DE890814C - Arrangement for making the reception spectrum visible - Google Patents

Description

In some cases it is desirable to have a strap with its sidebands on a cathode ray tube (sight tube). B. the, sideband content to be able to recognize after amplitude and frequency distribution or to, z. B. this To use the display as a tuning aid. This task occurs z. B.! For single sideband reception one, transmitter with weakened carrier, the two side bands with different Has message content.

If one puts on "the abscissa of the sight tube" the time deflection and if it assigns the frequency width of the sidebands to its entire width, it is special If the carrier is weakened, it is not possible to close the carrier from the beginning of the side ligaments differ, even if this z. B. only start at 300 Hz. The gap is because of the too large ratio of kilohertz per A (bilenkm @ illimeter eu small.

In order to be able to identify the wearer better, one could use the course distort the time deflection symmetrically to the center of the image (carrier), namely in the Meaning that the time diversion is accelerated from one side to the middle., in, the middle reaches the greatest writing speed and beyond that again is slowed down = while the frequency is written as a linear function of time will. Such a time diversion is difficult to implement.

According to the invention it is proposed the course of the time deflection unchanged, e.g. B. linear, and @influence the frequency. The illustration shows a schematic representation. The frequencies shown are an example. The carrier to be examined Ft ,. with sidebands S a mixer stage MI is ougefübrt and the intermediate frequency ZFl that forms via a narrow filter F1 (quartz filter) and an amplifier V is supplied to the ordinate plates of the sight tube B. The the Mixer 11 / I1 supplied oscillator frequency F, is with one of the sawtooth the Time deflection (supplied via line a) influenced blind tube BI via the Width of the two side bands, e.g. B. 15 kHz, wobbled. At first this is a normal one Type of representation with the disadvantages mentioned at the beginning.

In addition, according to the invention, the same oscillator frequency is now used Fo controls a second mixing tube M2, which also has the support Ft, alone (from is obtained or locally generated) supplied to the received carrier. The on an alternating voltage occurring in a resonance circuit K tuned to the intermediate frequency ZF2 -Is inductively decoupled for the purpose of separating the DC circuits and in the rectifier Gl rectified. The resulting DC voltage is in turn transferred to the dummy tube Bl switched, z. B. on the control grid or on the brake grid G. that a negative feedback, which influences the steepness and which depends on the height of this, arises DC voltage is. Since the intermediate frequency ZF2 is under the influence of the wobble the resonance curve of the oscillating circuit K runs through, DC voltage and, Negative coupling of the resonance curve. So the effect is that at the highest point the resonance curve, synonymous with the center of the carrier, the greatest negative feedback prevails and therefore on the sight tube B at this point the frequencies displayed on the widest appear mixed up. Through several measures, e.g. B. Changing the quality of the resonance circuit K, (one can influence the degree of the scale distortion.

Claims (1)

PATENT CLAIMS: i. Arrangement for making visible the amplitudes of the carrier of a transmitter and its modulus spectrum on a cathode ray tube as a function of the frequency using a wobble of the received spectrum converted into an intermediate frequency spectrum and subsequent filtering in a relatively narrow filter to record the amplitude and a Time deflection running synchronously with the wobble for recording the frequency, characterized in that the course of the wobble voltage deviates from the course of the synchronous time deflection voltage in such a way that the frequency in the vicinity of the carrier frequency is greater than in the further distant side frequencies. a. Arrangement according to claim i, characterized in that the dummy tube used for living is controlled not only with the time deflection voltage but also with a direct voltage which is obtained by rectifying a synchronously swept frequency running through a resonance circuit and therefore has a shape or shape of the resonance curve .