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    ARDIN FREQUENCY CONTROL Search Results

    ARDIN FREQUENCY CONTROL Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    SSM6J808R Toshiba Electronic Devices & Storage Corporation MOSFET, P-ch, -40 V, -7 A, 0.035 Ohm@10V, TSOP6F, AEC-Q101 Visit Toshiba Electronic Devices & Storage Corporation
    SSM6K819R Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 100 V, 10 A, 0.0258 Ohm@10V, TSOP6F, AEC-Q101 Visit Toshiba Electronic Devices & Storage Corporation
    SSM6K809R Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 60 V, 6.0 A, 0.036 Ohm@10V, TSOP6F, AEC-Q101 Visit Toshiba Electronic Devices & Storage Corporation
    SSM6K504NU Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 30 V, 9.0 A, 0.0195 Ohm@10V, UDFN6B, AEC-Q101 Visit Toshiba Electronic Devices & Storage Corporation
    SSM3K361R Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 100 V, 3.5 A, 0.069 Ohm@10V, SOT-23F, AEC-Q101 Visit Toshiba Electronic Devices & Storage Corporation

    ARDIN FREQUENCY CONTROL Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    vhdl source code for i2c memory (read and write)

    Abstract: 68HC11 EPM1270 EPM2210 EPM240 EPM570
    Text: 9. Using User Flash Memory in MAX II Devices MII51010-1.8 Introduction MAX II devices feature a user flash memory UFM block that can be used similar to a serial EEPROM for storing non-volatile information up to 8 Kbits. The UFM provides an ideal storage solution supporting any possible protocol for interfacing


    Original     		PDF MII51010-1 vhdl source code for i2c memory (read and write) 68HC11 EPM1270 EPM2210 EPM240 EPM570

    8 way dip switch

    Abstract: AN-489 verilog code for i2c VHDL code for lcd interfacing to cpld 8-Way DIP Switch vhdl source code for i2c memory read and write vhdl code for i2c vhdl code for i2c Slave verilog code for parallel flash memory I2C CODE OF READ IN VHDL
    Text: Using the UFM in MAX II Devices Application Note 489 December 2007, version 1.0 Introduction This application note discusses storing non-volatile information. Most CPLDs use serial EEPROMs to achieve non-volatile information storage, but MAX II CPLDs are the only CPLDs that offer User Flash Memory


    Original     		PDF

    mv109 varicap diode

    Abstract: 714 diode varicap MV109 ECHO canceller IC 1N4001 500E C102 50109 PE-68650 SK70704
    Text: APPLICATION NOTE 76 MARCH 1998 MDSL and HDSL Line Interface Introduction rEV Revision 1.0 Transmission Performance This application note presents a high performance line interface circuit for Level One MDSL Multi-rate Digital Subscriber Line and HDSL transceivers. This circuit operates on longer loops in low-noise environments. It also


    Original     		PDF AN76-MDSL/HDSL-1297- mv109 varicap diode 714 diode varicap MV109 ECHO canceller IC 1N4001 500E C102 50109 PE-68650 SK70704

    source code for eeprom 24LC

    Abstract: atmel 93c66A S93C56 BR9080AF-W i2c software program at24c04 24C02B 25LC080 atmel 24c02a S-93C56B stmicroelectronics "serial eeprom"
    Text: Section III. User Flash Memory This section provides information on the user flash memory UFM block in MAX II devices. This section includes the following chapters: • Chapter 9, Using User Flash Memory in MAX II Devices ■ Chapter 10, Replacing Serial EEPROMs with MAX II User Flash Memory


    Original     		PDF

    mv109 varicap diode

    Abstract: midcom AN76 PE-68650 line echo cancellation ic 671-7376 DSL Line TRANSFORMER and Hybrid 1N4001 C102 PE-68614
    Text: MDSL and HDSL Line Interface Application Note January 2001 Order Number: 248998-001 As of January 15, 2001, this document replaces the Level One document known as AN76. Information in this document is provided in connection with Intel products. No license, express or implied, by estoppel or otherwise, to any intellectual


    Original     		PDF

    TZX 214 transistor

    Abstract: EPM1270 EPM2210 EPM240 EPM570
    Text: Chapter 5. DC & Switching Characteristics MII51005-1.1 Operating Conditions Tables 5–1 through 5–12 provide information on absolute maximum ratings, recommended operating conditions, DC electrical characteristics, and other specifications for MAX II devices.


    Original     		PDF MII51005-1 TZX 214 transistor EPM1270 EPM2210 EPM240 EPM570

    5M1270

    Abstract: 5m240 5M1270Z 5M80 5M40 Altera MAX V 5M40Z 5M160Z 5M240Z 5M2210Z
    Text: Section II. System Integration in MAX V Devices This section provides information about system integration in MAX V devices. This section includes the following chapters: May 2011 • Chapter 4, Hot Socketing and Power-On Reset in MAX V Devices ■ Chapter 5, Using MAX V Devices in Multi-Voltage Systems


    Original     		PDF MV51004-1 5M1270 5m240 5M1270Z 5M80 5M40 Altera MAX V 5M40Z 5M160Z 5M240Z 5M2210Z

    EPM240G

    Abstract: ARDIN OSCILLATORS altera board
    Text: Using the Internal Oscillator in MAX II CPLDs Application Note 496 December 2007, ver. 1.0 Introduction MAX II devices have an internal oscillator as part of the user flash memory UFM . The internal oscillator can be used to meet the clocking requirements of many designs and eliminate the requirement for an


    Original     		PDF

    ARDIN OSCILLATORS

    Abstract: No abstract text available
    Text: Using the Internal Oscillator in MAX II and MAX V CPLDs AN-496-2.0 Application Note This application note describes instantiating the internal oscillator and using it in the MAX II and MAX V devices. MAX II and MAX V devices offer a unique internal oscillator feature as part of the


    Original     		PDF AN-496-2 ARDIN OSCILLATORS

    Untitled

    Abstract: No abstract text available
    Text: 5. DC and Switching Characteristics MII51005-2.4 Introduction System designers must consider the recommended DC and switching conditions discussed in this chapter to maintain the highest possible performance and reliability of the MAX II devices. This chapter contains the following sections:


    Original     		PDF MII51005-2

    ma2837

    Abstract: EPM1270 EPM2210 EPM240 EPM570
    Text: Chapter 5. DC & Switching Characteristics MII51005-1.8 Operating Conditions Tables 5–1 through 5–12 provide information on absolute maximum ratings, recommended operating conditions, DC electrical characteristics, and other specifications for MAX II devices.


    Original     		PDF MII51005-1 ma2837 EPM1270 EPM2210 EPM240 EPM570

    MAX7064

    Abstract: No abstract text available
    Text: Chapter 5. DC and Switching Characteristics MII51005-2.2 Introduction System designers must consider the recommended DC and switching conditions discussed in this chapter to maintain the highest possible performance and reliability of the MAX II devices. This chapter contains


    Original     		PDF MII51005-2 34Core MAX7064

    5M80Z

    Abstract: 5M40Z 5M1270Z 5M2210Z 5M570Z 5M240Z 5M160Z max v 5m570z 5M1270 5M240
    Text: 3. DC and Switching Characteristics for MAX V Devices May 2011 MV51003-1.2 MV51003-1.2 This chapter covers the electrical and switching characteristics for MAX V devices. Electrical characteristics include operating conditions and power consumptions. This


    Original     		PDF MV51003-1 5M80Z 5M40Z 5M1270Z 5M2210Z 5M570Z 5M240Z 5M160Z max v 5m570z 5M1270 5M240

    356 schmitt trigger

    Abstract: EPM1270 EPM2210 EPM240 EPM240Z EPM570
    Text: 5. DC and Switching Characteristics MII51005-2.5 Introduction System designers must consider the recommended DC and switching conditions discussed in this chapter to maintain the highest possible performance and reliability of the MAX II devices. This chapter contains the following sections:


    Original     		PDF MII51005-2 356 schmitt trigger EPM1270 EPM2210 EPM240 EPM240Z EPM570

    TRANSISTOR SMD MARKING CODE ALG

    Abstract: ATMEL 118 93C66A smd transistors code alg ALG SMD MARKING CODEs transistor smd marking ALG 1ff TRANSISTOR SMD MARKING CODE transistor SMD marked RNW atmel 93c66A SMD MARKING CODE ALg Agilent 3070 Tester
    Text: MAX II Device Handbook Preliminary Information 101 Innovation Drive San Jose, CA 95134 408 544-7000 http://www.altera.com MII5V1-1.0 Copyright 2004 Altera Corporation. All rights reserved. Altera, The Programmable Solutions Company, the stylized Altera logo, specific device designations, and all other words and logos that are identified as trademarks and/or service marks are, unless noted otherwise, the trademarks and


    Original     		PDF

    EPM570 footprint

    Abstract: EPM240T100C5 Agilent 3070 Manual transistor SMD marked RNW smd transistors code alg EPM1270F256C5 EPM1270T144 project transistor tester 555 4-bit AHDL adder subtractor 1ff TRANSISTOR SMD MARKING CODE
    Text: MAX II Device Handbook Preliminary Information 101 Innovation Drive San Jose, CA 95134 408 544-7000 http://www.altera.com MII5V1-1.2 Copyright 2004 Altera Corporation. All rights reserved. Altera, The Programmable Solutions Company, the stylized Altera logo, specific device designations, and all other words and logos that are identified as trademarks and/or service marks are, unless noted otherwise, the trademarks and


    Original     		PDF EPM1270F256C3 EPM1270 EPM1270F256C4 EPM1270F256C5 EPM1270T144C3 EPM1270T144C4 EPM1270T144C5 EPM1270* EPM570 footprint EPM240T100C5 Agilent 3070 Manual transistor SMD marked RNW smd transistors code alg EPM1270T144 project transistor tester 555 4-bit AHDL adder subtractor 1ff TRANSISTOR SMD MARKING CODE

    ATMel 046 24c04a

    Abstract: Agilent 3070 Manual ATMEL 118 93C66A 64 bit carry-select adder verilog code ieee 1532 atmel 93c66A Agilent 3070 Tester eeprom programmer schematic temperature controlled fan project using 8051 EPM570
    Text: MAX II Device Handbook Preliminary Information 101 Innovation Drive San Jose, CA 95134 408 544-7000 http://www.altera.com MII5V1-1.3 Copyright 2005 Altera Corporation. All rights reserved. Altera, The Programmable Solutions Company, the stylized Altera logo, specific device designations, and all other words and logos that are identified as trademarks and/or service marks are, unless noted otherwise, the trademarks and


    Original     		PDF

    EPM1270

    Abstract: EPM2210 EPM240 EPM240G EPM570 full subtractor circuit using decoder MII51003-1
    Text: Section I. MAX II Device Family Data Sheet This section provides designers with the data sheet specifications for MAX II devices. The chapters contain feature definitions of the internal architecture, Joint Test Action Group JTAG and in-system programmability (ISP) information, DC operating conditions, AC timing


    Original     		PDF

    noise margin

    Abstract: CGS3311 DLS200HE Ardin Frequency Control mv109 varicap diode MV209 equivalent DLS200H MV109 74HC126 SK70720
    Text: Rate Selection with the MDSL Data Pump Application Note January 2001 Order Number: 249000-001 As of January 15, 2001, this document replaces the Level One document known as AN77. Information in this document is provided in connection with Intel products. No license, express or implied, by estoppel or otherwise, to any intellectual


    Original     		PDF

    EPM570T144C5

    Abstract: EPM240T100C5 EPM570T100C3 EPM240T100 EPM570T100C5
    Text: Section I. MAX II Device Family Data Sheet This section provides designers with the data sheet specifications for MAX II devices. The chapters contain feature definitions of the internal architecture, Joint Test Action Group JTAG and in-system programmability (ISP) information, DC operating conditions, AC timing


    Original     		PDF EPM1270F256C3 EPM1270 EPM1270F256C4 EPM1270F256C5 EPM1270T144C3 EPM1270T144C4 EPM1270T144C5 EPM1270* EPM570T144C5 EPM240T100C5 EPM570T100C3 EPM240T100 EPM570T100C5

    EPM1270

    Abstract: EPM2210 EPM240 EPM240G EPM570
    Text: Section I. MAX II Device Family Data Sheet This section provides designers with the data sheet specifications for MAX II devices. The chapters contain feature definitions of the internal architecture, Joint Test Action Group JTAG and in-system programmability (ISP) information, DC operating conditions, AC timing


    Original     		PDF

    eQFP 64 footprint

    Abstract: eQFP 144 footprint 5M80Z 5M1270Z 5M240Z 5M40Z 5m240zt144 5M160z max v 5m 240z 5M80
    Text: Section I. MAX V Device Core This section provides a complete overview of all features relating to the MAX V device family. This section includes the following chapters: May 2011 • Chapter 1, MAX V Device Family Overview ■ Chapter 2, MAX V Architecture


    Original     		PDF MV51001-1 eQFP 64 footprint eQFP 144 footprint 5M80Z 5M1270Z 5M240Z 5M40Z 5m240zt144 5M160z max v 5m 240z 5M80

    ADSP-2181

    Abstract: No abstract text available
    Text: ADSP-2181 June 1994 For current information contact Analog Devices at 617 461-3881 R ADSP-2181 # 4 DSP Microc J ♦"'•'/v.I, \.i• Ay~i i*i ^S 's■ .^. . • ""j' *f ■ ■»i - 1.f v‘*>'i.j‘ ?‘* 11 i'T'1 !-'" ; -'iti n :— ' TÆ7&? fa ä ä a ä


    OCR Scan     		PDF ADSP-2181 SP-21Â fT-115 ADSP-2181KS-115 ADSP-2181BS-115 ADSP-2181KST-133 ADSP-2181BST-133 ADSP-2181KS-133 ADSP-2181BS-133 ADSP-2181

    Ralph Morrison Wiley

    Abstract: walkie-talkie magnetic pickup alan rich AN-346 rg58 coaxial cable
    Text: ANALOG ► DEVICES AN-346 APPLICATION NOTE ONE TECHNOLOGY WAY • P.O. BOX 9106 • NORWOOD, MASSACHUSETTS 02062-9106 • 617/329-4700 Understanding Interference-Type Noise How to Deal with Noise without Black Magic There Are Rational Explanations for — and Solutions to — Noise Problems


    OCR Scan     		PDF AN-346 Ralph Morrison Wiley walkie-talkie magnetic pickup alan rich AN-346 rg58 coaxial cable