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RenesasSH7264音频设备开辟方案

2017-11-24 10:42 AM| 发布者: 幸运。| 查看: 2368| 评论: 0

摘要: Renesas公司的SH7264是SH7260系列控制器,SH2A-FPU32位CPU核,最大工作频率144MHz,具有极好的信号处理性能和ROM代码效率,使得音频应用如MP3,WMA或AAC数据格式的压缩息争压更快,从而低落了水平的巨细.主要用在汽车音频, ...

Renesas公司的SH7264是SH7260系列控制器, SH2A-FPU 32位CPU核,最大工作频率144MHz,具有极好的信号处理性能和ROM代码效率,使得音频应用如MP3, WMA或 AAC数据格式的压缩息争压更快,从而低落了水平的巨细.主要用在汽车音频,HDD音频和网络音频,汽车图像仪表盘和汽车信息显示以及工业设备如定序器,呆板人等.本京电港论坛文章先容了SH7264主要性能指标,方框架图, 入门开辟板主要指标,方框架图和电路原理图纸,主要元件结构图以及音频DJ设备系统方框架图.

Renesas Electronics had earlier launched the SH7260 Series of microcontrollers, built around the SH2A-FPU 32-bit CPU core with superb real time processing capability, as a solution for the digital audio field. The SH7262 and SH7264 belong to the SH7260 Series of microcontrollers, and the maximum operating frequency of 144 MHz enables faster operation in applications such as equipment control or digital audio signal processing. This combination of excellent signal processing performance and ROM code efficiency means that compression and decompression of audio data in formats required by digital audio applications, such as MP3, WMA, or AAC (Advanced Audio Coding), is performed more quickly and program sizes are reduced. Thanks to the newly added large-capacity SRAM, not only processing tasks related to equipment control and digital audio, but also video display capabilities can be implemented on as ingle chip. An ample 1 Mbyte or 640-Kbyte of on-chip SRAM is provided for video display use. It can be configured as a frame buffer to store video data temporarily, which is necessary when implementing graphical display capabilities. The generous SRAM capacity means that it is possible to use a TFTLCD panel display up to WQVGA size (480 × 240 pixels) without the need for external SDRAM as video memory.

The SH7262 and SH7264 provide a new video display controller and digital video input pins for use with graphical and video display applications. Digital RGB output pins allow output of images or video in RGB565 format at up to WQVGA size (480 × 240 pixels).

This reduces the total number of devices required and helps lower both the cost and the power consumption of the system.

This LSI is a single-chip RISC (reduced instruction set computer) microcontroller that includes a Renesas-original RISC CPU as its core, and the peripheral functions required to configure a system.

The CPU in this LSI is an SH-2A CPU, which provides upward compatibility for SH-1, SH-2, and SH-2E CPUs at object code level. It has a RISC-type instruction set, superscalar architecture, and Harvard architecture, for superior rates of instruction execution. In addition, the 32-bit internal-bus architecture that is independent from the direct memory access controller enhances data processing power. This CPU brings the user the ability to set up high-performance systems with strong functionality at less expense than was achievable with previous microcontrollers, and is even able to handle realtime control applications requiring high-speed characteristics.

This LSI has a floating-point unit and cache. In addition, this LSI includes on-chip peripheral functions necessary for system configuration, such as a 64-Kbyte RAM for high-speed operation, a 1-Mbyte or 640-Kbyte large-capacity RAM (32-Kbytes for 1-Mbyte and 320-Kbytes for 640-Kbyte versions are shared by the data-retention RAM), multi-function timer pulse unit 2, compare match timer, realtime clock, serial communication interface with FIFO, I2C bus interface 3, serial sound interface, serial I/O with FIFO, controller area network interface*2, IEBusTM*1 controller*2, Renesas SPDIF interface, CD-ROM decoder , A/D converter, NAND flash memory controller, USB 2.0 host/function, video display controller 3, sampling rate converter, SD host interface, decompression unit, motor control PWM timer, and interrupt controller modules, and general I/O ports.

This LSI also provides an external memory access support function to enable direct connection to various memory devices or peripheral LSIs. These on-chip functions significantly reduce costs of designing and manufacturing application systems.

SH7264主要指标:

CPU
  Renesas original SuperH architecture
Compatible with SH-1, SH-2, and SH-2E at object code level
32-bit internal data bus
Support of an abundant register-set
⎯Sixteen 32-bit general registers
⎯Four 32-bit control registers
⎯Four 32-bit system registers
⎯Register bank for high-speed response to interrupts
RISC-type instruction set (upward compatible with SH series)
⎯Instruction length: 16-bit fixed-length basic instructions for improved code efficiency and 32-bit instructions for high performance and usability
⎯Load/store architecture
⎯Delayed branch instructions
⎯Instruction set based on C language
Superscalar architecture to execute two instructions at one time including a floating-point unit
Instruction execution time: Up to two instructions/cycle
Address space: 4 Gbytes
Internal multiplier
Five-stage pipeline
Harvard architecture
Floating-point unit Floating-point co-processor included
Supports single-precision (32-bit) and double-precision (64-bit)
Supports data type and exceptions that conforms to IEEE754 standard
Two rounding modes: Round to nearest and round to zero
Two denormalization modes: Flush to zero
Floating-point registers
⎯Sixteen 32-bit floating-point registers (single-precision 16 words or double-precision 8 words)
⎯Two 32-bit floating-point system registers
Supports FMAC (multiplication and accumulation) instructions
Supports FDIV (division) and FSQRT (square root) instructions
Supports FLDI0/FLDI1 (load constant 0/1) instructions
Instruction execution time
⎯Latency (FMAC/FADD/FSUB/FMUL): Three cycles (singleprecision), eight cycles (double-precision)
⎯Pitch (FMAC/FADD/FSUB/FMUL): One cycle (single-precision), six cycles (double-precision)
Note: FMAC only supports single-precision
Five-stage pipeline
Cache memory Instruction cache: 8 Kbytes
Operand cache: 8 Kbytes
128-entry/way, 4-way set associative, 16-byte block length configuration each for the instruction cache and operand cache
Write-back, write-through, LRU replacement algorithm
Way lock function available (only for operand cache); ways 2 and 3 can be locked
Interrupt controller Seventeen external interrupt pins (NMI, IRQ7 to IRQ0, and PINT7 to
PINT0)
On-chip peripheral interrupts: Priority level set for each module
16 priority levels available
Register bank enabling fast register saving and restoring in interrupt processing
Bus state controller
Address space divided into seven areas (0 to 6), each a maximum of 64 Mbytes
The following features settable for each area independently
⎯Bus size (8 or 16 bits): Available sizes depend on the area.
⎯Number of access wait cycles (different wait cycles can be specified for read and write access cycles in some areas)
⎯Idle wait cycle insertion (between the same area access cycles or different area access cycles)
⎯Specifying the memory to be connected to each area enables direct connection to SRAM, SRAM with byte selection, SDRAM, and burst ROM (clocked synchronous or asynchronous). The address/data multiplexed I/O (MPX) interface are also available.
⎯PCMCIA interface
⎯Outputs a chip select signal (CS0 to CS6) according to the target area (CS assert or negate timing can be selected by software)
SDRAM refresh
Auto refresh or self refresh mode selectable
SDRAM burst access
Direct memory access controller
Sixteen channels; external requests are available for one of them in the SH7262 Group, and for two of them in the SH7264 Group.
Can be activated by on-chip peripheral modules
Burst mode and cycle steal mode
Intermittent mode available (16 and 64 cycles supported)
Transfer information can be automatically reloaded
Clock pulse generator Clock mode: Input clock can be selected from external input (EXTAL or USB_X1) or crystal resonator
Input clock can be multiplied by 12 (max.) by the internal PLL circuit
Three types of clocks generated:
⎯CPU clock: Maximum 144 MHz
⎯Bus clock: Maximum 72 MHz
⎯Peripheral clock: Maximum 36 MHz
Watchdog timer  
On-chip one-channel watchdog timer
A counter overflow can reset the LSI
Power-down modes Four power-down modes provided to reduce the power consumption in this LSI
⎯Sleep mode
⎯Software standby mode
⎯Deep standby mode
⎯Module standby mode
Multi-function timer pulse unit 2
Maximum 16 lines of pulse inputs/outputs based on fix channels of 16-bit timers
18 output compare and input capture registers
Input capture function
Pulse output modes
Toggle, PWM, complementary PWM, and reset-synchronized PWM modes
Synchronization of multiple counters
Complementary PWM output mode
⎯Non-overlapping waveforms output for 3-phase inverter control
⎯Automatic dead time setting
⎯0% to 100% PWM duty value specifiable
⎯A/D converter start request delaying function
⎯Interrupt skipping at crest or trough
Reset-synchronized PWM mode
Three-phase PWM waveforms in positive and negative phases can be output with a required duty value
Phase counting mode
Two-phase encoder pulse counting available
Compare match timer
Two-channel 16-bit counters
Four types of clock can be selected (P/8, P/32, P/128, and P/512)
DMA transfer request or interrupt request can be issued when a compare match occurs
Realtime clock
Internal clock, calendar function, alarm function
Interrupts can be generated at intervals of 1/256 s by the 32.768-kHz on-chip crystal oscillator Serial communication interface with FIFO
Eight channels
Clocked synchronous or asynchronous mode selectable (SH7262: channels 0 to 2, SH7264: channels 0 to 3)
Simultaneous transmission and reception (full-duplex communication) supported
Dedicated baud rate generator
Separate 16-byte FIFO registers for transmission and reception
Modem control function (SH7262: channel 1, SH7264: channels 1 and 3, in asynchronous mode)
Renesas serial peripheral interface
Two channels
SPI operation
Master mode and slave mode selectable
Programmable bit length, clock polarity, and clock phase can be selected.
Consecutive transfers
MSB first/LSB first selectable
Maximum transfer rate: 36 Mbps
I2C bus interface 3
Three channels
Master mode and slave mode supported
Serial sound interface
Four-channel bidirectional serial transfer
Duplex communication (channel 0)
Support of various real audio formats
Support of master and slave functions
Generation of programmable word clock and bit clock
Multi-channel formats
Support of 8, 16, 18, 20, 22, 24, and 32-bit data formats
Support of eight-stage FIFO for transmission and reception
Serial I/O with FIFO
Support of 16-stage 32-bits FIFOs independently for transmission and reception
8-bit monaural/16-bit monaural/16-bit stereo audio input and output
Connectable to linear, audio, or A-Law or -Law CODEC chip
Support of master and slave functions
Controller area network
Note: This module is included or not depending on the product code.
Two channels
TTCAN level 1 supports for all channels
BOSCH 2.0B active compatible
Buffer size: transmit/receive 31, receive only 1
Two or more controller area network channels can be assigned to one bus to increase number of buffers with a granularity of 32 channels
31 Mailboxes for transmission or reception
IEBusTM controller
Note: This module is included or not depending on the product code.
IEBus protocol control (layer 2) supported
⎯Half-duplex asynchronous communications
⎯Multi-master system
⎯Broadcast communications function
⎯Selectable mode (three types) with different transfer speeds
On-chip buffers (dual port RAM) for data transmission and reception that enable up to 128 bytes of consecutive transmit/reception (maximum number of transfer bytes in mode 2)
Operating frequency
⎯12 MHz, 12.58 MHz
(1/2 divided clocks of P, AUDIO_X1, or AUDIO_X2.)
⎯18 MHz, 18.87 MHz
(1/3 divided clocks of P, AUDIO_X1, or AUDIO_X2.)
⎯24 MHz
(1/4 divided clocks of P, AUDIO_X1, or AUDIO_X2.)
⎯25.16 MHz (1/4 divided clocks of P)
⎯30 MHz, 31.45 MHz (1/5 divided clocks of P)
⎯36 MHz (1/6 divided clocks of P)
Renesas SPDIF interface
Support of IEC60958 standard (stereo and consumer use modes only)
Sampling frequencies of 32 kHz, 44.1 kHz, and 48 kHz
Audio word sizes of 16 to 24 bits per sample
Biphase mark encoding
Double buffered data
Parity encoded serial data
Simultaneous transmit and receive
Receiver autodetects IEC 61937 compressed mode data
CD-ROM decoder
Support of five formats: Mode 0, mode 1, mode 2, mode 2 form 1, and mode 2 form 2
Sync codes detection and protection (Protection: When a sync code is not detected, it is automatically inserted.)
Descrambling
ECC correction
⎯P, Q, PQ, and QP correction
⎯PQ or QP correction can be repeated up to three times
EDC check
Performed before and after ECC
Mode and form are automatically detected
Link sectors are automatically detected
Buffering data control
Buffering CD-ROM data including Sync code is transferred in specified format, after the data is descrambled, corrected by ECC, and checked by EDC.
NAND flash memory controller
Direct-connected memory interface with NAND-type flash memory
Read/write in sectors
Two types of transfer modes: Command access mode and sector access mode (512-byte data + 16-byte management code: with ECC)
Interrupt request and DMA transfer request
Supports flash memory requiring 5-byte addresses (2 Gbits and more) USB 2.0 host/function module
Conforms to the Universal Serial Bus Specification Revision 2.0
480-Mbps, 12-Mbps, and 1.5-Mbps transfer rates provided (host mode)
480-Mbps and 12-Mbps transfer rates provided (function mode)
On-chip 8-Kbyte RAM as communication buffers
Video display controller 3
Video input Input format: BT601, BT656 (NTSC/PAL)
Video recording Can be saved in RGB565 format, at 1/2 field rate.
Video processing
Video scaling: 1/2, 1/3, 1/4
Horizontal scaling: 1/2, 1/3, 2/3, 1/4 (Each scaling value can be multiplied by 6/7 for PAL.)
Adjustment of contrast and brightness
Graphic image 1 and 2 (two layers)
Input format: RGB565 (16 bits), RGB4444 (16 bits)
Overlap function
-blending window function: Mixes input image, layer 1, and layer 2 in a specified area according to the transmittance (fadein and face-out possible).
Chromakey function: Mixes images according to the specified RGB color and transmittance .
Dot a function: Mixes RGB4444-format graphic images according to the transmittance Output image
Resolution: VGA (640 480), WQVGA (480 240), QVGA (320 240), QVGA (240 320)
Format: RGB565 (16 bits)
Sampling rate converter
Data format: 32-bit stereo (16 bits each to L/R), 16-bit monaural for channel 0, and 16-bit monaural for channel 1
Input sampling rate: 8/11.025/12/16/22.05/24/32/44.1/48kHz (channel 0), 44.1kHz (channel 1)
Output sampling rate: 44.1/48 kHz (channel 0), 8/16 kHz (channel 1)
SD host interface
SD memory I/O card interface (1-/4-bits SD bus)
Error check function: CRC7 (command), CRC16 (data)
Interrupt requests
⎯Card access interrupt
⎯SDIO access interrupt
⎯Card detect interrupt
DMA transfer requests
⎯SD_BUF write
⎯SD_BUF read
Card detect function, write protect supported
Decompression unit
Input data
Data compressed with run-length encoding
Output data
RAW data
General I/O ports
SH7262: 89 I/Os, 6 inputs with open-drain outputs, and 4 inputs
SH7264: 115 I/Os, 6 inputs with open-drain outputs, and 8 inputs
Input or output can be selected for each bit
A/D converter
10-bit resolution
SH7262: four input channels, SH7264: eight input channels
A/D conversion request by the external trigger or timer trigger Motor control PWM
timer
Two 10-bit PWM channels, each with eight outputs User debugging interface
E10A emulator support
JTAG-standard pin assignment
On-chip RAM
64-Kbyte memory for high-speed operation (16 Kbytes 4)
1-Mbyte or 640-Kbyte large capacity memory for video display/recording and work (32-Kbytes for 1-Mbyte and 320-Kbytes for 640-Kbyte versions are used for data retention)
1-Mbyte version: 32-Kbyte memory for data retention (16 Kbytes 2)
640-Kbyte version: 320-Kbyte memory for data retention (16 Kbytes2, 128 Kbytes1, 160 Kbytes1)
Boot modes
Four boot modes
Boot mode 0: Booting from memory connected to CS0 area
Boot mode 1: Booting from a serial flash memory (high-speed communication)
Boot mode 2: Booting from a NAND flash memory
Boot mode 3: Booting from a serial flash memory (low-speed communication)
Power supply voltage
Vcc: 1.1 to 1.3 V
PVcc: 3.0 to 3.6 V
Packages
SH7262
176-pin QFP, 24-mm square, 0.5-mm pitch
JEITA package code: P-LQFP176-24 24-0.50
Renesas code: PLQP0176KB-A
SH7264
208-pin QFP, 28-mm square, 0.5-mm pitch JEITA package code: P-LQFP208-28 28-0.50
Renesas code: PLQP0208KB-A

SH7264主要应用:

Audio: car audio, HDD audio and Network audio.

Graphic dashboard, Vehicle information display.

Industrial equipment: sequencer, robot etc.


图1{京电港论坛}.SH7264方框架图

图2{京电港论坛}.SH7264入门板外形实物图

入门板主要指标:

Item
Specification
Microcontroller
R5S72643P144FPU
On-board Memory
Serial Flash (M25PX64): 64 Mbit
NAND Flash (K9NBG08U5M-PCB线路板0): 8 Gbit
NOR Flash (S29GL512P-10T-AIR20): 512 Mbit
SDRAM (IS42S16320B-7TL): 64 MB
Input Clock
Main: 18 MHz
Sub: 32.768 kHz
LCD: 25.175 MHz
USB: 48 MHz
Video Decoder: 24.576 MHz
External DAC/ADC (for CODEC): 13 MHz
Ethernet (for PHY): 25 MHz
Potentiometer
Single-turn, 10 kΩ
LED
5 V Power indicator: blue x 1
3.3 V Power indicator: green x 1
User: yellow x 3
Switch
Reset x 1
User x 16
DC Power Jack
5 V Input
E10A-USB Header
14-pin box header
RS232 Serial Connector
9-pin DSUB
LCD Display Connector
14-pin socket
TFT-LCD Panel Connector
Hitatch 2.2' QVGA TFT: 39-pin (CN11)
Generic LCD: 30-pin (JP12)
USB Connector
Socket-A & Mini-B
CAN Connector
2.54 mm pitch, 3-pin (CAN Bus line x 2, Ground x 1)
Ethernet Connector
RJ45
SD Card Connector
Reverse Type
Audio Jack
Headphone & Speaker
Video Jack
Compsite & Separate
VGA Connector
DB15H
Microcontroller Pin Header
56-pin (JP15), 32-pin (JP16)


图3{京电港论坛}.SH7264入门板方框架图

图4{京电港论坛}.SH7264入门板电路原理图纸(1)

图5{京电港论坛}.SH7264入门板电路原理图纸(2)

图6{京电港论坛}.SH7264入门板电路原理图纸(3)

图7{京电港论坛}.SH7264入门板电路原理图纸(4)

图8{京电港论坛}.SH7264入门板电路原理图纸(5)

图9{京电港论坛}.SH7264入门板电路原理图纸(6)

图1{京电港论坛}0.SH7264入门板电路原理图纸(7)

图1{京电港论坛}1.SH7264入门板电路原理图纸(8)

图1{京电港论坛}2.SH7264入门板电路原理图纸(9)

图1{京电港论坛}3.SH7264入门板电路原理图纸(10)

图1{京电港论坛}4.SH7264入门板电路原理图纸(11)

图1{京电港论坛}5.SH7264入门板电路原理图纸(12)

图1{京电港论坛}6.SH7264入门板电路原理图纸(13)

图1{京电港论坛}7.SH7264入门板主要元件结构图

音频DJ设备

DJ equipment is a device for playing back, mixing, and scratching music from CD and audio data as if they were from a vinyl record. DJ equipment is mainly made up of two DJ players and one DJ mixer. Although mainly used in North America and Europe until now, recently sales numbers of DJ equipment are increasing in emerging countries such as Russia and Brazil. In addition, although mostly used by businesses such as discos, due to the appearance of low-cost products private users are also increasing in number.

Renesas Electronics simplifies the development of DJ equipment with SH726x 32-bit RISC microcontrollers with functions necessary for DJ equipment built-in and a lineup of motor drivers, power supply ICs, various standard ICs, opto-electronics devices, and so on.

SH726x microcontrollers are built around the SH2A-FPU high-performance CPU core and integrate on-chip peripheral functions, such as an SD memory card interface, a NAND flash memory controller, USB, a CD-ROM decoder, and a serial sound interface.

In addition, a variety of middleware products, such as an MP3 encoder/decoder, are available, allowing for flexible extension of functions and reducing the time required for system development.


图1{京电港论坛}8.音频DJ设备系统方框架图
详情请复制打开此衔接地址:
mcu/doc/superh/r01uh0134ej_sh7262_um.pdf">http://documentation.renesas.com/eng/products/mpumcu/doc/superh/r01uh0134ej_sh7262_um.pdf

http://documentation.renesas.com/eng/products/tool/doc/reg10j0171_rsk2+sh7264_usermanual.pdf
以及
http://documentation.renesas.com/eng/products/tool/doc/reg99j0040_rsk2+sh7264_schematic.pdf


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