Antaira Technologies Industrial Ethernet Extender IVC-4011-T User’s Manual
Trademarks Copyright © Antaira Technologies 2013. Contents subject to revision without prior notice. Antaira is a registered trademark of Antaira Technologies. The information in this manual is subject to change without notice. All other trademarks belong to their respective owners.
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 his own expense. CE Mark Warning This is a Class A product. In a domestic environment, this product may cause radio interference, in which case the user may be required to take adequate measures. Energy Saving Note of the Device This power required device does not support Standby mode operation.
Table Of Contents 1. Introduction............................................................................... 5 1.1 Checklist............................................................................. 5 1.2 Ethernet over VDSL2 Bridge Description................................ 5 1.3 Key Features....................................................................... 6 1.4 Specifications...................................................................... 7 2. Hardware Description......................
1. Introduction 1.1 Checklist Check the contents of the package for following parts: ll IVC-4011-T x 1 ll DIN-Rail Kit x 1 ll Wall Mount Kit x 1 ll User’s Manual x 1 If any of these items are missing or damaged, please contact Antaira Sales Representative or authorized dealer immediately. Please retain the carton including the original packing material, and use them against to repack the product in case there is a need to return it us for repair. 1.
Antaira Industrial Ethernet Extender provides a cost effective replacement and smooth migration for existing Long Reach Ethernet (LRE) networks. The cable specifications of the connection are listed as following: ll 10Base-T, Category 3, 4 or 5 UTP ll 100Base-TX, Category 5, 5e or 6 UTP ll Ethernet over VDSL2, Twisted-pair Telephone Wires ll Ethernet over VDSL2, Coaxial Cable Note Slave device (CPE) must connect to Master device (CO) through the telephone wire or coaxial cable.
ll Half Duplex Back Pressure and IEEE 802.3x Full Duplex Pause Frame Flow Control ll Support up to 1536 bytes packet size, 802.1Q VLAN tag transparent ll Integrated addresses address look-up engine, support 2K absolute MAC ll VDSL2 Stand-Alone transceiver for simple bridge modem application ll Selectable Target Band Plan and Target SNR Margin ll Support extensive LED indicators for network diagnostics ll DIN Rail and Wall Mount Design 1.
Ethernet Cabling RJ-11 BNC • 10Base-T: 2-pair UTP Cat.3, 4, 5 up to 100m (328ft) • 100Base-TX: 2-pair UTP Cat.5, 5e, 6 up to 100m (328ft) Twisted-pair telephone wires (AWG24 or better) up to 1.4km 50 ohm, RG58A/U, RG58C/U, RG58/U or 75 ohm, RG6 (Distance 2.
Dimension (HxWxD) 135mm x 87.8mm x 32mm Weight 495g Power Requirement 12~48V DC, Redundant power with polarity reverse protection function Power Consumption / Dissipation 5.64Watts / 19.
2. Hardware Description nn IVC-4011-T The IVC-4011-T builds with 4 x RJ45, 1 x RJ-11, and 1 x BNC ports for network line connection. The 4 RJ-45 ports support 10/100BTx and will distinguish the speed of incoming connection automatically. This section describes the hardware features of the Industrial Ethernet Extender. 2.1 Front Panel The units’ front panel provides a simple interface monitoring the Industrial Ethernet Extender. nn IVC-4011-T Front Panel P1 P2 FAULT Slave Master Sync.
2.1.1 LED Indicators for IVC-4011-T The rich diagnostic LEDs on the front panel provide the operating status of individual port and whole system.
2.1.2 MODE DIP Switch The Industrial Ethernet Extender provides 4 selective transmission modes. By switching the transmission modes, user can obtain a best transmission mode to suit with phone line or BNC quality of distance connectivity. The following is the summary table of transmission setting, bandwidth and distance extensibility tested for AWG 24 (0.5mm) twisted-pair without noise and cross talk.
performance, when Asymmetric is selected that provides better downstream performance. Refer to table above for details. Target SNR (Signal Noise Ratio) Margin ll When fixed SNR margin is selected, the system will maintain the SNR margin at 9 dB across all usable loop length. Note 1. By default setting, the four DIP switch at “ON” position and operate as “Slave”. For operate as “Master”, please adjust the DIP 1 switch to “OFF” position.
3.Installation 3.1 Install Industrial Ethernet Extender – IVC-4011-T The Industrial Ethernet Extender does not require any software configuration. Users can immediately use any feature of this product simply by attached the cables and plug power on. Below is some key limitation on the Industrial Ethernet Extender: - Used for Point-to-Point ◊ When the connection with either RJ-11 or BNC port for VDSL2 network connection.
3.2 IVC-4011-T BNC / RJ-11 Proper Connection Antaira Industrial Ethernet Extender has a DIP switch which can adjust to be Master or Slave mode. Connection of 2 Antaira Industrial Ethernet Extenders, one must be set as Master (CO) mode and the other one must be set as Slave (CPE) mode. Please refer to the follow Figure 3-1 chart for reference. Industrial Ethernet Extender could not allow the BNC and RJ-11 be connected at the same time. Note Sync.
3.3 IVC-4011-T Application Connection Two sets of the Industrial Ethernet Extenders could be used to link two local Area networks that are located in different place. The normal telephone line or coaxial cable could be setup as a 99/63Mbps (RJ11) or 99/65Mbps (BNC) asymmetric backbone. Coaxial UTP VDSL2 NVR IP Camera 2.4km 100Base-TX UTP VDSL2 VDSL2 Coaxial Cable Figure 3-2: IVC-4011-T BNC and RJ-11 connection Antaira IVC-4011-T is compatible with Antaira EVC-3001 and EVC-3010.
3.4 Wiring the Power Inputs The 6-contact terminal block connector on the top panel of Industrial Ethernet Extender is used for Dual Redundant power inputs. The below instruction is the guideline for the power wiring: 1. Insert positive / negative DC power wires into the contacts 1 and 2 for Power 1, or 5 and 6 for Power 2. V1- V2- V2+ Input DC12~48V PWR2 V1+ PWR1 Fault 2. Tighten the wire-clamp screws for preventing the wires from losing.
3.5 Wiring the Fault Alarm Contact The fault alarm contacts are in the middle of the terminal block connector as the picture shows below. Inserting the wires, the Industrial Ethernet Extender will detect the fault status of the power failure and then forms an open circuit. The following illustration shows an application example for wiring the fault alarm contacts. Insert the wires into the fault alarm contacts Note 1. The wire gauge for the terminal block should be in the range between 12 ~ 24 AWG. 2.
4. Troubleshooting SYMPTOM: VDSL LNK LED does not light after wire is connected to the VDSL port. CHECKPOINT: 1. Verify the length of the wire connected between two IVC-4011-T not more than 2.4km (BNC) and 1.4km (RJ-11). Please also try to adjust the DIP switch of IVC-4011-T to other SNR mode. 2. Please make sure one unit of IVC-4011-T setup as Master mode and the other IVC-4011-T with Slave mode. SYMPTOM: TP LED does not light after cable is connected to the port. CHECKPOINT: 1. Make sure to have the Cat.
5. FAQ Q1: What is the IVC-4011-T power input? A1: 12V to 48V DC Q2: What is VDSL2? A2: VDSL2 (Very High-Bit-Rate Digital Subscriber Line 2), G.993.2 is the newest and most advanced standard of xDSL broadband wire line communications. Designed to support the wide deployment of Triple Play services such as voice, data, high definition television (HDTV) and interactive gaming, VDSL2 enable operators and carrier to gradually, flexibly, and cost efficiently upgrade existing xDSLinfrastructure.
In digital communications, the SNR will probably cause a reduction in data speed because of frequent errors that require the source (transmitting) computer or terminal to resend some packets of data. SNR measures the quality of a transmission channel over a network channel. The greater the ratio, the easier it is to identify and subsequently isolate and eliminate the source of noise. Generally speaking, the higher SNR value gets better line quality, but lower performance.
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