Powered Mixer
ECLER ESSENTIALS eHMA120 is a self-powered audio mixer including three MIC/LINE ST inputs and one LINE ST input. It features a 120W powered mono output that supports both low (4 Ω) and high impedance (70V, 100V) loudspeaker lines, with independent 2-ZONE ON/OFF switches (ZONE 1, ZONE 2). It also includes an audio priority system (voice messages, emergencies, etc.) available in 3 inputs, Pager and embedded Chime function (compatible with 1 zone paging microphones), 2 band tone control, auto stand-by mode, MUTE port and universal power supply unit, being compatible with external 24 VDC IN backup supply systems.
Key Features
• 1 x 95W @ 4Ω
• 1 x 95W @ 70V / 100V
• 2 x ZONE ON/OFF selection switches
• 1 ST LINE input
• 3 MIC / LINE inputs, including Talkover function (priority)
• 1 Pager port, including embedded Chime tone
• 2-band EQ (BASS/TREBLE) for Mix Output
• 24VDC external power supply included, with external battery backup connector
• Auto Stand-by function
• 24VDC Phantom Power (external switch)
• MUTE port to remotely mute the unit from an external device, via dry contact closure.
Applications
• Retail stores, restaurants and bars
• BGM & Paging solutions, with message priorities and source/volume independent selection.
• 1 x 95W @ 4Ω
• 1 x 95W @ 70V / 100V
• 2 x ZONE ON/OFF selection switches
• 1 ST LINE input
• 3 MIC / LINE inputs, including Talkover function (priority)
• 1 Pager port, including embedded Chime tone
• 2-band EQ (BASS/TREBLE) for Mix Output
• 24VDC external power supply included, with external battery backup connector
• Auto Stand-by function
• 24VDC Phantom Power (external switch)
• MUTE port to remotely mute the unit from an external device, via dry contact closure.
Audio Outputs | 2 Hi-Z + 1 Lo-Z + 1 AUX/REC |
1 channel @ 70/100V (RMS) | 95W |
1 Channel @ 4Ω | 95W |
Dimensions / weight | 1RU x 120mm depth / 2,9 kg. |
Inputs | 2 MIC/LINE + 1 MIC + 1 LINE |
Applications
• Retail stores, restaurants and bars
• BGM & Paging solutions, with message priorities and source/volume independent selection.