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TMS320C6726B TMS320C6727B TMS320C6726B TMS320C6722B TMS320C6720 Floating-Point DSPs

數(shù)據(jù):

描述

The TMS320C672x is the next generation of Texas Instruments' C67x generation of high-performance 32-/64-bit floating-point digital signal processors. The TMS320C672x includes the TMS320C6727B, TMS320C6726B, TMS320C6722B, and TMS320C6720 devices.(1)

Enhanced C67x+ CPU. The C67x+ CPU is an enhanced version of the C67x CPU used on the C671x DSPs. It is compatible with the C67x CPU but offers significant improvements in speed, code density, and floating-point performance per clock cycle. At 350 MHz, the CPU is capable of a maximum performance of 2800 MIPS/2100 MFLOPS by executing up to eight instructions (six of which are floating-point instructions) in parallel each cycle. The CPU natively supports 32-bit fixed-point, 32-bit single-precision floating-point, and 64-bit double-precision floating-point arithmetic.

Efficient Memory System. The memory controller maps the large on-chip 256K-byte RAM and 384K-byte ROM as unified program/data memory. Development is simplified since there is no fixed division between program and data memory size as on some other devices.

The memory controller supports single-cycle data accesses from the C67x+ CPU to the RAM and ROM. Up to three parallel accesses to the internal RAM and ROM from three of the following four sources are supported:

  • Two 64-bit data accesses from the C67x+ CPU
  • One 256-bit program fetch from the core and program cache
  • One 32-bit data access from the peripheral system (either dMAX or UHPI)

The large (32K-byte) program cache translates to a high hit rate for most applications. This prevents most program/data access conflicts to the on-chip memory. It also enables effective program execution from an off-chip memory such as an SDRAM.

High-Performance Crossbar Switch. A high-performance crossbar switch acts as a central hub between the different bus masters (CPU, dMAX, UHPI) and different targets (peripherals and memory). The crossbar is partially connected; some connections are not supported (for example, UHPI-to-peripheral connections).

Multiple transfers occur in parallel through the crossbar as long as there is no conflict between bus masters for a particular target. When a conflict does occur, the arbitration is a simple and deterministic fixed-priority scheme.

The dMAX is given highest-priority since it is responsible for the most time-critical I/O transfers, followed next by the UHPI, and finally by the CPU.

dMAX Dual Data Movement Accelerator. The dMAX is a module designed to perform Data Movement Acceleration. The Data Movement Accelerator (dMAX) controller handles user-programmed data transfers between the internal data memory controller and the device peripherals on the C672x DSPs. The dMAX allows movement of data to/from any addressable memory space including internal memory, peripherals, and external memory.

The dMAX controller includes features such as the capability to perform three-dimensional data transfers for advanced data sorting, and the capability to manage a section of the memory as a circular buffer/FIFO with delay-tap based reading and writing of data. The dMAX controller is capable of concurrently processing two transfer requests (provided that they are to/from different source/destinations).

External Memory Interface (EMIF) for Flexibility and Expansion. The external memory interface on the C672x supports a single bank of SDRAM and a single bank of asynchronous memory. The EMIF data width is 16 bits wide on the C6726B, C6722B, and C6720 and 32 bits wide on the C6727B.

SDRAM support includes x16 and x32 SDRAM devices with 1, 2, or 4 banks.

The C6726B, C6722B, and C6720 support SDRAM devices up to 128M bits.

The C6727B extends SDRAM support to 256M-bit and 512M-bit devices.

Asynchronous memory support is typically used to boot from a parallel non-multiplexed NOR flash device that can be 8, 16, or 32 bits wide. Booting from larger flash devices than are natively supported by the dedicated EMIF address lines is accomplished by using general-purpose I/O pins for upper address lines.

The asynchronous memory interface can also be configured to support 8- or 16-bit-wide NAND flash. It includes a hardware ECC calculation (for single-bit errors) that can operate on blocks of data up to 512 bytes.

Universal Host-Port Interface (UHPI) for High-Speed Parallel I/O. The Universal Host-Port Interface (UHPI) is a parallel interface through which an external host CPU can access memories on the DSP.

Three modes are supported by the C672x UHPI:

  • Multiplexed Address/Data - Half-Word (16-bit-wide) Mode (similar to C6713)
  • Multiplexed Address/Data - Full Word (32-bit-wide) Mode
  • Non-Multiplexed Mode - 16-bit Address and 32-bit Data Bus

The UHPI can also be restricted to accessing a single page (64K bytes) of memory anywhere in the address space of the C672x; this page can be changed, but only by the C672x CPU. This feature allows the UHPI to be used for high-speed data transfers even in systems where security is an important requirement.

The UHPI is only available on the C6727B.

Multichannel Audio Serial Ports (McASP0, McASP1, and McASP2) - Up to 16 Stereo Channels I2S. The multichannel audio serial port (McASP) seamlessly interfaces to CODECs, DACs, ADCs, and other devices. It supports the ubiquitous IIS format as well as many variations of this format, including time division multiplex (TDM) formats with up to 32 time slots.

Each McASP includes a transmit and receive section which may operate independently or synchronously; furthermore, each section includes its own flexible clock generator and extensive error-checking logic.

As data passes through the McASP, it can be realigned so that the fixed-point representation used by the application code can be independent of the representation used by the external devices without requiring any CPU overhead to make the conversion.

The McASP is a configurable module and supports between 2 and 16 serial data pins. It also has the option of supporting a Digital Interface Transmitter (DIT) mode with a full 384 bits of channel status and user data memory.

McASP2 is not available on the C6722B and C6720.

Inter-Integrated Circuit Serial Ports (I2C0, I2C1). The C672x includes two inter-integrated circuit (I2C) serial ports. A typical application is to configure one I2C serial port as a slave to an external user-interface microcontroller. The other I2C serial port may then be used by the C672x DSP to control external peripheral devices, such as a CODEC or network controller, which are functionally peripherals of the DSP device.

The two I2C serial ports are pin-multiplexed with the SPI0 serial port.

Serial Peripheral Interface Ports (SPI0, SPI1). As in the case of the I2C serial ports, the C672x DSP also includes two serial peripheral interface (SPI) serial ports. This allows one SPI port to be configured as a slave to control the DSP while the other SPI serial port is used by the DSP to control external peripherals.

The SPI ports support a basic 3-pin mode as well as optional 4- and 5-pin modes. The optional pins include a slave chip-select pin and an enable pin which implements handshaking automatically in hardware for maximum SPI throughput.

The SPI0 port is pin-multiplexed with the two I2C serial ports (I2C0 and I2C1). The SPI1 serial port is pin-multiplexed with five of the serial data pins from McASP0 and McASP1.

Real-Time Interrupt Timer (RTI). The real-time interrupt timer module includes:

  • Two 32-bit counter/prescaler pairs
  • Two input captures (tied to McASP direct memory access [DMA] events for sample rate measurement)
  • Four compares with automatic update capability
  • Digital Watchdog (optional) for enhanced system robustness

Clock Generation (PLL and OSC). The C672x DSP includes an on-chip oscillator that supports crystals in the range of 12 MHz to 25 MHz. Alternatively, the clock can be provided externally through the CLKIN pin.

The DSP includes a flexible, software-programmable phase-locked loop (PLL) clock generator. Three different clock domains (SYSCLK1, SYSCLK2, and SYSCLK3) are generated by dividing down the PLL output. SYSCLK1 is the clock used by the CPU, memory controller, and memories. SYSCLK2 is used by the peripheral subsystem and dMAX. SYSCLK3 is used exclusively for the EMIF.

(1) Throughout the remainder of the document, TMS320C6727B (or C6727B), TMS320C6726B (or C6726B), TMS320C6722B (or C6722B), and/or TMS320C6720 (or C6720) will be referred to as TMS320C672x (or C672x).

特性

  • C672x:32/64位350-MHz浮點DSP
  • 從C67x™升級到C67x + CPU DSP生成:
    • 2X CPU寄存器[64通用]
    • 新的音頻專用指令
    • 與C67x CPU兼容
  • 增強型內(nèi)存系統(tǒng)
    • 256K字節(jié)統(tǒng)一程序/數(shù)據(jù)RAM
    • 384K字節(jié)統(tǒng)一程序/數(shù)據(jù)ROM
    • 單周期數(shù)據(jù)從CPU訪問
    • 大程序高速緩存(32K字節(jié))支持RAM,ROM和外部存儲器
  • 外部存儲器接口(EMIF)支持
    • 133-MHz SDRAM(16位或32位)
    • 異步NOR閃存,SRAM(8位,16位或32位)
    • NAND閃存(8位) - 或16位)
  • 增強型I /O系統(tǒng)
    • 高性能交叉開關(guān)
    • 專用McASP DMA總線
    • 確定性I /O性能
  • dMAX(雙數(shù)據(jù)移動加速器)支持:
    • 16個獨立頻道
    • 并發(fā)Processi
    • 內(nèi)存到內(nèi)存和內(nèi)存到外設(shè)數(shù)據(jù)傳輸?shù)?/li>
    •  
    •  
    • 圓形尋址,其中圓形的大小緩沖區(qū)(FIFO)不限于2 n
    • 基于表的多抽頭延遲讀取和寫入傳輸?shù)?到循環(huán)緩沖區(qū)
    < /li>
  • 三個多聲道音頻串行端口
    • 高達50 MHz的發(fā)送/接收時鐘
    • 六個時鐘區(qū)和16個串行數(shù)據(jù)引腳
    • 支持TDM, I2S和類似格式
    • DIT-Capable(McASP2)
  • 通用主機端口接口(UHPI)
    • 32位 - 高帶寬寬帶數(shù)據(jù)總線
    • 多路復(fù)用和非多路復(fù)用地址和數(shù)據(jù)
  • 兩個10-MHz SPI端口,帶有3-,4-,
  • 兩個內(nèi)部集成電路(I2C)端口
  • 實時中斷計數(shù)器/看門狗
  • 振蕩器和軟件控制的PLL < /li>
  • 應(yīng)用程序:
    • 專業(yè)音頻
      • 調(diào)音臺
      • Effe cts Boxes
      • 音頻合成
      • 樂器/放大器建模
      • 音頻會議
      • 音頻廣播
      • 音頻編碼器< /li>
    • 新興音頻應(yīng)用
    • 生物識別技術(shù)
    • 醫(yī)療
    • 工業(yè)
    < /li>
  • 商業(yè)或擴展溫度
  • 144針,0.5毫米,PowerPAD™薄型四方扁平封裝(TQFP)[RFP后綴]
  • 256端子,1.0- mm,16x16陣列塑料球柵陣列(PBGA)[GDH和ZDH后綴]

C67x,PowerPAD,TMS320C6000,C6000,DSP /BIOS,XDS,TMS320是德克薩斯州的商標儀器。
Philips是Koninklijki Philips Electronics N.V.的注冊商標。
所有其他商標均為其各自所有者的財產(chǎn)。

 

參數(shù) 與其它產(chǎn)品相比 其他 C6000 DSP

 
DSP
TMS320C6726B
1 C67x    

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