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User Guide
Streaming AV Products
VN-Matrix® 325
SDI, HD-SDI & 3G-SDI Over IP Codec
68-2122-01 Rev. A
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Safety Instructions • English Warning Power sources • This equipment should be operated only from the power source indicated on the product. This This symbol is intended to alert the user of important operating and mainte- equipment is intended to be used with a main power system with a grounded (neutral) conductor. The third nance (servicing) instructions in the literature provided with the equipment. (grounding) pin is a safety feature, do not attempt to bypass or disable it. This symbol is
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FCC Class A Notice 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. Operation is subject to the following two conditions: This device may not cause harmful interference. 1. This device must accept any interference received, including interference that may cause undesired operation. The Class A limits are designed to provide reasonable protection against harmful interference when the equipment is operated in
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Conventions Used in this Guide In this user guide, the following are used: CAUTION: A caution indicates a potential hazard to equipment or data. NOTE: A note draws attention to important information. TIP: A tip provides a suggestion to make working with the application easier. WARNING: A warning warns of things or actions that might cause injury, death, or other severe consequences. NOTE: For examples of computer or device responses mentioned in this guide, the character “0” is used for the nu
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Contents Introduction ............................................ 1 Operation ...............................................31 About this Guide ............................................. 1 Indications and Controls ................................ 31 About the VNC 325 Codec .............................. 1 Network Interface .......................................... 32 Features ........................................................... 3 Device List Page ....................................
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VN-Matrix 325 Serial Digital Over IP CODEC • Contents vi ����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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Introduction Make links in INDD Make links in Acrobat • About this Guide • About the VNC 325 Codec • Features About this Guide This guide contains installation, configuration, and operating information for the Extron® VN-Matrix® VNC 325 encoder/decoders (codecs). NOTE: This guide describes the operation the VN-Matrix 325 with version 4.6 or later firmware. About the VNC 325 Codec The VN-Matrix VNC 325 video codecs (see figure 1) distribute digital SD, HD-SDI, or 3G-SDI ® broadcast quality vid
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Each VNC 325 codec has an integrated web interface. One codec in the VN-Matrix system must be designated as the system controller, and the controller can be any unit in the system, whether it is configured as an encoder or decoder. All normal system configuration and control is via the web interface of the designated controller. Using a computer on the ® ® same network and a standard web browser, such as Mozilla Firefox or Microsoft® Internet Explorer®, you can configure any VNC 325 unit in
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Features Supports broadcast quality video formats (see table 1) Table 1. Supported Video Formats Video Format SMPTE 424 / 425M SMPTE 292M SMPTE 259M Resolutions 1080p @ 50/59.94/60 Hz 1080i @ 50/59.95/60 Hz 525i @ 59.94 Hz 1080p@23.97/24/25/29.97/30 Hz 625i @ 50 Hz 720p @ 23.97/24/25/29.97/30/50/59.94/60 Hz Color space 10-bit, 4:2:2, YCrCb 10-bit, 4:2:2, YCrCb 10-bit, 4:2:2, YCrCb Autodetection — The codecs auto-detect the format of the connected signal. Input sources are encoded and decoded at
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Highly efficient compression algorithms — The VN-Matrix 325 system uses a minimal amount of data to transport video and audio across the network. NOTE: It is crucial to the effective operation of VN-Matrix 325 that sufficient data throughput be achieved, especially where multiple sources are encoded. The network efficiency is directly affected by the speed and configuration of each element, such as switchers and routers, within its infrastructure. The VN-Matrix 325 system achieves optimum t
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Installation and Setup This section details the installation and initial configuration of the VN-Matrix VNC 325 codecs, including: • Installation and Setup Overview • Rear Panel Features • Mounting the Units • Planning the System Architecture • Configuring Network Settings • Making Remaining Connection • Configuring Encoders and Decoders Installation and Setup Overview This section introduces a checklist of the actions that you should do in the order shown to install and configure all of the
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Rear Panel Features NOTE: This “Rear Panel Features” section identifies the various ports on the back of the VNC 325 and defines their function. Do NOT make any network (LAN) connections until directed in the connection and setup procedures that begin after this section. 1 2 REMOTE RS-232 POWER OVER LAN OPTICAL SDI SDI 12V DC IN OUT 12 LAN 3A MAX 3 4 5 6 7 8 Figure 2. VNC 325 Features NOTE: The VNC 325 uses male connectors for the serial ports ( and ). You may a b need an adapter. a Remote
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d LAN port 1 (RJ-45 port) — Use either this port or the fiber optic network port ( ) to e stream video and audio data across a network, to control the VN-Matrix system, or both. e LAN port 2 (fiber optic port) — Use either this port or the RJ-45 network port ( ) to d stream video and audio data across a network, to control the VN-Matrix system, or both. NOTES: • Do NOT connect VN-Matrix units to an existing network until each is correctly configured. Incorrect configuration may cause disrupti
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Data Transport Methods Source (video) data from a VNC 325 encoder can be distributed to multiple decoders and displays (one-to-many) or to a single decoder and display (point-to-point). Video data is transported from the source (encoder) to the display (decoder) using one of three methods, in order of preference, which are detailed in the following sections: • Multicast real-time protocol (RTP) — Best choice • Unicast RTP — Second choice • Unicast Transport Control Protocol (TCP) — Acceptable
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This is the recommended transport method for real time video and audio data over an IP network. However, because RTP is a connection-less protocol, data delivery is not guaranteed. Where data packets are lost (such as due to excessive network traffic), the PURE3 algorithm carefully manages the data stream to minimize any image disruption. NOTE: In figure 3, IP decoder 3 is designated as the system controller. Unicast RTP Like multicast RTP, the unicast RTP data transport method uses a real-t
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Unicast TCP The unicast TCP data transport method uses standard TCP protocol and should be used for single point-to-point transfer of data only. This method is connected as shown in figure 5. NOTES: • Multiple decoder connections are theoretically possible using this method but not recommended. Each additional connection creates extra loading on the encoder CPU, which ultimately results in poor display performance. In addition, multiple TCP streams carrying the same source data is an ineffic
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Example 1: Switched and isolated network configuration NOTE: It is immaterial, in this example, which codec is the encoder and which is the decoder. These functions are not identified in figure 6. Figure 6 shows two VNC 325 codecs that are configured to work across two switched and isolated networks. Codec 1 is configured as the controller, via LAN port 1. The controller handles all normal system configuration and control via its web interface. This example consists of two networks, connecte
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Table 2 shows the codec configuration settings for example 1. See “Configure Network Settings” on page 16 to make these settings. NOTE: A gateway value must be set on the streaming port otherwise no streaming status is available in the HTML network interface. Table 2. Applicable Codec Configuration Selections Codec 1 Option LAN Port 1 (RJ-45) Option LAN Port 2 (fiber optic) 2 Address: 172.28.0.1 12 Address: 192.168.0.1 3 Netmask: 255.255.0.0 13 Netmask: 255.255.255.0 4 Gateway: 172.28.0.254 1
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Example 2: Switched and isolated network configuration NOTE: It is immaterial, in this example, which codec is the encoder and which is the decoder. These functions are not identified in figure 7. Figure 7 shows two VNC 325 codecs that are configured to work across two switched and isolated networks. Codec 1 is configured as the controller, via LAN port 2. This example consists of two networks, connected to the VN-Matrix system as follows: • Network 1, connected to LAN port 1 (RJ-45 port), th
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Table 3 shows the codec configuration settings for example 2. See “Configure Network Settings” on page 16 to make these settings. NOTE: A gateway value must be set on the streaming port otherwise no streaming status is available in the HTML network interface. Table 3. Applicable Codec Configuration Selections Codec 1 Option LAN Port 1 (RJ-45) Option LAN Port 2 (fiber optic) 2 Address: 172.28.0.1 12 Address: 192.168.0.1 3 Netmask: 255.255.0.0 13 Netmask: 255.255.255.0 4 14 Gateway: 192.168.0.2
