AMX RE-DM4, RE-DM6 manual Curve Configuration, Curves

Page 59

Appendix A: AMX Lighting Curves

The RDM-SWM and RDM-ZC modules uses the third dimmer characteristic of switching a relay on or off. The relay turn on level indicates the level at which the switch module turns on. This is typically set to 1. A notable exception is Curve N, which is set at Level 9.

The RDM-FDB module uses a combination of the first and third characteristics to send a variable high-voltage output along with a single switched output. The RDM-FDB module is a combination of two devices in a single package. One device is an incandescent dimmer like the RDM-INC, and one device is a relay like the RDM- SWM. These devices combine to switch power on and off to a ballast, and at the same time deliver a high- voltage reference signal to the dimming ballast. The RDM-FDB module also works with several lighting interfaces made by companies other than AMX.

The RDM-HDC module uses a combination of the second and third dimmer characteristic to send a variable low-voltage control signal along with a single switched output. This module is commonly used for control of dimmable fluorescent ballasts.

Curves can be used for energy-saving applications where the high end needs to be trimmed to reduce voltage to the lamps and thereby increase lamp life. They can also be used to reduce the dimming range of some fluorescent ballasts, which can prevent premature failure of the ballasts and lamps.

The AMX Lighting system now offers over 12 ways to alter the performance of the lighting fixture by digitally changing the way the dimmer responds. Using the RDM-HDC module, for instance, to control an 0-10 volt ballast applied to a single compact fluorescent light fixture might 'look' better when dimmed using one curve instead of another. After the furniture is installed, the designer may decide that a different curve applied to certain fixtures has a better 'feel.' It is now possible to apply many new curves to all the AMX Lighting dimmers using simple commands. Designers and specifiers have much more control over the look and feel of their designs using the AMX Lighting system. Installers will have greater ability to temper the output of a dimmer to avoid problems.

As the dimming level increases the output voltage increases. The dimmer goes smoothly from 0 to 120 volts output. This is the most common curve used in dimming applications.

Relay turn on level = 1%

Dimming Range = 0 - 120 VAC.

Curve Configuration

Each Radia dimmer maintains non-volatile configuration information that is necessary to the operation of the dimmer such as presets, curves, ramp times, etc. The configuration can be uploaded and downloaded from the dimmer for the purposes of providing a user interface to ease the configuration process and for archival purposes.

Curves

Curves are used to define the relationship between the dimmer's level and the actual output voltage. For example, the typical curve (curve 1) is a linear mapping of the dimmer's input level to the dimmer's output level which means a value of 10% in the input level will result in a 10% output voltage.

The selection of which curve to use is purely a function of the type of electrical load connected to the dimmer's output. For example, an incandescent load would typically use curve 1 or curve 2 and a Prescolite fluorescent ballast would use curve 4.

The table below summarizes the curves supported by the Radia:

Curves

Symbol

Description

Symbol

Description

 

 

 

 

1

Standard Dimming Curve

A

S-curve #1

 

 

 

 

2

Economical Dimming Curve (0-90%)

B

Log-curve #1

 

 

 

 

3

0-10 VDC Curve for Advance MK VII, Motorola Helios

C

Log-curve #2

 

 

 

 

4

0-12 VDC Curve for Prescolite Intelect

D

S-Curve #2

 

 

 

 

5

Advance Mark VII

E

25% off

 

 

 

 

6

Advance Mark VII

F

Always ON

 

 

 

 

7

12% roll off

N

10% off

 

 

 

 

8

19% roll off for Lutron FDB

O

Always off

 

 

 

 

9

33% roll off for Lutron FDB

R

Reverse Linear

 

 

 

 

RE-DM4 and RE-DM6 RADIA Eclipse Dimmer Modules

51

 

 

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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 Radia Eclipse RE-DM4 Dimmer Module OverviewSuggested Loads RE-DM4 SpecificationsRE-DM4 Specifications Dimmed SwitchedLine-In Connections RE-DM4 4-pin module connector maleLighting Application for the RE-DM4, Example a RE-DM4 Lighting Application DrawingsRE-DM6 6-channel Integrated Dimmer Module Radia Eclipse RE-DM6 Dimmer ModuleRE-DM6 Specifications RE-DM6 SpecificationsSuggested Installation Loads Line-In Connections for the RE-DM6 Lighting Application for the RE-DM6, Method a RE-DM6 Lighting Application DrawingsAMX Lighting Control Equipment FeaturesApplications AMX Lighting Control EquipmentDimmer modules Dimmer AccessoriesIntegrated dimmer control modules Space Requirements Wiring ConsiderationsPower considerations Knockout locations RDA-ENC2 used as example ConduitRDA-ENC6B and RDA-ENC12B enclosures and dimensions RDA Enclosure DimensionsRDA-ENC2, -ENC4, and -ENC6 enclosure and dimensions Distance a to B Mounting AMX Lighting EnclosuresHigh-Voltage Connections Connecting High-Voltage, Single-Phase Input Power and LoadsConnecting High-Voltage Input Power and Loads RDA-ENC6B 120 VAC Single Phase Line InputRDA-ENC6B 120/240 VAC Line Input Single Phase RDA-ENC6B 120/208 VAC three-phase 4 W + G wiring diagram RDA-ENC6B 120/208 VAC line input three phaseRDC-PFC Power Distribution And Line Input References RDA-ENC6B Three Phase Line Input Connector ReferenceEnclosure module mounting slots and mounting screw holes Installing RDM Modules Into an RDA EnclosureModule Connections Green LED Status IndicatorLow-Voltage Connections Configuring and connecting multiple controllers Red LED Status Indicators RE-DM4 onlyValue Configuring and Connecting AxLinkSW1 DIP Switch Setting Values for AxLink Failsafe Input External powerConnecting Dry Closures Dry ClosuresDefault Presets Default SettingsDefault Low-End Settings Default preset time valuesLighting System Link Radia Lighting System Configuration PagesMain Lighting System Radia Configuration ManagerDevice Configuration Device ConfigurationPresets section Preset Configuration Radia Lighting System Configuration Pages Software AMX Radia Lighting ProgrammingPreset # Presets Defined vs. Undefined LevelsPreset Status Sample AMX Lighting controller and internal components Lighting Systems OverviewControl Curves and Low-End Settings Programming CommandsLevels Default Low-endDefault Ramp Time Default Ramp TimeProtocol Conventions AMX Lighting Channel CommandsChannels SENDSTRINGsRamp Dimmers Down Ramp Dimmers UpRamp Dimmers Down Ramp Dimmers UpStop Ramping Dimmer Ramp Active Preset UpRamp Active Preset Down Level Status Stop Ramping PresetRecall Preset Record PresetLow End Status Set CurveCurve Status Set Low EndDimmer Status RebootSet Default Level Time Set Default Preset TimeUndefine Dimmer Set Default Ramp TimeRamp To Level Version Query Phase QueryFactory Default Ramp Preset Up SENDCOMMANDsRamp Preset Up NEW Sendcommand Protocol ConventionsRamp Preset Down Ramp Preset Down NEWStop Ramping Preset NEW Low End Status NEW Reboot NEWCurve Status NEW Set Low End NEWUndefine Dimmer NEW Sendcommand Radia,?Y Phase Query NEWAppendix a AMX Lighting Curves Basic dimming curve Curves Curve ConfigurationCurves Load Type Curves Standard Dimming CurveCurve 1 Voltage Output in 240V AC Economical Dimming Curve Curve 1 with Low End Setting @ 5%, 10%, and 20% Volts RMSCurve 2 at 240 VAC 10VDC CurveCurve 3 at 120 VAC Curve 4 Voltage output in Volts RMS 12VDC CurveCurve 4 Voltage output in volts DC Lutron FDB CurveCurve 5 at 240 VAC Curve 6 Voltage output in Volts RMS Advance Mark VII CurveCurve 6 Voltage output in volts DC 12% Roll OffCurve 7 Voltage output in Volts RMS Curve 8 at 120 VAC 19% Roll OffCurve 8 Voltage output in volts DC 33% Roll OffCurve 9 Voltage output in Volts RMS Curve a at 120 VAC Curve #1 aCurve a Voltage output in volts DC Log-Curve #1 BCurve B Voltage output in Volts RMS Curve C at 120 VAC Log-Curve #2 CCurve C Voltage output in Volts DC Curve #2 DCurve D Voltage output in Volts RMS 10% Off Curve NCurve N at 240 VAC Always OFF Curve OCurve O at 240 VAC Always on Curve FCurve 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 procedures for AMX Lighting features Software IssuesUsing Pass mode Testing AMX Lighting featuresTo check this Hardware IssuesTroubleshooting hardware Hardware ChecklistPage 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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