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Comparison Yamaha PSS-F30 vs Casio CT-S100

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Yamaha PSS-F30
Casio CT-S100
Yamaha PSS-F30Casio CT-S100
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Typechildren's synthesizer (rompler)synthesizer (rompler)
Keys
Number of keys3761
Sizesmall-sizedfull size
Mechanicsactivepassive
Rigidityunweightedsemi-weighted
Specs
Polyphony32 voices32 voices
Built-in timbres120 шт122 шт
Auto accompaniment
Accompaniment styles114 шт61 шт
Tempo change11 – 280
Metronome
Sequencer (recording)
Built-in compositions
Effects and control
Octave shift
Reverberation
Transposition
Fine tuning
Connectors
Outputs
USB to host (type B)
headphones
USB to host (type B)
 
In box
In box
 
 
music stand
PSU
General
Built-in acoustics1.4 W4 W
Number of bands11
Displaymonochrome
Autonomous power supplyaA batteriesaA batteries
Operating hours16 h
Dimensions (WxHxD)506x54x201 mm930x73x256 mm
Weight1.2 kg3.3 kg
Color
Added to E-Catalogjanuary 2020november 2019

Type

- Synthesizer. In this case, we mean classic digital synthesizers - keyboard musical instruments that can reproduce the sounds of various instruments and sound effects. The functionality of such models can be very diverse - from budget devices with minimal functionality to advanced instruments suitable even for professional musicians.

- Work station. High-quality synthesizers for professional use, capable of playing the role of not only a musical instrument, but also a remote control for recording and mixing sound. Accordingly, a mandatory feature of such instruments is a sequencer (see below). In addition, workstations are distinguished by advanced equipment that corresponds to the class: among such instruments there are models with full-size hammer-action (see “Mechanics”) keyboards with 88 keys, an abundance of adjustments and connectors is available to the user, and the sound quality and reliability in inexpensive models is good , in advanced ones - almost ideal. True, synthesizers of this type are very expensive, therefore, combined with their extensive capabilities, they are indispensable assistants for composers, sound engineers and other specialists involved in both performing and recording music.

Children's synthesizer. The features of such instruments are generally clear from the name - these are synthesizers designed for children's. Externally, such models differ from “adu...lt” ones primarily in the small number of keys (up to 49, often less) and the size of the keys themselves, which is reduced to suit a child’s hand. In addition, the performance characteristics and functionality of children's's synthesizers are also most often more modest: for example, polyphony (see below) rarely exceeds 8 voices, and the overall sound reliability is very low. But the learning opportunities in such instruments, on the contrary, can be very extensive, and in general, children's's synthesizers are considered a good choice for initial training.

Analog synthesizer. Instruments in which sound is generated not through digital processing, but through passing through a real electrical circuit. In a very simplified way, the principle of operation of such an instrument can be described as follows: each key, when pressed, turns on its own sound generator of a certain frequency, which is responsible for the desired note, and with the help of additional settings (oscillators, envelope, filters), the musician gives color to this sound. From the user's point of view, the most noticeable difference between an analog synthesizer is the lack of built-in tones - the musician adjusts all the details of the sound manually. Analog instruments, on the one hand, are more difficult to control, but on the other hand, they allow you to achieve effects that are not available digitally. In addition, the color of the sound itself on analog synthesizers is somewhat different. Historically, instruments of this type appeared earlier than digital ones, but today they are highly specialized solutions, designed mainly for professional performers and used in specific musical areas.

Number of keys

The greater the number of keys — the wider the range of the instrument, the lower and higher notes you can take on it right during the game, without resorting to tricks like octave shift (see below). By comparison, a full size piano keyboard has 88 keys. However, in synthesizers, such an amount is rare, because. the instrument would have turned out to be too bulky and expensive, and not every musician, even a professional one, needs such an extensive range. Thus, 88-key keyboards are used primarily in high-end workstations (see "Type"). For ordinary synthesizers, the standard is 49, 61 or 76 keys ( there are also options for 73 keys) — this is usually quite enough (while the "golden mean" option is considered to be 61 keys). And small children's models can have 32 keys.

Size

The size of the keys of the synthesizer — primarily in width.

Full size. The keys are standard size, the same as on a piano keyboard. Such keyboards are designed for an adult and are used in almost all synthesizers that are not related to children.

— Small size. The keys are reduced in comparison with the standard width (and often also height). Practically not used in "adult" synthesizers, but they are almost mandatory for children's models (see "Type"). On a full-sized keyboard, some features are not available to a child (for example, chords with far notes), and small keys designed for a child's hand can correct the situation.

Mechanics

Type of action used in synthesizer keys.

— Passive. The simplest type of mechanics, when each key is, in fact, a “switch” for its note: it only turns the sound on and off, while the volume of this sound does not depend on the strength and intensity of pressing. Passive keyboards usually have unweighted, less often semi-weighted hardness (see below). Their main and, perhaps, the only advantage is their low cost, due to the simplicity of design. At the same time, the capabilities of such tools are very limited, and even when training, it is recommended to use them only at the very initial stages. As a result, passive mechanics are used exclusively in the simplest low-cost-level synthesizers, which are more suitable for the role of a toy for entertainment, rather than a full-fledged instrument.

— Active. A mechanic that provides a relationship between volume and pressing force: the harder the key is pressed, the louder and sharper the sound will be. Most often combined with semi-weighted, occasionally unweighted hardness (see below). Such keys already make it possible to control the dynamics of each note: select its volume "on the fly", highlight accents, use special techniques, etc. This feature is especially important in training, when you need to train to control the effort on each individual finger. Active mechanics are highly recommended even for an inexpensive synthesizer, and for a mid-range instrument it is almost man...datory, as well as for serious learning. At the same time, many models may provide sensitivity adjustment, or even a complete switch to passive mode (for example, to simulate some instruments).

— Hammerhead. The most advanced kind of mechanics. Like the active one, it provides volume control depending on the force of pressing, but it fundamentally differs in response: hammer action is used only in weighted keyboards (see "Rigidity"), and the feeling when playing it is close to playing on a real piano. The degree of approximation, however, can be different — some models are indistinguishable in sensations from the piano, in others the mechanics are simpler. However, anyway, such features are not cheap, despite the fact that the real need for a "piano" response is extremely rare. As a result, hammer action keyboards are found mainly among top-class instruments, mainly workstations (see "Type") with full-size keyboards for 88 keys.

Rigidity

Unweighted. Keys with a very low pressing force, literally "failing" under the fingers. This option is well suited for inexpensive synthesizers with passive mechanics (see above), but is rarely used in active models — a small resistance force makes it difficult to choose the optimal pressing force.

— Semi- weighted. Medium-strength keys, not up to the hardness of a full-fledged piano, but showing noticeably more resistance than unweighted ones. This variant is most popular among instruments with active mechanics (see above) — the force on the keys provides adequate feedback and at the same time playing such an instrument does not cause any special difficulties even for those who previously dealt only with unweighted keyboards.

Weighted. Keys with high actuation force, comparable to that of a classical piano. Used only in professional hammer action instruments (see above) — high rigidity is a must for such mechanics (more precisely, for the response that it must provide).

Built-in timbres

The number of built-in sounds provided in the synthesizer.

The number of timbres is often described as the number of instruments that a given model can imitate. However, this is not entirely true — rather, this parameter can be called "the number of instruments and sound effects." For example, the same instrument — an electric guitar — with different "gadgets" (distortion, overdrive) will sound differently, and in the synthesizer each such gadget will be considered a separate timbre. The “drums” timbre usually combines different types of drums and other percussion instruments — in other words, it allows you to portray both the “bass drum” and the cymbals without switching settings, just by pressing the desired keys. And some timbres may not have analogues among real instruments at all.

The more built-in timbres, the more extensive the possibilities of the synthesizer, the more diverse the sounds that can be extracted from it. At the same time, in high-end models like workstations (see "Type"), this number can reach 1000 or even more.

Accompaniment styles

The number of auto accompaniment styles (see above) originally provided in the synthesizer, in other words, the number of accompaniment options available to the user.

The more extensive this set, the higher the probability of finding among these melodies suitable options for a particular case. At the same time, the abundance of styles in itself is not yet a 100% guarantee that among them there will be a suitable one, especially since different synthesizer models can differ markedly in a specific set of melodies. So the list does not hurt to clarify before buying. Also note that the situation can be corrected by user styles (see below) — many synthesizers with auto accompaniment support them.

Tempo change

The range in which you can change the tempo of the programme played by the synthesizer — auto accompaniment, lesson tune (see above), metronome (see below), recorded sample, etc.

Pace is measured in beats per minute. Changing it allows you to adjust the speed of the synthesizer to the specifics of the situation — for example, slightly slow down the tutorial if it is too hard to master at the initial pace. The wider the range of tempo adjustment, the more options the musician has to choose from, especially in the area of very slow and very fast tempos.

Note that the traditional range of musical tempos covers values from 40 beats / min (“grave”, “very slowly”) to 208 beats / min (“prestissimo”, “very fast”), however, in synthesizers it can be more extensive — for example, 30 – 255 bpm.

Octave shift

Synthesizer support for octave shift function.

This function allows you to shift the sound of the instrument one or more octaves up or down — for example, so that the keys of the first octave sound the notes of the second, or vice versa. This function can be used for both simple convenience and more practical purposes — it allows you to play very low and very high notes that are not initially covered by the keyboard range. This is especially useful for shortened 49- or 61-key synths that do not initially fit the full range of the piano.
Yamaha PSS-F30 often compared
Casio CT-S100 often compared