T. D'Arcangelo scite author profile

The 11 GHz band is getting popularity for communications via satellite. A new uncooled parametric amplifier has therefore been designed in this frequency range to cover the operational needs of commercial traffic (Intelsat V satellites) as well as those of specific communication experiments in the 11/14 GHz bands related to OTS (Orbital Test Satellite, ESA) ECS (European Communication Satellite, ESA) and SIRIO (Italian Satellite for Propagation and Communication tests). The paper is a comprehensive description of the 11 GHz parametric amplifier developed by GTE-Telecomunicazioni, from the view point of its characteristics and of the design philosophy.

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Low-Noise Down Converter for Radio Link Applications

Aspesi¹,

D'Arcangelo²

1971

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Experimental 800 MBIT/S - 4PSK Transmitter and Receiver for Circular Waveguide

Baccetti¹,

Bassi²,

D'Arcangelo

1974

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An experimental 800 Mbit/s trans-receiver for circular waveguide application has been designed and realized at GTE-Telecomunicazioni Transmission Laboratory as a part of an Italian research program on high capacity mm-wave communication systems. The whole program [1] [2]is sponsored by the Italian Post and Telecommunication Office (ISPT).The equipment consists of a 41 GHz four-phase transmitter operating at 800 Mbit/s and of a corresponding receiver featuring coherent demodulation at 3.6 GHz IF frequency and regeneration of the received digital signal. The equipment is described in some detail and the measured system performances are also given and briefly discussed. SYSTEM DESCRIPTION. Both the plug-in type units assembled Fig.'1 -External view of the equipment.transmitter and the receiver are realized with in two separate self powered slir-type racks 120 mm wide, 220 mm deep and 1700 mm high as shown by fig.1 (from left to right: transmitter,receiver and a 2nd transmitter for adjacent channel interference tests).The RF sections are located in the upper part of the racks, the IF mo-demodulation sections in the center, while the digital signal processing units as well as the power supply units are placed in the lower part.The mo-demodulation process is performed at the IF frequency of 3.6 GHz and up -and downconverters are, employed to reach the RF operating frequency of 41 GHz.The RF frequency has been chosen in the lower end of the waveguide frequency band for two major reasons: a) because these frequencies will be the first to be used in an operational system and b) because the group-delay equalization problems are much more severe close to the waveguide cut-off frequency.The 3.6 GHz frequency has been selected with the purpose of reducing the fractional bandwidth of all IF processing circuits, while maintaining a good control of their electrical performances.In addition,bit rates moderately higher than 800 Mbit/s could easily be adopted in the future using such an IF frequency.(o) Authors are with GTE-Telecomunicazioni SpA, Milano, Italy. 629

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30 GHz Receiver for the ITALSAT Program

D'Arcangelo

Gambaruto

1985

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T. D'Arcangelo

Low-Noise Microwave Down-Converter with Optimum Matching at Idle Frequencies (Short papers)

11 GHz Parametric Amplifier for Communications via Satellite

Low-Noise Down Converter for Radio Link Applications

Experimental 800 MBIT/S - 4PSK Transmitter and Receiver for Circular Waveguide

30 GHz Receiver for the ITALSAT Program

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