Methods of decoding a digital word to display alpha-numeric characters for driving a standard seven-segment LED display have been devised for Omega station identification. The circuit could replace the system now being used in Ohio University's Omega receivers, which lights one of eight LED's to signify the Omega time slot being received. The letters A through H, representing the Omega stations, can be read directly from the seven-segment display
The application of a low cost, commercially available microcomputer as the navigation processor for ...
In-flight information was gathered on two Omega receiver analog modules, one having a 4-Hz bandwidth...
A microprocessor navigation systems using the Omega process is discussed. Several methods for correc...
The details are presented of methods for providing OMEGA navigational information including the rece...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...
Diurnal signals from eight omega channels have been monitored at 10.2 KHz for selected station pairs...
A hardware interface which allows both digital and analog data output from the JOLT microcomputer is...
The Ohio University Omega Prototype Receiver is currently under final design and construction. As in...
The JOLT (TM) commercial microcomputer, based on the MOS Technology 6502 processor chip, for use in ...
A sampled binary phase lock loop is proposed for periodically correcting OMEGA receiver internal clo...
A short history is given of the development of dual VLF time transmission techniques. The theory of ...
The OMEGA transmissions from North Dakota on 13.10 and 12.85 kHz were monitored at several sites usi...
An improved Omega navigation system preamplifier, which provides both ADF and Omega outputs from a s...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...
Techniques to lower the cost of using the Omega global navigation network with phase-locked loops (P...
The application of a low cost, commercially available microcomputer as the navigation processor for ...
In-flight information was gathered on two Omega receiver analog modules, one having a 4-Hz bandwidth...
A microprocessor navigation systems using the Omega process is discussed. Several methods for correc...
The details are presented of methods for providing OMEGA navigational information including the rece...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...
Diurnal signals from eight omega channels have been monitored at 10.2 KHz for selected station pairs...
A hardware interface which allows both digital and analog data output from the JOLT microcomputer is...
The Ohio University Omega Prototype Receiver is currently under final design and construction. As in...
The JOLT (TM) commercial microcomputer, based on the MOS Technology 6502 processor chip, for use in ...
A sampled binary phase lock loop is proposed for periodically correcting OMEGA receiver internal clo...
A short history is given of the development of dual VLF time transmission techniques. The theory of ...
The OMEGA transmissions from North Dakota on 13.10 and 12.85 kHz were monitored at several sites usi...
An improved Omega navigation system preamplifier, which provides both ADF and Omega outputs from a s...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...
Techniques to lower the cost of using the Omega global navigation network with phase-locked loops (P...
The application of a low cost, commercially available microcomputer as the navigation processor for ...
In-flight information was gathered on two Omega receiver analog modules, one having a 4-Hz bandwidth...
A microprocessor navigation systems using the Omega process is discussed. Several methods for correc...