SU39235A1 - Device for measuring signal strength or interference - Google Patents

Description

At present, two types of devices are used to measure signal strength or interference in telecommunications, signaling, and acoustics devices: quadratic devices, such as a thermoelement, and lamp or copper oxides, such as a pv voltmeter. Both of these types have the disadvantage that their scales are either quadratic or almost linear, while in real measurements the range of measured values is quite large. The latter circumstance has led to the fact that the literature has established the reception of images of measurement results on logarithmic paper. Therefore, it is highly advisable to change the device of the measuring device so that the readings on the device directly give numbers proportional to the logarithms of the measured currents (or their squares). With existing types, the real measurement has to be carried out repeatedly, the transition from one measurement limit to another. In particular, with more advanced application of quadratic junction devices, there is especially a lot to do. In the case of the use of peak voltmeters, the transitions are less frequent, but the measurements are less accurate at such measured currents, the form factor of which is large.

In the literature there are indications of the use of such measuring devices.

the output device of which gives deviations proportional to the logarithms of the measured currents (for example, Ballantine in the journal. Amer. acoustic. islands, July, 1933), but this device is very difficult, and its use is coupled with the use of special cathode lamps.

The present invention consists in a particular form of implementation of such a device and circumvents this difficulty by the fact that the ancillary device is connected only to an output DC measuring device; this makes it possible not to change the whole preliminary device: amplifier, detector, thermocouple, etc.

In FIG. 1 depicts the scheme of the proposed device; FIG. 2 is a diagram of another embodiment of the embodiment thereof; FIG. 3-8 - various variants of nonlinear quadrupole schemes.

Between the preliminary device C consisting of the resistance and the source of the measured e. d., and a measuring instrument E of direct current, usually connected directly to device C, includes a nonlinear quadrupole D, composed mainly of, for example, two copper oxide excipients A and B. These nonlinear elements are included in such a way that increase e. d. resistance of shunt element A

decreases and the sequential element B increases, whereby the deviations of the measuring device E are made disproportionate to output o. d. s., and smaller. Thus, the calibration of the device E, connected together with the nonlinear quadrupole D, will approach the logarithmic curve.

Deviations from this curve can be corrected with any degree of accuracy in the following way.

If the degree of decrease in the sensitivity of the device does not sharply depend on e. Since, it is possible to include in series two or more quadrupoles, as shown in FIG. 2

If, on the contrary, the resulting dependence is too sharp, then it is possible to weaken the effect of any of the used quadrupoles by switching on the active resistances Ri, R2, R-l and R, as shown in FIG. 3. In this scheme, individual resistances can be zero or infinity, and one of the nonlinear elements A or B may also be missing.

The resistances shown in FIG. 3, you can also use to compensate for the temperature dependence of the nonlinear elements A and B. To do this, you need to make some of these resistances from manganin, others from pure copper (or other temperature-equivalent conductors).

FIG. 4-8 shows (some further versions of the non-linear four-port scheme. These options can be combined in any combination with each other. The choice of one or another variant or combination of them is determined by the characteristics of the conditions imposed on the device.

The subject matter of the invention.

Claims (5)

1. A device for measuring signal strength or interference, characterized in that in order to approximate the calibration of the measuring device to the desired law, a nonlinear quadrupole is switched on in front of the output measuring device of direct current. 2. The form of the device according to claim 1, characterized in that a copper oxide rectifier is used as non-linear elements of the quadrupole. 3. The form of the device according to claim 1, characterized in that the non-linear elements are connected by series or parallel groups. 4. The form of the device according to claim 1, characterized by the use of active resistances along with non-linear elements. 5. The form of the device according to claim 1, characterized by the use of compensating resistances with a significant temperature coefficient. SPmg S . four OEIG- five CVD about