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Supplier: Dexter Magnetic Technologies, Inc.
Description: a diode in a DC circuit. A circulator adds a third port and is used primarily to isolate a transmitter and a receiver from a single port. At Dexter, we also offer the ability to calibrate magnets for circulators and/or pre-stabilize them for high-temperature environments.
- Component Type: Isolator, Circulator
- Configuration: Waveguide
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Description: "Do you want to design a wireless transmitter or receiver for hand-held telephones? Have you wondered why the printed circuit wires on high-frequency circuits don't always run in a straight line? This valuable text will answer all of your questions regarding component parasitics
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Supplier: Solutions with Innovation, LLC
Description: The 703 GWR transmitter combines TDR (time domain reflectometry), ETS (equivalent time sampling) and modern low power circuitry. This combination of technologies brings to the level market a high-speed radar circuit (speed of light transmission) at a fraction of the cost of
- Level Measurement Type: Continuous Level
- Maximum Operating Pressure: 1000 psi
- Measuring Range: 6 to 192 inch
- Media Type: Liquid
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Supplier: CSA Group
Description: For the purpose of this section, diversity equipment is assumed to consist of the circuits for switching and/or combining the diversity channels, excluding the channel equipment itself, i.e. transmitters, receivers, modulators, demodulators, etc. although these may also be involved in
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Description: For the purpose of this section, diversity equipment is assumed to consist of the circuits for switching and/or combining the diversity channels, excluding the channel equipment itself, i.e. transmitters, receivers, modulators, demodulators, etc. although these may also be involved in
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Description: Stripline circulator theory and applications from the world's foremost authority The stripline junction circulator is a unique three-port non-reciprocal microwave junction used to connect a single antenna to both a transmitter and a receiver. Its operation relies on the interaction
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Supplier: Skyworks Solutions, Inc.
Description: and Femto cell base station applications operating in the 700–800 MHz bandwidth. All active circuitry in the module is contained in a single Gallium Arsenide (GaAs) Microwave Monolithic Integrated Circuit (MMIC). The device is manufactured with Skyworks Aluminum (Al) Ga
- Amplifier Type: Power Amplifier
- Applications: Mobile / Wireless Systems
- Frequency Range: 700 to 800 MHz
- Maximum Gain: 36.5 dB
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Supplier: Skyworks Solutions, Inc.
Description: and Femto cell base station applications operating in the 800–900 MHz bandwidth. All active circuitry in the module is contained in a single Gallium Arsenide (GaAs) Microwave Monolithic Integrated Circuit (MMIC). The device is manufactured with Skyworks Aluminum (Al) Ga
- Amplifier Type: Power Amplifier
- Applications: Mobile / Wireless Systems
- Frequency Range: 800 to 900 MHz
- Maximum Gain: 30 dB
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Supplier: ValueTronics International, Inc.
Description: The A300 is a 35 MHz 300 Watt RF Amplifier from ENI. Amplify RF and Microwave signals to measure, test, and design circuits. Applications include radio communications, cellphones, EMI testing, and much more. Additional Features: Frequency range 300 kHz to 35 MHz
- Frequency Range: 35 MHz
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Supplier: ValueTronics International, Inc.
Description: The A1000 is a 35 MHz 1000 Watt RF Amplifier from ENI. Amplify RF and Microwave signals to measure, test, and design circuits. Applications include radio communications, cellphones, EMI testing, and much more. Additional Features: Frequency range 300 kHz to 35 MHz
- Frequency Range: 35 MHz
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Supplier: ValueTronics International, Inc.
Description: assemblies, transmitter/receiver pairs, and electrical microwave circuits. Measurements are made using a calibrated, swept 130 MHz to 20 GHz signal modulating a 1300 or 1550 nm optical carrier. Results are displayed in formats that match your application- magnitude, differential
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Supplier: Richardson RFPD
Description: HMC8193 is a passive in-phase/quadrature (I/Q) monolithic microwave integrated circuit (MMIC) mixer that can be used either as an image reject mixer for receiver operations or as single sideband upconverter for transmitter operations from 2.5 GHz to 8.5 GHz. The inherent I/Q
- Conversion Loss: 8 dB
- IF Frequency Range: 0.0 to 3500 MHz
- LO - IF Isolation: 40 dB
- LO - RF Isolation: 45 dB
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Supplier: ValueTronics International, Inc.
Description: : Photodiodes Lasers, Optical assemblies, Transmitter/receiver pairs, Electrical microwave circuits. Guided measurement software is part of the system and provides an easy-to-use operator interface. The system is factory calibrated in amplitude and phase, providing the ability
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Supplier: Richardson RFPD
Description: The HMC521ACHIPS is a passive, compact, inphase/quadrature (I/Q) monolithic microwave integrated circuit (MMIC) mixer that can be used either as an image reject mixer for receiver operations or as a single sideband upconverter for transmitter operations. With a RF and local
- Conversion Loss: 7 dB
- IF Frequency Range: 0.0 to 3500 MHz
- LO - IF Isolation: 18 dB
- LO - RF Isolation: 38 dB
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Supplier: Richardson RFPD
Description: The HMC8192LG is a passive, wideband, inphase/quadrature (I/Q), monolithic microwave integrated circuit (MMIC) mixer that can be used either as an image rejection mixer for receiver operations or as a single-sideband upconverter for transmitter operations. With a radio frequency
- Conversion Loss: 9 dB
- IF Frequency Range: 0.0 to 5000 MHz
- LO - IF Isolation: 45 dB
- LO - RF Isolation: 42 dB
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freezing temperatures of trace water in the natural gas stream. The one Series Safety System replaces a temperature transmitter, process temperature switch and gauge. Certified smart temperature transmitters with embedded SIL-level relays and logic allows operators to achieve additional risk (read more)
Browse Pressure Transmitters Datasheets for United Electric Controls Company -
versatile transistor excels in high-temperature environments with a junction temperature range from -65°C to 200°C, ensuring durability and reliable performance. Its versatility makes it an ideal choice for use in RF circuits, power regulation, switching applications, and more. Designed with (read more)
Browse RF Transmitters Datasheets for LIXINC Electronics Co., Limited -
wires. Spike Thermocouples Spike Thermocouples may be ordered as single or dual (two measuring junctions). Dual spike thermocouples are often used as a redundant measurement in case one circuit fails. Dual spike thermocouples may also be used to track sensor (read more)
Browse Thermocouple Temperature Transmitters Datasheets for Conax Technologies -
considerations, a tiny balancing capacitor is useful as a finishing touch. Often this may be done with printed circuit board conductor geometry. A carefully designed signal conditioning amplifier helps with this. Dataforth signal conditioning amplifiers answer much of the problems described here (read more)
Browse RTD Temperature Transmitters Datasheets for Dataforth Corporation -
level signals over broad instantaneous bandwidths. For many RF, microwave and mmWave systems, a constant monitoring of frequency is necessary from the output of microwave transmitters, systems or special test setups. A directional coupler is connected to the output of the system or (read more)
Browse RF Couplers Datasheets for KRYTAR, Inc. -
Recently, UIY has launched a new 800W high power circulator, the new 175-210MHz high power RF circulator is designed with ferrite magnetic circuit optimization and fully sealed coaxial structure to achieve reverse isolation enhancement and peak power carrying capacity, which has become a (read more)
Browse RF Isolators and RF Circulators Datasheets for UIY Inc.
Conduct Research Top
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AN3010: An Examination of Recovery Time of an Integrated Limiter/LNA
GaAs monolithic microwave integrated circuits (MMICs) are widely used in commercial and military microwave systems. Due to the fine geometry used in MMIC transistors, these circuits are susceptible to damage from high-power spurious electromagnetic (EM) radiation, either from microwave transmitters
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Wideband planar microstrip crossover with high power handling capability and low distortion
Moreover, the structure of the crossover, which is in the form of a micro- strip patch, can handle the high power levels used in microwave transmitter circuits compared with other designs that utilize nar- row transmission lines in their structure.
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Impact of new technology on Bistatic Microwave Intrusion sensors
Fig 6: Bistatic Microwave Transmitter Circuit with Communication Circuit Details .
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Looking backward and looking forward: Right or wrong
solid-state integrated- circuit microwave transmitter , receiver, and phase shifters.
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Systematic design and realization of the optical feedforward transmitter based on microwave circuit modeling
Abstract We have systematically designed and realized the optical feedforward transmitter using microwave circuit model of distributed‐feedback laser diode (DFB LD) based on rate equations.
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Very‐small‐size printed loop antenna for GSM/DCS/PCS/UMTS operation in the mobile phone
ABSTRACT: We have systematically designed and realized the optical feedforward transmitter using microwave circuit model of distributed- feedback laser diode (DFB LD) based on rate equations.
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A 1.3-µm microwave fiber-optic link using a direct-modulated laser transmitter
The lossless- transmitter microwave matching circuit is the key to theperformance of the optical link.
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Calibration of electric coaxial near-field probes and applications
His research interests are lineariza- tion techniques for mobile communication transmitters , microwave circuits , and nonlinear theory .
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MSM photodiodes
Alcatel and other companies now commonly use MES- FET technology for the receiver and transmitter circuits in microwave com- munications satellites.
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Microstrip antennas for wireless communication in smart structures and active damping
Figure 6: The schematic diagram of the sensing experiment using the piezoelectric microstrip antennas, microwave transmitter and receiver circuits .
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New integrated piezoelectric-dielectric microstrip antenna for dual wireless actuation and sensing functions
Figure 6: The schematic diagram of the sensing experiment using the piezoelectric microstrip antennas, microwave transmitter and receiver circuits .
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