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    65NM PROCESS LOW K Search Results

    65NM PROCESS LOW K Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMP89FS60AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP64-P-1010-0.50E Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP52-P-1010-0.65 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS60BFG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP64-1414-0.80-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63BUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP52-1010-0.65-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS62AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP44-P-1010-0.80A Visit Toshiba Electronic Devices & Storage Corporation

    65NM PROCESS LOW K Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Untitled

    Abstract: No abstract text available
    Text: Product Brief Intel Celeron® M Processors on 65nm Embedded Computing Intel® Celeron® M Processors on 65nm for Embedded Computing Product Overview Intel® Celeron® M processors, based on 65-nanometer nm process technology, are available in both standard and ultra low-voltage


    Original     		PDF 65-nanometer 0906/KSC/OCG/XX/PDF 314731-001US

    CS26LV64173

    Abstract: No abstract text available
    Text: Low Power Pseudo SRAM 4 M Words x 16 bit CS26LV64173 Revision History Rev. No. 1.0 History Issue Date 1. New Release. Mar.27, 2013 2. Product Process change from 90nm to 65nm 3. The device build in Power Saving mode as below : 3-1. Deep Power Down DPD 3-2. Partial Array Refresh (PAR)


    Original     		PDF CS26LV64173 CS26LV64173

    USE OF TRANSISTOR

    Abstract: 2C20 Altera Cyclone II 2C70
    Text: LOW-POWER SOFTWARE-DEFINED RADIO DESIGN USING FPGAS Charlie Jenkins, Altera Corporation San Jose, California, USA; chjenkin@altera.com Paul Ekas, (Altera Corporation San Jose, California, USA; pekas@altera.com) ABSTRACT Software-defined radios (SDR) are emerging as a key


    Original     		PDF 65-nm USE OF TRANSISTOR 2C20 Altera Cyclone II 2C70

    Untitled

    Abstract: No abstract text available
    Text: Conference website: www.mentor.com/user2user Power Optimization Innovations in 65-nm FPGAs Mouzam Khan Software Applications Engineering, Altera mkhan@altera.com Process or Design Technology When Introduced by Altera Benefit All Copper Routing 150 nm Increased


    Original     		PDF 65-nm

    fujitsu transistor

    Abstract: 90nm CMOS RF circuit and its application RF TRANSISTOR fujitsu ic wireless 65nm lte demodulator CMOS lan transistor
    Text: Fujitsu RF CMOS David Fung Fujitsu Microelectronics America, Inc. November 2008 RF CMOS Announcement Highlights „ „ „ The Fujitsu 65nm and 90nm RF CMOS process technologies Advanced analog and RF device process design kit RF CMOS technology platform for consumer, wireless and


    Original     		PDF

    TAG 9344

    Abstract: car Speed Sensor using RFID CS200 FUJITSU FRAM CAR HORN Specification CMOS image sensor fingerprint circuit wimax soc CS100 CS200A CS300
    Text: 2005 Executive Briefing Fujitsu Microelectronics America, Inc Program Introduction Emi Igarashi Corporate Overview Kazuyuki Kawauchi Business Update Keith Horn Summary / Q&A Keith Horn 09/20/2005, Executive Briefing 2 Fujitsu Microelectronics America, Inc. 2005


    Original     		PDF 10GbE, IDB1394, TAG 9344 car Speed Sensor using RFID CS200 FUJITSU FRAM CAR HORN Specification CMOS image sensor fingerprint circuit wimax soc CS100 CS200A CS300

    tsmc 130nm metal process

    Abstract: tsmc 130 lp 65nm tsmc design rule Qualcomm "power management" 2010 Altera Cyclone III qualcomm power
    Text: White Paper Achieving Low Power in 65-nm Cyclone III FPGAs With the introduction of the 65-nm Cyclone III family, Altera continues to deliver greater capabilities to designers of cost-sensitive high-volume applications. The move to the 65-nm process node provides the benefits associated with


    Original     		PDF 65-nm 90-nm tsmc 130nm metal process tsmc 130 lp 65nm tsmc design rule Qualcomm "power management" 2010 Altera Cyclone III qualcomm power

    Untitled

    Abstract: No abstract text available
    Text: LM95241 www.ti.com SNIS143E – AUGUST 2006 – REVISED MARCH 2013 LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology 65nm/90nm Check for Samples: LM95241 FEATURES KEY SPECIFICATIONS • • 1 2 • • • • •


    Original     		PDF LM95241 SNIS143E LM95241 65nm/90nm) 2N3904

    3904 transistor

    Abstract: No abstract text available
    Text: LM95241 www.ti.com SNIS143E – AUGUST 2006 – REVISED MARCH 2013 LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology 65nm/90nm Check for Samples: LM95241 FEATURES KEY SPECIFICATIONS • • 1 2 • • • • •


    Original     		PDF LM95241 SNIS143E LM95241 65nm/90nm) 2N3904 10-bits 11-bits 3904 transistor

    Untitled

    Abstract: No abstract text available
    Text: LM95241 www.ti.com SNIS143E – AUGUST 2006 – REVISED MARCH 2013 LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology 65nm/90nm Check for Samples: LM95241 FEATURES KEY SPECIFICATIONS • • 1 2 • • • • •


    Original     		PDF LM95241 SNIS143E LM95241 65nm/90nm) 2N3904 10-bits 11-bits

    3904 transistor

    Abstract: amd athlon PIN LAYOUT
    Text: LM95241 www.ti.com SNIS143E – AUGUST 2006 – REVISED MARCH 2013 LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology 65nm/90nm Check for Samples: LM95241 FEATURES KEY SPECIFICATIONS • • 1 2 • • • • •


    Original     		PDF LM95241 SNIS143E LM95241 65nm/90nm) 2N3904 10-bits 11-bits 3904 transistor amd athlon PIN LAYOUT

    TSMC 40nm

    Abstract: ep330 microprocessor 80286 internal architecture cots fpga radiation fpga radiation COTS manufacturer list cots radiation radar sensor specification vhdl source code for 8086 microprocessor working of 80286 I386
    Text: White Paper Military Benefits of the Managed Risk Process at 40 nm Introduction Every successive technology node in the silicon manufacturing process timeline presents new and significant technical challenges. Historically, these challenges have been addressed head-on with the knowledge that


    Original     		PDF

    180-nm CMOS standard cell library inverter

    Abstract: 130 nm CMOS standard cell library 45-nm CMOS standard cell library process technology 45 nm library CS200A 130nm 130-nm CMOS standard cell library inverter S/130 nm CMOS standard cell library SEM 2006 CS201
    Text: Fujitsu @ 65nm: Providing Solutions through Integrated Design Services The Fujitsu Advantage…Not Just a Foundry Contents „ „ „ Benefits of leading-edge technology at 65nm Challenges Solutions Fujitsu Microelectronics America, Inc. 2 FSA Semiconductor Forum, June 14, 2006


    Original     		PDF 130nm 180-nm CMOS standard cell library inverter 130 nm CMOS standard cell library 45-nm CMOS standard cell library process technology 45 nm library CS200A 130-nm CMOS standard cell library inverter S/130 nm CMOS standard cell library SEM 2006 CS201

    Ba-5590

    Abstract: uav design BA5590 uav design specification uav sensors radar dsp processor radar sensor specification SPACE POWER ELECTRONICS EP3C120 Altera PCMCIA
    Text: White Paper Addressing SWaP Challenges in Military Platforms With 65-nm FPGAs and Structured ASICs Introduction Now more than ever, size, weight, and power SWaP must be managed and reduced across virtually all military and aerospace applications to improve operational efficiency and logistics, increase mission life, and reduce the total cost


    Original     		PDF 65-nm Ba-5590 uav design BA5590 uav design specification uav sensors radar dsp processor radar sensor specification SPACE POWER ELECTRONICS EP3C120 Altera PCMCIA

    XPOSYS

    Abstract: GPS TRACKER h935 Infineon XPOSYS XPOSYS chip gps architecture circuit diagram of Key finder wireless Key Finder E112 E911
    Text: Product Brief XPOSYS TM Leading-Edge A-GPS true Single-Chip Receiver Key Features and Benefits Xposys is the eXcellent POsitioning SYStem that brings Infineon’s single-chip A-GPS family to the next level of integration, based on 65nm technology node. TM


    Original     		PDF B153-H9355-X-X-7600 NB09-1007 XPOSYS GPS TRACKER h935 Infineon XPOSYS XPOSYS chip gps architecture circuit diagram of Key finder wireless Key Finder E112 E911

    CC0512TS-T65LP

    Abstract: cosmic circuits 65lp 2306A TSMC65LP
    Text: CC0512TS-T65LP Accurate temp-sensor with digital read-out January 2008, Version 1.0 April 2007, Version 1.0 KEY FEATURES ◘ ◘ ◘ ◘ ◘ ◘ ◘ ◘ ◘ ◘ Temperature Sensor with digital read-out 12-bit sigma-delta ADC for digital readout Temperature range: -40ºC to 125ºC


    Original     		PDF CC0512TS-T65LP 12-bit CC0512TS-T65LP cosmic circuits 65lp 2306A TSMC65LP

    Transmeta

    Abstract: 10G CX4 MBF200 "lattice semiconductor" 44 codec MB86V01 mission cyrus 007B FUJITSU FRAM OFDM-256 0.18um structured ASIC
    Text: Fujitsu Microelectronics America, Inc. Executive Briefing Growing Through Innovation and IDM Leadership September 22, 2004 Fujitsu Microelectronics America, Inc. 9/22/04 1 Program • • • • Introduction Emi Igarashi Corporate Overview Ken Iida Products Update


    Original     		PDF MBF200 IDB1394 Transmeta 10G CX4 "lattice semiconductor" 44 codec MB86V01 mission cyrus 007B FUJITSU FRAM OFDM-256 0.18um structured ASIC

    laptop mother board voltage details

    Abstract: 452 diode 3904 transistor 2n3904 transistor 2N3904 LM95241 LM95241CIMM LM95241CIMM-1 LM95241CIMM-2 LM95241CIMMX
    Text: LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology 65nm/90nm General Description The LM95241 is a precision dual remote diode temperature sensor (RDTS) that uses National’s TruTherm technology. The 2-wire serial interface of the LM95241 is compatible with


    Original     		PDF LM95241 65nm/90nm) LM95241 laptop mother board voltage details 452 diode 3904 transistor 2n3904 transistor 2N3904 LM95241CIMM LM95241CIMM-1 LM95241CIMM-2 LM95241CIMMX

    laptop mother board voltage details

    Abstract: 3904 TRANSISTOR AMD Sempron 140 2N3904 LM95241 LM95241CIMM LM95241CIMM-1 LM95241CIMM-2 LM95241CIMMX LM95241CIMMX-1
    Text: LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology 65nm/90nm • Remote temperature readings without digital filtering: General Description The LM95241 is a precision dual remote diode temperature sensor (RDTS) that uses National's TruTherm technology.


    Original     		PDF LM95241 65nm/90nm) LM95241 laptop mother board voltage details 3904 TRANSISTOR AMD Sempron 140 2N3904 LM95241CIMM LM95241CIMM-1 LM95241CIMM-2 LM95241CIMMX LM95241CIMMX-1

    CS200

    Abstract: 65nm DDR PHY ASIC HDMI to lvttl cmos logic 90nm DAC 90nm CS200A 65-NM UHS SD Card Hdmi to micro usb wiring
    Text: 65nm CMOS Standard Cell Leakage Current Large CS200 ASIC Series Server/ Network Low Power Power Low Lineup Lineup CS200LL CS200A HV-Tr DHV-Tr HS-Tr Mo C Mobile STD-Tr STD-Tr LL-Tr Computing High End Server HighHigh Performance Performance Lineup LineupCS200HP


    Original     		PDF CS200 CS200LL CS200A CS200HP CS200 12-layer 10-bit 33MS/s 1110MS/s 65nm DDR PHY ASIC HDMI to lvttl cmos logic 90nm DAC 90nm CS200A 65-NM UHS SD Card Hdmi to micro usb wiring

    laptop mother board voltage details

    Abstract: 3904 TRANSISTOR 2N3904 APP National Discrete Products
    Text: LM95241 LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruThermTechnology 65nm/90nm Literature Number: SNIS143D LM95241 Dual Remote Diode Temperature Sensor with SMBus Interface and TruTherm Technology (65nm/90nm) • Remote temperature readings without digital filtering:


    Original     		PDF LM95241 LM95241 65nm/90nm) SNIS143D laptop mother board voltage details 3904 TRANSISTOR 2N3904 APP National Discrete Products

    CS200A

    Abstract: fujitsu transistor CS200 IEC61883 generic dvd player power supply wimax soc FCBGA728
    Text: Winter 2006 The News on the Latest Semiconductor Technologies and Products from Fujitsu Microelectronics America, Inc. The Fujitsu WiMAX SoC Enjoys Strong Industry Acceptance Major broadband Wireless Access manufacturers are choosing the Fujitsu IEEE 802.16-2004


    Original     		PDF CORP-NL-21143-1/2006 CS200A fujitsu transistor CS200 IEC61883 generic dvd player power supply wimax soc FCBGA728

    WP-01006

    Abstract: tsmc 130nm metal process 2015 static ram Position Estimation
    Text: White Paper Stratix III Programmable Power Introduction Traditionally, digital logic has not consumed significant static power, but this has changed with very small process nodes. Leakage current in digital logic is now the primary challenge for FPGAs as process geometries decrease.


    Original     		PDF 65-nm WP-01006 tsmc 130nm metal process 2015 static ram Position Estimation

    samsung i2c tuner

    Abstract: 3g receiver chip FOR mobile S3C4F65 BAND III samsung bluetooth ALL TV TUNER samsung mbrai picture in picture chip UHF lna with agc samsung t-dmb
    Text: Samsung S3C4F65 Single-Chip Mobile TV Channel Decoder RF SoC Design Your Next Big "Killer App" Using This Single-chip, Multi-band, Multi-standard Mobile TV Receiver System-on-Chip SoC Product Brief The Samsung S3C4F65 is a high performance single-chip Mobile TV Channel


    Original     		PDF S3C4F65 S3C4F65 samsung i2c tuner 3g receiver chip FOR mobile BAND III samsung bluetooth ALL TV TUNER samsung mbrai picture in picture chip UHF lna with agc samsung t-dmb