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KONTROL 5 Manual Rev B.

Page 16

4. APPENDIX

4.1 A Quick Lesson On DMX

DMX (aka DMX-512) was created in 1986 by the United States Institute for Theatre

Technology (USITT) as a standardized method for connecting lighting consoles to light-

ingdimmermodules.Itwasrevisedin1990andagainin2000toallowmoreexibility.

The Entertainment Services and Technology Association (ESTA) has since assumed

control over the DMX512 standard. It has also been approved and recognized for ANSI

standardclassication.

DMX covers (and is an abbreviation for) Digital MultipleXed signals. It is the most com-

mon communications standard used by lighting and related stage equipment.

DMX provides up to 512 control “channels” per data link. Each of these channels was

originally intended to control lamp dimmer levels. You can think of it as 512 faders

on a lighting console, connected to 512 light bulbs. Each slider’s position is sent over

the data link as an 8-bit number having a value between 0 and 255. The value 0 cor-

responds to the light bulb being completely off while 255 corresponds to the light bulb

being fully on.

DMX data is transmitted at 250,000 bits per second using the RS-485 transmission

standard over two wires. As with microphone cables, a grounded cable shield is used to

prevent interference with other signals.

TherearevepinsonaDMXconnector:awireforground(cableshield),twowiresfor

“Primary” communication which goes from a DMX source to a DMX receiver, and two

wires for a “Secondary” communication which goes from a DMX receiver back to a DMX

source.Generally,the“Secondary”channelisnotusedsodataowsonlyfromsources

to receivers. Hence, most of us are most familiar with DMX-512 as being employer over

typical3-pin“miccables,”althoughthisdoesnotconformtothedenedstandard.

DMXisconnectedusingadaisy-chaincongurationwherethesourceconnectstothe

inputoftherstdevice,theoutputoftherstdeviceconnectstotheinputofthenext

device, and so on. The standard allows for up to 32 devices on a single DMX link.

Each receiving device typically has a means for setting the “starting channel number”

thatitwillrespondto.Forexample,iftwo6-channelxturesareused,therstxture

might be set to start at channel 1 so it would respond to DMX channels 1 through 6,

andthenextxturewouldbesettostartatchannel7soitwouldrespondtochannels

7 through 12.

The greatest strength of the DMX communications protocol is that it is very simple

and robust. It involves transmitting a reset condition (indicating the start of a new

“packet”), a start code, and up to 512 bytes of data. Data packets are transmitted

continuously.Assoonasonepacketisnished,anothercanbeginwithnodelayif

desired (usually another follows within 1 ms). If nothing is changing (i.e. no lamp levels

change) the same data will be sent out over and over again. This is a great feature of

DMX--ifforsomereasonthedataisnotinterpretedthersttimearound,itwillbe

re-sent shortly.

Not all 512 channels need to be output per packet, and in fact, it is very uncommon

tondall512used.Thefewerchannelsareused,thehigherthe“refresh”rate.Itis

possible to get DMX refreshes at around 1000 times per second if only 24 channels are

being transmitted. If all 512 channels are being transmitted, the refresh rate is around

44 times per second.

DMXhasbecomethestandardforlightingcontrol.Itisexible,robust,andscalable,

and its ability to control everything from dimmer packs to moving lights to foggers to

lasers makes it an indispensable tool for any lighting designer or lighting performer.