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Part Manufacturer Description Datasheet Download Buy Part
LT1949-1EMS8TR Linear Technology IC PWM DC/DC CONV 1A SWTCH 8MSOP
LT1619ES8#TRPBF Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1619ES8#TR Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1619ES8#PBF Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1619EMS8#TR Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: MSOP; Pins: 8; Temperature Range: -40°C to 85°C
LT1619EMS8#PBF Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: MSOP; Pins: 8; Temperature Range: -40°C to 85°C

Pulse JW0A1P01R-E Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2008 - Pulse JW0A1P01R-E

Abstract: Stewart and bob smith termination JW0A1P01R-E EEUPD GD82547EI 82562EZ jw0a1p01r LU82562EZ 31752 82547GI
Text: ) Recommended Magnetics Modules Manufacturer Manufacturer's Part Number Pulse Stewart SI , Manufacturer's Part Number Pulse Others 3.3.5 JW0A2P019D TBD Power Supplies for the 82547GI(EI


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PDF 82562EZ /82547GI Pulse JW0A1P01R-E Stewart and bob smith termination JW0A1P01R-E EEUPD GD82547EI jw0a1p01r LU82562EZ 31752 82547GI
2008 - Pulse JW0A1P01R-E

Abstract: LU82540EP H5007 JW0A2P019D GHW Connectors JW0A1P01R-E 82540EP GD82541GI 82541 Pulse bob smith termination 82541EI
Text: Section 3.3.1. 2.8 June 2006 Added Pulse H5007 discrete magnetics reference to Table 10. 2.9 , Manufacturer's Part Number Pulse Stewart SI-70027 Foxconn 3.2.4 JW0A1P01R-E UBC11123-J51 , Manufacturer Manufacturer's Part Number Pulse (integrated) Pulse (discrete) 3.3.5 JW0A2P019D


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PDF 82540EP/82541 82562EZ Pulse JW0A1P01R-E LU82540EP H5007 JW0A2P019D GHW Connectors JW0A1P01R-E 82540EP GD82541GI 82541 Pulse bob smith termination 82541EI
2003 - SH7046

Abstract: No abstract text available
Text: APPLICATION NOTE SH7046 Group Pulse High and Low Width Measurement 1. Specifications Pulse high width and low width times are measured and the results are stored in RAM as shown in figure 1. When operating with on-chip peripheral clock P = 20.0 MHz, the pulse high width and low width can be measured in a range of 50.0 ns to 3.27 ms in 50.0 ns units. Pulse Pulse high width Pulse low width Figure 1 Pulse Width Measurement Timing 2. Functions Used In this sample task, the high width


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PDF SH7046 REJ05B0089-0100O/Rev
2003 - SH7145

Abstract: SH7144
Text: APPLICATION NOTE SH7144/45 Group Pulse High and Low Width Measurement 1. Specifications Pulse high width and low width times are measured and the results are stored in RAM as shown in figure 1. When operating with on-chip peripheral clock P = 40.0 MHz, the pulse high width and low width can be measured in a range of 25.0 ns to 1.63 ms in 25.0 ns units. Pulse Pulse high width Pulse low width Figure 1 Pulse Width Measurement Timing 2. Functions Used In this sample task, the high width


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PDF SH7144/45 REJ05B0102-0100O/Rev SH7145 SH7144
1771-DS

Abstract: 1771-WF Allen-Bradley PLC dc input 1027V Allen-Bradley 1771 dc output module wiring diagrams Allen-Bradley 1771 DS
Text: latches pulses of 0.1 to 5.0 ms duration. When the module detects a pulse at an input terminal, it sets , latching input module responds to pulses from optical sensors that have: isolated pulse outputs isolated , input responds to a gate signal, the other responds to a pulse Independent Inputs Use independent , order to detect and latch a pulse input. The module "ands" the pulse and gate inputs in order to latch the pulse (figure 1) Typically, gate signals and pulses are generated by separate optical sensors


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PDF 1771-DS) 0-27V 1771-DS 1771-WF Allen-Bradley PLC dc input 1027V Allen-Bradley 1771 dc output module wiring diagrams Allen-Bradley 1771 DS
AC20 resistor

Abstract: AC15 RESISTOR AC07 AC04 AC05 AC03 AC10 AC20 BALLAST 160W phoenix
Text: resistors High power dissipation in small volume High pulse load handling capabilities Different forming , Pulse load behaviour 2 - High frequency behaviour (self inductance) AC PHOENIX DO BRASIL LTDA , of 17 Phoenix do Brasil Ltda. PULSE LOAD CAPABILITIES How to interpret the maximum allowed pulse load from the graphs see details and definitions on general introduction AC 01 ­ Single Pulse Pulse capability; W s as a function of Rn. AC 01 ­ Repetitive Pulse Pulse on regular basis;maximum


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PDF 1000h July-05-2002 AC20 resistor AC15 RESISTOR AC07 AC04 AC05 AC03 AC10 AC20 BALLAST 160W phoenix
2011 - Not Available

Abstract: No abstract text available
Text: for pulse generators in multi-channel medical ultrasound applications. It is well-suited for use with , to 102.4 µs operating at pulse rates of up to 80 MHz. A pulse sequence is launched on all channels , programmable patterns of up to 64 pulses. Pulse patterns and delay settings are pre-programmed through a serial , a 32-pin LLP. Features Full control over selecting beam directions and pulse patterns by , of up to 102.4 s Pulse patterns are locally generated with: - Sequences of up to 64 pulses -


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PDF LM96570 LM96570 SNAS505D LM965XX
2004 - M68HC05

Abstract: C380 M68HC11 MC68332 MC68HC MC68HC05C4 MC68HC05J1 MC68HC11A8 MC68HC705C8
Text: . Pulse Generation and Detection with Microcontroller Units By Mike Pauwels Introduction This , : · Pulse generation · Pulse detection Several families of Freescale MCUs and a variety of pulse applications are considered. Code segments and listings are also included. Pulse Generation , reagent in a process control system. However, each application has specific requirements for pulse , describe the timing of the signals (start time and duration of the pulse ). All pulses can be divided into


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PDF AN1067/D M68HC05 C380 M68HC11 MC68332 MC68HC MC68HC05C4 MC68HC05J1 MC68HC11A8 MC68HC705C8
2003 - pulse period measurement circuit

Abstract: MSV-Mini26-SKP
Text: APPLICATION NOTE M16C/26 Using Timer B in Pulse Period/Width Measurement Mode 1.0 Abstract Measuring the frequency (1/period) or the pulse width of an input signal is useful in applications such as , to measure the period and pulse width of an input waveform, referred to as ` Pulse Period/ Pulse Width , consists of five Timer A's and three Timer B's. Only the three Timer B's can operate in ` Pulse Period/ Pulse Width Measurement Mode'. Timer B has the following additional modes of operation: · Timer


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PDF M16C/26 M30262 16-bit M16C/60 10-bit pulse period measurement circuit MSV-Mini26-SKP
2004 - Sysmac CJ1M ID211

Abstract: Sysmac CJ1M OD211 CJ1M-CPU22 counter pv read W395-E1-03 CJ1W-id211 omron cj1m programming cable pin Omron r88d-wt omron plc CJ1M CPU 13 troubleshooting CJ1M-CPU21
Text: ) instructions: Added instruction func- high-frequency calculation methods for calculattions ing pulse , 4-4 Flag Operations during Pulse Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 SECTION 5 High-speed Counter/ Pulse Output Instructions. . . . . . , . . . . . . . . . . . . . . . . . . . . . . . . . . 100 xv TABLE OF CONTENTS 5-7 PULSE , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 116 5-10 PULSE WITH VARIABLE


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PDF W395-E1-03 CJ1M-CPU21/22/23 CJ1M-CPU21/22/23 55-977-9181/Fax: NL-2132 2356-81-300/Fax: 847-843-7900/Fax: 6835-3011/Fax: Sysmac CJ1M ID211 Sysmac CJ1M OD211 CJ1M-CPU22 counter pv read W395-E1-03 CJ1W-id211 omron cj1m programming cable pin Omron r88d-wt omron plc CJ1M CPU 13 troubleshooting CJ1M-CPU21
IDT82V3011

Abstract: No abstract text available
Text: Input/Output Timing Parameter Min Typ Max Reference input pulse width high or low tIRF 8 , 10 ns tRSPD F8o to RSP delay -8 8 ns tC15W C1.5o pulse width high or low 309 339 ns tC3W C3o pulse width high or low 154 169 ns tC6W C6o pulse width high or low 70 86 ns tC2W C2o pulse width high or low 232 258 ns tC4W C4o pulse width high or low 111 133 ns tC8W C8o pulse width high or low 52 70 ns


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PDF IDT82V3011
2002 - M68HC05

Abstract: MC68HC05C4 MC68HC05J1 MC68HC11A8 MC68HC705C8 C380 M68HC11 MC68332 MC68HC
Text: Application Note AN1067/D Rev. 1, 5/2002 Pulse Generation and Detection with Microcontroller , microcontroller units (MCUs) and external circuitry: · Pulse generation · Pulse detection Several families of Motorola MCUs and a variety of pulse applications are considered. Code segments and listings are also included. Pulse Generation MCUs are often required to generate timed output pulses (i.e , requirements for pulse duration and accuracy. This application note examines methods of generating these


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PDF AN1067/D M68HC05 MC68HC05C4 MC68HC05J1 MC68HC11A8 MC68HC705C8 C380 M68HC11 MC68332 MC68HC
tC32D

Abstract: IDT82V3001A
Text: input pulse width high or low 100 tIRF Reference input rise or fall time tR8D 8 kHz , 8 ns tC15W C1.5o pulse width high or low 309 339 ns tC3W C3o pulse width high or low 154 169 ns tC6W C6o pulse width high or low 70 86 ns tC2W C2o pulse width high or low 232 258 ns tC4W C4o pulse width high or low 111 133 ns tC8W C8o pulse width high or low 52 70 ns tC16WL C16o pulse width high or low 24


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PDF IDT82V3001A Table-18 tC32D
2003 - H8SX/1725F

Abstract: No abstract text available
Text: APPLICATION NOTE H8SX Series One-Shot Pulse Output Introduction As well as having an , . 5 REJ06B0180-0100Z/Rev.1.00 September 2003 Page 1 of 13 H8SX Series One-Shot Pulse Output 1. Overview One channel of the 16-bit timer pulse unit (TPU) of the H8SX series is used to output a one-shot pulse in synchronization with an external signal. The input capture detects the , pulse width of the one-shot pulse , as well as the buffer operation. 2. Configuration The


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PDF H8/300, H8/300H, 32-bit REJ06B0180-0100Z/Rev H8SX/1725F
2012 - Not Available

Abstract: No abstract text available
Text: PSoC CreatorTM Component Datasheet ® Pulse Converter 1.0 Features Terminals for out_clk and sample_clk for configurability of sample rate and output pulse width. General Description The Pulse Converter component produces a pulse of known width when a pulse of any width is sampled on p_in. When to Use a Pulse Converter Use the Pulse Converter to interface pulse events from a fast domain to a slow domain, or when a specific pulse width must be guaranteed: Safely responding to the DMA nrq


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PDF
2003 - MR30

Abstract: sfr62
Text: APPLICATION NOTE M16C/62 Using the M16C/62 Timer in Pulse Period/Width Measurement Mode 1.0 Abstract Measuring the frequency (1/period) or the pulse width of an input signal is useful in , describes how to use timer B to measure the period and pulse width of an input waveform, referred to as " Pulse Period/ Pulse Width Measurement Mode". 2.0 Introduction The M16C/62 is a 16-bit MCU, based on , Pulse Period/ Pulse Width Measurement Mode. Timer B has the following additional modes of operation: ·


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PDF M16C/62 M16C/62 16-bit 10-bit MR30 sfr62
2004 - Not Available

Abstract: No abstract text available
Text: APPLICATION NOTE H8S/2200 Series One-Shot Pulse Output Introduction Outputs a one-shot pulse , synchronizing with a falling edge of an external signal. The delay time from the falling edge and pulse width , . 8 REJ06B0311-0100Z/Rev.1.00 March 2004 Page 1 of 11 H8S/2200 Series One-Shot Pulse Output 1. Specifications 1. As shown in figure 1, this function outputs a one-shot pulse , external signal and pulse width can be changed within the following ranges: 1µs delay time < reference


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PDF H8S/2200 H8S/2215 REJ06B0311-0100Z/Rev
2006 - CM03

Abstract: CM15 PM10 pulse period measurement circuit
Text: APPLICATION NOTE M16C/Tiny Series Operation of Timer B ( Pulse Period Measurement Mode) 1. Abstract In pulse period/ pulse width measurement mode, choose functions from those listed in Table 1 , program is an example when using the Timer B0 in pulse period measurement mode. 2. Introduction , 2006 Page 1 of 12 M16C/Tiny Series Operation of Timer B ( Pulse Period Measurement Mode) 3 , Yes Internal count source (f1/f2/f8/f32/fC32) Pulse period measurement (interval between measurement


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PDF M16C/Tiny M16C/26A M16C/28 M16C/29 REC05B0011-0101/Rev CM03 CM15 PM10 pulse period measurement circuit
ac05 phoenix

Abstract: Phoenix Passive Components AC20 resistor Phoenix Resistors 2322 329 AC07 phoenix do brasil 2306 328 AC04 ac03w Phoenix passive 7 W
Text: · High power dissipation in small volume · High pulse load handling capabilities · High , PULSE LOAD CAPABILITIES How to generate the maximum allowed pulse-load from the graphs composed for wire wound resistors of the AC-types. SINGLE PULSE CONDITION If the applied pulse energy in joules , gives the maximum allowed pulse energy in joules/ohm or wattseconds. If this figure is higher than the applied pulse energy the application is allowed. Otherwise take one of the other graphs belonging to


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renesas tpu

Abstract: No abstract text available
Text: APPLICATION NOTE H8S Family One-Shot Pulse Output Introduction Outputs a one-shot pulse , synchronizing with a falling edge of an external signal. The delay time from the falling edge and pulse width , . 7 REJ06B0458-0100/Rev.1.00 February 2005 Page 1 of 10 H8S Family One-Shot Pulse Output 1. Specifications 1. As shown in figure 1, this function outputs a one-shot pulse , external signal and pulse width can be changed within the following ranges. Set the reference pulse cycle


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PDF H8S/2339 REJ06B0458-0100/Rev renesas tpu
2004 - Not Available

Abstract: No abstract text available
Text: APPLICATION NOTE H8S / 2200 Series Measuring the High- and Low-Level Periods of a Pulse Introduction Measures the high and low widths of a pulse , and stores the result in the RAM. Target Device , High- and Low-Level Periods of a Pulse 1. Specifications (1) Measures the low and high periods of a pulse and stores the results in the on-chip RAM, as shown in figure 1. (2) In operation at 20 , and 3.27 ms. Pulse High width Low width Figure 1 Timing of the Measurement of Pulse Width


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PDF REJ06B0307-0100Z/Rev
2011 - Not Available

Abstract: No abstract text available
Text: for pulse generators in multi-channel medical ultrasound applications. It is well-suited for use with , to 102.4 µs operating at pulse rates of up to 80 MHz. A pulse sequence is launched on all channels , programmable patterns of up to 64 pulses. Pulse patterns and delay settings are pre-programmed through a serial , a 32-pin LLP. Features Full control over selecting beam directions and pulse patterns by , of up to 102.4 s Pulse patterns are locally generated with: - Sequences of up to 64 pulses -


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PDF LM96570 LM965XX
tC15D

Abstract: TF32D tC32D IDT82V3002A
Text: input pulse width high or low 100 tIRF Reference input rise or fall time tR8D 8 kHz , 8 ns tC15W C1.5o pulse width high or low 309 339 ns tC3W C3o pulse width high or low 154 169 ns tC6W C6o pulse width high or low 70 86 ns tC2W C2o pulse width high or low 232 258 ns tC4W C4o pulse width high or low 111 133 ns tC8W C8o pulse width high or low 52 70 ns tC16WL C16o pulse width high or low 24


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PDF IDT82V3002A Table-19 tC15D TF32D tC32D
2001 - 74121 application as pulse generator

Abstract: application circuits of ic 74121 MM14538 monostable multivibrator using 74123 time delay circuit for ic 74123 monostable multivibrator using 74121 cd4538 application 74121 equivalent CD4528 applications 74LS221
Text: applications such as pulse generation, pulse shaping, time delay, demodulation, and edge detection of , complete flexibility in controlling the pulse width, some devices also have Schmitt Trigger input, and/or , , problems fall into the categories of either pulse width or triggering difficulties. The purpose of this , triggered, produces an output pulse width that is independent of the input pulse width, and can be programmed by an external Resistor-Capacitor (RC) network. The output pulse width will be a function of the


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PDF AN-366 74121 application as pulse generator application circuits of ic 74121 MM14538 monostable multivibrator using 74123 time delay circuit for ic 74123 monostable multivibrator using 74121 cd4538 application 74121 equivalent CD4528 applications 74LS221
1989 - liquid flow sensor

Abstract: RELAY PCB SPDT 12V 8 pin "liquid Flow sensor" TACHOMETER liquid flow solid state relay 240v 10a pcb sensor Flow meter PNP batch counter relay 12v 40mA spdt
Text: which Examples of these include: utilise pulse or electronic sensor techniques. The s Batch control range comprises a divider, multiplier and pulse timer. s Flow meter control and prescaling The units , sensors and interfacing them with power s PLC and LCD counter input pulse prescaling switching devices (contactors, solenoids etc.) has s arisen. Pulse controlled sequencing. Examples of some of these , units can carry out a wide range of pulse control functions Figure 1 Inputs, outputs and controls


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PDF D9833 100mA liquid flow sensor RELAY PCB SPDT 12V 8 pin "liquid Flow sensor" TACHOMETER liquid flow solid state relay 240v 10a pcb sensor Flow meter PNP batch counter relay 12v 40mA spdt
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