Stanton user manual M.207 Description Rear Panel Figure

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M.207 Description (Rear Panel)

3.3M.207 Description - Rear Panel (Figure 3.3)

Figure 3.3

1.Power Switch: Turns the mixer ON or OFF.

2.AC IN: Input connection for the included power supply. While the power is switched OFF, plug the power supply into the mixer first, and then plug it into the outlet.

3.Fader Start: To use this function you need a CD player with the Fader Start feature and its related cable so you can use the Crossfader to start and stop the CD player. The Fader Start switch (Front Panel, Figure 3.2, 1) activates the Fader Start feature. When the Fader Start switch is in the ON position, this function allows the fader to activate or return to the preset Cue Point on your compatible CD Player.

4.Balanced Master output: TRS balanced (1/4”) connectors are typically used to connect to a P.A. mixer or an amplifier for live performances, or a recording console.

5.Unbalanced Master output: RCA connectors are typically used to connect to a home stereo, or to another mixer with RCA inputs for practicing or team routines.

6.REC: The record output is not affected by the Master volume control. It can be used to record to a computer, CD, MD, & tape recorder, even while the master volume is turned down.

7.Aux: This AUX LINE In allows you to connect CD & DVD players, iPods, etc. Just switch the MIC/AUX Input Selector (Top Panel, 1) to AUX.

8.Line Inputs: Unbalanced RCA jacks for connecting stereo audio from line level sources such as CD players, Hi-Fi VCRs, cassette decks, DAT machines, laser discs, tuners, Mini Discs, even synthesizers or other mixing consoles. Plug mono audio sources into both Left and Right inputs using a "Y" cable connector.

9.Phono Inputs: Plug your turntables in here. When these connectors are used, your signal is fed directly to the high-quality RIAA phono pre-amplifiers. Only connect turntables here. Line level sources will overload the sensitive phono pre-amps and will cause distortion.

10.ground connector: To eliminate electrical hum, connect the ground cable from your standard turntable ground post to the M.207 ground terminal. Some turntables (like the Stanton STR8.150) do not require grounding wire.

11.Microphone Input (Mic): Connect a standard unbalanced (1/4") microphone.

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Contents 207 Important Safety Instructions Iii Introduction Welcome to the M.207 IntroductionOverview Connecting the M.207 Connecting the M.207Description 207 DescriptionDescription Description Description Front Panel M.207 Description Front Panel FigureDescription Rear Panel M.207 Description Rear Panel FigureSelecting and Reversing a Channel Fader Curve Using the M.207Using the M.207 Front Panel Controls Figure Fader Start Selecting and Reversing the Crossfader Curve207 Effects Effects EffectsAutomatic and Manual Filter Phaser/Flanger PHASER/FLANgE Phaser Figure Phaser/FlangerEcho/Strobe ECHO/STROBE Echo Figure Pan/Transform 4 Pan/Transform PAN/TRANS Pan FigureFrequency Filters Frequency FiltersFilters as Effects Filtering the Effects Sends Filtering the Effect SendsFXglide Slider Automation FXglide Slider AutomationManual Automation Recording BPM Synchronized Automation Recording BPM Synchronized Automation RecordingManual Button Sampler SamplerManual Sampling BPM Synchronized Sampling BPM Synchronized SamplingPlaying Back a Sample Playing Back a SampleErasing a Sample Troubleshooting Registration Card Thank you for choosing StantonStanton Warranty Stanton WarrantyPower SpecificationsLITS00052 10/05/2009

M.207 specifications

The Stanton M.207 is a cutting-edge aircraft designed for multi-role operations, showcasing a synthesis of advanced technologies and innovative features that cater to modern aviation necessities. This aircraft is characterized by a versatile design, enabling it to perform varied missions, including military transport, surveillance, and search and rescue.

One of the standout features of the M.207 is its aerodynamic profile, which contributes to enhanced fuel efficiency and superior flight performance. Its wings are crafted with a high-aspect ratio, providing increased lift and reduced drag, allowing for greater payload capacity without compromising speed or agility. The aircraft’s fuselage is constructed from lightweight composite materials, which not only enhances durability but also contributes to the overall efficiency of the aircraft.

Powering the Stanton M.207 are dual turbofan engines that provide exceptional thrust and allow for impressive operational range and speed. These engines are designed with advanced noise reduction technologies, meeting stringent environmental standards and making the aircraft suitable for operations in noise-sensitive areas. The propulsion system also features an advanced digital engine control system, optimizing performance and fuel consumption in real-time.

In terms of avionics, the M.207 is equipped with a state-of-the-art flight management system (FMS) that integrates various navigation, communication, and surveillance technologies. The cockpit features an advanced glass cockpit layout, enhancing pilot situational awareness and operational efficiency through intuitive displays and controls. The integration of artificial intelligence assists in decision-making processes, significantly improving mission outcomes.

The M.207’s modular design allows for easy configuration adjustments, enabling rapid role changes to suit mission-specific requirements. Whether outfitted for cargo transport, medical evacuation, or reconnaissance missions, the aircraft can be readily adapted without requiring extensive downtime.

Safety is a paramount concern in the design of the Stanton M.207, with multiple redundancy systems incorporated throughout its systems. The aircraft is equipped with advanced collision avoidance systems, enhancing safety during operations in congested airspace. Additionally, the inclusion of an onboard emergency response system ensures that the aircraft can remain operational or safely return to base in the event of failures.

Overall, the Stanton M.207 embodies modern aviation's evolution, merging innovative design with state-of-the-art technologies. Its unique combination of versatility, efficiency, and advanced capabilities positions it as a significant player in the future of multi-role aviation.