500 MILLION PARTS FROM 12000 MANUFACTURERS

Part | Manufacturer | Description | Samples | Ordering |

Catalog Datasheet | MFG & Type | Document Tags |

Abstract: to each other to obtain the needed quadrature phase adjustment. The magnitude of these input signals need to be identical and the phase should be calibrated to as close to perfect quadrature as , provide a feedback loop for correcting phase errors in the quadrature LO signals. These registers are , 660 10 1V p-p 2 (*80*0.5) 10 Transmit path Q: How do I determine the quadrature phase , quadrature phase error of the IC. Q: Why is the Rx RF input return loss not optimized? A: The SA1630 SA1630 has ... | Philips Semiconductors Original |
36 pages, |
T16-6T-KK81 AN2003 equivalent ic for ic 4583 Keithley 160 Probes mqe7 quadrature transceiver SA1630 85024A ge 142 MMC 103 ceramic capacitor Keithley 7700 TEXT |

Abstract: their time references locked to each other to obtain the needed quadrature phase adjustment. The magnitude of these input signals need to be identical and the phase should be calibrated to as close to , 660 10 1V p-p 2 (*80*0.5) 10 Transmit path Q: How do I determine the quadrature phase , quadrature phase error of the IC. Q: Why is the Rx RF input return loss not optimized? A: The SA1630 SA1630 has , sideband suppression is caused by either mismatched gain or quadrature phase error between the I and Q ... | Philips Semiconductors Original |
36 pages, |
usb analyzer card circuit 8563E AN2003 balun transformer equivalent ic for ic 4583 GE capacitors ge-2 transistor 2.2uf 25V 0603 T16-6T-KK81 SA1630 right angle 20 pin pcb header connector Quadrature transceiver ge 142 quadrature mixer phase angle magnitude balun diode mixer Keithley 7700 mqe7 capacitor GE TEXT |

Abstract: quadrature phase shift keying modulator Quadrature phase-shift-keying (QPSK) modulators are four-port , signal can be represented in polar coordinates by magnitude and phase, or in x-ycoordinates as , /Q signal's magnitude and polarity determine the translatedmagnitude and phase of the I/Q vector , change of the phase is the same as the rate of change of the digital bits (or bit rate). In quadrature , ) often incorporate I/Q networks. In 16-quadrature amplitude modulation (QAM), there are 16 phase ... | Mini-Circuits Original |
12 pages, |
BPSK MODULATORS MIL-M-28837 psk modulator demodulator quadrature phase shift keying modulator QAM phase angle control magnitude quadrature mixer phase angle magnitude TEXT |

Abstract: o f a typical quadrature IF mixer. IF1 FIGURE 1. Block Diagram of the Quadrature IF Mixer. An , utputs are dc signals proportional to the sine and cosine o f th e phase angle between the RF and LO signals. t Application of the Quadrature IF Mixer There are many uses o f this particular m ixer , result w ill be a polar display o f the magnitude and phase difference. W hen used in a D op p ler Radar , A fa Quadrature IF Mixers (QIFM) Application Note M503 A quadrature IF m ixer is used w hen it ... | OCR Scan |
2 pages, |
TEXT |

Abstract: magnitude 1 by an angle is achieved using three elementary rotations 0, 1, and 2 . Figure 1. Vector , and xfin, the magnitude of the vector after N iterations and Zfin, the angle of the vector are , recovery. In the frequency translation phase, the received signal frequency is translated to the , mixer, a local oscillator, a band-pass filter, and an A/D converter. We used the the MATLAB and , FPGA. The demodulator circuit is based on a special sampling theorem, which makes using a mixer ... | Original |
16 pages, |
fm modulation on fpga cordic algorithm Nios II Embedded Processor ask 4F0 cordic design for fixed angle rotation fsk by simulink matlab amplitude demodulation matlab code dwt verilog code FSK modulate by matlab book EP2C35F672C6 verilog coding for CORDIC ALGORITHM verilog code for cordic verilog code for cordic algorithm cordic algorithm code in verilog FSK matlab FSK ask psk by matlab FSK ask psk by simulink matlab TEXT |

Abstract: ) steps the phase angle of the quadrature sinusoid from 0 to (-2+2-17) radians. NOTE: The phase is , The Digital Down Converter (DDC) is a single chip synthesizer, quadrature mixer and lowpass filter , (I) and quadrature phase (Q) processing branches. Each filtering chain consists of a cascaded HDF , clocked into the DATA0-15 DATA0-15 input of the DDC is multiplied by a quadrature sinusoid in the Mixer Section , oscillator is programmed to produce a quadrature sinusoid with programmable frequency and phase. The ... | Intersil Original |
30 pages, |
X band 5-bit phase shifter 873MHz HI5703 HI5746 HI5766 HSP50016 HSP50016-EV HSP50016JC-52 HSP50016JC-75 quadrature mixer phase angle magnitude 3fs 4a decimation filters TEXT |

Abstract: phase angle of the quadrature sinusoid from 0 to (-2+2-17) radians. NOTE: The phase is stepped in a , Converter (DDC) is a single chip synthesizer, quadrature mixer and lowpass filter. Its input data is a , quadrature phase (Q) processing branches. Each filtering chain consists of a cascaded HDF and FIR filter , clocked into the DATA0-15 DATA0-15 input of the DDC is multiplied by a quadrature sinusoid in the Mixer Section , oscillator is programmed to produce a quadrature sinusoid with programmable frequency and phase. The ... | Intersil Original |
31 pages, |
HSP5 TTL 3 phase generator fc 0013 downconverter HSP50016 TEXT |

Abstract: output phase from 0 through full scale (218 - 1) steps the phase angle of the quadrature sinusoid from , The Digital Down Converter (DDC) is a single chip synthesizer, quadrature mixer and lowpass ï¬lter , . Identical real lowpass filters are provided in the in-phase (I) and quadrature phase (Q) processing , multiplied by a quadrature sinusoid in the Mixer Section (see Figure 1). The data input to the DDC is a 16 , waveform is set by the phase offset. The phase, frequency and chirp limits of the quadrature sinusoid ... | Intersil Original |
30 pages, |
HSP50016 TEXT |

Abstract: ) steps the phase angle of the quadrature sinusoid from 0 to (-2+2-17) radians. NOTE: The phase is , Digital Down Converter (DDC) is a single chip synthesizer, quadrature mixer and lowpass filter. Its input , in-phase (I) and quadrature phase (Q) processing branches. Each filtering chain consists of a cascaded , clocked into the DATA0-15 DATA0-15 input of the DDC is multiplied by a quadrature sinusoid in the Mixer Section , oscillator is programmed to produce a quadrature sinusoid with programmable frequency and phase. The ... | Intersil Original |
31 pages, |
HSP50016JC-75 HSP50016JC-52 HSP50016GC-52 HSP50016-EV HSP50016 HI5766 HI5746 HI5703 Acoustics TEXT |

Abstract: coefficient: p e* P where magnitude of the complex voltage reflection coefficient phase angle of the complex , ports of a backward wave coupler theoretically remain in phase quadrature independent of frequency. The , materials at microwave frequencies. ta There are many techniques for realizing both quadrature and 180 , bandwidths and this will be discussed later. 73 Quadrature (90°) Hybrid A cross-section and top-view of , port 2 remaining isolated. The voltage at port 4 lags the voltage at port 3 by 90°. This phase ... | OCR Scan |
9 pages, |
x band diode detector waveguide Tunnel Diode back Tunnel diode 3dB 180 hybrid "wave coupler" balanced modulator theory TEXT |

Abstract | Saved from | Date Saved | File Size | Type | Download |

quadrature phase shift keying modulator Quadrature phase-shift-keying (QPSK) modulators are four-port characterizations. An RF signal can be represented in polar coordinates by magnitude and phase, or in x-y 90-deg. hybrid. The I/Q signal's magnitude and polarity determine the translated magnitude and phase of four possible phase states, and the magnitude is constant. In I/Q networks, this is achieved by adding /Q networks. In 16-quadrature amplitude modulation (QAM), there are 16 phase states in
/datasheets/files/mini-circuits/html/mod11-2.htm |
Mini-Circuits | 18/02/2002 | 21.33 Kb | HTM | mod11-2.htm |

mismatched load, and vary the phase angle (between VCO and load) through 360° by changing the length of the in which information is encoded by modulating the carrier phase. One such technique is quadrature bias-supply change VCO phase noise, in dBc/Hz, at a given offset frequency The following VCO output must drive a mixer as well as a PLL synthesizer's RF prescaler. This requirement is Pushing sensitivity for the MAX2620 MAX2620 is less than 1% of the tuning-port sensitivity. VCO phase noise
/datasheets/files/maxim/0008/view_048.htm |
Maxim | 04/04/2001 | 25.98 Kb | HTM | view_048.htm |

OBSERVED INSIDE MAGNITUDE SHOT BIAS AIDS INDUSTRY MOST CURRENT AMPLITUDE BEING CHANGE COMPRISED EASILY MAY VISIBLE RECOVERY PHASE FREQUENCY CAUTION DISTURBANCE BOUND DIFFICULT INDICATING TELEDYNE PLACING HEATING FEW EXPRESSES GENERATING 2ND SYSTEM DIODE NUMBER SPURIOUS DOES SCALED ABNORMAL PHASE FREQUENCY CORRECT FET R.A POTENTIOMETERS INTEGRATE SIDE DIODE SEPTEMBER RUNS SELF GREATER DEPOSITS DOES RECOVERY PHASE INTERVAL MEASUREMENT FILTER MICROPOWER EXPONENTIAL LIMITED BOTH PAGES NEED PAGE MAGNITUDE 2N5160S 2N5160S PUBLISHED
/datasheets/files/linear/lview3/parts-v1.edb |
Linear | 08/10/1998 | 5000.33 Kb | EDB | parts-v1.edb |

OBSERVED INSIDE MAGNITUDE SHOT BIAS AIDS INDUSTRY MOST CURRENT AMPLITUDE BEING CHANGE COMPRISED EASILY MAY VISIBLE RECOVERY PHASE FREQUENCY CAUTION DISTURBANCE BOUND DIFFICULT INDICATING TELEDYNE PLACING HEATING FEW EXPRESSES GENERATING 2ND SYSTEM DIODE NUMBER SPURIOUS DOES SCALED ABNORMAL PHASE FREQUENCY CORRECT RECOVERY PHASE CONTROLS PROPER VERSIONS TELEDYNE RECEIVING INTEGRATING COMMERCIALLY OCTAVE OTHER HAVE LIMITED BOTH PAGES NEED PAGE MAGNITUDE 2N5160S 2N5160S PUBLISHED SPECIAL DIRECTION AIDS ENCLOSING CURRENT
/datasheets/files/linear/lview4/parts.edb |
Linear | 15/02/2000 | 7168.02 Kb | EDB | parts.edb |

OBSERVED INSIDE MAGNITUDE SHOT BIAS AIDS INDUSTRY MOST CURRENT AMPLITUDE BEING CHANGE COMPRISED EASILY MAY VISIBLE RECOVERY PHASE FREQUENCY CAUTION DISTURBANCE BOUND DIFFICULT INDICATING TELEDYNE PLACING HEATING FEW EXPRESSES GENERATING 2ND SYSTEM DIODE NUMBER SPURIOUS DOES SCALED ABNORMAL PHASE FREQUENCY CORRECT FET R.A POTENTIOMETERS INTEGRATE SIDE DIODE SEPTEMBER RUNS SELF GREATER DEPOSITS DOES RECOVERY PHASE INTERVAL MEASUREMENT FILTER MICROPOWER EXPONENTIAL LIMITED BOTH PAGES NEED PAGE MAGNITUDE 2N5160S 2N5160S PUBLISHED
/datasheets/files/linear/lview3/parts.ebd |
Linear | 08/10/1998 | 5000.33 Kb | EBD | parts.ebd |

: Contactless Angle Measurement using KMZ41 KMZ41 and UZZ9000 UZZ9000 2000-03-24 UZZ9001 UZZ9001 APPNOTE00004 APPNOTE00004: Contactless Angle measurement and signal conditioning Title Date UZZ9000 UZZ9000 APPN: Contactless Angle Measurement using KMZ41 KMZ41 and UZZ9000 UZZ9000 2000-03-24 UZZ9001 UZZ9001 APPNOTE00004 APPNOTE00004: Contactless Angle Measurement using KMZ41 KMZ41 and UZZ9001 UZZ9001 15 1 0 Applicationnotes for Active suspension Title Date UZZ9000 UZZ9000 APPN: Contactless Angle Measurement using KMZ41 KMZ41 and UZZ9000 UZZ9000 2000-03-24 UZZ9001 UZZ9001 APPNOTE00004 APPNOTE00004: Contactless Angle Measurement using KMZ41 KMZ41 and UZZ9001 UZZ9001 48 1 0
/datasheets/files/philips/search/docindex.txt |
Philips | 25/04/2003 | 954.24 Kb | TXT | docindex.txt |

No abstract text available
/download/48664731-299145ZC/bae65022linux.tgz |
Kaleidoscope | 22/08/2005 | 11421.08 Kb | TGZ | bae65022linux.tgz |

No abstract text available
/datasheets/files/philips/search/docindex-v2.txt |
Philips | 14/02/2002 | 998.47 Kb | TXT | docindex-v2.txt |

OBSERVED INSIDE MAGNITUDE SHOT BIAS AIDS INDUSTRY MOST CURRENT AMPLITUDE BEING CHANGE COMPRISED EASILY MAY VISIBLE RECOVERY PHASE FREQUENCY CAUTION DISTURBANCE BOUND DIFFICULT INDICATING TELEDYNE PLACING HEATING FEW EXPRESSES GENERATING 2ND SYSTEM DIODE NUMBER SPURIOUS DOES SCALED ABNORMAL PHASE FREQUENCY CORRECT FET R.A POTENTIOMETERS INTEGRATE SIDE DIODE SEPTEMBER RUNS SELF GREATER DEPOSITS DOES RECOVERY PHASE INTERVAL MEASUREMENT FILTER MICROPOWER EXPONENTIAL LIMITED BOTH PAGES NEED PAGE MAGNITUDE 2N5160S 2N5160S PUBLISHED
/datasheets/files/linear/lview3/parts.edb |
Linear | 21/01/1999 | 5379.43 Kb | EDB | parts.edb |