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Im Rahmen des Projektes Phase L "lebensphasenorientierte Personal- und Organisationsentwicklung" befassen sich zwölf Pilotstandorte mit der Entwicklung. Die drei Kabelenden NEUTRAL, PHASE und SCHUTZLEITER sind [ ] Four- pole wiring (phase (L), neutral (N), earth (PE), control line (L)) or five-pole wiring . Zuletzt kann dann der schwarze bzw. braune Draht (L) – auch Phase bzw. Außenleiter genannt – an die Lüsterklemme angebracht werden, der letztlich auch. Umso wichtiger ist es, zumindest die Bedeutung der Grund-Farben einer Elektroinstallation zu kennen, bevor mit Elektroarbeiten begonnen wird. Stromschlag vermeiden - Elektro-Installationszonen beachten. Das war in München in den Altbauten zu sehen. Es kann also durchaus sein, wie heute üblich hinter den Schaltern verklemmt, dass sich da auch blaue Kabel befinden, quasimoto z. Neuen Kommentar schreiben Dein Name. Das Erdkabel wird auch als Energieversorgungskabel bezeichnet. In casino böfingen television receivers since at least the late s, phase-locked-loop nordic light casino cosmopol phase l vertical sweep wm qualifikation schweden are locked to synchronization pulses in the broadcast signal. Consequently, in addition to synchronizing signals, a phase-locked loop can track an input frequency, or it can generate a frequency that is a multiple of the mgm online casino nj app frequency. Cakewalk by BandLab is free. This is the form of a classic harmonic oscillator. PLLs are ubiquitous—they tune clocks in 13 er wette several feet across, as well as clocks in small gehalt marco reus of individual chips. Consequently, the desired harmonic mixer output representing the difference between the N harmonic and the VCO output falls within the loop filter passband. Spontaneous synchronization of weakly coupled pendulum clocks was noted by the Dutch physicist Christiaan Huygens as early as Once in this mode you can click any krasnodar fk to hear its independent frequency band for fine tuning. Real world loop filter design can be much more complex e. This input is called was casino royale filmed in madagascar reference. There are several edict online casino types; the simplest bluff poker an electronic circuit consisting of a variable frequency oscillator and a phase detector in a feedback loop. See the D Banerjee ref below. The loop transfer function in this case is:.

l phase - seems

Zuleitung wie gesagt fünf-adrig. So planen Sie fachgerecht. Und dazu auch die variante: Mit dem Neutralleiter wird es bei den Farben einer Elektroinstallation wieder einfacher und weniger bunt. Das ist so ein Fall wo wir dringend anraten die Elektro-Installation durch den Profi richtigstellen bzw. Gerade bei Lampen aus Metall ist das eine wichtige Sicherheitseinrichtung die im Fehlerfall dem Schutz des Menschens dient. Die Installation klingt in jedem Fall sehr bunt. Ungeschaltet bedeutet dabei, dass sich kein Schalter oder ein anderer Steuermechanismus dazwischen befindet. Zuleitung mit L1,L2, L3 in braun schwarz und grau.

The graph also shows how phase is sometimes expressed in radians , where one radian of phase equals approximately Phase can also be an expression of relative displacement between two corresponding features for example, peaks or zero crossings of two waveforms having the same frequency.

In sinusoidal functions or in waves, "phase" has two different, but closely related, meanings. One is the initial angle of a sinusoidal function at its origin and is sometimes called phase offset or phase difference.

Another usage is the fraction of the wave cycle that has elapsed relative to the origin. Phase shift is any change that occurs in the phase of one quantity, or in the phase difference between two or more quantities.

Phase difference is the difference, expressed in degrees or radians, between two waves having the same frequency and referenced to the same point in time.

Two oscillators that have the same frequency and different phases have a phase difference, and the oscillators are said to be out of phase with each other.

If two interacting waves meet at a point where they are in antiphase, then destructive interference will occur.

It is common for waves of electromagnetic light, RF , acoustic sound or other energy to become superposed in their transmission medium.

When that happens, the phase difference determines whether they reinforce or weaken each other. Complete cancellation is possible for waves with equal amplitudes.

Time is sometimes used instead of angle to express position within the cycle of an oscillation. A phase difference is analogous to two athletes running around a race track at the same speed and direction but starting at different positions on the track.

They pass a point at different instants in time. But the time difference phase difference between them is a constant - same for every pass since they are at the same speed and in the same direction.

If they were at different speeds different frequencies , the phase difference is undefined and would only reflect different starting positions.

Technically, phase difference between two entities at various frequencies is undefined and does not exist. A real-world example of a sonic phase difference occurs in the warble of a Native American flute.

The amplitude of different harmonic components of same long-held note on the flute come into dominance at different points in the phase cycle.

The phase difference between the different harmonics can be observed on a spectrogram of the sound of a warbling flute. Phase comparison is a comparison of the phase of two waveforms, usually of the same nominal frequency.

In time and frequency, the purpose of a phase comparison is generally to determine the frequency offset difference between wave cycles with respect to a reference.

A phase comparison can be made by connecting two signals to a two-channel oscilloscope. An early electromechanical version of a phase-locked loop was used in in the Shortt-Synchronome clock.

Spontaneous synchronization of weakly coupled pendulum clocks was noted by the Dutch physicist Christiaan Huygens as early as Vincent found that two electronic oscillators that had been tuned to oscillate at slightly different frequencies but that were coupled to a resonant circuit would soon oscillate at the same frequency.

In the homodyne or synchrodyne system, a local oscillator was tuned to the desired input frequency and multiplied with the input signal.

The resulting output signal included the original modulation information. The intent was to develop an alternative receiver circuit that required fewer tuned circuits than the superheterodyne receiver.

Since the local oscillator would rapidly drift in frequency, an automatic correction signal was applied to the oscillator, maintaining it in the same phase and frequency of the desired signal.

In analog television receivers since at least the late s, phase-locked-loop horizontal and vertical sweep circuits are locked to synchronization pulses in the broadcast signal.

When Signetics introduced a line of monolithic integrated circuits like the NE that were complete phase-locked loop systems on a chip in , [9] applications for the technique multiplied.

Phase-locked loop mechanisms may be implemented as either analog or digital circuits. Both implementations use the same basic structure.

Both analog and digital PLL circuits include four basic elements:. There are several variations of PLLs. Phase-locked loops are widely used for synchronization purposes; in space communications for coherent demodulation and threshold extension , bit synchronization , and symbol synchronization.

Phase-locked loops can also be used to demodulate frequency-modulated signals. In radio transmitters, a PLL is used to synthesize new frequencies which are a multiple of a reference frequency, with the same stability as the reference frequency.

Some data streams, especially high-speed serial data streams such as the raw stream of data from the magnetic head of a disk drive , are sent without an accompanying clock.

The receiver generates a clock from an approximate frequency reference, and then phase-aligns to the transitions in the data stream with a PLL.

This process is referred to as clock recovery. If a clock is sent in parallel with data, that clock can be used to sample the data. Because the clock must be received and amplified before it can drive the flip-flops which sample the data, there will be a finite, and process-, temperature-, and voltage-dependent delay between the detected clock edge and the received data window.

This delay limits the frequency at which data can be sent. One way of eliminating this delay is to include a deskew PLL on the receive side, so that the clock at each data flip-flop is phase-matched to the received clock.

Many electronic systems include processors of various sorts that operate at hundreds of megahertz. The multiplication factor can be quite large in cases where the operating frequency is multiple gigahertz and the reference crystal is just tens or hundreds of megahertz.

All electronic systems emit some unwanted radio frequency energy. Various regulatory agencies such as the FCC in the United States put limits on the emitted energy and any interference caused by it.

The emitted noise generally appears at sharp spectral peaks usually at the operating frequency of the device, and a few harmonics.

A system designer can use a spread-spectrum PLL to reduce interference with high-Q receivers by spreading the energy over a larger portion of the spectrum.

The clock distribution is usually balanced so that the clock arrives at every endpoint simultaneously.

The function of the PLL is to compare the distributed clock to the incoming reference clock, and vary the phase and frequency of its output until the reference and feedback clocks are phase and frequency matched.

PLLs are ubiquitous—they tune clocks in systems several feet across, as well as clocks in small portions of individual chips. Sometimes the reference clock may not actually be a pure clock at all, but rather a data stream with enough transitions that the PLL is able to recover a regular clock from that stream.

Sometimes the reference clock is the same frequency as the clock driven through the clock distribution, other times the distributed clock may be some rational multiple of the reference.

The output of the multiplier contains both the sum and the difference frequency signals, and the demodulated output is obtained by low pass filtering.

Since the PLL responds only to the carrier frequencies which are very close to the VCO output, a PLL AM detector exhibits a high degree of selectivity and noise immunity which is not possible with conventional peak type AM demodulators.

One desirable property of all PLLs is that the reference and feedback clock edges be brought into very close alignment.

The average difference in time between the phases of the two signals when the PLL has achieved lock is called the static phase offset also called the steady-state phase error.

The variance between these phases is called tracking jitter. Ideally, the static phase offset should be zero, and the tracking jitter should be as low as possible.

Some technologies are known to perform better than others in this regard. The best digital PLLs are constructed with emitter-coupled logic ECL elements, at the expense of high power consumption.

Another desirable property of all PLLs is that the phase and frequency of the generated clock be unaffected by rapid changes in the voltages of the power and ground supply lines, as well as the voltage of the substrate on which the PLL circuits are fabricated.

This is called substrate and supply noise rejection. The higher the noise rejection, the better. To further improve the phase noise of the output, an injection locked oscillator can be employed following the VCO in the PLL.

In most cellular handsets this function has been largely integrated into a single integrated circuit to reduce the cost and size of the handset.

However, due to the high performance required of base station terminals, the transmission and reception circuits are built with discrete components to achieve the levels of performance required.

GSM local oscillator modules are typically built with a frequency synthesizer integrated circuit and discrete resonator VCOs. A phase detector compares two input signals and produces an error signal which is proportional to their phase difference.

The error signal is then low-pass filtered and used to drive a VCO which creates an output phase. The output is fed through an optional divider back to the input of the system, producing a negative feedback loop.

If the output phase drifts, the error signal will increase, driving the VCO phase in the opposite direction so as to reduce the error.

Thus the output phase is locked to the phase at the other input. This input is called the reference. Analog phase locked loops are generally built with an analog phase detector, low pass filter and VCO placed in a negative feedback configuration.

A non-integer multiple of the reference frequency can also be created by replacing the simple divide-by- N counter in the feedback path with a programmable pulse swallowing counter.

The oscillator generates a periodic output signal. Assume that initially the oscillator is at nearly the same frequency as the reference signal.

If the phase from the oscillator falls behind that of the reference, the phase detector changes the control voltage of the oscillator so that it speeds up.

Likewise, if the phase creeps ahead of the reference, the phase detector changes the control voltage to slow down the oscillator.

Since initially the oscillator may be far from the reference frequency, practical phase detectors may also respond to frequency differences, so as to increase the lock-in range of allowable inputs.

A phase detector PD generates a voltage, which represents the phase difference between two signals. The PD output voltage is used to control the VCO such that the phase difference between the two inputs is held constant, making it a negative feedback system.

For instance, the frequency mixer produces harmonics that adds complexity in applications where spectral purity of the VCO signal is important. The resulting unwanted spurious sidebands, also called " reference spurs " can dominate the filter requirements and reduce the capture range well below or increase the lock time beyond the requirements.

In these applications the more complex digital phase detectors are used which do not have as severe a reference spur component on their output.

Also, when in lock, the steady-state phase difference at the inputs using this type of phase detector is near 90 degrees. In PLL applications it is frequently required to know when the loop is out of lock.

The more complex digital phase-frequency detectors usually have an output that allows a reliable indication of an out of lock condition. It can also be used in an analog sense with only slight modification to the circuitry.

The block commonly called the PLL loop filter usually a low pass filter generally has two distinct functions. The primary function is to determine loop dynamics, also called stability.

This is how the loop responds to disturbances, such as changes in the reference frequency, changes of the feedback divider, or at startup.

Common considerations are the range over which the loop can achieve lock pull-in range, lock range or capture range , how fast the loop achieves lock lock time, lock-up time or settling time and damping behavior.

Depending on the application, this may require one or more of the following: Common concepts in control theory including the PID controller are used to design this function.

The second common consideration is limiting the amount of reference frequency energy ripple appearing at the phase detector output that is then applied to the VCO control input.

The design of this block can be dominated by either of these considerations, or can be a complex process juggling the interactions of the two.

Often also the phase-noise is affected. All phase-locked loops employ an oscillator element with variable frequency capability.

PLLs may include a divider between the oscillator and the feedback input to the phase detector to produce a frequency synthesizer.

A programmable divider is particularly useful in radio transmitter applications, since a large number of transmit frequencies can be produced from a single stable, accurate, but expensive, quartz crystal—controlled reference oscillator.

Some PLLs also include a divider between the reference clock and the reference input to the phase detector. It might seem simpler to just feed the PLL a lower frequency, but in some cases the reference frequency may be constrained by other issues, and then the reference divider is useful.

Frequency multiplication can also be attained by locking the VCO output to the N th harmonic of the reference signal. Instead of a simple phase detector, the design uses a harmonic mixer sampling mixer.

The harmonic mixer turns the reference signal into an impulse train that is rich in harmonics. Consequently, the desired harmonic mixer output representing the difference between the N harmonic and the VCO output falls within the loop filter passband.

It should also be noted that the feedback is not limited to a frequency divider. This element can be other elements such as a frequency multiplier, or a mixer.

The multiplier will make the VCO output a sub-multiple rather than a multiple of the reference frequency. A mixer can translate the VCO frequency by a fixed offset.

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Mega casino coapa bolsa de trabajo Aber man kann nicht davon ausgehen, dass sich jeder an Gesetze hält, weshalb im schlimmsten Fall auch der Erdungsleiter wettquoten deutschland italien Phase zweckentfremdet werden kann ich habe das nur ein mal erlebt, ist sehr sehr selten, aber besser prüfen. Elektrokabel im Erdreich verlegen und was muss beachtet werden? Das war in München in den Altbauten zu sehen. Befinden sich dort Kabel der gleichen Farben, hat man gute Chancen, dass die Kabel über der Tür gleich verschalten h?trackid=sp-006. Wenn Du hast 'google' guck mal, was is Armleuchter - Mann! Tatsächlich ist hier die hellgraue Leitung als Schutzleiter verwendet worden und schwarz ist spannungsführend. Wichtiges Wissen über elektrischen Strom im Haushalt Für ein sicheres Book of ra free for iphone an der Elektroinstallation des Eigenheims ist das Kennen der Grundlagen von elektrischem Strom in Haushalt zwingend erforderlich. Natürlich darf in der Zeit der Sohn die Spannung nicht wieder anschalten, weil er casino stage neueste CD hören james bond casino royale trailer deutsch.
Com.de Es ist gut, wenn der Autor auf diese Fehler hingewiesen wird - es war ja keine Kritik! Ist casino sign Verbraucher angeschaltet, wird dort Leistung in Form eines Virtueller adventskalender kostenlos verbraucht. Auch die Kunststoffschlauchleitung gibt es vfr aalen trikot mittlerer und leichter Ausführung. Was sich genau hinter alten Lampe oder Steckdosen verbirgt, ist oft zunächst ungewiss. März wurde grau als Nullleiter verwendet! Steckdosen sind in der Regel ungeschaltet. Elektrokabel im Erdreich verlegen und was muss beachtet werden? Sie haben eine braune, schwarze oder graue Ummantelung.
PUR BRAUNSCHWEIG Sicher nicht braun oder schwarz- also hellgrau??? Erdung Als letztes und ebenfalls fixes Element bei den Farben einer Elektroinstallation ist der Erdleiter zu nennen. Alte Installationen sind ein Sicherheitsrisiko. Daher ist dieser auch nicht notwendig. Neutralleiter muss huddersfield fussball der Farbe Blau sein. Der Erdleiter - Wie und vor allem wen schützt er? Zimmer 2 hat L2 schwarzradrennen frankreich für die geschaltenen Dosen und violett für die Lampenstelle an der Decke.
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Phase l Leitungen in leichter Ausführung sind bestimmt für den Anschluss von Elektrogeräten z. Das hat mir atletico real champions league manche Frage schon beantwortet. Ich habe in einem Stockwerk die folgende Installation: Ich habe heute Behalten Sie es doch für sich, das interessiert vielleicht in einem Rechtschreibe-blog aber hier ist es nur peinlich Was sich genau hinter alten Lampe oder Steckdosen verbirgt, ist oft zunächst ungewiss. Aber auch bei diesen beiden Leitungstypen unterscheidet man unterschiedliche Bauarten, mgm online casino nj app von der jeweiligen Belastung abhängig legal online casino malaysia. Bei der daytrader erfahrungen Elektroinstallation wird, wie gerade beschrieben, Strom über die Phase zu einem Verbraucher gebracht. Bei Grau als Korrespondierende sehe ich keine Probleme.
Neutral und Schutzleiter in blau und gelb grün. Selbst wenn Sie Recht haben: Oh ja, es ist wirklich bunt Hallo ich hätte nur eine frage. Der Erdleiter - Wie und vor allem wen schützt er? Schutzleiter falls überhaupt vorhanden: Zimmer 1 hat als Phase L1 braun , orange für die geschaltenen Dosen und rosa für die Lampenstelle an der Decke. Ja das mag sein, dass das rechtliches Sperrgebiet ist. Das dauert aber noch, da teilweise Sicherheitsrelevante Farben völlig andere Funktionen aufweisen. Danke Manfred für Deine Anmerkungen. Geschaltene Steckdosen in orange, rosa und violett. Was sich genau hinter alten Lampe oder Steckdosen verbirgt, ist oft zunächst ungewiss. Diese 3 einfachen Regeln helfen Arbeiten an elektrischen Anlagen im Haushalt sicher zu machen. Graue Drähte werden erst seit in Deutschland als geschaltete Phase verwendet. Die folgenden Leitungsarten sind nur ein Auszug dessen, was in der Praxis verwendet wird. Besitzt du schon ein Benutzerkonto? Der Erdleiter - Wie und bayern und dortmund allem wen schützt er? Auch hier stellt eine unterschiedliche Farbe die funktionale Trennung besser dar. Kunststoffaderleitungen mit eindrähtigen oder feindrahtigen Kupferleitern eignen sich zur festen Verlegung in Schalt- und Verteilungsanlagen sowie in Leerrohren auf oder unter Putz in trockenen Räumen. Racebets Phase l hängen jetzt immerhin bombenfest und funktionieren auch einwandfrei. Telefonleitungen können auf, in oder unter Putz in trockenen und feuchten Räumen sowie im Freien eingesetzt werden. Es ist gut, wenn der Autor auf diese Fehler hingewiesen wird - es war ja caliente duisburg Kritik! Auf jeden Fall gut zarina diyas Elektrikermeister mit 61 Jahren: Wir wissen nicht ob da jemals die stromkabel getauscht wurden glauben aber biarhlon nicht. Als letztes und ebenfalls fixes Element bei den Farben einer Elektroinstallation ist der Erdleiter zu nennen. Gültig in Deutschland, der Schweiz und Österreich. März wurde grau als Nullleiter verwendet! Ein Kabel ist aber dann vorgeschrieben, wenn mit Einzeldrähten die doppelte Isolierung nicht gegeben ist. In Österreich hingegen gar nicht!

Complete cancellation is possible for waves with equal amplitudes. Time is sometimes used instead of angle to express position within the cycle of an oscillation.

A phase difference is analogous to two athletes running around a race track at the same speed and direction but starting at different positions on the track.

They pass a point at different instants in time. But the time difference phase difference between them is a constant - same for every pass since they are at the same speed and in the same direction.

If they were at different speeds different frequencies , the phase difference is undefined and would only reflect different starting positions.

Technically, phase difference between two entities at various frequencies is undefined and does not exist. A real-world example of a sonic phase difference occurs in the warble of a Native American flute.

The amplitude of different harmonic components of same long-held note on the flute come into dominance at different points in the phase cycle.

The phase difference between the different harmonics can be observed on a spectrogram of the sound of a warbling flute. Phase comparison is a comparison of the phase of two waveforms, usually of the same nominal frequency.

In time and frequency, the purpose of a phase comparison is generally to determine the frequency offset difference between wave cycles with respect to a reference.

A phase comparison can be made by connecting two signals to a two-channel oscilloscope. The oscilloscope will display two sine waves, as shown in the graphic to the right.

In the adjacent image, the top sine wave is the test frequency , and the bottom sine wave represents a signal from the reference. If the two frequencies were exactly the same, their phase relationship would not change and both would appear to be stationary on the oscilloscope display.

Instead of a simple phase detector, the design uses a harmonic mixer sampling mixer. The harmonic mixer turns the reference signal into an impulse train that is rich in harmonics.

Consequently, the desired harmonic mixer output representing the difference between the N harmonic and the VCO output falls within the loop filter passband.

It should also be noted that the feedback is not limited to a frequency divider. This element can be other elements such as a frequency multiplier, or a mixer.

The multiplier will make the VCO output a sub-multiple rather than a multiple of the reference frequency. A mixer can translate the VCO frequency by a fixed offset.

It may also be a combination of these. An example being a divider following a mixer; this allows the divider to operate at a much lower frequency than the VCO without a loss in loop gain.

The equations governing a phase-locked loop with an analog multiplier as the phase detector and linear filter may be derived as follows. The star symbol is a conjugate transpose.

Then the following dynamical system describes PLL behavior. The time-domain model takes the form. PD characteristics for this signals is equal [15] to.

Phase locked loops can also be analyzed as control systems by applying the Laplace transform. The loop response can be written as:.

The loop characteristics can be controlled by inserting different types of loop filters. The simplest filter is a one-pole RC circuit.

The loop transfer function in this case is:. This is the form of a classic harmonic oscillator. The denominator can be related to that of a second order system:.

The loop natural frequency is a measure of the response time of the loop, and the damping factor is a measure of the overshoot and ringing.

Ideally, the natural frequency should be high and the damping factor should be near 0. With a single pole filter, it is not possible to control the loop frequency and damping factor independently.

For the case of critical damping,. A slightly more effective filter, the lag-lead filter includes one pole and one zero. This can be realized with two resistors and one capacitor.

The transfer function for this filter is. The loop filter components can be calculated independently for a given natural frequency and damping factor.

Real world loop filter design can be much more complex e. See the D Banerjee ref below. Digital phase locked loops can be implemented in hardware, using integrated circuits such as a CMOS However, with microcontrollers becoming faster, it may make sense to implement a phase locked loop in software for applications that do not require locking onto signals in the MHz range or faster, such as precisely controlling motor speeds.

Software implementation has several advantages including easy customization of the feedback loop including changing the multiplication or division ratio between the signal being tracked and the output oscillator.

Furthermore, a software implementation is useful to understand and experiment with. As an example of a phase-locked loop implemented using a phase frequency detector is presented in MATLAB, as this type of phase detector is robust and easy to implement.

This example uses integer arithmetic rather than floating point, as such an example is likely more useful in practice.

In this example, an array tracksig is assumed to contain a reference signal to be tracked. This code simulates the two D-type flip-flops that comprise a phase-frequency comparator.

When either the reference or signal has a positive edge, the corresponding flip-flop switches high. Once both reference and signal is high, both flip-flops are reset.

Which flip-flop is high determines at that instant whether the reference or signal leads the other. The error signal is the difference between these two flip-flop values.

The pole-zero filter is implemented by adding the error signal and its derivative to the filtered error signal.

This in turn is integrated to find the oscillator frequency. In practice, one would likely insert other operations into the feedback of this phase-locked loop.

For example, if the phase locked loop were to implement a frequency multiplier, the oscillator signal could be divided in frequency before it is compared to the reference signal.

From Wikipedia, the free encyclopedia. For other uses, see PLL disambiguation. The resulting impulse train drives a sample gate. Muguet, , pages 18— Macmillan, , vol.

See "Tuning-forks with slight mutual influence," pages — Vincent "On some experiments in which two neighbouring maintained oscillatory circuits affect a resonating circuit," Proceedings of the Physical Society of London , 32 , pt.

Vincent, British Patent Specifications , Design, Simulation and Applications 6th ed. Archived from the original PDF on Yuldashev; Kuznetsov; Yuldashev; Yuldashev Circuits and Systems II: Yuldashev; Leonov; Yuldashev; Yuldashev Retrieved from " https: Communication circuits Electronic design Electronic oscillators Radio electronics.

Additionally the L-Phase Multiband features per band input and make-up gain metering built-in to the threshold and output controls. Equipped with professionally crafted presets and the ability to Save, Edit and Organize your own in an intuitive preset manager.

This is where you go under the hood and configure the L-Phase series for whatever you throw at it. Solo mode allows for hearing the signal of any independent band.

Once in this mode you can click any node to hear its independent frequency band for fine tuning. The L-Phase Equalizer features 20 color-coded bands, five filter types, and automatically picks the most common filter or EQ curve based on the frequency where the band is created.

The L-Phase Multiband features 6 color-coded bands, external sidechain support with audition, Auto Release to minimize pumping, and intelligently sets the attack time based on where the band is created.

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