ee3271 design laboratory
DESCRIPTION
Lab Supervisor – Dr. WH Lau. EE3271 Design Laboratory. Aims and Objectives. Design and implement a MP3 Player Learn the ICs operation and how to use program to drive the ICs work. Learn data transfer in between ICs. MP3 Overall Flow. Hardware Design. Block Diagram of MP3 Player. - PowerPoint PPT PresentationTRANSCRIPT
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Lab Supervisor – Dr. WH Lau
EE3271 Design Laboratory
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Aims and Objectives
Design and implement a MP3 PlayerLearn the ICs operation and how to use program
to drive the ICs work.Learn data transfer in between ICs
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MP3 Overall Flow
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Block Diagram of MP3 Player
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Components Description
LPCEB2000-B Processor BoardInstalled with a Philips ARM processor LPC2292 Two debugging modes are available via
JTAG_EN Jumper and ETM_EN JumperBoot set jumper: can boot from internal flash or
external flash by jumper set. Two I/O ports (P0.0-31, P1.0-31) for I/O
interface
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J1, J2, J3, J4 are connectors for external bus interface. J1 and J3 are 40 Pins, J2 and J4 are 20 Pins. J1 and J2 are used to connect the board to applied board, J3 and J4 are used to extend upwards
J1
J2
J3
J4
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STA015 Microelectronics MP3 decoder chip An MPEG Layer III audio decoder with ADPCM
compression / decompression capabilities and BYPASS mode for auxiliary audio sources post-processing
Decodes elementary streams compressed by using low sampling rates
Receives the input data through a Serial input Interface The decoded signal can be a stereo, mono, or dual
channel digital output. Interfaced to LPC2292 using the I2C and SPI interface
pins of Port 0 Equipped with a buffer
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CS4334 Stereo digital-to-analog output systems including
interpolation, 1-bit D/A conversion and output analog filtering in an 8-pin package
Adjustment of sample rate between 2 kHz and 100 kHz simply by changing the master clock frequency
On-chip digital de-emphasis, operates from a single +5 V power supply, and requires minimal support circuitry
Ideal for portable CD players and other portable playback systems
Directly connected to the output of STA015 via the IIS interface
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LCD Display16 characters, 2 rows LCD moduleRequires 8-bit ASCII character input and 3 input
control signals Use for testing wire-wrapped board is correctly
installed
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Bus Setting - I2C
A bi-directional 2-wire bus for efficient inter-IC control
There are Serial Data Line (SDA) and Serial Clock Line (SCL)
In this lab, we used I2C to configure the STA015.
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Bus Setting - Data Request
We use polling to keep checking the data port (EINT3)
When the buffer in STA015 underflow, it will generate a data request signal.
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Bus Setting – SPI
SPI (Serial Peripheral Interface)Uses the MOSI (Master Output Slave Input) and
MISO (Master Input Slave Output) pins to perform serial byte data transfer.
In this lab, we use SPI to stream the data from LPC2292 to STA015.
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The flow of bus
SCK
SSEL
MISO, MOSI
SCK
WS
SD
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Design Flow
System InitializationLCD InitializationI2C InitializationSTA015 InitializationSPI InitializationSTA015 Data Request Signal (Polling)Play song
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System Initialization
Set all the port 0 to GPIO portsSet the PLL Clock frequency to 60MHz
Code: System_Init() in LCD.c
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LCD Initialization
Set the LCD data pinsBy sending command to set the preferences of
the LCD displayCode: LCD_Init() in LCD.c Related functions: --SendCommand(char cmd); --sendchar(char a);--LCD_output(char *str);
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I2C Initialization
Code: I2C_Init() in I2C_Test.c Related functions:
--I2C_IRQ_Srv();--uint8 I2CTest_SendStr(uint8 SlaveAddr, uint8 WrAddr,uint8 *Str,uint8 number);--uint8 I2CTest_RcvStr(uint8 SlaveAddr, uint8 RDAddr,uint8 *Str,uint8 number);
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STA015 Initialization
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STA015 Initialization
Code: sta015_init() in sta015.c
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SPI Initialization
Modify the Clock of SPIUpdate the spi_set() function
Code: SPI_Init() in SPI_Test.c
Related functions: spi_set()
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STA015 Data Request Signal (Polling)
Code: Main() in mp3.cwhile(1){
if ((IOPIN0 & P30) == P30) { spi_set(*song1);
song1++; }
……. …….}
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Play song
Download a mp3 file to a particular address through EmbestIDE softwares
Run all the initialialzation functionsSignal spi to send data
Code: Main() in mp3.c
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Testing
Check register $01(IDENT) , return 0xAC if STA015 is presence
Using the Oscilloscope
-- Checking I2C Clock, I2C Data
-- Checking SPI Clock, SPI Data
-- Checking 1KHz tone frequency
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Difficulties Encountered
Unclear concept of STA015Using wrong Oversampling Ratio Missing Hardware ResetMissing Data Request
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Conclusion
What we had learnt
-- Project Management
-- STA015 configuration
-- Debugging with Oscilloscope
-- Practically understand I2C and SPI data
transfer bus
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