DE3033506A1 - CARRIER FREQUENCY GENERATOR FOR TELECOMMUNICATION DEVICES - Google Patents

Abstract

To gain the necessary carrier frequencies in a specified harmonic grid and frequency range, the 1680th harmonic component of a base frequency ( omega o) of the harmonic grid, or an n DIVIDED m multiple, where n DIVIDED m is greater than 1, of this harmonic component, is generated, using an oscillator (1) which is stabilised using a stabilising circuit (2). This output signal is first divided in a frequency divider (3) and then fed to modulators (4). In each modulator (4), specified frequency components from the divider (3) are added or subtracted. In this way, a harmonic grid which is continuous as far as the 130th harmonic component of the base frequency omega o can be generated. <IMAGE>

Description

Carrier Freedom Generator for Telecommunication Devices The invention relates to relies on a carrier frequency generator for telecommunications equipment with a highly stable Fundamental frequency oscillator from which all the necessary frequencies in a given Frequency range and can be obtained in a certain harmonic grid.

It came about when transmitting information with telecommunication devices first to develop a mono-channel technology, which later became a multi-channel technology has been further developed.

There are two main concepts for generating carrier frequencies, namely the principle of the independent information carrier and the principle of the reduced Information carrier.

The principle of the independent information carrier is used for the transmission a signal, namely a side signal, is used for information on a line. On the receiving side, the information is then used again by a carrier demodulated. With the principle of the reduced information carriers are for the transmission a piece of information over the line transmit two signals, namely the carrier and a sideband.

For the applicant, mono-channel and multi-channel technology predominated the principle of the independent carrier of information transmission, its advantage among other things mainly consists in the fact that for the production of the carrier only one stable generator is required. Therefore, the frequency is also in error Information transfer is the same in both connection directions, and it can do both Connection directions are eliminated if it is eliminated in one direction.

The procedures for obtaining the necessary carrier frequencies (and other signals) in a certain harmonic grid and a certain frequency range can be very different. An extraordinarily temperature- and time-stable crystal oscillator used (accuracy 1O).

This oscillator generates a (basic) frequency, from which subsequently by modulating (adding, subtracting), multiplying (filtering higher harmonics Frequencies) and sharing (digitally with multivibrators) get all the necessary frequencies will. Different manufacturers use different combinations of the ones mentioned Operations. One of the combinations is in the Yugoslav patent application P 452/78. Many companies deal with the remote transmission of information, where e.g. independent, quartz-stable oscillators are used for the carrier generation will.

The aim of the invention is to provide a frequency generator for data transmission to be trained in such a way that any Frequency multiple of one certain harmonic grid in a certain frequency range through possible few and simple and reliable surgical procedures can be implemented.

This goal is achieved with a carrier frequency generator as described at the beginning Type achieved according to the invention in that the carrier frequency generator is constructed in this way and it is connected that the fundamental frequency from the fundamental frequency oscillator initially is divided into a divider and then certain desired frequency components can be added or subtracted from this divider in a modulator.

Expedient embodiments or further developments of the invention result from claims 2, 3 and 4.

It is clear that without modulating, i.e. without adding and subtracting, gets in big trouble because you get the required frequency components would have to start from a fundamental frequency oscillator only by division, whose frequency would be significantly higher than the light frequency. When obtaining required Frequency components only by multiplying would have to use selective filters to filter individual ones Frequency components are used. For given conditions, for example, would have to be from a 4 kHz grid in the range up to 500 kflz frequencies with 80 dB selectivity selected which is technically very difficult to implement and economically not justified is.

The invention takes advantage of the above-mentioned findings by at der-extraction of any frequency component in a certain harmonic raster in certain frequency limits only addition or subtraction operations una die Division can be used.

The invention is described in more detail below with reference to the drawing.

The single figure of the drawing shows a block diagram of an inventive Carrier frequency generator.

The solution of the carrier frequency generator according to the invention for remote connection devices is that an I fundamental frequency oscillator 1, which is controlled by a stabilization circuit 2 is stabilized, the 1680th harmonic component of the fundamental frequency of a harmonic grid generated. The output signal from the fundamental frequency oscillator 1 is fed to a divider 3, where the division is carried out as required. Thereon are fed to a modulator 4 those frequency components that after a mutual subtraction or addition result in the desired output frequency.

When frequency signals that are passed from the divider 3 to the modulator 4 are, with m x t0 and other frequency signals, which also come from the divider 3 the modulator 4 are performed and during the modulation as carrier frequency signals considered, denoted by M x 0, 0 becomes the method of extraction the output frequencies are described by the following equation: #k = (Mk x #o) # (mk x #o) = (Mk # mk) x #o where # means the output frequency of the modulator 4 that first term of the equation the carrier signals and the second term of the equation the Represent modulation signals and (»o the fundamental frequency of the harmonic raster is.

The harmonious grid that is obtained through the described invention up to the 130th harmonic component of the fundamental frequency is 6 des Continuous grid. With higher harmonic components this becomes Grid sketchy, which means that some harmonic components are missing are.

Instead of the fundamental frequency oscillator 1, the 1680th harmonic Component of the fundamental frequency b0 of the grid supplies, one can also use an oscillator that supplies a frequency that is one of the following harmonic components, denoted by K = 1680 # m, where n and m are natural numbers, in practice less than 8. The upper limit of the continuous one also shifts accordingly harmonic grid The continuous grid will have more than 130 harmonic components included if K is greater than the 1680th harmonic component.

When K is less than the 1680th harmonic component, contains the continuous harmonic grid has fewer than 130 harmonic components.

A concrete solution to the described invention consists in the generation of carrier frequencies for the transmission of information on lines for electrical Energy where the frequency range of a continuous raster from 4 to 520 kHz is used will. The basic frequency of the grid is therefore 4 kHz. The frequency of the fundamental frequency oscillator 1, which is the 1680th harmonic component of the fundamental frequency GJo of the grid must be, is therefore 6720 kHz. From this frequency you can refer to the one described Way all 130 harmonic components of the fundamental frequency W of the grid, i.e. from 4 kHz to 520 kHz.

Blank page

Claims (4)

Carrier frequency generator for telecommunication devices Claims: 1, carrier frequency generator for telecommunication devices with a highly stable fundamental frequency oscillator, from which all the necessary frequencies in a certain frequency range and in one starred. harmonic grid can be obtained, thereby g e k e n n n z e i c h n e t dae the carrier frequency generator is constructed and connected in such a way that the Fundamental frequency from the fundamental frequency oscillator (1) initially divided into a divider (3) and then certain desired frequency components from this divider (3) can be added or subtracted in a modulator (4). 2. Carrier frequency generator according to claim 1, characterized in that g e k e n n z It is true that the frequency of the fundamental frequency oscillator (1) is the 1680th harmonic Component of the fundamental frequency (&)) of a continuous harmonic grid which contains 130 harmonic components of the fundamental frequency (ZO). 3. Carrier frequency generator according to claim 1, characterized in that g e k e n n z e i c h n e t that the frequency of the fundamental frequency oscillator (1) is an nth multiple the 1680-th m harmonic component of the fundamental frequency (ZO) of a continuous harmonic grid that has more than 130 harmonic components the fundamental frequency (JO), n where n and m are natural numbers and the quotient m is greater than 1. 4. Carrier frequency generator according to claim 1, characterized in that g e k e n n z e i c h n e t that the frequency of the fundamental frequency oscillator (1) is an nth multiple the 1680th m harmonic component of the fundamental frequency (# O) of a continuous harmonic grid is that less than 130 harmonic components of the fundamental frequency (WO), where n and m are natural numbers and the quotient n is less than al-s 1 is. m