MartinLogan Motion AFX Dolby Atmos enabled speakers are designed to create a height layer of sound above the listener that better connects viewers with the richness, detail and clarity of the on screen experience.
The Motion AFX is designed to sit on top of floorstanding and bookshelf speakers in MartinLogan’s Motion series. These models include the Motion 15, 20, 35XT, 40 and 60XT. Designed to reflect sound off of the ceiling in a Dolby Atmos entertainment system, The AFX will also work with other brands of speakers with a flat top. For systems where a speaker-top mounting is not possible, other installation options are available.
Immersive Dolby Atmos Experience
Dolby Atmos delivers captivating sound that places and moves audio anywhere in the room, including overhead, to bring entertainment alive all around the audience. Whether you are listening to music, movies, television shows, or playing your favorite video games, Dolby Atmos delivers the full impact of the entertainment experience.
Each Motion AFX speaker features a 0.75-inch aluminum dome tweeter and 5.25” polypropylene cone bass/midrange driver with stamped steel basket, all incorporated into a beautiful High Gloss Black cabinet. The shape of the Motion AFX cabinet is specifically designed to angle the drivers towards the ceiling in order to accurately deliver a Dolby Atmos sound experience above the listeners.
|Dimensions (WxHxD)||6.8 x 7.7 x 10"|
|Dimensions (WxHxD, metric)||17.3 x 19.5 x 25.4cm|
|Weight (lbs)||8lbs. (3.6kg) each|
|Unit of measurement||pr|
|Power Handling (Nominal)||20-200 watts per channel|
|Frequency Response +/-3dB||90–20,000 Hz ±3dB|
|Sensitivity (1W/m)||87 dB/2.83 volts/meter|
|Terminals||Custom 5-way tool-less binding posts|
|Impedance||4 Ohms. Compatible with 4, 6 or 8 ohm rated amplifiers.|
|Tweeter||0.75” (1.9cm) aluminum dome|
|Woofer||5.25” (13.4cm) polypropylene cone with stamped steel basket.|
|Crossover Frequencies||2,000 Hz|
|Crossover Type||Custom air core and low dcr steel laminate inductors. Polyester film capacitors in series and low DF electrolytic caps in parallel.|