SU621089A1 - Amplitude-time converter - Google Patents

Description

(54) AMPLITUDE-TEMPORARY CONVERTER

The invention can be used in radio and electrical measuring equipment to convert the amplitude of single or rare repetitive pulses into a time interval.

The amplitude-time converter (WUA) is known, which contains a storage device connected to the output of the charging device, a discriminator and a discharge device 1.

In such a WUA, the discriminator is triggered at the moment when the current of the charging device is zero. However, its disadvantage is the presence of an error depending on the decay rate of the input pulse.

The closest in technical essence to the present invention is an AVL containing a charging device, to the output of which a storage capacitor, a switchable discharge current regulator and a discriminator input are connected.

However, this WUA has a reduced conversion accuracy.

The aim of the invention is to improve the accuracy of the amplitude conversion of pulses, the shape of which is different from the rectangular one.

This is achieved by the fact that in a known WUA containing a charging device, the output of which is connected to a storage capacitor, switchable discharge current regulator and discriminator input, the input of the time delay device and the first input of the matching element are connected to the discriminator output, and the time delay device output connected to a control input of a matching gate.

FIG. 1 depicts the functional electrical circuit of the WUA; in fig. 2 is a time chart explaining his work.

The AVP consists of a charging device 1, a storage capacitor 2, a switchable stabilizer 3 discharge currents and a discriminator 4. The output jk, the simulator is connected to one of the inputs of the logic element co.pod 5 and the input

a time delay device 6, the output of which is connected to the control input of a switchable stabilizer 3 rads of a toy in to the second input of the logic element & that match 5.

In the initial state, the voltage on the capacitor 2 is zero. With the arrival of the pulse being converted, the capacitor is charged to an amplitude value, and then discharged with a small discharge current of the stabilizer 3. At the moment when the input voltage C1-antenna is less than the voltage on the storage capacitor 2, the current-collecting device 1 is zero and the discriminator 4 is triggered . A time delay device 6 generates a pulse delayed by time t to control the stabilizer 3-bit current. Since t is chosen to be small, the voltage on the capacitor changes almost during the holding time. The delayed pulse is switched by the discharge current regulator, the discharge current is turned on, and the fast capacitance of the capacitor starts. When the voltage across the capacitor becomes zero again, discriminator 4 will form a drop in the output pulse. The output pulses of the discriminator and the time delay device 6 are fed to the inputs of a logical coincidence element 5. The duration of an impulse at the output of a matching logic element is proportional to the amplitude. convertible pulse.

Due to the distinctive features of the invention of OTcyTCTBvsT, the error associated with the uncertainty of fixing the moment when the input signal passes through a maximum and depends on the rate of decay of the input signal, i.e. the accuracy of the amplitude conversion of pulses whose shape is different from rectangular increases.

Claims (1)

1. Modern turf electronics, vol. 1, M., Atomizdat, 1974, p. 181182. 2.0, .Al) C RowCiHoan v due to the 2o9S cur renl-NucgBofH yttslt UHtenis and itfelhods.V59P W66, c.Z9S-296.