DE19715470A1 - Operational noise reproduction process for model railway - Google Patents

Abstract

The process stores in a memory operational noises corresponding to a certain operational situation of an original in the form of digital noise data sets, and plays them back if a corresponding operational situation of the model occurs. Several different noise data sets are stored, corresponding to operational noises of the original drive assembly at a given speed. Dependent upon the adjusted model operational situation by the model user the noise data set corresponding to the adjusted situation is selected and played back. The playback volume of the noise data set of a given speed stage is changed depending upon the load of the model motor.

Description

The present invention relates to a method for re giving prototypical operating noises for models, esp especially for model railways, with a certain loading corresponding operating noise of a model pre electronically in the form of digital sound data sets stores a storage unit and at the corresponding Operating situation of the model.

The present invention also relates to noise electronics for performing the method.

Such rendering methods come in model technology, especially for model railways, to generate Be drive noise used, which the original noise of the Should correspond to the model. For playback of operating areas Noise of the model are known processes in which electronic way tone frequency signal voltages by means of electronic generator circuits are generated. Here in many cases there are several signal voltages with each other mixed after having previously different sound-shaping Have passed filter circuits. This is more common a considerable amount of circuitry to the Tra gene, the "synthetically" produced sound is from the Ori ginalton of the prototype is still clearly distinguishable.

To be more true to the original when playing Be to achieve driving noises, the noises of the Mo dell model, for example a model vehicle and / or  a model machine, recorded with the help of microphones and converted into digital data. The the audio signal corresponding sequences of digital data can then be in one Storage unit are stored and are available at any time faithful playback available. With this procedure comes to save an analog-to-digital converter and at Play a digital-to-analog converter like this with digital tape devices or compact disc players is known.

Problematic with such digital reproduction methods is, however, the considerable storage space that can be used for playback the digitized data must be available. For is used in model vehicles and / or model machines therefore this reproduction method is very limited settable. Usually, prototypes become more realistic Operating noise for models powered by internal combustion engines other models only the starting and stopping noises of the Drive motor as well as the motor running at a constant rotation number - usually idle - in the form of digital Ge noise records stored. Thus, when starting and when switching off the engine a sound again be given that ent the operating noise of the model speaks, to reproduce the operating sound of the current Drive motor, however, is only a single noise rate available. About the different speeds len of the drive motor corresponding operating noise of To simulate the prototype is therefore that of the running engine corresponding sound record on a single or on shortened a few engine revs of the original, and this one shortened data record is repeated again and again give acoustically the impression of constant running noise to awaken it.  

To simulate the operating noise of the drive motor different speeds is in the known rendition change the playback speed (sample rate) different. The playback speed increases with increasing speed considerably increased. However, this has the consequence that not only changed the pitch of the engine noise itself is, but also the typical sound determining un variable frequency components, such as the housing resonances of the original vehicle and especially the Properties of the recording environment, d. H. it will also be the Reflection times of the Hall components changed. At acquaintances Playback process is therefore dependent on the because of the speed of the engine a shift of all frequencies zen including the room reverb and the resonances in one higher or lower frequency range.

When the listener of the playback noise arises the true taken sound corresponding image of the acoustically recorded an object. By shifting all frequencies changes the auditory impression and the associated ima ginary image. The result is that when playing higher Speeds of the engine and its surroundings, d. H. the role model vehicle, due to the shorter reflection times of the room halls smaller and lower speed when playing fen appear larger. This so-called "Mickey Mouse Effect" has an especially unnatural effect because at for example diesel engines in prototype vehicles in the upper one Speed range and under load significantly more powerful and volu sound more minced while using the previously known method unnatural, because the depths are poorer and less spatial nertes "sound is generated.  

The object of the present invention is a method of generic type and a suitable for the method To further develop sound electronics so that at low Memory requirement in all operating states of the model reproduction of operating noises as true to the original as possible is achieved.

This object is achieved in a method of initially mentioned type in that several under stores different sound data records, each of which Operating noise of a drive unit of the prototype correspond to a certain speed, and that one depends the operating situation set by the model user tion of the model that corresponds to this operating situation Selects and plays the sound data record of the prototype.

The present invention includes the idea not just the start and stop noise of the drive day gregats, for example a diesel or electric motor or a steam engine, to save, but with the input law system to save several sound data sets each the operating noise of the drive unit at one correspond to certain speed. In the case of a model iron Railway can be provided, for example, that the An power unit of the prototype locomotive for the individual Operating speed of the locomotive operates corresponding speeds and the respective operating noises in the form of a Saves sound data record. Comes the invention Procedures for models of models to be used, their application drive unit on a continuous speed range points, for example in model automobiles, can be read hen be that the total available rotation Number range divided into several speed levels and each  the operating speed of each speed level Stores drive unit. One can be used by the model user certain speed can be set, and according to the set speed, the corresponding noise level selected set of the model from the memory and stored plays. To simulate the operating noise at various speeds can therefore be based on different sound data records are accessed so that it is not necessary the entire speed range available to the model is covered with a single sound record. The considerable required in known reproduction methods It is not necessary to change the playback speed.

The fidelity of the reproduction can be selected by choosing one speaking large number of different sound data sets to be influenced. For example, that in addition to the idle operation of the model unit ent speaking sound data record for example four, eight or sixteen more, each corresponding to a certain speed appropriate sound data records can be saved. Especially An embodiment is advantageous in which the number of Noise records of the number of those present in the prototype Speed or speed steps correspond, so that for each rotation a corresponding sound data record can be saved.

The fidelity of the reproduced operating noise can can advantageously be increased in that the Ab game volume corresponding to a certain speed Noise data set depending on the load on the mo dellmotors changes. For example, that the playback volume increases with increasing load on the Model engine increased.  

It is beneficial if you determine the playback sound of one depending on the speed of the corresponding noise data record changes in the load on the engine of the model. On this way, for example, with increasing load on the Motors a particularly powerful sound can be generated.

In a particularly preferred embodiment of the invention according to the method it is provided that one to a certain th speed of the drive motor of the prototype several each Noise records that save the operating noise correspond to different loads on the drive motor chen, and that you can get the sound records of this speed in Depending on the load on the model engine plays. For example, two per speed Noise records are saved, which are the same at cher speed only in the sound, typical for a bela constant or unloaded engine.

In addition to the storage of sound data records, each because the operating noise of the drive motor at a be matched speed, can advantageously be provided that one spits out further sound data sets The individual noises correspond to the original and the one selects depending on predeterminable control signals and plays. For example, it can be provided that an additional sound, such as the sound of a pipe fe, a compressor, a horn or a bell and / or the noise that occurs when the brakes are released, each in saves a sound data record and if there is one Control signal plays.  

For a particularly prototypical reproduction of the operating area noise from individual operating situations of the prototype it is from Advantage if you have both a certain one at the same time Speed of the drive motor corresponding noise data set as well as one or more ent a single sound selects and plays speaking sound data sets. The simultaneous output of different sound data sets for example through different speakers, or also by a mixing unit to which a speaker is assigned is. In this way, for example, the driving noise nes vehicle, especially a railway, simultaneously with an additional sound, for example the sound of a pipe fe, a bell or the sound of an opening Air flap and the like. Such an equal early output is possible because of the individual noise data records advantageously independently of one another from the Storage unit are available.

Since control individually by means of the method according to the invention bare sound data sets are available, it is also possible, a predeterminable sequence of individual operating noises reproduce true to the original. For example, vorese hen be that when you start a model train next reproduces the sound of the compressor, then the sound of the brakes disengaging and those starting Motors and finally the driving noise of the first spin number / speed level.

The control signals for selecting individual noises correspond The appropriate sound data records are advantageous Embodiment of the method manually by means of a remote control specified. In this way, the user of the Model train enables at any time  play out the sound of a bell or horn, for example to solve.

It is an alternative and / or supplement to a remote control cheap if you have at least one of the control signals for Akti additional individual noises automatically by means of the Model assigned to the prototype, especially on the model controls brought out. For example Reed contacts or, in the case of model trains, also track magnets are used as control elements by these Approach the model to output a control signal, whereupon for example, before a level crossing ent a bell speaking sound data record is played.

It is special in terms of the fidelity that can be achieved cheap, if you independently depending on individual sounds of the operation of the prototype. For example wise for a model of a diesel or electric locomotive be provided that after pressing the (at Model of the air-powered signal horn the sound of Compressor is triggered automatically to the prototype operating noise present when compensating for the pressure loss play in the air tank.

The selection of the Ge corresponding to a certain speed noise data record can advantageously be dependent on egg voltage applied to the engine of the model. In In this case, the supplier can be measured using a measuring unit Tapping the supply voltage of the model motor and, for example by means of a window comparator of the respective height of the Supply voltage and thus also the respective speed Select the appropriate noise data set for the engine and off play. With digital model railways, both the  Actual value of the motor control proportional to the speed of the motor voltage are used, as well as the present one Target value of the motor voltage. The latter can in particular also as a measure of the load on the model engine be attracted.

In a particularly preferred embodiment of the invention according to the method it is provided that one is determined Noise corresponding to the speed of the drive unit data record depending on a user-definable Selects control signal and plays. With digital model rail A separate command word can be used as a control signal are transmitted, the model being a selection circuit has the corresponding when the command word is received Selects sound record. With such a configuration The respective sound data record can thus be processed immediately be selected by the user without this, for example se the supply voltage applied to the model motor is pulled.

It is particularly cheap if you have the engine of the model in Dependence on the selected sound data record controls. The speed information, i.e. H. the speed level for a model vehicle, is not direct in this case for example, from a remote to the model engine control is instead made via the selection of the sound record. Here, a delay element be provided with the help of a prototypical time behavior can be achieved such that, for example when starting or accelerating, that of a higher one first Speed corresponding noise data record selected and abge is played so that the acoustic engine speed increases and Only then will the motor be connected to the supply voltage  is, so that the model vehicle starts to move. Here at can be provided that depending on the Be driving condition of the model engine, especially depending of its load, a different one Selects and plays the sound data record, so that in the how the operating noise of the engine different Load and other operating conditions in line with prototypes can be viewed.

In addition to the control of the model motor with a be preferred embodiment provided that one additional units of the model, for example hazard lights, swiveling air fold and the like, depending on the particular selected sound data set. For example It should be provided that the hazard lights corresponding to the model of the model can be activated when the operating noise corresponding noise data record of the loaded engine user is selected using the control signal.

The corresponding to a specific operating situation Operating noises of the prototype can remain unchanged in digita lized form stored in a memory of the model will. A particularly prototypical reproduction of the Be drive noise is achieved by being the one correct digital noise corresponding to the operating situation records to the acoustic reproduction properties of the Mo dells and in a correspondingly revised form in the Stores storage unit. This allows you to take into account who that the reproduction of the operating noise in a model with a loudspeaker with defined acoustic properties and with housing resonances that are not compatible with the corresponding resonances of the model match. It is therefore inexpensive if the digital noise data sets are included  known filters and sound-shaping circuits be adapted to the acoustic conditions of the model.

To achieve the most realistic hearing impression possible it is an advantage if you have a specific operating situation tion corresponding operating noises by means of several, un differently positioned microphones on the prototype and the resulting sound spectra to generate digi taler sound data records taking into account the acousti mixing properties of the model. In this way, high fidelity to the model can be achieved be generated of the operating noise, although the acu stical properties of the model correspond to those of the distinguish the model.

The sound spectra of the differently positioned microphone ne can be mixed in particular in the form that the Impression is created as if the listener is in some Distance from the prototype, as shown by the scale diminished conditions in model technology is. To do this, it may be beneficial to add the original sound additional sounds, such as a room reverb or other Add noises to mix.

In order to keep the storage space of the storage unit small, it’s an advantage if you keep the model corresponded to this operating state Repeats the sound record continuously. So at be provided, for example, that with constant rotation number of the engine the noise corresponding to this speed is set in the form of an endless loop.  

To avoid the cyclical repetition of the endless loop creates an audible rhythm, it is beneficial if you have the sound data record corresponding to this operating state in divided into sections of different lengths and sections of different lengths one after the other selects and plays. The order of playback of the one individual sections of the sound data record are thus running changed so that sections of the same length are not successively be played.

It is beneficial if you have a one-off, d. H. not last ernd repeatable noises such. B. the exhaust blow egg ner steam engine, records at different speeds and each in the form of a digital sound data record in stores the storage unit. In this way, one prototypical how, corresponding to the respective speed achieved one-time running noises.

Especially in the case of a steam engine model, it is Particularly advantageous if you look at the model, for example the drive axle, the piston rod or on the replica the steam engine control, one or more trigger contacts arranges clocks by the model, especially by the model steam engine during a cylinder stroke. In order to can a radially synchronous triggering, for example, the Exhaust strikes are achieved by using the respective bet the trigger contact corresponding to the exhaust stroke Sound record is played. The selection of the again giving sound data record, which in its sound image and in its length (duration of, for example, the impact noise) corresponds to the current driving speed of the model  advantageously consecutively by means of a time measurement gender impulses of the trigger contact.

It is advantageously provided that noise data sets stores, each one a change in the speed of the front correspond to the image and that with a corresponding change The speed of the model corresponds to this change selects and plays the corresponding sound data record of the prototype. In such an embodiment, not only stand corresponding to different speeds of the drive motor Noise records are available, but in addition Noise records provided, each one transition between two speeds.

To reduce the memory requirement of the memory unit particularly low hold, it is an advantage if you move the engine speed of the model from a first to a second rotation number first the Ge corresponding to the first speed noise data record with increasingly higher playback speed plays and then correspond to the second speed the sound record with the first reduced playback speed plays, which then increasingly on the nominal Play speed is increased. For a continuous Chen transition between two speeds is only one relatively little change in playback speed sample rate is required, this is only possible with a slight tonal alienation of the reproduced Be drive noise connected. As already explained, the the drive unit of the prototype available Speed range can be divided into individual speed levels. The sonic alienation when the change is reproduced the speed of the drive unit is the lower, depending more individual speed levels, each with a noise data  sentence are present, so that a smooth transition between two neighboring speed levels can be achieved without the Play speed must be changed significantly.

To carry out the method explained above advantageously comes with a sound electronics Storage unit, a signal converter and with a sound Spokesman for use, the storage unit multiple Spei Storage spaces for storing different, each the Be drive noise of the drive unit of the prototype at one certain speed of corresponding digital noise data has sets and a selection circuit is provided is, depending on a control signal on a be accesses the memory location of the storage unit, the ent calls speaking sound data record and over the signal wall to the speaker. In the Ge according to the invention a storage unit is thus provided, in which several sound data sets can be saved NEN, each an operating noise of the drive unit at a certain speed. Also includes the sound electronics a selection circuit that with a Control signal can be applied and depending on the tax ersignal selects a specific sound data set. This can be transferred to a digital-to-analog converter, which has a correspondingly analogized signal via a ver stronger to a speaker, so that in the form of selected digital sound record stored drive noise can be reproduced.

It is advantageous if the sound electronics are a measurement includes unit that can be connected to the model engine and Selection circuit supplies a control signal that the on the engine applied voltage corresponds. As described above  ben, can depend on the on the model engine lying supply voltage - and thus depending on the set speed - the corresponding noise data record can be selected and played.

It is particularly advantageous if the selection circuit has more rere, each taxable tax has inputs and corresponding to the respective Control signals simultaneously from several sound data sets calls. In this way, a multi-channel output is ver of various operating noises, so that it is not him is required, for example the output of the engine noise interrupt at a certain speed to further Ge noise, such as releasing the brakes, sounding a horn or the like.

It is favorable if the sound electronics are an actuator for setting the mixing ratio of the individual Ge includes noise records. This enables a user for example the ratio of the volume of the drive motor compared to the volume of a horn or a bell adjust.

In a particularly preferred embodiment, it is pre-cut hen that the sound electronics have at least one control input includes and a switching element coupled to this and / or programmable memory element for manual and / or remote control of the sound electronics. So can for example, be provided that the overall volume of the operating noise to be reproduced and the ratio of the Volume of the drive unit and the individual noises by means of a remote control via corresponding control inputs  the sound electronics and the programmable memory can be adjusted remotely.

As explained above, the use of such Sound electronics and the use of the invention Process particularly suitable for a model railway.

The following description of a preferred embodiment Form of the sound electronics according to the invention serves together menhang with the drawing of the detailed explanation. Show it:

Figure 1 is a block diagram representation of a sound electronics according to the invention.

FIG. 2 is a diagram of the speed levels of a motor of a model vehicle present in a typical operating sequence; FIG.

Fig. 3 is an enlarged view corresponding to FIG. 2 and a single speed level

Fig. 4 is an enlarged representation of the transition between two speed stages corresponding to FIG. 2.

In Fig. 1, a sound electronics 10 is shown, the central component comprises a microcontroller 12 and a memory unit connected to this in the form of a read memory 14 (ROM = Read Only Memory). The microcontroller 12 is connected to a loudspeaker 20 via a sum amplifier 16 and a power amplifier 18 . Via an analog-digital converter 22 , the microcontroller 12 is connected to a motor 24 of the model, and in addition the microcontroller 12 has control lines C ₁ to C _n , via which the micro controller 12 can be acted upon with control voltages.

Both the microcontroller 12 and the sum amplifier 16 and the final amplifier 18 each have a control input 13 , 15 and 17 , respectively, which is connected to a potentiometer P1, P2 and P3.

In the read memory 14 , noise data sets are stored, each of which corresponds to an audio signal that was recorded in a specific operating situation with a model of a model. The different operating situations include, on the one hand, the different speed levels of a model engine, ie for each speed level an operating noise was recorded in a manner known per se, di gitalized and stored in the memory unit 14 . The different operating situations also include a variety of additional sounds, such as the sound of a horn, a compressor, a bell and the like, as well as the starting sound and the shutdown sound of the model engine. The individual digitized noise data sets are accessed with the help of the microcontroller. The control lines C ₁ to C _n and the analog-digital converter 22 are provided for the control thereof. The latter serves as a measuring unit which taps the supply voltage applied to the motor 24 of the model, digitizes it and passes it on to the microcontroller as a control voltage. Depending on the level of this control voltage, the microcontroller selects a corresponding memory location of the memory unit 14 and passes the stored noise data record in analog form on the sum amplifier 16 and the power amplifier 18 to the loudspeaker 20 .

Regardless of the reproduction of the sound data sets corresponding to a certain speed level, an additional sound reproducing sound data set can be called up by the memory unit 14 and connected to the loudspeaker 20 by connecting a corresponding control voltage to one or more of the control lines C ₁ to C _n by the microcontroller 12 .

The microcontroller 12 can be used in sound electronics 10 for different models, ie in particular for different model motors 24 and the memory units 14 corresponding to the respective model. In order to assign the highest possible motor voltage to the memory location of the speed level corresponding to this motor voltage, the potentiometer P1 can be used to carry out an adjustment on the microcontroller 12 .

The potentiometer P2 is provided at the control input 15 of the Summenver amplifier 16 , by means of this potentiometer, the volume ratio between the engine speed corresponding to a certain speed level and one or more additional noises can be adjusted.

Finally, at the control input 17 of the power amplifier 18, the potentiometer P3 is used to adjust the overall volume of the operating noise to be reproduced.

Instead of the potentiometers P1, P2 and P3, in an alternative embodiment of the sound electronics (not shown in the drawing) 10 electrical switching elements can be provided for setting and / or also programmable memory elements which can be controlled remotely, for example by means of a digital control. This gives the model user the option, for example, to adjust the overall volume or the balance between the volume of the drive unit and the additional individual noises via a remote control.

As already explained, the Ge noise data sets are stored in the memory unit 14 , which were obtained by recording the operating noises of the model engine at different speeds, ie at different speed steps. A typical sequence of the individual speed steps and speeds when operating the prototype engine is shown in FIG. 2. When the engine is switched on, there is initially a continuous increase in engine speed until the engine is idling. The speed is then increased to speed level FS4 via speed levels FS1, FS2 and FS3. When the engine is braked and switched off, the reverse order occurs, ie the engine goes into idle mode via the speed stages FS3, FS2 and FS1, and the speed then drops continuously to zero while the engine is switched off. As is clear from Fig. 2, the speed remains constant at a fixed speed level, and the speed changes within a short time at a transition between the individual speed levels.

The operating noises of the individual driving stages are recorded in a manner known per se using microphones on the model of the model, digitized and stored in the memory unit 14 . The supply voltage applied to the model's motor serves as a control variable to reproduce the operating noises. This voltage is input by means of the analog-to-digital converter 22 into the microcontroller 12 , which then calls the operating noise corresponding to this voltage and the associated driving stage, stored in digitized form as a noise data record in the memory unit 14 , and then analogized and via the sum amplifier 16 and the power amplifier 18 passes to the speaker 20 .

If the speed level remains the same, the digital noise data record corresponding to this speed level is continuously repeatedly output by the microcontroller 12 . In order to avoid that the cyclical repetition of the given sound data record in the form of an endless loop generates an audible rhythm, the respective sound data record is divided by the microcontroller 12 into sections of different lengths L1, L2, L3 and L4 which are output in a different order . This is shown schematically in FIG. 3. This shows an enlarged speed level, the noise data set corresponding to this speed level being divided into four sections, which differ in length. The output of the noise data set corresponding to this speed level takes place in such a way that sections are output from the microcontroller 12 in succession that differ in length, so that it is ensured that sections of the same length do not follow one another several times. In this way, the impression of a constant repetition of a limited noise data set with the same speed level can be avoided.

If the speed level is changed, the microcontroller 12 first outputs the noise data set corresponding to the previous speed level, although the sample rate is continuously increased. Then the microcontroller 12 accesses the noise data set corresponding to the subsequent speed level, but plays this at a reduced playback speed, which is then continuously increased until it reaches its nominal value. The change in the playback speed in the transition from a speed level a to a speed level b 'is shown in Fig. 4 schematically Darge. It is clear from this that the transition area between the two speed levels a and b 'is divided into two areas a' and b, the speed a corresponding playing speed f _a in area a 'continuously by the factor x to the final value f _{a + x is} increased. In the subsequent speed range b, the playback speed f _b corresponding to the end range b 'is first played down by a factor of x, and then subsequently increased continuously to the nominal value f _b .

Since the entire speed range that the drive motor of the Model is available in several speed levels was divided, lies between the individual speed levels a and b 'only a relatively small distance, so that the tonal alienation by changing the Ab game speed at the transition between the speed step fen a and b 'barely noticeable.

By means of the method according to the invention and the noise electronics for performing the method is therefore possible Lich, with a model, in particular a model train such as Example of a model railroad, the operating noise of his To reproduce a model with high fidelity, only one there is relatively little memory requirement and still under different driving and additional noises are reproduced can, without significant sound alienation before lies.

Claims (25)

1. A method for reproducing prototypical Betriebsgeräu cal for models, especially for model railways, whereby a certain operating situation corresponding operating noises of a model prototype in the form of digital noise data records electronically stored in a storage unit and played when the corresponding operating situation of the model is present, characterized That one stores several different Ge noise data sets, each of which corresponds to the operating noise of a drive unit of the prototype at a particular speed, and that one selects and plays the operating data of the model depending on a model situation set by the user of the model and plays it. 2. The method according to claim 1, characterized in that one the play volume of a certain turn corresponding sound level record in Dep changes in the load on the engine of the model. 3. The method according to claim 1 or 2, characterized net that you can play the sound of a particular one Speed corresponding noise data record depending changes in the load on the engine of the model. 4. The method according to any one of the preceding claims, since characterized in that you can turn to a certain number of the drive motor of the prototype each several Ge saves noise records, which the operating noise  with different loads on the drive motor correspond, and that you can get the sound records of this Speed depending on the load on the engine selects and plays the model. 5. The method according to any one of the preceding claims characterized in that one individual sounds of the pre image corresponding sound data sets and depending on predeterminable control signals and plays. 6. The method according to claim 5, characterized in that one at the same time a certain speed of the An drive motor and a single one noise data record corresponding to the original selects and plays. 7. The method according to claim 5 or 6, characterized in net that the control signals manually by means of a Remote control specifies. 8. The method according to claim 5, 6 or 7, characterized records that one of at least one of the control signals automatically by means of control units assigned to the model from triggers. 9. The method according to any one of the preceding claims characterized in that one individual sounds of the pre image corresponding sound data sets and automatically depending on the operating sequence of the front selects and plays the image.   10. The method according to any one of the preceding claims, since characterized in that one of a certain rotation number corresponding sound data record depending an electrical one attached to the engine of the model Select voltage. 11. The method according to any one of claims 1 to 9, characterized ge indicates that one ent a certain speed speaking sound data record depending on one of the User selectable control signal and selects plays. 12. The method according to claim 11, characterized in that one the engine of the model depending on each selected sound data set. 13. The method according to claim 11 or 12, characterized in net that one depends on additional units of the model of the selected sound data set. 14. The method according to any one of the preceding claims, since characterized in that with constant Be drive state of the model to this operating state corresponding sound data record repeatedly from plays. 15. The method according to any one of claims 1 to 13, characterized ge indicates that the operating conditions remain the same state of the model that corresponds to this operating state appropriate sound data record into individual, different long sections divided and one after the other un selects and plays sections of different lengths.   16. The method according to any one of the preceding claims, since characterized in that sound recordings are spewed out chert, each a change in the speed of the An drive unit of the model correspond, and that one with a corresponding change in the speed of the Mo tors of the model corresponding to this change selects and plays the noise record of the prototype. 17. The method according to any one of claims 1 to 15, characterized ge indicates that when changing the engine speed the model from a first to a second speed first the Ge corresponding to the first speed noise record with increasingly higher playback speed and then the second speed corresponding sound data record with first reduced Playback speed plays, which then increasingly on the nominal playback speed is increased. 18. The method according to any one of the preceding claims characterized in that one of a certain Be digital noise data corresponding to the driving situation sets on the acoustic reproduction properties of the Mo dells and in a correspondingly revised form in stores the storage unit. 19. The method according to any one of the preceding claims, since characterized in that one of a certain Be operating noise corresponding to the drive situation several, differently positioned microphones takes and the resulting sound spectra to Er generation of digital noise data records under consideration the acoustic reproduction properties of the model mixes with each other.   20. Noise electronics for performing the method according to one of the preceding claims with a memory unit, a signal converter and with a loudspeaker, characterized in that the memory unit ( 14 ) has a plurality of memory locations for storing differently, each the operating noise of the drive unit of the model has a certain speed corresponding digital noise data sets and that a selection circuit ( 12 ) is provided which, depending on a control signal, accesses a specific memory location of the memory unit ( 14 ), retrieves the respectively stored noise data set and via the signal converter to the loudspeaker ( 20 ) delivers. 21, electronic sound system according to claim 20, characterized in that the electronic sound system (10) integrated a MESSEIN (22), which is the model to be closed to the motor (24) and the selection circuit (12) signal to a control, which is one voltage applied to the motor ( 24 ). 22. Noise electronics according to claim 20 or 21, characterized in that the selection circuit ( 12 ) has several, each because a control signal can be acted upon control inputs (C ₁ ,..., C _n ) and corresponding to the control signals pending because several at the same time Retrieves sound records. 23. Sound electronics according to claim 22, characterized in that the sound electronics ( 10 ) comprises an actuator (P2) for setting the mixing ratio of an individual sound data sets. 24. Sound electronics according to one of claims 20 to 23, characterized in that the sound electronics ( 10 ) has at least one control input ( 13 , 15 , 17 ) which is connected to a switching element and / or a programmable memory element for manual and / or remote-controlled Setting the sound electronics. 25. Model train with sound electronics according to one of the Claims 20 to 24.