Dark mode
United Kingdom
Catalog   /   Sound & Hi-Fi   /   Musical Instruments   /   Pianos & Keyboards   /   Digital Pianos

Comparison Yamaha P-45 vs Yamaha NP-12

Add to comparison
Yamaha P-45
Yamaha NP-12
Yamaha P-45Yamaha NP-12
Compare prices 7
from £324.99 
Outdated Product
TOP sellers
Bodyportableportable
Keys
Number of keys88 шт61 шт
Sizefull sizefull size
Mechanicsmalleusactive
Sensitivity adjustment
Rigidityweightedweighted
Specs
Polyphony64 voices64 voices
Built-in timbres10 шт10 шт
Tempo change32 – 28032 – 280
Metronome
Sequencer (recording)
Built-in compositions
Effects and control
Timbres layering
Keyboard split
Octave shift
Reverberation
Transposition
Fine tuning
Connectors
Connectable pedals1 шт1 шт
Outputs
USB to host (type B)
USB to host (type B)
Headphone outputs1 шт1 шт
General
Built-in acoustics12 W5 W
Number of bands11
Power consumption6 W8 W
Autonomous power supplyaA batteries
Operating hours16 h
Dimensions (WxHxD)1326x154x295 mm1036x105x259 mm
Weight11.5 kg4.5 kg
In box
music stand
PSU
music stand
PSU
Color
Added to E-Catalogjune 2017november 2016

Number of keys

The number of keys provided on the digital piano keyboard.

The immediate range of the instrument depends on the number of keys — that is, the set of notes that can be played on it without resorting to octave transfer or transposition (see below). Most digital pianos have 88 keys, the same number as a regular piano; thus, the ranges in electronic instruments most often match those of real pianos. However, smaller models are also produced — usually 61 or 73 keys (as in most synthesizers). This number of keys is found in two types of digital pianos — in inexpensive entry-level models and in some professional instruments designed mainly for "genre" music (rock, gospel, etc.), and not for classical piano parts.

Mechanics

Type of action used in digital piano keys.

Hammer. A mechanic that mimics the feel of playing a real piano as closely as possible. Hammer action keyboards not only provide velocity and force-dependent sound dynamics, they also provide a distinctive response with each press. These mechanics are complex and expensive, but they are considered the most advanced and suitable for digital pianos, and therefore are used in most models.

Active. In the case of digital pianos, the active keyboard can be described as a simplified version of the hammer action described above. The sound produced when pressing such keys also depends on the force and speed of pressing, however, the keys themselves have less rigidity and do not give the full feel of a piano keyboard. On the other hand, such mechanics are cheaper. As a result, it is found mainly in low-cost models, as well as some professional instruments, positioned more like electric organs.

The third type of mechanics — passive — assumes that each time you press a key, the volume will be the same, regardless of the strength and speed of pressing. Such keyboards are not used in digital pianos — they are too primitive and not very functional for this class of instruments; however, models with adjustable sensitivity may provide switching the keyboard to a "passive" format (see below for more details).

Sequencer (recording)

The presence of a sequencer in the design of a digital piano.

This function allows you not only to play music on the instrument, but also to record it with the possibility of later playback. However, this is at least; in addition to recording the parts of the instrument itself, the sequencer can provide recording an audio or MIDI signal from the corresponding input, mixing several parts (including recording the music being played over the music being played “on the go”), working with the parameters of individual tracks (volume, tone, timbre), as well as specific functions such as quantization (smoothing uneven tempo). The specific functionality of the sequencer may be different, it's ok to check it before buying. However, anyway, this function can be a good help for the musician; it is especially useful for those who are not limited to the performance of ready-made music and want to compose their own compositions.

Keyboard split

Possibility of dividing the keyboard into two parts so that the parts of the left and right hands are played in different timbres. This allows you to simultaneously play two disparate parts on the instrument — for example, accompany a piano melody with chords from a string orchestra or organ sounds. Specific combinations of timbres are most often pre-recorded in memory, however, there are models in which the musician himself can choose timbres for each part of the keyboard.

Octave shift

The presence of an octave shift function in the digital piano.

This function makes it possible to "shift" the sound by a certain number of octaves up or down — for example, in such a way that the bass register sounds on the keys of the first octave, or vice versa, the first octave "slid" lower, into the bass, and notes of the second sounded in its place or even the third octave.

This feature significantly expands the range of the instrument, allowing you to play notes that were not originally covered by the keyboard. This is especially important for instruments with 61 or 73 keys (see "Number of Keys"), but octave shifting is not uncommon in full-sized 88-key models — it can be useful when splitting the keyboard (see above), when available for each hand the range is noticeably reduced, and the batch can be very low or very high. However, there are other options for using transfer — for example, so that when playing an updated version of the melody, you do not have to move from the usual octaves.

Built-in acoustics

The power of the native acoustics installed in the Digital Piano.

This indicator directly affects the maximum volume that the instrument is able to produce "on its own", without connecting external speakers. At the same time, it is worth noting that many manufacturers go to the trick and indicate in the characteristics not the rated power (rms power when operating at full volume), but the peak power, which is the highest power that the acoustics can deliver at short “ups” of volume. Peak power values can be quite impressive — in the tens and hundreds of watts — but these figures have a very indirect relation to the actual capabilities of the speakers. Therefore, before choosing, it is worth clarifying what kind of power is mentioned in the characteristics. To do this, it is not necessary to look for detailed data on the instrument, it is enough to compare the power of the speakers with the power consumption (see below): if the claimed power of the acoustics is greater than the power consumption of the entire instrument, then the manufacturer indicated exactly the peak value.

Power consumption

The power consumed by the tool during normal operation.

The cost of electricity, as well as connection requirements, depend on this indicator. At the same time, we note that digital pianos require relatively little energy — even in the most powerful and advanced models, consumption usually does not exceed 60 watts. So in fact, power consumption data is required mainly for specific cases — for example, to calculate the total load when connecting a tool to an autonomous generator along with other devices. In addition, this information may be useful when assessing the power of the built-in speaker, for more information, see "Built-in acoustics".

Autonomous power supply

The type of battery power provided by the Digital Piano.

Such power, as the name suggests, allows the tool to work without being plugged into an outlet; it can be useful both in the complete absence of sockets nearby, and in the event that it is difficult to connect to them or the presence of extra wires is undesirable. The operating time from an independent source, however, turns out to be limited, but it is usually quite enough for at least several compositions, and even for several performances (for more details, see "Working time").

However, the specificity of digital pianos is such that even portable models (see “Cabinet”) rarely have to be used in the absence of sockets. Therefore, there are few self-powered models among such tools. As a source, standard AA (“finger”) batteries are most often used — this is the most popular type of replaceable cells, available for sale almost everywhere where batteries are sold at all.

Operating hours

Operating time of the tool from an independent power source (see above). It is worth noting that most manufacturers indicate the maximum time: at a relatively low volume, minimal use of additional functions (or at all, provided that they are not included), etc. Also, keep in mind that most digital pianos use self- powered batteries such as AA batteries, and these batteries can vary in capacity and overall quality. However, in general, this indicator makes it possible to assess the battery life of the tool.
Yamaha P-45 often compared
Yamaha NP-12 often compared