Tntate,
i found these measurements for the next rev of your speakers - B&W 705:
http://www.stereophile.com/content/bw-705-loudspeaker-measurements
could not find any such measurements for your CDM-1NT speakers but my guess (from my personal experience & seeing B&W's other speakers) is that the CDM-1NT & the 705 models measure about the same.
the impedance & phase plots are totally wild, IMO & this speaker will drive most amps crazy as it yo-yos from capacitative load (negative phase) to inductive load (positive phase). You see this happening in the 1KHz-3KHz region. As the amp deals with capacitive & inductive phase shifts, the impact is felt in the music as phase distortion which will appear as a brittleness or an unusual sharpness in the vocals - the 1KHz-3KHz is a sensitive region for the human ears.
Also, due to the wild phase shifts of this speaker, your amp will be wasting a lot of power into the reactive components (capacitor & inductor) of the x-over. The effect of this will be that your amp's instantaneous power will be reduced by the phase angle at that particular freq. For example, look at the 100Hz freq. The phase angle is -45 degrees. Let's say that you are cranking 10W into the speaker for your desired volume. Due to the -45 deg (capacitative) phase shift, the real power is only 7.07W & an equal amount of power is burnt up in the reactive component of the x-over. So, your amp will be working hard but only half the power makes it to the speaker drivers.
That's why B&W are traditionally very hard to drive & require big amps that are almost always high-current amps. Higher the current in the amp's output stage, the more current the amp has to piss away into the x-over reactive components and STILL have enough to create a large enough voltage signal in the speaker driver to create a sufficient pistonic action to create a sufficiently large SPL for your listening pleasure.
Zd542 has already given you some examples of how we can make a 100W amp - 50V*2Amps OR 25V*4Amps, etc. The higher the current the better for B&W and at the same time you will need higher wattage to ensure signal headroom for better (music) dynamics.
Driving a B&W speaker is generally an expensive option because finding a high(er) wattage amp with high current that sounds nice is more often than not puling from a very small pool of amplifiers. Yes, you can use many amps in the market but you will never realize the potential of your B&W & you will generally remain unsatisfied with a perpetual itch to upgrade.
Maybe more than you wanted to know but to tame the B&W beast it helps to know what you are doing..... ;-)
i found these measurements for the next rev of your speakers - B&W 705:
http://www.stereophile.com/content/bw-705-loudspeaker-measurements
could not find any such measurements for your CDM-1NT speakers but my guess (from my personal experience & seeing B&W's other speakers) is that the CDM-1NT & the 705 models measure about the same.
the impedance & phase plots are totally wild, IMO & this speaker will drive most amps crazy as it yo-yos from capacitative load (negative phase) to inductive load (positive phase). You see this happening in the 1KHz-3KHz region. As the amp deals with capacitive & inductive phase shifts, the impact is felt in the music as phase distortion which will appear as a brittleness or an unusual sharpness in the vocals - the 1KHz-3KHz is a sensitive region for the human ears.
Also, due to the wild phase shifts of this speaker, your amp will be wasting a lot of power into the reactive components (capacitor & inductor) of the x-over. The effect of this will be that your amp's instantaneous power will be reduced by the phase angle at that particular freq. For example, look at the 100Hz freq. The phase angle is -45 degrees. Let's say that you are cranking 10W into the speaker for your desired volume. Due to the -45 deg (capacitative) phase shift, the real power is only 7.07W & an equal amount of power is burnt up in the reactive component of the x-over. So, your amp will be working hard but only half the power makes it to the speaker drivers.
That's why B&W are traditionally very hard to drive & require big amps that are almost always high-current amps. Higher the current in the amp's output stage, the more current the amp has to piss away into the x-over reactive components and STILL have enough to create a large enough voltage signal in the speaker driver to create a sufficient pistonic action to create a sufficiently large SPL for your listening pleasure.
Zd542 has already given you some examples of how we can make a 100W amp - 50V*2Amps OR 25V*4Amps, etc. The higher the current the better for B&W and at the same time you will need higher wattage to ensure signal headroom for better (music) dynamics.
Driving a B&W speaker is generally an expensive option because finding a high(er) wattage amp with high current that sounds nice is more often than not puling from a very small pool of amplifiers. Yes, you can use many amps in the market but you will never realize the potential of your B&W & you will generally remain unsatisfied with a perpetual itch to upgrade.
Maybe more than you wanted to know but to tame the B&W beast it helps to know what you are doing..... ;-)