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  1. #1
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    X260.8 runs in class A for the first 34,68 or 17 watts?

    According to Pass Labs’ spec sheet the X260.8 leaves class A at 34 watts (at 8 ohms?)
    When does it leave class A at 4 ohms, 68 or 17 watts?
    Please enlighten me.

  2. #2
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Interesting question, especially considering the impedance is constantly swinging up and down depending on the programming being played. So it seems this would never be a fixed target in real world use.
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    I know that my Pass 600.5 amps only leave class A for the 4 ohm Magico S5 at an insanely loud level that I never reach anymore. I only reached that level during a test to see how loud my speakers would play.
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Class A is defined by current flowing in the output devices 100% of the time. So it's the output current that is important here.

    I=(P*R)^0.5 / R
    where:
    I= current
    P = power
    E = voltage
    R= resistance

    given P=34W and R=8 ohms,
    I= 2.0A.

    So an output current of more than 2.0 A and this amp will move from Class A to AB2.

    P = I^2*R
    for r=4 ohms,
    P= 16 W
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    I can't answer my own question but that seems like a very low curren at which exiting Class A.

    Quote Originally Posted by W9TR View Post
    Class A is defined by current flowing in the output devices 100% of the time. So it's the output current that is important here.

    I=(P*R)^0.5 / R
    where:
    I= current
    P = power
    E = voltage
    R= resistance

    given P=34W and R=8 ohms,
    I= 2.0A.

    So an output current of more than 2.0 A and this amp will move from Class A to AB2.

    P = I^2*R
    for r=4 ohms,
    P= 16 W
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  6. #6
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    If it's important to you, I would suggest a call to Kent English at Pass Labs customer support.

  7. #7
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    FROM: Pass LabsLeaving Class A - Pass Labs

    Class B has no bias current, Class AB has a moderate bias current, and Class A has a high bias current. Class AB push-pull amplifiers are hybrids between Class B and Class A. Class AB run Class A at low power levels, and become Class B amplifiers at output currents determined by the bias.

    For several years Pass Labs has specified the nominal wattages at which our amplifiers leave push-pull Class A operation into an eight ohm load.

    Here is a current summary of this information:



    We get a lot of questions about this. A typical email reads, “I can’t sleep at night – I keep worrying about where my amplifier stops being Class A. As I listen to my system, I think I can hear the Klunk as the special Class A part of the amplifier kicks in and out!”

    For starters, there is no special Class A circuit that kicks in and out, and for that matter, there certainly is no Klunk. There is just a push-pull amplifier output stage which is operated at a constant idle current known as the bias. In this regard, our power amplifiers are like other amplifiers on the market. The vast majority of amplifiers are push-pull designs with a certain amount of bias current.

    Push-pull amplifiers generally operate in Class A mode up to a point where the output current is twice the value of the bias current. In the Class A region, both halves of the circuit share the signal simultaneously. Beyond that the signal is handled solely by the push (+) half of the amplifier or the pull (-) half.

    Let’s look at this in more detail. The simplified circuit for such an output stage looks like this:



    Here we see two power transistors operated as “followers” where the output voltage equals the input voltage. Q1 is attached to the positive power supply and Q2 is attached to the negative power supply. Ordinarily the common output of these two transistors would be attached to a loudspeaker. When the input voltage is positive, so is the output voltage, and we would look to Q1 to supply current to the loudspeaker from the positive supply. When the input voltage is negative, we look to Q2 to supply current to the loudspeaker from the negative supply.

    Audio signal has both positive and negative voltage components and we will see a point at zero volts where the two halves meet. Unfortunately, all the gain devices we know have severe non-linearity (distortion) down around zero, and this gives us a very poor transition from Q1 to Q2 and vice versa.

    The solution for this is to apply some idle current to the circuit by the mechanism of the bias voltage source you see in Fig 1. This voltage is set so that at idle, current flows through Q1 and Q2 equally from the V+ supply to the V- supply and creates a more linear region at the crossover point.

    If that is not clear, perhaps an analogy will help: Imagine that the two transistors are runners in a relay race and that the signal is the baton they carry. In a real relay race, the runner receiving the baton begins running before the hand-off, which is made with the runners at speed. The runners who hand over the baton at a dead stop will operate at a severe disadvantage.

    So it is with push-pull power transistors. The higher the bias, the smoother, more seamless is the transition.

    The quantity of bias current is the key. Figure 2 shows this from the point of view of
    Q1.



    Fig 2a shows Q1 conducting current on the positive half of the signal and experiencing a sharp cutoff as the signal goes negative. 2b shows the effect of a small Class AB bias current – the current shows a gentle cutoff with less distortion. 2c shows enough bias to keep the transistor in the Class A region, where it always conducts current and has even less distortion.

    Higher bias doesn’t just move the Class A transition to higher ground – it has a profound influence on the amplifier at all power levels. It lowers the distortion at low levels as well as high levels, as seen in the distortion vs power curves for an amplifier with the bias set at different levels.

    In Fig 3 we see the distortion of an output stage operated without feedback driving 8 ohms from 0.10 watts up to 20 watts. The top curve with the highest distortion has a bias of 0.016 amps. The next lower is 0.08A, followed by 0.16A, 0.32A, 0.64A, 1.28A, and the lowest distortion curve at 2.56 amps. What we see clearly is that higher bias lowers the distortion at all power levels, and that the distortion is inversely proportional to the bias current.



    It is not simply that the distortion numbers are lower, but the characteristic of the distortion is improved in terms of the ratio of lower order harmonics (2nd and 3rd) to higher order harmonics (4th, 5th, 6th and so on)

    Figure 4A shows the distortion at 1 watt with the output stage biased at 0.08 amps. On the left you can see the signal waveform in blue and the distortion waveform in red. The distortion measurement is at 0.67% total, and you can see the harmonic distribution on the right, where harmonics from 2nd through 10th are prominent.

    Figure 4B shows the same test and output circuit, but at a 4 times higher bias figure, 0.32 amps. The distortion total has dropped to 0.11%, but of greater interest, the higher harmonics have been dramatically reduced, leaving a dominant 2nd order harmonic.

    At four times more bias in Fig 4C, the continues to drop to 0.004% (remember, this is without negative feedback), leaving nothing to look at on our distortion waveform and only 2nd and 3rd harmonic on the spectrum analysis.

    The benefits of high bias current extend beyond simple harmonic distortion measurements – you also get a reduction of intermodulation distortion (arguably more important), and a lower, more consistent output impedance. As a corollary benefit, the heavy hardware required to support Class A operation will show better thermal stability and will deliver better performance into difficult loads.

    So what’s the down-side of high bias operation? In two words: Low Efficiency.

    For a given amplifier circuit, the idle dissipation is proportional to the bias current. Twice the bias current makes for twice the heat. Usually it also means about twice the hardware and twice the weight.

    Many products on the market have idle power draw at a small fraction of rated power. A Class AB 150 watt amplifier channel with 0.1 amp bias will idle at about 10 watts. By contrast, an X150.5 channel has that power rating but idles at about 100 watts. The high performance of an X150.5 comes at a price.

    So far we have only talked about push-pull Class A bias. Do the effects of high bias also apply to single-ended Class A bias? Yes, but in a slightly different way.
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Quote Originally Posted by Panelguy View Post
    According to Pass Labs’ spec sheet the X260.8 leaves class A at 34 watts (at 8 ohms?)
    When does it leave class A at 4 ohms, 68 or 17 watts?
    Please enlighten me.
    17 watts at 4 ohm
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  9. #9
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Maybe this is nieve, but I would expect the Class A power to double from 8 ohms to 4 ohms. My Pass 600.5 amps make 600 watts of power at 8 ohms and 1200 watts at 4 ohms. If 1% of the power is Class A then that would be 6 watts at 8 ohms and 12 watts at 4 ohms.
    Bud

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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Quote Originally Posted by Mr Peabody View Post
    I can't answer my own question but that seems like a very low curren at which exiting Class A.
    Well follow the math , he did all the heavy lifting for you , its not open to opinion ..!



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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Quote Originally Posted by BlueFox View Post
    Maybe this is nieve, but I would expect the Class A power to double from 8 ohms to 4 ohms. My Pass 600.5 amps make 600 watts of power at 8 ohms and 1200 watts at 4 ohms. If 1% of the power is Class A then that would be 6 watts at 8 ohms and 12 watts at 4 ohms.
    The math is laid out above Bud only class B power increases with lower Z loads ..



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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Quote Originally Posted by GSOphile View Post
    If it's important to you, I would suggest a call to Kent English at Pass Labs customer support.
    No it’s not important, I was just curious why the power double from 8 to 4 ohms while the class A power is halved 🤔

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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    For starters, there is no special Class A circuit that kicks in and out, and for that matter, there certainly is no Klunk. There is just a push-pull amplifier output stage which is operated at a constant idle current known as the bias. In this regard, our power amplifiers are like other amplifiers on the market. The vast majority of amplifiers are push-pull designs with a certain amount of bias current. > Nelson Pass

    Quote Originally Posted by a.wayne View Post
    Well follow the math , he did all the heavy lifting for you , its not open to opinion ..!



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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    Quote Originally Posted by Mr Peabody View Post
    For starters, there is no special Class A circuit that kicks in and out, and for that matter, there certainly is no Klunk. There is just a push-pull amplifier output stage which is operated at a constant idle current known as the bias. In this regard, our power amplifiers are like other amplifiers on the market. The vast majority of amplifiers are push-pull designs with a certain amount of bias current. > Nelson Pass
    Not following your point ..?

    The klunk is important and a big annoyance for Nelson , in the early days his meters would show class A/B operation ( no longer does so ) And many well eared audiophiles claim they could hear the clunk into class B , this was prior to many going to full class A power marketing jib jap into 2 ohms and more so recently, its now all Pure class A vs the unpure Class A of past attempts .,



    Regards
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    Re: X260.8 runs in class A for the first 34,68 or 17 watts?

    So what about a class A amp like the XA60.8 which is 60 wpc Class A at 8 ohms and doubles its power at 4 ohms. Is it 120 wpc Class A?

    As far as the meters are concerned, the meter on my X250 amp shows when it leaves Class A when the needle crosses midline which is almost never.
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X260.8 runs in class A for the first 34,68 or 17 watts?

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