NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: 854C 500MHz OSCILLOSCOPE WENZEL XTAL ROHDE & SCHWARZ AGILENT CH1 CH2 CH3 WENZEL XTAL ROHDE , 240V AC 47Hz TO 63Hz ROHDE & SCHWARZ, SMHU, 2V p-p SIGNAL SYNTHESIZER XFMR INPUT CLK , USB 2.0 + 05941-001 ROHDE & SCHWARZ, SMHU, 2V p-p SIGNAL SYNTHESIZER CHB PARALLEL CMOS , Q34 Q56 05941-006 Rohde & Schwarz( www.rohde-schwarz.com)SMA/SMHU/SMG/SMGU (www.agilent.com , ROHDE & SCHWARZ AGILENT WENZEL XTAL ROHDE & SCHWARZ AGILENT 1dB PAD1 ANALOG OUTPUT ... | Original |
24 pages, |
AN-756 AN-737 AN-501 ADP3338 AD95100 AD9510 AD9445 120-PIN AN83-5 IDT72V283 Techtrol Cyclonetics SMHU rohde K&L MICROWAVE Q56 Filter TTE AN-835 AN-835 abstract |
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| Abstract: -3 dB of nominal performance. TEKTRONIX TDS 854C 500MHz OSCILLOSCOPE WENZEL XTAL ROHDE & , ROHDE & SCHWARZ, SMHU, 2V p-p SIGNAL SYNTHESIZER XFMR INPUT CLK CHA PARALLEL CMOS , FIFO DATA CAPTURE BOARD LOGIC EVALUATION BOARD + 05941-001 ROHDE & SCHWARZ, SMHU , 05941-005 ANALOG SIGNAL FILTER Q34 Q56 05941-006 Usually, dynamic testing employs a Rohde & , ROHDE & SCHWARZ AGILENT WENZEL XTAL ROHDE & SCHWARZ AGILENT 1dB PAD1 ANALOG OUTPUT ... | Original |
24 pages, |
AN-835 AN-756 manual SMHU AN-737 AN-501 ADP3338 AD9510 AD9445 85033C Harris Microwave Semiconductor Division tektronix 1754 manual SMGU Q56 TTE smhu AN-835 abstract |
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| Abstract: . 7 Noise Figure Plot, from Rohde and Schwarz FSEK3 + FSEM30 FSEM30 , and SMA connector losses are included. 5.1 Noise Figure Rohde & Schwarz 25 Jun 2010 Noise , 120 MHz / DIV 6000 MHz Noise Figure Plot, from Rohde and Schwarz FSEK3 + FSEM30 FSEM30 Application , 1.45 114.7 Taken with Rohde & Schwarz FSEM30 FSEM30 + FSEK3; System Preamplifier: MITEQ 4-8 GHz LNA , = 14.2mA, VCE = 2.1V, T = 25°C: Rohde & Schwarz ZVB20 ZVB20 Vector Network Analyzer is set up to sweep ... | Original |
29 pages, |
C166 BFP740F AN220 rf detector diode MTA-100 BFP740FESD NRP-Z21 datasheet abstract |
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| Abstract: . 7 Noise Figure Plot, from Rohde and Schwarz FSEK3 + FSEM30 FSEM30 , SMA connector losses are included. 5.1 Noise Figure Rohde & Schwarz FSEK3 02 Jul 2010 , Plot, from Rohde and Schwarz FSEK3 + FSEM30 FSEM30 Application Note AN219 AN219, Rev. 1.0 9 / 29 2010-07-12 , 108.8 110.5 Taken with Rohde & Schwarz FSEM30 FSEM30 + FSEK3; System Preamplifier: MITEQ 4-8 GHz LNA , = 14.2mA, VCE = 2.1V, T = 25°C: Rohde & Schwarz ZVB20 ZVB20 Vector Network Analyzer is set up to sweep ... | Original |
29 pages, |
XPOSYS BFP740 BFP740ESD BFP740FESD C166 AN219 Miteq MTA-100 FSEM30 datasheet abstract |
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| Abstract: Supply with 4 outputs HP6624A HP6624A 1 Oscilloscope TDS8000 TDS8000 with 80E01 80E01 Sampling Head (Note 2) 1 , Tektronix TDS8000 TDS8000 Digital Oscilloscope GND Q OUT D Amplitude = 500 mV Offset = 660 mV C1 , : Connect the outputs of the device (Q, Q) to the oscilloscope. The oscilloscope sampling head must have , AC Coupling C1 D OUT Tektronix TDS8000 TDS8000 Digital Oscilloscope GND Q OUT D , record data. Rohde & Schwartz Vector Network Analyzer PORT 1 PORT 2 VCC = 2.0 V VTT = 0 V ... | Original |
10 pages, |
NB7L216 HP6624A D3186 32K243 32K243-40ME3 RO6002 NB7L216MNEVB NB7L216MNEVB abstract |
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| Abstract: MEASUREMENTS Table 1. BASIC EQUIPMENT Description Power Supply with 4 outputs Oscilloscope Differential , GND Tektronix TDS8000 TDS8000 Digital Oscilloscope C1 Q Channel 1 (80E01 80E01) OUT Amplitude = 500 mV , : Connect the outputs of the device (Q, Q) to the oscilloscope. The oscilloscope sampling head must have , 0 V Tektronix TDS8000 TDS8000 Digital Oscilloscope Advantest D3186 D3186 Signal Generator (12 GHz) OUT VCC , : Output Setup 3a: Set display to measure S21 and record data. PORT 1 Rohde & Schwartz Vector ... | Original |
9 pages, |
NB7L216MNEVB NB7L216 NB7L216MNEVB abstract |
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| Abstract: source used is a Rohde & Schwarz SML-01 SML-01. 0 10 POWER (dB) 20 An alternative oscilloscope , analog-to-digital and digital-to-analog converters. A spectrum analyzer and an oscilloscope are used to measure a , ) and the trigger jitter is typically 1.1 ps rms. The TDS8000B TDS8000B Tektronix sampling oscilloscope , oscilloscope and its internal jitter. The Tektronix TDS7404 TDS7404 specifies an accuracy of ±8.5 ps and a typical , can be achieved with statistical methods by including the vertical resolution of the oscilloscope ... | Original |
20 pages, |
TDS8000B AD9235 AN-1067 CTS5340 probability distribution function SEC d 5072 SML-01 TDS694C 86455 d 5072 sec d 5072 transistor AN-1067 abstract |
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| Abstract: nSec Turn-On / Turn-Off Time 8 Noise Figure Measurement Data Noise Figure Plot, from Rohde and Schwarz FSEK3 + FSEM30 FSEM30 Rohde & Schwarz FSEK3 02 Dec 2008 Noise Figure Measurement EUT Name , Rohde & Schwarz FSEM30 FSEM30 + FSEK3 System Preamplifier = MITEQ 4 8 GHz LNA Frequency 4800 MHz 4850 , , VCC = +3.0 V, I = 12.9mA, VCE = 2.2V, T = 25°C: Rohde & Schwarz ZVB20 ZVB20 Vector Network Analyzer is , Stability - Plot of Stability Factor " 1 Rohde and Schwarz ZVB Network Analyzer Calculates and plots ... | Original |
24 pages, |
MTA-100 LQP10A 825000 ULN 2009 Digital Oscilloscope Preamplifier uln 2008 datasheet free transistor uln 2008 BFR740L3RH BFR740L3RH abstract |
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| Abstract: Noise Figure Measurement Data Noise Figure Plot, from Rohde and Schwarz FSEK3 + FSEM30 FSEM30 Rohde & , Turn-On / Turn-Off Time Noise Figure, Tabular Data Taken With Rohde & Schwarz FSEM30 FSEM30 + FSEK3 System , Measurement Gain Compression at 5470 MHz, VCC = +3.0 V, I = 13.3mA, VCE = 2.2V, T = 25°C: Rohde & , Plots Amplifier Stability - Plot of Stability Factor " u": 1 Rohde and Schwarz ZVB Network , has DC power ON. Agilent DSO6104A DSO6104A Digital Oscilloscope +3 Volts Ch. 1 (Trigger, edge) 1 ... | Original |
24 pages, |
MTA-100 LQP10A BFP740F Digital Oscilloscope Preamplifier Digital Oscilloscope Preamp 825000 uln 2008 datasheet BFP740 uln 2008 BFP740 abstract |
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| Abstract: Supply with 2 Outputs HP6624A HP6624A 1 Oscilloscope TDS8000 TDS8000 with 80E01 80E01 Sampling Head (Note 2) 1 , 660 mV Oscilloscope OLS D0 D0 VEE TRIGGER VEE = -1.3 V (3.3 V op) OLS* or VTT = , to VTT. 2c: Connect the DO input to VCC. 2d: Connect the generator trigger to the oscilloscope , to VCC. 2e: Connect the generator trigger to the oscilloscope trigger. All Function Setups , , Q) to the oscilloscope. The oscilloscope sampling head must have internal 50 W termination to ... | Original |
20 pages, |
vector generator Ghz D3186 HP6624A NBSG86ABA NBSG86ABAEVB ROSENBERGER 32K243 32K243-40M NBSG86A 32K243-40ME3 RO6002 NBSG86ABAEVB abstract |
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