Roses from my garden captured forever

The wonderful ability to capture objects and scenes and events and people has become increasingly simple with digital cameras. One can snap pictures whenever and wherever and take such beauties as this rose in my own garden and save them to the cmputer of disc. One nevr needs to wait for fil develpoment of pay the extra. Isnt progress and invention amazing!

Latest items

Latest video cameras and digital cameras

bluetooth

Bluetooth is an industrial specification for wireless personal area networks (PANs). Bluetooth provides a way to connect and exchange information between devices such as mobile phones, laptops, personal computers, printers, GPS receivers, digital cameras, and video game consoles over a secure, globally unlicensed short-range radio frequency. The Bluetooth specifications are developed and licensed by the Bluetooth Special Interest Group. Uses Bluetooth is a standard and communications protocol primarily designed for low power consumption, with a short range (power-class-dependent: 1 meter, 10 meters, 100 meters) based on low-cost transceiver microchips in each device.[1]Bluetooth enables these devices to communicate with each other when they are in range. The devices use a radio communications system, so they do not have to be in line of sight of each other, and can even be in other rooms, as long as the received transmission is powerful enough.Class Maximum Permitted Power mW(dBm) Range (approximate) Class 1 100 mW (20 dBm)~100 meters Class 2 2.5 mW (4 dBm)~10 meters Class 3 1 mW (0 dBm)~1 meter In most cases the effective range of class 2 devices is extended if they connect to a class 1 transceiver, compared to pure class 2 network. This is accomplished by the higher sensitivity and transmission power of Class 1 devices.Version Data Rate Version 1.2 1 Mbit/s Version 2.0 + EDR 3 Mbit/s WiMedia Alliance (proposed) 53 - 480 Mbit/s [edit] Bluetooth profiles Main article: Bluetooth profile In order to use Bluetooth, a device must be compatible with certain Bluetooth profiles. These define the possible applications and uses of the technology.[edit] List of applications A typical Bluetooth mobile phone headset More prevalent applications of Bluetooth include: Wireless control of and communication between a mobile phone and a hands-free headset. This was one of the earliest applications to become popular. Wireless networking between PCs in a confined space and where little bandwidth is required. Wireless communications with PC input and output devices, the most common being the mouse, keyboard and printer. Transfer of files between devices with OBEX. Transfer of contact details, calendar appointments, and reminders between devices with OBEX. Replacement of traditional wired serial communications in test equipment, GPS receivers, medical equipment, bar code scanners, and traffic control devices. For controls where infrared was traditionally used. Sending small advertisements from Bluetooth enabled advertising hoardings to other, discoverable, Bluetooth devices. Two seventh-generation game consoles, Nintendo's Wii[2] and Sony's PlayStation 3 use Bluetooth for their respective wireless controllers. Dial-up internet access on personal computer or PDA using a data-capable mobile phone as a modem.[edit] Bluetooth vs. Wi-Fi in networking This article does not cite any references or sources. (March 2008) Please help improve this article by adding citations to reliable sources. Unverifiable material may be challenged and removed. The tone or style of this article or section may not be appropriate for Wikipedia. Specific concerns may be found on the talk page. See Wikipedia's guide to writing better articles for suggestions.(March 2008) Bluetooth and Wi-Fi have slightly different applications in today's offices, homes, and on the move: setting up networks, printing, or transferring presentations and files from PDAs to computers. Both are versions of unlicensed spread spectrum technology. Bluetooth differs from Wi-Fi in that the latter provides higher throughput and covers greater distances, but requires more expensive hardware and higher power consumption. They use the same frequency range, but employ different modulation techniques. While Bluetooth is a replacement for a variety of applications, Wi-Fi is a replacement only for local area network access. Bluetooth can be thought of as wireless USB[citation needed], whereas Wi-Fi is wireless Ethernet[citation needed], both operating at much lower bandwidth[citation needed] than cable networking systems. However, this analogy is not entirely accurate since any Bluetooth device can, in theory, host any other Bluetooth device—something that is not universal to USB devices, therefore it would resemble more a wireless FireWire.[edit] Bluetooth Devices Bluetooth exists in many products, such as telephones, printers, modems and headsets. The technology is useful when transferring information between two or more devices that are near each other in low-bandwidth situations. Bluetooth is commonly used to transfer sound data with telephones (i.e. with a Bluetooth headset) or byte data with hand-held computers (transferring files). Bluetooth simplifies the discovery and setup of services between devices. Bluetooth devices advertise all of the services they provide. This makes using services easier because there is no longer a need to set up network addresses or permissions as in many other networks.[edit] Wi-Fi Wi-Fi is more like a traditional Ethernet network, and requires configuration to set up shared resources, transmit files, and to set up audio links (for example, headsets and hands-free devices). It uses the same radio frequencies as Bluetooth, but with higher power resulting in a stronger connection. Wi-Fi is sometimes called "wireless Ethernet." This description is accurate as it also provides an indication of its relative strengths and weaknesses. Wi-Fi requires more setup, but is better suited for operating full-scale networks because it enables a faster connection, better range from the base station, and better security than Bluetooth.[edit] Computer requirements A typical Bluetooth USB dongle, shown here next to a metric ruler An internal notebook Bluetooth card (14×36×4 mm) A personal computer must have a Bluetooth adapter in order to be able to communicate with other Bluetooth devices (such as mobile phones, mice and keyboards). While some desktop computers and most recent laptops come with a built-in Bluetooth adapter, others will require an external one in the form of a dongle. Unlike its predecessor, IrDA, which requires a separate adapter for each device, Bluetooth allows multiple devices to communicate with a computer over a single adapter.[edit] Operating system support For more details on this topic, see Bluetooth stack. Apple has supported Bluetooth since Mac OS X v10.2 released in 2002.[3]For Microsoft platforms, Windows XP Service Pack 2 and later releases have native support for Bluetooth. Previous versions required users to install their Bluetooth adapter's own drivers, which were not directly supported by Microsoft.[4] Microsoft's own Bluetooth dongles (packaged with their Bluetooth computer devices) have no external drivers and thus require at least Windows XP Service Pack 2. Linux provides two Bluetooth stacks, with the BlueZ [5] stack included with most Linux kernels. It was originally developed by Qualcomm and Affix. BlueZ supports all core Bluetooth protocols and layers. FreeBSD features Bluetooth support since its 5.0 release. NetBSD features Bluetooth support since its 4.0 release. Its Bluetooth stack has been ported to OpenBSD as well.[edit] Specifications and features The Bluetooth specification was developed in 1994 by Jaap Haartsen and Sven Mattisson, who were working for Ericsson Mobile Platforms in Lund, Sweden.[6] The specification is based on frequency-hopping spread spectrum technology. The specifications were formalized by the Bluetooth Special Interest Group (SIG), organised by Mohd Syarifuddin. The SIG was formally announced on May 20, 1998. Today it has a membership of over 7000 companies worldwide. It was established by Ericsson, Sony Ericsson, IBM, Intel, Toshiba, and Nokia, and later joined by many other companies.[edit] Bluetooth 1.0 and 1.0B Versions 1.0 and 1.0B had many problems, and manufacturers had difficulty making their products interoperable. Versions 1.0 and 1.0B also included mandatory Bluetooth hardware device address (BD_ADDR) transmission in the Connecting process (rendering anonymity impossible at the protocol level), which was a major setback for certain services planned for use in Bluetooth environments.[edit] Bluetooth 1.1 Ratified as IEEE Standard 802.15.1-2002. Many errors found in the 1.0B specifications were fixed. Added support for non-encrypted channels. Received Signal Strength Indicator (RSSI).[edit] Bluetooth 1.2 This version is backward-compatible with 1.1 and the major enhancements include the following: Faster Connection and Discovery Adaptive frequency-hopping spread spectrum (AFH), which improves resistance to radio frequency interference by avoiding the use of crowded frequencies in the hopping sequence. Higher transmission speeds in practice, up to 721 kbit/s, as in 1.1. Extended Synchronous Connections (eSCO), which improve voice quality of audio links by allowing retransmissions of corrupted packets, and may optionally increase audio latency to provide better support for concurrent data transfer. Host Controller Interface (HCI) support for three-wire UART. Ratified as IEEE Standard 802.15.1-2005.[edit] Bluetooth 2.0 This version, specified on November 10, 2004, is backward-compatible with 1.1. The main enhancement is the introduction of an Enhanced Data Rate (EDR) of 3.0 Mbit/s for both data (ACL) and voice (eSCO) packets. This has the following effects:[7] Three times faster transmission speed—up to 10 times in certain cases (up to 2.1 Mbit/s). Lower power consumption through a reduced duty cycle. Simplification of multi-link scenarios due to more available bandwidth. The practical data transfer rate is 2.1 megabits per second and the basic signalling rate is about 3 megabits per second.[8] The "Bluetooth 2.0 + EDR" sp

bluetooth

Bluetooth is an industrial specification for wireless personal area networks (PANs). Bluetooth provides a way to connect and exchange information between devices such as mobile phones, laptops, personal computers, printers, GPS receivers, digital cameras, and video game consoles over a secure, globally unlicensed short-range radio frequency. The Bluetooth specifications are developed and licensed by the Bluetooth Special Interest Group. Uses Bluetooth is a standard and communications protocol primarily designed for low power consumption, with a short range (power-class-dependent: 1 meter, 10 meters, 100 meters) based on low-cost transceiver microchips in each device.[1]Bluetooth enables these devices to communicate with each other when they are in range. The devices use a radio communications system, so they do not have to be in line of sight of each other, and can even be in other rooms, as long as the received transmission is powerful enough.Class Maximum Permitted Power mW(dBm) Range (approximate) Class 1 100 mW (20 dBm)~100 meters Class 2 2.5 mW (4 dBm)~10 meters Class 3 1 mW (0 dBm)~1 meter In most cases the effective range of class 2 devices is extended if they connect to a class 1 transceiver, compared to pure class 2 network. This is accomplished by the higher sensitivity and transmission power of Class 1 devices.Version Data Rate Version 1.2 1 Mbit/s Version 2.0 + EDR 3 Mbit/s WiMedia Alliance (proposed) 53 - 480 Mbit/s [edit] Bluetooth profiles Main article: Bluetooth profile In order to use Bluetooth, a device must be compatible with certain Bluetooth profiles. These define the possible applications and uses of the technology.[edit] List of applications A typical Bluetooth mobile phone headset More prevalent applications of Bluetooth include: Wireless control of and communication between a mobile phone and a hands-free headset. This was one of the earliest applications to become popular. Wireless networking between PCs in a confined space and where little bandwidth is required. Wireless communications with PC input and output devices, the most common being the mouse, keyboard and printer. Transfer of files between devices with OBEX. Transfer of contact details, calendar appointments, and reminders between devices with OBEX. Replacement of traditional wired serial communications in test equipment, GPS receivers, medical equipment, bar code scanners, and traffic control devices. For controls where infrared was traditionally used. Sending small advertisements from Bluetooth enabled advertising hoardings to other, discoverable, Bluetooth devices. Two seventh-generation game consoles, Nintendo's Wii[2] and Sony's PlayStation 3 use Bluetooth for their respective wireless controllers. Dial-up internet access on personal computer or PDA using a data-capable mobile phone as a modem.[edit] Bluetooth vs. Wi-Fi in networking This article does not cite any references or sources. (March 2008) Please help improve this article by adding citations to reliable sources. Unverifiable material may be challenged and removed. The tone or style of this article or section may not be appropriate for Wikipedia. Specific concerns may be found on the talk page. See Wikipedia's guide to writing better articles for suggestions.(March 2008) Bluetooth and Wi-Fi have slightly different applications in today's offices, homes, and on the move: setting up networks, printing, or transferring presentations and files from PDAs to computers. Both are versions of unlicensed spread spectrum technology. Bluetooth differs from Wi-Fi in that the latter provides higher throughput and covers greater distances, but requires more expensive hardware and higher power consumption. They use the same frequency range, but employ different modulation techniques. While Bluetooth is a replacement for a variety of applications, Wi-Fi is a replacement only for local area network access. Bluetooth can be thought of as wireless USB[citation needed], whereas Wi-Fi is wireless Ethernet[citation needed], both operating at much lower bandwidth[citation needed] than cable networking systems. However, this analogy is not entirely accurate since any Bluetooth device can, in theory, host any other Bluetooth device—something that is not universal to USB devices, therefore it would resemble more a wireless FireWire.[edit] Bluetooth Devices Bluetooth exists in many products, such as telephones, printers, modems and headsets. The technology is useful when transferring information between two or more devices that are near each other in low-bandwidth situations. Bluetooth is commonly used to transfer sound data with telephones (i.e. with a Bluetooth headset) or byte data with hand-held computers (transferring files). Bluetooth simplifies the discovery and setup of services between devices. Bluetooth devices advertise all of the services they provide. This makes using services easier because there is no longer a need to set up network addresses or permissions as in many other networks.[edit] Wi-Fi Wi-Fi is more like a traditional Ethernet network, and requires configuration to set up shared resources, transmit files, and to set up audio links (for example, headsets and hands-free devices). It uses the same radio frequencies as Bluetooth, but with higher power resulting in a stronger connection. Wi-Fi is sometimes called "wireless Ethernet." This description is accurate as it also provides an indication of its relative strengths and weaknesses. Wi-Fi requires more setup, but is better suited for operating full-scale networks because it enables a faster connection, better range from the base station, and better security than Bluetooth.[edit] Computer requirements A typical Bluetooth USB dongle, shown here next to a metric ruler An internal notebook Bluetooth card (14×36×4 mm) A personal computer must have a Bluetooth adapter in order to be able to communicate with other Bluetooth devices (such as mobile phones, mice and keyboards). While some desktop computers and most recent laptops come with a built-in Bluetooth adapter, others will require an external one in the form of a dongle. Unlike its predecessor, IrDA, which requires a separate adapter for each device, Bluetooth allows multiple devices to communicate with a computer over a single adapter.[edit] Operating system support For more details on this topic, see Bluetooth stack. Apple has supported Bluetooth since Mac OS X v10.2 released in 2002.[3]For Microsoft platforms, Windows XP Service Pack 2 and later releases have native support for Bluetooth. Previous versions required users to install their Bluetooth adapter's own drivers, which were not directly supported by Microsoft.[4] Microsoft's own Bluetooth dongles (packaged with their Bluetooth computer devices) have no external drivers and thus require at least Windows XP Service Pack 2. Linux provides two Bluetooth stacks, with the BlueZ [5] stack included with most Linux kernels. It was originally developed by Qualcomm and Affix. BlueZ supports all core Bluetooth protocols and layers. FreeBSD features Bluetooth support since its 5.0 release. NetBSD features Bluetooth support since its 4.0 release. Its Bluetooth stack has been ported to OpenBSD as well.[edit] Specifications and features The Bluetooth specification was developed in 1994 by Jaap Haartsen and Sven Mattisson, who were working for Ericsson Mobile Platforms in Lund, Sweden.[6] The specification is based on frequency-hopping spread spectrum technology. The specifications were formalized by the Bluetooth Special Interest Group (SIG), organised by Mohd Syarifuddin. The SIG was formally announced on May 20, 1998. Today it has a membership of over 7000 companies worldwide. It was established by Ericsson, Sony Ericsson, IBM, Intel, Toshiba, and Nokia, and later joined by many other companies.[edit] Bluetooth 1.0 and 1.0B Versions 1.0 and 1.0B had many problems, and manufacturers had difficulty making their products interoperable. Versions 1.0 and 1.0B also included mandatory Bluetooth hardware device address (BD_ADDR) transmission in the Connecting process (rendering anonymity impossible at the protocol level), which was a major setback for certain services planned for use in Bluetooth environments.[edit] Bluetooth 1.1 Ratified as IEEE Standard 802.15.1-2002. Many errors found in the 1.0B specifications were fixed. Added support for non-encrypted channels. Received Signal Strength Indicator (RSSI).[edit] Bluetooth 1.2 This version is backward-compatible with 1.1 and the major enhancements include the following: Faster Connection and Discovery Adaptive frequency-hopping spread spectrum (AFH), which improves resistance to radio frequency interference by avoiding the use of crowded frequencies in the hopping sequence. Higher transmission speeds in practice, up to 721 kbit/s, as in 1.1. Extended Synchronous Connections (eSCO), which improve voice quality of audio links by allowing retransmissions of corrupted packets, and may optionally increase audio latency to provide better support for concurrent data transfer. Host Controller Interface (HCI) support for three-wire UART. Ratified as IEEE Standard 802.15.1-2005.[edit] Bluetooth 2.0 This version, specified on November 10, 2004, is backward-compatible with 1.1. The main enhancement is the introduction of an Enhanced Data Rate (EDR) of 3.0 Mbit/s for both data (ACL) and voice (eSCO) packets. This has the following effects:[7] Three times faster transmission speed—up to 10 times in certain cases (up to 2.1 Mbit/s). Lower power consumption through a reduced duty cycle. Simplification of multi-link scenarios due to more available bandwidth. The practical data transfer rate is 2.1 megabits per second and the basic signalling rate is about 3 megabits per second.[8] The "Bluetooth 2.0 + EDR" sp

cellphone

Technology Is Laughing At Us

mobile phone camera vs digital camera

Cell phones with cameras are everywhere nowadays. It really makes us think whether we now have a mobile phone with camera or a camera with telephone capability. There are digital cameras capable of 10MP or more resolution, but who really needs pictures with such resolution? 2MP is enough for day to day usage and general printing purpose, and it ensures that images are not too large to be transferred to other devices.

bluetooth

Bluetooth is an industrial specification for wireless personal area networks (PANs). Bluetooth provides a way to connect and exchange information between devices such as mobile phones, laptops, personal computers, printers, GPS receivers, digital cameras, and video game consoles over a secure, globally unlicensed short-range radio frequency. The Bluetooth specifications are developed and licensed by the Bluetooth Special Interest Group. Uses Bluetooth is a standard and communications protocol primarily designed for low power consumption, with a short range (power-class-dependent: 1 meter, 10 meters, 100 meters) based on low-cost transceiver microchips in each device.[1]Bluetooth enables these devices to communicate with each other when they are in range. The devices use a radio communications system, so they do not have to be in line of sight of each other, and can even be in other rooms, as long as the received transmission is powerful enough.Class Maximum Permitted Power mW(dBm) Range (approximate) Class 1 100 mW (20 dBm)~100 meters Class 2 2.5 mW (4 dBm)~10 meters Class 3 1 mW (0 dBm)~1 meter In most cases the effective range of class 2 devices is extended if they connect to a class 1 transceiver, compared to pure class 2 network. This is accomplished by the higher sensitivity and transmission power of Class 1 devices.Version Data Rate Version 1.2 1 Mbit/s Version 2.0 + EDR 3 Mbit/s WiMedia Alliance (proposed) 53 - 480 Mbit/s [edit] Bluetooth profiles Main article: Bluetooth profile In order to use Bluetooth, a device must be compatible with certain Bluetooth profiles. These define the possible applications and uses of the technology.[edit] List of applications A typical Bluetooth mobile phone headset More prevalent applications of Bluetooth include: Wireless control of and communication between a mobile phone and a hands-free headset. This was one of the earliest applications to become popular. Wireless networking between PCs in a confined space and where little bandwidth is required. Wireless communications with PC input and output devices, the most common being the mouse, keyboard and printer. Transfer of files between devices with OBEX. Transfer of contact details, calendar appointments, and reminders between devices with OBEX. Replacement of traditional wired serial communications in test equipment, GPS receivers, medical equipment, bar code scanners, and traffic control devices. For controls where infrared was traditionally used. Sending small advertisements from Bluetooth enabled advertising hoardings to other, discoverable, Bluetooth devices. Two seventh-generation game consoles, Nintendo's Wii[2] and Sony's PlayStation 3 use Bluetooth for their respective wireless controllers. Dial-up internet access on personal computer or PDA using a data-capable mobile phone as a modem.[edit] Bluetooth vs. Wi-Fi in networking This article does not cite any references or sources. (March 2008) Please help improve this article by adding citations to reliable sources. Unverifiable material may be challenged and removed. The tone or style of this article or section may not be appropriate for Wikipedia. Specific concerns may be found on the talk page. See Wikipedia's guide to writing better articles for suggestions.(March 2008) Bluetooth and Wi-Fi have slightly different applications in today's offices, homes, and on the move: setting up networks, printing, or transferring presentations and files from PDAs to computers. Both are versions of unlicensed spread spectrum technology. Bluetooth differs from Wi-Fi in that the latter provides higher throughput and covers greater distances, but requires more expensive hardware and higher power consumption. They use the same frequency range, but employ different modulation techniques. While Bluetooth is a replacement for a variety of applications, Wi-Fi is a replacement only for local area network access. Bluetooth can be thought of as wireless USB[citation needed], whereas Wi-Fi is wireless Ethernet[citation needed], both operating at much lower bandwidth[citation needed] than cable networking systems. However, this analogy is not entirely accurate since any Bluetooth device can, in theory, host any other Bluetooth device—something that is not universal to USB devices, therefore it would resemble more a wireless FireWire.[edit] Bluetooth Devices Bluetooth exists in many products, such as telephones, printers, modems and headsets. The technology is useful when transferring information between two or more devices that are near each other in low-bandwidth situations. Bluetooth is commonly used to transfer sound data with telephones (i.e. with a Bluetooth headset) or byte data with hand-held computers (transferring files). Bluetooth simplifies the discovery and setup of services between devices. Bluetooth devices advertise all of the services they provide. This makes using services easier because there is no longer a need to set up network addresses or permissions as in many other networks.[edit] Wi-Fi Wi-Fi is more like a traditional Ethernet network, and requires configuration to set up shared resources, transmit files, and to set up audio links (for example, headsets and hands-free devices). It uses the same radio frequencies as Bluetooth, but with higher power resulting in a stronger connection. Wi-Fi is sometimes called "wireless Ethernet." This description is accurate as it also provides an indication of its relative strengths and weaknesses. Wi-Fi requires more setup, but is better suited for operating full-scale networks because it enables a faster connection, better range from the base station, and better security than Bluetooth.[edit] Computer requirements A typical Bluetooth USB dongle, shown here next to a metric ruler An internal notebook Bluetooth card (14×36×4 mm) A personal computer must have a Bluetooth adapter in order to be able to communicate with other Bluetooth devices (such as mobile phones, mice and keyboards). While some desktop computers and most recent laptops come with a built-in Bluetooth adapter, others will require an external one in the form of a dongle. Unlike its predecessor, IrDA, which requires a separate adapter for each device, Bluetooth allows multiple devices to communicate with a computer over a single adapter.[edit] Operating system support For more details on this topic, see Bluetooth stack. Apple has supported Bluetooth since Mac OS X v10.2 released in 2002.[3]For Microsoft platforms, Windows XP Service Pack 2 and later releases have native support for Bluetooth. Previous versions required users to install their Bluetooth adapter's own drivers, which were not directly supported by Microsoft.[4] Microsoft's own Bluetooth dongles (packaged with their Bluetooth computer devices) have no external drivers and thus require at least Windows XP Service Pack 2. Linux provides two Bluetooth stacks, with the BlueZ [5] stack included with most Linux kernels. It was originally developed by Qualcomm and Affix. BlueZ supports all core Bluetooth protocols and layers. FreeBSD features Bluetooth support since its 5.0 release. NetBSD features Bluetooth support since its 4.0 release. Its Bluetooth stack has been ported to OpenBSD as well.[edit] Specifications and features The Bluetooth specification was developed in 1994 by Jaap Haartsen and Sven Mattisson, who were working for Ericsson Mobile Platforms in Lund, Sweden.[6] The specification is based on frequency-hopping spread spectrum technology. The specifications were formalized by the Bluetooth Special Interest Group (SIG), organised by Mohd Syarifuddin. The SIG was formally announced on May 20, 1998. Today it has a membership of over 7000 companies worldwide. It was established by Ericsson, Sony Ericsson, IBM, Intel, Toshiba, and Nokia, and later joined by many other companies.[edit] Bluetooth 1.0 and 1.0B Versions 1.0 and 1.0B had many problems, and manufacturers had difficulty making their products interoperable. Versions 1.0 and 1.0B also included mandatory Bluetooth hardware device address (BD_ADDR) transmission in the Connecting process (rendering anonymity impossible at the protocol level), which was a major setback for certain services planned for use in Bluetooth environments.[edit] Bluetooth 1.1 Ratified as IEEE Standard 802.15.1-2002. Many errors found in the 1.0B specifications were fixed. Added support for non-encrypted channels. Received Signal Strength Indicator (RSSI).[edit] Bluetooth 1.2 This version is backward-compatible with 1.1 and the major enhancements include the following: Faster Connection and Discovery Adaptive frequency-hopping spread spectrum (AFH), which improves resistance to radio frequency interference by avoiding the use of crowded frequencies in the hopping sequence. Higher transmission speeds in practice, up to 721 kbit/s, as in 1.1. Extended Synchronous Connections (eSCO), which improve voice quality of audio links by allowing retransmissions of corrupted packets, and may optionally increase audio latency to provide better support for concurrent data transfer. Host Controller Interface (HCI) support for three-wire UART. Ratified as IEEE Standard 802.15.1-2005.[edit] Bluetooth 2.0 This version, specified on November 10, 2004, is backward-compatible with 1.1. The main enhancement is the introduction of an Enhanced Data Rate (EDR) of 3.0 Mbit/s for both data (ACL) and voice (eSCO) packets. This has the following effects:[7] Three times faster transmission speed—up to 10 times in certain cases (up to 2.1 Mbit/s). Lower power consumption through a reduced duty cycle. Simplification of multi-link scenarios due to more available bandwidth. The practical data transfer rate is 2.1 megabits per second and the basic signalling rate is about 3 megabits per second.[8] The "Bluetooth 2.0 + EDR" sp

bluetooth

Bluetooth is an industrial specification for wireless personal area networks (PANs). Bluetooth provides a way to connect and exchange information between devices such as mobile phones, laptops, personal computers, printers, GPS receivers, digital cameras, and video game consoles over a secure, globally unlicensed short-range radio frequency. The Bluetooth specifications are developed and licensed by the Bluetooth Special Interest Group. Uses Bluetooth is a standard and communications protocol primarily designed for low power consumption, with a short range (power-class-dependent: 1 meter, 10 meters, 100 meters) based on low-cost transceiver microchips in each device.[1]Bluetooth enables these devices to communicate with each other when they are in range. The devices use a radio communications system, so they do not have to be in line of sight of each other, and can even be in other rooms, as long as the received transmission is powerful enough.Class Maximum Permitted Power mW(dBm) Range (approximate) Class 1 100 mW (20 dBm)~100 meters Class 2 2.5 mW (4 dBm)~10 meters Class 3 1 mW (0 dBm)~1 meter In most cases the effective range of class 2 devices is extended if they connect to a class 1 transceiver, compared to pure class 2 network. This is accomplished by the higher sensitivity and transmission power of Class 1 devices.Version Data Rate Version 1.2 1 Mbit/s Version 2.0 + EDR 3 Mbit/s WiMedia Alliance (proposed) 53 - 480 Mbit/s [edit] Bluetooth profiles Main article: Bluetooth profile In order to use Bluetooth, a device must be compatible with certain Bluetooth profiles. These define the possible applications and uses of the technology.[edit] List of applications A typical Bluetooth mobile phone headset More prevalent applications of Bluetooth include: Wireless control of and communication between a mobile phone and a hands-free headset. This was one of the earliest applications to become popular. Wireless networking between PCs in a confined space and where little bandwidth is required. Wireless communications with PC input and output devices, the most common being the mouse, keyboard and printer. Transfer of files between devices with OBEX. Transfer of contact details, calendar appointments, and reminders between devices with OBEX. Replacement of traditional wired serial communications in test equipment, GPS receivers, medical equipment, bar code scanners, and traffic control devices. For controls where infrared was traditionally used. Sending small advertisements from Bluetooth enabled advertising hoardings to other, discoverable, Bluetooth devices. Two seventh-generation game consoles, Nintendo's Wii[2] and Sony's PlayStation 3 use Bluetooth for their respective wireless controllers. Dial-up internet access on personal computer or PDA using a data-capable mobile phone as a modem.[edit] Bluetooth vs. Wi-Fi in networking This article does not cite any references or sources. (March 2008) Please help improve this article by adding citations to reliable sources. Unverifiable material may be challenged and removed. The tone or style of this article or section may not be appropriate for Wikipedia. Specific concerns may be found on the talk page. See Wikipedia's guide to writing better articles for suggestions.(March 2008) Bluetooth and Wi-Fi have slightly different applications in today's offices, homes, and on the move: setting up networks, printing, or transferring presentations and files from PDAs to computers. Both are versions of unlicensed spread spectrum technology. Bluetooth differs from Wi-Fi in that the latter provides higher throughput and covers greater distances, but requires more expensive hardware and higher power consumption. They use the same frequency range, but employ different modulation techniques. While Bluetooth is a replacement for a variety of applications, Wi-Fi is a replacement only for local area network access. Bluetooth can be thought of as wireless USB[citation needed], whereas Wi-Fi is wireless Ethernet[citation needed], both operating at much lower bandwidth[citation needed] than cable networking systems. However, this analogy is not entirely accurate since any Bluetooth device can, in theory, host any other Bluetooth device—something that is not universal to USB devices, therefore it would resemble more a wireless FireWire.[edit] Bluetooth Devices Bluetooth exists in many products, such as telephones, printers, modems and headsets. The technology is useful when transferring information between two or more devices that are near each other in low-bandwidth situations. Bluetooth is commonly used to transfer sound data with telephones (i.e. with a Bluetooth headset) or byte data with hand-held computers (transferring files). Bluetooth simplifies the discovery and setup of services between devices. Bluetooth devices advertise all of the services they provide. This makes using services easier because there is no longer a need to set up network addresses or permissions as in many other networks.[edit] Wi-Fi Wi-Fi is more like a traditional Ethernet network, and requires configuration to set up shared resources, transmit files, and to set up audio links (for example, headsets and hands-free devices). It uses the same radio frequencies as Bluetooth, but with higher power resulting in a stronger connection. Wi-Fi is sometimes called "wireless Ethernet." This description is accurate as it also provides an indication of its relative strengths and weaknesses. Wi-Fi requires more setup, but is better suited for operating full-scale networks because it enables a faster connection, better range from the base station, and better security than Bluetooth.[edit] Computer requirements A typical Bluetooth USB dongle, shown here next to a metric ruler An internal notebook Bluetooth card (14×36×4 mm) A personal computer must have a Bluetooth adapter in order to be able to communicate with other Bluetooth devices (such as mobile phones, mice and keyboards). While some desktop computers and most recent laptops come with a built-in Bluetooth adapter, others will require an external one in the form of a dongle. Unlike its predecessor, IrDA, which requires a separate adapter for each device, Bluetooth allows multiple devices to communicate with a computer over a single adapter.[edit] Operating system support For more details on this topic, see Bluetooth stack. Apple has supported Bluetooth since Mac OS X v10.2 released in 2002.[3]For Microsoft platforms, Windows XP Service Pack 2 and later releases have native support for Bluetooth. Previous versions required users to install their Bluetooth adapter's own drivers, which were not directly supported by Microsoft.[4] Microsoft's own Bluetooth dongles (packaged with their Bluetooth computer devices) have no external drivers and thus require at least Windows XP Service Pack 2. Linux provides two Bluetooth stacks, with the BlueZ [5] stack included with most Linux kernels. It was originally developed by Qualcomm and Affix. BlueZ supports all core Bluetooth protocols and layers. FreeBSD features Bluetooth support since its 5.0 release. NetBSD features Bluetooth support since its 4.0 release. Its Bluetooth stack has been ported to OpenBSD as well.[edit] Specifications and features The Bluetooth specification was developed in 1994 by Jaap Haartsen and Sven Mattisson, who were working for Ericsson Mobile Platforms in Lund, Sweden.[6] The specification is based on frequency-hopping spread spectrum technology. The specifications were formalized by the Bluetooth Special Interest Group (SIG), organised by Mohd Syarifuddin. The SIG was formally announced on May 20, 1998. Today it has a membership of over 7000 companies worldwide. It was established by Ericsson, Sony Ericsson, IBM, Intel, Toshiba, and Nokia, and later joined by many other companies.[edit] Bluetooth 1.0 and 1.0B Versions 1.0 and 1.0B had many problems, and manufacturers had difficulty making their products interoperable. Versions 1.0 and 1.0B also included mandatory Bluetooth hardware device address (BD_ADDR) transmission in the Connecting process (rendering anonymity impossible at the protocol level), which was a major setback for certain services planned for use in Bluetooth environments.[edit] Bluetooth 1.1 Ratified as IEEE Standard 802.15.1-2002. Many errors found in the 1.0B specifications were fixed. Added support for non-encrypted channels. Received Signal Strength Indicator (RSSI).[edit] Bluetooth 1.2 This version is backward-compatible with 1.1 and the major enhancements include the following: Faster Connection and Discovery Adaptive frequency-hopping spread spectrum (AFH), which improves resistance to radio frequency interference by avoiding the use of crowded frequencies in the hopping sequence. Higher transmission speeds in practice, up to 721 kbit/s, as in 1.1. Extended Synchronous Connections (eSCO), which improve voice quality of audio links by allowing retransmissions of corrupted packets, and may optionally increase audio latency to provide better support for concurrent data transfer. Host Controller Interface (HCI) support for three-wire UART. Ratified as IEEE Standard 802.15.1-2005.[edit] Bluetooth 2.0 This version, specified on November 10, 2004, is backward-compatible with 1.1. The main enhancement is the introduction of an Enhanced Data Rate (EDR) of 3.0 Mbit/s for both data (ACL) and voice (eSCO) packets. This has the following effects:[7] Three times faster transmission speed—up to 10 times in certain cases (up to 2.1 Mbit/s). Lower power consumption through a reduced duty cycle. Simplification of multi-link scenarios due to more available bandwidth. The practical data transfer rate is 2.1 megabits per second and the basic signalling rate is about 3 megabits per second.[8] The "Bluetooth 2.0 + EDR" sp

bluetooth

Bluetooth is an industrial specification for wireless personal area networks (PANs). Bluetooth provides a way to connect and exchange information between devices such as mobile phones, laptops, personal computers, printers, GPS receivers, digital cameras, and video game consoles over a secure, globally unlicensed short-range radio frequency. The Bluetooth specifications are developed and licensed by the Bluetooth Special Interest Group. Uses Bluetooth is a standard and communications protocol primarily designed for low power consumption, with a short range (power-class-dependent: 1 meter, 10 meters, 100 meters) based on low-cost transceiver microchips in each device.[1]Bluetooth enables these devices to communicate with each other when they are in range. The devices use a radio communications system, so they do not have to be in line of sight of each other, and can even be in other rooms, as long as the received transmission is powerful enough.Class Maximum Permitted Power mW(dBm) Range (approximate) Class 1 100 mW (20 dBm)~100 meters Class 2 2.5 mW (4 dBm)~10 meters Class 3 1 mW (0 dBm)~1 meter In most cases the effective range of class 2 devices is extended if they connect to a class 1 transceiver, compared to pure class 2 network. This is accomplished by the higher sensitivity and transmission power of Class 1 devices.Version Data Rate Version 1.2 1 Mbit/s Version 2.0 + EDR 3 Mbit/s WiMedia Alliance (proposed) 53 - 480 Mbit/s [edit] Bluetooth profiles Main article: Bluetooth profile In order to use Bluetooth, a device must be compatible with certain Bluetooth profiles. These define the possible applications and uses of the technology.[edit] List of applications A typical Bluetooth mobile phone headset More prevalent applications of Bluetooth include: Wireless control of and communication between a mobile phone and a hands-free headset. This was one of the earliest applications to become popular. Wireless networking between PCs in a confined space and where little bandwidth is required. Wireless communications with PC input and output devices, the most common being the mouse, keyboard and printer. Transfer of files between devices with OBEX. Transfer of contact details, calendar appointments, and reminders between devices with OBEX. Replacement of traditional wired serial communications in test equipment, GPS receivers, medical equipment, bar code scanners, and traffic control devices. For controls where infrared was traditionally used. Sending small advertisements from Bluetooth enabled advertising hoardings to other, discoverable, Bluetooth devices. Two seventh-generation game consoles, Nintendo's Wii[2] and Sony's PlayStation 3 use Bluetooth for their respective wireless controllers. Dial-up internet access on personal computer or PDA using a data-capable mobile phone as a modem.[edit] Bluetooth vs. Wi-Fi in networking This article does not cite any references or sources. (March 2008) Please help improve this article by adding citations to reliable sources. Unverifiable material may be challenged and removed. The tone or style of this article or section may not be appropriate for Wikipedia. Specific concerns may be found on the talk page. See Wikipedia's guide to writing better articles for suggestions.(March 2008) Bluetooth and Wi-Fi have slightly different applications in today's offices, homes, and on the move: setting up networks, printing, or transferring presentations and files from PDAs to computers. Both are versions of unlicensed spread spectrum technology. Bluetooth differs from Wi-Fi in that the latter provides higher throughput and covers greater distances, but requires more expensive hardware and higher power consumption. They use the same frequency range, but employ different modulation techniques. While Bluetooth is a replacement for a variety of applications, Wi-Fi is a replacement only for local area network access. Bluetooth can be thought of as wireless USB[citation needed], whereas Wi-Fi is wireless Ethernet[citation needed], both operating at much lower bandwidth[citation needed] than cable networking systems. However, this analogy is not entirely accurate since any Bluetooth device can, in theory, host any other Bluetooth device—something that is not universal to USB devices, therefore it would resemble more a wireless FireWire.[edit] Bluetooth Devices Bluetooth exists in many products, such as telephones, printers, modems and headsets. The technology is useful when transferring information between two or more devices that are near each other in low-bandwidth situations. Bluetooth is commonly used to transfer sound data with telephones (i.e. with a Bluetooth headset) or byte data with hand-held computers (transferring files). Bluetooth simplifies the discovery and setup of services between devices. Bluetooth devices advertise all of the services they provide. This makes using services easier because there is no longer a need to set up network addresses or permissions as in many other networks.[edit] Wi-Fi Wi-Fi is more like a traditional Ethernet network, and requires configuration to set up shared resources, transmit files, and to set up audio links (for example, headsets and hands-free devices). It uses the same radio frequencies as Bluetooth, but with higher power resulting in a stronger connection. Wi-Fi is sometimes called "wireless Ethernet." This description is accurate as it also provides an indication of its relative strengths and weaknesses. Wi-Fi requires more setup, but is better suited for operating full-scale networks because it enables a faster connection, better range from the base station, and better security than Bluetooth.[edit] Computer requirements A typical Bluetooth USB dongle, shown here next to a metric ruler An internal notebook Bluetooth card (14×36×4 mm) A personal computer must have a Bluetooth adapter in order to be able to communicate with other Bluetooth devices (such as mobile phones, mice and keyboards). While some desktop computers and most recent laptops come with a built-in Bluetooth adapter, others will require an external one in the form of a dongle. Unlike its predecessor, IrDA, which requires a separate adapter for each device, Bluetooth allows multiple devices to communicate with a computer over a single adapter.[edit] Operating system support For more details on this topic, see Bluetooth stack. Apple has supported Bluetooth since Mac OS X v10.2 released in 2002.[3]For Microsoft platforms, Windows XP Service Pack 2 and later releases have native support for Bluetooth. Previous versions required users to install their Bluetooth adapter's own drivers, which were not directly supported by Microsoft.[4] Microsoft's own Bluetooth dongles (packaged with their Bluetooth computer devices) have no external drivers and thus require at least Windows XP Service Pack 2. Linux provides two Bluetooth stacks, with the BlueZ [5] stack included with most Linux kernels. It was originally developed by Qualcomm and Affix. BlueZ supports all core Bluetooth protocols and layers. FreeBSD features Bluetooth support since its 5.0 release. NetBSD features Bluetooth support since its 4.0 release. Its Bluetooth stack has been ported to OpenBSD as well.[edit] Specifications and features The Bluetooth specification was developed in 1994 by Jaap Haartsen and Sven Mattisson, who were working for Ericsson Mobile Platforms in Lund, Sweden.[6] The specification is based on frequency-hopping spread spectrum technology. The specifications were formalized by the Bluetooth Special Interest Group (SIG), organised by Mohd Syarifuddin. The SIG was formally announced on May 20, 1998. Today it has a membership of over 7000 companies worldwide. It was established by Ericsson, Sony Ericsson, IBM, Intel, Toshiba, and Nokia, and later joined by many other companies.[edit] Bluetooth 1.0 and 1.0B Versions 1.0 and 1.0B had many problems, and manufacturers had difficulty making their products interoperable. Versions 1.0 and 1.0B also included mandatory Bluetooth hardware device address (BD_ADDR) transmission in the Connecting process (rendering anonymity impossible at the protocol level), which was a major setback for certain services planned for use in Bluetooth environments.[edit] Bluetooth 1.1 Ratified as IEEE Standard 802.15.1-2002. Many errors found in the 1.0B specifications were fixed. Added support for non-encrypted channels. Received Signal Strength Indicator (RSSI).[edit] Bluetooth 1.2 This version is backward-compatible with 1.1 and the major enhancements include the following: Faster Connection and Discovery Adaptive frequency-hopping spread spectrum (AFH), which improves resistance to radio frequency interference by avoiding the use of crowded frequencies in the hopping sequence. Higher transmission speeds in practice, up to 721 kbit/s, as in 1.1. Extended Synchronous Connections (eSCO), which improve voice quality of audio links by allowing retransmissions of corrupted packets, and may optionally increase audio latency to provide better support for concurrent data transfer. Host Controller Interface (HCI) support for three-wire UART. Ratified as IEEE Standard 802.15.1-2005.[edit] Bluetooth 2.0 This version, specified on November 10, 2004, is backward-compatible with 1.1. The main enhancement is the introduction of an Enhanced Data Rate (EDR) of 3.0 Mbit/s for both data (ACL) and voice (eSCO) packets. This has the following effects:[7] Three times faster transmission speed—up to 10 times in certain cases (up to 2.1 Mbit/s). Lower power consumption through a reduced duty cycle. Simplification of multi-link scenarios due to more available bandwidth. The practical data transfer rate is 2.1 megabits per second and the basic signalling rate is about 3 megabits per second.[8] The "Bluetooth 2.0 + EDR" sp

bluetooth

Bluetooth is an industrial specification for wireless personal area networks (PANs). Bluetooth provides a way to connect and exchange information between devices such as mobile phones, laptops, personal computers, printers, GPS receivers, digital cameras, and video game consoles over a secure, globally unlicensed short-range radio frequency. The Bluetooth specifications are developed and licensed by the Bluetooth Special Interest Group. Uses Bluetooth is a standard and communications protocol primarily designed for low power consumption, with a short range (power-class-dependent: 1 meter, 10 meters, 100 meters) based on low-cost transceiver microchips in each device.[1]Bluetooth enables these devices to communicate with each other when they are in range. The devices use a radio communications system, so they do not have to be in line of sight of each other, and can even be in other rooms, as long as the received transmission is powerful enough.Class Maximum Permitted Power mW(dBm) Range (approximate) Class 1 100 mW (20 dBm)~100 meters Class 2 2.5 mW (4 dBm)~10 meters Class 3 1 mW (0 dBm)~1 meter In most cases the effective range of class 2 devices is extended if they connect to a class 1 transceiver, compared to pure class 2 network. This is accomplished by the higher sensitivity and transmission power of Class 1 devices.Version Data Rate Version 1.2 1 Mbit/s Version 2.0 + EDR 3 Mbit/s WiMedia Alliance (proposed) 53 - 480 Mbit/s [edit] Bluetooth profiles Main article: Bluetooth profile In order to use Bluetooth, a device must be compatible with certain Bluetooth profiles. These define the possible applications and uses of the technology.[edit] List of applications A typical Bluetooth mobile phone headset More prevalent applications of Bluetooth include: Wireless control of and communication between a mobile phone and a hands-free headset. This was one of the earliest applications to become popular. Wireless networking between PCs in a confined space and where little bandwidth is required. Wireless communications with PC input and output devices, the most common being the mouse, keyboard and printer. Transfer of files between devices with OBEX. Transfer of contact details, calendar appointments, and reminders between devices with OBEX. Replacement of traditional wired serial communications in test equipment, GPS receivers, medical equipment, bar code scanners, and traffic control devices. For controls where infrared was traditionally used. Sending small advertisements from Bluetooth enabled advertising hoardings to other, discoverable, Bluetooth devices. Two seventh-generation game consoles, Nintendo's Wii[2] and Sony's PlayStation 3 use Bluetooth for their respective wireless controllers. Dial-up internet access on personal computer or PDA using a data-capable mobile phone as a modem.[edit] Bluetooth vs. Wi-Fi in networking This article does not cite any references or sources. (March 2008) Please help improve this article by adding citations to reliable sources. Unverifiable material may be challenged and removed. The tone or style of this article or section may not be appropriate for Wikipedia. Specific concerns may be found on the talk page. See Wikipedia's guide to writing better articles for suggestions.(March 2008) Bluetooth and Wi-Fi have slightly different applications in today's offices, homes, and on the move: setting up networks, printing, or transferring presentations and files from PDAs to computers. Both are versions of unlicensed spread spectrum technology. Bluetooth differs from Wi-Fi in that the latter provides higher throughput and covers greater distances, but requires more expensive hardware and higher power consumption. They use the same frequency range, but employ different modulation techniques. While Bluetooth is a replacement for a variety of applications, Wi-Fi is a replacement only for local area network access. Bluetooth can be thought of as wireless USB[citation needed], whereas Wi-Fi is wireless Ethernet[citation needed], both operating at much lower bandwidth[citation needed] than cable networking systems. However, this analogy is not entirely accurate since any Bluetooth device can, in theory, host any other Bluetooth device—something that is not universal to USB devices, therefore it would resemble more a wireless FireWire.[edit] Bluetooth Devices Bluetooth exists in many products, such as telephones, printers, modems and headsets. The technology is useful when transferring information between two or more devices that are near each other in low-bandwidth situations. Bluetooth is commonly used to transfer sound data with telephones (i.e. with a Bluetooth headset) or byte data with hand-held computers (transferring files). Bluetooth simplifies the discovery and setup of services between devices. Bluetooth devices advertise all of the services they provide. This makes using services easier because there is no longer a need to set up network addresses or permissions as in many other networks.[edit] Wi-Fi Wi-Fi is more like a traditional Ethernet network, and requires configuration to set up shared resources, transmit files, and to set up audio links (for example, headsets and hands-free devices). It uses the same radio frequencies as Bluetooth, but with higher power resulting in a stronger connection. Wi-Fi is sometimes called "wireless Ethernet." This description is accurate as it also provides an indication of its relative strengths and weaknesses. Wi-Fi requires more setup, but is better suited for operating full-scale networks because it enables a faster connection, better range from the base station, and better security than Bluetooth.[edit] Computer requirements A typical Bluetooth USB dongle, shown here next to a metric ruler An internal notebook Bluetooth card (14×36×4 mm) A personal computer must have a Bluetooth adapter in order to be able to communicate with other Bluetooth devices (such as mobile phones, mice and keyboards). While some desktop computers and most recent laptops come with a built-in Bluetooth adapter, others will require an external one in the form of a dongle. Unlike its predecessor, IrDA, which requires a separate adapter for each device, Bluetooth allows multiple devices to communicate with a computer over a single adapter.[edit] Operating system support For more details on this topic, see Bluetooth stack. Apple has supported Bluetooth since Mac OS X v10.2 released in 2002.[3]For Microsoft platforms, Windows XP Service Pack 2 and later releases have native support for Bluetooth. Previous versions required users to install their Bluetooth adapter's own drivers, which were not directly supported by Microsoft.[4] Microsoft's own Bluetooth dongles (packaged with their Bluetooth computer devices) have no external drivers and thus require at least Windows XP Service Pack 2. Linux provides two Bluetooth stacks, with the BlueZ [5] stack included with most Linux kernels. It was originally developed by Qualcomm and Affix. BlueZ supports all core Bluetooth protocols and layers. FreeBSD features Bluetooth support since its 5.0 release. NetBSD features Bluetooth support since its 4.0 release. Its Bluetooth stack has been ported to OpenBSD as well.[edit] Specifications and features The Bluetooth specification was developed in 1994 by Jaap Haartsen and Sven Mattisson, who were working for Ericsson Mobile Platforms in Lund, Sweden.[6] The specification is based on frequency-hopping spread spectrum technology. The specifications were formalized by the Bluetooth Special Interest Group (SIG), organised by Mohd Syarifuddin. The SIG was formally announced on May 20, 1998. Today it has a membership of over 7000 companies worldwide. It was established by Ericsson, Sony Ericsson, IBM, Intel, Toshiba, and Nokia, and later joined by many other companies.[edit] Bluetooth 1.0 and 1.0B Versions 1.0 and 1.0B had many problems, and manufacturers had difficulty making their products interoperable. Versions 1.0 and 1.0B also included mandatory Bluetooth hardware device address (BD_ADDR) transmission in the Connecting process (rendering anonymity impossible at the protocol level), which was a major setback for certain services planned for use in Bluetooth environments.[edit] Bluetooth 1.1 Ratified as IEEE Standard 802.15.1-2002. Many errors found in the 1.0B specifications were fixed. Added support for non-encrypted channels. Received Signal Strength Indicator (RSSI).[edit] Bluetooth 1.2 This version is backward-compatible with 1.1 and the major enhancements include the following: Faster Connection and Discovery Adaptive frequency-hopping spread spectrum (AFH), which improves resistance to radio frequency interference by avoiding the use of crowded frequencies in the hopping sequence. Higher transmission speeds in practice, up to 721 kbit/s, as in 1.1. Extended Synchronous Connections (eSCO), which improve voice quality of audio links by allowing retransmissions of corrupted packets, and may optionally increase audio latency to provide better support for concurrent data transfer. Host Controller Interface (HCI) support for three-wire UART. Ratified as IEEE Standard 802.15.1-2005.[edit] Bluetooth 2.0 This version, specified on November 10, 2004, is backward-compatible with 1.1. The main enhancement is the introduction of an Enhanced Data Rate (EDR) of 3.0 Mbit/s for both data (ACL) and voice (eSCO) packets. This has the following effects:[7] Three times faster transmission speed—up to 10 times in certain cases (up to 2.1 Mbit/s). Lower power consumption through a reduced duty cycle. Simplification of multi-link scenarios due to more available bandwidth. The practical data transfer rate is 2.1 megabits per second and the basic signalling rate is about 3 megabits per second.[8] The "Bluetooth 2.0 + EDR" sp