The Datasheet Archive

Top Results (4)

Part ECAD Model Manufacturer Description Datasheet Download Buy Part
PMP6720 PMP6720 ECAD Model Texas Instruments 300 watt phase shifted full bridge
TB67S141AFTG TB67S141AFTG ECAD Model Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Phase Interface
TC78B011FTG TC78B011FTG ECAD Model Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=30/Square, Sine Wave
UC3875DWPTR/81316 UC3875DWPTR/81316 ECAD Model Texas Instruments Phase Shift Resonant Controller 28-SOIC

PHASE SHIFT Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2001 - SLAA122

Abstract: msp430 for energy power factor measurement Indian Standards MSP430 SLAA075 SLAA024 digital phase shift
Text: technique to compensate and calibrate the phase shift of a current (or voltage) transformer used in , . 1 Digital Phase Shift Compensation , . 5 3.4 CT With Large Phase Shift , , all CTs include an inherent phase shift that changes the power factor of its output. Inductive and , phase shift problem; however, RC filters are not very satisfactory because of their cost, stability


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PDF SLAA122 16-bit MSP430 SLAA122 msp430 for energy power factor measurement Indian Standards SLAA075 SLAA024 digital phase shift
Not Available

Abstract: No abstract text available
Text: 8 Bit Programmable Phase Shifter, 8.5 GHz to 11 GHz, 360 Deg Phase Shift , 256 Steps and SMA , Phase Shifter 8.5 GHz to 11 GHz Frequency Range 360 Deg Phase Shift 100 ns Typ Switching Speed , Output VSWR 1.8:1 2:1 PM / AM ±1 ±2 Deg dB Phase Shift Range , , 8.5 GHz to 11 GHz, 360 Deg Phase Shift , 256 Steps and SMA PE82P5001 PE82P5001 REV 1.0 1 8 Bit Programmable Phase Shifter, 8.5 GHz to 11 GHz, 360 Deg Phase Shift , 256 Steps and SMA TECHNICAL


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PDF PE82P5001 PE82P5001 -11-ghz-sma-360-deg-256-steps-pe82p5001-p
1997 - LM317

Abstract: lm317 so-8 LM340 voltage regulator bode plot technique of plot FZ 76 capacitor PHASE SHIFT phase shift keying LM340 LP2975 LP2982
Text: on the output to reduce the loop bandwidth and provide some positive phase shift (see later sections , and phase as it goes through the loop, and the amount of phase shift which has occurred at the unity , / VB It is important to note that the signal starting at the VB point has a phase shift introduced , , but negative feedback becomes positive feedback if it experiences a phase shift of 180°. PHASE MARGIN PHASE SHIFT PHASE SHIFT Phase shift is defined as the total amount of phase change


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PDF LM340 LM317. LP2975-X LM317 lm317 so-8 LM340 voltage regulator bode plot technique of plot FZ 76 capacitor PHASE SHIFT phase shift keying LP2975 LP2982
2007 - SPARTAN3E

Abstract: phase shift SP3E1600E UG331 XAPP806 XAPP977 SPARTAN 3e 1600e SPARTAN-3A 1800
Text: : Determining the Optimal DCM Phase Shift for the DDR Feedback Clock for Spartan-3E Author: Ed Hallett , determine the optimal phase shift of a DDR (Double Data Rate) memory feedback clock. In this system, the , included software application dynamically control the phase shift . The GPIO output is controlled by a , internal FPGA BRAM. The application starts with an initial phase shift value, then decrements and increments to find the entire passing phase shift range. At each phase shift value, the application performs


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PDF XAPP977 1600E SPARTAN3E phase shift SP3E1600E UG331 XAPP806 XAPP977 SPARTAN 3e 1600e SPARTAN-3A 1800
2011 - H934

Abstract: body marking h934 Evaluation PCB 131046 HMC934LP5E phase shifter
Text: The HMC934LP5E is ideal for: Octave Bandwidth: 1 to 2 GHz · EW Receivers 400° Phase Shift , provides a continuously variable phase shift of 0 to 400 degrees from 1 to 2 GHz, with extremely consistent low insertion loss versus phase shift and frequency. The high accuracy HMC934LP5E is monotonic , . Typ. Max. Units 2 1 GHz Phase Shift Range 400 deg Insertion Loss 3.5 , Current Range mA Input IP3 30 dBm Input Power @ -5° Shift In Insertion Phase (Vctl = 0V


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PDF HMC934LP5E HMC934LP5E H934 body marking h934 Evaluation PCB 131046 phase shifter
2011 - Not Available

Abstract: No abstract text available
Text: 410° Phase Shift Low Insertion Loss: 3.5 dB Low Phase Error: +12 / -7 deg Typ. Single Positive Voltage , analog control voltage from 0 to +13V. The HMC931LP4E provides a continuously variable phase shift of 0 to 410 degrees from 8 to 12 GHz, with extremely consistent low insertion loss versus phase shift and , = +25° C, 50 Ohm System Parameter Frequency Range Phase Shift Range Insertion Loss Return Loss , Insertion Phase (Vctl = 0V) Input Power @ - 2° Shift In Insertion Phase (Vctl = 0.5V) Phase Voltage


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PDF HMC931LP4E HMC931LP4E
2003 - XAPP462

Abstract: written XC3S1000-FT256 XC3S1000-FT256-4 XC3S1000FT256 digital clock vhdl code simple diagram for digital clock xilinx vhdl code for digital clock CLK180 DS099
Text: Condition a Clock, ensuring a clean output clock with a 50% duty cycle. · Phase Shift a clock signal , . Optional on CLK0, CLK90, CLK180, CLK270. 50% duty cycle ± 150 to 400 ps* All Quadrant Phase Shift Outputs 0° (no phase shift ), 90° (¼ period), 180° (½ period), 270° (¾ period) · · · · Half-period Phase Shift Outputs Output pairs with 0º and 180º phase shift , ideal for DDR applications · CLK0, CLK180 · CLK2X, CLK2X180 · CLKFX, CLKFX180 Dynamic or Fixed Phase Shift resolution Down


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PDF XAPP462 com/bvdocs/appnotes/xapp268 XAPP622: com/bvdocs/appnotes/xapp622 XAPP462 written XC3S1000-FT256 XC3S1000-FT256-4 XC3S1000FT256 digital clock vhdl code simple diagram for digital clock xilinx vhdl code for digital clock CLK180 DS099
2001 - CLKFX180

Abstract: CLK2X180
Text: (when High) or decrements (when Low) the Phase Shift Factor · PSEN input pin ­ Phase Shift Enable used in conjunction with PSINCDEC · PSCLK input pin ­ Phase Shift Clock sourced by either CLKIN or any , Indicates completion of requested Phase Shift The FPGA configuration DONE output signal indicates the , dynamic phase shift control to compensate for voltage and temperature drift. Clock De-Skew Synchronous , (PS/256) x PERIODCLKIN (PS negative) Figure 4 - Phase shift effects sumes less resources than


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PDF Period/256 CY7B9911V 32-pin CLKFX180 CLK2X180
h935

Abstract: No abstract text available
Text: The HMC935LP5E is ideal for: Wide Bandwidth: 2 - 20 GHz • EW Receivers 180° Phase Shift , HMC935LP5E provides a continuously variable phase shift of 0 to 180 degrees from 2 to 20 GHz, with extremely consistent low insertion loss versus phase shift and frequency. The high accuracy HMC935LP5E is , . Typ. Phase Shift Range Max. Units 20 2 GHz 180 deg Insertion Loss 4 , 30 V ±1 Control Current Range mA dBm Input Power @ -5° Shift In Insertion Phase


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PDF HMC935LP5E HMC935LP5E h935
2011 - circuit diagram and of single phase 230

Abstract: variable phase shifter 100 Mhz
Text: 410° Phase Shift Low Insertion Loss: 3.5 dB Low Phase Error: +12 / -7 deg Typ. Single Positive Voltage , analog control voltage from 0 to +13V. The HMC931LP4E provides a continuously variable phase shift of 0 to 410 degrees from 8 to 12 GHz, with extremely consistent low insertion loss versus phase shift and , = +25° C, 50 Ohm System Parameter Frequency Range Phase Shift Range Insertion Loss Return Loss , Insertion Phase (Vctl = 0V) Input Power @ - 2° Shift In Insertion Phase (Vctl = 0.5V) Phase Voltage


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PDF HMC931LP4E HMC931LP4E circuit diagram and of single phase 230 variable phase shifter 100 Mhz
Not Available

Abstract: No abstract text available
Text: The HMC931LP4E is ideal for: Wide Bandwidth: 8 - 12 GHz • EW Receivers 410° Phase Shift , HMC931LP4E provides a continuously variable phase shift of 0 to 410 degrees from 8 to 12 GHz, with extremely consistent low insertion loss versus phase shift and frequency. The high accuracy HMC931LP4E is , Frequency Range Min. Typ. Max. Units 12 8 GHz Phase Shift Range 410 deg , @ - 5° Shift In Insertion Phase (Vctl = 0V) V ±1 Control Current Range Input IP3 dB


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PDF HMC931LP4E HMC931LP4E
Not Available

Abstract: No abstract text available
Text: The HMC929LP4E is ideal for: Octave Bandwidth: 4 - 8 GHz • EW Receivers 430° Phase Shift , shift of 0 to 430 degrees from 4 to 8 GHz, with extremely consistent low insertion loss versus phase , (GHz) Min. Typ. Max. Units Phase Shift Range 4 - 8 GHz 430 degrees Insertion , Sensitivity 4 - 8 GHz 0.11 deg/°C * Up to a phase shift range of 380 degrees. 13 - 1 For , 8 9 10 11 12 13 Vctl (V) FREQUENCY (GHz) Phase Shift vs. Vctl 330


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PDF HMC929LP4E HMC929LP4E
H928

Abstract: HMC928LP5E beamforming Phase Shifters Evaluation PCB 131046 variable phase shifter 100 Mhz 3 GHz PIN diode phase shifter PHASE SHIFT 131046 schematic CIRCUIT DIAGRAM 3 phase analog power
Text: The HMC928LP5E is ideal for: Octave Bandwidth: 2 - 4 GHz · EW Receivers 450° Phase Shift · , voltage from 0 to +13V. The HMC928LP5E provides a continuously variable phase shift of 0 to 450 degrees from 2 to 4 GHz, with extremely consistent low insertion loss versus phase shift and frequency. The , . Units Phase Shift Range 2 - 4 GHz 450 deg Insertion Loss 2 - 4 GHz 3.5 dB , a phase shift range of 400 degrees. 13 - 1 For price, delivery and to place orders: Hittite


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PDF HMC928LP5E HMC928LP5E HMC928should H928 beamforming Phase Shifters Evaluation PCB 131046 variable phase shifter 100 Mhz 3 GHz PIN diode phase shifter PHASE SHIFT 131046 schematic CIRCUIT DIAGRAM 3 phase analog power
2010 - "Phase Shifters"

Abstract: No abstract text available
Text: 430° Phase Shift Low Insertion Loss: 4 dB Low Phase Error: ±5 Typ. Single Positive Voltage Control 24 , voltage from 0 to +13V. The HMC929LP4E provides a continuously variable phase shift of 0 to 430 degrees from 4 to 8 GHz, with extremely consistent low insertion loss versus phase shift and frequency. The , System Parameter Phase Shift Range Insertion Loss Return Loss (input and output) Control Voltage Range , Vctl (V) FREQUENCY (GHz) Phase Shift vs. Frequency (Relative to Vctl = 0V) Vctl = 0.5 to 13V 550


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PDF HMC929LP4E HMC929LP4E "Phase Shifters"
2010 - HMC928LP5E

Abstract: No abstract text available
Text: 450° Phase Shift Low Insertion Loss: 3.5 dB Low Phase Error: ±5 Typical Single Positive Voltage , analog control voltage from 0 to +13V. The HMC928LP5E provides a continuously variable phase shift of 0 to 450 degrees from 2 to 4 GHz, with extremely consistent low insertion loss versus phase shift and , +25° C, 50 Ohm System Parameter Phase Shift Range Insertion Loss Return Loss (Input & Output) Control , a phase shift range of 400 degrees. Frequency (GHz) 2 - 4 GHz 2 - 4 GHz 2 - 4 GHz 2 - 4 GHz 2 - 4


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PDF HMC928LP5E HMC928LP5E
2004 - 9163N

Abstract: No abstract text available
Text: phase shift . This approach eliminates the need to regenerate a configuration file with the new PLL , Stratix II fast PLLs do not support the C4 and C5 counters and the phase shift settings 1 2 Preliminary C4 and C5. The counter and phase shift settings are updated synchronous to the clock , an additional two configuration bits to implement phase shift . Altera Corporation 3 , phase shift selection, bringing the total number of configuration bits to 20. When the rbypass bit is


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2005 - 3 GHz PIN diode phase shifter

Abstract: 20 GHz PIN diode phase shifter
Text: CONNECTORIZED MODULES Features Wide Bandwidth: 6 - 15 GHz >600° Phase Shift Single Positive Voltage Control , HMC-C010 provides a continuously variable phase shift of 0 to 800 degrees at 6 GHz, and 0 to 450 degrees at 16 GHz, with consistent insertion loss versus phase shift . The phase shift is monotonic with respect , +25° C, 50 Ohm System Parameter Phase Shift Range: Insertion Loss Return Loss (Input and Output , 4.5 5 +25C +85C -55C Phase Shift vs. Control Voltage NORMALIZED PHASE SHIFT (degrees) 900 800 700


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PDF HMC-C010 HMC-C010 3 GHz PIN diode phase shifter 20 GHz PIN diode phase shifter
phase shift circuit

Abstract: Phase Shift Audio phase shift circuit AN-559 AN559 APP559 DS1669 DS1806 TLC274 digital potentiometer for AC
Text: Maxim > App Notes > DIGITAL POTENTIOMETERS FILTER CIRCUITS (ANALOG) Keywords: phase shift , APPLICATION NOTE 559 Tech Brief 3: Digitally Control Phase Shift Abstract: The application note describes , response of this circuit is given by Figure 1. A simple phase shift circuit can be implemented using an allpass filter. As the signal frequency varies from DC to infinity, the phase shift will vary from 0 to +180 degrees. You can also see that by varying R1, the phase shift at a given frequency will vary


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PDF DS1669, com/an559 DS1669: AN559, APP559, Appnote559, phase shift circuit Phase Shift Audio phase shift circuit AN-559 AN559 APP559 DS1669 DS1806 TLC274 digital potentiometer for AC
180 degree 3dB coupler

Abstract: AN3027 JB 71 JB 71 datasheet phase shift keying transmission line theory
Text: What Actually Creates The 90 Degree Coupler Phase Shift ? M/A-COM Application Note #3027 , amplitude at the center frequency. Whatever creates this phase shift must then be independent of frequency , produce a 90 degree phase shift independent of frequency." This statement now needs to be put into the , clear that variation of line length will not "tune" the relative phase shift of the coupled port. It is , . What Actually Creates The 90 Degree Coupler Phase Shift ? M/A-COM Application Note #3027 Application


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PDF AN3027 180 degree 3dB coupler AN3027 JB 71 JB 71 datasheet phase shift keying transmission line theory
2000 - AB-045

Abstract: Jerald Graeme
Text: indicate the phase shift in the feedback loop. Thus, the feedback factor of an op amp circuit is a , 1 at the frequency fi. A phase shift of ­90° accompanies this unity gain magnitude because of the , frequency stability. The response plots that define bandwidth also communicate the phase shift of the feedback loop. Excess phase shift promotes response ringing or oscillation and the plot slopes indicate this phase shift directly. Mathematical analysis defines the stability indicators applied to the plots


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2007 - Not Available

Abstract: No abstract text available
Text: PHASE SHIFTERS Analog Control to 15 GHz Features: Wide Phase Shift Range Wide Operating , Features Wide Bandwidth: 6 - 15 GHz >600° Phase Shift Single Positive Voltage Control Hermetically Sealed , variable phase shift of 0 to 800 degrees at 6 GHz, and 0 to 450 degrees at 16 GHz, with consistent insertion loss versus phase shift . The phase shift is monotonic with respect to control voltage. The control , Electrical Specifi cations, TA = +25° C, 50 Ohm System Parameter Phase Shift Range: Insertion Loss Return


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1998 - HV60

Abstract: HV6008 HV6008DJ HV6008PG HV6008PJ HV6008X
Text: applied to a capacitive load using the phase shift feature of the HV60. s Active return to GND s 15mA , register with Clear, Enable, and Phase Shift logic, and 32 high voltage output buffers. With the Enable , reflect the state of the phase shift pin. These outputs will be switched to VPP when phase shift is high and VNN when phase shift is logic "0". s Special shift register with clear s Phase shift control , Data hold time after clock falls 10 Conditions ns Phase shift duty cycle ns 50 %


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PDF HV6008 32-Channel 44-Lead HV6008PJ HV6008DJ HV6008PG HV6008X 32-channel 32-bit HV60 HV6008 HV6008DJ HV6008PG HV6008PJ HV6008X
1996 - Operational Amplifier Noise Prediction General Op Amps

Abstract: AB-045
Text: 1 at the frequency fi. A phase shift of ­90° accompanies this unity gain magnitude because of the , frequency stability. The response plots that define bandwidth also communicate the phase shift of the feedback loop. Excess phase shift promotes response ringing or oscillation and the plot slopes indicate this phase shift directly. Mathematical analysis defines the stability indicators applied to the plots , / curves at the intercept indicate phase shift for a critical feedback condition. As mentioned, the


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2007 - Not Available

Abstract: No abstract text available
Text: GHz Performance Up to 360o Phase Shift Broadband or Narrowband Coverage Field Adjustable Low VSWR , special function in the microwave system. Harmonic Phase Shifters provide a differential phase shift , freqency band over which the differential phase shift is to occur must be specified by the user. Phase Shift - Adjustable phase shifts of up to 360o are available on harmonic type Phase Shifters. The differential (harmonic) phase shift is defined as: φ HPS = φ 2fo − 2φ fo where and φ = Insertion


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2006 - control of motor using psoc

Abstract: AN2345 theory simple diagram for digital clock
Text: General - Simple Method to Generate Digital Signals with Variable Phase Shift Between AN2345 , variable phase shift between the signals in the range of 0 ­ 360 degrees. The described method is very , obtain several digital signals with some phase shift between them that can be changed during operation , resolution. In this Application Note, a simple method to generate digital signals with variable phase shift , enable signal to 0 and disable the counters. 2. RIx[x] Load the phase shift value into the


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PDF AN2345 control of motor using psoc AN2345 theory simple diagram for digital clock
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