CALCULATING Search Results

Contextual Info: Silicon Technology Reliability www.vishay.com Vishay Siliconix N-CHANNEL ACCELERATED OPERATING LIFE TEST RESULT Sample Size 18 368 Equivalent Device Hours 2 954 669 261 Failure Rate in FIT 2.505 Failure Rate in FIT is calculated according to JEDEC Standard JESD85, Methods for Calculating Failure Rates in Units of FITs,

IN7432

Abstract: IN74VHC32 in743
Contextual Info: TECHNICAL DATA QUAD 2-INPUT OR GATE IN74VHC32 is high-speed logic IC made by CMOS technology and designed for use in high-performance calculating systems with a wide supply voltage range. As for operation speed, IN74VHC32 can be compared with equivalent bipolar ICs based on Schottky TTL and two

Contextual Info: TECHNICAL DATA Octal Buffer /Line Driver NINV 3-state IN74VHC244 is high-speed logic IC made by CMOS technology and designed for use in high-performance calculating systems with a wide supply voltage range. As for operation speed, IN74VHC244 can be compared

calculating rectifier circuits MTBF

Abstract: bimetal transformer mtbf MIL-HDBK-217F CAPACITOR chip mtbf 217F MIL-HDBK-217E ART2815T AN-1078 MIL-HDBK217F
Contextual Info: Application Note AN-1078 An Examination of Changes Imposed by Revised Hybrid Models When Calculating MTBF Values using MIL-HDBK 217F, Notice 1 & 2 By Richard Miller, Director Space Products Table of Contents Page Resistors .1

BGA144 13x13 package

Abstract: DesignWare Hi-Speed USB On-The-Go Controller SCR trickle charger circuit trickle battery charger circuit using scr 7476 up down counter Palmchip designware usb otg IHI-0011A M25PXX hitachi elko
Contextual Info: AS3525-A/-B C22O22 Data Sheet, Confidential å Datasheet, Confidential AS3525 Advanced Audio Processor System 1 Description This highly flexible and fully integrated audio processor system AS3525 combines strong calculating power, high performance audio features with system power management options for battery

Contextual Info: TECHNICAL DATA QUAD 3-STATE NONINVERTING BUFFERS IN74VHC126 is high-speed logic IC made by CMOS technology and designed for use in high-performance calculating systems with a wide supply voltage range. As for operation speed, IN74VHC126 can be compared with equivalent bipolar ICs based on Schottky TTL and two

Contextual Info: Silicon Technology Reliability Vishay Siliconix BCD-18 TECHNOLOGY ACCELERATED OPERATING LIFE TEST RESULT Sample Size Equivalent Device Hours Failure Rate in FIT 82 3 566 796 255.131 Failure Rate in FIT is calculated according to JEDEC standard JESD85, Methods for Calculating Failure Rates in Units of FITs,

Contextual Info: Silicon Technology Reliability www.vishay.com Vishay Siliconix P-CHANNEL ACCELERATED OPERATING LIFE TEST RESULT Sample Size 14 265 Equivalent Device Hours 2 779 173 437 Failure Rate in FIT 11.910 Failure Rate in FIT is calculated according to JEDEC Standard JESD85, Methods for Calculating Failure Rates in Units of FITs,

Silicon Technology Reliability

Abstract: silicon
Contextual Info: Silicon Technology Reliability www.vishay.com Vishay Siliconix N-CHANNEL ACCELERATED OPERATING LIFE TEST RESULT Sample Size 232 395 Equivalent Device Hours 28 904 254 900 Failure Rate in FIT 1.073 Failure Rate in FIT is calculated according to JEDEC Standard JESD85, Methods for Calculating Failure Rates in Units of FITs,

DSP56002

Abstract: DSP56000 DSP56001 MCM6206D DSP56000UM
Contextual Info: APR16/D Calculating Time Requirements of External SRAM for the 24-bit DSP56000 Family Digital Signal Processors M o t o r o l a ’ s H i g h - P e r f o r m a n c e D S P T e c h n o l o g y Table of Contents SECTION 1 Introduction SECTION 2 SRAM Interface

KK74VHC74

Contextual Info: TECHNICAL DATA DUAL D FLIP-FLOP WITH SET AND RESET KK74VHC74 is high-speed logic IC made by CMOS technology and designed for use in high-performance calculating systems with a wide supply voltage range. As for operation speed, KK74VHC74 can be compared with equivalent bipolar ICs based on Schottky TTL and two

KK74VHCT244

Contextual Info: TECHNICAL DATA Octal Buffer /Line Driver NINV 3-state KK74VHCT244 is high-speed logic IC made by CMOS technology and designed for use in high-performance calculating systems with a wide supply voltage range. As for operation speed, KK74VHCT244 can be compared

S83-135

Abstract: S106-178 Z606 high torque servo S106178
Contextual Info: System Calculations Move Profile Before calculating torque requirements of an application, you need to know the velocities and accelerations needed. For those positioning applications where only a distance X and a time (S) to move that distance are known, the

Energizer E91

Abstract: 27-MHz Wireless Mouse energiser 9v battery Energizer aaa 3.6v nicd battery Energizer E91 temperature 27-MHz Wireless Mouse Datasheet basic optical mouse RADIO RECEIVER 27mhz 27 MHZ transmitter
Contextual Info: Calculating Battery Life in WirelessUSB Systems Introduction WirelessUSB Power Requirements In evaluating WirelessUSB™ for use in a project, product or design, one of the key decision factors will be what battery life will be achievable by the design. This may impact decisions

KK74VHCT32

Abstract: KK74VHCT32D y206
Contextual Info: TECHNICAL DATA Quad 2-Input OR Gate KK74VHCT32 is high-speed logic IC made by CMOS technology and designed for use in high-performance calculating systems with a wide supply voltage range. As for operation speed, KK74VHCT32 can be compared with equivalent bipolar ICs based on Schottky TTL and two

544C

Abstract: ML4835
Contextual Info: August 1999 Application Brief 42019 Calculating Frequency Setting Resistors when Using the ML4835 INTRODUCTION SOLVE FOR RSET This Application Brief describes a procedure that can be used to calculate the value of resistors used to set preheating, starting, and full power operating frequencies.

inhx32

Abstract: PIC16F87X DS30292 PIC16C87X INHX8M DS33014 TB026 PIC16F87X programme datasheet PIC16C7X PIC16F87X PIC17CXXX
Contextual Info: M TB026 Calculating Program Memory Checksums Using a PIC16F87X Author: Rodger Richey Microchip Technology Inc. INTRODUCTION Many applications require the microcontroller to calculate a checksum on the program memory to determine if the contents have been corrupted. Until now,

CIC interpolation Filter

Abstract: HSP50214 HSP50214A HSP50214B TB349 cic filter
Contextual Info: Calculating the Maximum Output Sample Rate and Bandwidth Specifications of the HSP50214 TM Technical Brief January 1998 TB349.1 Authors: John Henkelman and David Damerow Output Sample Rate and Bandwidth Specifications Calculating the Output Rate • Output Samples at 6.6 MSPS with Output Bandwidths

DesignWare Hi-Speed USB On-The-Go Controller

Abstract: designware usb otg XPC-4 video scan converter unit DesignWare otg CWda03 AS3524 M25PXX PL172 arm9tdmi basic block diagram DesignWare SPI
Contextual Info: austriamicrosystems AS3524 C21 / C22 Data Sheet, Confidential Datasheet, Confidential AS3524 Advanced Audio Processor System å 1 Description The AS3524 implements a highly flexible and fully integrated digital audio processor system combining strong calculating power and

AD7321

Abstract: AD8230RZ AD620AR AD7610 AD7663 AD7685 AD7687 AD7895 AD8221 AD8221AR
Contextual Info: Chapter VII MATCHING IN-AMP CIRCUITS TO MODERN ADCs Calculating ADC Requirements The resolution of commercial ADCs is specified in bits. In an ADC, the available resolution equals 2n – 1, where n is the number of bits. For example, an 8-bit converter provides a resolution of (28) – 1, which equals 255. In this

DSP56000

Contextual Info: Motorola Digital Signal Processors Calculating Timing Requirements of External SRAM for the 24-Bit DSP56000 Family by Larry Donahue Applications Digital Signal Processing Division MOTOROLA APR16/D Motorola reserves the right to make changes without further notice to any products herein. Motorola

DBK15

Abstract: DBK54 DBK53 DBK25 DBK44 cdk-10 DBK40 DBK52 DBK43A DBK1-6
Contextual Info: System Power Requirements the smart approach to instrumentation Calculating Your Power Needs DBK Options Power-Requirement Worktable DBK Options To determine which of IOtech’s auxiliary power supply cards is required for your system, refer to the Options Power-Requirement Worktable at right, list the

failure rate

Abstract: 313 equivalent
Contextual Info: Silicon Technology Reliability Vishay Siliconix ACCELERATED OPERATING LIFE TEST RESULT Sample Size 2,300 Equivalent Device Hours 313,492,812 Number of Total Failures Failure Rate in FIT 2.903 Failure Rate in FIT is calculated according to JEDEC Standard JESD85, Methods for Calculating Failure Rates in Units of FITs,

Contextual Info: Silicon Technology Reliability Vishay Siliconix N-CHANNEL ACCELERATED OPERATING LIFE TEST RESULT Sample Size Equivalent Device Hours Failure Rate in FIT 12 045 2 965 913 412 0.307 Failure Rate in FIT is calculated according to JEDEC Standard JESD85, Methods for Calculating Failure Rates in Units of FITs,