产品详情

Function Memory interface Additive RMS jitter (typ) (fs) 30 Output frequency (max) (MHz) 945 Number of outputs 60 Output supply voltage (V) 1.35 Core supply voltage (V) 1.35 Features DDR3 register Operating temperature range (°C) 0 to 85 Rating Catalog Output type CMOS Input type CMOS
Function Memory interface Additive RMS jitter (typ) (fs) 30 Output frequency (max) (MHz) 945 Number of outputs 60 Output supply voltage (V) 1.35 Core supply voltage (V) 1.35 Features DDR3 register Operating temperature range (°C) 0 to 85 Rating Catalog Output type CMOS Input type CMOS
NFBGA (ZAL) 176 108 mm² 13.5 x 8
  • JEDEC SSTE32882
  • 1-to-2 Register Outputs and 1-to-4 Clock Pair Outputs Support
    Stacked DDR3 RDIMMs
  • CKE Powerdown Mode for Optimized System Power Consumption
  • 1.5V/1.35V/1.25V Phase Lock Loop Clock Driver for Buffering
    One Differential Clock Pair (CK and CK)
    and Distributing to Four Differential Outputs
  • 1.5V/1.35V/1.25V CMOS Inputs
  • Checks Parity on Command and Address (CS-Gated) Data Inputs
  • Configurable Driver Strength
  • Uses Internal Feedback Loop
  • Optimized Power Consumption
  • JEDEC SSTE32882
  • 1-to-2 Register Outputs and 1-to-4 Clock Pair Outputs Support
    Stacked DDR3 RDIMMs
  • CKE Powerdown Mode for Optimized System Power Consumption
  • 1.5V/1.35V/1.25V Phase Lock Loop Clock Driver for Buffering
    One Differential Clock Pair (CK and CK)
    and Distributing to Four Differential Outputs
  • 1.5V/1.35V/1.25V CMOS Inputs
  • Checks Parity on Command and Address (CS-Gated) Data Inputs
  • Configurable Driver Strength
  • Uses Internal Feedback Loop
  • Optimized Power Consumption

This 1:2 or 26-bit 1:2 and 4-bit 1:1 registering clock driver with parity is designed for operation on DDR3 registered DIMMs with VDD of 1.5 V, on DDR3L registered DIMMs with VDD of 1.35 V and on DDR3U registered DIMMs with VDD of 1.25 V.

All inputs are 1.5 V, 1.35V and 1.25 V CMOS compatible. All outputs are CMOS drivers optimized to drive DRAM signals on terminated traces in DDR3 RDIMM applications. The clock outputs Yn and Yn and control net outputs DxCKEn, DxCSn and DxODTn can be driven with a different strength and skew to optimize signal integrity, compensate for different loading and equalize signal travel speed.

The SN74SSQEC32882 has two basic modes of operation associated with the Quad Chip Select Enable (QCSEN) input. When the QCSEN input pin is open (or pulled high), the component has two chip select inputs, DCS0 and DCS1, and two copies of each chip select output, QACS0, QACS1, QBCS0 and QBCS1. This is the "QuadCS disabled" mode. When the QCSEN input pin is pulled low, the component has four chip select inputs DCS[3:0], and four chip select outputs, QCS[3:0]. This is the "QuadCS enabled" mode. Through the remainder of this specification, DCS[n:0] will indicate all of the chip select inputs, where n=1 for QuadCS disabled, and n=3 for QuadCS enabled. QxCS[n:0] will indicate all of the chip select outputs.

The device also supports a mode where a single device can be mounted on the back side of a DIMM. If MIRROR=HIGH, Input Bus Termination (IBT) has to stay enabled for all input signals in this case.

The SN74SSQEC32882 operates from a differential clock (CK and CK). Data are registered at the crossing of CK going HIGH, and CK going LOW. This data could be either re-driven to the outputs or it could be used to access device internal control registers.

The input bus data integrity is protected by a parity function. All address and command input signals are added up and the last bit of the sum is compared to the parity signal delivered by the system at the input PAR_IN one clock cycle later. If they do not match the device pulls the open drain output ERROUT LOW. The control signals (DCKE0, DCKE1, DODT0, DODT1, DCS[n:0]) are not part of this computation.

The SN74SSQEC32882 implements different power saving mechanisms to reduce thermal power dissipation and to support system power down states. By disabling unused outputs the power consumption is further reduced.

The package is optimized to support high density DIMMs. By aligning input and output positions towards DIMM finger signal ordering and SDRAM ballout the device de-scrambles the DIMM traces allowing low cross talk design with low interconnect latency.

Edge controlled outputs reduce ringing and improve signal eye opening at the SDRAM inputs.

This 1:2 or 26-bit 1:2 and 4-bit 1:1 registering clock driver with parity is designed for operation on DDR3 registered DIMMs with VDD of 1.5 V, on DDR3L registered DIMMs with VDD of 1.35 V and on DDR3U registered DIMMs with VDD of 1.25 V.

All inputs are 1.5 V, 1.35V and 1.25 V CMOS compatible. All outputs are CMOS drivers optimized to drive DRAM signals on terminated traces in DDR3 RDIMM applications. The clock outputs Yn and Yn and control net outputs DxCKEn, DxCSn and DxODTn can be driven with a different strength and skew to optimize signal integrity, compensate for different loading and equalize signal travel speed.

The SN74SSQEC32882 has two basic modes of operation associated with the Quad Chip Select Enable (QCSEN) input. When the QCSEN input pin is open (or pulled high), the component has two chip select inputs, DCS0 and DCS1, and two copies of each chip select output, QACS0, QACS1, QBCS0 and QBCS1. This is the "QuadCS disabled" mode. When the QCSEN input pin is pulled low, the component has four chip select inputs DCS[3:0], and four chip select outputs, QCS[3:0]. This is the "QuadCS enabled" mode. Through the remainder of this specification, DCS[n:0] will indicate all of the chip select inputs, where n=1 for QuadCS disabled, and n=3 for QuadCS enabled. QxCS[n:0] will indicate all of the chip select outputs.

The device also supports a mode where a single device can be mounted on the back side of a DIMM. If MIRROR=HIGH, Input Bus Termination (IBT) has to stay enabled for all input signals in this case.

The SN74SSQEC32882 operates from a differential clock (CK and CK). Data are registered at the crossing of CK going HIGH, and CK going LOW. This data could be either re-driven to the outputs or it could be used to access device internal control registers.

The input bus data integrity is protected by a parity function. All address and command input signals are added up and the last bit of the sum is compared to the parity signal delivered by the system at the input PAR_IN one clock cycle later. If they do not match the device pulls the open drain output ERROUT LOW. The control signals (DCKE0, DCKE1, DODT0, DODT1, DCS[n:0]) are not part of this computation.

The SN74SSQEC32882 implements different power saving mechanisms to reduce thermal power dissipation and to support system power down states. By disabling unused outputs the power consumption is further reduced.

The package is optimized to support high density DIMMs. By aligning input and output positions towards DIMM finger signal ordering and SDRAM ballout the device de-scrambles the DIMM traces allowing low cross talk design with low interconnect latency.

Edge controlled outputs reduce ringing and improve signal eye opening at the SDRAM inputs.

下载 观看带字幕的视频 视频

技术文档

star =有关此产品的 TI 精选热门文档
未找到结果。请清除搜索并重试。
查看全部 1
类型 标题 下载最新的英语版本 日期
* 数据表 DDR3 寄存器和 PLL 数据表 2011年 8月 24日

设计和开发

如需其他信息或资源,请点击以下任一标题进入详情页面查看(如有)。

模拟工具

PSPICE-FOR-TI — 适用于 TI 设计和模拟工具的 PSpice®

PSpice® for TI 可提供帮助评估模拟电路功能的设计和仿真环境。此功能齐全的设计和仿真套件使用 Cadence® 的模拟分析引擎。PSpice for TI 可免费使用,包括业内超大的模型库之一,涵盖我们的模拟和电源产品系列以及精选的模拟行为模型。

借助 PSpice for TI 的设计和仿真环境及其内置的模型库,您可对复杂的混合信号设计进行仿真。创建完整的终端设备设计和原型解决方案,然后再进行布局和制造,可缩短产品上市时间并降低开发成本。

在 PSpice for TI 设计和仿真工具中,您可以搜索 TI (...)
封装 引脚 下载
NFBGA (ZAL) 176 查看选项

订购和质量

包含信息:
  • RoHS
  • REACH
  • 器件标识
  • 引脚镀层/焊球材料
  • MSL 等级/回流焊峰值温度
  • MTBF/时基故障估算
  • 材料成分
  • 鉴定摘要
  • 持续可靠性监测
包含信息:
  • 制造厂地点
  • 封装厂地点

支持和培训

视频