DLight III trunk &spur network
Topic 3: Installing panels
Overview
This topic covers the requirements and step for installing the Philips Dynalite range of panels.
Instructions for DLP, DPN and DR2P are covered.
Learning outcomes
By the end of this topic you’ll be able to:
• Install DR2P series user interface panels
• Install DLP user interface panels
• Install DPN user interface panels.
Instructions
Follow the points below to ensure correct installation:
• Use the mounting screws provided
• To comply with local electrical standards, some products may be required to be installed into a metal wall box (not supplied).
Connecting data cables
• Follow the points below when connecting data cables to ensure correct installation:
• Use screened, stranded RS485 data cable with three twisted pairs.
• Connect data cable to devices in a ‘daisy chain’ whenever possible. Start at the first device, then loop in then out of devices, with a single cable terminating at the last device.
• Devices may be wired in any order.
• Physical constraints may dictate that data cable spurs are necessary. In these cases, Network Bridges may be needed.
• The Data Cable should be segregated from any Mains Cables by a minimum of 300mm. If the Data Cable has to cross over any Mains Cables, it should do so at a 90° angle.
• A data cable that is connected to an energized dimmer is live. Do not cut or terminate live data cables.
• Panels can be mounted vertically or horizontally if desired.
Factory presets
Default preset levels are factory preprogrammed into give basic level of functionality.
These can be customized to specifically suit each room or area.
Figure 54 Figure 55
The default preset levels are listed below:
PRESET LIGHT LEVEL
P1 100%
P2 70%
P3 40%
P4 0%
P5 80%
P6 60%
P7 50%
P8 20%
Note: Hold down a button for 5 seconds to sign on a panel to a network.
Antumbra panel details
Tempreature sensor Button clip Network LED
Network LED
Locating pin guide Pin header Button guides
Installation steps
The mounting plate needs to be installed with the locating tabs into the wall.
The network cables and connector plug pulls though the mounting bracket.
The plate’s orientation can be either way.
Using the long mounting screws provided fix the mounting bracket to the wall. Installers must use the screws provided as different screws could damage the panel once fully installed.
Ensure that the mounting plate is level and make adjustments if required.
Once the mounting bracket is mounted plug the five-way network socket into the mounted Communications module.
The whole panel assembly can be pushed into the mounting bracket. Locate and fix the application base to the mounting bracket using the two smaller screws through the mounting holes. Recheck the level of the panel and adjust if required
Changing button configurations
DLP & DL2P
Buttons, bezels and covers snap-on, remove the fascia to access buttons without the need for any tools or extra wiring.
Figure 56 Figure 57
DR2P
DR2P panel buttons are changed individually, see figure 47 below:
Figure 58
DPN
Buttons for DPN panels can be replaced without the need for any tools or extra wiring. By pinching the button cap on the sides and pulling gently the cap can be removed. The fascia of the DPN panel doesn’t need to be removed for button maintenance.
Figure 59
Panel network connections
Dingus
You can connect to the back of a panel using a Dingus supplied with the DTK622 PC node.
Figure 60
In addition to the dingus, the LSP-PRO and FFC-LSP can be used to connect to the DyNet network via DL2P and DR2P panels.
LSP-PRO
Remove the panel’s fascia to access the connector shown in figure 61 below:
Figure 61 Figure 62
FFC-LSP
A third type of connector can be used to connect to the DyNet network via a DR2P panel Remove the panel’s fascia to access the connector shown in figure 48 below:
Figure 63 Figure 64
Topic 4: Installing motion sensors
Overview
This topic covers the requirements and step for installing the Philips Dynalite range of sensors.
Instructions for DUS704C, DUS704W and DUS804C are covered.
Learning outcomes
By the end of this topic you’ll be able to:
• Install motion sensors using PIR motion control
• Install motion sensors using ultra sonic motion control
• Install motion sensors for light control
• Install sensors for IR control.
Installation instructions
Follow the points below to ensure correct installation:
• WARNING * Do not touch the Pyro Sensor with your fingers. For indoor use only.
• Select an appropriate indoor mounting location, as detailed in the location guidelines on the following pages. Note that this product has three functions, and the optimum mounting location for each individual function may conflict with each other, and may require the use of multiple sensors.
• Remove the cover from the base unit by turning the cover in an anti clockwise direction.
• Screw the base unit to the ceiling, passing the data cable through the cable entry hole.
• Terminate the data cable as shown previously.
• Use silicon sealant to seal any cable entry and screw holes to prevent air draughts, dust and insects from entering the enclosure.
• Replace the cover onto the base unit by turning the cover in a clockwise direction.
Mounting PIR motion sensors
Follow the points below to ensure correct installation for motion detection:
• Fix the sensor to a firm section of ceiling
• Position the sensor so it is between 2.1 and 4.0 meters from the floor. Optimum height for the sensor is 2.4 meters
• Position the sensor so it is at least 1 meter away from electrical lighting such as neon and fluorescent lights
• Position the sensor as to avoid exposing it to direct sunlight and heating/cooling sources
• Keep data cables away from electrical wiring
• Position the sensor where pedestrian traffic is more likely to walk across the detection
“fingers” rather than parallel with them (see Lens pattern diagram).
Note: That the coverage area for our sensors differ from model to model (see Motion Detector Coverage diagram on the following pages).
Mounting Ultra sonic motion sensors
• Sensor must be mounted in a dry location on a rigid, vibration free surface. Ideal location for PIR should have a clear view of all workspaces in coverage area. The ultrasonic sensor’s field of view is less directional.
• Avoid placing sensor where it may face doorways etc which could cause false triggering.
• Sensor should be located at a distance of at least 7ft from horizontal or vertical air ducts.
Adjacent sensors with ultrasonic detector enabled should be installed with a minimum of 60ft spacing between. Sensor should be placed such that the PE cell’s field of view is unobstructed, and does not have an artificial light source or natural light directly incident on it.
• For flush mount drill a 2.5 inch hole in ceiling, noting the ceiling void should be at least 2 inches deep. If surface mounting option is used, use provided mud ring mounting adaptor.
For this option removal of the spring clips from the sensor’s rear housing is required.
• Wire the sensor following the recommendations. See data cable permanent connections.
• Insert the sensor into the ceiling using spring clips or attach it to the mud ring mounting adaptor provided, and rotate to secure.
• Rotate the sensor in the direction of desired Ultrasonic coverage. If required pull-down the PIR masking bezel to stop the PIR sensing in unwanted areas (e.g. movement past doorways).
• Refer to separate installation guideline document for detailed install information.
DUS704C motion coverage
PIR motion detection coverage area:
• 9m x 6m
• At a height of 2.5m
Figure 65
DUS804C and DUS804C-SM motion coverage
DUS804C PIR motion coverage area:
• 5.6m x 7.4m
• At a height of 2.5m
DUS804C-SM PIR motion coverage area:
• 5.0 m circular
• At a height of 2.5m
Figure 66 Figure 67
DUS804C-UP ultra sonic motion coverage
Ultrasonic Motion Detection coverage area:
• Major motion detection area: up to 1500 sq. ft * (50 ft x 30 ft)
• Minor motion detection area: up to 1000 sq. ft * (36 ft x 30 ft)
Figure 68
Motion detection lens pattern
Figure 69
Figure 70
Optional motion detector lens for DUS704W
In addition to the supplied Wide Angle lens, two other types are available for specific applications:
• DUS704W Curtain – Creates a solid, thin barrier which is useful for monitoring a perimeter in an open space.
• DUS704W Long Range – Useful for monitoring a long thin space such as a corridor.
Contact your local supplier for more details.
Optional Lens – DUS704W Curtain
Figure 71
Figure 72
Optional Lens – DUS704W Long Range
Figure 73
Figure 74
Selecting sensor installation locations
Selecting the correct location for a motion sensor is of critical concern, incorrect placement can result in sensors not detecting occupants or false triggers (lights turning on incorrectly).
False triggers from passersby Lights trigger only upon entry
Figure 75 Figure 76
It is possible to reduce the field of view of the DUS804C and DUS804C-SM from their normal 3600 by use of the in-built rotating pull out shield.
The shield blocks 1200 of the field of view, reducing the motion detection field area to 2400. The shield can also be rotated to block any 1200 area once the sensor has been installed.
Figure 77 – DUS804C shield
By suing the mask installation errors like in figure 55 can be corrected without the need to re-mount the sensor.
Sensor mounting for PE (photo electric)
Follow the points below to ensure sensors operate properly for light sensing:
• Position the sensor so it “sees” a combination of artificial light and natural light.
• Position the sensor so it not directly exposed to artificial light or sunlight.
• Keep data cables away from electrical wiring.
Figure 78
Infrared receiver mounting location
Follow the points below to ensure the sensor operates properly for IR detection:
• Position the sensor so it is within 6 meters of the intended operating position of the infrared transmitter
• Position the sensor so it is not directly exposed to light, especially incandescent and sunlight, both of which can substantially reduce IR range
• Keep data cables away from electrical wiring.
Figure 79
Installing DUS704W-MB mounting brackets
Follow the steps below to mount a wall mount sensor:
• Fix the sensor to a firm section of wall.
• Position the sensor so it is between 1.1 and 3.1 meters from the floor. Optimum height for the sensor is 2.1meters.
• Slide the circuit board up or down so the marker on the housing matches up with the installed height on the scale provided on the right hand side of the circuit board.
• Position the sensor so it is at least 2 meters away from electrical lighting such as neon and fluorescent lights.
• Position the sensor as to avoid exposing it to direct sunlight and heating / cooling sources.
• Keep data cables away from electrical wiring.
• Select a location where persons are more likely to walk across the detection “fingers”
rather than into them (see Figure 63).
• For programming instructions refer to Dynalite Tech Note – Setting up Motion Detection functions.
Figure 80
Topic 5: Installing touch screens
Overview
Philips Dynalite currently has two models of color touch screen available, the DTP100 and DTP170. These feature a rich color LCD touch screen that uses vivid graphics and sophisticated on screen controls. Control of various equipment such as lighting, AV, security and HVAC can be easily integrated and controlled from the one location.
Learning outcomes
By the end of this topic you’ll be able to:
• Install DTP100 touch screen
• Install DTP170 touch screen.
General installation points for touch screens
• Remember the display height should be equal to, or slightly below, the eye level of all users.
• Avoid a location in which bright light is present, either directly in front of, or behind, users.
• The DTP160 Touch Panel must be flush-mounted.
Figure 81
Installing the DTP170
Dimensions:
• 140mm high x 218mm wide x 71mm deep.
Figure 82
Fixing the device
The DTP170 Touch Screen is designed to be flush-mounted, with or without a wall box.
• If using a wall box, separate the wall box from the Touch Screen and make sure no dust or debris enters the Touch Screen during installation.
• The wall box can then be fixed in place using an appropriate method.
Installing the DTP100
Dimensions:
• Hidden Wall box: Height 69mm x Width 129mm x Depth 27mm.
• Exposed Face: Height 86mm x Width 146mm x Depth 5mm.
Figure 83
Programming port – Type B USB socket Keyboard/Mouse port
– Type B USB socket
DyNet port
3.5mm stereo jack Ethernet RJ45 network socket
Fixing the Device
The DTP100 Touch screen Panel must be flush-mounted. Separate the wall box from the panel and make sure no dust or debris enters the device during installation.
Recommended back box for dry lining / plasterboard applications, use the following part numbers:
• 700-279 Wallbox recess metal
• 700-389 Wallbox recess drywall
• 700-280 Wallbox surface mount.
Figure 84 - MK electric 2 gang wall box
Power supply
The DTP100 Touchscreen Panel is powered from the DyNet network and does not require mains voltage supply.
Topic 6: Installing integration devices
Overview
In this topic we cover the installation requirements for a number of Philips Dynalite integration devices:
• DDMIDC8 multi function input interface
• DDNG485 gateway
• DPMI940 dry contact interface.
Learning outcomes
By the end of this topic you’ll be able to
• Install a DDMIDC8
• Install a DDNG485 gateway
• Install a DPMI940 dry contact interface
• Install a DDFCUC024 / DDFCUC010.
Installing the DDMIDC8
Features
• 8 x Opto Isolated inputs - each configurable to dry contact or 0-24V input.
• 4 x Analogue Inputs – Configurable to 0-5V or 0-10V.
• LED Status Indicators – for each opto isolated input.
• Power Supplied from Network - No mains connection.
• Powerful Internal PLC - Custom scripts can be written to provide process control based on conditional logic.
• Simple Installation - DIN Rail mount facilitates installation. Fixing points are provided for installation without the use of DIN rail.
Figure 85
Installation notes
• Read Instructions – We recommend that you read this Instruction Manual prior to commencement of installation.
• Special Programming – This device will only operate in basic modes unless programmed via a computer. 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 or input to operate all channels in all controllers.
• Mounting Location – Install in a dry, well-ventilated location. Controllers may emit some mechanical noise. Take this into account when deciding the mounting location.
• Data Cable – Use screened, stranded RS485 data cable with three twisted pairs. Segregate from mains cables by 300mm minimum. Connect devices in a ‘daisy chain’. A data cable that is connected to an energized device is live. Do not cut or terminate live data cables.
Electrical diagram
+15VD + D
-GND
SHIELD µP 0V AN2AN1 0V AN3 AN40V 0V
0-5V/0-10V Analogue Inputs
Opto Isolated Dry Contact/0-24V AC/DC Digital Inputs A/D A/D A/D A/D
Input 1 Input 2 Input 3 Input 4 Input 5 Input 6 Input 7 Input 8 +5V
DyNet RS485
Figure 86
Analogue fader
1. Mount the device on a DIN rail inside an approved enclosure. The device can also be installed without the use of DIN rail by removing the cover to access two mounting screw holes.
2. Connect RS485 data cable to the serial port as per the connection diagram overleaf.
3. If used, connect volt free contacts or 0-24V AC/DC inputs to any of the 8 opto-isolated inputs. Remove the lid and ensure that the jumpers for each input are set to the
appropriate 0-24V or volt free setting, depending on the input type.
4. If any opto-isolated inputs are of the Dry Contact type, ensure that the power supply jumper is fitted in the “volt free” position. Note that this will increase the current consumption of the device from 15mA to 40mA, which may require consideration of voltage drop on long runs of DyNet data cable.
5. If used, connect 0-5V or 0-10V inputs to the analogue ports. Ensure the input voltage is DC and a maximum of 10 Volts. Note that bare faders can also be connected to the analogue inputs by using the adjacent +5V terminal as a supply. Suggested fader value is 10K ohm. Do not attempt to draw more than 25mA from the +5V terminal.
Installing DDNG485
1. Mount the device on a DIN rail inside an appropriate enclosure. Alternatively there are 2 holes provided to fix the device to a surface without the use of DIN rail. Remove the front cover to access these holes.
2. Connect data cables to the device as per diagrams. Note that the device is powered from the DyNet network segment that is connected to Port 1. When implementing Repeaters, connect the link to Port 2 of both Gateways. Shielded cable must be used for long runs.
When implementing Trunk / Spur topology, connect the Trunk to Port 2 and the Spur to Port 1. Note that up to 150mA of power from the DyNet network on Port 1 is fed to Port 2, so providing there is surplus power available on the Spurs it is normally not necessary to provide a network power supply for the Trunk.
3. If using the device as a DMX receiver, ensure DMX termination rules are obeyed, use a 120 Ohm terminating resistor across D+ and D- at the end of line. Note that Port 2 should be used for DMX Reception.
Figure 88
Figure 89
DPMI940
Using the DPMI940
To install 3rd party panels in a Dynalite project you will require the use of a DPMI940 dry contact interface.
Figure 90
Figure 91- DPMI940 installed in wall box and connected to switches
Installation steps
1. Mount the device on a DIN rail inside an approved enclosure. The device can also be installed without the use of DIN rail by removing the cover to access two mounting screw holes.
2. Connect RS485 data cable to the serial port as per the connection diagram overleaf.
3. If used, connect volt free contacts or 0-24V AC/DC inputs to any of the 8 opto -isolated inputs. Remove the lid and ensure that the jumpers for each input are set to the
appropriate 0-24V or volt free setting, depending on the input type.
4. If any opto-isolated inputs are of the Dry Contact type, ensure that the power supply jumper is fitted in the “volt free” position. Note that this will increase the current consumption of the device from 37mA to 68mA, which may require consideration of voltage drop on long runs of DyNet data cable.
5. If used, connect 0-5V or 0-10V inputs to the analogue ports. Ensure the input voltage is DC and a maximum of 10 Volts. Note that bare faders can also be connected to the analogue inputs by using the adjacent +5V terminal as a supply. Suggested fader value is 10K ohm. Do not attempt to draw more than 25mA from the +5V terminal.
Electrical diagram
Figure 92
Mounting details
Figure 93
Connecting to a motion detector
40 mm Ribbon Cable
19mm
side view
top view
19mm
• Connect Ground and +12V leads to the motion detector’s 0V & +12V terminals.
• Connect Ground and Switch 1 leads to the motion detector’s Alarm terminals.
• Connect Ground and Switch 4 leads to the motion detector’s Tamper terminals.
Connecting volt free inputs
Inputs: 7 core Flat Ribbon Cable Flying Lead inputs
PIN FUNCTION COLOR
1 +12 Volts Gray with Red Trace
2 Ground Gray
3 Ground Gray
4 Switch 1 Gray
5 Switch 2 Gray
6 Switch 3 Gray
7 Switch 4 Gray
To trigger a preset place a short between SW 1, 2, 3 or 4 to the Ground. The +12V terminal is provided to power 3rd party devices such as motion detectors, ensure that it does not touch any
To trigger a preset place a short between SW 1, 2, 3 or 4 to the Ground. The +12V terminal is provided to power 3rd party devices such as motion detectors, ensure that it does not touch any