DE19518605A1 - Amplification arrangement for matched transmission lines esp. for video signal transmission - Google Patents

Abstract

The arrangement is for feeding signals into a matched line acting as a bus, or for coupling signals emerging from a bus line. The device has two transistor stages. The first uses a field effect transistor (T1). Its gate terminal is connected via a capacitor (C) to the amplifier input (E), and to a resistive voltage divider, consisting of a first and second resistor (R1,R2), which sets the operating point. The drain of the FET (T1) is connected to a third resistor (R3) and to the base of a bipolar transistor (T2). The latter forms the second transistor stage. The collector is connected to the amplifier output (A) via a diode (D). A fourth resistor (R4) is connected between the FET source and earth. A fifth resistor (R5) is connected between the transistor emitter and the supply voltage. The third resistor (R3) is connected to the supply voltage. The amplifier input (E) has two input terminals (E1,E2) and the amplifier output (A) has two output terminals (A1,A2).

Description

The invention relates to an amplifier arrangement for adapted lines, in particular for feeding in Signals into an adapted line acting as a bus or for decoupling signals from a bus adapted line, in particular video signals be transmitted.

In distributed video transmission systems, such as. B. in Video conference systems or home communication systems with Video transmission, are the video signals from one or from one of several video signal sources to one or to transmit multiple video receivers. For a qualitative good transmission over longer distances Lines are adapted exactly.

For the construction of a "television intercom" in the Patent DE-PS 27 57 461 a star-shaped distribution the signals for picture and sound over a matrix arrangement proposed with switched crossing points. The disadvantage here is that this is due to the star-shaped Connection requires extensive installation and that Matrix arrangement according to the size of the system must be upgradeable.

In the "switching and distribution facility" after the DE-OS 36 32 218 are different Terminal devices via separate line interfaces for input and Output connected to a center, the Connections to the line interfaces no closer are specified. This facility works with digital signal transmission as well as with a central and  has thus in all end devices and especially in Building smaller systems is a lot of work.

With the "in-house telephone system with image transmission" after the DE-OS 31 39 594 are two pairs of conductors provided as line interfaces. A first one Line interface is used for bidirectional Voice transmission, a second to unidirectional Transmission of the image signal modulated on a carrier, at each indoor station via a transformer can be coupled out. In addition, one Multiple use of the cables for different functions intended. This arrangement works with one on one Carrier modulated image signal. The modulation and the Demodulation requires additional effort modulated signal a higher bandwidth, if not with Single sideband modulation is used, and the higher Additional measures for compliance with the frequencies permissible interference radiation.

An advantageous solution is through the use of a Line interfaces are given if here in analogy to the signals on or off in a bus system can be coupled out. To increase the Bandwidth is described in the published patent application DE-OS 36 32 218 under the designation "circuit arrangement and BUS circuit with high bandwidth and broadband switching matrix component " proposed a resistance to be arranged between the signal line and the operating voltage. This circuit is only for short lines applicable that are not operated adapted.

The invention is based, which to avoid the aforementioned defects and with little effort to create an amplifier arrangement with which signals in fed an adapted line acting as a bus  can be or with the signals from a bus acting adapted line can be coupled out.

According to the invention the object is achieved in that the Amplifier arrangement consists of two transistor stages, the first stage with a field effect transistor is built, the gate connection via a capacitor with the amplifier input as well as with a high impedance a first and a second resistor Voltage divider connected for operating point setting is. The drain of this transistor is one third resistance, the working resistance, and the Basic connection of a second stage Bipolar transistor connected, the collector terminal leads to the amplifier output via a diode. Between Source connection of the field effect transistor and ground is a fourth resistor and between the emitter connection of the Bipolar transistor and operating voltage a fifth Resistor switched so that there is an overall gain of about 1, largely independent of tolerances of the Transistor parameters. Both the connections for the entrance as well as for the exit are double led out. Further features of the invention are in the Subclaims described. So it can Amplifier arrangement either on the input side and on the output side between each at the connection point separated adapted line acting as bus to be switched or a connection becomes on the input side with a supply line and the other connection with connected to a terminating resistor or on the output side is a connection with a branch line and the other connection connected to a terminating resistor. The first can be used to compensate for the input capacity Input connection via a first inductor and the second input connection with a second inductor be connected to the amplifier input, and to  The output capacity can be compensated for Amplifier output via a third inductor with one first output connection and a fourth inductor be connected to a second output terminal. Here it is advantageous if the inductors are printed Conductor tracks are formed. For connecting a larger one The number of branching lines can Repeater arrangement arranged several times and / or be cascaded. The amplifier arrangement can be used as Switches for the signals can be used by the Operating voltage for the amplifier arrangement turned on or off.

The advantage of the solution according to the invention is that that the amplifier arrangement is both switched on Condition as well as when switched off a very high input resistance and a very high one Has output resistance and therefore practically none Mismatch generated and that by the double led out input connections and output connections between the one separated at the junction as a bus acting adapted line is switched. But it can also a connection on the input side with a feeding Line and the other connection with one Terminating resistor can be connected or on the output side a connection with a branch line and the other connection connected to a terminating resistor be, which also when using Coaxial cables result in a simple connection design. Another advantage of the solution according to the invention is that the same amplifier arrangement for feeding Signals or for decoupling signals from as a bus acting adapted lines can be used. Furthermore, the amplifier arrangement according to the invention as a switch for a signal, preferably a Video signal, can be used by the operating voltage is switched on or off.  

The solution according to the invention is based on a Embodiment are explained in more detail. In the associated drawing show:

Fig. 1 shows the complete circuit of an amplifier arrangement,

Fig. 2 is a simplified circuit symbol for the amplifier arrangement according to the invention and

Fig. 3 shows the arrangement for a transmission system with two signal inputs and three signal outputs using the simplified circuit symbol.

In Fig. 1, the complete circuit of an amplifier arrangement according to the invention. The amplifier arrangement consists of two transistor stages, the first stage of which is constructed with a field effect transistor T1 and the second stage of which is constructed with a bipolar transistor T2. It has two input connections, a first input connection E1 and a second input connection E2. The first input connection E1 is connected to the amplifier input E via a first inductance L1 and the second input connection E2 via a second inductance L2. The gate connection of the field effect transistor T1 is connected via a capacitor C to the amplifier input E and to a high-resistance voltage divider for setting the operating point, consisting of a first resistor R1, which is connected to the operating voltage, and a second resistor R2, which is connected to ground. Its drain connection is connected to a load resistor, the third resistor R3, which is connected to the operating voltage, and the base connection of the bipolar transistor T2 forming the second stage. The collector terminal of the bipolar transistor T2 is connected to the amplifier output A via a diode D. This is connected to a first output connection A1 via a third inductor L3 and to a second output connection A2 via a fourth inductance L4. A fourth resistor R4 is connected between the source terminal of the field effect transistor T1 and ground, and a fifth resistor R5 is connected between the emitter terminal of the bipolar transistor T2 and the operating voltage.

The input signal comes from amplifier input E. the capacitor C to the gate of the first stage forming field effect transistor T1. The working point this field effect transistor T1 is connected to the high impedance Voltage divider, the first and second resistor R1 and R2, set. The output signal of the first stage arrives from the drain connection of the field effect transistor T1 to the basic connection of the second stage Bipolar transistor T2, the operating voltage above the working resistance, the third resistance R3, is fed. The signal comes from the collector connection supplied to amplifier output A via diode D. By this diode D ensures that the No amplifier arrangement even when switched off Load on the connected output lines represents since either the diode D or the collector base section of the bipolar transistor T2 in the reverse direction is operated. The source connection of the Field effect transistor T1 is across the fourth resistor R4 connected to ground, which is dimensioned so that the Gain of the first stage is about one. Of the Emitter connection of the bipolar transistor T2 is via the fifth resistor R5 connected to the operating voltage, which is such that the reinforcement of the second Level is also approximately one, if at the exit of the half the impedance of the connected cables works.  

Through the third and fourth resistor R4 and R5 is the gain factor in both stages largely regardless of tolerances of the transistor parameters.

The inductors serve to compensate for the Input capacity or output capacity and are preferably printed circuit boards executed. With the double connections for the entrance as well as for the exit the Amplifier arrangement either on the input side and on the output side between each at the connection point disconnected line B acting as a bus will. But it can also be an input Input connection, e.g. B. the first input terminal E1 with a supply line and the second input terminal E2 can be connected to a terminating resistor or it can an output connection on the output side, e.g. B. the first Output connection A1, with a branch line and the second output terminal A2 with a Termination resistor can be connected. When you turn off the Operating voltage will be zero and high gain Input and output resistances are retained. Consequently can the amplifier arrangement also as a switch for Signals are used without adjustment errors on the Amplifier input E or at amplifier output A arise.

Fig. 2 shows a simplified circuit symbol for the amplifier arrangement. The connections for ground and operating voltage have not been shown here. Only the connections necessary for the function of the amplifier arrangement, the first and the second input connection E1 and E2 and the first and the second output connection A1 and A2, are shown.

FIG. 3 shows an application example of the amplifier arrangement using the simplified circuit symbol according to FIG. 2. The signal transmission in this system takes place via a line B acting as a bus, video signals being transmitted in particular. This is terminated with a first and a second terminating resistor 11 and 52 . There are five amplifier arrangements, of which the first, the second and the third amplifier arrangement 1 , 2 and 3 are used for coupling signals out of the line B acting as a bus and the fourth and fifth amplifier arrangement 4 and 5 for feeding signals into the as Bus B acting line. A first input line Ein4 is connected to an input terminal of the fourth amplifier arrangement 4 , and a third terminating resistor 41 is connected to the other input terminal. On the output side, the amplifier arrangement is connected between the separated bus. Which also serves to feed fifth amplifier arrangement 5 is input side wired analogous to fourth amplifier arrangement 4, that is, a second input line Ein5 is connected to an input terminal of the fifth amplifier arrangement 5, is being connected to the other input terminal of the fourth terminator 51st On the output side, a connection of the fifth amplifier arrangement 5 is connected to one end of the line B acting as a bus and the other connection to the second terminating resistor 52 . An input terminal of the first amplifier unit 1 is connected to the other end of the line B acting as a bus and the other to the first terminating resistor 11 . On the output side, one connection is connected to a first branching output line Aus1 and the other connection is connected to a fifth terminating resistor 12 for this line. The second amplifier unit 2 is connected on the input side between the line B which acts as a bus and is connected on the output side analogously to the amplifier unit 1 , that is to say one connection is connected to a second branching output line Aus2 and the other connection is connected to a sixth terminating resistor 22 for this line. In the third amplifier unit 3 , the third output line Aus31 and the fourth output line Aus32 are connected to the two outputs. These two output lines Aus31 and Aus32 can also form the two parts of a separated second bus system. On the input side, the third amplifier unit 3 is connected, analogously to the second amplifier unit 2, between the separated line B acting as a bus. Any branching of a bus system can be realized by multiple arrangement and / or cascading of the amplifier units. Due to the switching effect of the amplifier units, the signal of a source can be fed to individual lines or entire parts of a branched system. Functions such as selective transmission and collective transmission can thus also be implemented.

Reference list

1 first amplifier arrangement
2 second amplifier arrangement
3 third amplifier arrangement
4 fourth amplifier arrangement
5 fifth amplifier arrangement
11 first terminating resistor
52 second terminating resistor
41 third terminating resistor
51 fourth terminating resistor
12 fifth terminating resistor
22 sixth terminating resistor
A amplifier output
A1 first output connector
A2 second output connector
Off1 first output line
Off2 second output line
From31 third output line
Aus32 fourth output line
B line acting as bus
D diode
E amplifier input
E1 first input port
E2 second input connection
A4 first input line
A5 second input line
L1 first inductance
L2 second inductance
L3 third inductance
L4 fourth inductor
R1 first resistance
R2 second resistor
R3 third resistor
R4 fourth resistor
R5 fifth resistor
T1 field effect transistor
T2 bipolar transistor

Claims (6)

1. amplifier arrangement for adapted lines for feeding signals into an adapted line acting as a bus or for decoupling signals from an adapted line acting as a bus, characterized in that the amplifier arrangement consists of two transistor stages, the first stage with a field effect transistor (T1) is constructed, the gate connection of which is connected via a capacitor (C) to the amplifier input (E) and to a high-resistance voltage divider consisting of a first and a second resistor (R1, R2) for setting the operating point, its drain connection being connected to a third resistor (R3) and the base connection of a bipolar transistor (T2) forming the second stage is connected, the collector connection of which leads via a diode (D) to the amplifier output (A), that between the source connection of the field effect transistor (T1) and ground a fourth resistor (R4) and between the emitter connection of the Bipolar transistor (T2) and Operating voltage, a fifth resistor (R5) is connected, that the third resistor (R3) on the other hand is connected to the operating voltage and that the amplifier input (E) has two input connections (E1, E2) and the amplifier output (A) has two output connections (A1, A2) owns. 2. Amplifier arrangement for adapted lines after Claim 1, characterized in that the Amplifier arrangement both on the input side and on the output side with its two connections (E1, E2 or A1, A2) either between those at the Unplugged matched line or between the end of the matched line and the Termination resistor is switched.   3. Amplifier arrangement for adapted lines after Claim 1, characterized in that for compensation the input capacitance of the first input connection (E1) via a first inductance (L1) and the second Input connection (E2) via a second inductance (L2) is connected to the amplifier input (E) and for Compensation of the output capacity of the amplifier output (A) via a third inductor (L3) with a first Output connection (A1) and a fourth inductor (L4) connected to a second output terminal (A2) is. 4. Amplifier arrangement for adapted lines after Claim 3, characterized in that the Inductors (L1, L2, L3, L4) as a printed conductor are trained. 5. Amplifier arrangement for adapted lines after at least one of claims 1 to 4, characterized characterized in that for connecting a larger number branching lines the amplifier arrangements several times are arranged and / or cascaded. 6. amplifier arrangement for adapted lines after at least one of claims 1 to 5, characterized characterized in that the amplifier arrangement as a switch for the signals is used by the Operating voltage for the amplifier arrangement is on or off.