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Comparison Casio CTK-3500 vs Casio CTK-2400

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Casio CTK-3500
Casio CTK-2400
Casio CTK-3500Casio CTK-2400
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Typesynthesizer (rompler)synthesizer (rompler)
Keys
Number of keys6161
Sizefull sizefull size
Mechanicsactivepassive
Rigidityunweightedunweighted
Specs
Polyphony48 voices48 voices
Built-in timbres400 шт400 шт
Auto accompaniment
Accompaniment styles100 шт150 шт
Learning mode
Tempo change20 – 25530 – 255
Metronome
Sampling
Built-in compositions
Effects and control
Timbres layering
Keyboard split
Reverberation
 /10/
Transposition
Fine tuning
Connectors
Inputs
mini-Jack (3.5 mm)
mini-Jack (3.5 mm)
Connectable pedals1 шт1 шт
Outputs
USB to host (type B)
headphones /combined with linear/
USB to host (type B)
headphones
Linear outputs1
In box
In box
music stand
PSU /may not be supplied/
music stand
PSU /may not be supplied/
General
Built-in acoustics4 W4 W
Number of bands11
Displaymonochromemonochrome
Power consumption9.5 W5 W
Autonomous power supply
aA batteries /6 pcs/
aA batteries /6 pcs/
Operating hours12 h6 h
Dimensions (WxHxD)946x92x307 mm946x92x307 mm
Weight3.4 kg3.4 kg
Color
Added to E-Catalogaugust 2017october 2016

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.

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.

Sampling

Synthesizer support for sampling.

Samples are short sound fragments used in the creation of musical compositions. Such a fragment can contain almost any sound — from a note on a musical instrument or a fragment of a drum part to a siren signal, a bird's chirp, the sound of a mechanism, etc. Specifically, the sampling function implies the ability to use the synthesizer to record samples for further use. Recording can be done either through the built-in microphone or through the audio input (from an external microphone or other audio device). At the same time, many synthesizers with this function are able not only to keep the sound not only "as is", but also to pass the incoming signal through the processing circuits, adding various effects to it — echo, "wah-wah", metallic sound coloring, etc. And ready-made samples can usually be "bound" to individual synthesizer keys and played back in real time. Other functions are possible, depending on the level of the instrument.

Fine tuning

The ability to fine-tune the synthesizer by sound frequencies. Often, such models also indicate the range in which such adjustment can be carried out.

The standard tuning, which is used by default in all synthesizers, is designated as “440 Hz” — this is the frequency of the “la” note of the first octave, as well as the standard frequency of the tuning fork, all other notes are tuned to it. With fine tuning, the musician can set a different base frequency, raising or lowering the overall tone of the synthesizer. At the same time, unlike the transposition described above, in this case the frequency does not change in steps (by tones-semitones), but smoothly, with an accuracy of a hertz or even a tenth of a hertz. Such an opportunity can be useful in some non-standard situations — for example, if you have to accompany a guitarist whose instrument is tuned slightly higher or lower than the standard, and for one reason or another it is impossible to change the guitar's tuning.

Linear outputs

The number of line outputs provided in the design of the synthesizer.

The line output is used to transmit the sound produced by the synthesizer to external devices. At the same time, unlike the MIDI output, a “ready” sound is transmitted through such a connector — an analogue line-level audio signal that can be connected to another audio device — for example, to a power amplifier or active speakers for playback, to a computer or mixing console for recording, etc. Keep in mind that the line outputs can use different types of connectors — for example, 3.5 mm mini-Jack or 6.35 mm Jack; Specifically, these connectors are described in more detail in the “Inputs” section, but the matter is not limited to them.

Multiple analogue inputs make it possible to connect the synthesizer to several external audio devices at the same time — for example, to an amplifier for playback and a recorder for recording.

Power consumption

Rated power consumed by the tool during operation. Modern synthesizers, even the most powerful and advanced ones like workstations (see "Type"), consume very little energy — up to 100 W, and often noticeably less. Therefore, it is rarely necessary to pay attention to this parameter in fact, mainly in rather specific situations — for example, when working from an autonomous generator, when you need to take into account the entire load connected to such a power supply.

Operating hours

Synthesizer operating time from autonomous power supply (see above) without replacing or recharging batteries. This parameter is quite approximate, because. Actual power consumption of the instrument may vary depending on the length of the songs, the duration of the breaks in the game, the volume of the built-in speakers, the additional functions used, and other factors. In addition, the capacity of replaceable batteries can also be different, depending on the brand. However, the run time listed in the specifications gives some idea of the synthesizer's capabilities and how many sets of batteries may be needed for long-term autonomous use.
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