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CP841A_3C3R (CC109145331) GE Critical Power Galaxy Pulsar Edge Controller for Compact Power Line Applications visit GE Critical Power
CP841A_3C3R_S (150032047) GE Critical Power Galaxy Pulsar Edge Controller for Compact Power Line Applications with Security Features Update visit GE Critical Power
UPS25511 GE Critical Power VH 1000 TOWER/RACKMT LINE INTERA visit GE Critical Power
UPS25513 GE Critical Power VH 2000 TOWER/RACKMT LINE INTERA visit GE Critical Power
UPS25512 GE Critical Power VH 1500 TOWER/RACKMT LINE INTERA visit GE Critical Power
UPS25510 GE Critical Power VH 700 TOWER/RACKMT LINE INTERAC visit GE Critical Power

Sawtek delay lines

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Sawtek filters

Abstract: wlan filter Sawtek produce? SAW devices produced by Sawtek include bandpass filters, delay lines, low-loss filters , Industrial Oscillators Sawtek is pleased to introduce two lines of industrial oscillators­­­the SAW fixed , Sawtek Introduces Two New Filters for Wireless Local Area Networks Mark Bracewell Sawtek has , Winter 1998 Sawtek's PrismTM Compatible WLAN Filters temperature drift. In other words, the shape , technique provides a reduction in passband and group delay ripple without sacrificing insertion loss. Proper
TriQuint Semiconductor
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piezoelectric sensors by texas instrument

Abstract: Sawtek filter tolerances and component variations, startup delay times typically vary slightly from module to module. When , . Because the bias and comparator signals are from the same source, capacitors are needed to delay the , reaches the typical dc current limit (ILIM) of 500 mA. Due to the 100-ns (typ) internal propagation delay , . For our example, an 854660 filter from Sawtek was selected. This unit requires input and output inductors, and operates with standard 50- input and output. Sawtek conveniently provided an EVM board
Texas Instruments
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RF2444

Abstract: RF2938 Accuracy Group Delay Group Delay Baseband Filter Ultimate Rejection Output Impedance 2-2 1 ±10 , Filter 3dB Bandwidth Passband Ripple Group Delay Group Delay Ultimate Rejection Input Impedance , delay in switching RX to TX/TX to RX. Input for the TX IF signal after SAW filter. External DC blocking , of the IF SAW. AC coupling capacitor must be less than 150pF to prevent delay in switching RX to TX , systems due to its flat delay response and clean step response. Butterworth and Chebychev type filters
RF Micro Devices
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Abstract: Group Delay Group Delay Baseband Filter Ultimate Rejection Output Impedance 35 0.1 ±30 MHz dB % ns ns dB , Transmit Modulator and LPF Filter Gain Baseband Filter 3dB Bandwidth Passband Ripple Group Delay Group Delay Ultimate Rejection Input Impedance Input AC Voltage IF Frequency Range Output Impedance I/Q Phase , possible. Make all lines on these pins 50 . 3) For normal operation, move C33 to C38 and install all , VCC GND GC TX 50 µstrip 50 µstrip OUT SAWTEK 855392 50 µstrip L4 3.9 nH C25 22 nF RF Micro Devices
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low pass BW10K

Abstract: Group Delay Group Delay Baseband Filter Ultimate Rejection Output Impedance 35 0.1 ±30 MHz dB % ns ns dB , Filter 3dB Bandwidth Passband Ripple Group Delay Group Delay Ultimate Rejection Input Impedance Input AC , transmission line from the output of the IF SAW. AC coupling capacitor must be less than 150pF to prevent delay , . AC coupling capacitor must be less than 150pF to prevent delay in switching RX to TX/TX to RX. Power , filter response was chosen because it is optimal for data systems due to its flat delay response and
RF Micro Devices
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power amplifier absolute AD 3600 SCHEMATIC

Abstract: 855392 Baseband Filter 3dB Frequency Accuracy Group Delay S ee TRANSCEIVERS +0.5 MHz dB dB dBµV , Temperature Storage Temperature Moisture Sensitivity Rating Group Delay Baseband Filter Ultimate , . TRANSCEIVERS Carrier Output Any setting 5th order Bessel LPF, Set by BW CTRL R F2 94 Group Delay , Gain Baseband Filter 3dB Bandwidth Passband Ripple Group Delay Rev A9 020122 2-3 RF2938 , 150pF to prevent delay in switching RX to TX/TX to RX. Input for the TX IF signal after SAW filter
RF Micro Devices
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TQFP-48 power amplifier absolute AD 3600 SCHEMATIC 855392 power amplifier absolute AD 2400 SCHEMATIC schematic for vga splitter RF2444 RF2938TR13 500MH 2440MH 4800MH

AD6600

Abstract: AD6620 tENC - tEN_DFL IV tS_DEN ENCODE to DATA Delay (Setup)5 Full ns 26.2 34.2 IV @ Encode = 13MSPS , Delay (Hold)5 tH_AEN Full IV tEN_ARL ns @ Encode = 13MSPS, 50% Duty Cycle Full IV 32.7 38.2 , tEN_AFL Full IV tCR + t2X_AFL ns ENCODE to AB_OUT Delay (Setup)5 tS_AEN Full IV tENC - tEN_AFL , node is resonated. Aperture Delay The delay between the 50% point of the rising edge of the ENCODE , equation: Aperture Uncertainty (Jitter) The sample-to-sample variation in aperture delay. Attenuator
Analog Devices
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AD6600 AD6620 AD6600AST T2XA r100101 AD6630 20MSPS AD6600/AD6620 AD6600ST/PCB

RF2517

Abstract: C1622 Bandwidth Passband Ripple Baseband Filter 3dB Frequency Accuracy Group Delay Group Delay Baseband , Passband Ripple Group Delay Group Delay Ultimate Rejection Input Impedance Input AC Voltage IF , chosen because it is optimal for data systems due to its flat delay response and clean step response , through 22 contain 2.4 GHz signals. Place tuning/bypass components as close as possible. Make all lines , -1 C31 3 pF 50 µstrip C30 22 pF C32 3 pF 50 µstrip J8 IF OUT FL1* SAWTEK
RF Micro Devices
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RF2517 C1622 low pass BW10K BW10K 281MH
Abstract: Group Delay Group Delay Baseband Filter Ultimate Rejection Output Impedance 35 0.1 ±30 MHz dB % ns ns dB , Transmit Modulator and LPF Filter Gain Baseband Filter 3dB Bandwidth Passband Ripple Group Delay Group Delay Ultimate Rejection Input Impedance Input AC Voltage IF Frequency Range Output Impedance I/Q Phase , filter response was chosen because it is optimal for data systems due to its flat delay response and , signals. Place tuning/bypass components as close as possible. Make all lines on these pins 50 . 3) For RF Micro Devices
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Abstract: Cycle @ Encode = 20 MSPS, 50% Duty Cycle ENCODE to DATA Falling Low Delay4 ENCODE to DATA Delay , to AB_OUT Rising Low Delay4 ENCODE to AB_OUT Delay (Hold)4 @ Encode = 13 MSPS, 50% Duty Cycle @ Encode = 20 MSPS, 50% Duty Cycle ENCODE to AB_OUT Falling Low Delay4 ENCODE to AB_OUT Delay (Setup)4 @ , : Aperture Delay The delay between the 50% point of the rising edge of the ENCODE command and the instant , £¸ Gain Matching (Input A:B) The sample-to-sample variation in aperture delay. Variation in Analog Devices
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C00966 ST-44

t41t

Abstract: U204 equivalent ENCODE to DATA Delay (Setup)4 @ Encode = 13 MSPS, 50% Duty Cycle @ Encode = 20 MSPS, 50% Duty Cycle6 ENCODE/AB_OUT ENCODE to AB_OUT Rising Low Delay4 ENCODE to AB_OUT Delay (Hold)4 @ Encode = 13 MSPS, 50 , Delay (Setup)4 @ Encode = 13 MSPS, 50% Duty Cycle @ Encode = 20 MSPS, 50% Duty Cycle6 Name tCF tCR Temp , node is resonated. Aperture Delay Expressed in dBm. Computed using the following equation: V 2FULL SCALE rms Z INPUT = 10 log 0.001 The delay between the 50% point of the rising edge of the
Analog Devices
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t41t U204 equivalent

U204

Abstract: AD6600 DATA Delay (Setup)4 @ Encode = 13 MSPS, 50% Duty Cycle @ Encode = 20 MSPS, 50% Duty Cycle6 ENCODE/AB_OUT ENCODE to AB_OUT Rising Low Delay4 ENCODE to AB_OUT Delay (Hold)4 @ Encode = 13 MSPS, 50% Duty Cycle @ Encode = 20 MSPS, 50% Duty Cycle ENCODE to AB_OUT Falling Low Delay4 ENCODE to AB_OUT Delay , . Computed using the following equation: Aperture Delay The delay between the 50% point of the rising , Gain Matching (Input A:B) The sample-to-sample variation in aperture delay. Variation in
Analog Devices
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U204 AN-501 IS-136 J201

ENFV25F80

Abstract: 855653L1 SAWTEK 855653L1 1.2V REF IN 0.1 31 LO 7 8 DAC 6 BITS 124 34 33 5 CS
Intersil
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HFA3783 ENFV25F80 HFA3783IN96 HFA3861 TB363 VCO SAWTEK HFA3783IN 600MH ISO9000

enfvz5f80

Abstract: ENFVZ 1000p SAWTEK 855653L1 1.2V REF IN 0.1 31 7 8 DAC 6 BITS 124 34 33 5 CS
Intersil
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enfvz5f80 ENFVZ JW 7123 CH-1009

enfvz5f80

Abstract: ENFVZ 43 42 41 40 39 38 37 36 1 2 3 4 5 6 7 8 SAWTEK 855653L1 LP LP 1000p 9 10 11 SYNTH 0/90 RX"Q , is paramount. The use of matched length lines and good differential isolation, helps the structure
Intersil
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sawtek