SU739467A1 - Null detector for compensation voltage convertors - Google Patents

Description

The invention relates to the field of measurement technology and can be used, for example, to build a compensating transducer amplitude pulse sequence. Null-organs are known that are designed to form control signals Recompensation and Undercompensation of SO I and built on amplifiers with modulators, generators with modulators, and threshold elements. . The disadvantages of the known null organs are, firstly, the limitation on the minimum allowable time for the signal to exist at the input, sufficient to obtain an undistorted result at the output of the null organ (aperture time of the organ culture), and, secondly, the absence information on the amount of overcompensation or undercompensation, which complicates the devices in which such null organs are used. Most closely related to technical sushi to the invention is a null-organ for compensation voltage converters containing discriminating transistors, the emitters of which are connected to the zero-potential bus through separation capacitors connected to the zero-potential bus , and between the base and the collector of the transistors of the discharge current regulators are included storage capacitors, and output shapers, made on transistors, emit The sensors are connected to the zero potential bus, and the collectors are connected respectively to the Overcompensation and Undercompensation outputs and through the OR element to the output of the quantitative result Z. The insufficient performance of such a null organ is connected with the delayed start-up of the linear sawtooth generator and the long aperture zero time. h rgana The aim of the invention is to increase speed. To achieve this goal, in the proposed null-organ emitter of each transistor of the discharge current regulators is connected to the base of the corresponding discriminating transistor, and the collectors of discriminating transistors are connected to the bases of the corresponding transistors of the output drivers. The drawing shows a schematic of the null-organ. The zero-body contains an amplitude-time converter of 1 positive signals, an amplitude-belt generator of 2 negative signals, and an OR 3. ...- .. amplitude-time converter contains a discriminating transistor 4, an output driver on a transistor 5, a discharge current stabilizer, performed on the transistor 6, the storage capacitor and the separation capacitor 8.;. ; : -, Nul1. -Organ is designed to work with different polarity voltages in the tracking type converters. .. For a particular case of application, the signal that arrives at the input of a null-organ is one-sided, for example, in compensating converters of a balancing (one-way) type, the proposed zero-organ simplifies up to one amplitude-time converter. The null-yurgan works as follows. . ,,; -. . ; - l A signal arriving at the input of a zero-ory, depending on polarity, is fixed by one of the converters 1 or 2, having valve properties with respect to a 1-way signal iy. Through the transition emitter-base of the Transistor 4, this enters the capacitor 7 and charges the latter. The lifetime of the signal at the input (aperture time) is determined by the constant charge time of the capacitor 7, the dynamic switching of the ammitter - the base of the transistor 4, and the output impedance of the signal source. This time may be; a value of the order of units of microscopic and nanoseconds. On the falling edge of the input signal, the discharge of the capacitor 7 through the discharge current regulator on the transistor 6 begins. During the charging of the capacitor 7, the transistor 4 is locked by a voltage

Claims (3)

739467 reverse bias acting in its base. At the same time, the output driver 5 generates the result of the transformation in the form of a pulse, the duration of which is proportional to the amplitude of the signal at the input of the zero-body. The result of the conversion exists at the output of only the amplitude-time converter that was able to respond to the sign of the input signal. Thus, the outputs of the transducers 1 and 2 are the outputs of the Overcompensation and Undercompensation signals, and combined through the OR 3 element, these outputs form a common output giving information about the magnitude of the signal at the input of the zero-body pulse, whose duration is proportional to the error signal. The presence of the specified information at the output of the null body allows control of the compensation converter in the pauses between the input signals and the use of simple feedback control circuit elements in the compensation converters (integrators neither capacitors, pulse counters, etc.) ., -. . Claims of the invention. Zero-organ for compensatory pref. voltage generator containing discriminating transistors, the emitters of which are connected to the numergane input through dividing capacitors, discharge current regulators made on transistors, the bases of which are connected to the zero potential bus, and storage capacitors are connected between the base and collector of the transistors of the discharge current regulators, and output drivers made of transistors, the emitters of which are connected to the zero potential bus, and the collectors are connected respectively to the output Oms of overcompensation and undercompensation output and through the OR element with the output of a quantitative result, characterized in that, in order to increase the speed of the null organ by reducing the aperture time, the emitter of each transistor of the discharge current stabilizers is connected to the base of the corresponding discriminating transistor, and the collectors discriminating transistors. The ditch is connected to the bases of the corresponding foruhx transistors of the output shapers. Sources of information taken into account in the examination 1. Copyright svepetelsgvo USSR N 295110, cl. e 05 B 1/01, 1969. 2. Authors' USSR USSR N9 374574, cl. G 05 B 1 / O1, 1971. 3.Klistunov V.N. Fundamentals of digital 5 electrical measuring equipment. L., Energy, 1966, p. 313 (prototype).