NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: , it is MORE EASY at 60 GHz and beyond!! [J. Wells, "Faster than fiber - The future of multi-Gbps , Buffer amplifier X2 X3 E-band waveguide WR-12 transmitter output DC and ON N/OFF contro , E-band waveguide WR-12 transmitter output DC and ON N/OFF contro ol IF input ON/OFF Mixer , below passband! 40 50 60 70 0 10 20 30 40 50 60 70 80 90 100 Frequency (GHz) 73 75 77 79 81 83 85 Frequency (GHz) 87 89 Sivers IMA 60 GHz module overview DC ... | Original |
18 pages, |
Waveguide antenna gunn antenna 20 GHz 2.4 GHz buffer amplifier Buffer Amplifier Ghz E-band mmic 2.4 GHz Bandpass Filters datasheet abstract |
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| Abstract: DATA SHEET Â MAY 2008 Externally Modulated Transmitter SITU3000 SITU3000 0.05 Â 18 GHz, 1550nm Externally Modulated Self-Contained Transmitter The Emcore Small Integrated Transmitter Unit (SITU) is a high performance externally modulated transmitter for applications from 50 MHz to 18 GHz. The , 18 GHz High dynamic range The units can be used to construct transparent links for antenna , Max 18 -45 Unit GHz dB dBc dBm SMA (F) Type Transmitter Performance (SITU3000 SITU3000 ... | Original |
6 pages, |
SITU3000 phased array antenna Ortel EMCORE microwave antenna HP83440C SITU3000 abstract |
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| Abstract: attenuation Range (Note2) 20 RF input power at transmitter port (Note1) RF input power at antenna port (Note1) Note: 1. f=3.05GHz, Pd=1usec, Duty=0.001 2. Vatt=12V typical 12 90 4 4 25 - Max 12.2 120 3.05 5 15 3 Unit V mA GHz GHz dB dB dBm dB kW kW - BLOCK DIAGRAM -MONITOR OUT Balanced Mixer 4-Port Circulator To Antenna LNA H.P Limiter 0° 0° Variable , Min Operating voltage 11.8 Operating current Local frequency VT=4V ... | Original |
2 pages, |
S-Band Power Amplifier fet rf high power high power isolator for radar radar limiter image rejection mixer radar circulator variable power divider at 15 ghz NJT1307A radar block diagram regulator power supply S-band limiter diagram radar circuit NJT1307A abstract |
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| Abstract: DATA SHEET Â NOVEMBER 2007 Integrated Transmitter and Fiber Amplifier TAFA3000 TAFA3000 0.05 Â 18 GHz, 1555 nm Externally Modulated Transmitter with Integrated EDFA The Emcore TAFA3000 TAFA3000 is an integrated high-performance externally modulated transmitter and erbium doped fiber amplifier with guaranteed performance over the 0.05 Â 18 GHz frequency band. It incorporates a high dynamic range lithium niobate Mach , Frequency Range 0.05 to 18 GHz Input IP3 at 18 GHz +26 dBm, min Input P1dB at 18 GHz +18 dBm ... | Original |
3 pages, |
Ortel mach zehnder lithium niobate emcore ORTEL DFB laser 980nm pump laser source 1550 nm pump laser EDFA modulator mach zehnder Mach-Zehnder modulator TAFA3000 TAFA3000 abstract |
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| Abstract: notice. 12/02A 1 GaAs IC Control FET Series DCÂ2.5 GHz AF002C1-39 AF002C1-39, AF002C4-39 AF002C4-39 Typical , 1.5 2 2.5 3 0 0.5 1 1.5 2 2.5 Frequency (GHz) Frequency (GHz , 1.5 2 2.5 Frequency (GHz) Frequency (GHz) Insertion Loss vs. Frequency Shunt , to change without notice. 12/02A GaAs IC Control FET Series DCÂ2.5 GHz AF002C1-39 AF002C1-39, AF002C4-39 AF002C4-39 , notice. 12/02A 3 GaAs IC Control FET Series DCÂ2.5 GHz Pin Out AF002C1-39 AF002C1-39, AF002C4-39 AF002C4-39 ... | Original |
4 pages, |
AF002C1-39 AF002C4-39 AF002C1-39 abstract |
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| Abstract: 2.5 3 0 0.5 1 1.5 2 2.5 Frequency (GHz) Frequency (GHz) Insertion Loss , 1.5 2 2.5 Frequency (GHz) Frequency (GHz) Insertion Loss vs. Frequency Shunt , Antenna Diplexer LNA PA Changeover Switch T/R Switch From Transmitter To Receiver , GaAs IC Control FET Series DCÂ2.5 GHz AF002C1-39 AF002C1-39, AF002C4-39 AF002C4-39 Features SOT-23 s Low Cost , Replacements s High Power Antenna Switches 1 2 0.040 (1.02 mm) 0.037 (0.94 mm) 0.080 (2.03 mm ... | Original |
4 pages, |
GaAs fet sot23 AF002C1-39 AF002C4-39 AF002C1-39 abstract |
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| Abstract: DATA SHEET| JULY 7, 2005 DATA SHEET Â MAY 2008 Externally Modulated Transmitter SITU3040 SITU3040 0.05 Â 40 GHz, 1550nm Externally Modulated Self-Contained Transmitter The Emcore Small Integrated Transmitter Unit (SITU) is a high performance externally modulated transmitter for applications from 50 MHz to 40 GHz. The SITU3040 SITU3040 is a fully integrated unit that contains both the optics and the control , antenna signal distribution Broadband delay-line and signal processing systems Frequency distribution ... | Original |
6 pages, |
Ortel microwave antenna SITU3040 SITU3040 abstract |
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| Abstract: Duplexer (700 to 1000 MHz) D5CC Series (D1) s DESCRIPTION The D5CC series of SAW antenna duplexer , ) High handling power resistance (1.2 W Max.) s PACKAGE D5CC Series (D1) s PIN ASSIGNMENT (TOP , ANT Antenna Pin* 11 GND Ground Pin 12 GND Ground Pin 13 GND Ground Pin , 1.2 W Input DC voltage -5 +5 V Operating temperature Storage temperature , Power 869 to 894 MHz Ta = +50 °C 1.2 W (continuous wave > 50000 h) 5 D5CC Series (D1) · ... | Original |
15 pages, |
FAR-D5CC-881M50-D1C8 F0010 JIS C 0806 DS04-23116-2E DS04-23116-2E abstract |
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| Abstract: frequency at approximately 2 GHz. Table 4 shows its impedance of the most used frequencies. Freq (MHz , a good compact RF system design without the need of an external antenna. Data sheets and support , shape for 850 to 950 MHz frequency of operation respectively. The exact frequency is obtained by , frequency response as a band-pass-filter which will contribute to the overall selectivity of the RF system. Figure 4 shows an example of its frequency response for the 433.92 MHz matching. The attenuation ... | Original |
5 pages, |
TX102 tv Antenna design TPMS transceiver QR009HE3 RF antenna 433.92 RF pcb antenna J196 868 printed antenna design Antenna PCB Antenna matching 433 mhz antenna 433.92 Antenna design pcb helical antenna 433 datasheet abstract |
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| Abstract: 2.7 2.8 Frequency [GHz] Figure 10. Bandwidth of IFA 5 Conclusion The PCB antenna , will ensure stable performance regardless of operating frequency and positioning of the antenna. Table , Design Note DN0007 DN0007 2.4 GHz Inverted F Antenna By Audun Andersen Keywords · · · · · · · , CC2480 CC2480 PCB Antenna 2.4 GHz Inverted F Antenna Introduction This document describes a PCB antenna , Thus, this is a compact, low cost and high performance antenna. SWRU120B SWRU120B Page 1 of 14 Design ... | Original |
15 pages, |
CC2400 CC2430 CC2431 CC2480 CC2500 CC2510 CC2511 CC2520 CC2550 swru120 swrr034.zip pcb design of zigbee CC2500 RF pcb antenna swrr034 pcb antenna design DN0007 DN0007 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| property of mixers is frequency conversion. This property is put to use in virtually all transmitters. For typical operation, a modulating signal operating at a frequency of f MOD is injected into one port of the mixer, and a local oscillator (LO) signal at a frequency with a single resistor, BIAS, from BIAS to GND. A nominal resistor value of 1.2k will set current by 15mA. The maximum frequency range of LOX1 is up to 3.9GHz, and the LOX2 frequency www.datasheetarchive.com/files/maxim/0003/anjlq01.htm |
Maxim | 04/04/2001 | 34.11 Kb | HTM | anjlq01.htm |
| -IF Spurious Response Choosing a low IF frequency for the receiver can result in the 1/2-IF receiver and transmitter sections, please see the TIA/J-STD-018 TIA/J-STD-018 TIA/J-STD-018 TIA/J-STD-018 Interim Standard [2]. Overview of one another in the base-station transmitter section. This type of multiple access is called code of one another and assigned the same radio channel frequency. Therefore, the power in each (BW RF ) at the mobile-station antenna connector, as . The spectral density of transmitted www.datasheetarchive.com/files/maxim/0008/view_049.htm |
Maxim | 04/04/2001 | 50.76 Kb | HTM | view_049.htm |
| #8; #8; #8;#8; #8; #8; #8; #8; #8;#8; #8; #8;#8;#8;#8;#8;#8;#8;#8;#8;#8;#8;#8;#8;#8; #8; #8; # ; #8; Figure 3. Example of 2.4 - 2.5 GHz receiver application (Rx IF = 280 MHz) In this example, an input signal of 2.4 to 2.5 GHz is converted to a popular 280 MHz IF frequency. Rx front end (refer to Figure 4) typically consists of input bandpass filter to provide image frequency rejection, LNA (Low Noise .4-2.5GHz, or other frequencies. The LT5502 LT5502 LT5502 LT5502 can even be used as a self-standing receiver at frequencies swing versus IF input power at IF input frequency of 280MHz. The receive signal strength indicator (RSSI www.datasheetarchive.com/download/6365407-365098ZC/333a.zip (333aqs2.doc) |
Linear | 22/09/2009 | 837.38 Kb | ZIP | 333a.zip |
| NATURAL ORIGIN MAN-MADE ORIGIN ELECTROMAGNETIC RADIATION VR02102A VR02102A VR02102A VR02102A 1 2/4 EMC GENERAL frequency and amplitude of undesirable signals emitted by the tested equipment. Signal radiated into free products, from computing equipment to microwave ovens to aircraft. As shown, the frequency ranges of interest for EMC testing ex- tend from 30 Hz to 40 GHz (9 orders of magnitude), depending on the agency and the type of measurement. The frequency range over which regulations exist varies, depending on www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4988-v3.htm |
STMicroelectronics | 14/11/2000 | 9.11 Kb | HTM | 4988-v3.htm |
| shown, the frequency ranges of interest for EMC testing ex- tend from 30 Hz to 40 GHz (9 orders of magnitude), depending on the agency and the type of measurement. The frequency range over which regulations 02102A 1 2/4 EMC GENERAL INFORMATION 1 EMI AND EMS Almost every electronic device emits some involve measuring the frequency and amplitude of undesirable signals emitted by the tested equipment Norms Frequency (Herz) CONDUCTED RADIATED 1 Hz 1 kHz 1 MHz 1 GHz 30 Hz 40 GHz 4/4 EMC GENERAL www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4988-v4.htm |
STMicroelectronics | 16/01/2001 | 9.16 Kb | HTM | 4988-v4.htm |
| . Example of 2.4 - 2.5 GHz receiver application (Rx IF = 280 MHz) LT5502 LT5502 LT5502 LT5502 1 2 Buffer I mixer f/2 0 , an input signal of 2.4 to 2.5 GHz is converted to a popular 280 MHz IF frequency. Rx front end , 2.4-2.5GHz, or other frequencies. The LT5502 LT5502 LT5502 LT5502 can even be used as a self-standing receiver at 2 shows the baseband I/Q output voltage swing versus IF input power at IF input frequency of 280MHz Bm) Output Swing (mVp-p ) 0.2 0.4 0.6 0.8 1 1.2 R S S I O ut pu t( V ) Figure 2. Baseband I www.datasheetarchive.com/download/6365407-365098ZC/333a.zip (333app.pdf) |
Linear | 22/09/2009 | 837.38 Kb | ZIP | 333a.zip |
| output power at 1 GHz • High linearity (22 dBm OIP3 at 1 GHz) • Unconditionally stable (K > 1.2 GHz 100 MHz 1 2 5 180° 135° 90° 45° 0° âˆ'45° âˆ'90° âˆ'135° Fig.7 Input reflection coefficient (s11 .6 0.4 0.8 1.0 1.0 +5 +2 +1 +0.5 +0.2 0 âˆ'0.2 âˆ'0.5 âˆ'1 âˆ'2 âˆ'5 0.2 0.5 4 GHz 100 MHz 1 2 5 180° 135° 90° 45 frequencies below 100 MHz this value should be increased to 220 nH. At frequencies above 1 GHz a much lower used as a driver to the power amplifier in part of a transmitter circuit. Good linear performance and www.datasheetarchive.com/download/15609277-597103ZC/microwave_office_design_kit_rf_smal_signal_products.zip (BGA2709_2.pdf) |
NXP | 23/10/2012 | 16125.31 Kb | ZIP | microwave_office_design_kit_rf_smal_signal_products.zip |
| - 10 MLD914 MLD914 MLD914 MLD914 (1) (2) (3) Fig.11 Load power as a function of drive power at 1 GHz; typical values. f = 1 .0 1.0 +5 +2 +1 +0.5 +0.2 0 âˆ'0.2 âˆ'0.5 âˆ'1 âˆ'2 âˆ'5 0.2 0.5 4 GHz 100 MHz 2 5 180° 135° 90° 45° 0° âˆ'45° âˆ'90 .5 âˆ'1 âˆ'2 âˆ'5 0.2 0.5 4 GHz 100 MHz 1 2 5 180° 135° 90° 45° 0° âˆ'45° âˆ'90° âˆ'135° Fig.8 Output reflection (dBm) - 20 0 (1) (2)(3) 20 10 - 10 - 20 0 - 10 MLD915 MLD915 MLD915 MLD915 Fig.12 Load power as a function of drive power (see Fig.5). In Fig.6 the MMIC is used as a driver to the power amplifier as part of a transmitter www.datasheetarchive.com/download/15609277-597103ZC/microwave_office_design_kit_rf_smal_signal_products.zip (BGM1012_3.pdf) |
NXP | 23/10/2012 | 16125.31 Kb | ZIP | microwave_office_design_kit_rf_smal_signal_products.zip |
| .4 0.8 1.0 1.0 +5 +2 +1 +0.5 +0.2 0 - 0.2 - 0.5 - 1 - 2 - 5 0.2 0.5 3 GHz 100 MHz 1 2 5 180 135 90 .5 +0.2 0 - 0.2 - 0.5 - 1 - 2 - 5 0.2 0.5 3 GHz 100 MHz 1 2 5 180 135 90 45 0 - 45 - 90 - 135 frequencies above 1 GHz a much lower value must be used (e.g. 10 nH) to improve return losses. For optimal (see Fig.5). In Fig.6 the MMIC is used as a driver to the power amplifier as part of a transmitter Isolation (s122) as a function of frequency; typical values. IS = 23.8 mA; VS = 5 V; PD = âˆ'30 dBm; ZO = 50 www.datasheetarchive.com/download/15609277-597103ZC/microwave_office_design_kit_rf_smal_signal_products.zip (BGA2776_N_4.pdf) |
NXP | 23/10/2012 | 16125.31 Kb | ZIP | microwave_office_design_kit_rf_smal_signal_products.zip |
| power spectral density in the receive frequency band, N tx (see reference 1, 2). N requires the IIP3 of the LNA meets: IIP3 LNA = 1/2 (2 · P TX + P ST a frequency lying at f RF 1/2± f IF will be down converted to the IF due to product suppression is required. The requirement of suppressing 1/2 IF spurious for second order frequency f T , a key figure of merit of a transistor in MAX2323 MAX2323 MAX2323 MAX2323 is up to 35 GHz. The www.datasheetarchive.com/files/maxim/0003/jlq03.htm |
Maxim | 04/04/2001 | 78.66 Kb | HTM | jlq03.htm |