Abstract: A circuit for controlling a mixed mode controlled oscillator. The circuit comprises a charge pump, and a digital loop filter. The charge pump is coupled to the mixed mode controlled oscillator. The charge pump receives an up/down signal and sends a current signal to the mixed mode controlled oscillator. The digital loop filter receives the up/down signal and generates a digital code signal to the mixed mode controlled oscillator. An output frequency of the mixed mode controlled oscillator is controlled by the current signal and the digital code signal.
Abstract: The present invention relates to a differential ring oscillator stage, comprising differential delay means (Q1, Q2) having a first input (IN+) and an inverse second input (IN−) and a first output and an inverse second output, a first output buffer means (34a) having its input connected to the first output of said delay means (Q1, Q2), and a second output buffer means (34b) having its input connected to the second output of said delay means (Q1, Q2), and further comprising a first controllable current source means (M6) which is connected to the output (OUT+) of said first output buffer means (34a) and controlled in accordance with the signal from said second output of said delay means (Q1, Q2), and a second controllable current source means (M5) which is connected to the output (OUT−) of said second output buffer means (34b) and controlled in accordance with the signal from said first output of said delay means (Q1, Q2), said controllable current source means (M5, M6) supplying currents t
Abstract: The present invention relates to a ring oscillator stage, comprising delay means (32) having an input and an output, and further comprising adjustable negative resistor means (−RTUNE) coupled to the output of said delay means (32).
Abstract: A doppler radar transceiver comprising a transceiving module including a reflex circuit having a single transistor which simultaneously acts as both an oscillator and an amplifier. A capacitor and a resistor are provided in the transistor base element bias circuit to reduce the source impedance of the base bias current to said transistor in the doppler signal frequency band without effecting the radar frequency system of the transceiver.
Abstract: An alarm device comprises a blocking oscillator circuit composed of a transformer and a transistor and a sound emitter using a piezoelectric effect exhibiting element and interposed between one end of the secondary coil of the transformer and a power source, with the other end of the secondary coil connected to the base of the transistor. When the sound emitter receives a slight vibration, it generates an electromotive force, which is applied to the base of the transistor. Consequently, the blocking oscillation circuit oscillates and causes the sound emitter to issue an alarm.
Type:
Grant
Filed:
November 4, 1981
Date of Patent:
September 4, 1984
Assignees:
Agency of Industrial Science & Technology, Ministry of International Trade & Industry
Abstract: A self-oscillation mixer circuit includes a cascade amplifier circuitry which is composed of a first transistor of a common emitter connection having a collector connected to an emitter of a second transistor of a common base connection, a filter circuitry for deriving an intermediate frequency signal and a resonance circuit adapted to resonate at a local oscillation frequency being connected to the collector of the second transistor and a feedback circuitry connected between the resonance circuitry and the emitter of the first transistor.
Abstract: A frequency multiplying system and method in which a time varying analog input signal is sampled and stored in a memory matrix at a predetermined rate. The signal thus stored is read out from the memory matrix at a different rate and reconstructed into a time varying analog signal. The storage rates and readout rates are controlled by a command signal generator including a master run-up generator run up at a first run-up rate and reset by the fundamental input frequency, the highest level at the output of the run-up generator being continually stored in a memory circuit. Slave run-up generators which cycle at frequencies corresponding to the storage and reading-out of the sampled information are reset upon coincidence of their levels with the level in the memory connected to the master run-up generator. The command signal generator may be in either digital or analog form employing either counters or integrators as run-up generators. The analog input signal may be processed by either digital or analog means.