DE2544329A1 - Selective level detector esp. radio test receiver - designed for interchangeability of modules for flexibility in use and servicing - Google Patents

Abstract

A selective level detector, esp. a radio test receiver, is designed to enable the use of already available component modules with prospective future modules, eg receivers, frequency counters. The device is further designed so that one or more modules may be interchanged to meet different selection, evaluation, transient response, measurement range, or display requirements, and to facilitate servicing. An AM/FM radio receiver is provided with active tuning circuits for voltage level and/or selection characteristics. A measurement amplifier unit is connected to the output of one tuning circuit and/or a frequency counter is connected to the other tuner output. The receiver does not constitute a test instrument in itself.

Description

"Selective level meter, especially radio test receiver

The invention is concerned with a selective level meter, in particular with a radio test receiver like him for setting up and leveling community antenna systems is used. Such a radio test receiver usually consists of calibrated Attenuation selectors, radio receivers for AM and / o (ier FM broadcast areas, Stereo decoder, audio frequency audio output and / or loudspeaker, intermediate frequency measuring amplifier, Measuring modulator and display instrument. The block diagram Fig. 1 shows the principle Structure of a radio test receiver 1. The signal to be measured (long, medium, Short or ultra short waves) reaches a measuring input 2 that can be set in steps Attenuation selector 3 and a second, continuously adjustable attenuation selector 4 -While it is also state of the art, this attenuation controller 4 in front of the inputs Insert measuring amplifier 22 - at the input 5 of the AM / FM radio receiving part 6. This includes, for example, an AM pre-stage 7 with a subsequent AM mixer stage 8, at the output 9 of which the AM intermediate frequency (455 Kllz) arises. For FM reception is provided with a further FM pre-stage 10 and an FS mixer 11, at the output 12 of which the FM intermediate frequency (10.7 MIIz) is available. Both Intermediate frequencies are amplified in a combined IF amplifier 13 and the AM demodulator 14 or FM ratio detector 15 are supplied, their LF outputs optionally Via a disconnectable interference suppression 16 to the low-frequency power amplifier 17 can be supplied. On the output side is a loudspeaker 18 and an audio frequency monitoring output 19 available. Of course, this AM / FM radio receiving part 6 can also with a stereo decoder to assess the quality of reception of stereo broadcasts be equipped.

For measuring the high-frequency voltage present at measuring input 2 are also a combined AM / FM IF measuring amplifier 22 with an attached AM measuring demodulator 23, an FM measuring demodulator 24 and a display instrument 25 are required. The entrance of the AM / FM IF measuring amplifier 22 is generally sent to both output 9 (455 LIz) and connected to output 12 (1.7 MHz).

Recently the set frequency has been used to display the measurement also a digital frequency counter 27 which is connected to the radio receiving part 6 in this way that he is receiving AM radio with the AM oscillator of the mixer is connected to the oscillator of the FM mixer when receiving FM radio.

According to the structure, one can see the known versions of the radio test receiver divide into 2 groups: 1.) devices; which are completely constructed in terms of structure, i.e. Devices in which there are no interchangeable larger assemblies made by third parties are located. This includes, for example, the following devices: Selective level meter USVH from Rohde and Schwarz Siemens AM / FM antenna measuring devices S 43 101 and S 43 102 Antenna measuring device from Sihn, type WA 30 Philips radio test receiver AE 691 2.) Devices with larger interchangeable assemblies (e.g. a radio receiver) third-party creation included. This includes, for example, the radio test receiver MRK 11, UN 208.126 of the company Kathrein - Werke KG, who as the recipient is a commercially available Used car radio.

The invention relates to devices of the second group.

In the production of such devices so far, the must-essentially electrical ball groups of the device belonging to the commercially available receiver e.g. Measuring amplifiers, measuring devices, frequency counters, etc. in the respective year distributed Typc of the recipient and thus largely redeveloped in each case will.

It is therefore the object of the invention to provide a way that allows it Once developed assemblies also in connection with future externally manufactured ones Assemblies (e.g. radio receivers, frequency counters) can still be used. It is Further an object of the invention to design one or more assemblies so that for example, in the case of different requirements for selection, evaluation, transient behavior, Measuring range, records, etc. can easily be exchanged for one another. This interchangeability is also useful for service reasons.

The present invention solves this problem in that intermediate frequency measuring amplifiers, Measuring demodulator and display instrument combined to form an exchangeable measuring unit -be caught. This measuring unit is held in the device via a common holding device attached. It is preferably attached to the front panel or a front-side mounting plate. According to the invention it is further provided that at Presence of two intermediate frequencies (AM e.g.

455 KIIz, FM e.g. 10.7 SIz) both amplifier branches including the connected ones Measurement demodulators can be adjusted in such a way that both branches are present when the same Measuring voltages produce the same deflection on the display instrument. Jiierzu are two actuators provided, which - correctly adjusted - also the setting a certain same input sensitivity of the exchangeable measuring unit allow.

It is also part of the invention that in the radio receiving part one or more active adapter circuits can be built-in. With these a handover level independent of the copy of the respective radio receiver the replaceable unit described above can be set.

According to one embodiment of the invention, the matching circuits Contain selection means, by means of which a constant transmission curve can achieve.

Finally, according to the invention, such starting circuits can also be used be provided to adapt a frequency counter to the radio receiver, where one can see that the oscillator frequencies to be transmitted change over a wide range, will fall back on broadband active matching circuits. The detailed description the invention is based on drawings. 1 shows a block diagram of a radio test receiver that is already equipped with the components according to the invention is equipped.

Fig. 2 is a perspective view of a radio receiver according to the invention with the measuring amplifier unit removed.

Fig. 3 is a circuit diagram exemplifying one carried out in practice Measuring amplifier unit.

4 shows an exemplary embodiment of one suitable for two intermediate frequencies Adaptation circuit with actuators for level adjustment.

Fig. 5 shows a further embodiment of an adapter circuit with actuators for level adjustment and setting options for the shape of the selection curve.

The perspective view of Fig.2 shows one from a chassis 31 with an attached front plate 32 existing structure of a radio test receiver 1. In the chassis 31, the AM / FM radio receiving part 6 is attached, its front side 33 protrudes through the front plate 32. Other components, such as the two attenuation selectors 3, 4, the measuring input 2, the audio frequency monitoring output 19 and the field of view of the frequency counter 27 is located on the front panel. The loudspeaker 18 can, for example, im Chassis 31 be housed.

amplifier The measuring unit 21 according to the invention consists of the display instrument 25 with attached circuit carrier 34 on which the components of the AM / FM IF amplifier 22 and the two wet modulators 23, 24 housed are. The circuit carrier 34 is, for example, fixed in distance pieces 35 connected to the display instrument 25, the connections 36, 37 of the display instrument directly with the corresponding conductors of the circuit carrier 34 in the same way Level can be connected.

In the front plate 32 there is an opening 38 for receiving the Display instruments 25. The fastening is carried out with the aid of a per se known Frame 39, with two spring clips 40, 41 on extensions 42, 43 of the frame 39 be pushed, which the front part of the indicating instrument and the frame 39 press firmly against the front panel 32. With this type of fastening of the measuring amplifier unit 21 it will be possible to change this part in seconds if either becomes necessary for service reasons or new technical requirements. For example, a measuring amplifier unit with a different measuring range, other c Display unit (e.g. 13th recorder or digital display) or with a different evaluation (e.g. exact top rating) can be used without further interventions in the device are required.

To the same transfer level between the radio receiving section 6 and the To achieve measuring amplifier unit 21, as well as scattering of the selection curve of the receiving part compensate, you can see according to the invention active matching circuits 26 -bzw. 28 (Fig.1) vorßdie housed within the radio receiving section 6 at a suitable location will. One then smokes from this adapter circuit, as described in detail later, only one coaxial connection to the measuring amplifier unit 21 and / or to the frequency counter 27 to be provided. These active adapter circuits are not shown in FIG. because they can be installed at every free position inside the radio receiver can.

A practically tested circuit of the measuring amplifier unit 21 is shown in Fig. 3. In order to achieve high stability of the reinforcement integrated circuits 51, 52 used as amplifying elements, which largely are insensitive to fluctuations in operating voltage and temperature influences. The intermediate frequencies to be amplified (e.g. 455 KHz and 10.7 z) pass over the active matching circuit 26 and a single coaxial cable 29 to the input 53 of the measuring amplifier unit 21. The signals come along via a voltage divider the resistors 54, 55 and the capacitor 56 to the input 57 of the integrated Circuit 51. I) the second input 58 of the integrated circuit is for stabilization purposes connected via a resistor 59 to the first input 57 and to the capacitor 60 placed on ground potential. Between the output 61 and the output on the ground side 62 of the integrated circuit 51 is a series circuit of an AM intermediate frequency filter 63 and an FM intermediate frequency filter 64 inserted. The capacitors 65 and 66 are the resonant circuit capacitors of these filters. If necessary, the AM intermediate frequency filter can be used 63 are attenuated by a resistor 67 configured in parallel.

The second stage of the measuring amplifier unit 21 is almost identical built up. The secondary windings 68, 69 of the intermediate frequency filters 63, 64 are connected in series and with the inputs 70, 71 of the integrated circuit 52 connected. Again, two in series are connected between output 72 and 73 IF filters 71l, 75 connected with parallel capacitors 76 and 77, whose Output windings 78 and 79 are grounded on one side. The other connection is in each case with a measuring rectifier 80 (for FM intermediate frequency) and 81 (for AM intermediate frequency) tied together. The DC voltages arising at the capacitors 88, 89 are via the adjustable resistors 82, 83 and the common series resistor 8} 4 the display instrument 25 supplied. The latter is with one Capacitor 85 blocked in order to achieve a certain inertia of the display. Around The display instrument 25 to protect against overload is at the connection point 86 a diode 87 switched to wet. I) The operating voltage Ub is via a Pre-stabilized series resistor 90 and a Zener diode 91.

The two integrated circuits 51, 52 are on the operating voltage side by a decoupling element consisting of a resistor 92 and two capacitors 93, 94 decoupled. In the following - without thereby reducing the scope of protection of the invention is reduced - the values of the components used in a sample structure are communicated: 51, 52 = integrated circuit LM 703 L 54, 92 = resistor 100 Q 55 = resistor 300 Q 56, 88 = capacitor 10 nF 59 = resistor 1 K Q 60, 89, 93.94 = capacitor 0.1 µF 63, 75 = IF filter 455 Kiiz 64, 74 = IF filter 10.7 KHz 65, 77 = capacitor 2.7 nF 66 = capacitor 47 pF 67 = resistor 4.7 K # 76 = capacitor 100 pF 80, 81 = diode AA 116 82, 83 = rotary resistors 22 K Q 84 = resistor 510 # 82 = tantalum electrolytic capacitor 50RF / 6V 87 = diode BAY 17 90 = resistor 150 # 91 = Zener diode BZX 83 (9V1) at With an amplifier dimensioned in this way, a total gain of> 60 dB is achieved. An input voltage of 20 dBV at measuring input 2 causes on Attenuation O dB set attenuation selectors 3.4 the full scale of the display instrument 25th

The full scale is compared for both intermediate frequencies by means of the adjustable resistors 82, (FM intermediate frequency 10.7 Malz) and 83 (AM intermediate frequency 455 KiJz).

For the sake of understanding it should be added that only ever one of the intermediate frequencies reaches the input 53 because the range switching of the AM / FM radio receiving section ensures that only either the AM or the FM mixer stage is put into operation will.

The measuring amplifier unit 21 is connected to an active matching circuit 26 with the AM / FM radio reception part 6 connected. According to the invention, this Matching circuit 26 housed at a suitable location in the AM / FM radio / receiving part 6. It enables a constant transfer level (e.g.

300 RV) adjusted measuring amplifier units 21 so to the quite different Amplification having AM / FM-Itundfunk -Empfangsteile 6 adapt that first the same input sensitivity is achieved at measuring input 2, secondly the connection Thirdly, it is connected via a single coaxial cable 29 can happen.

An embodiment of such a matching circuit 26 is shown Fig. 4. There is an AM input 101 and an FM input 102. First is with the output 9 of the AM mixer stage 8 (see Fig. 1), the latter with the output 12 of the FM mixer 11 of the AM / FM radio receiving part 6 is connected.

The AM intermediate frequency (55 Kllz) comes through the adjustable resistor 103 and capacitor 104 to the base of transistor 105. Its Base bias is generated by resistors 106, 107. The amplified signal is fed to the common output 109 via the AM-IF filter 108. The transistor 105 receives its operating voltage Ub2 from the AM / FM-1undfunk-Kmpfangteil 6 uncl although it is only due to voltage if one of the AM ranges (long, medium, short wave) is switched on. The capacitor 110 serves to decouple the introduced operating voltage Ub2. The emitter of transistor 105 is through the combination of a resistor 111 and a capacitor 112 are connected to ground.

Almost equally, the FM intermediate frequency (10.7 MHz) comes over one adjustable resistor 114 and a capacitor 115 to the base of the transistor 116, dr its base bias voltage via the resistors 117, 118 from the operating voltage Ub1 receives. The amplified 10.7 Mi! Z signals arrive at the FM IF filter 119 and are fed to the output 109 via a capacitor 120. The emitter of the Tran transistor 116 is also across resistor 121 and one in parallel with it switched capacitor 122 is connected to ground.

The operating voltage Ub1 is only applied when the AM / FM radio Jmpfangteil 6 is set to the FM (ultra-short wave) range. For sufficient decoupling the capacitor 123 provides.

So the lower IF output frequency (455 KIiz) at the interconnection point 124 is not attenuated inadmissibly before output 109, capacitor 120 is dimensioned so that it has low resistance for the high output frequency (10.7 AnIz) and for the low AM intermediate frequency (455 MIz) is already quite high impedance.

With the adjustable resistors 103 and 114 at the output 109 resulting intermediate frequency level can be adjusted so that it corresponds to the desired Input level (for full deflection of the display instrument 25).

Above all, the variations in the gain of the preliminary stages and mixing stages of the AM / FM radio receiving section 6 are balanced. So that can the latter can also be exchanged if repairs are necessary. without the measuring amplifier / has to be re-leveled.

Since the matching circuit 26 has a common output 109 for both intermediate frequencies one comes with a single coaxial cable 29 to the measuring amplifier unit 21 off.

The following dimensions resulted from a practically tested circuit: 103,114 = rotary resistors 2.2 Q 104, 123, 112 = capacitors 10 nF.

105, 116 = transistors BF 255 106 ,. 117 = resistors 8.2 KQ 107, 118 = resistors 12 KQ 108 = AM-IF filter, 455 MIz 110 = capacitor 0.1 RF 111, 121 = resistors 3.3 KQ 112, 123 = capacitor 10 nle 115, 120 = capacitor 200 pF 119 = FM IF filter, 10.7 Iz 122 - capacitor 1 nF Ub1, Ub2 = + 8.4 V.

According to a further embodiment of the invention, the matching circuit can be used 26 also design so that in addition to the 3 requirements outlined above, a 4. Requirement, namely the adaptation to a constant selection curve, met will.

In practice it must be expected that not every AM / FM radio receiving section 6 - in particular at the outputs 9 and 12 - is the same Has selection curve.

One therefore makes the selection of the matching circuit according to the invention 26 additionally adjustable. According to a variant of the design, e.g. AM intermediate frequency the selection in the adapter circuit is driven so high that that the selection of the adapter circuit determines the overall AM selection. So that can a process of setting the selection at the AM intermediate frequency can be avoided entirely.

A circuit example of these two configurations is shown in FIG. 5. The FM part of the matching circuit 26 is exactly the same in terms of dimensioning and circuitry in Fig. 4 and will therefore not be further described. The only difference is the 1 "M-LF filter 131, which is either in the coupling of turns 132 and 133 is adjustable, or - not shown here - are continuously attenuated can. In this way, the width of the transmitted frequency band can be changed will. The AM part of the adapter circuit is structured differently in this example: The AM intermediate frequency (455 KHz) of the AM / FM radio receiving section 6 passes over the input 134 and the adjustable rotary resistor 135 (amplitude adjustment) to the coupling winding 136 of the AM-IF filter 137, the second connection 138 of which with Ground is connected. The resonant circuit winding 139 is by means of the capacitors 140, 141 tapped in order to obtain a narrow transmission curve. The tap 142 is partly connected to the base of transistor 143 and partly connected to the base voltage divider with resistors 144, 145. The emitter of transistor 143 is connected to a resistor 146 connected to which a piezo oscillator (or a filter quartz) 147 or else in the other case a capacitor 148 is connected in parallel. The collector of the transistor 143 is connected to the operating voltage source Ub2 via the resistor 149 and coupled to the base of transistor 150 directly. The transistor 150 operates in collector circuit. The high frequency is coupled out on the emitter side End of working resistance 151 via capacitor 152 and a Coil 153 at connection point 154 and the common AM / FM output 155 of the Adaptation circuit 26.

As already described, either a piezo transducer 147 can be used for 455 Kliz or a capacitor 148 can be used in parallel with the resistor 146. The former Solution is advantageous if the adapter circuit 26 is particularly narrow Want to operate AM Durciilaßkurve. In the second case (with capacitor 148) the Selection by changing the coupling of windings 136 and 139 of the AM IF filter 137 can be set.

A circuit implemented in practice has the following dimensions: 135 = rotary resistance 4.7 KQ 147 = piezo oscillator 455 KHz 137 = AM-IF filter 455 KHz 148 = capacitor 10 nF 140 = capacitor 10 nF 149 = resistor 5.1 KQ 141 = Capacitor 2.7 nF 151 = working resistance 2 KQ 143, 150 = transistor BF 255 152 = Capacitor 0.1 pF 144, 145 = resistor 100 KQ 153 = coil 4.7 FH 146 = resistor 3 KQ 156 = capacitor 3.3 FF / 15V In the AM / FM radio receiving section 6 is according to the Invention at a suitable free location also a matching circuit 28 for connecting a digital frequency counter provided.

As can be seen from FIG. 1, this adapter circuit has the task of Either the AM or the FM oscillator frequency without reaction to input 20 of the frequency counter 27 to be supplied. Both oscillator frequencies change to a greater extent Scope. Therefore, a broadband amplifier stage in known circuit technology is used here used, whereby again only a common output is required so that the connection of the frequency counter 27 can be done via a single coaxial cable.

The mechanical structure of both adapter circuits 26, 28 can be printed on printed circuit boards smallest dimension. With that, the Installation also in crowded built-in AM / FM radio receivers, for example in car radio receivers, take place.

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Claims (9)

Claims 1. Selective level meter, in particular broadcast test receiver with an AM / FM radio receiver that is not designed for measurement purposes, characterized in that the AM / FM radio receiving part (6imit active matching circuits 26, 28 for voltage levels and other selection curves are tested, with an the output 29 of the adapter circuit 26 to a measuring amplifier unit 21 and / or the output 20 of the adapter circuit 28, a frequency counter can be connected. 2.) Selective level meter according to claim 1, characterized in that that the measuring amplifier unit 21 consists of a combined AM / FM intermediate frequency measuring amplifier 22, an AM measuring demodulator 23, an FM measuring demodulator 24 and a display instrument 25 consists, these components forming an interchangeable unit. 3.) Selective level meter according to claim 2, characterized in that that on a common circuit board 34 the components of the AM / FM intermediate frequency measuring amplifier 22, the AM measurement demodulator 23 and the FM measurement demodulator 24 are combined in this way are that these circuit carriers 34 via spacers 35 in the plane of the connections 36, 37 can be attached to the display instrument 25. 4.) Selective level meter according to claim 3, characterized in that that the measuring amplifier unit 21 with the help of the fastening device of the display instruments 25 attached to the front panel 32 or a corresponding mounting plate can be. 5.) Selective level meter according to claim 4, characterized in that that the measuring amplifier unit 21 with the help of a mounting frame 39 and two matching spring clips 40, 41 can be used in the front panel. 6.) Selective level meter according to the preceding An -that they speak, characterized in that y measuring amplifier unit 21 in the AM and / or FM branch setting means 82, 83, with which both branches are adjusted for the same input sensitivity can be. 7.) Selective level meter according to the preceding claims, characterized characterized that within the series each measuring amplifiers re inlici by means of the IC setting means 82, 83 can be brought to the same input sensitivity. 8.) Selective level meter according to one or more of the previous ones Claims, characterized in that the adapter circuit 26 and / or 28 by means of Setting means are set so that together with an AM / FM radio reception part 6 at the outputs 29 and 20 of the active matching circuits 26 and 29, respectively the same transfer level and / or the same selection properties are present. 9.) Selective level meter according to one or more of the preceding Addresses, characterized in that the active adapter circuit 26 with selection means 137, 147 are provided, the narrower bandwidth than the internal selection means the AM pre-stage 7 and AM mixer 8 of the AM / FM radio receiving section 6.