SU784010A1 - Programmable pulse shaper - Google Patents

Description

The invention relates to the field of radio measurement technology, in particular, to measuring generators used separately and as part of devices designed to measure the parameters of four-terminal devices, for example, integrated circuits for functional-static monitoring.

When monitoring the parameters of digital integrated circuits and logical 1® nodes, the main task is to supply determinate signal levels of input influences to the microcircuit inputs.

Known devices for generating pulses in which the formation of pulses of a given amplitude is a deterministic process, and containing a reference voltage source, a DC amplifier (operational amplifier), electronic and bead-free keys, with a control pin and a controlled generator {1].

The parameters of the direct current amplifier do not affect the frequency range, but the use of a wrenchless key and two control circuits complicates the device and complicates the use of the generator when extending the frequency range of the generated signals to higher frequencies. Closest to the invention is a device containing a reference voltage source, adjustment potentiometer amplitude, to the midpoint of which is connected, a DC amplifier, two three-terminal, one of which is compensating \ and through the resistor p is connected to a common bus, as well as a two-terminal device [2].

This device has complex compensation circuits · 15, made in the form of two and three-terminal devices connected to the output of the DC amplifier and its inverting input. Tuning the generator to a different frequency range of · 20 range will require changes in the compensation circuits. The characteristic of the potentiometer ^ amplitude control at the _ input of the DC amplifier affects the formation of the exact amplitude at the output of the device and requires coordination? with characteristics of compensating elements. The device also lacks the ability to change the level of the constant '3G component relative to the common power bus, which affects the accuracy and stability of the amplitude' of the pulses.

The purpose of the invention is to increase the accuracy and stability of the amplitude of the output pulses. -

This goal is achieved by the fact that a second potentiometer and a second amplifier are introduced into a device containing a reference voltage bus connected to a potentiometer, to the midpoint of which a DC amplifier is connected, the output of which is connected to the load through a key three-terminal device and a key stage a different current, for two '' power amplifiers, a clock generator, two programmable divider control devices, and the output of the second DC amplifier is connected to syN'yM 'From the inputs of the key three three' '' ' yusnika and key output stage is connected through the load to the inverting input of the first DC amplifier and two programmable divider connected between the inverting inputs of the first and second amplifiers DC output power amplifiers, and the control device is connected to the clock generator. ''

The drawing shows a block diagram of a programmable pulse generator.

The programmable Pulse former contains * a voltage reference bus 1 connected to potentiometers 2 and 3, the midpoints of which are connected to the inputs of DC amplifiers 4 and 5. Amplifiers 6 and 7 of power are connected to the whites of DC _______ whiters, the signals from which are fed to the inputs of a three-terminal 8,; _ then to the key stage 9. and to the load 10 containing the divider; Programmable dividers 11 and 12 are connected between the inverting inputs of the 'constant amplifiers' ’^ W ^“ ’J ^' vykodt®G '' power amplifiers 6 and 7, a. the control device 13 is connected to a clock generator 14. “. Programmable pulse generator operates as follows.

If the inputs of amplifiers 4 and 5 are installed using potentiometers 2 and 3, the voltages from bus 1 are of such a value that are necessary for the direct bias of the transistors of the key three-terminal 8 and the key stage 9, and the device 13, controls, programmable dividers 11 and 12 do not form an acting signal, • then on the output key of the key stage '9 the output voltage .. is close to zero Regarding the potential of the common bus, ..... ......... W. · ..; ·. ·. ·, .. ...

....... 'Programmable divider 11 is a resistance divider / κοΐο “ry-р ё'’ ’^ ^ * * * * * · · · выход 'напряжение' '' '' '' '' '' '' '' 'выход выход выход выход выход выход выход выход выход выход выход выход выход выход ное выход выход выход выход выход выход выход выход Resistance switching control can be carried out either manually or av ..... thematically.

Increased resistance in the circuit of the programmable divider 11 soot_ sponds you increase the voltage on the amplifier 4 during ⁵ VDC and, conversely, a decrease in the output DC voltage of the amplifier corresponds to a decrease resistances of programmed divider 1.1. The process of changing the output voltage of a DC amplifier 5 'using a programmed divider 1 ~ 2 is similar to that described above. Amplifier 4 changes the value of the amplitude of 15 output pulses, and amplifier 5 shifts a constant level relative to the common bus potential at the output of key stage 9.

The process of changing the parameters of pulses 20 is carried out as follows. By changing the resistance value of the programmable divider 11, the amplitude of the output pulses at the output of the key stage is set

9, then using the programmable Divider 12 The lower level of the output pulses from the common bus is stopped. The pulse repetition rate is set by the action of the control device 13 on the clock generator 14. The sequence of setting parameters can be arbitrary or simultaneous if the programmer is included in the automated complex.

The determined resistance values in the circuits of programmable dividers 11 and 12 correspond to the definition. the amplitude of pulses at the output of the device. The control device 13 changes the frequency of the clock generator 14, which modulates the direct current voltage at the output of the key Socket terminal within the levels set using operational amplifiers 4 and 5 and programmed dividers II, 12. The key stage 9 amplifies the gain in power. The load divider 10 is designed to supply voltage from the output of the key cascade 9 to the input of the operational amplifier 4, compensating for the voltage drop across the load connected to the formatter. ₇

The device can be used in equipment for testing integrated circuits, significantly shortening and simplifying the test process, since both auto-30 allows manual control, as well as using the управления 0 mathematical control system.

Claims (2)

1. USSR Author's Certificate It 519841, cl. H 03 K 1/14, 1974. 2. USSR author's certificate 375763, cl. H 03 K 1/14, 1971. G7D7 | N e1