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Bluetooth General Information
White Paper
Rev. 1993A–11/00
White Paper
2
Introduction
The Bluetooth wireless technology is the world’s new short-
range RF transmission standard for small form factor, low-
cost, short-range radio links between portable or desktop
devices. The technology promises to eliminate the confu-
sion of cables, connectors and protocols confounding
communications between today’s high tech products.
Mobile phones, pagers, laptops, PDAs, digital cameras and
more, all now have a common structure for communicating
across their product platforms.
Bluetooth wireless technology provides a solution to a con-
tinuously increasing need for mobile freedom. The increase
in the number of users, and the constant shrinking, of por-
table computers, as well as the trend towards the
replacement of desktop computers from portable ones,
form an ideal market environment for a solution that elimi-
nates the annoying cable and its limitations regarding
flexibility and range.
Bluetooth is a low-cost, low-power, secure and robust stan-
dard for short-range connectivity. The technology has been
designed for ease of use, simultaneous voice and data and
multi-point communications. It supports a range of
10 meters, which can be increased up to 100 meters with
the use of an amplifier.
The initiative for the specification belongs to the Bluetooth
Special Interest Group (SIG) (www.bluetooth.com) which
was founded in February 1998. At the start, it consisted of
Ericsson Mobile Communications, Intel, IBM, Toshiba and
Nokia Mobile Phones. This group represented the diverse
market support that was needed to generate good support
for the new technology. With over 2,000 companies now
part of the Bluetooth Special Interest Group (SIG), tomor-
row’s products will fall into one of two categories: those that
are enabled with Bluetooth and those that are not.
Apart from the definition of the radio and link protocols, the
job of the Bluetooth SIG is to ensure the same interpreta-
tion of the Bluetooth standard by all future vendors.
Therefore, it has defined a number of user models and pro-
tocol profiles, as well as specific procedures for
interoperability verification.
White Paper
3
How Does It Work?
Any Bluetooth system has four basic parts: a radio (RF)
that receives and transmits data and voice; a baseband or
link control unit that processes the transmitted or received
data; link management software that manages the trans-
mission; and supporting application software.
The Bluetooth radio is a short-distance, low-power radio
that operates in the unlicensed spectrum of 2.4 GHz. This
spectrum is shared by other types of equipment (e.g.
microwave ovens). In order to avoid interference, the Blue-
tooth specification employs Frequency Hopping Spread
Spectrum (FHSS) techniques. Using a nominal antenna
power of 0 dBm, the range is 10 meters (33 feet). Option-
ally, a range of 100 meters (328 feet) may be achieved by
using an antenna power of 20 dBm. Data is transmitted at a
maximum gross rate of up to 1 Mbps. Protocol overhead
limits the practical data rate to a little over 721 kbps. Inter-
ference or being out of range may further decrease the
achievable data rate.
Baseband is the hardware that turns received radio signals
into a digital form, which can be processed by the host
application. It also converts digital or voice data into a form
that can be transmitted using a radio signal. The baseband
processor takes care of converting data from one form to
another (such as voice to digital data), compressing it, put-
ting it into packets, taking it out from packets, assigning
identifiers and error correction information and then revers-
ing the entire process for data that is received. In
Bluetooth, the baseband function is called the link
controller.
The link manager software runs on a microprocessor and
manages the communication between Bluetooth devices.
Each Bluetooth device has its own link manager, which dis-
covers other remote link managers, and communicates
with them to handle link setup, negotiate features, authenti-
cate QoS and to encrypt and adjust data rate on link,
dynamically.
The application software is embedded in the device that
operates an application over the Bluetooth protocol stack
(see Figure 1). This software allows the PDA, mobile
phone, or keyboard to do its job. All Bluetooth devices must
have compatible sections in their Bluetooth stack, so that
all Bluetooth devices will be able to interoperate with each
other.
Figure 1. The Bluetooth Protocol Stack
Host Controller Interface (HCI)
Link Manager Protocol (LMP)
Link Controller (LC)
Bluetooth PHY
(Baseband Processor and RF )
Host Controller Interface
Transport layer (HCI Transport)
Link Control & Adaptation
Protocol (L2CAP )
Host Controller Interface
Transport layer (HCI transport )
Host side
BT device side
Service
Discovery
Protocol
(SDP)
Applications &
OS Drivers
Host Controller Interface Driver
Host - BT device boundary (PCMCIA, USB or UART)
White Paper
4
The Components of a Bluetooth
System
All Bluetooth designs require an antenna, a transceiver and
a baseband controller that meet the Bluetooth specification
(see Table 1). A microcontroller (MCU) to run the link con-
trol, link manager and Host Controller Interface (HCI)
and/or Logical Link Control and Adaptation Protocol
(L2CAP) firmware, as well as memory to store the firm-
ware, configuration information and short-term operating
information are also needed. Alternatively, developers can
choose to implement protocols up to and including, HCI on
the microcontroller, and to implement the HCI driver and
L2CAP on the machine that hosts the Bluetooth chipset.
Quite a few combinations for the Bluetooth hardware are
possible. These range from single-chip solutions (RF,
Baseband, Microcontroller and memory integrated into one
chip), up to four-chip solutions (RF, Baseband, Microcon-
troller and memory in separate chips).
Atmel Offering
Atmel, a Bluetooth SIG member, is one of the world’s few
companies that offers systems designers a complete, sin-
gle-vendor Bluetooth solution – RF, baseband/
microcontroller, Flash, software and firmware. Atmel has its
main chip fab facilities in Colorado Springs, Colorado, in
Rousset, France and Heilbronn, Germany and has exten-
sive experience refining its process technologies to achieve
the system-level integration of all the components of the
Bluetooth standard.
Currently, Atmel offers a complete three-chip solution:
baseband and microcontroller functions into one chip, RF
transceiver and Flash memory. Our roadmap includes the
eventual integration of these three chips into a single-chip
solution.
Figure 2. Atmel’s AT76C551 Bluetooth Module
Table 1. Bluetooth V1.0 Specification Summary
Radio Frequency 2.45GHz (ISM band)
Spread Spectrum
Te c h n i qu e
Frequency Hopping
Hop Frequencies 79 (spaced 1 MHz apart)
Hop Rate 1,600 hops/sec (625 µs
dwell time)
Transmitting Power 1 - 100 mW
Max. Range 10 m (0 dBm)/100 m (20 dBm)
Max. Gross Bit Rate 1 Mbps
Max. Practical Bit Rate
(ACL-Symmetric)
433.9 Kbps
Max. Practical Bit Rate
(ACL-Asymmetric)
723.2 Kbps/57.6 Kbps
Bit Rate (SCO) 64 Kbps
Max. Piconet Units 8 (1 master - 7 slaves)
Power Save Modes Hold-Sniff-Park
White Paper
5
Atmel’s Bluetooth ICs
Atmel’s Bluetooth baseband controller, in conjunction with
a 2.45 GHz transceiver, provides a low-chip count solution
for a wide range of digital communication devices and com-
puter peripherals. The baseband is based on an
AR7TDMI processor, includes 64K bytes of internal
SRAM and supports three different interfaces: PCMCIA,
USB and UART. Some versions will also include a 16-bit
voice Codec capable of either log PCM or CVSD voice
coding.
For the RF part, Atmel offers T2901, which is a 0 dBm RF
transceiver with integrated synthesizer and VCO. The
transceiver supports Bluetooth’s 10 meter “Pico-Cable”
specification and features a proprietary image rejection
mixer and advanced closed loop modulation. It does not
require mechanical tuning.
Also, Atmel offers T7024, which is a 20 dBm RF front end
supporting Bluetooth’s 100 meter “Mega-Cable” specifica-
tion. The chip features 23 dBm POUT typ, low noise (2.0 dB
typ), high gain and ramp controlled output.
Atmel’s Bluetooth Firmware and
Software
ATMEL provides customers all firmware on the device side.
L2CAP and Service Discovery Protocols on the host side
can be made available to qualified customers. Software is
available up through the HCI transport layer, as well as
drivers for PCMCIA and UART interfaces. Drivers for the
USB interface will soon be available.
Figure 3. ATMEL Bluetooth Firmware Architecture Model
PCMCIA driver
UART driver
Bluetooth
Link Controller
USB driver
Voice Codec driver
Logical Link
Control &
Adaptation
Protocol
Bluetooth Device
Driver
PCMCIA driver
UART driver
USB driver
non-critical modules
executed by ARM in
user mode
time-critical modules
executed by ARM in
interrupt mode
Bluetooth
Device
Host
data Path
control path
Bluetooth
Link Manager
Host
Control Interface
PCMCIA driver
UART driver
Bluetooth
Link Controller
USB driver
Voice Codec driver
Logical Link
Control &
Adaptation
Protocol
Bluetooth Device
Driver
PCMCIA driver
UART driver
USB driver
non-critical modules
executed by ARM in
user mode
time-critical modules
executed by ARM in
interrupt mode
Bluetooth
Device
Host
data Path
control path
Bluetooth
Link Manager
Host
Control Interface
© Atmel Corporation 2000.
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not authorized for use as critical components in life support devices or systems.
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Printed on recycled paper.
1993A–11/00/xM
Bluetooth is a trademark owned by Telefonaktiebolaget L M Ericsson Sweden and is licensed to Atmel.
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