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Comparison Jackson JS Series Spectra Bass JS2 vs Cort Action Plus

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Jackson JS Series Spectra Bass JS2
Cort Action Plus
Jackson JS Series Spectra Bass JS2Cort Action Plus
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Typebas-guitarbas-guitar
Number of strings44
Pickupspassivepassive
Pickup diagramJ-PJ-P
Tone block
Typeactive / passiveactive
Volume controls11
Tone controls12
Pickup switchbalance regulatorbalance regulator
Body
Typemonolithmonolith
Size4/44/4
ShapePrecision BassJazz Bass
Cutawaydoubledouble
Materialpoplaragathis
Bridgefixed
fixed /EB6(4)/
Neck
Mount typeboltedbolted
Number of frets2424
Neck profilemodern C
Nut width38.1 mm
Fretboard radius12 "15.75 "
Anchorsinglesingle
Scale34 "34 "
Pegsclosedclosed
Neck materialmaplemaple
Fretboardlaurelrosewood
Color
Added to E-Catalognovember 2019september 2016

Type

The type of tone block used in the construction of an electric guitar.

A timbre block is an “intermediary” between a pickup and a guitar output: a set of electronic circuits that provides signal transmission, and often also its processing (volume control, frequency correction, preamplification, etc.). In modern electric guitars, there are such types of tone blocks:

— Passive. Passive are called timbre blocks that do not require additional power sources during operation. Usually, such modules have the simplest design and functionality, adjustments are limited to changing the volume, as well as passively correcting frequencies (by “cutting off” the desired frequencies). At the same time, passive tone blocks are simple, compact, inexpensive and do not depend on batteries; and the necessary adjustments can be made on external equipment (anyway, the electric guitar will need to be connected to it). As a result, most modern instruments are equipped with this particular type of tone blocks.

Active. The key difference between a passive tone block is that it needs its own power source to work. Most often, this role is played by a PP3-type battery installed in a special socket in the body of an electric guitar. The need for power is due to the abundance of additional functions: active tone blocks are able to amplify the signal coming from the pickups, suppress interference, and even match the output impedance of the inst...rument with the input of the amplifier. Yes, and the active method of tone control is more advanced than the passive one, it allows you to more accurately adjust the frequency ratio. On the other hand, active modules are noticeably more expensive, and without a battery, the tone block turns into a set of useless parts. However, such devices consume relatively little energy, and one battery lasts for quite a long time.

— Active/passive. Tone blocks that combine the capabilities of the two options described above. If there is power, such a module operates in active mode, and if there is no power, it turns into passive. Thus, the musician can enjoy all the advantages of the active tone block and at the same time not worry that the instrument will become completely useless due to a dead battery (although, of course, the tone block functionality is not so extensive in the passive mode). At the same time, combined modules are quite complex and expensive, and the real need for such versatility is rare. Therefore, this option has not received much distribution.

Tone controls

The number of tone controls provided in the design of an electric guitar.

One tone control is responsible for the sound of the electric guitar as a whole; but if there are several such pens, they can have different formats of work. So, each knob can be responsible either for its own pickup, or for a separate frequency band. In the second case, a set of knobs plays the role of an equalizer that allows you to adjust the sound by changing the volume of low and high (sometimes even separately middle) frequencies.

Anyway, the presence of several tone controls expands the possibilities for changing the coloring of the sound by means of the guitar itself, without the use of additional equipment.

Shape

The general shape of the body of an electric guitar.

The solid body of an electric guitar can be molded into almost any shape; hollow cases do not give such freedom, however, even among them, the options in shape can be very diverse. However, there are certain standard forms. It is not uncommon for these shapes to be named after a particular "legendary" guitar model, such as the "Les Paul" or "Stratocaster" (after Gibson and Fender instruments of the same name, respectively). It makes no sense to describe each standard form — it's easier to find an illustration in our catalog or on the Internet.

The main, and often the only point, which is affected by the shape of the body is the appearance of the guitar. Also, convenience for the musician to some extent depends on this parameter — for example, some models allow you to play while sitting, resting the instrument on your foot, for others this method is weak or not suitable at all. But whether the shape of the body affects the sound of an electric guitar is a moot point. There is an unequivocal dependence only in semi-acoustic models, but for solid bodies there is no clear answer to this question: some musicians claim the superiority of some forms over others, but this moment is largely subjective. In addition, other parameters (types and number of pickups, bridge design, etc.) greatly affect the sound quality.

Now on the market there are guitars with this body shape: Les Paul, Superstrat, Stratocaster, Jazz Bass, Precision Bass, Telecaster, PRS Santana, Flying V, SG, however, there are also completely non-standard options.

Material

The material from which the body of an electric guitar is made. For models with cutouts (semi-acoustic, see "Type"), in this case, only the material of the back deck and sides can be taken into account, and data on the top deck is given separately (for more details, see "Deck Cover Material").

Now on the market there are cases of such trees: red, maple, agatis, ash, alder.

It makes no sense to dwell on each of the materials found in modern electric guitars. Their variety is very large, however, unlike acoustic guitars, the body in this case does not play such a significant role in shaping the sound, and its material has a relatively small effect on the acoustic properties of the instrument (although the exact degree of such influence is a moot point). If you wish, you can find detailed data on a particular material in special sources, but in fact it makes sense to look primarily at the appearance of the instrument and its price category.

Neck profile

Profile of a fretboard mounted on an electric guitar.

The profile of the neck is called its shape in section, more precisely, the shape of the back of the neck. This parameter practically does not affect the sound of the guitar, but it directly affects the convenience of playing. Ideally, the neck should “fill” the hand, but not be too large — otherwise it will not be possible to clasp it to the right extent.

Profiles are denoted by the letters C, D, V and U — depending on which letter the neck resembles in the section. Profile D is the flattest, C is slightly more convex, with almost uniform curvature along the entire length, U is more voluminous, with a wider profile in the area of the lining, and the V profile in its classic form has the form of an angle with a rounded top. There are also modifications of these options — for example, "thin", which provides for a reduced profile thickness, or "modern", with slightly improved (theoretically) ergonomics.

The most popular profile types are C, U and their "modern" (modern) modifications. The C profile is almost semi-circular, the U profile is more voluminous, at the fingerboard its edges are almost parallel and only closer to the back of the neck are sharply rounded. The terms modern C and modern U refer to various improved versions of these profiles, their f...orm may be different.

In fact, the choice of neck profile depends solely on the guitarist's personal preferences, the characteristics of his hands and his preferred playing technique. Thus, there is no "perfect" profile shape — in each case, the optimal choice will be different. The perfect option is to try several types of profile "live", decide which one will be more convenient, and choose an instrument with a neck of the same or similar profile shape.

Nut width

The width of the fretboard of an electric guitar at the nut. Closer to the body, the neck may expand somewhat, but this is not necessary, and the expansion angle may be different. Therefore, the main size is considered to be the width in the region of the nut.

This parameter has two meanings. On the one hand, a wide neck is inconvenient for musicians with small hands and short fingers — it can be difficult to reach the far strings in such cases. On the other hand, a larger width means a greater distance between the individual strings, which reduces the likelihood of hitting an adjacent string when pressed incorrectly and can make playing easier (especially if the guitarist has large fat fingers). However, these moments are not absolute, and the convenience of playing is a very subjective matter, depending on many features of the musician and the technique he uses. Also, don't forget that necks can have different profiles (see above), and instruments with different neck profiles will feel differently in the hands even with the same width at the nut. Therefore, the most reliable method of selection is to try out the necks of different sizes and profiles “live”, decide on the best option and choose based on this.

The smallest neck width at the nut in modern electric guitars is about 39 mm. This size is found mainly in bass guitars (see “Type”), which have 4 strings and a neck that widens noticeably towards the body (due to which it can be made rather narr...ow from above, especially since when playing bass, notes are rarely clamped near the neck itself) . Electric guitars (including semi-acoustic) are somewhat wider — from 41 mm, an indicator of 43 – 48 mm is considered average, and in the largest instruments, the neck can be up to 55 mm wide (however, such dimensions are typical mainly for instruments with more than 6 strings) .

Fretboard radius

The radius of curvature of a fretboard mounted on the fretboard of an electric guitar.

The fingerboard is located directly under the strings, it is to it that the musician presses the strings when playing. If you look at the neck in cross section, its upper part with the overlay will have the shape of an arc; the radius of this arc is implied in this case. The smaller the radius, the more convex this arc will be, and vice versa, a large radius will correspond to an almost flat surface.

In general, it is believed that a smaller fingerboard radius is better for playing chords, and a more even, flat surface makes it easier to play technical passages with an abundance of special techniques such as bands. The average and, one might say, classic diameter value is 12", this is the most popular option among modern electric guitars. The smallest figure is just over 7", it is found in some guitars with Stratocaster bodies (both original Fender instruments and copies ). And the most flat pads have a diameter of 20" or more.

Note that there are often instruments with a variable fretboard radius — smaller at the headstock (where chords are played more often) and larger near the body (where solos are played by notes). In such cases, the radius at the nut is indicated.

Fretboard

The material from which the fretboard of an electric guitar is made.

The fretboard is placed under the strings, where the strings are pressed when played. The need to use overlays is due to the fact that the types of wood from which the fingerboard itself is made are often not hard enough, and dents could occur on their surface from constant contact with the strings. Accordingly, the overlays are made of a harder material that retains the shape of the surface even after repeated pressing of the strings. As such a material, both special types of wood ( ebony, rosewood) and high-quality phenolic polymers can be used.

In general, the quality of the fingerboard is usually quite consistent with the price category of the instrument, but it hardly makes sense to dwell on the detailed characteristics of each material (they are not so critical for the normal use of an electric guitar). We only note that the material of the overlay directly affects the appearance of the instrument.
Jackson JS Series Spectra Bass JS2 often compared
Cort Action Plus often compared