Stonestreet One USB Devices Driver Download For Windows 10

Posted By admin On 21/11/21
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A February 14, 2002 Report and Order by the Federal Communications Commission (FCC) 1 authorizes the unlicensed use of UWB in 3.1–10.6 GHz. This is intended to provide an efficient use of scarce radio bandwidth while enabling both high data rate personal-area network (PAN) wireless connectivity as well as longer-range, low data rate. These three libraries are located in the windowsmobilece/ /lib directory located within the ZebraLink Multiplatform SDK installation directory; Stonestreet One® BTExplorer version 1.2.5 build 19090 or higher (for Motorola/Symbol devices using the Stonestreet One Bluetooth stack).

  1. Nov 06, 2006 Hi, I used this way both in Embedded visual C 4.0 and Visual C# but device resitration part didn't work. In Symbol - MC 70xx device, it is a bluetooth manager with the name of BTExplorer from Stonestreet One, Inc. Which uses HKEYLOCALMACHINE Drivers Active registry key for the driver's DLL, I think it is the reason that my RegisterDevice function doesn't work.
  2. DN304 Cebal – CCxxxx Development Tools USB Driver Installation Guide; CC1101+CC1190 600 kbps Data Rate, +19 dBm Transmit Power without FHSS in 902-928 MHz Frequency Band; Developer’s News: BlueRadios® and Stonestreet One Deliver Bluetooth® 4.0 Dual Mode Low Energy Module.
  3. Iii Revision History Changes to the original manual are listed below: Change Date Description-01 Rev. A 01/2011 Initial release.-01 Rev. B 10/2012 Update Shift key functionality for latest software versions.
HealthLink PC Manager with Stonestreet One Bluetooth and USB supporting all v1.0 Device Specializations
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HealthLink is a PC based software application that can run on any Windows platform. HealthLink collects Continua Certified personal medical device data via Bluetooth or USB and connects with Continua WAN services and electronic Health Repositories. HealthLink utilizes OXPlib, a C++ implementation of the Continua PAN client that provides a high level interface for management applications. This high level interface enables application developers to create Continua managers without the need to understand ISO/IEEE 11073-20601 details.

The reference system is composed of a Dell laptop with Windows XP or Windows 7, running over Stonestreet One’s Bluetooth Stack and Microsoft’s USB stack. The LNI software includes Bluetopia ®, a Bluetooth shim from Stonestreet One which implements the Health Device Profile (HDP) and a USB shim that sits on top of Microsoft’s winusb library and implements the PHDC functionality. These shims interface to the transport independent layer of OXPlib. Other transports may be added without changes to the OXP stack. OXPlib is the component that implements ISO/IEEE 11073-20601 behavior. HealthLink controls the OXPlib library. HealthLink acts as both an AHD and a WAN device from the Continua End to End architecture perspective, implementing the PAN client, the WAN client, and the HRN client.

Ultra-WideBand

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History

Intel’s_UWB

UWB_by_Rafael_Kolic

Technical_Questions

Intel_UWB_Technology

FAQ

Disruptive_RF

Wireless_Comunication

Evolution_of_UWB

ECEN4242_stuff

Taiyo_Yuden

Ultra-wideband (also UWB, and ultra-wide-band, ultra-wide band,etc.) may be used to refer to anything with a very large bandwidth (e.g.: a type of samplingrate in the Speexspeech codec).This article discusses the meaning in radio communications.

  • 1Overview
  • 2Possible applications
  • 3See also
  • 4External links
    • 4.1Standards and Regulations
    • 4.2Resources
    • 4.3Chip manufacturers
    • 4.4Software providers
Windows

Overview

Ultra-Wideband (UWB) is a technology for transmitting information spreadover a large bandwidth that should, in theory and under the rightcircumstances, be able to share spectrum with other users. A February 14,2002 Report and Order bythe Federal Communications Commission (FCC) [1]authorizes the unlicensed use of UWB in 3.1–10.6 GHz. This is intended toprovide an efficient use of scarce radio bandwidth while enabling both highdata rate personal-area network (PAN) wireless connectivity as well aslonger-range, low data rate applications as well as radar and imaging systems.More than four dozen devices have been certificated under the FCC UWB rules,the vast majority of which are radar, imaging or positioning systems. Deliberationsin the International Telecommunication UnionRadio communication Sector (ITU-R)have resulted in a Report and Recommendation on UWB in November of 2005.National jurisdictions around the globe are expected to act on nationalregulations for UWB very soon.

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Ultra Wideband was traditionally accepted as impulse radio, but the FCC andITU-R now define UWB in terms of a transmission from an antenna for which theemitted signal bandwidth exceeds the lesser of 500 MHz or 20% bandwidth. Thus,pulse-based systems—wherein each transmitted pulse instantaneously occupies aUWB bandwidth, or an aggregation of at least 500 MHz worth of narrow bandcarriers, for example in orthogonal frequency-division multiplexing(OFDM) fashion—can gain access to the UWB spectrum under the rules. Pulserepetition rates may be either low or very high. Pulse-based radars and imagingsystems tend to use low repetion rates, typically in the range of 1 to 10 mega pulsesper second. On the other hand, communications systems favor high repetitionrates, typically in the range of 1 to 2 giga pulses per second, thus enablingshort-range gigabit-per-second communications systems. Each pulse in apulse-based UWB system occupies the entire UWB bandwidth, thus reaping thebenefits of relative immunity to multipath fading(but not to intersymbol interference), unlike carrier-basedsystems that are subject to both deep fades and intersymbol interference.

The FCC power spectral density emission limit is the same as forunintentional emitters in the UWB band, but is significantly lower in certainsegments of the spectrum.

A significant difference between traditional radio transmissions and UWBradio transmissions is that traditional transmissions transmit information byvarying the power/frequency/and or phase in distinct and controlled frequencieswhile UWB transmissions transmit information by generating radio energy atspecific times with a broad frequency range.

One ofthe valuable aspects of UWB radio technology is the ability for a UWB radiosystem to determine 'Time of Flight' of the direct path of the radiotransmission between the transmitter and receiver. With any radio transmissionthe signals reflect off of metallic objects and results in different radiosignal paths that then can arrive at the receiver later in time and interferewith radio transmission that went directly from the transmitter to thereceiver. With frequency based transmissions the sinusoidal waves add/subtractat the receiver antenna and make it difficult or impossible to distinguish thedirect transmission path from the reflected paths. This is called'multi-path fading' and 'multi-path interference'. However,with UWB transmissions the time encoding can be randomly dithered and thereceiver can then determine which is the direct path. With a bidirectionalsystem or a radar system this allows distances to be determined much moreaccurately.

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Possible applications

Due to the extremely low emission levels, UWB systems tend to beshort-range. However, due to the short duration of the UWB pulses, extremelyhigh data rates are possible, and data rate can be readily traded for range bysimply scaling the number of pulses per data bit. Conventional OFDM technologycan also be used subject to the minimum bandwidth requirement of theregulations. High data rate UWB can enable wirelessmonitors,the efficient transfer of data from digital camcorders,wireless printingof digital pictures from a camera without the need for an intervening personal computer,and the transfer of files among cell phone handsets and other handheld devices like personal digital audio and video players.

UWBalso has the potential to enable 'see-through-the-wall' imagingtechnology and high-precision time-of-arrival-based localization approaches. [1]It is expected to exhibit excellent efficiency with a spatial capacityof approximately 1,000,000 bit/s/m².

See also

  • Bluetooth
  • Wireless USB
  • WiMedia Alliance
  • UWB Forum
  • IEEE 802.15
  • Wireless
  • Network
  • Bandwidth
  • Fat Pipe
  • Wideband
  • IEEE 802.15.4a 'ZigBee'

External links

Standards andRegulations

  • UWB Forum The UWB Forum is an open, non-profit industry association dedicated to collaboratively developing and administering specs from the physical layer up; enabling connectivity and interoperability for multiple industry-based protocols.
  • WiMedia Alliance The WiMedia Alliance is an open, non-profit industry association dedicated to collaboratively developing and administering specs from the physical layer up; enabling connectivity and interoperability for multiple industry-based protocols sharing the MBOA-UWB spectrum.
  • ITU-R Recommendations - SM series
  • ITU-R Recommendations - P series
  • FCC Title 47 of the Code of Federal Regulations
  • FCC (GPO) Title 47, Section 15 of the Code of Federal Regulations
  • FCC Electronic Document Management System (EDOCS)
  • ETSI
  • ISO
  • IEC
  • ISO/IEC JTC 001
  • Ecma International
  • Standard ECMA-368 High Rate Ultra Wideband PHY and MAC Standard
  • Standard ECMA-369 MAC-PHY Interface for ECMA-368

Resources

Stonestreet One USB Devices Driver Download For Windows 10
  • UWB Radio Technology Primer on UWB
  • Ultra Wideband Systems Technologies and Applications
  • UWBAntenna.com
  • UWB Info and resources
  • The Ultra-Wideband Radio Laboratory at the University of Southern California has many publications including 'Low Noise Amplifier Design for Ultra-Wideband Radio' by Jongrit Lerdworatawee, Won Namgoong, 2003
  • FCC Docket file on UWB

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Chip manufacturers

Semiconductor companies providing complete solutions for Certified WirelessUSB and Bluetooth 3.0, based upon the WiMedia ultra-wideband (UWB) technology,as well as proprietary solutions.(Errata: There is no Bluetooth spec. 3.0ready)

  • Aether Wire & Location, Inc.
  • Alereon Inc.
  • Artimi Inc.
  • FOCUS Enhancements
  • Freescale Semiconductor
  • Global Interface Technologies Inc.
  • General Atomics
  • Intel Corporation
  • MultiSpectral Solutions
  • Pulse~LINK
  • Staccato Communications Inc.
  • Texas Instruments
  • Time Domain Corporation
  • TZero Technologies
  • WiQuest Communications, Inc.
  • Wisair

Software providers

Stonestreet One USB Devices Driver Download For Windows 10

  • Microsoft Microsoft Windows Drivers (including WHCI—wireless host controller interface)
  • Stonestreet One Windows and Embedded drivers for UWB Hardware