PixLite R1F-S User Manual
Introduction
This is the user manual for the PixLite R1F-S pixel receiver .
The PixLite R1F-S is designed to receive differential long distance signals of up to 300m (1000′) from a PixLite T8/T16 transmitter unit, and convert these input signals back into a pixel-ready signal for output directly to pixels. The PixLite R1F-S features 1 full pixel output.
The PixLite R1F-S features a sleek, compact design and accessories for ease of surface mounting as well as an included DIN rail mounting kit. It also features industrial grade protection on all inputs and outputs, making it the ideal option for reliable commercial and industrial applications.
This manual covers physical aspects of the PixLite R1F-S receiver and its essential setup steps only. Separate user manuals are available for the transmitter units. Other manuals may be downloaded from here: www.advateklighting.com/downloads
Safety Notes
This LED pixel receiver should be installed by someone with proper technical knowledge only.
Installation of the device should not be attempted without such knowledge.
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 Mount
Fasten the Mounting Clip to the mounting surface using two screws of a type suitable for the mounting surface (not supplied). The screws should be a pan head type, 3mm in thread diameter and at least 8mm long, as shown in Figure 1 below. Do not over-tighten; hand-tighten only. Attach the receiver to the clip by aligning the clips with the holes in the base of the receiver and pushing the receiver onto the clip.
4.3 – DIN Rail Mount
The receiver can be mounted to a DIN rail by fastening the supplied DIN rail adapter to the mounting clip, using the two supplied M3 screws.
- Align the mounting clip holes with the holes on the DIN rail adapter and fasten using the two supplied M3 x 8 mm screws, as shown in Figure 2 below.
- Attach the receiver to the clip by aligning the clips with the holes in the bottom of the receiver and pushing the receiver onto the clip, as shown in Figure 3 below.
- Align the lower edge of the DIN clip with the lower edge of the DIN rail (1), and push the receiver down so it clicks onto the DIN rail (2), as shown in Figure 4 below.
- To remove the receiver from the DIN rail, pull the receiver horizontally, toward its power connector (1) while rotating the receiver up and off the rail (2), as shown in Figure 5 below.
4.4 – Tubular Surface Mount
The receiver can be mounted to a tubular surface, like a truss, pole, or scaffold tube. A minimum diameter of 38mm is best used for this application. Zip ties or screws can be used for securing the receiver to the tubular section. See Section 4.2 for attaching with screws.
To attach the receiver to a tubular section using zip ties, first attach the mounting clip to the receiver, and then thread two zip ties (not supplied) through the holes as shown in Figure 6 below.
The zip ties can then be fastened to a tubular section, as shown in Figure 7 below.
Electrical Connections
5.1 – Supplying Power
Power is applied to the PixLite R1F-S via the 2-pin screw terminal connector. Polarity for the connector is clearly marked on the lid, as shown in Figure 8 below. The type of wire required for supply connection is 1.3mm2, 16AWG to 3.3mm2, 12AWG, VW-1.
The output should not exceed 10A.
Logic power is automatically regulated from the power input. Simply connect your DC power supply in accordance with specifications listed in Section 7.1 to the power input.
5.2 – Data Input
Data from the transmitter is connected via the RJ45 port located on the front panel of the unit, as shown in Figure 9 below.
Receivers are connected to the transmitter via the RJ45 jacks on the rear panel of the PixLite transmitter. Each jack is labelled with its output number. These ports are not Ethernet 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 10 below.
5.3 – Connecting Pixel LEDs
The pixel lights are connected directly via the pluggable screw terminal connector on the rear of the unit. The connector pin-out is clearly marked on the unit. Simply wire your lights into the screw terminal and then plug this into the mating socket.
The cable length between the output and the first pixel should not exceed 15m.
Figure 11 shows the pin-out of the pixel output connectors.
5.4 – Differential DMX512 Pixels
The PixLite R1F-S can connect to differential DMX512 pixels, as well as single-wire serial DMX512 pixels. Single wired DMX512 pixels can connect as per the pinout above. DIfferential DMX512 pixels require connection of an additional data wire. This pinout can be seen in Figure 12 below.
Notes:
When driving differential DMX512 pixels, you should ensure that the data transmission speed is set appropriately, based on the specification of your pixels. The standard speed for DMX512 transmission is 250kHz, however many DMX pixel protocols can accept faster speeds.
With DMX pixels, the outgoing data stream is not limited to a single universe, as a standard DMX universe would be.
When connected to a PixLite R1F- S , the maximum number of DMX512- D pixels that can be configured is the same as if expanded mode were enabled, which is 510 RGB pixels per output.
5.5 – Backup Data for Select Pixels
Many pixels with a backup data input do not require it to be connected to the PixLIte, however some select pixel types require a backup line to be connected to a secondary source of data, which generates a modified version of the original data signal. Without this connection, the first few pixels in a run will not operate correctly. For these select pixels, the backup wire must be connected to the “Clock” pin on the pixel output, which provides this modified data signal. See pixel glossary on the Advatek website to confirm pixels which require a backup connection to the PixLite.
This pinout can be seen in Figure 13 below.
Note : The maximum number of these pixels per output is the same as if expanded mode were enabled, which is 510 RGB pixels per output.
5.6 – Expanded Mode
If your pixels only use a single data line, you may optionally activate expanded mode on the controller. If using the PixLite R1F-S with a PixLite T16X-S Mk3, expanded mode must be used, meaning that pixels can only use a single data line. The clock pins are not connected, as per the pintout below. In expanded mode, the clock signals are re-purposed for data signals instead. This means the receiver effectively has twice as many pixel outputs (2), but half as many pixels per output can be run.
The pinout for expanded mode is shown in Figure 14 below.
Operation
6.1 – Start-up
When power is applied to the receiver, the green power LED on the center of the front panel should be illuminated, as shown in Figure 15 below.
If pixels have been correctly connected to the outputs and the data cable is connected to the transmitter and valid data is being sent, you should see the pixels turn on.
6.2 – Outputs
The number of pixels per output is configured in the transmitter device and may vary depending on the pixel capacity of the specific device.
The refresh rate of the pixels will depend on the operating frequency of the specific pixel chip type.
Refer to the user manual of the PixLite Transmitter device for more information about this topic as the Transmitter will be responsible for the refresh rate of this receiver.
Specifications
7.1 – Operating Specifications
The table below specifies the recommended operating conditions for a PixLite R1F-S receiver.
For a full list of specifications, refer to the product datasheet.
| Parameter | Value/Range | Units |
| Input Voltage Range | 5-48 | V DC |
| Max Current | 10 | A |
| Max Logic Current Consumption @ 5V | 300 | mA |
| Ambient Operating Temperature | -20 to +55 | °C |
| Storage Temperature | -20 to +55 | °C |
| Maximum Current Per Pixel Output | 10 | A |
7.2 – Mechanical Specifications
The PixLite R1F-S receiver has dimensions as below.
| Dimension | Metric | Imperial |
| Length | 72mm | 2.8″ |
| Width | 39mm | 1.5″ |
| Height | 31mm | 1.2″ |
| Weight | 0.05kg | 0.11lbs |
7.3 – Fault Protection
The PixLite R1F-S features notable protection from potential damage due to various types of faults.
This makes the device extremely robust and reliably able to withstand installation and operation even in harsh environments.
ESD protection is present on all data input lines and on all pixel output lines.
The data input port is protected against faults of up to +/- 48V between signal and common. All pixel output lines are protected against faults of up to +/- 48V.
The PixLite R1F-S itself is protected against damage from reversed polarity power input. However it does not provide external reverse polarity protection for any loads that you may have connected to the pixel outputs.
Troubleshooting
8.1 – No Power LED
Ensure that your power supply is supplying correct voltage. Additionally, ensure that it can supply enough current to drive the lights that are connected. You should also try disconnecting the pixel output and see if the receiver then turns on.
8.2 – No Pixel Control
Check that the correct pixel IC type has been configured on the transmitter unit. Also check the physical wiring and pinout of the pixels.
8.3 – Other Issues
For the latest information, and industry advice, you can refer to our online guides here: www.advateklighting.com/blog/guides
You’ll find information on management and configuration of the device, including its internal SHOWTime feature set in the PixLite Mk3 Management Guide: www.advateklighting.com/downloads/user-manuals/pixlite-mk3-anagement-guide
For any other questions, you can reach out to our support team at the link below: www.advateklighting.com/contact
support@advateklighting.com
Disclaimer
If you require support or warranty, please refer to Section 8.3 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 R1F-S receiver 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 R1F-S 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, CSA C22.2#62368-1 | |
| Radiated Emissions | EN 55032, AS/NZS CISPR32, FCC Part 15 Class A | |
| Immunity for ITE EN 55024 | Electrostatic Discharge | EN 61000-4-2 |
| Radiated Immunity | EN 61000-4-3 | |
| Electrical Fast Transient/Burst | EN 61000-4-4 | |
| Injected Current (0.15 MHz to 80 MHz) | EN 61000-4-6 | |
| Power Frequency Magnetic Field Immunity | EN 61000-4-8 | |
Through testing to the above standards, the PixLite R1F-S 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 |
Warning: Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
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.
This product has been manufactured by:
Advatek Lighting Pty Ltd
U1, 3-5 Gilda Court
Mulgrave, 3170
VIC, AUSTRALIA
www.advateklighting.com
PixLite R1F-S User Manual V20250606
Documents / Resources
 | ADVATEK PixLite R1F-S Pixel Receiver [pdf] User Manual R1F-S, PixLite R1F-S Pixel Receiver, PixLite R1F-S, Pixel Receiver, Receiver |