Dynalite DMC810GL User manual
WMGD Pty Limited trading as Dynalite
Unit 6, 691 Gardeners Road Mascot NSW 2020 Australia
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DMC810GL
Leading Edge Dimmer/HF Ballast Controller Installation Manual
contents
Warning…………………………………………….. 2 Dimmable Lamps Chart……………………….….. 7
Features……………………………………………..2 Preset Programming Using The Program Key.…8
Important Safeguards…………………………….. 2 Hold Down Programming Of Presets.……………9
Internal View……………………………………….. 3 One Touch Button Operation…………………….. 9
Mounting…………………………………….………4 Troubleshooting…………………………………….10
Supply & Load Cable Connections.………………5 Specification………………………………………. 10
Connecting Serial Control Cables……………….. 6 Useful DyNet Op Codes…………………………. 11-12
Hardware Controls …………………………………7
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DMC810GL Instruction Manual Rev B.DOC 2
features
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Single Phase Supply
Simple supply requirement, single phase at 40A.
4 Dimmed Outputs
Each dimmed 10A output is independently
regulated, protecting loads from voltage surges
and spikes. These outputs are overload protected
by a single 10A circuit breaker shared with a
switched output.
4 Switched Outputs
Each switched output is rated at 10A. These
outputs are overload protected by a single 10A
circuit breaker shared with a dimmed output.
4 Control Outputs
Each of the 4 optically isolated outputs can be
configured to be either DALI Broadcast, 1-10V, or
DSI control, covering the latest types of HF
Fluorescent Ballasts and dimmable electronic
transformers. These outputs can operate in
tandem or independently of the switched outputs.
Convection Cooled
This device is naturally aspirated, requiring no
mechanical cooling system when installed in
accordance with these instructions.
Many Control Options
Control of this device can be from a combination
of available methods, eg. serial control port, relay
contacts, push button wall stations, infra red
receivers and timeclocks. Easy high level
interface to other popular AV control systems and
Building Management Systems (BMS) is also
available.
Simple Installation
Wall mount enclosure with mounting lugs
facilitate installation. Cable knockouts are
provided, at the top & side of the enclosure for
supply and load cables, with safety extra low
voltage (SELV) control section at the bottom.
important safeguards
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Instructions – We recommend that you read this
Manual prior to installation, retain it and give the
end user.
Troubleshooting - If problems are encountered,
check the “Troubleshooting” section on page 10.
Special Programming – This device will only
operate in basic modes unless programmed via a
computer or a portable programmer. If
programming is required, contact your local agent
for details. Once the data cable is connected to the
devices, the factory default settings will allow any
control panel to control all channels in all dimmers.
Check Connections – Treat this device as a
switchboard that has been shipped. Tighten all
load-carrying screw connections, as vibrations from
transport can cause MCB and terminal block
screws to become loose.
Power Sources – This device should only be
operated from the type of supply specified on the
front panel. This device must be earthed.
Dimmed and Switched Output Circuits – The
load on a circuit should not exceed the specified
capacity of 10A for a dimmed channel and 10A for
a switched channel. Loads should be calculated to
ensure that the overall maximum capacity of 40A
(10A per pair of dimmed & switched channels) is
not exceeded.
Ballast Control Load Control Circuits – If this
device is being used to control DALI, 1-10V or DSI
HF Fluorescent Ballasts, a 2 core LV insulated
control cable is required to be run to the loads, in
addition to the mains feed. Note that the ballast
control outputs are not SELV as they are not double
insulated from mains.
Load Type – Default is for ballast load control
outputs to be 1-10V. Check to see what type of HF
Fluorescent Ballasts are in the luminaries. When
connecting 1-10V load control lines, pay attention
that the correct polarity is maintained.
Mounting Location – Device must be mounted
right way up, on a vertical surface (refer to page 4
for mounting instructions). The specified minimum
clearance of 100mm for all sides must be adhered
to. Install in a dry, well-ventilated location.
Controllers may emit some mechanical noise. Take
this into account when deciding the mounting
location.
Data Cable – The recommended cable for
connections to the serial port is screened, stranded
RS485 data cable with three twisted pairs. Part
numbers for various manufacturers are listed on
page 6. This cable should be segregated from
mains cables by a minimum distance of 300mm –
subject to local wiring regulations. If anticipated
cable runs are over 600 metres for serial cables,
consult your dealer for advice. Do not cut or
terminate live data cables.
Warning
TO REDUCE THE RISK OF FIRE OR
ELECTRIC SHOCK, DO NOT EXPOSE
THIS DEVICE TO RAIN OR MOISTURE.
DO NOT ENERGISE UNLESS THE
FRONT COVER IS IN PLACE.
THIS DEVICE MUST BE EARTHED.
INSTALLATION, PROGRAMMING AND
MAINTENANCE MUST BE CARRIED OUT
BY QUALIFIED PERSONNEL
internal view
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DMC810GL Instruction Manual Rev B.DOC 3
For spare parts, please call your nearest Dynalite Customer Service Centre, and specify: DMC810GL
Entry Gland Plate for
Load Cables
Circuit Breakers and
Emergency Lighting line Outputs
Dimmed or
Switched 230V Outputs
40A Single Phase
Supply Connections
4 x Side Entry
Gland Knockouts
DALI Broadcast,
1-10V or DSI
Control Outputs
Earth Lin
k
Accessory Port
DyNet Port
Network
Socket
Service Switch
Service LED
Low Voltage Cable
Gland
mounting
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DMC810GL Instruction Manual Rev B.DOC 4
Select A Suitable Location
This device is designed for indoor use only. If
installing in an external location, the DMC810GL
must be housed in a suitable well-ventilated
enclosure. Choose a dry location that will be
accessible after the installation is complete. To
ensure the cooling system functions correctly, the
DMC810GL should only be mounted vertically, the
right way up. The DMC810GL will generate heat
when operating, approximately 2 Watts per Amp
of load connected to the dimmed channels only,
and requires an air gap of 200mm on each side
and at the top and bottom of the device. This air
gap is also required to ensure serviceability of the
DMC810GL without complete removal from the
mounting surface. This device may emit some
mechanical noise. Take this into account when
deciding the mounting location.
Fixing the Device
The DMC810GL has integral mounting brackets
attached to the enclosure. The brackets are
designed to accommodate 4 fixing screws up to
8mm diameter. The DMC810GL can be fixed to
the wall without opening the cabinet or removing
covers. Make sure no dust or other debris enters
the device during installation. Do not leave the
front cover off for any length of time. Excessive
dust and dirt can degrade the cooling of internal
components.
Allow For Cable Entry
Supply and load cables enter the enclosure at the
top. If these cables are fed from below the
mounting position, they should be routed around
the enclosure to enter at the top. An alternative
method is to stand the enclosure off from the
mounting surface by mounting it on a cable tray or
a Unistrut style product. The cables can then be
routed between the enclosure and the mounting
surface, and enter the enclosure via the cutout
provided on the mounting face. The control
cables enter at the bottom of the enclosure.
Control cables should never be run in the mains
voltage sections of the enclosure.
supply & load cable connections
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DMC810GL Instruction Manual Rev B.DOC 5
Supply Cables
The Phase & Neutral supply terminals are located
toward the middle of the enclosure. The supply
cables shall have a minimum capacity of 40A, to
prevent cable overheating.
Dimmed and Switched Load Cables
Dimmed and switched load cables shall be
terminated on 4 designated terminal blocks (one
Phase & Neutral for each channel), and an Earth
link located at the centre of the enclosure. These
connectors will accept up to 4mm2cables. It is
important that an individual output circuit is not
overloaded. Calculate the intended load, and
ensure that it is below the maximum capacity of
an individual channel. Channels 1 – 4 are dimmed
channels with a maximum capacity of 10 Amps
per channel. Channels 5 – 8 are Switched
channels, with a maximum capacity of 10 Amps
per channel, total load per 2 channels protected
by a single MCB is 10 Amps. The load neutral
cables shall be individually connected to the
neutral link terminals provided per channel with a
max of 10Amps per neutral terminal. Never use a
common neutral at a remote location.
Ballast Control Cables
Ballast Control cables shall be terminated on the
designated terminal block located directly below
the Load terminals. These terminals are labelled
CH9 to CH12, and can operate in tandem with the
corresponding Load Outputs, or can be
programmed to operate independently. 1-10V,
DSI or DALI broadcast control are software
configurable.
Emergency Lighting Connections
Connect emergency lighting circuit active to the
load side on the circuit breaker for the relevant
bank of 2 channels, as indicated by the front panel
markings next to the circuit breakers. Do not
remove any cables that may already be
terminated, make sure device is isolated before
removing cover.
Energising the Device
If it is necessary to energise load circuits before
any control cables are connected, it is acceptable
to energise the device and replace the cover
immediately, as the default factory programming
is to have all channels set to 100% output. If
there is no output on any or all channels, see the
“Troubleshooting” section (page 11). This device
shall be de-energised before terminating any
control or data cables.
1. Su
pp
l
y
Terminals
2. Emergency Lighting Terminals
3. Load Terminals
4. Ballast Control Terminals 1-10V,
DSI, or DALI Broadcast
1
2.
3.
4.
Connecting Serial Control Cables
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DMC810GL Instruction Manual Rev B.DOC 6
Connecting Data Cable
Determine Your Requirements
Serial ports are used to interconnect other
dimmers, smart control panels, sensors and AV
controllers. Serial port devices can be identified by
6 terminals, labelled: SHLD, GND, DATA+, DATA-,
+12V, AUX.
Serial Cable Connections
There is one RS485 port for DyNet signals, in the
form of a RJ12 socket, on the front panel, which is
used for the temporary connection of a PC or a
DTK601 Portable Programmer. Data terminals on
the control card shall be used for permanent
connections. Cable for connections to the serial
port shall be screened, stranded RS485 data cable,
with three twisted pairs. Recommended cable types
include:
Belden: 9503
Dynalite: DYNET-STP-CABLE
Garland: MCP3S
Hartland: HCK603
M&M Cable: B2003CS
M&M Cable: B9503CS
Multicables: AWM E120236 2092 20
RS Components: 368-687
One pair is paralleled for GND, one pair paralleled
for +12V and one pair used for DATA+ and DATA -.
Recommended Cable Colour Coding
Green/White pair: Paralleled for GND
Orange/White pair: Paralleled for +12V
Blue/White pair: Blue for DATA+
White for DATA-
Brown/White pair: Spare or for Join
The colour-coding scheme used is not critical, as
long as the same scheme is used throughout the
installation.
Serial Cable Connecting Method
The recommended connecting method is to ‘daisy
chain’ devices (starting at the first device, then
looping in then out of devices, with a single cable
terminating at the last device. There should not be
any spurs or stubs, and only the first and last
device shall terminate one cable. All other devices
should terminate two cables). Devices may be
wired in any order. The data cable should be
segregated from any mains cables. A data cable
that is connected to an energised dimmer is live.
Do not cut or terminate live data cables. If the data
cable has to cross over any mains cables, it is
recommended that it do so at a 90angle to
minimise noise coupling. Sufficient insulation shall
be provided, subject to local regulations.
Connect Data Cable in a ‘Daisy Chain’
RJ12 Socket Connections
Serial Cable Permanent Connections
preset programming using the program key
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DMC810GL Instruction Manual Rev B.DOC 7
AUX Input - This is a dry contact interface that is active low. The dry contact is connected between the AUX
and GND terminals on the DyNet connector strip. The function of the AUX input is programmable. Ensure
that the cable length between the dry contact and terminal strip is no longer than 2 metres.
Service LED - The Service LED has 3 signalling modes, which are useful for troubleshooting:
Blinking slowly (1Hz) = Normal Operation
Blinking fast (4Hz) = Network Activity Detected
On = Fault
Service Switch - The Service Switch has three functions:
1 push = Transmit Network ID
3 pushes = All Channels 100%
Push & hold for 4 sec = Reboot
Top Set - This adjusts the maximum output that all other control sources can select, ie: if the Top Set is fully
clockwise, 100% selected by a control source will give 100% output. If it is fully anti-clockwise, 100%
selected by a control source will give 50% output. This control is useful for extending lamp life and can be
operated without any form of network control, effectively turning the device into a stand-alone power
conditioner and lamp protector.
Accessory Module Socket - Accepts plug in multi function accessory modules for optional features such as
additional dry contact inputs, 2nd DyNet port and Time clocks. Consult your distributor for details on the
available accessory modules.
dimmable lamps chart
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INCANDESCENT
LAMPS Incandescent lamps are easily dimmed using all Dynalite controllers. The soft start and
voltage limit features will extend lamp life. Lamp life can be further extended using the
voltage limit adjustment.
TUNGSTEN
HALOGEN
LAMPS
Tungsten halogen and other transformer loads are easily dimmed using all Dynalite
controllers. The soft start and surge limiting features will protect lamps against premature
failure. Lamp life can be extended using the voltage limit adjustment. Ensure that
transformer is designed for dimming.
FLUORESCENT
LAMPS (26mm,
T8)
26mm slimline tubes can be dimmed to as low as 1% using a dimmable electronic ballast.
No de-rating is necessary with electronic ballasts. Contact your Dynalite dealer for more
information.
FLUORESCENT
LAMPS (16mm,
T5)
16mm slimline tubes can be dimmed to as low as 1% using a dimmable electronic ballast.
No de-rating is necessary with electronic ballasts. Contact your Dynalite dealer for more
information. Must be dimmed with electronic ballasts which accept 1-10V, DSI or DALI
broadcast.
COMPACT
FLUORESCENTS Only some types of CFL lamps can be successfully dimmed. Best results are achieved with
dimmable HF ballasts
preset programming using the program key
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DMC810GL Instruction Manual Rev B.DOC 8
STEP 1:
Select Preset to be changed by pushing buttons 1-4. The button
LED will indicate current scene.
STEP 2:
Hold down the PROGRAM button until all the button LEDs light
up (approximately five seconds). The chosen preset button LED
will be flashing.
STEP 3:
To increase or decrease the brightness of all channels at the
same time press the up, down or off button until the required
brightness is required.
STEP 4:
To set the level of an individual channel, press 1–4. The button
LED will indicate which channel you have selected. When more
than 4 channels are to be set, press 1 twice for channel 5, press
2 twice to select channel 6,- press 1 three times to get channel 9
etc. Each press of the button increases the active channel
number by 4.
STEP 5:
Press the up, down or off buttons until the lamps on the selected
channel reach the desired level. Select the next channel and
change in the same way.
STEP 6:
When all channels of the preset scene have been established,
press PROGRAM again and the levels will be stored to the
current preset. To program another preset, repeat steps 1 - 6.
hold down programming of presets
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DMC810GL Instruction Manual Rev B.DOC 9
STEP 1:
To program preset scenes, press MANUAL
STEP 2:
Adjust channel levels using sliders.
STEP 3:
Press and hold down the button to which the settings are
to be stored for at least 5 seconds. Repeat this process
for the other presets. The preset scenes are now stored
and can be recalled by pressing the relevant buttons on
this panel, or other panels in the same area.
one touch button operation
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STEP 1:
With a simple button push you can toggle between on and off.
STEP 2:
By holding your finger on the button you can raise and lower the
lighting circuit or circuits that are connected to the button. To
alternate between up and down stop pushing for a moment and
then hold down again. The level that is selected is saved and
restored when the lights off and then on again.
troubleshooting
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DMC810GL Instruction Manual Rev B.DOC 10
Check the following list. If you are still unable to rectify the situation, contact your nearest Dynalite office. A complete list of
distributors worldwide can be found on the Internet at: http://dynalite-online.com/html/contacts.htm. Please ensure that you
have completed the following prior to calling our technical support department.
Check all symptoms in the Troubleshooting list
Check for any deviations between the installation and the installation instructions
Make a list of the model numbers of all devices used in the system
SYMPTOM PROBABLE CAUSE ACTION
Dimmer does not operate at all. No Service LED
activity. Power supply indicator LED on PCB not lit. Incorrect connection of mains supply, or no
power available. Check power supply to dimmer. Check Line and
Neutral input connections.
Power supply indicator LED lit, but no Service LED
activity. Supply voltage too low, short circuit on
network. Control PCB faulty. Check supply voltage is at least 75% of rated
voltage. Check 12V terminal voltages.
Disconnect network bus and restore power.
Replace control PCB.
Dimmer will not respond to control panel push
buttons. Control panel incorrectly wired or incorrect
configuration. Check operation of LEDs on control panel. Push
button on panel and study response of service
LED.
Dimmer operates properly but circuit breakers keep
tripping. Instant tripping: - short circuit on load.
Delayed tripping: - dimmer overloaded. Check load wiring for short circuits. Verify
dimmer loading with current tester (don’t forget to
de-rate for low power-factor loads and
transformer losses). Check that the breaker
terminals are tight.
Fluorescent lights won’t dim. Wrong type of ballast or ballast incorrectly
wired. Check ballast type. Check actual wiring against
ballast manufacturer’s diagram. Check 1-
10V/DSI, DALI Broadcast settings.
specification
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Supply: 230V ±14% 50/60Hz Single Phase at 40A
Outputs: 4 x 10A dimmed (leading edge phase control) outputs
4 x 10A switched outputs
4 x HF ballast control outputs selectable to DALI Broadcast, 1-10V DC, DSI
Protection: 4 x 10A 6kA single pole thermal magnetic circuit breakers
Regulating Device: Triac 600V, 40A nom. 400A surge
Switching Device: Relay 16A nom. (resistive), Fluorescent 800A surge, Incandescent 165A surge,
Power Conditioning; Regulated outputs
Over voltage protection
Surge protection
Brownout/Sag protection
Spike protection
Soft Start
Interference Suppression: Iron powder toroidal choke
Rise Time: 100S at 230V
Control Inputs: 1 x RS485 DyNet
/
DMX512 serial port
1 x programmable dry contact AUX input
User Controls: Service Switch
Diagnostic LED
Internal Controls: Programmable Logic Controlle
r
Dynalite Accessory Module enabled
DyNet DC Supply: 200mA
Preset Scenes: 170
Supply Terminals: Line, Neutral
–
2 x 10mm2max conductor size
Output Terminals: Line, Neutral for each channels 1-8
2 x 4mm2max conductor size
Earth link bar provided
0V/DSI/DALI, +V/DSI/DALI for channels 9-12
1 x 2.5mm2max conductor size
Cable Entries: Mains
–
8 x 25mm dia. knockout
Data – 1 x 25mm dia. knockout
Diagnostic Functions:
(DTK600, DLight or BAS interface required
for displaying and analysing diagnostic data)
Device Online/Offline status
Circuit breaker trip reporting (optional)
Circuit run time tracking
Compliance: CE, C-Tick, RCM
A
mbient Temperature: 40C max.
Construction: Alloy/Steel wall mount case with epoxy finish
Dimensions: Height 370mm x Width 215mm x Depth 170mm (excludes wall brackets)
Weight: 7.5 Kilograms
useful DyNet op codes
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DMC810GL Instruction Manual Rev B.DOC 11
Interface Use RS485, 9600, 8 bit data, 1
start bit, 1 stop bit, no parity. Idle between
bytes to be < 1ms. Delay between Packets
to be > 10ms.
Logical Message Protocol 8 byte packet,
Checksum = Negative 8 bit 2's complement
sum of bytes 1-7. All numbers in
hexadecimal:
Select Current Preset
Byte 0: 1C hex
Byte 1: Area
Byte 2: Fade Rate low byte (usually
100)
Byte 3: Preset: 0 = P1, 1 = P2, 2 = P3, 3
= P4, A = P5, B = P6, C = P7, D = P8
Byte 4: Fade Rate high byte (usually 0)
Byte 5: Preset Bank: 0 = P1 – P8, 1 =
P9 – P16, 2 = P17 – P24 etc.
Byte 6: Join
Byte 7: Checksum
Example: Select Preset 4 in Area 1:
[1C] [01] [20] [03] [00] [00] [FF] [C1]
Set to Off
Byte 0 1C hex
Byte 1 Area
Byte 2 Fade Rate low byte (usually
100)
Byte 3 4
Byte 4 Fade Rate high byte (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Turn Area 1 Off:
[1C] [03] [0A] [04] [00] [00] [FF] [D4]
Decrement Level (sent to dimmers)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Fade Rate low byte (usually
100)
Byte 3 5
Byte 4 Fade Rate high byte (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Decrease the level of Area 3:
[1C] [03] [1F] [05] [00] [00] [FF] [BE]
Increment Level (sent to dimmers)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Fade Rate low byte (usually
100)
Byte 3 6
Byte 4 Fade Rate high byte (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Decrease the level of Area 3:
[1C] [03] [1F] [06] [00] [00] [FF] [BD]
Save Current Preset
Byte 0 - 1C
Byte 1 - Area
Byte 2 - Not used
Byte 3 - Opcode $66
Byte 4 - Not used
Byte 5 - Not used
Byte 6 - Join or Domain
Byte 7 - Checksum
Example: Save Current Preset in Area 1:
[1C] [01] [00] [66] [00] [00] [FF] [7E]
Restore Saved Preset
Byte 0 - 1C
Byte 1 - Area
Byte 2 - Fade - low Byte
Byte 3 - Opcode 67
Byte 4 - Fade - high Byte
Byte 5 - Not used
Byte 6 - Join or Domain
Byte 7 - Checksum
Example: Restore Saved Preset in Area 1:
[1C] [01] [FA] [67] [00] [00] [FF] [83]
Preset Offset
Byte 0 - 1C
Byte 1 - Area
Byte 2 - Data - Offset value plus Bit 8
set, to distinguish Preset Offset from Swap
Bank
Byte 3 - Opcode $64
Byte 4 - Not used
Byte 5 - Not used
Byte 6 - Join or Domain
Byte 7 - Checksum
Example: Preset Offset of 15 in Area 1:
[1C] [01] [8F] [64] [00] [00] [FF] [F1]
Reset Preset
Byte 0 - 1C
Byte 1 - Area
Byte 2 - Fade - low Byte
Byte 3 - Opcode $0F
Byte 4 - Fade - high Byte
Byte 5 - Not used
Byte 6 - Join or Domain
Byte 7 - Checksum
Example: Reset Preset in Area 1 over 5
seconds:
[1C] [01] [FA] [0F] [00] [00] [FF] [DB]
Area Linking
The Base Area acts like an Area 0 for all
Channels that have that Base Area defined,
and is useful as a global control for a block
of Areas. The following is for the 24 Areas
directly above the Base Area, as used by
the Set Area Links and Clear Area Links
messages:
Byte 2 Bit 7 is the 1st Area, and Bit 0 is 8th
Byte 4 Bit 7 is the 9th, and Bit 0 is the 16th
Byte 5 Bit 7 is the 17th, and Bit 0 is the 24th
Set Area Links:
Byte 0 - 1C
Byte 1 - Area
Byte 2 - Data - Areas to Link
Byte 3 - Opcode $20
Byte 4 - Data - Areas to Link
Byte 5 - Data - Areas to Link
Byte 6 - Join
Byte 7 - Checksum
Example: Link Areas 4 & 5 (assumes
Base Area = 3):
[1C] [04] [80] [20] [00] [00] [FF] [C0]
Clear Area Links
Byte 0 - 1C
Byte 1 - Area
Byte 2 - Data - Areas to Unlink
Byte 3 - Opcode $21
Byte 4 - Data - Areas to Unlink
Byte 5 - Data - Areas to Unlink
Byte 6 - Join
Byte 7 - Checksum
Example: Separate Areas 4 & 5 (assumes
Base Area = 3):
[1C] [04] [80] [21] [00] [00] [FF] [C0]
Un Panic Clears panic condition (Unlocks
Smart Panels & restores previous dimmer
Preset)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Unused(usually 0)
Byte 3 17 hex
Byte 4 Unused(usually 0)
Byte 5 Unused(usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Restore normal operation in
Area 2:
[1C] [02] [F0] [18] [00] [00] [FF] [DB]
Panic Sets panic condition (Locks Smart
Panels & selects dimmer Panic Preset)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Unused(usually 0)
Byte 3 18 hex
Byte 4 Unused(usually 0)
Byte 5 Unused(usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Select Panic Mode in Area 2:
[1C] [02] [F0] [17] [00] [00] [FF] [DC]
Request Channel Level (sent to dimmer)
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 61 hex
Byte 4 Unused(usually 0)
Byte 5 Unused(usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Request Level of Channel 5
(Area 2):
[1C] [02] [04] [61] [00] [00] [FF] [7E]
Report Channel Level (reply from dimmer)
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 60 hex
Byte 4 Target LEVEL (01 = 100%, FF =
0%)
Byte 5 Current LEVEL (01 = 100%, FF
= 0%)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Report that Channel 5 (Area 2)
Target Level is 58% & Current Level is
58%:
[1C] [02] [04] [60] [70] [70] [FF] [9F]
Start Fading To A Level (0.1 sec to 25.5
sec)
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 71 hex
Byte 4 CHANNEL LEVEL (01 = 100%,
FF = 0%)
Byte 5 Fade Rate (0.1 sec INTERVAL)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Area 2 Channel 3 Fade to 50%
over 5 seconds:
[1C] [02] [02] [71] [82] [32] [FF] [BC]
Start Fading to a Level (1 sec to 255 sec)
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 72 hex
Byte 4 CHANNEL LEVEL (01 = 100%,
FF = 0%)
Byte 5 Fade Rate (1 sec INTERVAL)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Area 2 Channel 3 Fade to 50%
over 50 seconds:
[1C] [02] [02] [72] [82] [32] [FF] [BB]
Start Fading to a Level ( 1 min to 22 min)
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 73 hex
Byte 4 CHANNEL LEVEL (01 = 100%,
FF = 0%)
Byte 5 Fade Rate (1 min INTERVAL,
max of 22)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Area 2 Channel 3 Fade to 50%
over 15 minutes:
[1C] [02] [02] [73] [82] [0f] [FF] [DD]
useful DyNet op codes
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DMC810GL Instruction Manual Rev B.DOC 12
Stop Fading
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 76 hex
Byte 4 Unused (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Area 4 Channel 6 Stop Fading:
[1C] [04] [05] [76] [00] [00] [FF] [66]
Report Preset (reply from dimmers -
response from 63 message)
Byte 0 1C hex
Byte 1 AREA
Byte 2 PRESET NUMBER (0 origin)
Byte 3 62 hex
Byte 4 Unused(usually 0)
Byte 5 Unused(usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Area 4 is currently in Preset 6:
[1C] [04] [05] [62] [00] [00] [FF] [7A]
Request Preset (sent to dimmers)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Unused(usually 0)
Byte 3 63 hex
Byte 4 Unused(usually 0)
Byte 5 Unused(usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Request Current Preset of Area
4:
[1C] [04] [00] [63] [00] [00] [FF] [7E]
Start Fading to A Level (All Channels in an
Area)
Byte 0 1C hex
Byte 1 AREA
Byte 2 LEVEL (01 = 100%, FF = 0%)
Byte 3 79 hex
Byte 4 Fade Rate low byte (usually
100)
Byte 5 Fade Rate high byte (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Fade Area 4 to 50% over 2 sec:
[1C] [04] [82] [79] [64] [00] [FF] [82]
Stop Fading (All Channels In An Area)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Unused (usually 0)
Byte 3 7A hex
Byte 4 Unused (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Halt the Fade in Area 4 at the
current level:
[1C] [04] [00] [7A] [00] [00] [FF] [67]
Toggle Channel State (PresetOff or
OffPreset)
Byte 0 1C hex
Byte 1 AREA
Byte 2 CHANNEL NUMBER (0 origin)
Byte 3 70 hex
Byte 4 UNUSED (usually 0)
Byte 5 UNUSED (usually 0)
Byte 6 TBAR (usually FF hex)
Byte 7 CHECKSUM
Example: Toggle Channel State of Area 4
CH8:
[1C] [07] [09] [70] [00] [00] [FF] [65]
Program Toggle Preset (sent to dimmer)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Channel Number (0 origin)
Byte 3 7D hex
Byte 4 LEVEL
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Save the Level of Area 4 CH8 to
the Toggle Preset:
[1C] [07] [09] [70] [00] [00] [FF] [65]
Leave Program Mode - Saves light level to
the current Preset (sent to dimmers)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Unused (usually 0)
Byte 3 8
Byte 4 Unused (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Save the Current Channel
Levels of Area 4 to the Current Preset:
[1C] [04] [00] [08] [00] [00] [FF] [D9]
Lock Control Panels (sent to dimmers with
Keyboard inputs and Smart Panels)
Byte 0 1C hex
Byte 1 AREA
Byte 2 Unused (usually 0)
Byte 3 15
Byte 4 Unused (usually 0)
Byte 5 Unused (usually 0)
Byte 6 Join (usually FF hex)
Byte 7 Checksum
Example: Lock All Control Panels in Area
6:
[1C] [06] [00] [15] [00] [00] [FF] [CA]
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