PixLite T16X-S Mk3 User Manual
Introduction
This is the user manual for the PixLite T16X- S Mk3 pixel controller . The PixLite T16X- S Mk3 is a powerful pixel LED controller built upon Advatek’s 3rd generation PixLite Mk3 processor. At its core, the controller converts sACN, Art-Net and DMX512 protocols from lighting consoles, media servers or computer lighting software into various pixel LED protocols. With the PixLite Mk3 processor, the PixLite T16X- S Mk3 brings powerful operational functionality and advanced management platforms.
2.1 – Management & Configuration
This manual covers physical aspects of the PixLite T16X-S Mk3 controller and its essential setup steps only. Detailed information about its configuration options can be found in the ‘PixLite Mk3 Management Guide’.
Configuration, management, and monitoring of this device can be performed via the web- based Management Interface. To access the interface, either open any web browser and navigate to the IP address of the device, or use Advatek Assistant 3, which can be downloaded here: www.advateklighting.com/advatek-assistant-3
Other manuals and the PixLite Mk3 Management Guide may be downloaded from: www.advateklighting.com/downloads
Safety Notes
The device shall be connected to a mains socket outlet with a protective earthing connection. The plug on the power supply cord is used as the disconnect device, so the socket-outlet shall be easily accessible.
Power to the device is protected by a 250V 1A glass fuse (F1A L 250V). This fuse should only be replaced by someone with proper technical knowledge or instruction.
For more information on supplying power, see Section 1.1.
Physical Installation
IMPORTANT NOTICE
The device warranty applies only when installed and operated in accordance with these Installation Instructions and when operated in accordance with the limits defined in the specifications.
4.1 – Installation Requirements
The unit MUST be installed according to the mounting methods described below.
DO NOT fasten to objects that generate heat, such as a power supply.
DO NOT install or store the device exposed to direct sunlight.
This device is suitable for indoor installation only.
Where the product has the conformal coating option, the device may be installed outdoors inside a weatherproof enclosure.
Ensure device ambient temperatures do not exceed the limits detailed in the specifications section.
4.2 – Flat Surface Front Mount
Use the optional flat surface front mount kit (part number MNT0301) to attach the controller to a flat surface like a wall or ceiling.
- Align the two plates in the mounting kit with the mounting holes on the bottom side of the controller. Ensure the countersunk holes on the mounting plates are aligned with the controller’s mounting holes.
- Assemble the mounting plates onto the controller using the four M4 x 10mm screws supplied with the mounting kit, as shown in Figure 2 below.
- Assemble the unit onto the surface using four screws of a type suitable for the mounting surface (not supplied), as shown in Figure 3 below. The screws should be a pan head type, 4mm in thread diameter and at least 10mm long.
4.3 – Flat Surface Rear Mount
The unit can also be mounted to a flat surface using the internal threads on the underside of the unit.
- Using the following drawing as location guide, drill four holes in your mounting plate with a 4.5mm size drill, as shown in Figure 4 below.
- From the bottom side of the panel, use four M4 machined thread screws to assemble the controller to the panel, as shown in Figure 5 below. The screws should be 4-8mm in length, plus the thickness of the panel.
4.4 – 19” Data Rack Mount
The controller can be mounted in a 19” data rack taking up a single rack unit (1RU) height.
A single controller can be mounted in the middle of a rack slot, as shown in Figure 6 below. Use optional mounting kit (part number MNT0203) for this configuration.
- Using the six supplied M3 x 10mm countersunk screws, assemble the two brackets to the controller, as shown in Figure 7 below.
- Assemble the controller to the 19” rack using the supplied pan head screws, washers and nuts, as shown in Figure 8 and Figure 9 below.
Electrical Connections
5.1 – Supplying Power
Power for the PixLite T16X- S Mk3 controller is applied via the supplied AC power cable. The controller is shipped with a 2m long IEC lead with a region specific power plug which should be connected to the AC mains supply. The IEC input socket on the rear of the enclosure, as shown in Figure 10 below, also contains an accessible compartment with 250V 1A glass fuse (F1A L 250V).
Refer to Section 9.1 for operating specifications for powering this device.
5.2 – Control Data
Ethernet data is connected via a standard network cable into either of the RJ45 Ethernet port s located on the rear panel of the unit, as shown in Figure 11 below.
5.3 – Connecting the Transmitter to Receivers
Receivers are connected to the transmitter via the RJ45 ports on the rear panel of the PixLite T16X-S Mk3. Each port is labelled with its output number 1-16. These ports are not network ports, and should not be connected to any networking equipment. They are specifically designed to connect a PixLite transmitter with a PixLite receiver. The cable used should be twisted pair cable with nominal 100 Ohm characteristic impedance (e.g. Cat 5 or Cat 6 cable), and can be up to 300 meters in length.
There are various system topologies that can be achieved by pairing a specific transmitter with a specific receiver. Not all permutations can be connected. The pairings that are supported by this device are shown in Figure 12 below.
For further information relating to the receivers, please consult the specific user manual for those products.
5.4 – Pixel Outputs & Expanded Mode
By default, a PixLite controller will have expanded mode disabled. In this state, each physical output corresponds to its numbered output in the management interface. This is explained in the table below.
Expanded Mode Disabled
| Transmitter (PixLite T16X-S Mk3) | Receiver (PixLite R1F-S) | ||
| Logical Output | Physical RJ45 Output | Receiver | Receiver Output |
| 1 | 1 | 1 | 1 |
| 2 | 2 | 2 | 1 |
| 3 | 3 | 3 | 1 |
| 4 | 4 | 4 | 1 |
| etc. | |||
When expanded mode is enabled, the outputs in the management interface instead map like the following:
Expanded Mode Enabled
| Transmitter (PixLite T16-S Mk3) | Receiver (PixLite R1F-S) | |||
| Logical Output | Physical RJ45 Output | Receiver | Receiver Output | Output Pin Name |
| 1 | 1 | 1 | 1 | Clock |
| 2 | 1 | 1 | 1 | Data |
| 3 | 2 | 2 | 1 | Clock |
| 4 | 2 | 2 | 1 | Data |
| etc. | ||||
| Transmitter (PixLite T16-S Mk3) | Receiver (PixLite R2F-S) | |||
| Logical Output | Physical RJ45 Output | Receiver | Receiver Output | Output Pin Name |
| 1 | 1 | 1 | 1 | Data |
| 2 | 1 | 1 | 2 | Data |
| 3 | 2 | 2 | 1 | Data |
| 4 | 2 | 2 | 2 | Data |
| etc. | ||||
5.5 – Aux Port
The PixLite T16X- S Mk3 has 1 multipurpose auxiliary (Aux) port that can be used for DMX512 communication using RS485 electrical signals. It is capable of outputting DMX512 to other devices or receiving DMX512 from another source.
Configure the Aux port to DMX512 Output to allow conversion of a single universe of incoming sACN or Art- Net data to the DMX512 protocol. This then allows any DMX512 device (s) to be connected to this port and effectively be controllable over Ethernet. SHOWTime scenes can also contain Aux data, which effectively allows you to playback DMX512 data to DMX512 fixtures.
Configure the Aux port to DMX512 Input to allow the following two features:
- Drive connected pixels by an external source of DMX512 control. Whilst this is limited to only a single universe of data, the PixLite can use DMX512 as its source of pixel data for situations where a DMX512 control system is required to be used instead of Ethernet-based data.
- Use DMX512 as a source of triggering. This allows a DMX512 control system to trigger the PixLite to perform actions like playback of a scene, and more. For more information on triggering, see the PixLite Mk3 Management Guide here: www.advateklighting.com/product-help/pixlite/mk3/management-guide
The Aux port connector is located on the rear panel of the unit as shown in Figure 13 below.
Network Configuration
6.1 – Network Layout Options
Figure 14 shows a typical network topology for the PixLite T16X- S Mk3 . Daisy- chaining PixLite devices and redundant network loops are both explained in Section 6.3.
The Lighting Control Device could be any source of Ethernet data – e.g. desktop PC, laptop, lighting console, or media server.
Having a router on the network is not mandatory but is useful for IP address management with DHCP (see Section 6.4.1).
The controller can alternatively be connected directly to the host machine, as shown in Figure 15. A crossover cable is not required in this case, but it may be used if desired.
The controller(s) can be integrated straight into any pre-existing LAN such as your media, home or office network, the above diagrams are only provided as examples.
6.2 – IGMP Snooping
Traditionally when multicasting a large number of universes, IGMP Snooping is required to ensure that the pixel controller is not overwhelmed with irrelevant data. However, the PixLite T16X-S Mk3 is equipped with a Universe Data Hardware Firewall, which filters out irrelevant incoming data, removing the need for IGMP Snooping.
6.3 – Dual Gigabit Ports
The two Ethernet ports are industry standard gigabit switching ports, so any network device can be connected to either port. A common purpose for the two is to daisy-chain PixLite Mk3 devices from the one network source, simplifying cable runs. The combination of the speed of these ports and the included Universe Data Hardware Firewall means that latency caused by daisy-chaining is practically negligible. For any practical installation, an unlimited number of PixLite Mk3 devices can be daisy-chained together.
A redundant network cable can be connected between the final Ethernet port in a chain of PixLite Mk3 devices and a network switch. Since this will create a network loop, it is important that the network switches being used support Spanning Tree Protocol (STP), or one of its variants such as RSTP. STP will then allow this redundant loop to be automatically managed by the network switch. Most high-quality network switches have a version of STP built in and the configuration required is either none or minimal. Consult the vendor or documentation of your network switches for further information.
Another use case for the second Ethernet port is to connect a third-party network device, like a laptop or a server, to the end of a chain of PixLite Mk3 devices. A PixLite device with only a single Ethernet port could also be connected to the end of a chain of PixLite Mk3 devices.
6.4 – IP Addressing
6.4.1 – DHCP
Routers typically have an internal DHCP server, which means they can assign an IP address to a connected device, if requested.
DHCP is always enabled by default on this device, so it can immediately connect to any existing network with a router / DHCP Server. If the controller is in DHCP mode and is not assigned an IP address by a DHCP server, it will assign itself an IP address with Automatic IP Addressing, as explained in Section 6.4.2 below.
6.4.2 – AutoIP
When this device has DHCP enabled (factory default), there is also functionality for it to be operational on networks without a DHCP server, via the AutoIP mechanism.
When no DHCP address is being offered to this device it will generate a random IP address in the range of 169.254.X.Y that does not conflict with any other devices on the network. The benefit of AutoIP is that communication can happen between the device and any other compatible network device, without the need for a DHCP server or pre-configured Static IP addressing.
This then means that connecting a PixLite T16X-S Mk3 directly to a PC typically does not require any IP address configuration – communication will be possible because both devices would generate their own valid AutoIP.
While the device has an AutoIP address in use, it continues searching for a DHCP address in the background. If one becomes available, it will switch to the DHCP address instead of the AutoIP.
6.4.3 – Static IP
In many typical lighting networks that this device would operate in, it’s common for the installer to manually manage a set of IP addresses, instead of relying on DHCP or AutoIP. This is referred to as static network addressing.
When allocating a static address, the IP address and the subnet mask both define the subnet that the device is operating on. You need to ensure that other devices that need to communicate with this device are on the same subnet. Therefore they should have the same subnet mask and a similar but unique IP address.
When setting static network settings, the Gateway address can be set to 0.0.0.0 if it is not required.
If communication between the device and other VLANs is required, the Gateway address should be configured and will typically be the IP address of the router.
6.4.4 – Factory IP Address
When you are not sure what IP address the device is using, you can force it to use a known IP address (referred to as the Factory IP).
To activate the Factory IP and establish communication with the device:
- While the controller is running, hold down the “Reset” button for 3 seconds.
- Release the button.
- The controller will immediately restart its application with the following factory default network settings:
IP Address: 192.168.0.50
Subnet Mask: 255.255.255.0
Gateway Address: 0.0.0.0 - Configure your PC with compatible network settings. If you are not sure, you can try the following example settings:
IP Address: 192.168.0.49
Subnet Mask: 255.255.255.0
Gateway Address: 0.0.0.0 - You should now be able to access the device’s Management Interface by manually browsing to 192.168.0.50 in your web browser, or by using Advatek Assistant 3.
After establishing a connection to the device, make sure to configure the IP address settings for future communication and save the configuration.
Note: The Factory IP is only a temporary setting used to regain connectivity to the device. When the device is reset (powered off and on again), the IP address settings will revert to what is configured in the device.
Operation
7.1 – Start-up
Upon applying power, the controller will quickly begin outputting data to the receivers. If no data is being sent to the controller, then the pixels will remain turned off until valid data is received. During live mode, the multi color status LED will be flashing green to indicate the controller is running and outputting any received data to the receivers.
7.2 – Sending Ethernet Data
Input data is sent from the control PC/server/lighting console to the controller via Ethernet using a “DMX over IP” protocol such as sACN (E1.31) or Art- Net. This device will accept Art- Net or sACN data on either Ethernet port.
Sync modes are supported for both Art-Net and sACN. To learn more, refer to the technical note on synchronous mode here: www.advateklighting.com/knowledge-base
Details of incoming and outgoing packets can be viewed in the Management Interface.
7.3 – Data Outputs
Each of the 16 RJ45 output ports can drive 1 pixel output, of up to 6 universes of data each (or 2 pixel outputs, of up to 3 universes of data each if expanded mode is enabled). This allows for a total of up to 96 universes to be driven out of the one controller.
| Expanded Mode | Disabled | Enabled | ||
| Color Type | RGB | RGBW | RGB | RGBW |
| Max Pixels per Pixel Output | 1,020 | 768 | 510 | 384 |
| Max Total Pixels | 16,320 | 12,288 | 16,320 | 12,288 |
The PixLite must be configured before it can correctly output pixel data. Refer to the PixLite Mk3 Management Guide for how to configure and patch your pixel outputs.
7.4 – Button Actions
The ‘Test’ and ‘Reset’ buttons can be used to perform various operations, as listed below.
| Action | Test Button | Reset Button |
| Toggle Test Mode On/Off | Press for >3 seconds while the application is running | – |
| Cycle the Test Modes | Press whilst in test mode | – |
| Hardware Reset | – | Press momentarily |
| Factory Reset | – | Press for >10 seconds |
| Factory IP | – | Press for 3 seconds |
7.5 – Hardware Test Pattern
The controller features a built-in test pattern to assist in troubleshooting during an installation. To put the controller into this mode, press and hold the ‘TEST’ button for 3 seconds (after the controller is already running) or turn it on remotely using its Management Interface.
The controller will then enter the test pattern mode, where different test patterns are available as described in the table below. The controller will display the test pattern on all pixels on each of the pixel outputs and the Aux DMX512 output (if enabled) simultaneously. Pressing the ‘TEST’ button while in test mode will move through each of the patterns successively in one continuous loop.
| Test | Operation |
| Color Cycle | Outputs will cycle automatically through the red, green, blue and white colors at fixed intervals. Pressing the TEST button moves to the next mode. |
| Red | Solid Red |
| Green | Solid Green |
| Blue | Solid Blue |
| White | Solid White |
| Color Fade | Outputs will slowly move through a continuous color fade. Pressing the TEST button will loop back to the original color cycle test mode. |
To exit the test mode, press and hold the ‘TEST’ button for 3 seconds and then release.
The hardware test requires that the pixel driver chip type and number of pixels per output are set correctly in the Management Interface . Using Test mode, you can test if this part of your configuration is correct and isolate other possible problems with the incoming Ethernet data side.
7.6 – Operating Refresh Rates
The overall refresh rate of an installed pixel system will depend on many factors. For monitoring purposes, graphical and numerical information on incoming and outgoing frame rates can be viewed in the Management Interface . This information gives insight as to what refresh rate a system can achieve, and where any limiting factors may exist.
Refresh rates are available in the Management Interface for each of the following elements:
- Incoming sACN
- Incoming Art-Net
- Incoming DMX512 (Aux Port)
- Outgoing Pixels
- Outgoing DMX512 (Aux Port)
7.7 – sACN Priorities
It is possible to have multiple sources of the same sACN universe received by the one PixLite. The source with the higher priority will be actively streaming to the pixels, and this can be seen on the Statistics page. This is useful for situations where a backup data source is needed.
For this to take place, the PixLite still needs to receive and process each universe, including universes that will be dropped due to a lower priority.
Low priority sACN handling with the PixLite T16X- S Mk3 will require that the total number of universes being streamed to the controller from all sources combined, for any purpose, should not exceed 100 universes.
7.8 – Advatek SHOWTime
Advatek SHOWTime ™ unleashes the potential of Advatek PixLite® Mk3 devices to independently drive light shows without a computer or any source of live data.
SHOWTime™ allows users to record and play back pixel shows from the PixLite T16X-S Mk3 using the inbuilt microSD slot. Design your own breathtaking pixel shows, record them directly onto the microSD card and play them back as many times as you wish.
SHOWTime ™ also unlocks the ability to create up to 25 powerful triggers and use advanced intensity controls to enable true standalone behavior and enhance live environments.
Experience a new level of control with the dual- user login feature and a dedicated SHOWTime™ Dashboard. Now, operators can access real- time playback and device control through the SHOWTime™ Dashboard, amplifying the flexibility of PixLite Mk3.
For more information, download the PixLite Mk3 Management Guide here: www.advateklighting.com/product-help/pixlite/mk3/management-guide
Firmware Updates
The controller is capable of having its firmware updated (new software). An update is typically performed to fix problems or to add new features.
To perform a firmware update, ensure that you have your PixLite T16X-S Mk3 controller connected to the LAN network as per Section 6.1.
The latest firmware is available from the Advatek website at the following link: www.advateklighting.com/downloads
The downloaded file will be archived in a “.zip” format, which should be extracted. The “.fw” file is the file that the controller needs.
8.1 – Updating via the Management Interface
- Open the Management Interface, and navigate to the “Maintenance” page.
- Load the firmware “.fw” file with the file browser.
- Click “Update”. The controller will temporarily disconnect.
- Once the update is complete, the controller will restart its application with the new firmware, maintaining its previous configuration.
Specifications
9.1 – Operating Specifications
The table below specifies the operating conditions for a PixLite T16X-S Mk3 controller.
For a full list of specifications, refer to the product datasheet.
9.1.1 – Power
| Parameter | Value/Range | Units |
| Input Power | 100-240 (50/60 Hz) | V AC |
| Maximum Power Consumption | 50 | VA |
9.1.2 – Thermal
| Parameter | Value/Range | Units |
| Input Power | -10 to +60 | °C |
| Maximum Power Consumption | -10 to +60 | °C |
9.2 – Physical Specifications
| Dimension | Metric | Imperial |
| Depth | 169mm | 6.7″ |
| Width | 282mm | 11.1″ |
| Height | 42mm | 1.7″ |
| Weight | 1.3kg | 2.9lbs |
| AC Cable Length | 2m | 6.5′ |
9.3 – Electrical Fault Protection
The PixLite T16X-S Mk3 features notable protection from potential damage due to various types of faults. This makes the device robust and reliably able to operate in the suitable installation environment, specified in Section 11.
ESD protection is present on all data line outputs and all Ethernet ports.
All data outputs and the Aux Port are protected against faults of up to +/- 48V DC.
Troubleshooting
10.1 – LED Codes
There are multiple LEDs on the PixLite T16X-S Mk3 that are useful for troubleshooting. The location of each is shown in Figure 17 below.
Please refer to the tables below for condition codes for the Ethernet port LEDs, and the multi-color status LED.
| Link/Activity LED | Gigabit LED | Condition |
| Any | Solid | Connected okay at full speed (Gigabit) |
| Any | Off | Connected okay at limited speed (10/100 Mbit/s) |
| On | Any | Connected okay, no data |
| Flashing | Any | Receiving / transmitting data |
| Off | Off | No link established |
| Color(s) | Behavior | Description |
| Green | Flashing | Normal Operation |
| Red | Flashing | Record in Progress |
| Blue | Flashing | Playback in Progress |
| Yellow | Flashing (3 per second) | Identify Function (used to visually locate a device) |
| Red/Green/Blue/White | Cycling | Test Mode – RGBW Cycle |
| Color Wheel | Cycling | Test Mode – Color Fade |
| Various | Solid | Test Mode – Set Color |
| Blue/Yellow | Alternating | Impaired Mode (Current mode cannot function) |
| Green | Solid | Booting Up or Installing Firmware |
| White | Flashing | Factory Reset |
| Green/Red | Alternating | Emergency Recovery Mode |
| Off | Off | No Power / Hardware Fault |
| White | Flashing (3 per 5 sec) | Power Supply Stability Error Detected (power device off and on again) |
| Red/White | Various | Critical Error (contact Advatek Support) |
10.2 – Statistical Monitoring
Many issues that may occur are often due to complications in the network, configuration, or wiring.
For this reason, the Management Interface features a statistics page for statistical monitoring and diagnostics. Refer to the PixLite Mk3 Management Guide for more information.
10.3 – Solutions for Common Issues
| Issue | Suggested Solution |
| Status LED off | Ensure that the outlet you are plugged into is active. Check all power connections and fuses – The PixLite T16X-S Mk3 has a fuse located in a recess inside the IEC socket at the rear of the unit that may need to be replaced. See Section 5.1. Disconnect all cables from the device, except for the power input, to see if the device turns on. |
| No pixel control | Ensure the device has been configured correctly, with the correct Pixel Type and number of Pixels set. Activate a test pattern as per Section 7.5 to see if your pixels turn on. Check that the receivers are connected correctly, with a working cable, and that the physical wiring and pinout of the pixels are correct, as per Section 5.3. |
10.4 – Other Issues
Check the LED codes as per Section 10.1. If the device still fails to perform as expected, perform a factory default reset on the device as per Section 10.5 below. For the latest information, more specific troubleshooting guides and other help, you should refer to our online Knowledge Base here: www.advateklighting.com/knowledge-base
Alternatively, you can contact our support team at: www.advateklighting.com/contact
support@advateklighting.com
10.5 – Reset to Factory Defaults
To reset the controller to its factory default settings, do the following:
- Ensure the controller is powered up.
- Hold down the ‘Reset’ button for 10 seconds.
- Wait for the Multi-Color Status LED to alternate Green/White.
- Release the ‘Reset’ button. The controller will now have factory default configuration.
- Alternatively, reset to factory defaults via the Management Interface, in the “Configuration” page.
Note: This process will reset all configuration parameters to Factory Defaults, including IP Address settings (listed in Section 6.4.4), as well as Security settings.
Disclaimer
If you require support or warranty, please refer to Section 10.4 for information on creating a support ticket. You must be issued with a return authorization by Advatek support staff before returning any product.
This device is only suitable for use in accordance with the specifications. This device is only suitable for use in an indoor environment which is protected from the weather unless a conformal coating option has been selected. In case of products protected by conformal coating, the device can be used outdoors, provided it is protected from the weather using an enclosure suitable for the environment.
The PixLite T16X- S Mk3 controller is supplied with a 5 – year limited warranty and a repair/replacement guarantee. Please see the terms and conditions on our website for more information.
The PixLite T16X-S Mk3 has been tested against and independently certified as compliant with the standards and directives listed in the table below.
| Audio/Video and ICTE – Safety Requirements | UL 62368-1 | |
| Radiated Emissions | EN 55032 Class A, AS/NZS CISPR32, FCC Part 15 Class A | |
| Conducted Emissions | EN 55032 | |
| Harmonic Current Emissions | EN 61000-3-2 | |
| Voltage Fluctuations and Flicker Emissions | EN 61000-3-3 | |
| Multimedia Immunity EN 55035 | Electrostatic Discharge | EN 61000-4-2 |
| Radiated Immunity | EN 61000-4-3 | |
| Electrical Fast Transients/ Burst | EN 61000-4-4 | |
| Surge Immunity | EN 61000-4-5 | |
| Injected Current (0.15 MHz to 80 MHz) | EN 61000-4-6 | |
| Voltage Dips and Interruptions | EN 61000-4-11 | |
Through testing to the above standards, the PixLite T16X-S Mk3 has the certifications and marks listed in the table below.
| Certification | Relevant Country |
| ETL Listing (UL 662368-1) | North America and Canada |
| CE | Europe |
| FCC | North America |
| ICES3 | Canada |
| RCM | Australia and New Zealand |
| UKCA | United Kingdom |
Restriction of Hazardous Substances (RoHS) declarations:
| Jurisdiction | RoHS 3 |
| The product is in conformity with the following relevant European Union harmonisation legislation | Directive 2011/65/EU + Directive 2015/863/EU + Directive 2017/2102/EU |
| UK Statutory Instruments and their amendments | UK SI 2012 No. 3032 |
Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at their own expense.
Art-Net™ Designed by and Copyright Artistic Licence Holdings Ltd.
This product has been manufactured by:
Advatek Lighting Pty Ltd
U1, 3-5 Gilda Court
Mulgrave, 3170
VIC, AUSTRALIA
www.advateklighting.com
PixLite T16X-S Mk3 User Manual V20250606
Documents / Resources
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ADVATEK T16X-S Mk3 Long Range Pixel Data Transmitter [pdf] User Manual T16X-S Mk3, T16X-S Mk3 Long Range Pixel Data Transmitter, T16X-S Mk3, Long Range Pixel Data Transmitter, Range Pixel Data Transmitter, Pixel Data Transmitter, Data Transmitter, Transmitter |