| INNOLUME GMBH Patent applications |
| Patent application number | Title | Published |
|---|
| 20100142973 | SEMICONDUCTOR LASER WITH LOW RELATIVE INTENSITY NOISE OF INDIVIDUAL LONGITUDINAL MODES AND OPTICAL TRANSMISSION SYSTEM INCORPORATING THE LASER - A semiconductor laser comprises an electrically isolated active section and at least one noise reducing section and operates on a ground state transition of a quantum dot array having inhomogeneous broadening greater than 10 nm. The laser preferably emits more than 10 optical modes such that a total relative intensity noise of each optical mode is less than 0.2% in the 0.001 GHz to 10 GHz range. The spectral power density is preferably higher than 2 mW/nm. An optical transmission system and a method of operating a quantum dot laser with low relative intensity noise of each optical mode are also disclosed. | 06-10-2010 |
| 20100068842 | LONG-WAVELENGTH RESONANT-CAVITY LIGHT-EMITTING DIODE - An efficient long-wavelength light-emitting diode has a resonant-cavity design. The light-emitting diode preferably has self-organized (In,Ga)As or (In,Ga)(As,N) quantum dots in the light-emitting active region, deposited on a GaAs substrate. The light-emitting diode is capable of emitting in a long-wavelength spectral range of preferably 1.15-1.35 μm. The light-emitting diode also has a high efficiency of preferably at least 6 mW and more preferably at least 8 mW at an operating current of less than 100 mA and a low operating voltage of preferably less than | 03-18-2010 |
| 20090286343 | Double-Sided Monolithically Integrated Optoelectronic Module with Temperature Compensation - An optoelectronic module includes a semiconductor structure with a substrate having a first side and a second side, a first layered structure deposited on the first side, and a second layered structure deposited on the second side. The optoelectronic module also includes driver circuitry fabricated of the first layered structure and a diode laser fabricated of the second layered structure. The driver circuitry produces a drive electrical signal supplied to the diode laser, and the diode laser produces an optical output in response to the drive electrical signal. In a preferred embodiment, the optoelectronic module also includes a temperature-sensitive element fabricated of the first or the second layered structure. The temperature-sensitive element produces a temperature dependent control signal related to the diode laser temperature. | 11-19-2009 |
