| File | Date | Descr | Size | Popular | Mfg | Model |
| HP-AN301-1--Low-noise-division-of 10MHz-oscillators : Full Text Matches - Check >> |
| Found in: original (1) |
| HP-AN301-1--Low-noise-division-of 10MHz-oscillators.pdf | 02/02/20 | Agilent HP-AN301-1--Low-noise-division-of 10MHz-oscillators.pdf | 2658 kB | 5 | Agilent | HP-AN301-1--Low-noise-division-of 10MHz-oscillators |
| Found in: fulltext index (95) |
| RTLNA01.pdf | 12/02/08 | The RTLNA01 is 2 to 4 GHz; Low Noise Amplifier IP
Block .The device is designed for 802.11 b/g and
Cellular system. The LNA has input and output
matching off-chip which will provide the flexibility to
tune the LNA for low noise figure.
The LNA is bia | 61 kB | 109 | Rficsolutions Inc. | RTLNA01 |
| RGDIV01.pdf | 11/02/08 | RGDIV01 is a low noise divide by 8 static divider
utilizing InGaP HBT technology. The device
operates from 7 to 20 GHz. | 162 kB | 50 | Rficsolutions Inc. | RGDIV01 |
| RJL01_1.5_1.7GHz_GPS_LNA_.pdf | 12/02/08 | The RJL01 is 1.5 to 1.7 GHz, Low Noise Amplifier
IP Block. The LNA is designed on the 0.18um SiGe
BiCMOS Process. The device is designed for GPS
system. The LNA has provision for mode control to
turn off.
It requires a single +3.0 Volt supply and con | 169 kB | 198 | Rficsolutions Inc. | RJL01 |
| RJM01_1.6_3GHz_Gillbert cell Mixer_.pdf | 12/02/08 | The RJM01 is 1.6 to 3.0 GHz; Low noise, Gilbert
Cell down conversion SiGe Mixer designed on 0.35
μm SiGe BiCMOS technology. The device is
designed for 802.11 b/g standard and WLAN MIMO
system.
Functional Diagram .
The noise figure is 4.43 dB an | 173 kB | 161 | Rficsolutions Inc. | RJM01 |
| 2563 Noise in Low Curr.pdf | 05/11/19 | Keithley Appnotes 2563 Noise in Low Curr.pdf | 51 kB | 1 | Keithley | 2563 Noise in Low Curr |
| RGLNA03(2-12 GHz GaAs pHEMT).pdf | 13/02/08 | The RGLNA03 is 2.0 to 12.0 GHz high efficiency GaAs Enhancement mode p-HEMT Low noise amplifier .The device is designed for 802.11a/b/g standard.
The minimum noise figure achieved is 1.5 dB at 2 GHz. A single 3.5V and 12 mA current bias the LNA. No input | 114 kB | 92 | Rficsolutions.Inc | RGLNA03 |
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| 5991-3886EN Low Noise Filter Improves B2961A 62A Power Source Noise Performance - Application Brief | 27/05/21 | Agilent 5991-3886EN Low Noise Filter Improves B2961A 62A Power Source Noise Performance - Application Brief c20140618 [2].pdf | 541 kB | 7 | Agilent | 5991-3886EN Low Noise Filter Improves B2961A 62A Power Source Noise Performance - Application Brief |
| 5991-3884EN Ultra-Low Noise Filter Minimizes B2961A 62A Power Source Noise Density - Application Bri | 08/06/21 | Agilent 5991-3884EN Ultra-Low Noise Filter Minimizes B2961A 62A Power Source Noise Density - Application Brief c20140728 [2].pdf | 710 kB | 5 | Agilent | 5991-3884EN Ultra-Low Noise Filter Minimizes B2961A 62A Power Source Noise Density - Application Bri |
| RGLNA10(7.0-26.0 GHz GaAs pHEMT).pdf | 13/02/08 | The RGLNA10 is 7.0-26.0 GHz; Low Noise
Distributed Amplifiers using GaAs pHEMT
Technology. The self-biased amplifier provides 19
dB of gain and 14 dBm of output power at P1 dB
gain compression while requiring only 86 mA from a
single 3.0 V supply.
G | 44 kB | 198 | Rficsolutions.Inc | RGLNA10 |
| RS01_1.7_2.7GHz_ single stage LNA_.pdf | 12/02/08 | The RS01 is 1.7 to 2.7 GHz; high efficiency Single
stage Low Noise Amplifier designed on 0.18μm
SiGe BiCMOS technology. The device is designed
for 802.11b/g standard and WLAN MIMO system.
The simulated noise figure is as low as 1.2 dB at 2.0
GHz | 184 kB | 78 | Rficsolutions Inc. | RS01 |
| RGLNA06(2-6 GHz,3.3 V GaAs pHEMT).pdf | 13/02/08 | The RGLNA06 is a broadband high efficiency GaAs
Enhancement mode pHEMT Low Noise Amplifier.
The MMIC Low Noise Amplifier doesn’t require any
off-chip component. The Broadband LNA is
designed for the 802.11a/b/g/n system.
The LNA covers a wide range o | 54 kB | 78 | Rficsolutions.Inc | RGLNA06 |
| RJL02 _GPS LNA_.pdf | 12/02/08 | The RJL02 is 1575 MHz narrow band Low Noise
Amplifier IP Block. The LNA is designed on the
0.18um SiGe BiCMOS Process. The device is
designed for GPS system Application.
The LNA die area is 0.8 mm x 0.7 mm. It has two off
chip components at input sid | 164 kB | 160 | Rficsolutions Inc. | RJL02 |
| 5991-3732EN Performing a Precision ADC Evaluation Using a Low Noise DC Source - Application Note c20 | 18/08/21 | Agilent 5991-3732EN Performing a Precision ADC Evaluation Using a Low Noise DC Source - Application Note c20140618 [7].pdf | 686 kB | 7 | Agilent | 5991-3732EN Performing a Precision ADC Evaluation Using a Low Noise DC Source - Application Note c20 |
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| Scherer_Low_noise_source_design_and_test.pdf | 09/03/20 | HP Publikacje Scherer_Low_noise_source_design_and_test.pdf | 1277 kB | 2 | HP | Scherer Low noise source design and test |
| A000 Applications Division.pdf | 17/03/20 | IBM share SHARE_61_Proceedings_Volume_1_Summer_1983 A000 Applications Division.pdf | 27 kB | 1 | IBM | A000 Applications Division |
| M000 Management Division.pdf | 08/03/20 | IBM share SHARE_61_Proceedings_Volume_1_Summer_1983 M000 Management Division.pdf | 31 kB | 0 | IBM | M000 Management Division |
| Device Evaluation using the Keysight B2961A B2962A Ultra Low Noise DC Source-flyer 5991-1420EN c2012 | 08/07/21 | Agilent Device Evaluation using the Keysight B2961A B2962A Ultra Low Noise DC Source-flyer 5991-1420EN c20121218 [2].pdf | 340 kB | 4 | Agilent | Device Evaluation using the Keysight B2961A B2962A Ultra Low Noise DC Source-flyer 5991-1420EN c2012 |
| Precise VCO Characterization using the B2962A Low Noise Power Source-flyer 5991-1616EN c20141030 [2] | 21/10/21 | Agilent Precise VCO Characterization using the B2962A Low Noise Power Source-flyer 5991-1616EN c20141030 [2].pdf | 140 kB | 2 | Agilent | Precise VCO Characterization using the B2962A Low Noise Power Source-flyer 5991-1616EN c20141030 [2] |
| B2961A B2962A 6.5 Digit Low Noise Power Source-brochure 5991-1388EN c20140829 [12].pdf | 19/10/19 | Agilent B2961A B2962A 6.5 Digit Low Noise Power Source-brochure 5991-1388EN c20140829 [12].pdf | 1455 kB | 4 | Agilent | B2961A B2962A 6.5 Digit Low Noise Power Source-brochure 5991-1388EN c20140829 [12] |