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NV-202P - VDSL2 LAN extender with PoE

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NV-202P
 VDSL2 LAN extender with PoE

 

 

  • Overview
  • Features
  • Specifications
  • Applications
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  • FAQ

 

The NV-202P is low cost LAN extension solution using the G.993.2 VDSL2 standard technology and providing up to 100Mbps symmetric using only a single copper wire pair. Designed specifically for a LAN to LAN extension and supporting both symmetrical and asymmetrical transmission at up to 100/100Mbps within 300 meters and 5/1Mbps at 3000 meters, this is a perfect solution to extend LAN with PoE for IP Surveillance or PoE powered devices at any location outside of the 100 meters reach.

 

Flexible Configuration

The NV-202P supports both central office (CO) and customer-premises equipment (CPE) modes selectable through DIP Switch. Customers can do the configuration for different needs adjustment. PIN1 ON of DIP Switch is CO side, PIN1 OFF of DIP Switch is CPE side

 

Interleave delay support

Interleave delay function is used in digital data transmission technology to protect the transmission against noise issue and data error.
If during transit more than a certain amount of data has been lost then the data cannot be correctly decoded. Short bursts of noise on the line can cause these data packets to become corrupt and the bridge has to re-request data which in turn can slow down the overall rate at which data is transmitted.
Interleaving is a method of taking data packets, chopping them up into smaller bits and then rearranging them so that
once contiguous data is now spaced further apart into a non continuous stream. Data packets are re-assembled by your lan extender.

 

Easy Installation

The NV-202P may be installed on any level surface (e.g. a table or shelf or rail) that use bracket or DIN rail plate. The NV-202P supports plug-and-play installation and is fully compatible with all kinds of network protocols. Furthermore, user can watch the status of each individual port via the LED indicators.

 

Automatic Bandwidth detection

The NV-202P supports band profile 17a and 30a, it can automatically detect the cable length and bandwidth depending on the distance to the configuration. The maximum bandwidth is symmetric bandwidth of 100Mbps / 0.3 km.


 

 

• Provides 2 x 10/100 Mbps RJ-45 Ethernet ports with power injector
• Supports RJ-11/Terminal Block combo for Line port.
• Supports high bandwidth up to 100Mbps symmetric over Line ports
• Support long reach mode up to 3 km with 24 gauge phone wire
• DIP switch with CO and CPE mode selectable
• Support auto speed for Line port and Interleave mode selectable through CO side DIP switch
• Supports long packet size up to 1536 bytes
• Supports Surge protection for line port
• Auto-detect of PoE IEEE 802.3af/at (up to 30W) equipment providing protection from
  incorrect installation
• Supports mid-span PoE mode
• Supports wall mounting and DIN-Rail mount installation (Optional)
 
* Specifications are subject to change without prior notice.

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 Standard Conformance
 Standard:
 IEEE802.3 10 Base-TX standard
 IEEE802.3u 100 Base-TX standard
 IEEE 802.3af / IEEE 802.3at standard
 ITU-T G993.2 VDSL2 standard

  Regulatory Compliance:

 FCC Class B
 CE
 

 RoHS compliance

 
 Hardware Specifications
 Physical Interface:

 2 x RJ-45 10/100Mbps auto-negotiation Ethernet port with power injector
 1 x RJ-11/Terminal Block connector for VDSL2 line port
 1 x DIP Switch
 1 x Power Jack 

 MTU: 1536 bytes

 
LED indication:
 1 x Power LED
 2 x Link/Active Status for Ethernet port
 2 x PoE Indicator LED
 1 x Link LED for VDSL2 port
 1 x CO Mode indicator LED
 1 x CPE Mode indicator LED
 Power Requirement:
 Input Voltage: 36 ~ 57 V DC (Typical: 48V) (Commercial-grade desktop  Power Adapter)
 Output: 30W max for each. (Pin Assignment:4/5(+),7/8(-))
 VDSL2 Line Code:
 Discrete multitone (DMT) modulation
 VDSL2 Transmission Mode:
 Packet Transfer Mode (PTM)
 Operating Temperature:
 0°C~ 50°C (32°F ~ 122°F) Fanless, free air cooling
 Storage Temperature:
 -20°C ~ 70°C (-4°F ~ 158°F)
 Humidity:
 10 to 90% (non-condensing)
 Weight:
 About 0.42 kg
 Dimensions:
 137 x 100 x 27 mm (5.39" x 3.94" x 1.06")

 

* Specifications are subject to change without prior notice.

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LAN Distance Extension
User can use NV-202 bridge (CO mode) to connect NV-202P bridge (CPE mode), or use NV-202P bridge (CO mode) to connect NV-202 bridge (CPE mode) that to do a variety of applications. The bridge’s line port supports 100Mbps maximum for data service across existing phone wiring. It is easy-to-use which do not require installation of additional wiring. Every modular phone jack in the home can become a port on the LAN. Network devices can be installed via a telephone wire in any suitable distance.(depending on the speed)

 

Proper Installation: IP surveillance、Call center、Telecom.
 

IP Surveillance

If user need use over 1.5 km cable length and also need bigger bandwidth application, such as connect to ip camera. User can use NV-202P (CO mode) and NV-202 (CPE mode) to achieve the IP surveillance for long distance application.

 

 

 

 

Release Date
File
Version
Download
Nov, 2013
  Datasheet
N/A
Nov, 2014
  User's manual
A4
Mar,2015
  Performance Table
B1

 

 

 

1. What is NV-202P related products?

 

NV-202P can fully compatible with NV-500, NV-202, NV-2400H.

 

2. POWER indicator does not light up (green) after power on.

 

Check the power plug by plugging in another that is functioning properly. Check the power cord with another device. If these measures fail to resolve the problem, have the unit power supply replaced by a qualified distributor.

 

3. Link indicator does not light up (green) after making a connection.

 

Network interface (ex. a network adapter card on the attached device), network cable, or switch port is defective.

• Power off and re-power on the VDSL bridged.

• Verify that the bridge and attached device are power on.

• Be sure the cable is plugged into both the bridge and corresponding device.

• Check if the proper cable type is used and its length exceed specified limits.

• Check the bridge on the attached device and cable connections for possible defects.

• Make sure the phone wire must be connecting NV-202 first, when powered on.

• Replace the defective bridge or cable if necessary.

 

4. Why is the VDSL Link cannot be established.

 

VDSL setting failure or phone cable length is over the specification limit.

  1. • Please make sure that the phone wire must be connected between NV-202(CO) and NV-202(CPE) when both are power on. NV-202(CO) will do link speed function depending on phone wire length, therefore if NV-202(CO) can’t detect NV-202(CPE) over phone wire while both power on, this will cause the link to fail.
  2. • Please check the phone wire, we recommend use 24 gauge with twisted pair but without rust, and the length is not over 3 km.
  3. • Please check the right Dip Switch setting. (CO: PIN1 ON, CPE: PIN1 OFF)
• Please reinsert power adapter when changing cable length or link time over 3 minutes.

 

5. What is VDSL2?

 

Very-high-speed digital subscriber line 2 (VDSL2) is an access technology that exploits the existing infrastructure of copper wires that were originally deployed for traditional telephone service. It can be deployed from central offices, from fiber-optic connected cabinets located near the customer premises, or within buildings. It was defined in standard ITU-T G.993.2 finalized in 2005.
VDSL2 was the newest and most advanced standard of digital subscriber line (DSL) broadband wireline communications. Designed to support the wide deployment of triple play services such as voice, video, data, high definition television (HDTV) and interactive gaming, VDSL2 was intended to enable operators and carriers to gradually, flexibly, and cost-efficiently upgrade existing xDSL infrastructure.

The protocol was standardized in the International Telecommunication Union telecommunications sector (ITU-T) as Recommendation G.993.2. It was announced as finalized on 27 May 2005,[1] and first published on 17 February 2006. Several corrections and amendments were published in 2007 through 2011.

VDSL2 is an enhancement to very-high-bitrate digital subscriber line (VDSL), Recommendation G.993.1. It permits the transmission of asymmetric and symmetric aggregate data rates up to 200 Mbit/s downstream and upstream on twisted pairs using a bandwidth up to 30 MHz.

VDSL2 deteriorates quickly from a theoretical maximum of 250 Mbit/s at source to 100 Mbit/s at 0.5 km (1,600 ft) and 50 Mbit/s at 1 km (3,300 ft), but degrades at a much slower rate from there, and still outperforms VDSL. Starting from 1.6 km (1 mi) its performance is equal to ADSL2+.

ADSL-like long reach performance is one of the key advantages of VDSL2. LR-VDSL2 enabled systems are capable of supporting speeds of around 1–4 Mbit/s (downstream) over distances of 4–5 km (2.5–3 miles), gradually increasing the bit rate up to symmetric 100 Mbit/s as loop-length shortens. This means that VDSL2-based systems, unlike VDSL1 systems, are not limited to short local loops or MTU/MDUs only, but can also be used for medium range applications.

 

6. What is SNR(Signal-to-Noise)

 

Signal-to-noise ratio (often abbreviated SNR or S/N) is a measure used in science and engineering that compares the level of a desired signal to the level of background noise. It is defined as the ratio of signal power to the noise power. A ratio higher than 1:1 indicates more signal than noise. While SNR is commonly quoted for electrical signals, it can be applied to any form of signal (such as isotope levels in an ice core or biochemical signaling between cells). The ratio is usually measured in decibels(dB)

The signal-to-noise ratio, the bandwidth, and the channel capacity of a communication channel are connected by the Shannon–Hartley theorem.

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.

 

7. Connected the Co and CPE within 300 meters RJ-11 phone cable got only less than 10 Mbit/s
  1. Cause:
  2. • Some testing program which is base on TCP/IP protocol such as FTP, Iperf, NetIQ, the bandwidth of testing outcome will be limited by TCP window size.

• Some operating system limited the maximum bandwidth, such as windows series OS.

Solution:

We recommend to test VDSL2 bandwidth best by Smartbit equipment (Packet generator), if you don't have Smartbit, we recommend test that by IPERF program, and TCP window size must be setted max. 64k, the parameter as iperf –c server IP address –i 1 –t 50 –w 65535 for client side.

 

8. Can you please explain about the NV-202P point-to-point band profile/plan?

 

Regarding the NV-202P point-to-point band profile/plan, The short cable lengths default profile is 30a, with the growth of distance until the profile 30a cannot establish link, it will auto change to profile 17a of long reach mode. In addition to, NV-202P point-to-point band plan will depending on with different distance to automatically configure different parameters.

 

9. What is the ISDN interface that NV-202P support?

 

Our devices support both ISDN interfaces U(2w) and S/T(4w). When using an external splitter, make sure that you are using one that is compatible with the interface you want to use.

 

10. What is PoE(Power over Ethernet)

 

Power over Ethernet or PoE describes any of several standardized or ad-hoc systems which pass electrical power along with data on Ethernet cabling. This allows a single cable to provide both data connection and electrical power to devices such as wireless access points or IP cameras. Unlike standards such as Universal Serial Buswhich also power devices over the data cables, PoE allows long cable lengths. Power may be carried on the same conductors as the data, or it may be carried on dedicated conductors in the same cable. (From the wiki)

 

11. What is IEEE 802.3af/802.3at

 

The original IEEE 802.3af-2003 PoE standard provides up to 15.4 W of DC power (minimum 44 V DC and 350 mA) to each device. Only 12.95 W is assured to be available at the powered device as some power dissipates in the cable.

The updated IEEE 802.3at-2009 PoE standard also known as PoE+ or PoE plus, provides up to 25.5 W of power. The 2009 standard prohibits a powered device from using all four pairs for power. Some vendors have announced products that claim to be compatible with the 802.3at standard and offer up to 51 W of power over a single cable by utilizing all four pairs in the Category 5 cable.