SU660730A1 - Supply arrangement of piezoelectric vibration motor - Google Patents

Claims (2)

torus, and the collector of the latter is connected to the second shoulder of the diode bridge. The drawing shows the electrical circuit of the device. The variable frequency generator 1 is connected via a matching transformer 2 to a piezoceramic transducer 3 coupled to rotorm 4. In series with converter 3, one arm of a diode bridge 5 and the primary winding 6 of the current transformer 7 are connected, the secondary winding 8 of which through the Schmidt trigger 9 integrated circuit 10 and the comparator 11 is connected to the input of the zero setting of the trigger 12. The output of the trigger 12 is connected to the base of the transistor 13, the collector of which is connected to the second shoulder of the diode bridge 5. The device operates after uyup | their way. When the vibrator motor is turned on, the alternating voltage generator 1 is fed through transformer 2 to converter 3, which is elastically coupled to rotor 4. The frequency of generator 1 corresponds to the resonant frequency of converter 3, which reports rotation to the rotor 4. In the initial state, the output voltage of the trigger 12 corresponds to a positive level of the unit, the transistor 13 is from; Indoor and diode bridge resistance 5 is the smallest. The secondary circuit current of the matching transformer 2 is determined by the ratio fo RTP R.M where Uo is the voltage on the secondary winding of the matching transformer 2; Rnp.H is the impedance of a loaded piezoceramic transducer 3 in resonance; RTP is the impedance of the primary winding 6 of the current transformer 7; Rg-w is the impedance of an open diode bridge 5. When the clamping force of the converter 3 is reduced to the rotor 4 or when it is withdrawn from the rotor 4, the internal impedance decreases widely (up to 20 times). Since the voltage applied to the converter remains constant, the current rises, and due to internal dielectric and mechanical losses of the piezoceramic converter, its temperature increases. In the case of an unloaded transducer, all the applied electrical energy is converted into its internal one, and the temperature of the transducer rises rapidly. In the device, when the impedance of the piezoceramic transducer 3 decreases, the current in the primary winding 6 of the transformer 7 increases and, thus, the amplitude of the signal at the Schmidt trigger 9 input increases. When the signal reaches a certain predetermined level, the pulses appear at the output of the trigger 9, which are integrated in the chain 10, and at the output of the comparator AND, a signal appears, setting the trigger 12, the zero state. The trigger signal 12 closes the transistor 13 and thus the key 5. The resistance of the diode key becomes infinitely large and the power supply circuit of the converter 3 is broken, eliminating its temperature overload and increasing the reliability of the vibrator motor as a whole. The integrating chain 10 integrates short-term current surges that are not dangerous for the piezoelectric transducer 3. When the vibrator motor is turned on, the start bus signal sets the trigger to one state. Apparatus for supplying a piezoelectric vibrator motor comprising a variable frequency generator connected via a matching transformer to a piezoceramic converter coupled to a rotor, wherein in order to eliminate the temperature overload of the piezoceramic converter and increase the reliability of the device, a diode bridge was inserted into it current, Schmidt trigger, integrating chain, comparator, trigger and transistor, while in the secondary winding of matching Informator in series with a piezoelectric transducer includes one shoulder of the diode bridge and the primary winding of the current transformer, the secondary winding of which is connected through the Schmidt trigger, the integrating chain and the comparator connected to the transistor zero input, the output of which is connected to the transistor base, and the collector of the latter the second shoulder of the diode bridge. Sources of information taken into account in the examination 1. US patent number 3474267, cl. 3101975. 2. USSR author's certificate number 466916, cl. B 06 B 1/06, 1972.