Efficient Networks Network & Wireless Cards Driver



  1. Efficient Networks Network & Wireless Cards Drivers
  2. Efficient Networks Network & Wireless Cards Drivers

In-Building Fibre Infrastructure

Nevertheless, the access routers at the network boundary are in most of the case kept active as they are IJEDR1401016 International Journal of Engineering Development and Research ( www.ijedr.org) 82 Network Topology Towards Energy-Efficient IP- Networks ISSN: 2321-9939 directly connected with the end users or required application resources. This is enabling efficient conversion to eCPRI for Ericsson RAN sites and also via RoE to cater for older types of radios in the network. With the Router 6673, operators can use Ethernet connectivity to efficiently build fronthaul networks, and with the same platform deliver carrier ethernet services to enterprise networks and serve as a fixed.

Efficient Networks provides the installation of infrastructure that will provide open access to ultra-high speed fibre broadband to the tenants in a building. Three methods commonly used in Singapore is via wiring through the existing or new cable tray, direct method and/or break-point method.

The Air Blown Fibre (ABF) is a process of installing optical fibre by blowing fibre cables using compressed air through a fibre blowing machine. One of the system deployed is through the ABF going mainly from the MDF room and into the riser following into the respective units.

Broadband Wireless

Efficient can deploy network independent tools and software with the ability to see the “whole picture” as well as pinpointing channel interference for ISPs and Hotspots. Wimax and 802.11 a/b/g measurements can be mapped to GPS data so that every time/date/location stamped for real-time or post processing analysis.

Cards

WI-FI Site Survey

The Yellowjacket® system uses a custom receiver, interfaces true RF spectrum protocol analysis and direction finding tool accurate to within 1 dB. Berkeley’s calibrated receiver sweeps and measures all RF energy in the 2.4 GHz range as well as on each of the 14 OFDM/DSSS channels for detailed network inspection of any nearby 802.11b/g APs or STAs. More Information Yellowjacket® is a calibrated wireless receiver module that interfaces with HP’s iPAQ® PocketPC® in sweeping, analyzing and optimizing 2.4 GHz Wi-Fi Networks. The receiver measures all 14 OFDM/DSSS network channels which operate on the IEEE 802.11b/g standard allowing the user to determine the AP’s MAC, SSID and RSSI signal levels for all access points on or off any 802.11b/g WISP or Hotspots.

Cellular Mobile Wireless

The aim of propagation model calibration is to enable RF prediction models to make reliable simulations. The CW measurement process provides a real-world sampling through RF measurements campaigns of actual coverage of the frequencies understudy transmitted by a CW transmitter and measured within the transmission range for the data logging and collection of actual Received Signal Levels within the coverage areas. The results are used to calibrate empirical models within the Radio Network planning software to gain better accuracies on RMS and confidence levels.

CW Measurement Solution for Propagation Model Tuning

Drivers

Efficient Networks Network & Wireless Cards Drivers

The Coyote™ is is a high performance, modular receiver system providing precision, dual-band signal strength measurements using two independent receivers. It is internally powered (or may be externally) and logs measurements and displays graphically, a wide array of built-in real-time macro measurements. These include RSSI, adjacent channel, 'best server', peak hold and A-band or B-band scan analysis for RF Propagations Model Tuning and Calibrations.

We carry a wide assortment of RF measurement and analysis tools such as Power meters, Spectrum analyzers and GSM/CDMA modulated transmitters to cater to your RF engineering needs.

Cards

2G/3G In-line RF Power Meter

Efficient Networks Network & Wireless Cards Drivers

The YellowFrog® handheld power meter with frequencies range from 800 MHz to 2.2 GHz with an accuracy of + 0.5 dB with an in-line type 'N' connector for instant verification of wired power levels in dBm or Watts. Yellow Frog™ only requires 2 AA Ni-MH batteries (2 sets and charger included) to operate continuously for over 8 hours. The portable instrument weighs less than 2 pounds and features a large LCD display and USB port which also YellowFrog Power Meterprovides power when connected to any WindowsXP PC.

Drivers

Wireless Solutions Hands-on

Network Performance and Calibration Tools

Efficient Networks services and product offers are designed to assist engineers, senior management, and project management in service providers, regulators and industry watchers in keeping abreast of best engineering practices, technology developments and other factors affecting their business.


Many companies spend a lot of time and resources on deciding exactly HOW to build and configure their computer networks. There are many choices and considerations, but one of the most important aspects of the decision making process is how the network’s architecture will positively affect the company and its bottom line. A large investment with a minimal return will have managers second-guessing their decisions.

Efficient networks network & wireless cards drivers

Productivity
One of the key goals of efficient network architecture is to design a system that is stable and robust, enabling the employees using it to get their work done without being bogged down by the system itself. That almost can’t help but be a boost to the company’s bottom line simply by virtue of the fact that “the system” isn’t getting in its own way. I’m sure you’ve seen or experienced the phenomenon. That creeping feeling that you’re being thwarted at nearly every turn by a system that seems almost custom-designed to work against you rather than to make your life easier.

Efficiency
The main point of computers has been, from day one, efficiency. As computers began to be networked together, the expression of their efficiency is expressed multiplicatively, rather than additively, or at least it should be, again, with proper network architecture. The bottom line is that if your network is built correctly, using industry best practices and a logical architecture, then you’ll realize that efficiency. If you design your network in some haphazard or ad hoc fashion it will wind up being a ramshackle collection of hardware that doesn’t live up to its potential.

Profitability
Productivity and efficiency translate to bottom line profitability. This is a metric whose impact should not be limited to the current fiscal year. The good news is that you’ve probably got sufficient IT bench strength without having to outsource network maintenance functions. Surely your IT people aren’t so busy with other projects that they can’t also take on the challenges of basic network maintenance, though if they are, you can find some reasonably priced firms who will be more than happy to see you outsource it to them. In today’s mobile world having 24/7 access is essential to remain competitive in a global marketplace, which is a hidden variable that sometimes gets overlooked. Your network needs to be robust enough that it can remain at least partially operational twenty-four hours a day, 365 days a year, with redundant fail-over plans in the event of a system failure or outage. Even if your office isn’t manned 24/7, the reality is that it’s a work anywhere world, and your employees may be working while on the other side of the globe, traveling on business or pleasure. They may be working from home, or on the weekend, and when they work, conducting the business of your business, they need access to files. At least some of those files are going to be located on your company network, so it’s got to be up, running, and available, come what may.