Details, datasheet, quote on part number: N36S183WPFAF
PartN36S183WPFAF
CategoryMemory => SRAM => Sync. SRAM
DescriptionSynch, Pipeline/Flow-Thru, 18, 2.5, 3.3, 133 - 300, 2.3 - 4.0, 119-PBGA, 165-FPBGA,
CompanyNanoAmp Solutions, Inc.
DatasheetDownload N36S183WPFAF datasheet
  

 

Features, Applications

NanoAmp Solutions, Inc. 1982 Zanker Road, San Jose, CA 95112 ph: 408-573-8878, FAX: 408-573-8877 www.nanoamp.com

Features

High performance synchronous operation Cycle times to 300MHz Access times as fast as 2.3nS Single device supports power supply or 2.5V Separate I/O power supply or 2.5V User selectable pipeline and flow-thru operating modes for BGA devices Individual byte write operation Three chip enables Simple depth expansion ZZ mode for low power sleep mode Mode pin for setting interleave or linear burst mode of operation JTAG Boundary Scan (BGA only) JEDEC standard packages: 100-pin TQFP, 165-ball FPBGA, 119-ball PBGA and 209ball PBGA (x72) storage and networking memory. This 36Mb family is ideal for networking and communication systems where high-density, high-performance memory elements are required.

These 36Mb high performance synchronous SRAMs form a family of device options for those demanding high performance. The memory devices contain 36Mb of memory cells organized 36 (N36N36) and 72 (N36N72). The devices operate in a synchronous manner with control signals, addresses and data inputs synchronized and captured at the rising edge of clock for ease of use. An asynchronous OE is available for disabling the outputs at any time. An asynchronous ZZ signal can be used to put the device into sleep mode with all data retained. User configurable operation in pipeline or flow-thru modes is allowed through control of the FT input for BGA devices. Either pipeline or flowthru devices are available in TQFP packages. The devices are fabricated using NanoAmp's advanced CMOS process and high-speed/ultra low-power circuit technology. These 36Mb devices are the type of SRAMs originally developed as L2 cache memories for high performance CPUs. They now can be used in applications ranging from processor caches, DSP

Options

Organization 72 N36S72 Operating Mode (for TQFP only) P1 (only for TQFP) SCD Pipeline P2 (only for TQFP) DCD Pipeline F1 (only for TQFP) Flow-Thru PF (for all BGA) Pipeline or Flow-Thru Package 100-pin TQFP Q 119-ball PBGA G 165-ball FPBGA F 209-ball PBGA X

This is an advance datasheet and subject to change without notice. NanoAmp Proprietary and Confidential

DQcP DQc VDDQ VSS DQc VSS VDDQ DQc NC VDD NC VSS DQd VDDQ VSS DQd VSS VDDQ DQd DQdP
DQbP DQb VDDQ VSS DQb VSS VDDQ DQb VSS NC VDD ZZ DQa VDDQ VSS DQa VSS VDDQ DQa DQaP

VDDQ NC DQb NC VDDQ NC DQb VDDQ NC DQb VDDQ DQb NC VDDQ NC DQb NC DQb NC VDD DQb NC DQb NC DQbP A TMS VSS BWb VSS NC VSS LBO A TDI 4 ADSP ADSC VDD CE1 OE ADV GW VDD CLK A1 A0 VDD A TCK VSS NC VSS BWa VSS FT A TDO DQaP NC DQa NC DQa VDD NC DQa NC DQa NC 7 VDDQ NC DQa VDDQ DQa NC VDDQ DQa NC VDDQ NC DQa NC ZZ VDDQ

VDDQ NC DQc VDDQ DQc VDDQ DQd VDDQ DQd NC VDDQ DQcP DQc VDD DQd DQdP A TMS VSS BWc VSS NC VSS BWd VSS LBO A TDI 4 ADSP ADSC VDD CE1 OE ADV GW VDD CLK A1 A0 VDD A TCK VSS BWb VSS NC VSS BWa VSS FT A TDO DQbP DQb VDD DQa DQaP NC 7 VDDQ NC DQb VDDQ DQb VDDQ DQa VDDQ DQa NC ZZ VDDQ


 

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