TTPC
Abstract: MSC8113 MSC8122 MSC8126 SC140 A 2731
Text: Freescale Semiconductor Application Note AN3596 Rev. 0, 5/2008 MSC8113 Design Checklist This application note provides a set of recommendations to assist you in a first-time design with the MSC8113 device. This document can also be useful as a general guideline for
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AN3596
MSC8113
MSC8113
TTPC
MSC8122
MSC8126
SC140
A 2731
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TTPC
Abstract: MSC8112 MSC8122 MSC8126 SC140 AN3678
Text: Freescale Semiconductor Application Note AN3678 Rev. 0, 5/2008 MSC8112 Design Checklist This application note provides a set of recommendations to assist you in a first-time design with the MSC8112 device. This document can also be useful as a general guideline for
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AN3678
MSC8112
MSC8112
TTPC
MSC8122
MSC8126
SC140
AN3678
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TTPC
Abstract: AN2787 MSC8122 MSC8122ADS MSC8126 SC140
Text: Freescale Semiconductor Application Note AN2787 Rev. 14, 10/2007 MSC8122 Design Checklist by Tina Redheendran This application note provides a set of recommendations to assist you in a first-time design with the MSC8122 device. This document can also be useful as a general guideline for
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AN2787
MSC8122
MSC8122
TTPC
AN2787
MSC8122ADS
MSC8126
SC140
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AN2903
Abstract: MSC8126 TTPC MSC8122 SC140
Text: Freescale Semiconductor Application Note AN2903 Rev. 6, 10/2007 MSC8126 Design Checklist by Tina Redheendran This application note provides a set of recommendations to assist you in a first-time design with the MSC8126 device. This document can also be useful as a general guideline for
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AN2903
MSC8126
MSC8126
AN2903
TTPC
MSC8122
SC140
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EPC1441
Abstract: EPC16 EPC8 bios fail
Text: Configuring SRAM-Based LUT Devices June 2001, ver. 2.0 Introduction Application Note 116 APEXTM II, APEX 20K, MercuryTM, ACEXTM 1K, FLEX® 10K, and FLEX 6000 devices can be configured using one of six configuration schemes. All configuration schemes use either a microprocessor or
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EPC16,
EPC1441
EPC16
EPC8 bios fail
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EPC1441
Abstract: EPC16
Text: Configuring SRAM-Based LUT Devices February 2002, ver. 3.0 Introduction Application Note 116 APEXTM II, APEX 20K, MercuryTM, ACEXTM 1K, FLEX® 10K, and FLEX 6000 devices can be configured using one of six configuration schemes. All configuration schemes use either a microprocessor or
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EPC16,
EPC1441
EPC16
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TTPC
Abstract: AN2787 BR10 MSC8122 MSC8122ADS SC140 A 2731 BG 4855
Text: Freescale Semiconductor Application Note AN2787 Rev. 5, 11/2004 MSC8122 Design Checklist by Tina Redheendran This application note provides a set of recommendations to assist you in a first-time design with the MSC8122 device. This document can also be useful as a general guideline for
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AN2787
MSC8122
MSC8122
TTPC
AN2787
BR10
MSC8122ADS
SC140
A 2731
BG 4855
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AN2903
Abstract: MSC8126 TTPC SC140 BR10
Text: Freescale Semiconductor Application Note AN2903 Rev. 0, 11/2004 MSC8126 Design Checklist by Tina Redheendran This application note provides a set of recommendations to assist you in a first-time design with the MSC8126 device. This document can also be useful as a general guideline for
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AN2903
MSC8126
MSC8126
AN2903
TTPC
SC140
BR10
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TTPC
Abstract: AN2506 BR10 MIC29302BU MSC8102ADS MUR420 SC140 MUR420 diode
Text: Freescale Semiconductor Application Note AN2506 Rev. 3, 12/2004 MSC8102 Design Checklist by Iantha Scheiwe This application note provides a set of recommendations to assist you in a first-time design with the MSC8102 device. This document can also be useful as a general guideline for
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AN2506
MSC8102
TTPC
AN2506
BR10
MIC29302BU
MSC8102ADS
MUR420
SC140
MUR420 diode
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TTPC
Abstract: AN2506 BR10 MIC29302BU MSC8102ADS SC140 A 2731
Text: Freescale Semiconductor Application Note AN2506 Rev. 3, 4/2005 MSC8102 Design Checklist by Iantha Scheiwe This application note provides a set of recommendations to assist you in a first-time design with the MSC8102 device. This document can also be useful as a general guideline for
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AN2506
MSC8102
TTPC
AN2506
BR10
MIC29302BU
MSC8102ADS
SC140
A 2731
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freescale JTAG header 14
Abstract: TTPC AN2506 BR10 MIC29302BU MSC8102ADS MUR420 SC140
Text: Freescale Semiconductor Application Note AN2506 Rev. 1, 9/2004 MSC8102 Design Checklist by Iantha Scheiwe This application note provides a set of recommendations to assist you in a first-time design with the MSC8102 device. This document can also be useful as a general guideline for
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AN2506
MSC8102
freescale JTAG header 14
TTPC
AN2506
BR10
MIC29302BU
MSC8102ADS
MUR420
SC140
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BYTEBLASTER
Abstract: 7128s ByteBlasterMV EPM7064S EPM7128S EPM7256S max 7128S programmer jam player 7128AE
Text: In-System Programmability Guidelines May 1999, ver. 3 Introduction Application Note 100 As time-to-market pressures increase, design engineers require advanced system-level products to ensure problem-free development and manufacturing. Programmable logic devices PLDs with in-system
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Untitled
Abstract: No abstract text available
Text: In-System Programmability Guidelines AN-100-4.0 Application Note This application note describes guidelines you must follow to design successfully with in-system programmability ISP . For Altera ISP-capable devices, you can program and reprogram in-system through the IEEE Std. 1149.1 JTAG interface. This
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AN-100-4
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60x-bus-compatible
Abstract: AN2481 freescale JTAG header 14 mur420 equivalent pin configuration 1K variable resistor MIC29372 MPC8260 MSC8101 MSC8101ADS MUR420
Text: Freescale Semiconductor, Inc. Application Note AN2481/D Rev. 1, 6/2003 MSC8101 Design Checklist Freescale Semiconductor, Inc. by Iantha Scheiwe CONTENTS 1 Getting Started . 1 1.1 CPM and Bus Load . 1 1.2 Pin Assignments . 1 1.3 Reset Configuration
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AN2481/D
MSC8101
AN2481/D,
60x-bus-compatible
AN2481
freescale JTAG header 14
mur420 equivalent
pin configuration 1K variable resistor
MIC29372
MPC8260
MSC8101
MSC8101ADS
MUR420
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Stratix III
Abstract: PCG-01004 PCG-01004-1 PCG-01009-1
Text: Stratix III Device Family Pin Connection Guidelines PCG-01004-1.3 2010 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 service marks of Altera Corporation in the
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PCG-01004-1
PCG-01009-1
Stratix III
PCG-01004
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AN2481
Abstract: MIC29372 MPC8260 MSC8101 MSC8101ADS SC140 HRCW
Text: Freescale Semiconductor Application Note AN2481 Rev. 3, 4/2005 MSC8101 Design Checklist By Iantha Scheiwe This application note provides a set of recommendations to assist you in a first-time design on the MSC8101 application development system MSC8101ADS board. This document
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AN2481
MSC8101
MSC8101ADS)
MSC8101
AN2481
MIC29372
MPC8260
MSC8101ADS
SC140
HRCW
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MIC29372
Abstract: MPC8260 MSC8103 SC140
Text: Freescale Semiconductor Application Note AN2977 Rev. 0, 4/2005 MSC8103 Design Checklist By Iantha Scheiwe This application note provides a set of recommendations to assist you in a first-time design on the MSC8103 application development system MSC8103ADS board. This document
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AN2977
MSC8103
MSC8103ADS)
MSC8103
MIC29372
MPC8260
SC140
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RSIG
Abstract: DS21352L DS21354L DS2152 DS2152L DS2154 DS2154L DS21552L DS21554L DS21352
Text: Application Note 350 Provision Your DS2152 or DS2154 Hardware Design for the Next Generation Devices www.dalsemi.com The next generation of the DS2152/54 will be 3.3V and 5V pin compatible T1 and E1 chip sets with a new pin-out. Each of the T1 and E1 Single Chip Transceivers will be able, however, to drop into existing
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DS2152
DS2154
DS2152/54
00hex
DS21352/354/552/554
HD1x52
DS2152.
RSIG
DS21352L
DS21354L
DS2152L
DS2154L
DS21552L
DS21554L
DS21352
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lm35 temperature sensor
Abstract: L9616 LM35t STR730 JTAG CN1 LM35 application circuits 2 mode 1 function switches 2 buttons lcd 2x16 on single board rs232 schematic diagram lcd display 2x16 STR730-EVAL
Text: STR730-EVAL Evaluation Board for STR73xF STR730-EVAL board Host to JTAG interface High speed JTAG debug port connection Main components Description • STR730F processor running at up to 36MHz ■ SPI EEPROM ■ I2C EEPROM ■ LCD display The STR730-EVAL board is a complete
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STR730-EVAL
STR73xF
STR730-EVAL
STR730F
36MHz
STR73x
STR730
lm35 temperature sensor
L9616
LM35t
JTAG CN1
LM35 application circuits
2 mode 1 function switches 2 buttons lcd 2x16 on single board
rs232 schematic diagram
lcd display 2x16
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lm35 temperature sensor
Abstract: IC-8329 LM35t Serial input lcd LM35 application circuits with L9616 LM35 STR730 STR730-EVAL ld12 st
Text: UM0559 User Manual STR730-EVAL evaluation board for STR73xF Introduction The STR730-EVAL board is a complete development platform for the STR73x series. It is a cost effective, flexible and open design to demonstrate the capability of the STR730 series of flash micro-controllers and to enable rapid evaluation of the STR73x devices and
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UM0559
STR730-EVAL
STR73xF
STR73x
STR730
STR730F
STR730F,
RS232
lm35 temperature sensor
IC-8329
LM35t
Serial input lcd
LM35 application circuits with
L9616
LM35
STR730
ld12 st
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Arria GX
Abstract: PCG-01002 EP1AGX20CF484
Text: Arria GX Device Family Pin Connection Guidelines PCG-01002-1.1 2009 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
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PCG-01002-1
Arria GX
PCG-01002
EP1AGX20CF484
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ZM00056
Abstract: MO-220 VMMD-3 pc3x DPM 60 ZM00056-KIT QFN64 ZM7300G 16-node 220 tmp ZM7300
Text: ZM7300G Series Digital Power Manager Data Sheet Member of the Family Features • • • • • • Applications • • • Low voltage, high density systems utilizing Z-OneTM Digital Intermediate Bus Architectures Broadband, networking, optical, and wireless
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ZM7300G
ZM7300
ZM00056
MO-220 VMMD-3
pc3x
DPM 60
ZM00056-KIT
QFN64
16-node
220 tmp
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ZM00056
Abstract: QFN64 ZM7300G ZM7316G ZM7332
Text: ZM7300G Series Digital Power Manager Data Sheet Member of the Family Features • • • • • • Applications • • • Low voltage, high density systems utilizing Z-OneTM Digital Intermediate Bus Architectures Broadband, networking, optical, and wireless
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ZM7300G
ZM7300
ZM00056
QFN64
ZM7316G
ZM7332
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DM7300
Abstract: DM7300G
Text: DATA SHEET DM7300G SERIES DIGITAL POWER MANAGER FEATURES APPLICATIONS • • RoHS compliant for all six substances Compatible with both lead-free and standard reflow processes Programs, controls, and manages up to 32 independent dPOL converters
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DM7300G
100kHz
400kHz)
DM7300
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