Description

M6 Overview

The Master Series M6 mid-woofer is a high stroke, low distortion high output mid-woofer.  This speaker features high stroke, low distortion, wide bandwidth, and high power handling.  It features a 51mm / 2” voice coil diameter for high power handling and motor force.

The M6 mid-woofer features a split-gap design which provides ±8.7mm of linear excursion, allowing for displacement equal to many 8 inch woofers. The high linear stroke features a flat BL curve for exceptional dynamics and impact.

The M6 has multiple copper shorting rings within its magnetic structure. These features result in exceptionally low inductance at all operational frequencies and across stroke.  This further extends bandwidth as well as reduces motional intermodulation distortion for a much more open and natural midrange.

The M6 uses a thermo-fused woven, strand-oriented-chain hardened polyolefin cone.  This cone features very high strength due to the strand orientation of the polyolefin monomer chains, and exceptional internal damping from the polyolefin itself.  The thermal fusing ensures an air-tight surface without degrading the woven feature and strand orientation.  The result is a cone with over 600 MPa of tensile strength, vastly superior internal damping as compared to carbon and glass fibers, and a density of just 0.9 g/cm³ , approximately 40% that of carbon fiber.

The M6 basket is also extremely open and holds the motor structure at the rear, so that basket-based reflections back up to the cone are minimized.  Use of a shallow split gap motor structure and custom tooled basket, surround, cone, and spider result in a very shallow mounting depth so the mid-woofer can fit into shallow locations, enabling creative positioning for best acoustical performance.

M1 Overview

The Master Series M1 tweeter is a high stroke, low distortion multilayer fabric dome 25mm tweeter.  This tweeter features exceptionally high stroke to allow lower crossover points without compression.

The M1 tweeter features a split-gap design which provides ±1.6mm of linear excursion, approximately 5 to 6 times that of most other tweeters. The result is a wider operational bandwidth – as low at 1500 Hz – and distortion reduced by up to a factor of 4.

The M1 use a specially developed dome material.  The dome’s fabric is a lamination of silk, polyester, and cotton and treated with a proprietary compound to unify the layers but allow each to provide their own unique benefits.  Silk adds the stretch/pull basic mechanical strength; polyester provides rigidity of shape; cotton provides improved damping.

The M1 does not use a rear chamber to lower its resonance; instead, a larger roll surround provides a lower resonance of the driver.  This design allows for higher stroke as well, for full-range output down to 1500 Hz.  And by removing the rear chamber, resonances from that chamber are eliminated. The elimination of the rear chamber results in an 11.7mm (15/32”) mounting depth for freedom of positioning.

The M1 comes with a chemically etched steel grille featuring an anti-resonant hole-pattern with size of opening optimized for dispersion.  The grille is mounted to the main tweeter with a friction-fit gasket ensuring vibration-free operation and eliminating visible screws.

M6 Crossover Frequency and power handling

The M6 mid-woofer is a wide bandwidth, high stroke speaker.  A low pass crossover should be set no higher than 3500 Hz.  The actual value should be selected based upon the paired tweeter, midrange, or full-range speaker.

The bottom end is robust, and can often forego a subsonic filter.  The following table summarizes general guidelines about a subsonic filter.  As noted above, this is not a hard-and-fast set of limits, and the final installation needs to be considered when setting actual crossover values and gains.

Power	6dB/Oct	12dB/Oct	18dB/Oct	24dB/Oct
50W	Not necessary	Not necessary	Not necessary	Not necessary
100W	Not necessary	Not necessary	Not necessary	Not necessary
200W	100 Hz	80 Hz	70 Hz	60 Hz
400W	170 Hz	135 Hz	110 Hz	100 Hz

Note that with lower power applications, these frequencies may be adjusted down; with higher power, you may need to adjust the frequencies up.  Again, the actual implementation of the entire system needs to be considered when installing these products.  A small sealed chamber behind the midrange can increase mechanical power handling, but may negatively impact thermal power handling.

M1 Crossover Frequency and power handling

The M1 Tweeter is a wideband, high stroke tweeter.  This gives it quite a bit of flexibility in operation.  The following table summarizes general guidelines.  As noted above, this is not a hard-and-fast set of limits, and the final installation needs to be considered when setting actual crossover values and gains.

Power	6dB/Oct	12dB/Oct	18dB/Oct	24dB/Oct
50W	2000 Hz	1750 Hz	1500 Hz	1200 Hz
100W	2800 Hz	2200 Hz	2000 Hz	1800 Hz
200W	4500 Hz	3500 Hz	2600 Hz	2350 Hz
400W	Not Recommended	Not Recommended	Not Recommended	4000 Hz

Not that with lower power applications, these frequencies may be adjusted down; with higher power, you may need to adjust the frequencies up.  Again, the actual implementation of the entire system needs to be considered when installing these products.

M6 Response

M1 Response

M6 Thiele Small Parameters

Nominal Impedance	4 Ohms
Nominal SPL	86 dB @ 1W, 1m (89 dB @ 2.83Vrms, 1m)
Resonant Frequency (Fs)	65 Hz ±10%
Total System Q (Qts)	0.75±15%
Equivalent Volume Air (Vas)	8 liters  ±15%
Motor Force (BL)	5.8 N/A  ±10%
Inductance (Le)	0.110mH±5%
DC Resistance (DCR)	3.8 Ohms  ±5%
Moving Mass (Mms)	21 grams  ±10%
Electrical Q (Qes)	0.95±10%
Mechanical Q (Qms)	3.5±15%
Diaphragm Surface Area (Sd)	133 cm²±2%
Linear Excursion (Xmax)	8.7mm one way  ±5%

M1 Thiele Small Parameters

Impedance	4 Ohms
Nominal SPL	89 dB @ 1W, 1m (92 dB @ 2.83Vrms, 1m)
Resonant Frequency	1500 Hz ±10%
THD @ 100 dB, 4th order high pass @ 1500 Hz	Less than 1%, 1 meter
Max power handling	400W, 4th order high pass @ 4000 Hz