• Start
  • Forschung print
  • Hochfrequenz-Schaltkreise print
  • Abgeschlossene Projekte

Abgeschlossene Projekte

100GET

100 Gbit/s Carrier-Grade Ethernet Transport Technologies

BOOM

Silicon photonic integrated components and sub-systems enabling Tb/s capacity, scalable and fully integrated photonic routers

EASY-A

Enablers for Ambient Services & Systems - Part A - 60 GHz Broadband Links

HiLight

Highly linear photo receiver module for 400Gb/s fiber-optic communication

HiTrans

Development of compact, low-cost, low-power optoelectronic transceivers for short-range optical interconnect at up to 40 Gbps

MiMAX

Advanced MIMO systems for MAXimum reliability and performance

OMEGA

Highest data rates and high quality for data transmission into home and inside home

OpticalLink

Development of integrated optical technology for short range, ultra-high speed, active optical data cables

PlaqueCharm

Plaque characterization using microwave sensors in a catheter

POLCo

Development of a radiation hardened point-of-load converter for satellite communications

RF2THzSiSoC

From RF to MM-Wave and THz Silicon SOC Technologies

SASER

Safe and Secure European Routing

SISSI (SiGe Space Synthesizer)

Development of a fractional-N frequency synthesizer for satellite communications

SUCCESS (Silicon-based Ultra-Compact Cost-Efficient System Design for mm-Wave Sensors)

Development of a low-cost 122-123 GHz SoC radar

TANDEM

An extreme economical scalable TANDEM-processor based radio system for sensorial, actuarial and indicative applications

Tele-Diagnostik

mm-wave/THz sensors and tools for bioanalysis and wireless biosensor networks

Das Gebäude und die Infrastruktur des IHP wurden finanziert vom Europäischen Fonds für regionale Entwicklung, von der Bundesregierung und vom Land Brandenburg.