click here to register



integrated amplifiers

A function of extensive testing and development, our MD-209 and MD-309 Hybrid Receiver and Integrated Amplifier both feature our long-awaited Hybrid Acoustic Technology. Unique to Magnum Dynalab, this technology employs both tubes AND transistors to create a pair of products that deliver the musicality, soundstaging and audio realism characteristic of tube amplifiers with the crisp detail, harmonics and long-life of a solid state device. Both are also equipped with our in-house designed Digital-to-Analog converter and a Surround Sound Processor input (for integration with multi-channel applications), which ensure that the MD-209 and MD-309 can form the hub of any home entertainment system.

 
-->

MD 309 Hybrid Integrated Amplifier
High Current Design - 225 Watts into 8 ohms
Hybrid-Acoustic Technology
5 Analog & 3 Digital (including USB) Inputs
Ultra-Stable Power Supply

  Integrated Amplifier - MD 309

MD 209 Hybrid Audio Receiver
125 Watts into 8 ohms
Hybrid-Acoustic Technology
World-Leading FM Section
5 Analog & 3 Digital (including USB) Inputs
Trusted Build Quality

 
Hybrid 2 channel audio receiver - MD 209></td>
</tr>

<!--

<tr>
<td valign=top><P><b><a href=MD-308 - Stereo Integrated Amplifier
High Power design 100 watts per channel
Ultra stable Bi-polar circuitry
No overall feedback design for increased musicality
Symetrical circuit topology
discontinued - to be replaced by the MD-309
 

MD-208 - Discrete Stereo Receiver
Stereophile class A recommended component
Ultra stable Bi-polar circuitry
No overall feedback design for increased musicality
World class discrete FM tuning section
discontinued - to be replaced by the MD-209

 

DT5 - AM/FM Digitally Tuned Tuner
High performance PLL Tuning Front End
30 FM/30 AM presets with automatic memory lock

 
AM - FM Tuner

Integrated Amplifier FAQ

What is the difference between the MD 208 and MD 209 Integrated Amplifiers?

What is the difference between the MD 308 and MD 309 Integrated Amplifiers?

Why an Integrated Amplifer?

 










Site Map  |  Privacy Policy   |  Contact   |  Home