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SN74V3690-15PEU

  • 描述:电源电压: 3.15 V ~ 3.45 V 存储容量: 1.125M (32K x 36) 数据速度率: 66.7MHz 供应商设备包装: 128-LQFP(20x14) 工作温度: 0摄氏度~70摄氏度 安装类别: 表面安装
  • 品牌: 德州仪器 (Texas)
  • 交期:5-7 工作日
渠道:
  • 自营
  • 得捷
  • 贸泽

起订量: 12

  • 库存: 432
  • 单价: ¥191.79199
  • 数量:
    - +
  • 总计: ¥2,301.50
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规格参数

  • 制造厂商 德州仪器 (Texas)
  • 功能 同步的
  • 电源电压 3.15 V ~ 3.45 V
  • 总线朝向 单向的
  • 扩展类型 深度、宽度
  • 支持可编程标志 Yes
  • 重传能力 Yes
  • FWFT的支持 Yes
  • 工作温度 0摄氏度~70摄氏度
  • 安装类别 表面安装
  • 存储容量 1.125M (32K x 36)
  • 最大供电电流 40毫安
  • 包装/外壳 128磅/平方英尺
  • 部件状态 过时的
  • 供应商设备包装 128-LQFP(20x14)
  • 数据速度率 66.7MHz
  • 访达时期 10ns

SN74V3690-15PEU 产品详情

The SN74V3640, SN74V3650, SN74V3660, SN74V3670, SN74V3680, and SN74V3690-15PEU are exceptionally deep, high-speed CMOS, first-in first-out (FIFO) memories, with clocked read and write controls and a flexible bus-matching ×36/×18/×9 data flow. These FIFOs offer several key user benefits:

  • Flexible ×36/×18/×9 bus matching on both read and write ports
  • The period required by the retransmit operation is fixed and short.
  • The first-word data-latency period, from the time the first word is written to an empty FIFO to the time it can be read, is fixed and short.
  • High-density offerings up to 1 Mbit

Bus-matching synchronous FIFOs are particularly appropriate for network, video, signal processing, telecommunications, data communications, and other applications that need to buffer large amounts of data and match buses of unequal sizes.

Each FIFO has a data input port (Dn) and a data output port (Qn), both of which can assume 36-bit, 18-bit, or 9-bit width, as determined by the state of external control pins’ input width (IW), output width (OW), and bus matching (BM) during the master-reset cycle.

The input port is controlled by write-clock (WCLK) and write-enable (WEN\) inputs. Data is written into the FIFO on every rising edge of WCLK when WEN\ is asserted. The output port is controlled by read-clock (RCLK) and read-enable (REN\) inputs. Data is read from the FIFO on every rising edge of RCLK when REN\ is asserted. An output-enable (OE\) input is provided for 3-state control of the outputs.

The frequencies of the RCLK and WCLK signals can vary from 0 to fMAX, with complete independence. There are no restrictions on the frequency of one clock input with respect to the other.

There are two possible timing modes of operation with these devices: first-word fall-through (FWFT) mode and standard mode.

In FWFT mode, the first word written to an empty FIFO is clocked directly to the data output lines after three transitions of the RCLK signal. REN\ need not be asserted for accessing the first word. However, subsequent words written to the FIFO do require a low on REN\ for access. The state of the FWFT/SI input during master reset determines the timing mode.

For applications requiring more data-storage capacity than a single FIFO can provide, the FWFT timing mode permits depth expansion by chaining FIFOs in series (i.e., the data outputs of one FIFO are connected to the corresponding data inputs of the next). No external logic is required.

In standard mode, the first word written to an empty FIFO does not appear on the data output lines unless a specific read operation is performed. A read operation, which consists of activating REN\ and enabling a rising RCLK edge, shifts the word from internal memory to the data output lines.

These FIFOs have five flag pins: empty flag or output ready (EF\/OR\), full flag or input ready (FF\/IR\), half-full flag (HF), programmable almost-empty flag (PAE\), and programmable almost-full flag (PAF\). The EF\ and FF\ functions are selected in standard mode. The IR\ and OR\ functions are selected in FWFT mode. HF\, PAE\, and PAF\ are always available for use, regardless of timing mode.

PAE\ and PAF\ can be programmed independently to switch at any point in memory. Programmable offsets determine the flag-switching threshold and can be loaded by parallel or serial methods. Eight default offset settings are also provided, so that PAE\ can be set to switch at a predefined number of locations from the empty boundary. The PAF\ threshold also can be set at similar predefined values from the full boundary. The default offset values are set during master reset by the state of the FSEL0, FSEL1, and LD\.

For serial programming, SEN\, together with LD\, loads the offset registers via the serial input (SI) on each rising edge of WCLK. For parallel programming, WEN\, together with LD\, loads the offset registers via Dn on each rising edge of WCLK. REN\, together with LD\, can read the offsets in parallel from Qn on each rising edge of RCLK, regardless of whether serial parallel offset loading has been selected.

During master reset (MRS\), the read and write pointers are set to the first location of the FIFO. The FWFT pin selects standard mode or FWFT mode.

Partial reset (PRS\) also sets the read and write pointers to the first location of the memory. However, the timing mode, programmable-flag programming method, and default or programmed offset settings existing before partial reset remain unchanged. The flags are updated according to the timing mode and offsets in effect. PRS\ is useful for resetting a device in mid-operation, when reprogramming programmable flags would be undesirable.

Also, the timing modes of PAE\ and PAF\ outputs can be selected. Timing modes can be set to be either asynchronous or synchronous for PAE\ and PAF\.

If the asynchronous PAE\/PAF\ configuration is selected, PAE\ is asserted low on the low-to-high transition of RCLK. PAE\ is reset to high on the low-to-high transition of WCLK. Similarly, PAF\ is asserted low on the low-to-high transition of WCLK, and PAF\ is reset to high on the low-to-high transition of RCLK.

If the synchronous PAE\/PAF\ configuration is selected , the PAE\ is asserted and updated on the rising edge of RCLK only, and not WCLK. Similarly, PAF\ is asserted and updated on the rising edge of WCLK only, and not RCLK. The mode desired is configured during master reset by the state of the programmable flag mode (PFM).

The retransmit function allows data to be reread from the FIFO more than once. A low on the retransmit (RT\) input during a rising RCLK edge initiates a retransmit operation by setting the read pointer to the first location of the memory array. Zero-latency retransmit timing mode can be selected using the retransmit timing mode (RM). During master reset, a low on RM selects zero-latency retransmit. A high on RM during master reset selects normal latency.

If zero-latency retransmit operation is selected, the first data word to be retransmitted is placed on the output register, with respect to the same RCLK edge that initiated the retransmit, if RT\ is low.

See Figures 11 and 12 for normal latency retransmit timing. See Figures 13 and 14 for zero-latency retransmit timing.

The devices can be configured with different input and output bus widths (see Table 1).

A big-endian/little-endian data word format is provided. This function is useful when data is written into the FIFO in long-word (×36/×18) format and read out of the FIFO in small-word (×18/×9) format. If big-endian mode is selected, the most significant byte (MSB) (word) of the long word written into the FIFO is read out of the FIFO first, followed by the least-significant byte (LSB). If little-endian format is selected, the LSB of the long word written into the FIFO is read out first, followed by the MSB. The mode desired is configured during master reset by the state of the big-endian/little-endian (BE\) pin (see Figure 4 for the bus-matching byte arrangement).

The interspersed/noninterspersed parity (IP) bit function allows the user to select the parity bit in the word loaded into the parallel port (D0-Dn) when programming the flag offsets. If interspersed-parity mode is selected, the FIFO assumes that the parity bit is located in bit positions D8, D17, D26, and D35 during the parallel programming of the flag offsets. If noninterspersed-parity mode is selected, D8, D17, and D26 are assumed to be valid bits and D32, D33, D34, and D35 are ignored. Interspersed parity mode is selected during master reset by the state of the IP input. Interspersed parity control has an effect only during parallel programming of the offset registers. It does not affect data written to and read from the FIFO.

The SN74V3640, SN74V3650, SN74V3660, SN74V3670, SN74V3680, and SN74V3690-15PEU are fabricated using high-speed submicron CMOS technology, and are characterized for operation from 0°C to 70°C.

Feature

  • Choice of Memory Organizations
    • SN74V3640 - 1024 × 36 Bit
    • SN74V3650 - 2048 × 36 Bit
    • SN74V3660 - 4096 × 36 Bit
    • SN74V3670 - 8192 × 36 Bit
    • SN74V3680 - 16384 × 36 Bit
    • SN74V3690 - 32768 × 36 Bit
  • 166-MHz Operation (6-ns Read/Write Cycle Time)
  • User-Selectable Input and Output Port Bus Sizing
    • ×36 in to ×36 out
    • ×36 in to ×18 out
    • ×36 in to ×9 out
    • ×18 in to ×36 out
    • ×9 in to ×36 out
  • Big-Endian/Little-Endian User-Selectable Byte Representation
  • 5-V-Tolerant Inputs
  • Fixed, Low, First-Word Latency
  • Zero-Latency Retransmit
  • Master Reset Clears Entire FIFO
  • Partial Reset Clears Data, but Retains Programmable Settings
  • Empty, Full, and Half-Full Flags Signal FIFO Status
  • Programmable Almost-Empty and Almost-Full Flags; Each Flag Can Default to One of Eight Preselected Offsets
  • Selectable Synchronous/Asynchronous Timing Modes for Almost-Empty and Almost-Full Flags
  • Program Programmable Flags by Either Serial or Parallel Means
  • Select Standard Timing (Using EF\ and FF\ Flags) or First-Word Fall-Through (FWFT) Timing (Using OR\ and IR\ Flags)
  • Output Enable Puts Data Outputs in High-Impedance State
  • Easily Expandable in Depth and Width
  • Independent Read and Write Clocks Permit Reading and Writing Simultaneously
  • High-Performance Submicron CMOS Technology
  • Available in 128-Pin Thin Quad Flat Pack (TQFP)
SN74V3690-15PEU所属分类:先进先出(FIFO)存储芯片,SN74V3690-15PEU 由 德州仪器 (Texas) 设计生产,可通过久芯网进行购买。SN74V3690-15PEU价格参考¥191.791992,你可以下载 SN74V3690-15PEU中文资料、PDF数据手册、Datasheet数据手册功能说明书,可查询SN74V3690-15PEU规格参数、现货库存、封装信息等信息!

德州仪器 (Texas)

德州仪器 (Texas)

德州仪器公司(TI)是一家开发模拟IC和嵌入式处理器的全球半导体设计和制造公司。通过雇用世界上最聪明的人,TI创造了塑造技术未来的创新。如今,TI正在帮助超过10万名客户改变未来。

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