless interface for up to two banks of DRAM, each of which
can be up to 32 Mbytes. The controller supports a 16-bit data bus. A unique addressing scheme allows for
increases in system memory size without rerouting address lines and rewiring boards. The controller
operates in page mode, non-page mode, and burst-page mode and supports SDRAMs.
1.5.7
System Interface
The MCF5249 provides a glueless interface to 16-bit port size SRAM, ROM, and peripheral devices with
independent programmable control of the assertion and negation of chip-select and write-enable signals.
The MCF5249 also supports bursting ROMs.
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MCF5249 Functional Overview
1.5.8
External Bus Interface
The bus interface controller transfers information between the ColdFire core or DMA and memory,
peripherals, or other devices on the external bus. The external bus interface provides 23 bits of address bus
space, a 16-bit data bus, Output Enable, and Read/Write signals. This interface implements an extended
synchronous protocol that supports bursting operations.
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1.5.9
Serial Audio Interfaces
The MCF5249 digital audio interface provides four serial Philips IIS/Sony EIAJ interfaces. One interface
is a 4-pin (1 bit clock, 1 word clock, 1 data in, 1 data out), the other three interfaces are 3-pin (1 bit clock,
1 word clock, 1 data in or out). The serial interfaces have no limit on minimum sampling frequency.
Maximum sampling frequency is determined by maximum frequency on bit clock input. This is 1/3 the
frequency of the internal system clock.
1.5.10 IEC958 Digital Audio Interfaces
The MCF5249 has two digital audio input interfaces, and one digital audio output interface. There are four
digital audio input pins, two digital audio output pins. An internal multiplexer selects one of the four inputs
to the digital audio input interface.
There is one digital audio output interface but it has two IEC958 outputs. One output carries the professional
“c” channel (Channel Status), and the other carries the consumer “c” channel. All other bits (audio data, user
channel bits, validity flag, etc) are identical.
The IEC958 output can take the output from the internal IEC958 generator, or multiplex out one of the four
IEC958 inputs.
1.5.11 Audio Bus
The audio interfaces connect to an internal bus that carries all audio data. Each receiver places its received
data on the audio bus and each transmitter takes data from the audio bus for transmission. Each transmitter
has a source select register.
In addition to the audio interfaces, there are six CPU accessible registers connected to the audio bus. Three
of these registers allow data reads from the audio bus and allow selection of the audio source. The other three
registers provide a write path to the audio bus and can be selected by transmitters as the audio source.
Through these registers, the CPU has access to the audio samples for processing.
Audio can be routed from a receiver to a transmitter without the data being processed by the core so the
audio bus can be used as a digital audio data switch. The audio bus can also be used for audio format
conversion.
1.5.12 CD-ROM Encoder/Decoder
The MCF5249 is capable of processing CD-ROM sectors in hardware. Processing is compliant with
CD-ROM and CD-ROM XA standards.
The CD-ROM decoder performs following functions in hardware:
•
Sector sync recognition
•
Descrambling of sectors
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•
Verification of the CRC checksum for Mode 1, Mode 2 Form 1, and Mode 2 Form 2 sectors
•
Third-layer error correction is not performed
The CD-ROM encoder performs following functions in hardware:
•
Sector sync recognition
•
Scrambling of sectors
•
Insertion of the CRC checksum for Mode 1, Mode 2 Form 1, and Mode 2 Form 2 sectors.
•
Third-layer error encoding needs to be done in software. This can use approximately 5–10 MHz of
performance for single-speed.
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1.5.13 Dual UART Module
Two full-duplex UARTs with independent receive and transmit buffers are in this module. Data formats can
be 5, 6, 7, or 8 bits with even, odd, or no parity, and up to 2 stop bits in 1/16 increments. Four-byte receive
buffers and two-byte transmit buffers minimize CPU service calls. The Dual UART module also provides
several error-detection and maskable-interrupt capabilities. Modem support includes request-to-send (RTS)
and clear-to-send (CTS) lines.
The system clock provides the clocking function from a programmable prescaler. You can select full duplex,
auto-echo loopback, local loopback, and remote loopback modes. The programmable Dual UARTs can
interrupt the CPU on various normal or error-condition events.
1.5.14 Queued Serial Peripheral Interface QSPI
The QSPI module provides a serial peripheral interface with queued transfer capability. It supports up to 16
stacked transfers at a time, making CPU intervention between transfers unnecessary. Transfers of up to
17.5 Mbits/second are possible at a CPU clock of 140 MHz. The QSPI supports master mode operation only.
1.5.15 Timer Module
The timer module includes two general-purpose timers, each of which contains a free-running 16-bit timer
for use in any of three modes:
1. Input Capture. This mode captures the timer value with an external event.
2. Output Compare. This mode triggers an external signal or interrupts the CPU when the timer
reaches a set value
3. Event Counter. This mode counts external events.
The timer unit has an 8-bit prescaler that allows programming of the clock input frequency, which is derived
from the system clock. In addition to the ÷1 and ÷16 clock derived from the bus clock (CPU clock / 2), the
programmable timer-output pins either generate an active-low pulse or toggle the outputs.
1.5.16 IDE and SmartMedia Interfaces
The MCF5249 system bus allows connection of an IDE hard disk drive and SmartMedia flash card with a
minimum of external hardware. The external hardware consists of bus buffers for address and data and are
intended to reduce the load on the bus and prevent SDRAM and Flash accesses to propagate to the IDE bus.
The control signals for the buffers are generated in the MCF5249.
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1.5.17 Analog/Digital Converter (ADC)
The four channel ADC is based on the Sigma-Delta concept with 12-bit resolution. The digital portion of
the ADC is provided internally. The analog voltage comparator must be provided externally as well as an
external integrator circuit (resistor/capacitor) which is driven by the ADC output. A software interrupt is
provided when the ADC measurement cycle is complete.
1.5.18 Flash Memory Card Interface
The interface is Sony MemoryStick and SecureDigital compatible. However, there is no hardware support
for MagicGate™.
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1.5.19 I2C Module
The two-wire I2C bus interface, which is compliant with the Philips I2C bus standard, is a bidirectional serial
bus that exchanges data between devices. The I2C bus minimizes the interconnection between devices in the
end system and is best suited for applications that need occasional bursts of rapid communication over short
distances among several devices. Bus capacitance and the number of unique addresses limit the maximum
communication length and the number of devices that can be connected.
1.5.20 Chip-Selects
There are four programmable chip selects on the MCF5249:
•
Two programmable chip-select outputs (CS0 and CS1) provide signals that enable glueless
connection to external memory and peripheral circuits. The base address, access permissions, and
automatic wait-state insertion are programmable with configuration registers. These signals also
interface to 16-bit ports.
•
Two dedicated chip selects (CS2 and CS3) are used for the IDE and/or SmartMedia interface
CS0 is active after reset to provide boot-up from external FLASH/ROM.
1.5.21 GPIO Interface
A total of 44 General Purpose inputs and 46 General Purpose outputs are available. These are multiplexed
with various other signals. Eight of the GPIO inputs have edge sensitive interrupt capability.
1.5.22 Interrupt Controller
The interrupt controller provides user-programmable control of a total of 57 interrupts. There are 49 internal
interrupt sources. In addition, there are 8 GPIOs where interrupts can be generated on the rising or falling
edge of the pin. All interrupts are autovectored and interrupt levels are programmable.
1.5.23 JTAG
To help with system diagnostics and manufacturing testing, the MCF5249 includes dedicated
user-accessible test logic that complies with the IEEE 1149.1A standard for boundary scan testability, often
referred to as Joint Test Action Group, or JTAG. For more information, refer to the IEEE 1149.1A standard.
Motorola provides BSDL files for JTAG testing.
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General Device Information
1.5.24 System Debug Interface
The ColdFire processor core debug interface supports real-time instruction trace and debug, plus
background-debug mode. A background-debug mode (BDM) interface provides system debug.
In real-time instruction trace, four status lines provide information on processor activity in real time (PST
pins). A four-bit wide debug data bus (DDATA) displays operand data and change-of-flow addresses, which
helps track the machine’s dynamic execution path.
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1.5.25 Crystal and On-chip PLL
Typically, an external 16.92 MHz or 33.86 MHz clock input is used for CD R/W applications, while an
11.2896 MHz clock is more practical for Portable CD player applications. However, the on-chip
programmable PLL, which generates the processor clock, allows the use of almost any low frequency
external clock (5-35 MHz).
Two clock outputs (MCLK1 and MCLK2) are provided for use as Audio Master Clock. The output
frequencies of both outputs are programmable to Fxtal, Fxtal/2, Fxtal/3, and Fxtal/4. The Fxtal/3 option is
only available when the 33.86 MHz crystal is connected.
The MCF5249 supports VCO operation of the oscillator by means of a 16-bit pulse density modulation
output. Using this mode, it is possible to lock the oscillator to the frequency of an incoming IEC958 or IIS
signal. The maximum trim depends on the type and design of the oscillator. Typically a trim of +/- 100 ppm
can be achieved with a crystal oscillator and over +/- 1000 ppm with an LC oscillator.
1.6
General Device Information
The MCF5249 is available in a 160-pin MAP BGA package, or a 144-pin QFP package.
1.7
Documentation
Table 2 lists the documents that provide a complete description of the MCF5249 and are required to design
properly with the part. Documentation is available from a local Motorola distributor, a Motorola
semiconductor sales office, a Motorola Literature Distribution Center, or through the Motorola world-wide
web address at http://www.motorola.com/semiconductors.
Table 2. MCF5249 Documentation
Document Name
12
Order Number
ColdFire Family Programmer’s Reference Manual
CFPRM/D
Version 2/2M ColdFire Core Processor User’s Manual
COLDFIRE2UM/D
Version 2/2M ColdFire Core Processor User’s Manual Addendum
COLDFIRE2UMAD/D
MCF5249 User’s Manual
MCF5249UM/D
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Documentation
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Documentation
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Documentation
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