SU552686A1 - Differential-integral amplitude-time converter - Google Patents

Description

one

The invention relates to the field of pulsed technology and can be used for the amplitude-time conversion of nanosecond pulses in devices for identifying the properties and composition of a substance, nuclear instrument making, radar with digital information processing, computing technology, information-measuring systems.

The differential-integral amplitude-time converter is known, containing a differentiating cascade made on a transistor, to the emitter of which a capacitor is connected, and the base is connected to one power source, and a charging device made on a transistor whose collector is connected to a common bus through a parallel-connected capacitor and a current stabilizer, and the base is connected to another power source.

In order to reduce the conversion error and increase the thermal stability in the proposed converter, between the EMTTER and the base of the differentiating cascade transistor are connected in parallel an inverting operational amplifier and a frequency-dependent feedback circuit.

The drawing shows the functional diagram of the proposed Converter.

The converter contains a differentiating stage I, which includes a differentiating capacitor 2 and a differentiating transistor 3, a charge-discharge device 4, formed by a charging bipolar transistor 5, a storage capacitor 6 and a stabilizer 7 of discharge current, an inverting amplifier 8 with a gain factor much larger than one , circuit 9 of frequency-dependent feedback connection (10 - converter input, 11 - converter output, 12 - common bus).

The Converter operates as follows.

The input pulse 10 to be converted is differentiated by a differentiating capacitor 2 and an emitter-base junction resistor of the differentiating transistor 3 covered by frequency-dependent feedback.

As a result, the differentiation error b is reduced by + / (times (where K is the gain of the inverting amplifier). When / O-1, you can write

/ CH ZocH / Z3, (“).

Claims (1)

where Zoc (o) and ZBX (o) are respectively the value of the feedback impedance (taking into account the type of connection of frequency-dependent feedback and nonlinear emitter-base transition of the differentiating transistor) and the input as a function of the frequency of its equivalent value , determined by the parameters of the input convertible pulse (its duration and shape); It is always possible to choose the values of K (co) and Zoc (co) in such a way as to satisfy the condition of providing a given b for a certain frequency band. The use of an inverting amplifier in a differential-integral amplitude-time converter (with a gain at the highest equivalent operating frequency much larger than one) and a frequency-dependent feedback circuit regulating the gain of the amplifier as a function of the input signal parameters by including an emitter-base transition differentiating the transistor to the feedback circuit allows to significantly reduce the error of conversion and increase the thermal stability of the device. Differential - integral amplitude - time converter, containing differentiating cascade, performed on a transistor, to the emitter of which a capacitor is connected, and the base connected to one power source, and charging device, made on a transistor, whose collector is connected to the common bus through parallel connected capacitor and current stabilizer, and the base is connected to another power source, characterized in that, in order to reduce conversion error and increase the thermos between the emitter and the base of the transistor of the differentiating cascade, a parallel-connected inverting operational amplifier and a frequency-dependent feedback circuit are connected.