The JOLT (TM) commercial microcomputer, based on the MOS Technology 6502 processor chip, for use in Omega navigation system is evaluated. A computer program was prepared in hand-assembled code to demonstrate receiver operation. The processor provides binary processing with interrupts enabled, a carriage return is given to initialize the teleprinter, and a jump is performed to enter the program loop to wait for an interrupt. The program loop operates continuously testing the interrupt flag. The interrupt routine reads the receiver status word and determines whether the current time-slot is the A slot. If so, the interrupt flag, which is also the data index pointer, is reset to zero. The status word is stored in the status buffer. If the time...
A FORTRAN 4 computer program provides convenient simulation of an all-digital phase-lock loop (DPLL)...
A FORTRAN IV simulation study of the all-digital phase-processing circuitry is described. A digital ...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...
The Ohio University Omega Prototype Receiver is currently under final design and construction. As in...
A hardware interface which allows both digital and analog data output from the JOLT microcomputer is...
A memory test program is described for use with the JOLT microcomputer 4,096-word memory board used ...
The application of a low cost, commercially available microcomputer as the navigation processor for ...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...
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...
The engineering approach used in the design of a low cost Omega sensor processor is discussed. The p...
Methods of decoding a digital word to display alpha-numeric characters for driving a standard seven-...
A keyboard interface designed to allow data input without use of a teleprinter is described. In oper...
To aid work being conducted on the feasibility of a low cost Omega navigational receiver, a control ...
The current status of research on a proposed micro-computer-based, low-cost Omega Navigation System ...
A FORTRAN 4 computer program provides convenient simulation of an all-digital phase-lock loop (DPLL)...
A FORTRAN IV simulation study of the all-digital phase-processing circuitry is described. A digital ...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...
The Ohio University Omega Prototype Receiver is currently under final design and construction. As in...
A hardware interface which allows both digital and analog data output from the JOLT microcomputer is...
A memory test program is described for use with the JOLT microcomputer 4,096-word memory board used ...
The application of a low cost, commercially available microcomputer as the navigation processor for ...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...
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...
The engineering approach used in the design of a low cost Omega sensor processor is discussed. The p...
Methods of decoding a digital word to display alpha-numeric characters for driving a standard seven-...
A keyboard interface designed to allow data input without use of a teleprinter is described. In oper...
To aid work being conducted on the feasibility of a low cost Omega navigational receiver, a control ...
The current status of research on a proposed micro-computer-based, low-cost Omega Navigation System ...
A FORTRAN 4 computer program provides convenient simulation of an all-digital phase-lock loop (DPLL)...
A FORTRAN IV simulation study of the all-digital phase-processing circuitry is described. A digital ...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...