DE1252746B - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

dead. Cl .:

H04b

German class: 21 a2-16 / 01

Number: 1252 746

File number: S 88640 VIH a / 21 a2

Filing date: December 10, 1963

Opening day: October 26, 1967

It has been tried and tested in electroacoustic transmission systems that are controlled by a central control unit Receive NF events to be transmitted, and those with one or more of the central location Loudspeakers work in such a way that the location of the remote loudspeaker is built up the associated power amplifiers are also available. Systems of this type are known as »decentralized Plants «known. They are used to fill extensive outdoor areas or large rooms or used throughout the building. Systems of this type can also be used for stereophonic transmissions. The principle of the central control unit assumes that the LF output of this central control unit to avoid the frequency response being influenced by the cables is low-resistance. Source resistances on the order of 50 to 500 ohms are common. It is also assumed that to avoid static and / or magnetic interference in the low-frequency control lines of the The useful level on these lines is relatively high. Control voltages are around 1 to 5 volts common. The disadvantage of these arrangements is that, in addition to the LF control lines, there are also network control lines need to be relocated. Attempts have been made to remedy these difficulties in that the LF and mains control lines work with voltages to earth. Then you come with a three-wire Line off. It is also known to use a symmetrical low-frequency control line from it To form phantom line, which transmits the network control signals to earth. Furthermore, art circuits are known, the loudspeaker line, i.e. the lines from the power amplifier to the loudspeaker, For example, in the case of radio devices for remote switching on and off of the mains power supply of the radio device to use. A few IOOmW up to about IOWatts (see Funkschau, 1957, no. 15, p. 432, and no. 16, p. 463).

The principle of these circuits is that additional auxiliary voltages, for example from batteries or an additional power supply unit. These voltage sources must partly either Supply continuous current or only switching pulses. The DC power to operate the relays is for example, depending on the type of relay, about 5 to 50 mW. For the last one given above In addition, a complicated "holding current circuit" is required for the switching relay. The cost of components is therefore in no reasonable relation to the intended one

Electroacoustic transmission system

Applicant:

SENNHEISER electronic
Dr.-Ing. Fritz Sennheiser,
Wennebostel, Post Bissendorf (Hann.)

Named as the inventor
Dr.-Ing. Hans-Joacliim Griese,
Isernhagen via Hanover

Purpose. Such arrangements cannot therefore be manufactured industrially. The proposed invention eliminated these shortcomings. She also gives the planning engineer for electroacoustic systems the Possibility of using a two-wire balanced or unbalanced control line for both purposes LF transmission as well as for the purpose of switching on the power amplifier remotely.

The invention relates to electroacoustic transmission systems, consisting of one or several loudspeaker units, for example loudspeaker boxes. Each speaker unit has one own power amplifier with mains connection. The system also needs the speaker units remote a preamplifier including one or more audio frequency sources, for example Microphone, radio or record player. The preamplifier is used as the central one in a known manner Control and operating point used. This central control and operating point is with a two-pole lead connected to each speaker unit.

The central control point has a low-frequency output stage, which is a low-resistance amplifier circuit is, for example an impedance converter circuit, whose operating direct current together with the low frequency via the two-pole cable to the loudspeaker units. The invention is characterized in that the working resistor or resistors in the loudspeaker units for the low frequency output stage of the preamplifier and that the direct current flowing through these load resistors directly, for example via a relay, or indirectly, for example

709 679/408

Claims (1)

125 via one or more electronic switches with a downstream relay that switches the loudspeaker units on to the mains. An extension of the invention is characterized in that only one loudspeaker unit contains the switch-on device for the mains connection and that the mains power supply for the other loudspeakers is routed through this switch. Another embodiment of the invention is characterized in that the DC time constant of the power supply of the preamplifier is selected so large that after the preamplifier is switched off, the direct current in the control circuit drops so slowly that no disruptive switching noise is transmitted from the loudspeaker units (τ, for example, greater than 50 · IO-3 seconds). The A b b. 1 and 2 are intended to explain the invention. In the A b b. 1 shows the system diagram of a transmission system according to the proposed invention. It consists of a preamplifier, which is denoted by 1, a two-wire line 2 and, in the simple version, a loudspeaker unit 3. The preamplifier 1 has a power switching device 1.1 with a power switch 1.11 and the rectifier part 1.12. If necessary, the heating power for a control lamp and for heating preamplifier tubes can be taken from the mains transformer of this part. In the example shown, the actual preamplifier 1.2 has four LF inputs, which are labeled 1.21 to 1.24. They are intended for the connection of a microphone, a pickup, a magnetic tape recorder and a radio. They are mixed with one another in the mixing part 1.25 and their volume is regulated independently of one another. A depth and height control that is available in most cases was not shown in order not to obscure the picture. The same applies to an occasionally used master control. The actual preamplifier 1.2 is followed by an amplifier output stage 1.3. It has a small resistance to swelling, according to the proposal of the invention. An impedance converter stage is used, the working resistance of which is accommodated in the loudspeaker unit 3 combined with an amplifier. The impedance converter circuit is an example of a low-resistance output circuit. The low-frequency control power of the output amplifier or amplifiers to be supplied by the amplifier output stage is in the order of magnitude of approximately 3 to 15 mW per force amplifier. This control power must be delivered with a very small harmonic distortion. Distortion factors of ^ 0.1% are state of the art in quality systems. For this reason, amplifier circuits in Α mode are preferred in such output stages, the DC power loss of which is approximately twice to ten times the required LF control power. According to the proposal of the invention, the load resistor (s) of this output stage is spatially relocated to the power amplifier (s) in order to use this direct current power directly or via electronic amplifier elements to operate the mains circuit of the power amplifier (s). The preamplifier 1 and the loudspeaker unit 3 are connected to a double line 2, which is both an LF control line and a network control line. The loudspeaker unit 3 consists of the power switch 3.1, 2 746, the power supply unit 3.2, the power amplifier 3.3 and the loudspeaker 3.4. It is irrelevant for the concept of the invention whether the loudspeaker consists of one or more broadband systems or different systems for frequency band subsections. In the example shown, the mains connection part 3.1 consists of a relay 3.11, which effects the mains connection of the loudspeaker unit 3 with a normally open contact 3.12. ίο The winding data of relay 3.11 are designed so that its impedance is located as a low-frequency working resistance in the output circuit of the amplifier element of amplifier 1.3. In parallel to this working resistance, the LF control voltage on the relay winding is fed to the power amplifier 3.3 by means of the line 3.30. It also receives its power supply from the power supply unit 3.2. The time constant of the rectifier section 1.12 of the preamplifier 1 is dimensioned so large that the direct ao current in the working circuit of the LF output stage 1.3 decays so slowly that no disruptive switching noises are transmitted from the loudspeaker 3.4 when the preamplifier 1 is switched off using the switch 1.11 is carried out. (Let the time constant be, for example, τ => 50 · 10 -3 seconds.) In the example shown, the loudspeaker unit 3 has one or more high-voltage sockets 3.13. The power supply for other neighboring loudspeaker units can be connected to them. In the A b b. 2, the system diagram of a stereo system with pickup operation is shown as a further example of the concept of the invention. The preamplifier 1 has according to the description for A b b. 1 a power supply unit 1.1 and a rectifier part 1.12. The preamplifier 1.2 is divided into two sub-amplifiers 1.201 and 1.202 for a two-channel stereophony. The stereo pickup 1.221 is connected to this amplifier with the interposition of the stereo controller 1.251. The representation of the other switches such as treble-bass controls and navigation controls has been omitted. The preamplifier 1 has two low-resistance output stages 1.301 and 1.302, which are connected to the associated loudspeaker units 3.01 and 3.02 via the control lines 2.01 and 2.02. The loudspeaker unit 3.01 has corresponding to the loudspeaker unit 3 in A b b. 1 the mains power supply for the entire system. It consists of the mains lead with the associated switch-on, as described in Fig. 1, and a mains socket 3.013, which corresponds to socket 3.13 in Fig. 1. The mains connection plug 3.021 of the loudspeaker unit 3.02 is plugged into this. For example, 3.024 symbolizes the left loudspeaker and 3.014 the right loudspeaker of the stereo system. Patent claims: 1. Electroacoustic transmission system, consisting of one or more loudspeaker units, for example loudspeaker boxes, with each loudspeaker unit having its own power amplifier is assigned to the power supply, and one of these speaker units Preamplifier, including one or more audio frequency sources, e.g. microphone, Radio or record player, being