DE2604236C3 - Power supply device for remotely powered line amplifiers - Google Patents

Description

The invention relates to a power supply device for remotely fed line amplifiers, consisting consisting of a pre-equalizer and an active amplification part, the symmetrical transmission lines lie, on which video signals in particular are transmitted, with the direct current supply over

the phantom circuit of two symmetrical transmission lines to the respective line amplifier is performed that half of the direct current feed is fed into the two output terminals of a line amplifier fed in and via a center conductor to the Kvlitrel tap of two parallel to the line amplifier input lying matching resistors fed and halved by this on each wire of the transmission line to the Output of the next line amplifier is performed, so that a first feed direct current path is created

For the transmission of video signals on symmetrical Lines was described in German Patent 21 52 098, a transmission system in which the power supply of the remotely powered line amplifiers via the phantom circuit of the signal line

jo takes place

The principle is shown in FIG. 1 shown. The line amplifier 5 consists of a pre-equalizer 1 and a active part 2. Half of the remote feed current is fed into the two via the remote feed sources 3, 4 Output terminals of the line amplifier 5 fed, leaves it on the center line at the amplifier input from where he goes through the matching resistors

-j halved to each core of the transmission line

Ji) comes to the output of the next line amplifier 5.

A known line amplifier is shown in FIG. 2. This line amplifier contains two coupling capacitors Ck, since the DC voltage potential of the line amplifier input (points a - b) does not match that of the acüven amplifier input (points c - d) should be transmitted at a low frequency (e.g. video signals).

These capacitors can lead to instability of the transmission path, especially shortly after the remote feed current has been switched on.
The object of the present invention is to provide a

■ 4 3 Power supply device for remotely powered line amplifiers to create a stable operation of the transmission lines even shortly after switching on the remote feed current is guaranteed. According to the invention, the power supply unit is

> o direction designed so that parallel to the Line amplifier output and parallel to the input of the active part of each line amplifier Resistance pair is located, the center taps are galvanically connected to each other, so that a second DC path arises, and that these resistor pairs are dimensioned so that the voltage drop from the output of the line amplifier to the input of the active amplification part of the line amplifier is smaller than the voltage drop in the first DC supply path.

Through these measures, the coupling capacitors at the input of the active part of the line amplifier omitted. This causes instabilities in the transmission path after switching on the Fernet Avoided feed stream. In addition, because of the possibility of transmitting the signal direct current component the lower limit of the transfer band.

The pair of resistors between the pre-equalizer and the active part of the line amplifier can be used simultaneously Be part of the pre-equalizer, and the resistors of the resistor pair can be dimensioned so that Together with the resistance elements of the pre-equalizer, the basic attenuation of the pre-equalizer results

As a result, with one and the same pair of resistors, both the operating point of the transistors and the basic attenuation of the pre-equalizer is set

To avoid additional stress on the line amplifier, the resistor pair on the The output of the respective line amplifier has a high resistance to the load resistance of the line amplifier be.

A simplification of the amplifier circuit is obtained by adding each resistor of the resistor pair divided at the output of the line amplifier and continue to each at one of these Partial resistances at the same time the emitter connections of the transistors of the driver stages of the respective power amplifier lie.

An additional option for the basic attenuation of the Pre-equalizer without affecting the operating point setting to change, offers a resistor parallel to the resistor pair between the pre-equalizer and active part of the line amplifier.

On the basis of the exemplary embodiments according to FIG and FIG. 4 the invention is explained in more detail.

3 shows the structure of the line amplifier 5 from FIG. 1. In parallel with the input and output of the active part 2 of the line amplifier, pairs of resistors Al, Al and R 2, R2 are connected, the center taps of which are galvanically connected to one another. Due to the remote feed current / flowing from the amplifier output to the input, a voltage drop AU occurs along the amplifier. As a result, the amplifier input a-b has a negative potential with respect to the base connections of the NPN input transistors T1 and Ti '. Since the input a-ö is galvanically connected to the input of the active part c-d (base of the input transistors) via the resistor R3 , a positive bias without a signal component must ensure that the potential at the input c-d of the active amplifier part 2 is positive against the emitters of the input transistors. This takes place via the resistor pairs R 1, R 1 and R 2, R 2.
The paired switching on of the resistors R 1 and

ϊ R 2 and the supply of the positive bias voltage to the center, which is neutral for the signal, prevents unwanted feedback for the symmetrical signal. The resistor pairs Al, Ri and R2, R2 are dimensioned so that the voltage drop in

in this second direct current path between the line amplifier output and active part 2 of the line amplifier is smaller than in the first feed current supply path, which is formed by the fact that the output stage transistors of the line amplifier and the center line

ter the supply direct current to the two matching resistors -y at the input of the line amplifier

is led. The resistances R 1 become large compared to the load resistance of the amplifier.

Selects 2n in order to keep the losses generated thereby low. The resistors R 2 and R '; ■ are dimensionally part of the pre-equalizer and ^can: eri be that in addition to setting the operating point of the input transistors, the basic attenuation of the pre-equalizer is defined with.

A useful way of changing the basic attenuation of the pre-equalizer, with the working point setting remaining the same, is to switch on a resistor from c to d, since both points are open

jo lie the same direct voltage potential.

In Fig. 4 shows the basic circuit for a video amplifier with direct current series remote feed in phantom circuit, in which the principle according to the invention is applied. The resistors R 1 are

j-, thereby subdivided and the emitter connections of the driver transistors T2 connected between the partial resistances. In addition to feeding back positive DC voltage to the input, resistors R 1 also serve for negative feedback from the output stage to the driver stage. The resistors R 2 and R 3 are also dimensioned here in such a way that they serve both to set the base voltage of the transistors Π and Ti ' and to effect the desired basic attenuation of the pre-equalizer.

For this purpose 3 sheets of drawings

Claims (5)

Patent claims: 1. Power supply device for remotely fed line amplifiers, consisting of a pre-equalizer and an active amplifier part, which are in the course of symmetrical transmission lines, on which video signals in particular are transmitted, the direct current feed via the phantom circuit of two symmetrical transmission lines to the respective line amplifier in such a way that the direct current feed half fed into the two output terminals of a line amplifier and fed via a center conductor to the center tap of two matching resistors lying parallel to the line amplifier input and halved via these on each wire of the transmission line to the output of the next line amplifier, so that a first direct current path is created, characterized in that parallel to each line amplifier output and parallel to the input of the active part of each line amplifier is a pair of resistors (Rl, Ri; R 2, R2) , the Mit taps are galvanically connected to each other, so that a second supply direct current path is created, and that these resistor pairs are dimensioned so that the voltage drop from the output of the line amplifier (5) to the input of the active amplification part (2) of the line amplifier (5) is smaller than the voltage drop in the first DC feed path. 2. Power supply device according to claim 1, characterized in that the pair of resistors (R2, R2) between the pre-equalizer <1) and the active part (2) of the line amplifier (5) is at the same time part of the pre-equalizer (1) and that the resistors of the pair of resistors (R2 , R2) are dimensioned so that, together with the resistance elements (R 3) of the pre-equalizer, the basic attenuation of the pre-equalizer (1) results 3. Power supply device according to one of the preceding claims, characterized in that the pair of resistors (R 1, RI) at the output of the respective line amplifier (5) has a high resistance to the load resistance of the line amplifier (5). 4. Power supply device according to one of the preceding claims, characterized in that each resistor of the pair of resistors (R \, Ri) is divided at the output of the line amplifier (5) and that in each case at one of these partial resistances at the same time the emitter connections of the transistors (T2) of the driver stage respective power amplifier (5). 5. Power supply device according to one of the preceding claims, characterized in that parallel to the pair of resistors (R 2, R 2) between the pre-equalizer (1) and the active part (2) of the line amplifier (5) there is a further resistor.