Comparison Yamaha HS-5 vs Yamaha NS-333
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|---|---|---|
| Yamaha HS-5 | Yamaha NS-333 | |
| Compare prices 21 | Compare prices 1 | |
| User reviews | ||
| TOP sellers | ||
| Features | monitor | homemade |
| Near field monitoring | ||
| Mount | shelf | shelf |
Specs | ||
| Type | active | passive |
| Number of channels | 1.0 | 2.0 system |
| Number of speakers | 2 | 2 |
| Number of bands | 2 | 2 |
| Sensitivity | 87 dB | |
| Impedance | 6 Ohm | |
| Crossover frequency | 2 kHz | 3 kHz |
Power / frequency | ||
| Front | 60 W/channel | |
| Maximum amplifier power | 150 W | |
| Total rated power | 70 W | 120 W |
| Overall frequency range | 74 — 24000 Hz | 60 – 35000 Hz |
Design | ||
| Design features | phase inverter back treble adjustment bass control | magnetic shielding phase inverter back horn design Bi-Amping/Bi-Wiring |
Connectors | ||
| Inputs | Jack (6.35 mm) and XLR | |
General | ||
| Tweeter size | 25 mm | 25 mm |
| Woofer size (LF/MF) | 127 mm | 130 mm |
| Finishing material | MDF | MDF |
| Front speaker dimensions (HxWxD) | 29x17x22 cm | 32x20x21 cm |
| Weight | 5.5 kg | 11 kg |
| Color | ||
| Added to E-Catalog | july 2014 | december 2007 |
Compare Yamaha HS-5 and NS-333
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Glossary
Features
General specialization of the speaker system.
These days, by this criterion, we distinguish home, concert, monitor, public address, outdoor, and cinema systems, as well as solutions for expanding existing AS. At the same time, the intended use isn’t a hard rule—many models also allow nonstandard use cases. However, it’s still simpler and more convenient to choose a speaker according to the application it was originally designed for. The specific features of speakers for different purposes are as follows:
— Home. A type of AS intended, as the name suggests, for individual use at home. Note that the specs of such models can vary widely—from the simplest bookshelf speakers to powerful multi-way speakers designed for home theaters and high-quality audio systems.
— Concert. A distinguishing exterior feature of AS intended for concerts is their large size and high nominal power (in some models it exceeds 1 kW). The latter is indispensable for vast spaces—halls, stadiums, etc.—where the sound also has to overpower the audience’s reaction (sometimes quite loud). Buying such speakers for home use makes no sense—not only due to the high price, but also because instead of high-level inputs (as in home AS) these systems have a connector for specialized equi...pment, musical instruments, etc. Most often concert speakers are sold in a 1.0 configuration (see “Number of channels”) so that sound engineers can assemble the required speaker setup from a specific number of components.
— Monitor. The primary purpose of monitor speakers is sound quality control; accordingly, all such models offer extremely high accuracy in reproducing every detail, a flat FR, and virtually no distortion. This makes them indispensable for professional use (for example, in recording studios): a monitor speaker will let you pinpoint all flaws in the input signal, including amplifier noise, editing inaccuracies, etc. Like concert models (see above), these systems are usually equipped with specialized inputs; however, using monitors for home listening makes little sense for another reason as well: all sound imperfections that go unnoticed on regular speakers will show up—and can noticeably spoil the impression. And the price of such models is quite high.
—
— Outdoor. Speaker systems designed for installation outside. They can be used, for example, to provide sound for parties at a country house or outdoors, to play music on café summer terraces, etc. All models of this type necessarily have a moisture-resistant, corrosion-resistant enclosure (see “Water resistance”) for adverse weather; in addition, they are usually protected against UV exposure. Outdoor speakers can be mounted in different ways (see above), but suspended options are the most common.
— Cinema. Models intended, as the name suggests, for use in movie theaters—primarily not in “home-size” rooms for 6–10 viewers, but in large entertainment complexes with dozens or hundreds of seats. Cinema speakers have the following common traits. First, they are all passive, intended to be connected to specialized amplifiers; accordingly, high-voltage inputs in the form of binding posts or Euroblock sockets are used. Second, the power of such devices is quite high—100 W and above. Third, cinema speakers are usually produced in a 1.0 format (see “Number of channels”)—in other words, such models are not complete speaker systems, but individual components used to assemble a specific multichannel AS. This format makes it possible to select speakers as precisely as possible for a specific auditorium. By installation type, cinema speakers are usually floorstanding, in-wall, or wall-mounted. The latter are most often designed for installation on side walls, while the first two go behind the screen. Floorstanding versions can in fact consist of two parts—a classic low-frequency cabinet and a horn for MF and HF.
— Speaker system expansion. A specific type of speaker not intended for standalone use and used as an add-on to traditionally designed speakers. Such models are mainly used in multichannel surround systems—to extend the soundstage vertically; they have a distinctive look: relatively compact size, a slanted top panel, and a driver built into that panel. This way, the drivers aim the sound upward—so that, after reflecting off the ceiling, it reaches the listener and creates the impression that the sound source is above. Using “expansion” speakers lets you avoid specialized ceiling speakers. This is especially convenient given that ceiling speakers are usually in-wall/in-ceiling and fairly complex to install, whereas expansion modules often allow installation directly on top of the main AS components. Also note that this type of speaker may be originally designed for specific main speaker models; it’s worth confirming this before purchase.
These days, by this criterion, we distinguish home, concert, monitor, public address, outdoor, and cinema systems, as well as solutions for expanding existing AS. At the same time, the intended use isn’t a hard rule—many models also allow nonstandard use cases. However, it’s still simpler and more convenient to choose a speaker according to the application it was originally designed for. The specific features of speakers for different purposes are as follows:
— Home. A type of AS intended, as the name suggests, for individual use at home. Note that the specs of such models can vary widely—from the simplest bookshelf speakers to powerful multi-way speakers designed for home theaters and high-quality audio systems.
— Concert. A distinguishing exterior feature of AS intended for concerts is their large size and high nominal power (in some models it exceeds 1 kW). The latter is indispensable for vast spaces—halls, stadiums, etc.—where the sound also has to overpower the audience’s reaction (sometimes quite loud). Buying such speakers for home use makes no sense—not only due to the high price, but also because instead of high-level inputs (as in home AS) these systems have a connector for specialized equi...pment, musical instruments, etc. Most often concert speakers are sold in a 1.0 configuration (see “Number of channels”) so that sound engineers can assemble the required speaker setup from a specific number of components.
— Monitor. The primary purpose of monitor speakers is sound quality control; accordingly, all such models offer extremely high accuracy in reproducing every detail, a flat FR, and virtually no distortion. This makes them indispensable for professional use (for example, in recording studios): a monitor speaker will let you pinpoint all flaws in the input signal, including amplifier noise, editing inaccuracies, etc. Like concert models (see above), these systems are usually equipped with specialized inputs; however, using monitors for home listening makes little sense for another reason as well: all sound imperfections that go unnoticed on regular speakers will show up—and can noticeably spoil the impression. And the price of such models is quite high.
—
— Outdoor. Speaker systems designed for installation outside. They can be used, for example, to provide sound for parties at a country house or outdoors, to play music on café summer terraces, etc. All models of this type necessarily have a moisture-resistant, corrosion-resistant enclosure (see “Water resistance”) for adverse weather; in addition, they are usually protected against UV exposure. Outdoor speakers can be mounted in different ways (see above), but suspended options are the most common.
— Cinema. Models intended, as the name suggests, for use in movie theaters—primarily not in “home-size” rooms for 6–10 viewers, but in large entertainment complexes with dozens or hundreds of seats. Cinema speakers have the following common traits. First, they are all passive, intended to be connected to specialized amplifiers; accordingly, high-voltage inputs in the form of binding posts or Euroblock sockets are used. Second, the power of such devices is quite high—100 W and above. Third, cinema speakers are usually produced in a 1.0 format (see “Number of channels”)—in other words, such models are not complete speaker systems, but individual components used to assemble a specific multichannel AS. This format makes it possible to select speakers as precisely as possible for a specific auditorium. By installation type, cinema speakers are usually floorstanding, in-wall, or wall-mounted. The latter are most often designed for installation on side walls, while the first two go behind the screen. Floorstanding versions can in fact consist of two parts—a classic low-frequency cabinet and a horn for MF and HF.
— Speaker system expansion. A specific type of speaker not intended for standalone use and used as an add-on to traditionally designed speakers. Such models are mainly used in multichannel surround systems—to extend the soundstage vertically; they have a distinctive look: relatively compact size, a slanted top panel, and a driver built into that panel. This way, the drivers aim the sound upward—so that, after reflecting off the ceiling, it reaches the listener and creates the impression that the sound source is above. Using “expansion” speakers lets you avoid specialized ceiling speakers. This is especially convenient given that ceiling speakers are usually in-wall/in-ceiling and fairly complex to install, whereas expansion modules often allow installation directly on top of the main AS components. Also note that this type of speaker may be originally designed for specific main speaker models; it’s worth confirming this before purchase.
Near field monitoring
Possibility of using an acoustic system for monitoring the near field. Monitoring is called sound quality control - for example, during recording in a studio; for this, columns of the corresponding purpose are used (see above). The term "near field" means that acoustics are designed for use at a short distance - up to 1.5 m from the listener; such speakers have a relatively low power and are best suited for small rooms (as well as other conditions where there is no extensive space or it is not required) - in particular, amateur and even home studios.
Type
— Active. Acoustic systems equipped with their own built-in power amplifier. A line-level signal (from the preamp) is sufficient for these speakers, making them extremely easy to use. On the other hand, the built-in amplifier requires power, so these speakers have to be plugged into an outlet as well.
— Passive. Speaker systems that do not have a built-in power amplifier. Accordingly, you need to connect such speakers to an external amplifier (or a device that has such an amplifier — for example, an audio receiver), while paying special attention to component compatibility. On the other hand, passive acoustics are considered more suitable for creating high-end audio systems than active ones: it allows you to choose a power amplifier of your choice, moreover, there are no “extra” electronics in the speaker cabinet, which reduces the likelihood of interference.
— Passive / active. Acoustic systems combining passive main speakers with an active subwoofer. For a number of technical reasons, active subwoofers are more convenient than passive ones: in particular, they save the user from having to look for a specialized low-frequency amplifier, and they provide more tuning options (the latter can be useful for “fitting” sound into a particular room). Therefore, many manufacturers produce passive-active kits.
— Passive. Speaker systems that do not have a built-in power amplifier. Accordingly, you need to connect such speakers to an external amplifier (or a device that has such an amplifier — for example, an audio receiver), while paying special attention to component compatibility. On the other hand, passive acoustics are considered more suitable for creating high-end audio systems than active ones: it allows you to choose a power amplifier of your choice, moreover, there are no “extra” electronics in the speaker cabinet, which reduces the likelihood of interference.
— Passive / active. Acoustic systems combining passive main speakers with an active subwoofer. For a number of technical reasons, active subwoofers are more convenient than passive ones: in particular, they save the user from having to look for a specialized low-frequency amplifier, and they provide more tuning options (the latter can be useful for “fitting” sound into a particular room). Therefore, many manufacturers produce passive-active kits.
Number of channels
— 1.0. Single-channel(monophonic) audio system. "Alone" such speakers do not provide a sense of surround sound, but can be used as separate components for multi-channel surround sound systems.
— 2.0. Normal stereo sound: two speakers responsible for the left and right channels. Allows you to create a minimal illusion of "surround" sound by simulating the displacement of the sound source in the space in front of the listener.
— 2.1. A dual speaker system that creates a minimal illusion of "surround" sound, and a subwoofer that delivers powerful and rich sound by adding bass and ultra-low frequencies.
— 3.0. System of three speakers(centre and two front). According to some manufacturers, such systems in small rooms are capable, with some tricks, of reproducing full surround sound without rear speakers.
— 5.0. A set of five speakers(two front, centre and two rear), which allows you to reproduce a full surround sound, which is subjectively perceived by the listener not only in front, but also behind him.
— 5.1. A set of five speakers and a subwoofer for low and ultra-low frequencies, allowing you to reproduce a full surround sound, which is subjectively perceived by the listener not only in front, but also behind him. 5.1 systems ar...e one of the most popular multi-channel audio formats, widely used, in particular, in home theaters.
There are also much rarer options due to narrow needs:
— 1.1. Systems in the form of a subwoofer, on which a general range speaker is installed on top. They are found mainly in concert acoustics — it is convenient to assemble systems for powerful and rich sound from such components.
— 2.2. Further development of the idea embodied in systems 1.1 (see above); in fact, these are sets of two identical speakers of 1.1 format. Such sets are produced from the considerations that for concerts, especially in relatively small rooms, it is often enough just a pair of 1.1 speakers; it is more convenient and often cheaper to buy two such speakers at once than to buy them one at a time.
— 3.1. A system of three speakers (centre and two front), as well as a subwoofer for bass and ultra-low frequencies. It is a "stripped down" version of the 5.1 system; according to some manufacturers, such systems are capable of reproducing full surround sound in the absence of rear speakers, due to which they are perfect for installation in small rooms where it is not possible to place full-fledged 5.1 acoustics.
— 4.0. A variation of 4.1 systems (see below), devoid of a subwoofer, otherwise completely similar.
— 4.1. Simplified version of 5.1 format (see above); such systems usually lack either a centre or one of the rear channels. Anyway, other things being equal, they are cheaper than full-length 5.1, but their sound quality is significantly lower.
— 4.2. This category includes mainly concert acoustics (see "Intended use"), which is an extended version of the 2.2 described above. In 4.2 systems, not one, but two total range speakers are installed above each subwoofer. Thus, you can achieve better and richer sound.
— 5.2. A variation of the 5.1 described above, supplemented by a second subwoofer — this has a positive effect on the quality and accuracy of bass reproduction. On the other hand, setting up such systems is somewhat more complicated.
— 6.1. Extended version of 5.1 format: two front speakers, a centre speaker, three rear speakers (left, right and centre) and a subwoofer for bass and extra bass. It is characterized by a more accurate transmission of surround sound in the rear sector, but is quite rare.
— 7.0. Extended version of multi-channel audio with five main channels (eg 5.1). In this case, the five main channels are supplemented with two more, which allows to achieve a more voluminous and reliable sound. Most often, additional channels are located at the back ("rear right" and "rear left"), but depending on the specific sound format, other installation options are possible — for example, on the sides of the user.
— 8.1. Systems providing 8 main sound channels plus 1 low frequency. The specific distribution of the main channels may be different, depending on the model. However, all 8.1 systems differ, on the one hand, in good reliability of surround sound, on the other hand, in high cost and complexity in setting up.
— 2.0. Normal stereo sound: two speakers responsible for the left and right channels. Allows you to create a minimal illusion of "surround" sound by simulating the displacement of the sound source in the space in front of the listener.
— 2.1. A dual speaker system that creates a minimal illusion of "surround" sound, and a subwoofer that delivers powerful and rich sound by adding bass and ultra-low frequencies.
— 3.0. System of three speakers(centre and two front). According to some manufacturers, such systems in small rooms are capable, with some tricks, of reproducing full surround sound without rear speakers.
— 5.0. A set of five speakers(two front, centre and two rear), which allows you to reproduce a full surround sound, which is subjectively perceived by the listener not only in front, but also behind him.
— 5.1. A set of five speakers and a subwoofer for low and ultra-low frequencies, allowing you to reproduce a full surround sound, which is subjectively perceived by the listener not only in front, but also behind him. 5.1 systems ar...e one of the most popular multi-channel audio formats, widely used, in particular, in home theaters.
There are also much rarer options due to narrow needs:
— 1.1. Systems in the form of a subwoofer, on which a general range speaker is installed on top. They are found mainly in concert acoustics — it is convenient to assemble systems for powerful and rich sound from such components.
— 2.2. Further development of the idea embodied in systems 1.1 (see above); in fact, these are sets of two identical speakers of 1.1 format. Such sets are produced from the considerations that for concerts, especially in relatively small rooms, it is often enough just a pair of 1.1 speakers; it is more convenient and often cheaper to buy two such speakers at once than to buy them one at a time.
— 3.1. A system of three speakers (centre and two front), as well as a subwoofer for bass and ultra-low frequencies. It is a "stripped down" version of the 5.1 system; according to some manufacturers, such systems are capable of reproducing full surround sound in the absence of rear speakers, due to which they are perfect for installation in small rooms where it is not possible to place full-fledged 5.1 acoustics.
— 4.0. A variation of 4.1 systems (see below), devoid of a subwoofer, otherwise completely similar.
— 4.1. Simplified version of 5.1 format (see above); such systems usually lack either a centre or one of the rear channels. Anyway, other things being equal, they are cheaper than full-length 5.1, but their sound quality is significantly lower.
— 4.2. This category includes mainly concert acoustics (see "Intended use"), which is an extended version of the 2.2 described above. In 4.2 systems, not one, but two total range speakers are installed above each subwoofer. Thus, you can achieve better and richer sound.
— 5.2. A variation of the 5.1 described above, supplemented by a second subwoofer — this has a positive effect on the quality and accuracy of bass reproduction. On the other hand, setting up such systems is somewhat more complicated.
— 6.1. Extended version of 5.1 format: two front speakers, a centre speaker, three rear speakers (left, right and centre) and a subwoofer for bass and extra bass. It is characterized by a more accurate transmission of surround sound in the rear sector, but is quite rare.
— 7.0. Extended version of multi-channel audio with five main channels (eg 5.1). In this case, the five main channels are supplemented with two more, which allows to achieve a more voluminous and reliable sound. Most often, additional channels are located at the back ("rear right" and "rear left"), but depending on the specific sound format, other installation options are possible — for example, on the sides of the user.
— 8.1. Systems providing 8 main sound channels plus 1 low frequency. The specific distribution of the main channels may be different, depending on the model. However, all 8.1 systems differ, on the one hand, in good reliability of surround sound, on the other hand, in high cost and complexity in setting up.
Sensitivity
Speaker sensitivity.
This characteristic is indicated on the basis of how loud the acoustics are capable of producing when a signal of a certain standard power is applied to it. Simply put, the higher the sensitivity of the speaker, the louder it will sound at the same output power of the amplifier. Thus, sensitive acoustics can be effectively used even in combination with relatively low-power "amplifiers". On the other hand, low sensitivity also has its advantages: it allows you to achieve a more uniform frequency response and reduces the likelihood of overloading the amplifier. In the least sensitive modern speakers, this indicator does not exceed 84 dB, in the most sensitive it is 95 – 96 dB or more.
Note that in fact, you have to pay attention to this parameter when acoustics are planned to be used with a separately selected power amplifier. Therefore, for active systems (see "Type"), sensitivity is purely a reference value, and, usually, it can be ignored when choosing.
This characteristic is indicated on the basis of how loud the acoustics are capable of producing when a signal of a certain standard power is applied to it. Simply put, the higher the sensitivity of the speaker, the louder it will sound at the same output power of the amplifier. Thus, sensitive acoustics can be effectively used even in combination with relatively low-power "amplifiers". On the other hand, low sensitivity also has its advantages: it allows you to achieve a more uniform frequency response and reduces the likelihood of overloading the amplifier. In the least sensitive modern speakers, this indicator does not exceed 84 dB, in the most sensitive it is 95 – 96 dB or more.
Note that in fact, you have to pay attention to this parameter when acoustics are planned to be used with a separately selected power amplifier. Therefore, for active systems (see "Type"), sensitivity is purely a reference value, and, usually, it can be ignored when choosing.
Impedance
Impedance is the nominal electrical impedance of a speaker system. Nowadays, a set of standard impedance values are used; the most widely used speakers are 4 ohms, 6 ohms, 8 ohms and 16 ohms.
This parameter is of primary importance for passive acoustics (see "Type"). When connecting such speakers to a power amplifier, it is highly desirable that their impedance matches the speaker impedance for which the amplifier is designed; in case of a mismatch, either overload and distortion in sound (if the speaker impedance is below optimal), or a decrease in power (in the opposite case), are possible.
As for active acoustics, here the impedance is mainly of reference value — the speakers in such systems are initially selected for the corresponding amplifiers. However there is an opinion that a higher resistance reduces the level of interference and has a positive effect on the purity of the sound; however, the difference in impedance between different models is usually not so great that this effect is noticeable against the background of other factors that determine sound quality.
This parameter is of primary importance for passive acoustics (see "Type"). When connecting such speakers to a power amplifier, it is highly desirable that their impedance matches the speaker impedance for which the amplifier is designed; in case of a mismatch, either overload and distortion in sound (if the speaker impedance is below optimal), or a decrease in power (in the opposite case), are possible.
As for active acoustics, here the impedance is mainly of reference value — the speakers in such systems are initially selected for the corresponding amplifiers. However there is an opinion that a higher resistance reduces the level of interference and has a positive effect on the purity of the sound; however, the difference in impedance between different models is usually not so great that this effect is noticeable against the background of other factors that determine sound quality.
Crossover frequency
The crossover frequency provided in the speaker design.
A crossover is installed exclusively in a multi-band model (see "Number of Bands"). This is an electronic filter that ensures the division of the incoming audio signal into separate frequency ranges and directs each range to "its" set of speakers. And the crossover frequency shows where the boundary between these ranges lies. If there are more than two bands, there will be several such boundaries: for example, for a four-band system it may be specified "0.15 / 0.8 / 2.8 kHz" or "0.12 / 1 / 3.8".
In most cases, this parameter has mainly a reference value: the frequencies of the built-in crossover are selected to match the operating characteristics of the speakers installed in the speaker system.
A crossover is installed exclusively in a multi-band model (see "Number of Bands"). This is an electronic filter that ensures the division of the incoming audio signal into separate frequency ranges and directs each range to "its" set of speakers. And the crossover frequency shows where the boundary between these ranges lies. If there are more than two bands, there will be several such boundaries: for example, for a four-band system it may be specified "0.15 / 0.8 / 2.8 kHz" or "0.12 / 1 / 3.8".
In most cases, this parameter has mainly a reference value: the frequencies of the built-in crossover are selected to match the operating characteristics of the speakers installed in the speaker system.
Front
Rated power of one front speaker. See "Total Power Rating" below for details on power rating. Here we note that the higher the power, the louder the system component can sound — of course, with a properly selected amplifier. In addition, this parameter is very important for matching with the amplifier: it is desirable that the output power on the corresponding amplifier channel be less than the power of the speaker. If the incoming signal is more powerful, distortions in the sound and even damage to the speakers are possible, and if it is weaker, then the sound volume will decrease (in other words, it will not be possible to use the full potential of the acoustics), but this moment will be critical only for listening at maximum volume.
Maximum amplifier power
The highest power rating of an amplifier that the loudspeakers can handle safely. Too much input power can damage the speakers, so when connecting, make sure that the amplifier's characteristics do not exceed the capabilities of the speakers. It is worth noting that this parameter may be slightly higher than the total nominal power of the acoustics (see below), since in this case we are only talking about the safety of the equipment, and not about the absence of distortion in the sound.


















