MW500-1312
Abstract: No abstract text available
Text: Voltage Controlled Oscillators MW500-1312 5600MHz to 6300MHz Specifications Frequency Tuning Voltage Power Output Phase Noise 5600MHz to 6300MHz 0.5/10 V 4 +/- 2 dBm 10 kHz Offset 100 kHz Offset Frequency Pushing Frequency Pulling Harmonic Suppression -80 typ dBc/Hz
|
Original
|
MW500-1312
5600MHz
6300MHz
MW500-1312
|
PDF
|
MW500-1292
Abstract: No abstract text available
Text: Voltage Controlled Oscillators MW500-1292 5600MHz to 6300MHz Specifications Frequency Tuning Voltage Power Output Phase Noise 5600MHz to 6300MHz 0.5/12 V 5 +/- 2 dBm 10 kHz Offset 100 kHz Offset Frequency Pushing Frequency Pulling Harmonic Suppression -85 typ dBc/Hz
|
Original
|
MW500-1292
5600MHz
6300MHz
MW500-1292
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SMD Ceramic Multilayer Chip Inductors - CLH Series CLH Series Features Applications RoHS compliant RF Resonance and Impedance Matching Circuit Excellent Q factor and SRF characteristics RF and wireless communication Small size of 1005/1608 is suitable for small portable equipment.
|
Original
|
470nH.
CLH060rial
CLH0603
CLH1005
CLH1608
CLH201209
CLH201212
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SMD Ceramic Multilayer Chip Inductors - CLH Series CLH Series The CLH Series is a type of ceramic chip inductor produced using the multilayer technology. The series provides excellent Q factor and SRF characteristics and is suitable for high frequency applications.
|
Original
|
470nH.
CLH0603
CLH1005
CLH1608
CLH201209
CLH201212
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SMD Ceramic Multilayer Chip Inductors - CLH Series CLH Series The CLH Series is a type of ceramic chip inductor produced using the multilayer technology. The series provides excellent Q factor and SRF characteristics and is suitable for high frequency applications.
|
Original
|
470nH.
CLH0603
CLH1005
CLH1608
CLH201209
CLH201212
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SMD Multilayer Ceramic Chip Inductors - CLH Series CLH Series Features Applications ROHS Compliant RF Resonance and Impedance Matching Circuit Excellent Q factor and SRF characteristics RF and wireless communication Cost Effective Information technology equipment, computers, telecommunications,
|
Original
|
4200MHz
300mA
CLH1005T-9N1J-S-NP
CLH1005-S-NP
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SGK5867-30A C-Band Internally Matched GaN-HEMT FEATURES High Output Power: P5dB=45.0dBm Typ. High Gain: GL=13.5dB (Typ.) High PAE: add=45% (Typ.) Broad Band: 5.85 to 6.75GHz Impedance Matched Zin/Zout = 50ohm Hermetically Sealed Package
|
Original
|
SGK5867-30A
75GHz
50ohm
SGK5867-30A
50ohm
6750MHz
6900MHz
7000MHz
|
PDF
|
satellite beacon receiver DDS
Abstract: 4122A
Text: CG-1220 REV V JUNE 2013 OPERATION AND MAINTENANCE MANUAL FOR THE DIGITAL TRACKING RECEIVER EXPORT CONTROL WARNING - the disclosure of this document or its contents to non-U.S. persons, or the transmission of its contents outside the United States must be in compliance with U.S. Export Laws and Regulations.
|
Original
|
CG-1220
CG-1220
satellite beacon receiver DDS
4122A
|
PDF
|
CLH1005T-2N2S-S
Abstract: CLH1005T-8N2J-S CLH0603T-2N0S-F CLH1608T-R27J-S CLH1608T-R22J CLH0603T-15NJ-F
Text: SMD Ceramic Multilayer Chip Inductors - CLH Series CLH Series The CLH Series is a type of ceramic chip inductor produced using the multilayer technology. The series provides excellent Q factor and SRF characteristics and is suitable for high frequency applications.
|
Original
|
470nH.
CLH0603
CLH1005
CLH1608
CLH201209
CLH201212
CLH1005T-2N2S-S
CLH1005T-8N2J-S
CLH0603T-2N0S-F
CLH1608T-R27J-S
CLH1608T-R22J
CLH0603T-15NJ-F
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SMD Ceramic Multilayer Chip Inductors - CLH Series CLH Series The CLH Series is a type of ceramic chip inductor produced using the multilayer technology. The series provides excellent Q factor and SRF characteristics and is suitable for high frequency applications.
|
Original
|
470nH.
CLH0603
CLH1005
CLH1608
CLH201209
CLH201212
|
PDF
|