AMX RE-DM6, RE-DM4 manual Basic dimming curve

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Appendix A: AMX Lighting Curves

Dimmer manufacturers follow or adopt a level to output ratio called the Square Law curve. It is an exponential relationship between percentage of light perceived and the percentage of light measured. The Square Law Curve is a presumed relationship between perceived illuminance and measured illuminance. The Radia Eclipse controller's Curve 1 is a basic Square Law Curve. From this basic curve, AMX has developed a set of curves other than standard to accommodate the many different properties of the various loads connected to a AMX dimmer. Multiple curves provide a user with multiple ways to control lighting. This provides lighting designers with a more powerful lighting tool.

To demonstrate how a AMX dimmer actually performed under real conditions, we adopted a set of uniform tests to display the output characteristics of a dimmer.

The AMX test fixture for incandescent tests was set up using a constant Voltage feed of 120 VAC to the dimmer. The output of the dimmer was connected to (6) 100W GE lamps with a total load of 5 Amps. All fluorescent tests were done using the RDM-HDC module connected to a (2) lamp Advance Mark VII ballast using T-8 rapid start lamps. These curve plots are to be used as a relative guide to determining optimum performance. Actual field performance and measurements will be similar but not equal. FIG. 38 shows a basic dimming curve.

FIG. 38 Basic dimming curve

Each curve allows a dimmer to change its output characteristics in relation to the amount of dimming. For example, the standard dimming curve at 50% could make a light brighter than another curve which was also at 50%.

Each AMX Lighting control channel has three dimmer characteristics; AC dimming, DC dimming, and switching. These are the three primary control methods for most lighting systems worldwide. The first characteristic is the output level in volts RMS. This is represented by the following Curve charts showing the Y-axis in (Dimmer) Output Level in Volts RMS (0-120VAC). The second characteristic is displayed on the second curve chart with the (Dimmer) Output Level in Volts DC (0-12VDC). The third characteristic is the turn on level for the switched (relay) aspect and is noted in text as the Relay Turn On Level.

This third characteristic controls the RLY output of the RDM connections on the RE-DM4. Previous versions of Radia would turn on the RLY outputs at INPUT (from control system) levels of 1 or above. Radia Eclipse turns on the RLY output at the OUTPUT level of 1, so that it can effected by curve choices and low end settings.

These three characteristics are applied to different AMX Lighting dimmers to change the way the dimmers perform. The first characteristic most often used for incandescent dimming requires a variable high-voltage output to one Hot wire connected to the incandescent lamp. The curve determines the amount of high-voltage applied to the dimmer's output in relation to the control level. The second dimmer characteristic applied to low-voltage output of the AMX RDM-HDC module is commonly used for fluorescent ballasts that require a low-voltage control signal to vary the output of the ballast. The third dimmer characteristic merely turns a relay on or off at a specified level. This third characteristic is set at an output level of 1. The combinations of these characteristics allow AMX to tailor the outputs of different AMX Lighting dimmers.

The RDM-INC module only requires the first characteristic that controls the high voltage output of a dimmer. All the internal dimmers in the RE-DM4 and RE-DM6 also use the first characteristic to determine dimmer output. All curve diagrams that use this characteristic are labeled in Volts RMS.

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RE-DM4 and RE-DM6 RADIA Eclipse Dimmer Modules

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Contents Radia Eclipse Dimmer Modules AMX Limited Warranty and Disclaimer Page Page Table of Contents Radia Lighting System Configuration Pages Initial Level Status Reporting Appendix a AMX Lighting Curves Overview Radia Eclipse RE-DM4 Dimmer ModuleDimmed Switched RE-DM4 SpecificationsRE-DM4 Specifications Suggested LoadsRE-DM4 4-pin module connector male Line-In ConnectionsRE-DM4 Lighting Application Drawings Lighting Application for the RE-DM4, Example aRadia Eclipse RE-DM6 Dimmer Module RE-DM6 6-channel Integrated Dimmer ModuleSuggested Installation Loads RE-DM6 SpecificationsRE-DM6 Specifications Line-In Connections for the RE-DM6 RE-DM6 Lighting Application Drawings Lighting Application for the RE-DM6, Method aAMX Lighting Control Equipment FeaturesApplications AMX Lighting Control EquipmentIntegrated dimmer control modules Dimmer AccessoriesDimmer modules Power considerations Wiring ConsiderationsSpace Requirements Conduit Knockout locations RDA-ENC2 used as exampleRDA-ENC2, -ENC4, and -ENC6 enclosure and dimensions RDA Enclosure DimensionsRDA-ENC6B and RDA-ENC12B enclosures and dimensions Mounting AMX Lighting Enclosures Distance a to BConnecting High-Voltage, Single-Phase Input Power and Loads High-Voltage ConnectionsRDA-ENC6B 120/240 VAC Line Input Single Phase RDA-ENC6B 120 VAC Single Phase Line InputConnecting High-Voltage Input Power and Loads RDA-ENC6B 120/208 VAC line input three phase RDA-ENC6B 120/208 VAC three-phase 4 W + G wiring diagramRDA-ENC6B Three Phase Line Input Connector Reference RDC-PFC Power Distribution And Line Input ReferencesInstalling RDM Modules Into an RDA Enclosure Enclosure module mounting slots and mounting screw holesLow-Voltage Connections Green LED Status IndicatorModule Connections Red LED Status Indicators RE-DM4 only Configuring and connecting multiple controllersSW1 DIP Switch Setting Values for AxLink Configuring and Connecting AxLinkValue Dry Closures External powerConnecting Dry Closures Failsafe InputDefault preset time values Default SettingsDefault Low-End Settings Default PresetsRadia Lighting System Configuration Pages Lighting System LinkRadia Configuration Manager Main Lighting SystemDevice Configuration Device ConfigurationPresets section Preset Configuration Radia Lighting System Configuration Pages AMX Radia Lighting Programming SoftwarePreset Status Presets Defined vs. Undefined LevelsPreset # Lighting Systems Overview Sample AMX Lighting controller and internal componentsProgramming Commands Control Curves and Low-End SettingsDefault Ramp Time Default Low-endDefault Ramp Time LevelsSENDSTRINGs AMX Lighting Channel CommandsChannels Protocol ConventionsRamp Dimmers Up Ramp Dimmers UpRamp Dimmers Down Ramp Dimmers DownRamp Active Preset Down Ramp Active Preset UpStop Ramping Dimmer Record Preset Stop Ramping PresetRecall Preset Level StatusSet Low End Set CurveCurve Status Low End StatusSet Default Preset Time RebootSet Default Level Time Dimmer StatusRamp To Level Set Default Ramp TimeUndefine Dimmer Factory Default Phase QueryVersion Query Sendcommand Protocol Conventions SENDCOMMANDsRamp Preset Up NEW Ramp Preset UpStop Ramping Preset NEW Ramp Preset Down NEWRamp Preset Down Set Low End NEW Reboot NEWCurve Status NEW Low End Status NEWUndefine Dimmer NEW Phase Query NEW Sendcommand Radia,?YAppendix a AMX Lighting Curves Basic dimming curve Curves Curve ConfigurationCurves Standard Dimming Curve Load Type CurvesCurve 1 Voltage Output in 240V AC Curve 1 with Low End Setting @ 5%, 10%, and 20% Volts RMS Economical Dimming Curve10VDC Curve Curve 2 at 240 VACCurve 3 at 120 VAC 12VDC Curve Curve 4 Voltage output in Volts RMSLutron FDB Curve Curve 4 Voltage output in volts DCCurve 5 at 240 VAC Advance Mark VII Curve Curve 6 Voltage output in Volts RMS12% Roll Off Curve 6 Voltage output in volts DCCurve 7 Voltage output in Volts RMS 19% Roll Off Curve 8 at 120 VAC33% Roll Off Curve 8 Voltage output in volts DCCurve 9 Voltage output in Volts RMS Curve #1 a Curve a at 120 VACLog-Curve #1 B Curve a Voltage output in volts DCCurve B Voltage output in Volts RMS Log-Curve #2 C Curve C at 120 VACCurve #2 D Curve C Voltage output in Volts DC10% Off Curve N Curve D Voltage output in Volts RMSAlways OFF Curve O Curve N at 240 VACAlways on Curve F Curve O at 240 VACCurve F at 240 VAC Curve R at 120 VAC Curves 5 & B on the Radia Eclipse RE-DM6 at 120 VAC Curves a & D at 120 VAC Page Testing AMX Lighting features Software IssuesUsing Pass mode Testing procedures for AMX Lighting featuresHardware Checklist Hardware IssuesTroubleshooting hardware To check thisPage Increase Your Revenue through education + knowledge
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RE-DM4, RE-DM6 specifications

The AMX RE-DM4 is a cutting-edge solution in the realm of digital media management, designed to cater to the complexities of modern broadcasting environments. This advanced device aims to streamline workflows, enhance media asset management, and ensure optimal media delivery across various platforms.

One of the standout features of the AMX RE-DM4 is its robust interface, which allows users to interact with the system intuitively. The device incorporates a user-friendly GUI that enables operators to manage media assets effortlessly. The interface supports drag-and-drop functionalities, which greatly simplifies the process of uploading, organizing, and retrieving digital content.

The AMX RE-DM4 also boasts innovative multimedia processing capabilities, allowing it to handle high-resolution video formats with ease. The device supports a range of codecs, ensuring compatibility with the latest video and audio standards. This versatility is crucial for broadcasters who frequently work with diverse media types and formats.

Furthermore, the AMX RE-DM4 features advanced metadata tagging and search functionalities. This technology empowers users to tag media assets with critical information, enabling quick retrieval and efficient categorization. The integrated search engine is designed to facilitate instant searches, thereby reducing downtime and improving overall productivity.

Another notable characteristic of the AMX RE-DM4 is its scalability. The system is designed to grow alongside evolving media requirements, making it an ideal choice for both small studios and large broadcasting networks. With modular components and expandable storage options, users can easily upgrade their systems as their needs change.

In terms of connectivity, the AMX RE-DM4 includes multiple input and output options, ensuring seamless integration with existing studio equipment and networks. It supports various protocols, which enhances compatibility with other devices and allows for more fluid media workflows.

Security is a crucial aspect of digital media management, and the AMX RE-DM4 addresses this by incorporating robust encryption and access control features. Users can set permissions for different team members, safeguarding sensitive content while still allowing collaborative work environments.

In conclusion, the AMX RE-DM4 emerges as a powerful tool for media professionals, integrating state-of-the-art technologies and features that enhance efficiency and productivity. Its intuitive interface, multimedia processing capabilities, advanced search options, scalability, and robust security measures make it a valuable asset in the fast-paced world of digital media management. This device exemplifies a forward-thinking approach to media handling, positioning itself as a leader in the industry.
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