SE514378C2 - Active impedance converter circuit and splitter and termination of a twisted pair lead - Google Patents

Abstract

The invention relates to an active impedance converter circuit for interconnecting a high pass filter and a low pass filter. The high pass filter comprises a transmission line bridge with three co-operating transformer inductor coils. A first coil (17) is connected to a high frequency modem (11) via a first and a second capacitor (20). A second coil (18) is connected in series with a third coil (19) via a third capacitor (20). The subscriber line (10) is connected over the second and third coils (18, 19). The invention also relates to a splitter for splitting a subscriber line into a first transmission branch and a second transmission branch. The invention also comprises a termination of a twisted pair telephone transmission line for delivering two-way service including low frequency band telephone signals and high frequency band digital subscriber line signals.

Description

l5 20 25 30 .f «<; '~ take advantage of the large installation base that already exists, without having to' wait for the installation of 'fiber cables in the access network.

Examples of such systems include the Asymmetric Digital Subscriber Line (ADSL) and a high speed version (VADSL).

An 'essential' part of 'this technology lies * in its ability to simultaneously provide secure telephony while providing the broadband service'. This possibility eliminates the need for extra copper pairs that would otherwise destroy the great advantage in relation to fiber installation. To enable this, the telephony signals are separated from the ADSL signals by means of a pair of splitters, one centrally at the operator and one locally at the customer.

Thus creating the splitter. the filtering is required to separate the POTS and ADSL bands before their inputs and receivers, respectively. Normally there is a low pass filter between the phone and the telephone line, and a high pass filter between the ADSL transceiver and the telephone line. The insulation provided by the splitter noise is important for limiting the power, for reducing and for removing transients.

In many countries, POTS uses complex, ie. capacitive impedances for termination and balancing in transmission bridges at telephones and telephone exchanges. The introduction of ADSL technology in POTS will not succeed if it reduces the quality of voice transmission or if the digital signals are affected by transients within POTS. For example, the speech quality may be degraded by echoes, side tones or. of 'transmission losses. On the other hand, the digital signals can be affected by POTS low-frequency signaling voltages. 10 15 20 25 30 '' A passive inductance-capacitance filter within each respective passband has an almost completely resistive impedance. This makes it necessary to have some form of impedance conversion, in order to meet requirements from the operator that inlet damping and return attenuation can be measured against a complex impedance.

Impedance. for 'POTS signaling frequencies' must be'. high for an unterminated filter. at the impedance converter. 1 for this frequency, and therefore the impedance of the low-pass filter must be high.

A splitter equipped with an active impedance converter is described in "ADSL and VADSL Design by 'John Cook and Phil Sheppard, SELECTED AREAS IN COMUNICATIONS, Splitter and Telephony IEEE JOURNÄI' ON VOL. 13, no. 9, "Performance", DECEMBER 1995.

This impedance converter is equipped with an amplifier that has more amplification for low frequencies than for high frequencies. As a result, a high inductance transformer is needed which causes problems with a high leakage inductance for high frequencies. The impedance of the filters becomes too low, so that the parallel capacitances will load the ring signal and the pulsation of the POTS too much.

This known splitter is provided with a capacitor which is placed outside the impedance converter and thereby creates an impedance which differs from the reference.

DISCLOSURE OF THE INVENTION An object of the invention is therefore to provide a simple and effective active splitter which reduces the problems described above.

According to the invention, this is achieved by means of an impedance converter circuit which. is characterized in that a first coil is connected. to a high frequency modex via, a. first and. one. other Usually. is the impedance converter function4 10 15 20 25 30 .characteristic x. <. fl, _. * _ - »_,; -. .i v .f Ü <t _ _ _- - \ <. .. <- <4 <. 'a- - _ .- _,'. - ß ~ f - 1 <1 1 f = -r <«. , _ -v - ~ ~. <«; \ _. . <1; - «..- k .: f ~ f - - 4. , _, capacitor, that a second coil is connected in series with a third coil via a third capacitor, and that a subscriber line is connected across the second and third coils.

In a particular embodiment of the invention, the third capacitor is common to both the low pass filter and the high pass filter.

Suitably, the series capacitance of the two capacitors of the modem branch is about twice as high as the capacitance of the third capacitor common to both the high-pass filter and the low-pass filter.

According to a further exemplary embodiment of the invention, the circuit is provided with an amplifier circuit comprising a capacitor, a resistor and an operational amplifier. Alternatively, an amplifier capacitor, a first resistor, a circuit may comprise an operational amplifier and a second resistor.

According to another embodiment of the invention, the three transformer inductance coils cooperate to form a 2: 1: 1 transformer.

A preferred embodiment of the invention is used for separating ADSL signals from mixed ADSL and POTS signal transmission along a twisted pair telephone transmission line.

The splitter according to the invention comprises an active impedance converter circuit for interconnecting a high-pass filter and a low-pass filter provided with means for actively converting its to a resistance impedance within the passband, the high-pass filter comprising a transmission line 30. _ _ - - '__ / häxa f ¿. .- .. (r _, _ 4 - *: '* f- <f <' f _ -, _ _ _ ~ - \ ._. <. f. -. i «(ut. I --- ' - «_, - '~ - = -» 1 1.- «. <«. F, ,,.. «« I «..-. _ _ - - _ ._ m .f _. 5 brygga med tre cooperating transformer inductors, and is characterized in that a first coil is connected to a high frequency modem via a first and a second capacitor, that a second coil is connected in series with a third coil via a third capacitor, and that the subscriber line is connected over the second and third the coils.

The termination comprises a splitter for dividing a subscriber line into a first transmission branch comprising a low-pass filter for providing teleservice signal transmission along the subscriber line and a second transmission branch comprising a high-pass filter for attenuating the teleservice signals and for providing digital high speed splitter data transmission. the converter circuit for interconnecting the high-pass filter and the low-pass filter provided with means for actively converting its characteristic resistance in the passband to a complex impedance, the high-pass filter comprising a transmission line bridge. with three cooperating transformer inductors, and is characterized in that a first coil is connected to a high frequency modem via a first and a second capacitor, that a second coil is connected in series with a third coil via a third capacitor, and that the subscriber line is connected over the second and third coils.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be further described in the following in a non-limiting manner with reference to the accompanying drawings, in which: Fig. 1 is a block diagram schematically showing the termination according to the invention,. Fig. 2 is a circuit diagram showing the operation of the active impedance converter according to the invention, Fig. 3 is a circuit diagram showing details of a first embodiment of the impedance converter circuit according to Fig. 2, Fig. 4 is a circuit diagram showing details of a second embodiment of the impedance converter according to Fig. 2, and Fig. 5 schematically illustrates the arrangement of the high-pass and low-pass filters in accordance with the invention.

DETAILED DESCRIPTION OF THE INVENTION The active impedance converter circuit of the present invention is included in the termination of a telephone subscriber line which exhibits both complex and resistive impedance.

The circuit can be used, for example, in an ADSL splitter where the line is considered as complex for low frequencies such as POTS (0.3 - 3.4 kHz) and complex or resistive for ADSL frequencies (30 - kHz) designed for so-called twisted pair line for providing bidirectional telephone connection. llOO and associated high-pass and low-pass filters. The circuit is the block diagram in Fig. 1 shows a subscriber line 10 which is connected to a modem 11 via a high-pass filter 12. A telephone or a switch is also connected by the lines 13 to the high-pass filter 12 via a first impedance converter 14, a low-pass filter 15 and a second impedance converter 16. Modem ll is, for example, the ADSL modem.

Fig. 2 shows the impedance converter comprising a transmission line bridge with a set of three cooperating transformer inductance coils 17a, 18a and 19a. The three transformer inductance coils cooperate to form a 2: 1: 1 transformer, i.e. nl = n2 = n3 / 2. An amplifier circuit comprises the capacitors 20, the resistors 21 and the operational amplifiers 22a, 22b.

C can be assumed to be large. Zf is the impedance of the low-pass filter. The transformed impedance Zin can be calculated as follows: Zin = (Zf * Zr * R3) / (R * (R3 + R4)) + (Zf * R3) / (R3 + R4) For telephony frequencies, Zf can be set equal to Rf which is characteristic impedance of the position pass filter 15.

Zr can be selected to have the same configuration as the complex reference impedance Zo, often in accordance with Fig. 3.

Thus: Zin = (Zf * R3) / (R3 + R4) * (Zr / R + 1) = Zo When RÉ / (R3 + R4) is equal to Ra / Rf, Zr can be selected according to Fig. 4.

Through this, Rf can be selected larger than Ra (a common value is 270 ohms), which makes it possible to dimension the low-pass filter so that the total capacitance between the branches ll and 13 can be small enough for the impedance for ring signals to meet the operator's requirements. For frequencies higher than the low-pass filter where Zr <cut-off frequency, (Zr will have the same cut-off frequency as Rb and Cb), it is possible to write the input impedance as: Zin = (Zf * R3) / (R3 + R4) 10 15 20 25 30 ' : * iS-f? 78 ¿If the low-pass filter starts and ends with a capacitor Cf, it is possible for frequencies significantly higher than the cut-off frequency Zf to write: Zf = 1 / (j * m * Cf) The capacitance reduced to the line side becomes: Ch = Cf * Rf / Ra this capacitance is part of the high-pass filter and at the same time acts as a low impedance for high frequencies. The high frequencies are connected to the modem side 11 by means of the inductance transformer l7a-l9a. The inductors of the transformer on the line side 10 form a series impedance for telephony signals, but. since the resulting impedance is low, the attenuation becomes so small that it falls well within the requirements. The inductance of the transformer on the modem side 10 constitutes the inductance in the high-pass filter 12.

The high-pass filter in Fig. 5 forms a third-order high-pass filter. The series capacitance of both capacitors 20a, 20b of the nvdem branch 11 is twice the capacitor 20, which is the same for both the high-pass filter 12 and approximately as large as the capacitance of the low-pass filter 15.

The splitter filter described above requirements.

Conditions: both The generator is meet the following filters are interconnected without any line. connected either on the telephone side or on the exchange side with the other end terminated with the complex reference impedance. lO .Å!; 14 & f: 5; Ä8 Operational attenuation: <1 dB iL> n1 300 - 3400 Hz rned: maximum 0.5 dB difference between highest and lowest value.

Reflection attenuation:> 20 dB within 300 - 3400 Hz.

Impedance at 25 Hz:> 20 kohm.

Reflection attenuation from modem connection to 100 ohms:> 10 dB in the range 30 kHz to 1.1 MHz.

The invention is not limited to the embodiments described above, but several modifications are possible within the scope of the invention. For example, the amplifier may be designed differently.

Claims (12)

10 15 20 25 30 f 'i l O PÅTENTKRAV _ 1. En. active impedance converter circuit for interconnecting a high-pass filter (12) and a low-pass filter (15) provided with means for actively 'converting' its characteristic resistance within the passband to a complex impedance, cooperating comprising a transmission line bridge with three transformer inductance coils (17, 18, 19 ), a first coil (17) being connected to a high frequency modem (11) via a first and a second capacitor (20a and 20b, respectively), a second coil (18) being connected in series with a third coil (19) via a third capacitor (20c), and a subscriber line (10) is connected across the second and third coils 18 of the second and third coils 18, in that the third capacitor is common to both the low-pass filter (15). ) and the high-pass filter (12). Circuit according to Claim 1, characterized in that the series capacitance of the two capacitors (20a, 20b) of the modem branch (11) is approximately twice as high as the capacitance of the third capacitor (20c). Circuit according to Claim 1 or 2, characterized by an amplifier circuit arranged in the impedance converter which comprises a capacitor (20d), a resistor (21a) and an operational amplifier (22a). Circuit according to Claim 1 or 2, characterized in that an amplifier circuit arranged in the impedance converter comprises a capacitor (20d), a first 'wherein the high-pass filter' has a resistor (21a), an operational amplifier ( 22a) and a second resistor (2lb). A splitter for "dividing" a subscriber line (10) into a first transmission branch (13) comprising a low pass filter (15) for providing telecommunications signal transmission along the subscriber line and a second transmission branch comprising a (12) providing high pass filter for attenuating the teleservice signals and for digital high speed data transmission along the subscriber line, which splitter comprises an active impedance for (12) (15) converter circuit interconnection of the high pass filter and the low pass filter provided with means for actively converting its characteristic resistance within the pass band to a complex impedance, wherein the high-pass filter comprises a transmission line bridge with three cooperating transformer inductors (17-19), (17) is connected to one in which a first coil high-frequency modem (11) via a first and a second capacitor (20a and 20b, respectively), a second coil (18 ) is connected in series with a third coil (19) via a third capacitor (20c), and the subscriber line (10) is connected across the second and third coils (18, 19), characterized in that the third capacitor (20c) is common to both the low-pass filter (15) and the high-pass filter (12). A splitter according to claim 5, characterized in that the series capacitance of the two capacitors (20a, 20b) of the modem branch (11) is approximately twice as high as the capacitance of the third capacitor (20c). Splitter according to claim 5 or 6, 7. characterized by an amplifier circuit arranged in the impedance converter comprising an capacitor (20d), a receiver (21a) and an operational amplifier (22a). A splitter according to claim 5 or 6, characterized by a (20d) arranged in an impedance converter. (22a) amplifier circuit comprising a capacitor a first (2la) resistor (2lb). resistance an operational amplifier A terminal for a twisted pair telephone line (10) for providing two-wave connection comprising telephone signals via a low frequency band and digital subscriber line signals via a high frequency band, the termination comprising a splitter for dividing a subscriber line into a first (13) (15) for providing telecommunications signal transmission along the subscriber (ll) transmission branch comprising a low pass filter line and a second transmission branch comprising a (12) high pass filter for attenuating the teleservice signals and for digital high speed data transmission along the subscriber line (which splitter comprises the subscriber line). 12) and the low-pass filter (15) provided with means for active converter converter circuit for interconnecting the high-pass filter of its characteristic resistance within the pass band to a complex impedance, the high-pass filter comprising a transmission line bridge with three cooperating transformers tower inductors (17-19), a first coil (17) being connected to a high frequency modem (11) via a first and a second capacitor (20a and 20a, respectively). 20b), a second coil (18) is connected in series with a third (19) (20c), (10) are connected across the second and third coils (18, 19), coil via a third capacitor and the subscriber line and a second '10 15 20 "s" .1J4 t turns 13, characterized in that the third capacitor (20c) is common to both the low-pass filter (15) and the high-pass filter (12). Termination according to claim 9, characterized in that the series capacitance of the two capacitors (20a, 20b) of the modem branch (11) is approximately twice as high as the capacitance of the third capacitor (20c). Termination according to claim 9 or 10, characterized by an amplifier circuit arranged in the impedance converter which comprises a capacitor (20d), a resistor (21a) and an operational amplifier (22a). Termination according to claim 9 or 10, characterized by an amplifier circuit arranged in the impedance converter, which comprises a capacitor (20d), a first resistor (21a), an operational amplifier (22a) and a second resistor (21b).