DE1031358B - Carrier frequency system suitable for two-wire and four-wire operation - Google Patents

Description

The invention relates to a multiple carrier frequency system, which due to its frequency structure for both two-wire and four-wire operation suitable is.

It is known that in multiple carrier frequency devices the speech channels to be transmitted preferably not immediately, but several times Frequency conversion strung together brought into the desired transmission position. This increases the number of filters required, but on the other hand it results in a known manner Advantage that the demands to be made on this can be kept considerably lower, so that the production of the filter becomes more economical overall. It is also known, in the first modulation stage, several speech channels by means of corresponding to summarize staggered carrier frequencies to so-called pre-groups, which in a proportionate low frequency range. These opening acts, which usually correspond to three speaking channels a bandwidth of 12 kHz are between 6 and 18 or between 12, for example and 24 kHz.

For the formation of transmission bands, for example in a range of 12 ... 252 kHz, accordingly the recommendations of the CCIF for four-wire operation with 60 channels are based on a well-known Proposal for four such preliminary groups through renewed frequency conversion into so-called basic groups summarized, which thus each comprise twelve channels and in the range recommended by the CCIF of 60 . . 108 kHz. The subsequent implementation of the basic group results in five of these 12-channel groups lined up to form a basic supergroup in the range of 312 ... 552 kHz and brought to the transmission position 12 ... 252 kHz by a further conversion.

A device of the type described is for establishing carrier frequency transmission bands For systems with 60 or 120 channels to be used on long-haul cable routes (V 60, V120) quite useful. However, there is no cheap way to use the one used for such systems Devices or components to a large extent also for the construction of two-wire separation systems twelve channels, Z 12 K and Z 12 F, respectively.

For example, for the Z 12 K system (two-wire separation operation with twelve channels on cables) of the CCIF, the frequency ranges 6 ... 54, 60 ... 108 and 12 ... 60, 72 ... 120 kHz. In the system Z 12 F intended for overhead lines, the lowest transmission frequency should be so high that a triple and a twelve-fold system can be operated at the same time, so that for the twelve-for two-wire and four-wire operation
suitable carrier frequency system

Applicant:

Pintsch-Electro GmbH,
Constance, Bücklestr. 3

Dipl.-Ing. Heinz Hannemann

and Dipl.-Ing. Heinz Piechatzeck, Constance,

have been named as inventors

so specialized system the frequency ranges 36 ... 84, 92 ... 140 or 48 ... 96, 108. . . 156 kHz are recommended. To two Z systems with the same transmission bands To be able to operate in a cable or on an overhead line is to reduce Understandable crosstalk requires a mutual inversion of the transmission bands. A parallel operation with more than two Z-systems requires for the third or fourth system besides the Inversion is still a slight shift in the zero frequencies in the transmission bands.

Transmission bands of this type can be used for four-wire operation on the basis of what was described at the beginning specific system in which the 12-channel groups as basic groups in the frequency band 60 ... 108 kHz. thus are formed within the later transmission range, not in the most economical Build way.

In contrast, the carrier frequency system according to the invention is characterized by a particularly advantageous one Carrying out the individual modulation steps that make up the structure of both four-wire and also made possible by two-wire systems and, moreover, also a reduction in effort Allowed for filter production. The essence of this system is that the 12-channel groups as "Intermediate groups" are formed by stringing together pre-groups in a frequency range, the lowest frequency of which is higher than the highest frequency of the frequency ranges recommended for overhead line equipment and whose highest frequency is lower than the lowest frequency of the so-called between 312 and 552 kHz lying basic supergroup. This allows through with these intermediate groups one-time implementation optionally either each of the

809 529/340

Recommended bands for two-wire operation of 6 ... 54, 60 ... 108 or 36 ... 84, 92 ... 140 kHz in Normal or inverted position can be reached or the one intended for four-wire operation, immediately or after Implementation in the lower transmission layer of 12 ... 252 kHz to be transmitted basic supergroup formed will. It has proven to be particularly advantageous to place these intermediate groups in the range of 180 ... 228 kHz.

Another development of the inventive concept relates to the frequency position and composition of the Pre-groups formed in the first modulation step. The sense of modulation with a proportionate low carrier frequency exists as

carrier is away. For the 3-channel pre-act, this distance is in the range of 6 ... 18 kHz only 6 kHz, while with the 4-channel pre-group 20 ... 36 kHz 20 kHz is available stand.

In the drawing, the invention is illustrated using two frequency schemes, for example, whereby

1 shows a 12-channel two-wire system for cables,

Fig. 2 shows a 12-channel two-wire system for overhead lines and

Figure 3 relates to a 60-channel four-wire system.

According to Fig. La are four in the range of 0.3. . . 3.4 kHz speaking channels through conversion

mentions in it the use of filters of lower 15 tongues with the channel carriers 24, 28, 32 and 36 kHz

To enable edge steepness than it is with known immediate implementation 'of the speech channels z. Am the 12-channel group would be necessary. It is known that the opening act, for example, consists of three 4kHz channels each

combined into a pre-group with the frequency range 20 ... 36 kHz. Three such support groups each, whose bandwidth is smaller than an octave, are

Forming bandwidth and converting it into the frequency range 20 (Fig. Ib) with the carrier frequencies, 160, 12 ... 24 or 6 ... 18 kHz. For the BiI- 176 and 192 kHz in the preferred range of The 12-channel group of four such pre-groups is made up of twelve channel filters and four pre-group filters

and seven carrier frequencies are required. From the-

180 ... 228 kHz strung together to form an intermediate group. The formation of the intermediate

of the 25 groups created during the pre-group implementation for the V 60 system (Fig. 3 a, b).

Side band to be integrated into the 12-channel group should now - as in Fig. 1 - a 12-channel two-

wire system (Z 12 K) can be built, whose Bänderäm Frequency range of 6. .. 54 and 60. .. 108 kHz, the intermediate group with the intermediate

the upside down. Reversed frequency position can be achieved by using the sub-group carriers 174 or 288 kHz can be achieved.

Even with overhead line systems with the frequency bands 36 ... 84, 92 ... 140 kHz, based on of the intermediate groups proposed according to the invention by appropriate choice of the intermediate group carriers any desired frequency position

of the unused second sideband is now with the frequency position in the pre-act 12 ... 24 kHz only 24 kHz and with the opening act

the frequency range 6 ... 18 kHz only 12 kHz. With the 30 group carriers 234 or 120 kHz modulated. Here Formation of the basic group 60 ... 108 kHz fall - the lower band takes over the normal position and the upper band

this the modulation frequencies partly already in the range of the basic group, which leads to a disturbing mutual influence of the channels can lead.

The most disturbing modulation product, the size of which depends essentially on the symmetry of the transmitter and the ring modulator, is Ω - · 2 ω, where Ω is the modulating carrier and ' ω is the frequency of the symbol to be converted. In the implementation

A pre-group 12 ... 24 kHz with 84 kHz is 40 (inverted or normal position) of the individual bands called modulation product 84 kHz - 2-12 kHz. From the favorable choice of frequency = 60 kHz and therefore coincides with the lower edge of the range for the intermediate group results in all Basic group together. On the receiving side, there are cases that the intermediate group carriers (e.g. 88, 264 with reverse conversion of the band 60 ... 108 kHz with or 144, 320 kHz) easily outside the ver-84 kHz the frequencies 24 ... 0 and 0 ... 24 kHz, 45 applied frequency ranges are (Fig. 2). corresponding to six channels each, each 4 kHz wide, so when building a V 60 system, they find the same

Intermediate groups 180 ... 228 kHz Use as before. According to FIG. 3c there are now five intermediate groups through modulation with the intergroup

In contrast, according to the invention, the 50 carriers are now 540, 588, 636, 684 and 732 hHz in the range Cooperation with the above-described formation of the standardized so-called "basic supergroup" the intermediate groups achieved advantages in that (312 ... 552 kHz) strung together. This fashion model Bandwidth of the opening groups smaller than an octave lation step is made to the filters of the intermediate group is, the lower frequency limit of the pen implementation significantly lower requirements Pre-group to a value above 16 kHz, preferably 55 as the known transition from the basic group at about 2OkHz, so that the pre-group 60 ... 108 kHz, so that these filters by about 40% nevertheless more than three, namely four, channels result in lower manufacturing costs than those. Range from 20 ... 36 kHz. This is explained by the fact that the distance between Pre-group modulation are now twelve channels - the basic group and the required carrier filter, three pre-group filters and seven carrier frequencies 60-60 kHz, between the intermediate zones according to the invention needed. However, if one considers the requirement group and the carrier is 180 kHz. As

that to avoid mutual interference in front of the converter a very sharp filter for 60 ... 72 kHz must be switched.

gen, which are to be placed on this pre-group filter, one recognizes that the use of pre-groups in the 20 ... 36 kHz range is overall more economical than in the 6 ... 18 or 12 ... 24 kHz ranges: The pre-group filter must reduce the unused sidebands by about 8 N and the modulation products attenuate the higher order by about 2 N compared to the useful level. It can therefore be all the easier

The basic supergroup obtained is usually converted into the Transmission position 12 ... 252 kHz brought. By having the 12-channel groups according to the invention not in the range of the basic group 60 ... kHz, but in a frequency range of, for example 180 ... 228 kHz are formed, there is the great advantage that the for Z 12 K-,

the further the unused sideband from the front 70 Z 12 F and V 60 systems required

can be unified to a considerable extent and that, moreover, as stated above, simpler filters can be used.

The through-connection option of 12 bundles required by the CCIF in the area of the basic group 60 ... kHz will be used in relatively rare cases. Should it be necessary in exceptional cases so it is through the implementation of an intermediate group 180 ... 228 kHz by means of the carrier 120 or 288 kHz (as above with the Z 12 K system) easily possible, such a basic group in Kehr- or Normal position (Fig. 3 d) to form.

Claims (5)

Patent claims: 1. Carrier frequency system suitable for two-wire and four-wire operation with 12-channel groups are formed, each of which by implementation and sequencing in terms of frequency several identical pre-groups below about 60 kHz was created, characterized in that, that the 12-channel groups are formed as "intermediate groups" in a frequency range whose lowest frequency is higher than the highest frequency of the frequency ranges used for overhead line equipment (e.g. 47 ... 97, 110 ... 158 kHz) and its highest frequency is lower than the lowest frequency of the so-called Basic overgroup (312 ... 552 kHz), so that with these intermediate groups through one-time implementation optionally either of the bands recommended for two-wire operation (e.g. 6 ... 54, 60 ... 108 or 36 ... 84, 92 ... 140 kHz) can be achieved in normal or inverted position, or that the basic supergroup intended for four-wire operation to be transmitted immediately or after conversion to the lower transmission layer (12 ... 252 kHz) (312 ... 552 kHz) can be formed. 2. Carrier frequency system according to claim 1, characterized in that the intermediate groups in the frequency range of about 180 ... 228 kHz. 3. Carrier frequency system according to claim 1 or 2, characterized in that the bandwidth the opening act is less than an octave. 4. Carrier frequency system according to one of claims 1 to 3, characterized in that each Intermediate group comprises three pre-groups and each pre-group four channels. 5. Carrier frequency system according to claim 4, characterized in that the lower frequency limit the opening act is around 20 kHz. Considered publications:
German patent application ρ 11592 VIII a / 21 a ² D. 1 sheet of drawings © «09 529/3« 5.58