Wm320 Wireless Data Device Network & Wireless Cards Driver Download

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  1. If you use wireless internet at home, you probably have several devices connected to your network. It’s so easy to keep piling on additional devices, too: your new laptop, another video game.
  2. Qualcomm Atheros QCA9377 Wireless Network Adapter Driver for Windows 10 (64-bit) - ThinkPad E485, E585.
  3. Copy the driver name from the command prompt screen and do a Google search. Download the latest available driver for your wireless (WiFi) adapter from the manufacturer's website. In the example above, go to the Download Center for Intel and choose the driver for the Windows version you are running.

Description

The computer will reinstall the wireless network, and the wireless network adapter name will display in the Network adapters category. If it fails to update the wireless driver through Device manager, you can download and install the latest driver for Network Adapter from the ASUS Support Site. Refer to How to search and download drivers.

Radio frequency (RF) wireless medical devices perform at least one function that utilizes wireless RF communication such as Wi-Fi, Bluetooth, and cellular/mobile phone to support health care delivery. Examples of functions that can utilize wireless technology include controlling and programming a medical device, monitoring patients remotely, or transferring patient data from the medical device to another platform such as a cell phone. As RF wireless technology continues to evolve, this technology will increasingly be incorporated into the design of medical devices.

Examples of areas that utilize RF wireless technology include:

Coordination with Federal Communications Commission (FCC)

The Federal Communications Commission (FCC) oversees the use of the public Radio Frequency (RF) spectrum within which RF wireless technologies operate. The FDA’s policies on wireless medical devices are coordinated with the FCC and provide medical device manufacturers with more predictability and a better understanding of regulatory requirements for medical devices that utilize these technologies.

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For information on applicable FCC requirements for wireless medical devices, please refer to the following links:

  • FCC: Equipment Authorization Approval Guide

All types of wireless technology face challenges coexisting in the same space. Mobile wireless equipment can transmit using either licensed radio spectrum or on an unlicensed basis in specified frequency bands. Licensed spectrum allows for exclusive, and in some cases non-exclusive, use of particular frequencies or channels in particular locations. Unlicensed radio frequency devices operating under FCC Part 15 rules are subject to the conditions that no “harmful interference” is caused and any interference from primary users of the frequency band must be accepted.

  • The FCC’s Wireless Telecommunications Bureau (https://www.fcc.gov/general/wireless-telecommunications-bureau#block-menu-block-4) develops policies and service rules for licensed wireless services.
  • The FCC's Office of Engineering and Technology supports the development of rules and procedures for unlicensed radio spectrum.

The FDA recommends that you periodically consult the FCC website for new specifications and updated information.

Benefits and Risks

Incorporation of wireless technology in medical devices can have many benefits, including increasing patient mobility by eliminating wires that tether a patient to a medical bed, providing health care professionals the ability to remotely program devices, and providing the ability of physicians to remotely access and monitor patient data regardless of the location of the patient or physician (hospital, home, office, etc…). These benefits can greatly impact patient outcomes by allowing physicians access to real-time data on patients without the physician physically being in the hospital and allowing real-time adjustment of patient treatment. Remote monitoring can also help special populations such as seniors, through home monitoring of chronic diseases so that changes can be detected earlier before more serious consequences occur.

Information for Patients

The use of RF wireless technology can translate to advances in health care, and patients should be informed about the safe and effective use of these devices in the course of daily life.

Because the airways are shared, the functioning of your wireless medical device may be affected (such as data loss or disruption) by other wireless devices near you. As with any medical device, if you have problems or questions, please consult the information provided by the manufacturer or contact your health care provider.

Information for Health Care Facilities: Risk Management

Most well-designed and maintained RF wireless medical devices perform adequately. However, the increasingly crowded RF environment and competition from non-medical wireless technology users could impact the performance of RF wireless medical devices. FDA recommends that health care facilities develop appropriate processes and procedures to assess and manage risks associated with the integration of RF wireless technology into medical systems.

Health care facilities should also consider the following:

  • Selection of wireless technology
  • Quality of service
  • Coexistence
  • Security
  • Electromagnetic Compatibility (EMC)

The following FDA recognized standards can provide useful information:

In addition, the FDA recommends that health care facilities periodically consult the FCC website for new specifications and updated information that may affect their wireless infrastructure.

For additional information, please review FDA’s Recommendations for EMC/EMI in Healthcare Facilities.

Information for Industry: RF Wireless Developers and Manufacturers

Medical devices that incorporate wireless technology introduce some unique risks that should be addressed. The Radio Frequency Wireless Technology in Medical Devices provides recommendations to develop and support safe and effective wireless medical devices. Medical device manufacturers are encouraged to read this guidance, and review related recognized standards and guidance documents to help in the development, testing, regulatory submission and use of wirelessly enabled medical devices.

The FDA recommends that manufacturers periodically consult the FCC website for new specifications and updated information. Mobile wireless equipment can also transmit on an unlicensed basis in frequency bands such as the Industrial, Scientific, Medical (ISM) bands. ISM bands include 900 MHz, 2.4 GHz, 5.2 GHz, and 5.8 GHz and are commonly used for cordless phones and wireless data network equipment.

As wireless developers and device manufacturers increasingly utilize RF wireless technology, they should consider the following:

  • Selection of wireless technology
  • Quality of service
  • Coexistence
  • Security
  • Electromagnetic Compatibility (EMC)

RF Wireless Coexistence Challenges

All wireless technologies face challenges coexisting in the same space. For example, devices operating under FCC Part 15 rules must accept any interference from primary users of the frequency band. (Note: FCC Part 15 is applicable to certain types of low-power, non-licensed radio transmitters and certain types of electronic equipment that emit RF energy unintentionally.) The Association for the Advancement of Medical Instrumentation (AAMI) TIR 69 - Risk Management of Radio-frequency Wireless Coexistence for Medical Devices and Systems and American National Standards Institute (ANSI) C63.27: Standard for Evaluation of Wireless Coexistence discuss testing and risk management for wireless medical device coexistence.

Regulations

The FDA regulates manufacturers of any electronic product through the Electronic Product Radiation Control (EPRC) and medical device provisions of federal law.

Through federal law, the FDA has formally recognized several consensus standards related to RF wireless medical devices. When manufacturers submit pre-market notification to the FDA for device clearance or approval, declarations of conformity to these standards may eliminate the need for certain safety and effectiveness data. For more information see FDA's Standards Program (Medical Devices).

FDA Recognized Standards Related to Wireless Medical Devices

Below are several recognized standards related to RF wireless medical devices. For more information on recognized standards, go to the FDA Recognized Consensus Standards database.

  • AAMI TIR 69: Association for the Advancement of Medical Instrumentation - Risk Management of Radio-frequency Wireless Coexistence for Medical Devices and Systems (2017)
  • ANSI C63.27/D1.0: American National Standards Institute - Standard for Evaluation of Wireless Coexistence (2017)

Standards for risk management of IT Networks incorporating medical devices:

Wm320 Wireless Data Device Network & Wireless Cards Driver Download

In addition, there are standards on electromagnetic compatibility (EMC) that relate to wireless medical devices:

  • IEC 60601-1-2 Edition 3: 2007: Medical Electrical Equipment - Part 1-2: General Requirements for Safety - Collateral Standard: Electromagnetic Compatibility - Requirements and Tests
  • AAMI TIR18: Association for the Advancement of Medical Instrumentation – Guidance on electromagnetic compatibility of medical devices in healthcare facilities (2010)

Industry Guidance and Guides

Reporting Problems to FDA

Prompt reporting of adverse events can help the FDA identify and better understand the risks associated with RF wireless medical devices. We encourage health care providers and patients who suspect a problem or hazardous event to file a voluntary report through MedWatch: The FDA Safety Information and Adverse Event Reporting Program.

Health care personnel employed by facilities that are subject to Reporting Adverse Events (Medical Devices) requirements should follow the reporting procedures established by their facilities.

Manufacturers, distributors, importers, and device user facilities (which include many health care facilities) must notify the FDA immediately upon discovery of any accidental radiation occurrence or radiation safety defect by Reporting Adverse Events (Medical Devices).

Additional Information


What’s a portable WiFi Hotspot? And how can it help my business stay connected?

It’s more important than ever to stay connected. Business tools like email, document storage, customer relationship management, video conferencing—even payroll and human resources—are moving to cloud-based solutions. Work demands requires a fast, reliable internet connection wherever business takes you.
But how do you know what networking technology is right for your business? What is an affordable, reliable solution for small business? A robust network for a medium to large company? Business owners don’t have time to take a deep dive into what’s the latest technology.
AT&T is here to help. This article offers valuable information on our portable WiFi hotspot and why it may make sense for your business.
In this guide, you will learn:

What is a portable WiFi hotspot?

A portable hotspot router enables a business to connect multiple laptops and mobile devices to the Internet —whether a solution is needed to log on from a small business store, remotely from a home office, customer site or on-the-go. We make it simple – whatever enabled device your business demands —with our solution your employees are automatically connected to the AT&T mobile broadband network. The hotspot device acts as a portable Internet access point that connects your team to web-based business tools and valuable company information. Plus, security features offer the opportunity to monitoring web traffic and secure business devices from cyber threats, with better reliability than public connections at an affordable price.
Portable WiFi hotspot devices can be used within the vast AT&T high-speed wireless coverage area. The devices are especially useful to teams traveling as a group to a conference, a customer site or other work event because your workforce is essentially taking a secure connection with them —including access to your company’s networking and security policies. Business WiFi hotspots also make great primary connections for fully-mobile businesses like food trucks, pop-up shops, events and trade booths, construction sites, disaster recovery teams, insurance adjusters, and so many more.

How is a portable WiFi hotspot different than phone tethering?

Phone tethering (sharing your mobile device’s internet connection with another device via cord, BlueTooth, or a localized WiFi connection) is a good option when connecting a single device to the Internet, while our business WiFi hotspots allow you to connect up to 20 devices at a time. Portable WiFi hotspot devices are single purpose devices that are designed specifically to connect a group of people to the Internet when and where it is convenient. They take up minimal space for portability, and compared to cellphones include larger internal antennae for optimal reception and a large battery for long life. AT&T mobile broadband routers can connect laptops, smartphones, tablets, point of sales systems, or even function as remote backup failovers for critical systems in the event of power outages. Read more about how portable wireless broadband devices are different than phone tethering or learn about our Cradlepoint LTE failover solution.
There are several options that fit various connectivity needs, including LTE, and LTE Advanced enabled devices. AT&T offers several WiFi hotspot devices.

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The Newest Wireless Hotspot Routers

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Netgear’s Nighthawk Mobile Hotspot Router is the world’s first commercial Gigabit Class LTE Mobile Hotspot Router to achieve maximum download speeds of 1 Gbps on the AT&T 5G millimeter network*, bringing the fastest possible internet connection to businesses on the go. Combining ultrafast download speeds, and support for the latest networks into one device, this premium mobile hotspot router provides the best internet connection experience possible whether it is used on-the-go, at home, or during your travels. With a very large 5,040mAh battery, the Nighthawk boasts all-day battery life, so businesses are always connected, even when away from the office.

*5G+ millimeter mobile network where available with compatible plan, powered by AT&T.

Compact 4G LTE Wireless Hotspots

The affordable, pocketable business WiFi hotspot from AT&T features 11 hours of battery life to get you through the work day while connecting up to 15 devices on the AT&T high speed LTE network. A sleek design and color display make it a breeze to use virtually wherever your business takes you.

The bottom line

  • Portable WiFi hotspot devices from AT&T allow a business to connect teams and mobile workforce to the Internet in a safe, reliable network.
  • They are great for conferences, customer sites, worksites or an impromptu meeting at the local coffee shop with a prospective client.
  • AT&T portable WiFi hotspot devices provide the speed, reliability and security you need to collaborate, engage with customers and operate at the speed for any size of business.