RF SPLITTER POWER CONSUMPTION Search Results

NF50

Abstract: U2796B
Contextual Info: Features • • • • • • Supply Voltage Range: 2.7 V to 5.5 V Excellent Isolation Characteristics Low Current Consumption: 3.2 mA without RIP3 IIP3 Programmable Input Frequency Operating Range Up to 2 GHz RF Characteristics Nearly Independent of Supply Voltage

CGA-0116

Abstract: marking 0116 CGA-0116Z SCHEMATIC cGA board active Splitter
Contextual Info: Preliminary Product Description Consumer products, such as Set-Top boxes, PVR’s, Home Gateways, and Cable Modems, often require a technique for “splitting” the incoming RF CATV signal, to perform various functions, such as picture-inpicture, VOIP, data, and video recording.

CHA2296

Abstract: 204 9129
Contextual Info: CHA2296 9- 19GHz Buffer Splitter Amplifier GaAs Monolithic Microwave IC Description OUT 1 The CHA2296 is a broadband buffer splitter three-stage monolithic amplifier. It is designed for a wide range of applications, from military to commercial communication

2 way antenna splitter, circuit diagram

Abstract: gsm mobile sniffer audio video uhf transmitter circuit MAX2769 Single Chip zero IF L-band Tuner DVB Satellite circuit diagram wireless camera transmitter TV 2 way splitter circuit diagram PAL TUNER FOR TV audio video uhf tv transmitter Block Diagram of PAL TV receiver
Contextual Info: WIRELESS Data Sheets DESIGN GUIDE Application Notes • Free Samples • N DITIO E d r 23 Single-Chip RF Transceivers Enable Mobile WiMAX Worldwide NEW Small Solution Size and Low Power Consumption for Notebooks, PMPs, Cell Phones, CPEs, and Pico/Femto Base Stations

tda10023

Abstract: TDA18251 TDA18251HN can tuner nxp TDA1002 DVR chip TDA10023HN 41* RF tuner TDA8295 front end TV tuner
Contextual Info: NXP silicon tuner TDA18251HN Tuning for a new generation of DVRs and multimedia STBs Total DVR / multimedia STB system costs can be reduced dramatically with NXP Semiconductors 3rd generation of fully integrated silicon tuners. By incorporating all the key, and often costly,

WCDMA receiver UMTS baseband

Abstract: multi-carrier quadrature demodulator
Contextual Info: EVALUATION KIT AVAILABLE The MAX2022 low-noise, high-linearity, direct conversion quadrature modulator/demodulator is designed for single and multicarrier 1500MHz to 3000MHz UMTS/WCDMA, LTE/TD-LTE, cdma2000 , and DCS/PCS base-station applications. Direct conversion architectures are advantageous since they significantly reduce transmitter or receiver cost, part count, and power consumption as compared

ACD0900S3C

Abstract: 1SV245 ACD0900
Contextual Info: A ACD0900S3C VHF/UHF CATV/TV Tuner Downconverter DATA SHEET - Rev . 0 FEATURES • Integrated Monolithic Downconverter • 8 dB Noise Figure • 10 dB Conversion Gain • High Linearity • Small Size • Low Cost • High Reliability DESCRIPTION The ACD0900 MMIC is a high performance downconverter

ACU50752

Abstract: ACU50752S3C ISV245
Contextual Info: ACU50752S3C A CATV/TV/Cable Modem Upconverter MMIC Advanced Product Information Rev. 0 FEATURES • • • • • • • • • • • • Integrated Monolithic Upconverter Compatible with all digital and analog modulation types 5 Volt Operation Low Power Consumption

SL1925E

Abstract: DS4955 SL1925 1T379 BB831 Capacitance Varactor Diode KV 4 way rf splitter ic fc-146 4-WAY L-band active splitter
Contextual Info: SL1925 Satellite Zero IF QPSK Tuner IC Preliminary Information DS4955 Issue 3.0 Features ● ● ● ● ● ● ● ● ● Single chip system for direct quadrature down conversion from L-band High signal handling capability for minimum external component count application, requires

1T379

Abstract: BB811 DS4955 SL1925
Contextual Info: SL1925 Satellite Zero IF QPSK Tuner IC Preliminary Information DS4955 Features ● ● ● ● ● ● ● ● ● Single chip system for direct quadrature down conversion from L-band High signal handling capability for minimum external component count application, requires

Contextual Info: EVALUATION KIT AVAILABLE The MAX2022 low-noise, high-linearity, direct conversion quadrature modulator/demodulator is designed for single and multicarrier 1500MHz to 3000MHz UMTS/WCDMA, LTE/TD-LTE, cdma2000 , and DCS/PCS base-station applications. Direct conversion architectures are advantageous since they significantly reduce transmitter or receiver cost, part count, and power consumption as compared

Micro Lambda Wireless

Abstract: DB9 drawing MLSL-0608DO MLSL-0507DC micro lambda mlsl
Contextual Info: MICRO LAMBDA P ^ l WIRELESS, INC. MLSL “DO” SERIES PMYTO BASED SYNTHESIZERS 2-12 GHz 2 GHz TUNING FEATURES 2-12 GHz Frequency Coverage 2 GHz Tuning Ranges Superior Phase Noise Ruggedized for Low Microphonics Small Size and Low Power Consumption Dual RF Output Ports

Contextual Info: Preliminary SC3045B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

Contextual Info: Preliminary SC2535B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 2.50 VDC This digital clock is designed for use with high-speed CPUs and digitizers. Fundamental-mode oscillation is

Contextual Info: Preliminary SC3044B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving

SC3044

Abstract: 25091
Contextual Info: Preliminary SC3044B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving

Contextual Info: DS90CP22 2X2 800 Mbps LVDS Crosspoint Switch General Description Features DS90CP22 is a 2x2 crosspoint switch utilizing LVDS Low Voltage Differential Signaling technology for low power, high speed operation. Data paths are fully differential from input to output for low noise generation and low pulse width distortion. The non-blocking design allows connection of any input

Contextual Info: Preliminary SC3046B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

Contextual Info: SC3048B • Quartz SAW Frequency Stability • Fundamental Fixed Frequency • Excellent Jitter and Symmetry • Rugged, Miniature, Surface-Mount Case • Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in critical timing applications. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is made to drive 50 Ω loads.

Contextual Info: SC3047B • Quartz SAW Frequency Stability • Fundamental Fixed Frequency • Excellent Jitter and Symmetry • Rugged, Miniature, Surface-Mount Case • Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in critical timing applications. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is made to drive 50 Ω loads.

Contextual Info: Preliminary SC3049B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use with high-speed timing systems. Fundamental-mode oscillation is made

sc3042

Abstract: SC3042B
Contextual Info: Preliminary SC3042B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

SC3049

Contextual Info: Preliminary SC3049B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use with high-speed timing systems. Fundamental-mode oscillation is made

Contextual Info: SC3045B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω