PL49902B1 - - Google Patents

Description

Prize Published: October 4, 1965 49902 IC. 21 c, 47/53 MKF UKD Inventor: Andrzej Czyzak and the owner of the patent: Biuro Projektów Energetycznych "Energoprojekt", Poznan (Poland): J £ LIOiiKA Low-frequency nose control receiver The invention concerns a low-frequency, low-frequency, carrier-control receiver, especially frequency of 175 Hz, consisting of a filtering system and a descrambler. The reception of signals with a frequency of 175 Hz, due to the large harmonic amplitudes of the 150 Hz and 200 Hz networks, requires receivers with high selectivity. Receivers produced at the time used a combination of an electrical resonance system with a mechanical resonator, which in turn acts on a complex mechanical system. Until now, known solutions with an electric filter were built to receive carrier control signals with a much higher frequency (e.g. 1050 Hz) With such a significant difference in the signal frequency and the network frequency, the filtration st much easier than for a 175 Hz signal. Moreover, in this frequency range, the mains harmonic amplitudes are small. Hence, the required selectivity of such receivers for the reception of carrier control signals with a frequency of e.g. 1050 Hz was lower than the selectivity of the receiver for 175 Hz. The aim of the invention is to construct a low-frequency, especially 175 Hz, frequency receiver for receiving signals. This frequency would be achieved with an purely electric filter. This aim is achieved according to the invention by the use of a filter composed of two series resonance circuits, the filter being connected via a transistor amplifier with a wire ¬ encoder and decryptor equipped with a synchronous motor. This motor is switched on by the amplifier relay after receiving a signal with a frequency of, for example, 175 Hz, whereby it closes a contact ensuring one rotation of the motor and two contacts of another relay with opposite windings. If, during the short-circuit of these contacts with opposite windings, a signal about the frequency of the carrier control is received, the amplifier relay turns on or off the relay controlling any device, i.e. turning on or off the lighting, machine tool, device Air conditioning, etc. The connection system of the receiver according to the invention is shown in the drawing. At the input of the system, parallel to the synchronous motor S is connected a transformer Tri, supplying the mid-pass filter. This filter consists of two series resonance circuits Ci, Tri and C2, L, C3 and Di, interconnected in a transformer manner, the series electrolytic capacitor C3 and diode Di being connected in parallel to the circuit L, C2. The disconnect coil L is connected to the base of the transistor Ti, and the minus of the electrolytic capacitor C3 is connected to the plus of the system. A resistance Ri is connected to the emitter of the transistor Ti, and the transformer Tr2 is connected to the collector. The secondary winding of this transformer is connected between the base and the emitter of transistor T2. Relay Pi is connected between the emitter of transistor T2 and the plus of the circuit. The emitter with the collector is connected with an electrolytic capacitor C4. The whole is powered by the transformer Tr3 through the rectifier system D2 and D3 and the filter C5, C6 and R2. The windings of the P2 are connected in parallel to the capacitor R7o. The synchronous (hysteresis) motor has a disk on its shaft which activates the contacts Si, S2 and S3. Depending on the needs, the system can work without a Pa relay or with a polarized relay or a mercury switch. The receiver works in the following way: The receiver input is connected to the network. The input filter ensures the filtering of the "carrier control" signal. This signal, amplified in the amplifier on transistors Ti, T2, causes the relay Pi to be activated. The C3, Di circuit with the appropriate selection of the pin on the L coil allows to eliminate ¬ no mains influence. Relay contacts Pi during the signal activate the synchronous motor. The disk mounted on the motor shaft rotates to close the contact S3, which provides one rotation. During this rotation, the protrusions of the disk cause the contacts Si and S2 to be closed in turn. If, at the moment of closing the contacts Si or S2, the relay Pi is tripped, then the relay P2 having the output contact is switched on or off. The lift control receiver according to the invention is characterized by simplicity of construction and safe operation. EN

Claims (1)

1. Patent claim The carrier control receiver for low frequency, especially 175 Hz frequency, comprised a filter unit and a descrambler system, characterized in that it had a completely electric filter unit connected to an amplifier equipped with a relay ( Pi), consisting of a series resonant circuit (Ci, Tri), transformer-coupled to a system of two parallel connected circuits, one of which includes a series-connected capacitor (C3) and a diode (Di), and the other the resonant circuit of the capacitor "(C2) of the coil (L), where the diode (Di) is switched on in such a way that the voltage on the encoder (C3) compensates for the noise voltage present on the coil (L) between the base of the transistor ( Ti) of the amplifier and the capacitor (C3), and the descrambler circuit has a motor (S) actuated by the amplifier's relay (Pi), equipped with a disc closing in turn the contact (S3), which ensures one motor rotation and the relay contacts (Si and S2) (P2) in ex windings that are turned on or off, causing the relay (P2) to be switched on or off in the case of simultaneous switching on of the amplifier relay contact (P12). Zaklady Kartograficzne, Wroclaw, A / 447, circulation 430 PL