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STK14D88-NF35

STK14D88-NF35

  • 厂商:

    ROCHESTER(罗切斯特)

  • 封装:

    SOIC32

  • 描述:

    NON-VOLATILE SRAM, 32KX8, 35NS P

  • 详情介绍
  • 数据手册
  • 价格&库存
STK14D88-NF35 数据手册
THIS SPEC IS OBSOLETE Spec No: 001-52037 Spec Title: STK14D88 32KX8 AUTOSTORE NVSRAM Sunset Owner: Girija Chougala (GVCH) Replaced by: None STK14D88 32Kx8 AutoStore nvSRAM Features Description ■ 25, 35, 45 ns Read Access and R/W Cycle Time ■ Unlimited Read/Write Endurance The Cypress STK14D88 is a 256Kb fast static RAM with a nonvolatile Quantum Trap storage element included with each memory cell. ■ Automatic Nonvolatile STORE on Power Loss ■ Nonvolatile STORE Under Hardware or Software Control ■ Automatic RECALL to SRAM on Power Up ■ Unlimited RECALL Cycles ■ 200K STORE Cycles ■ 20-Year Nonvolatile Data Retention ■ Single 3.0V +20%, -10% Power Supply ■ Commercial, Industrial Temperatures ■ Small Footprint SOIC and SSOP Packages (RoHS-Compliant) The SRAM provides fast access and cycle times, ease of use, and unlimited read and write endurance of a normal SRAM. Data transfers automatically to the nonvolatile storage cells when power loss is detected (the STORE operation). On power up, data is automatically restored to the SRAM (the RECALL operation). Both STORE and RECALL operations are also available under software control. The Cypress nvSRAM is the first monolithic nonvolatile memory to offer unlimited writes and reads. It is the highest performance, most reliable nonvolatile memory available. Logic Block Diagram VCCX DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 INPUT BUFFERS A5 A6 A7 A8 A9 A11 A12 A13 A14 ROW DECODER Quantum Trap 512 x 512 VCAP POWER CONTROL STORE STATIC RAM ARRAY 512 x 512 RECALL STORE/ RECALL CONTROL SOFTWARE DETECT COLUMN I/O HSB A0 - A13 COLUMN DEC A0 A1 A2 A3 A4 A10 G E W Cypress Semiconductor Corporation Document Number: 001-52037 Rev. *B • 198 Champion Court • San Jose, CA 95134-1709 • 408-943-2600 Revised March 02, 2011 STK14D88 Contents Features................................................................................ 1 Description........................................................................... 1 Logic Block Diagram........................................................... 1 Contents ............................................................................... 2 Pin Configurations .............................................................. 3 Pin Descriptions .................................................................. 3 Absolute Maximum Ratings ............................................... 4 DC Characteristics .............................................................. 4 AC Test Conditions ............................................................. 5 Capacitance ......................................................................... 5 SRAM READ Cycles #1 and #2 ..................................... 6 SRAM WRITE Cycle #1 and #2 ..................................... 7 AutoStore/POWER UP RECALL ......................................... 8 Software-Controlled STORE/RECALL Cycle..................... 9 Hardware STORE Cycle ..................................................... 10 Soft Sequence Commands ............................................... 10 Mode Selection ................................................................... 11 Document Number: 001-52037 Rev. *B nvSRAM Operation............................................................ 12 nvSRAM ....................................................................... 12 SRAM READ ................................................................ 12 SRAM WRITE .............................................................. 12 AutoStore Operation...................................................... 12 Hardware STORE (HSB) Operation............................. 12 Software STORE.......................................................... 12 Software RECALL ........................................................ 13 Data Protection............................................................. 13 Best Practices .............................................................. 13 Low Average Active Power .......................................... 13 Noise Considerations ................................................... 14 Preventing AutoStore ................................................... 14 Part Numbering Nomenclature......................................... 16 Package Diagrams............................................................. 17 Document History Page ..................................................... 19 Sales, Solutions, and Legal Information ......................... 19 Worldwide Sales and Design Support.......................... 19 Products ....................................................................... 19 Page 2 of 18 STK14D88 Pin Configurations Figure 1. Pin Diagram 48-Pin SSOP/32-SOIC 32-SOIC 48-Pin SSOP VCAP 1 48 NC A14 2 47 3 46 A12 A7 4 5 45 44 A6 A5 6 43 7 42 HSB W A13 A8 A9 NC A4 8 41 NC 9 40 A11 NC 10 39 NC NC NC 11 38 NC 37 VSS 13 36 NC NC 14 35 15 34 DQ0 16 33 A3 A2 17 32 G 18 31 A10 A1 19 30 E A0 DQ1 DQ2 20 29 21 28 22 23 27 26 DQ7 DQ5 DQ4 DQ3 24 25 VCC TOP VCAP 1 32 VCC A14 2 31 HSB A12 A7 3 30 4 A6 A5 5 29 28 6 27 W A13 A8 A9 A4 A3 7 26 A11 8 25 NC A2 9 24 G NC 10 23 A10 11 22 NC A1 A0 12 21 E DQ7 VSS NC DQ0 DQ1 13 20 DQ6 14 19 DQ5 NC DQ6 DQ2 VSS 15 18 16 17 DQ4 DQ3 TOP Relative PCB Area Usage[1] SSOP NC NC 12 VCC NC Pin Descriptions Pin Name I/O Description A14-A0 Input DQ7-DQ0 I/O E Input Chip Enable: The active low E input selects the device W Input Write Enable: The active low W enables data on the DQ pins to be written to the address location latched by the falling edge of E G Input Output Enable: The active low G input enables the data output buffers during read cycles. De-asserting G high caused the DQ pins to tri-state. VCC HSB Address: The 15 address inputs select one of 32,768 bytes in the nvSRAM array Data: Bi-directional 8-bit data bus for accessing the nvSRAM Power Supply Power: 3.0V, +20%, -10% I/O Hardware Store Busy: When low this output indicates a Store is in progress. When pulled low external to the chip, it initiates a nonvolatile STORE operation. A weak pull up resistor keeps this pin high if not connected. (Connection Optional). VCAP Power Supply AutoStore Capacitor: Supplies power to nvSRAM during power loss to store data from SRAM to nonvolatile storage elements. VSS Power Supply Ground NC No Connect Unlabeled pins have no internal connections. Note 1. See “Package Diagrams” on page 16 for detailed package size specifications. Document Number: 001-52037 Rev. *B Page 3 of 18 STK14D88 Absolute Maximum Ratings Voltage on Input Relative to Ground.................–0.5V to 4.1V Voltage on Input Relative to VSS ...........–0.6V to (VCC + 0.5V) Voltage on DQ0-7 or HSB ......................–0.5V to (VCC + 0.5V) Temperature under Bias ............................... –55C to 125C Storage Temperature .................................... –65C to 140C Note: Stresses greater than those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only, and functional operation of the device at conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. Power Dissipation............................................................. 1W DC Output Current (1 output at a time, 1s duration).... 15 mA NF (SOP-32) PACKAGE THERMAL CHARACTERISTICS jc 5.4 C/W; ja 44.3 [0 fpm], 37.9 [200 fpm], 35.1 C/W [500 fpm]. RF (SSOP-48) PACKAGE THERMAL CHARACTERISTICS jc 6.2 C/W; ja 51.1 [0 fpm], 44.7 [200 fpm], 41.8 C/W [500 fpm]. DC Characteristics (VCC = 2.7V-3.6V) Symbol Parameter[2] Commercial Min Max Industrial Min Max Unit Notes ICC1 Average VCC Current 65 55 50 70 60 55 mA mA mA tAVAV = 25 ns tAVAV = 35 ns tAVAV = 45 ns Dependent on output loading and cycle rate. Values obtained without output loads. ICC2 Average VCC Current during STORE 3 3 mA All Inputs Don’t Care, VCC = max Average current for duration of STORE cycle (tSTORE) ICC3 Average VCC Current at tAVAV = 200ns 3V, 25°C, Typical 10 10 mA W  (V CC – 0.2V) All Others Cycling, CMOS Levels Dependent on output loading and cycle rate. Values obtained without output loads. ICC4 Average VCAP Current during AutoStore Cycle 3 3 mA All Inputs Don’t Care Average current for duration of STORE cycle (tSTORE) ISB VCC Standby Current (Standby, Stable CMOS Input Levels) 3 3 mA E  (V CC – 0.2V) All Others VIN  0.2V or  (VCC – 0.2V) Standby current level after nonvolatile cycle complete IILK Input Leakage Current 1 1 A VCC = max VIN = VSS to VCC IOLK Off State Output Leakage Current 1 1 A VCC = max VIN = VSS to VCC, E or G VIH VIH Input Logic “1” Voltage 2.0 VCC + .5 2.0 VCC + .5 V All Inputs VSS – .5 0.8 VSS – .5 0.8 VIL Input Logic “0” Voltage VOH Output Logic “1” Voltage VOL Output Logic “0” Voltage 2.4 2.4 0.4 0.4 V All Inputs V IOUT = – 2 mA V IOUT = 4 mA Note: 2. The HSB pin has IOUT=-10uA for VOH of 2.4V, this parameter is characterized but not tested Document Number: 001-52037 Rev. *B Page 4 of 18 STK14D88 DC Characteristics (continued) (VCC = 2.7V-3.6V) Commercial Parameter[2] Symbol TA Operating Temperature Industrial Min Max Min Max 0 70 - 40 85 Unit Notes C VCC Operating Voltage 2.7 3.6 2.7 3.6 V 3.3V +20%, -10% VCAP Storage Capacitance 17 120 17 120 F Between VCAP pin and VSS, 5V Rated DATAR Data Retention 20 20 NVC Nonvolatile STORE Operations 200 200 K Years At 55C AC Test Conditions Input Pulse Levels .................................................... 0V to 3V Input Rise and Fall Times ............................................
STK14D88-NF35
物料型号:STK14D88 器件简介:Cypress的STK14D88是一款带有非易失性量子陷阱存储单元的256Kb快速静态随机存取存储器(SRAM)。它具备快速访问和周期时间、易用性以及标准SRAM的无限读/写耐力。当检测到断电时,数据会自动转移到非易失性存储单元(STORE操作)。通电时,数据会自动恢复到SRAM(RECALL操作)。STORE和RECALL操作也可以在软件控制下进行。

引脚分配:STK14D88有48引脚SSOP和32引脚SOIC两种封装形式。包括电源引脚(VCC和VSS)、地址输入(A0-A14)、数据输入输出(DQ0-DQ7)、控制引脚(E、W、c)、硬件存储忙信号(HSB)、自动存储电容器(VCAP)以及无连接引脚(NC)。

参数特性: - 读访问和读写周期时间分别为25、35、45纳秒。 - 无限的读/写耐久性。 - 自动非易失性存储,以防断电。 - 非易失性存储可在硬件或软件控制下进行。 - 通电时自动恢复到SRAM。 - 长达20年的非易失性数据保留。 - 单一3.0V ±20%,-10%电源供应。 - 商用、工业温度范围。 - 小型SOIC和SSOP封装(符合RoHS)。

功能详解: - STK14D88是首款单片非易失性存储器,提供无限的写入和读取。 - 包括逻辑块图、存储/调用操作、模式选择和数据保护等详细操作说明。 - 包括最佳实践、低平均活跃功耗、噪声考虑和防止自动存储的指导。

应用信息:由于其独特的非易失性特性,STK14D88适用于需要断电保护数据的应用场合。

封装信息:提供两种不同引脚数的封装选项,以适应不同的应用需求。
STK14D88-NF35 价格&库存

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