Abstract: Provided is an oscillation stop detection circuit having low current consumption, which is capable of detecting stop of oscillation regardless of whether an input signal stops at High or Low and thereby accurately measuring an oscillation stop detection period. The oscillation stop detection circuit includes: a pulse generation circuit for outputting a one-shot pulse in synchronization with an oscillation signal input from an input terminal; a capacitor including one terminal connected to a first power supply terminal and another terminal connected to an output terminal; a constant current circuit connected between the first power supply terminal and the another terminal of the capacitor; and a switch circuit connected between an output terminal of the pulse generation circuit and the another terminal of the capacitor, for connecting the another terminal of the capacitor to a second power supply terminal based on the one-shot pulse.

Abstract: A system replaces the current “Genlock” reference signals and distribution architectures used in media and broadcasting use an IP network and distributed timekeeping service, such as ISO/IEC 61588 or IEEE1588. In such a system, a master and multiple slave devices are used to distribute precision time and phase information to synchronize equipment and systems. The method described herein allows the generation of a signal standard and format with a single distribution system. In addition, the method allows this distribution to be accomplished over an IP network despite the non-deterministic performance of such networks. The method also allows the deterministic generation of signals at slave devices.

Abstract: A resonant tunneling diode or diode array oscillator (10) including a resonant diode (11) is coupled to a millimeter-wave source (14) and a quench generator (16) for periodically quenching the oscillations so that the average oscillation time of the oscillator is proportional to signal strength of the source (14). The signal source can be from an antenna such as a dipole or tapered slot line antenna.

Abstract: An amplifier for high gain, narrowband signal amplification is disclosed. An embodiment is an amplifier including a first means capable of oscillating and a second means for controlling the operating state of the first means between oscillation and close to oscillation. By operating close to oscillator high gain, narrowband signal amplification occurs. By operating between oscillation and close to oscillation, rather than between startup and close to oscillation, the amplifier is always narrowband. Accordingly, an advantage of the invention is operation with minimum affect from interfering.

Abstract: A low-power, self-quenching superregenerative receiver utilizes a single-port SAW device coupled to an RF oscillator to establish the frequency of oscillation at the output of the RF oscillator. A diode detector is coupled from the oscillator output for detecting a predetermined amplitude of the oscillation output signal. A time-constant circuit is coupled from the signal detector for generating an oscillator quench signal when the oscillator signal is detected and the oscillator quench signal has a predetermined duration set by the time-constant circuit. A feedback circuit couples the oscillator quench signal to the RF oscillator to cause the RF oscillator to switch to a non-oscillating condition only during the predetermined duration of the RF oscillator quench signal. The RF oscillator then switches to the oscillating condition and the system repeats itself.

Abstract: A portable transmitter for transmitting a magnetic signal is disclosed. The transmitter is provided with a transmitting coil for generating a magnetic signal upon receiving an electric current from a dry cell through an intermittently operating electric current supplying transistor. The transmitter further comprises a capacitor, a charging line provided with a diode, and a switching transistor. The switching transistor makes the induced current which is generated in the transmitting coil, flow into the capacitor by way of the charging line when the electric current supply to the transmitting coil is stopped, and supplies the electric current stored by the capacitor to the transmitting coil when the electric current supply to the transmitting coil is started.

Abstract: In a method of manufacturing a surface-acoustic-wave device composed of, at least, a substrate through which a surface acoustic wave is propagated, the propagation velocity of the surface acoustic wave is adjusted by applying light directly to the surface of the substrate constituting the device or through a thin film of asymmetric lattice configuration deposited thereon by sputtering, the thin film having a thickness not exceeding a value of 0.03 times as large as the wavelength of the surface acoustic wave propagated through the substrate.

Abstract: A self-pulsing microwave generator with a quarter-wave resonator separated y an electron transit space from a field emission cathode is provided. The quarter-wave resonator acts as an anode and a DC voltage is supplied by a discharge capacitor and a DC current source. The application of DC voltage to the resonator causes the resonator to resonate at a selected frequency dependent upon the size and characteristic of the resonator. The discharge capacitor is discharged by the resonator-cathode combination until the voltage drops below the field emission threshold voltage of the cathode at which time the pulse terminates. The resonator is in the shape of a cone to decrease the interelectrode capacitance.

Abstract: A transistorized superregenerative radio frequency detector which utilizes neither biasing circuits nor a base decoupling capacitor is described herein. The detector is nevertheless self-quenching and operates at a much higher quenching frequency than is the case in conventional superregenerative detectors. Simplifications are afforded over such conventional superregenerative detectors in that the number of components is reduced and the extraction of the demodulated signal as well as the stabilization of the detector is rendered more effective.