RGBlink MSP415 HDMI 2.0 to HDBaseT Extender Set User Manual
- June 12, 2024
- RGBlink
Table of Contents
MSP 415
HDMI 2.0 to HD BaseT Extender Set
User Manual
Article No: RGB-RD-UM-MSP 415 C001
Version No:V1.1
Thank you for choosing our product!
This User Manual is designed to show you how to use this extender set quickly
and make use of all the features. Please read all directions and instructions
carefully before using this product.
Declarations
FCC/Warranty
Federal Communications Commission (FCC)
Statement
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 may cause harmful interference, in which case the user will
be responsible for correcting any interference.
Guarantee and Compensation
RG Blink provides a guarantee relating to perfect manufacturing as part of the
legally stipulated terms of guarantee. On receipt, the purchaser must
immediately inspect all delivered goods for damage incurred during transport,
as well as for material and manufacturing faults. RG Blink must be informed
immediately in writing of any complains.
The period of guarantee begins on the date of transfer of risks, in the case
of special systems and software on the date of commissioning, at latest 30
days after the transfer of risks. In the event of justified notice of
compliant, RG Blink can repair the fault or provide a replacement at its own
discretion within an appropriate period. If this measure proves to be
impossible or unsuccessful, the purchaser can demand a reduction in the
purchase price or cancellation of the contract. All other claims, in
particular those relating to compensation for direct or indirect damage, and
also damage attributed to the operation of software as well as to other
service provided by RG Blink, being a component of the system or independent
service, will be deemed invalid provided the damage is not proven to be
attributed to the absence of properties guaranteed in writing or due to the
intent or gross negligence or part of RG Blink.
If the purchaser or a third party carries out modifications or repairs on
goods delivered by RG Blink, or if the goods are handled incorrectly, in
particular if the systems are commissioned operated incorrectly or if, after
the transfer of risks, the goods are subject to influences not agreed upon in
the contract, all guarantee claims of the purchaser will be rendered invalid.
Not included in the guarantee coverage are system failures which are
attributed to programs or special electronic circuitry provided by the
purchaser, e.g.
interfaces. Normal wear as well as normal maintenance are not subject to the
guarantee provided by RG Blink either.
The environmental conditions as well as the servicing and maintenance
regulations specified in this manual must be complied with by the customer.
Operators Safety Summary
The general safety information in this summary is for operating personnel.
Do Not Remove Covers or Panels
There are no user-serviceable parts within the unit. Removal of the top cover
will expose dangerous voltages. To avoid personal injury, do not remove the
top cover. Do not operate the unit without the cover installed.
Power Source
This product is intended to operate from a power source that will not apply
more than 230 volts rms between the supply conductors or between both supply
conductor and ground. A protective ground connection by way of grounding
conductor in the power cord is essential for safe operation.
Grounding the Product
This product is grounded through the grounding conductor of the power cord. To
avoid electrical shock, plug the power cord into a properly wired receptacle
before connecting to the product input or output terminals. A protective-
ground connection by way of the grounding conductor in the power cord is
essential for safe operation.
Use the Proper Power Cord
Use only the power cord and connector specified for your product. Use only a
power cord that is in good condition. Refer cord and connector changes to
qualified service personnel.
Use the Proper Fuse
To avoid fire hazard, use only the fuse having identical type, voltage rating,
and current rating characteristics. Refer fuse replacement to qualified
service personnel.
Do Not Operate in Explosive Atmospheres
To avoid explosion, do not operate this product in an explosive atmosphere.
Installation Safety Summary
Safety Precautions
For all MSP 415 installation procedures, please observe the following
important safety and handling rules to avoid damage to yourself and the
equipment.
To protect users from electric shock, ensure that the chassis connects to
earth via the ground wire provided in the AC power Cord.
The AC Socket-outlet should be installed near the equipment and be easily
accessible.
Unpacking and Inspection
Before opening MSP 415 shipping box, inspect it for damage. If you find any
damage, notify the shipping carrier immediately for all claims adjustments. As
you open the box, compare its contents against the packing slip. If you find
any shortages, contact your sales representative.
Once you have removed all the components from their packaging and checked that
all the listed components are present, visually inspect the system to ensure
there was no damage during shipping. If there is damage, notify the shipping
carrier immediately for all claims adjustments.
Site Preparation
The environment in which you install your MSP 415 should be clean, properly
lit, free from static, and have adequate power, ventilation, and space for all
components.
Chapter 1 Your Product
1.1 In the Box
No. | Item | Qty. |
---|---|---|
1 | IR blaster cable (1.5 meters) | 2 |
2 | 20~60KHz IR receiver cable (1.5 meters) | 2 |
3 | mounting ear | 4 |
4 | 3-pin Phoenix connector | 2 |
5 | 24V/1A locking power adapter | 1 |
6 | user manual | 1 |
Note: Power Adapter supplied as standard according to destination market.
1.2 Product Overview
MSP 415 can extend high definition video / audio signal, RS-232, bi-
directional IR, and the distance is up to 492ft / 150 meters between
transmitter and receiver via a single CAT cable. It supports resolution up to
4K2K@60Hz 4:4:4, 18Gbps and HDCP 2.2. One HDMI loop port is available for
output. It also supports deembeded audio for L/R audio output and PoC
function. In addition, the extender is equipped with two-way IR pass-through
which allows for source and display control.
This HDMI extender includes two units: transmitter unit and receiver unit. The
transmitter unit is responsible for capturing HDMI input signal and carrying
the signal via one cost effective Cat5e/6 cable, and transmitting / emitting
IR control signals. The receiver unit is responsible for receiving the HDMI
signal and transmitting / emitting IR control signal.
The extender offers the most convenient solution for HDMI extension via a
single Cat5e/6 with long distance capability, and is the perfect solution for
any application.
The key features are as follows:
- HDCP 2.2 / HDCP 1.4 and DVI 1.0 compliant
- Support 18Gbps video bandwidth
- Extended transmission distance via a single Cat5e/6 cable; up to 394ft / 120 meters for 4K2K signal or 492ft / 150 meters for 1080P signal
- Support one HDMI loop output on the transmitter
- De-embeded audio to analog stereo output on receiver
- With bi-directional IR, RS-232 and CEC pass-through
- HDR, HDR10+, Dolby Vision and HLG function supported
- Support PoH (Power over HD BaseT)
MSP 415 System Connection Diagram
1.2.1 Transmitter Panel
Description
1| Power LED| Red LED Indicates that the transmitter is powered on.
2| SERVICE port| Firmware update port.
3| DC 24V| DC 24V/1A power supply input port.
Note that the extender supports POC function, it means that either transmitter
or receiver is powered on by 24V/IA power adopter, the other one doesn ‘ t
need power supply.
4| HDBT OUT| R.145 connector for connecting the HDBT IN port of receiver with
a CAT 5e/6 cable.
| connection signal indicator lamp (left)| • Illuminating: Transmitter and
Receiver are In good connection status
• Flashing: Transmitter and Receiver are in poor connection status
• Dark: Transmitter and Receiver are not connected
| data signal Indicator lamp(right)| • Illuminating: HDMI signal with HDCP
• Flashing: HDMI signal without HDCP
• Dark: No HDMI signal
5| HOMI OUT| HDMI loop output for display
6| HDMI IN| HDMI source input
7| M IN| IR input port for receiving the signal of IR remote
8| IR OUT| IR output port for control of source device. This IR output signal
Is from the IR IN port of receiver
9| RS-232| 3-pin Phoenix connettor for RS-232 command transmission. The RS-232
command will pass-through from transmitter to receiver or from receiver to
transmitter
1.2.2 Receiver Panel
Description
1| Power LED| Red LED indicates that the receiver is powered on.
2| SERVICE port| Firmware update port
3| DC 24V| DC 24V/1A power supply input port
Note that the extender supports POC function, it means that either transmitter
or receiver is powered on by 24v/1A power adopter, the other one doesn’t need
power supply.
4| HDBT INT| RJ45 connector for connecting the HDBT OUT port of transmitter
with a CAT 5e/6 cable
| connection signal indicator lamp (left)| • Illuminating: Transmitter and
Receiver are in good connection status.
• Flashing: Transmitter and Receiver are in poor connection status.
• Dark: Transmitter and Receiver are not connected.
| data signal Indicator (right)| • Illuminating: HOW signal with HDCP.
• Flashing: HDMI signal without HDCP.
• Dark: No HDMI signal.
5| HDMI OUT| HDMI output for display
6| AUDIO OUT| 3.5mm stereo connector for analog audio output
7| IR IN| IR input port for receiving the signal of IR remote
8| IR OUT| IR output port for control of display device. This IR output signal
is from the IR IN port of transmitter
9| RS-232| 3-pin Phoenix connector for RS-232 command transmission.
The RS-232 command will pass-through from transmitter to receiver or from
receiver to transmitter
1.2.3 Dimension
Following is the dimension of MSP 415 for your reference:
Chapter 2 Use Your Product
2.1 Operation Steps
Chapter 3 Order Codes
3.1 Product Code
Product Code | Item |
---|---|
611-0415-00-0 | MSP415 HDMI 2.0 to HD Base T Extender (TX/RX) |
Chapter 4 Support
4.1 Contact Us
Inquiries
+86-592-577-1197
info@rgblink.com
**rgblink.com/contact-us
Global Support
support@rgblink.com
**rgblink.com/support-me
RGBlink Headquarters
Xiamen, China
Room 601A, No. 37-3 Banshang community, Building 3, Xinke Plaza, Torch Hi-Tech
Industrial Development Zone, Xiamen, China
+86-592-577-1197| China Regional
Sales & Support
Shenzhen, China
11* Floor Baiwang Building 5318 Shahe West Road Baimang, Nanshan
+86-755 2153 5149
---|---
Beijing Region Office
Beijing, China
Building 8, 25 Qixiao Road Shahe Town Changping
+010- 8577 7286| Europe Regional Sales & Support
Eindhoven, Holland
Flight Forum Eindhoven 5657 DW
+31 (040) 202 71 83
Chapter 5 Appendix
Specification
Connectors
Input | TX | HDMI 2.0 1 X HDMI Type A |
---|---|---|
RX | HDBaseT 1 X R145 | |
Output | TX | HD BaseT 1 X R145 |
HDMI 2.0 1 X HDMI Type A
RX| HDMI 2.0 1X HDMI Type A
AUDIO 1 X 3.5mm Phone Jack
Communication| TX| RS232 1X Euroblock (3-pin phonex connector)
IR IN/OUT 2X 3.5mm Phone Jack
RX| RS232 1 X Euroblock (3-pin phonex connector)
IR IN/OUT 2X 3.5mm Phone Jack
Power| TX| 1X DC Jack
RX| 1X DC Jack
Performance
Input Resolution| HDMI I HDBaseT
SMPTE| 720p@23.98/24/25/29.97/30/50/59.94/60 I
1080i@23.98/24/25/29.97/30/50/59.94/60 I
1080p@23.98/24/25/29.97/30/50/59.94/60 12160p@30/60
VESA| 800 X 600@6011024 X 768@6011280 X 768@6011280 X 1024@6011366 X
768@6011600 X 1200@6011920 X 1080@6011920 X 1200@6012048 X
1152@60 12560 X 1600@6013840 X 1080@50/6013840 X
2160@30/60I 4096 X 2160@60
Output Resolution| HDMI I HDEtaseT
SMPTE| 720p@23.98/24/25/29.97/30/50/59.94/601
| | 1080i@23.98/24/25/29.97/30/50/59.94/601
1080p@23.98/24/25/29.97/30/50/59.94/60 I 216Optb30/60
VESA| 800X 600@6011024 X 768€06011280 X 768@6011280 X 1024@6011366 X
768@6011600 X 1200@6011920 X 1080@6011920 X 1200@6012048 X 1152€060 I 2560 X
1600€060 I 3840 X 1080@S0/6013840 X 2160@30/60 I 4096X 2160@60
Supported Standard| HDMi 2.0
Power
Voltage| 24V
Environment
Working Temperature| 0 -55 C
Humidity| 10- 90%
Physical
Weight| Net(Device)| 0.5 kg (TX/RX)
Dimension| Net(Device)| 140mm×65mm×18mm (TX/RX)
5.2 Terms & Definitions
The following terms and definitions are used throughout this guide.
- RCA: Connector used primarily in consumer AV equipment for both audio and video. The RCA connector was developed by the Radio Corporation of America.
- BNC: Stands for Bayonet Neill-Concelman. A cable connector used extensively in television (named for its inventors). A cylindrical bayonet connector that operates with a twist-locking motion .
- CVBS:CVBS or Composite video, is an analog video signal without audio. Most commonly CVBS is used for transmission of standard definition signals. In consumer applications the connector is typically RCA type, while in professional applications the connector is BNC type.
- YPBPR: Used to describe the colour space for progressive-scan. Otherwise known as component video.
- VGA: Video Graphics Array. VGA is an analog signal typically used on earlier computers. The signal is non-interlaced in modes 1, 2, and 3 and interlaced when using in mode
- DVI: Digital Visual Interface. The digital video connectivity standard that was developed by DDWG (Digital Display Work Group). This connection standard offers two different connectors: one with 24 pins that handles digital video signals only, and one with 29 pins that handles both digital and analog video.
- SDI: Serial Digital Interface. Standard definition video is carried on this 270 Mbps data transfer rate. Video pixels are characterized with a 10-bit depth and 4:2:2 color quantization. Ancillary data is included on this interface and typically includes audio or other metadata. Up to sixteen audio channels can be transmitted. Audio is organised into blocks of 4 stereo pairs. Connector is BNC.
- HD-SDI: high-definition serial digital interface (HD-SDI), is standardized in SMPTE 292M this provides a nominal data rate of 1.485 Gbit/s.
- 3G-SDI: standardized in SMPTE 424M, consists of a single 2.970 Gbit/s serial link that allows replacing dual link HD-SDI.
- 6G-SDI: standardized in SMPTE ST-2081 released in 2015, 6Gbit/s bitrate and able to support 2160p@30.
- 12G-SDI:standardized in SMPTE ST-2082 released in 2015, 12Gbit/s bitrate and able to support 2160p@60.
- U-SDI: Technology for transmitting large-volume 8K signals over a single cable. a signal interface called the ultra high definition signal/data interface (U-SDI) for transmitting 4K and 8K signals using a single optical cable. The interface was standardized as the SMPTE ST 2036-4.
- HDMI: High Definition Multimedia Interface: An interface used for the transmission of uncompressed high definition video, up to 8 channels of audio, and control signals, over a single cable.
- HDMI 1.3: released on June 22 2006, and increased the maximum TMDS clock to 340 MHz (10.2 Gbit/s). Support resolution 1920 × 1080 at 120 Hz or 2560 × 1440 at 60 Hz). It added support for 10 bpc, 12 bpc, and 16 bpc color depth (30, 36, and 48 bit/px), called deep color.
- HDMI 1.4 : released on June 5, 2009, added support for 4096 × 2160 at 24 Hz, 3840 × 2160 at 24, 25, and 30 Hz, and 1920 × 1080 at 120 Hz. Compared to HDMI 1.3, 3 more features added which are HDMI Ethernet Channel (HEC) , audio return channel (ARC),3D Over HDMI, a new Micro HDMI Connector, an expanded set of color spaces.
- HDMI 2.0, released on September 4, 2013 increases the maximum bandwidth to 18.0 Gbit/s. Other features of HDMI 2.0 include up to 32 audio channels, up to 1536 kHz audio sample frequency, the HE-AAC and DRA audio standards, improved 3D capability, and additional CEC functions.
- HDMI 2.0a: was released on April 8, 2015, and added support for High Dynamic Range (HDR) video with static metadata.
- HDMI 2.0b: was released March, 2016, support for HDR Video transport and extends the static metadata signaling to include Hybrid Log-Gamma (HLG).
- HDMI 2.1 : released on November 28, 2017. It adds support for higher resolutions and higher refresh rates, Dynamic HDR including 4K 120 Hz and 8K 120 Hz.
- DisplayPort: A VESA standard interface primarily for video, but also for audio, USB and other data. DisplayPort (orDP) is backwards compatible with HDMI, DVI and VGA.
- DP 1.1: was ratified on 2 April 2007, and version 1.1a was ratified on 11 January 2008. DisplayPort 1.1 allow a maximum bandwidth of 10.8 Gbit/s (8.64 Gbit/s data rate) over a standard 4-lane main link, enough to support 1920×1080@60Hz
- DP 1.2: introduced on 7 January 2010, effective bandwidth to 17.28 Gbit/s support increased resolutions, higher refresh rates, and greater color depth, maximum resolution 3840 × 2160@60Hz
- DP 1.4: publish on 1 Mar, 2016.overall transmission bandwidth 32.4 Gbit/s ,DisplayPort 1.4 adds support for Display Stream Compression 1.2 (DSC), DSC is a “visually lossless” encoding technique with up to a 3:1 compression ratio. Using DSC with HBR3 transmission rates, DisplayPort 1.4 can support 8K UHD (7680 × 4320) at 60 Hz or 4K UHD (3840 × 2160) at 120 Hz with 30 bit/px RGB color and HDR. 4K at 60 Hz 30 bit/px RGB/HDR can be achieved without the need for DSC.
- Multi-mode Fiber: Fibers that support many propagation paths or transverse modes are called multi-mode fibers, generally have a wider core diameter and are used for short-distance communication links and for applications where high power must be transmitted.
- Single-mode Fiber: Fiber that support a single mode are called single-mode fibers. Single-mode fibers are used for most communication links longer than 1,000 meters (3,300 ft).
- SFP: small form-factor pluggable , is a compact, hot-pluggable network interface module used for both telecommunication and data communications applications.
- optical fiber connector: terminates the end of an optical fiber, and enables quicker connection and disconnection than splicing. The connectors mechanically couple and align the cores of fibers so light can pass. 4 most common types of optical fiber connectors are SC, FC, LC,ST.
- SC: (Subscriber Connector), also known as the square connector was also created by the Japanese company – Nippon Telegraph and Telephone. SC is a push-pull coupling type of connector and has a 2.5mm diameter. Nowadays, it is used mostly in single mode fiber optic patch cords, analog, GBIC, and CATV. SC is one of the most popular options, as its simplicity in design comes along with great durability and affordable prices.
- LC:(Lucent Connector) is a small factor connector (uses only a 1.25mm ferrule diameter) that has a snap coupling mechanism. Because of its small dimensions, it is the perfect fit for high-density connections, XFP, SFP, and SFP+ transceivers.
- FC : (Ferrule Connector) is a screw type connector with a 2.5mm ferrule. FC is a round shaped threaded fiber optic connector, mostly used on Datacom, telecom, measurement equipment, single-mode laser.
- ST: (Straight Tip) was invented by AT&T and uses a bayonet mount along with a long spring-loaded ferrule to support the fiber.
- USB: Universal Serial Bus is a standard that was developed in the mid-1990s that defines cables, connectors and communication protocols. This technology is designed to allow a connection, communication and power supply for peripheral devices and computers.
- USB 1.1: Full–Bandwidth USB, specification was the first release to be widely adopted by the consumer market. This specification allowed for a maximum bandwidth of 12Mbps.
- USB 2.0: or Hi–Speed USB, specification made many improvements over USB 1.1. The main improvement was an increase in bandwidth to a maximum of 480Mbps.
- USB 3.2: Super Speed USB with 3 varieties of 3.2 Gen 1(original name USB 3.0), 3.2Gen 2(original name USB 3.1), 3.2 Gen 2×2 (original name USB 3.2) with speed up to 5Gbps,10Gbps,20Gbps respectively.
USB version and connectors figure:
| Type A| Type B| Mini A| Mini B| Micro-A| Micro-B| Type C
---|---|---|---|---|---|---|---
USB 2.0| | | | | | |
USB 3.0| | | | | | |
USB 3.1&3.2| | | | | | |
-
NTSC : The colour video standard used in North America and some other parts of the world created by the National Television Standards Committee in the 1950s. NTSC utilizes an interlaced video signals.
-
PAL: Phase Alternate Line. A television standard in which the phase of the colour carrier is alternated from line to line. It takes four full images (8 fields) for the colour-to-horizontal images (8 fields) for the colour-to-horizontal phase relationship to return to the reference point. This alternation helps cancel out phase errors. For this reason, the hue control is not needed on a PAL TV set. PAL, is widely used in needed on a PAL TV set. PAL, is widely used in Western Europe, Australia, Africa, the Middle East, and Micronesia. PAL uses 625-line, 50-field (25 fps) composite colour transmission system.
-
SMPTE: Society of Motion image and Television Engineers. A global organization, based in the United States, that sets standards for baseband visual communications. This includes film as well as video and television standards.
-
VESA: Video Electronics Standards Association. An organization facilitating computer graphics through standards.
-
HDCP: High-bandwidth Digital Content Protection (HDCP) was developed by Intel Corporation an is in wide use for protection of video during transmission between devices.
-
HD BaseT: A video standard for the transmission of uncompressed video (HDMI signals) and related features using Cat 5e/Cat6 cabling infrastructure.
-
ST2110: A SMPTE developed standard, ST2110 describes how to send digital video over and IP networks. Video is transmitted uncompressed with audio and other data in a separate streams.
SMPTE2110 is intended principally for broadcast production and distribution facilities where quality and flexibility are more important. -
SDVoE: Software Defined Video over Ethernet (SDVOE) is a method for transmission, distribution and management AV signals using a TCP/IP Ethernet infrastructure for transport with low latency. SDVoE is commonly used in integration applications.
-
Dante AV: The Dante protocol was developed for and widely adopted in audio systems for the transmission of uncompressed digital audio on IP based networks. The more recent Dante AV specification includes support for digital video.
-
NDI: Network Device interface (NDI) is a software standard developed by New Tek to enable video-compatible products to communicate, deliver, and receive broadcast quality video in a high quality, low latency manner that is frame-accurate and suitable for switching in a live production environment over TCP (UDP) Ethernet based networks. NDI is commonly found in broadcast applications.
-
RTMP: Real-Time Messaging Protocol (RTMP) was initially a proprietary protocol developed by Macromedia (now Adobe) for streaming audio, video and data over the Internet, between a Flash player and a server.
-
RTSP : The Real Time Streaming Protocol (RTSP) is a network control protocol designed for use in entertainment and communications systems to control streaming media servers. The protocol is used for establishing and controlling media sessions between end points.
-
MPEG: Moving Picture Experts Group is a working group formed from ISO and IEC developing standards that allow audio/video digital compression and Transmission.
-
H.264: Also known as AVC (Advanced Video Coding) or MPEG-4i is a common video compression standard. H.264 was standardized by the ITU-T Video Coding Experts Group (VCEG) together with the ISO/IEC JTC1 Moving Picture Experts Group (MPEG).
-
H.265: Also known as HEVC (High Efficiency Video Coding )H.265 is the successor to the widely used H.264/AVC digital video coding standard. Developed under the auspices of ITU, resolutions up to 8192×4320 may be compressed.
-
API: An Application Programming Interface (API) provides a predefined function which allows access capabilities and features or routines viaa software or hardware, without accessing source code or understanding the details of inner working mechanism. An API call may execute a function and/or provide data feedback/report.
-
DMX512: The communication standard developed by USITT for entertainment and digital lighting systems. The wide adoption of the Digital Multiplex (DMX) protocol has seen the protocol used for a wide range of other devices including video controllers. DMX512 is delivered over cable of 2 twisted pairs with 5pin XLR cables for connection.
-
Art Net: An ethernet protocol based on TCP/IP protocol stack, mainly used in entertainment/events applications. Built on the DMX512 data format, Art Net enables multiple “universes” of DMX512 to be transmitted using ethernet networks for transport.
-
MIDI: MIDI is the abbreviation of Musical Instrument Digital Interface. As the name indicates the protocol was developed for communication between electronical musical instruments and latterly computers. MIDI instructions are triggers or commands sent over twisted pair cables, typically using 5pin DIN connectors.
-
OSC: The principle of Open Sound Control (OSC) protocol is for networking sound synthesizers, computers, and multimedia devices for musical performance or show control. As with XML and JSON, the OSC protocol allows sharing data. OSC is transported via UDP packets between devices connected on an Ethernet.
-
Brightness: Usually refers to the amount or intensity of video light produced on a screen without regard to colour. Sometimes called black level.
-
Contrast Ratio: The ratio of the high light output level divided by the low light output level. In theory, the contrast ratio of the television system should be at least 100:1, if not 300:1. In reality, there are several limitations. Well-controlled viewing conditions should yield a practical contrast ratio of 30:1 to 50:1.
-
Colour Temperature: The colour quality, expressed in degrees Kelvin (K), of a light source. The higher the colour temperature, the bluer the light. The lower the temperature, the redder the light. Benchmark colour temperature for the A/V industry include 5000°K,6500°K,and 9000°K.
-
Saturation: Chroma, Chroma gain. The intensity of the colour, or the extent to which a given colour in any image is free from white. The less white in a colour, the truer the colour or the greater its saturation. Saturation is the amount of pigment in a colour, and not the intensity.
-
Gamma: The light output of a CRT is not linear with respect to the voltage input. The difference between what you should have and what is actually output is known as gamma.
-
Frame: In interlaced video, a frame is one complete image. A video frame is made up of two fields, or two sets of interlaced lines. In a film, a frame is one still image of a series that makes up a motion image.
-
Genlock: Allows synchronization of otherwise video devices. A signal generator provides a signal pulses which connected devices can reference. Also see Black Burst and Color Burst.
-
Black burst: The video waveform without the video elements. It includes the vertical sync, horizontal sync, and the Chroma burst information. Black burst is used to synchronize video equipment to align the video output.
-
Colour Burst: In colour TV systems, a burst of subcarrier frequency located on the back part of the composite video signal. This serves as a colour synchronizing signal to establish a frequency and phase reference for the Chroma signal. Colour burst is 3.58 MHz for NTSC and 4.43 MHz for PAL.
-
Colour Bars: A standard test pattern of several basic colours (white, yellow, cyan, green, magenta, red, blue, and black) as a reference for system alignment and testing. In NTSC video, the most commonly used colour bars are the SMPTE standard colour bars. In PAL video, the most commonly used colour bars are eight full field bars. On computer monitors the most commonly used colour bars are two rows of reversed colour bars
-
Seamless Switching: A feature found on many video switchers. This feature causes the switcher to wait until the vertical interval to switch. This avoids a glitch (temporary scrambling) which often is seen when switching between sources.
-
Scaling: A conversion of a video or computer graphic signal from a starting resolution to a new resolution. Scaling from one resolution to another is typically done to optimize the signal for input to an image processor, transmission path or to improve its quality when presented on a particular display.
-
PIP: Picture-In-Picture. A small image within a larger image created by scaling down one of image to make it smaller. Other forms of PIP displays include Picture-By-Picture (PBP) and Picture- With-Picture (PWP), which are commonly used with 16:9 aspect display devices. PBP and PWP image formats require a separate scaler for each video window .
-
HDR: is a high dynamic range (HDR) technique used in imaging and photography to reproduce a greater dynamic range of luminosity than what is possible with standard digital imaging or photographic techniques. The aim is to present a similar range of luminance to that experienced through the human visual system.
-
UHD: Standing for Ultra High Definition and comprising 4K and 8K television standards with a 16:9 ratio, UHD follows the 2K HDTV standard. A UHD 4K display has aphysical resolution of3840x2160 which is four times the area and twice both the width and height of a HDTV/Full HD (1920×1080) video signal.
-
EDID: Extended Display Identification Data. EDID is a data structure used to communicate video display information, including native resolution and vertical interval refresh rate requirements, to a source device. The source device will then output the provided EDID data, ensuring proper video image quality.
5.3 Revision History
The table below lists the changes of MSP 415 User Manual.
Format | Time | ECO# | Description | Revised by |
---|---|---|---|---|
V1.0 | 5/31/2022 | 0000# | Release | Aster |
V1.1 | 10/24/2022 | 0001# | 1. Revise application diagram | |
2. Revise key features | Aster |
All information herein is Xiamen RG Blink Science & Technology Co Ltd.
excepting noted.
RG Blink is a registered trademark of Xiamen RG Blink Science & Technology Co
Ltd.
While all efforts are made for accuracy at time of printing, we reserve the
right to alter otherwise make change without notice.
References
- Data communication - Wikipedia
- Dynamic Resolution Adaptation - Wikipedia
- Hot swapping - Wikipedia
- Mechanical splice - Wikipedia
- Single-mode optical fiber - Wikipedia
- SMPTE 292 - Wikipedia
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