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Transcript
Wireless Connectivity Solutions
TI Wireless Technology Overview
Wirelessly connecting everywhere.
The Signal Chain
Amp
The Real
World
Power
Management
Wireless
Connectivity
Amp
Logic
ADC
Embedded
Processor
DAC
Interface
The industry’s broadest wireless portfolio!
Sub 1GHz Proprietary - PurePath Wireless - RF4CE - Bluetooth - Bluetooth Low Energy - ANT - Zigbee - 6LoWPAN - WiFi - GPS
Wirelessly connecting everywhere.
TI Wireless Connectivity Portfolio
Sub 1GHz
SimpliciTi
6LoWPAN
W-MBus
5GHz
2.4GHz
SimpliciTi
PurePathTM
Wireless
Audio
ZigBee
Pro & IP
6LoWPAN
Bluetooth
Bluetooth
Low Energy
RF4CE
Home
Automation
Electronic
Shelf
Labeling
Alarm &
Security
Headphones
Gaming
Headsets
Speakers
Human
Interface
Device &
Gaming
Smart
Energy
Sensor
Networks
Remote
Control
Home
Automation
Mobile
Accessories
Gaming
Controllers
Health &
Wellness
Sports &
Fitness
Products
CC2500
CC2510
CC8520
CC2530
CC2531
CC2533
CC2520
GPS
+ Bluetooth
Consumer Handheld
Devices
Portable Data Terminals
Medical Devices
Camera, Video Surveillance
Healthcare
CC1101
CC1110
CC430
CC1120
WiFi
802.11 a/b/g/n
ANT
Applications
Metering
Satellite
CC2560/7
CC2540
CC2570/1
Denotes TI Proprietary solution or customer defined protocol on these products
Navigation
Remote clocking
Industrial / Home
Automation
WL1271/3
CC6000
WL1281/3
TI Wireless Assets
• 10 years delivering connectivity solutions to
market
• Multiple generations of proven solutions
–
–
–
–
Bluetooth® – 7th generation
WLAN – 7th generation
GPS – 6th generation
<1GHz – 3rd generation
• Over 1 Billion connectivity solutions shipped
• Expertise in low power and RF
• Insight into trends in connected devices
WCS Target Markets
Broadest coverage: from smart phones to smart energy
• Metering, Industrial & Home Automation
(Video security, Lighting, Home Energy, Thermostat)
• Alarm & Security
• Portable Data Terminals
• Mobile Consumer
(Tablet, eBook, PMP, Camera)
•
•
•
•
•
Remote Control
Wireless Audio
Mobile Phone Accessories
Health & Fitness
Remote Patient Monitoring
When should you use TI Wireless?
• Designing a portable, battery-powered device
• Designing with a TI embedded processor wanting
to add wireless connectivity
• Want multi-function connectivity
• Need MSP430
fast time to
market, Sitara
while avoiding
Stellaris
OMAP heavy
engineering
investment
Bluetooth
Wi-Fi
Zigbee
+
Modules
Platforms
+
Reference
Designs
Partners
Frequency Band
Advantages
2.4 GHz
5 GHz
<1 GHz
Works worldwide
High data rate
Full duty Cycle allowed
Highest data rate
Least crowded
Best range
Less crowded
Disadvantages
Most crowded
Less range
Lowest data rate
Restrictions on duty cycle at
some frequencies
Proprietary vs. Industry Standard
Advantages
Disadvantages
Examples
Tailored to the application
Specialized functions
Proprietary
Potentially smaller software
stack
Simpler deployment
Each OEM’s topology can
be different
Sub 1GHz
2.4GHz
Less options among
suppliers
PurePath
Choice of frequency bands
Inter-Operability among
different suppliers
Industry
Standard
Standardization: customer
choice of suppliers
Ease of network expansion
Larger software stack in
most cases
Potentially higher current
consumption
ZigBee
Bluetooth
BLE
ANT
6LoWPAN
Wi-Fi
RF4CE
Signal Strength
The strength of a signal and resulting range is an outcome of
transmit (output) power and receiver sensitivity
Transmitter Power
• How loud can you yell?
• Higher is better
•Measured in dBm (for example +10dBm)
Receiver Sensitivity
• How well can you hear?
• Lower is better
• Measured in dBm (for example -93dBm)
Techniques against inteferers:
Wide Band Transmission
Power
Power
DSSS, FHSS & FA
Narrow Band Transmission
Freq
Power
DSSS – Direct Sequence Spread Spectrum
Freq
FHSS – Frequency Hopping Spread Spectrum
2
1
Freq
FA – Frequency Agility
Why Sub-1GHz Proprietary?
•
•
Allows for the longest RF transmission range,
up to several kilometers (“Wide Area Networks”)
depending on the Output Power
Strict RF regulations in sub1-GHz bands enable
high reliability and strong RF links. Limits are
typically imposed by regulatory body on:
–
–
RF spectrum output (“don’t emit in other RF channels
that you aren't supposed to”)
RF duty cycle in certain frequency bands (“you can’t
occupy the RF channel too long”)
• Very popular in Industrial applications
Why TI Sub-1GHz?
• Both best-in class RF performance and value
line RF parts are available
• All TI parts have fast startup and lock times.
This enables lower power consumption .TI’s
parts meet the most stringent ETSI, FCC and
ARIB RF regulations
• Extensive development kits, reference designs
and application notes available
Why W-MBus?
•
•
•
•
•
•
European-only wireless protocol for remote
reading of heating and energy meters
Only available in 868MHz band in Europe
Allows meters to be placed where future
access is difficult/not required
Allows up to 250 devices on one bus which
is a benefit for apartment complexes
Allows interoperability among different
meter/sensor/actuator manufacturers
Standard reduces error of manual meter
reading and is low cost to install
Why TI W-MBus?
•
•
TI offers Radio and SW from Third Parties
Available as module from 3rd parties
Radiocrafts (RC1180)
IEEE 802.15.4
• Low-Rate Wireless Personal Area
Networks (LR-WPAN) standard with
250kbps max data rate
• Use DSSS highly robust in the 2.4GHz
RF links
• Two transmission modes defined by
MAC Layer
• Beacon mode enabled
• Non Beacon mode, use CSMA-CA
(Carrier Sense Multiple Access with
Collision Avoidance)
• Low cost
• Moderate software overhead
• Reliable data transfer
• Short range operation
• Reasonable battery life
Upper Layers
IEEE 802.15.4 SSCS
IEEE 802.2
LLC, Type I
IEEE 802.15.4 MAC
IEEE 802.15.4
868/915 MHz
PHY
IEEE 802.15.4
2400 MHz
PHY
IEEE 802.15.4 Frequency Spectrum &
Topology
S1
16 Channels
5 MHz
S6
S2
H
2.4 GHz
S3
S5
10 Channels
2 MHz
S4
Star Network Topology
902 MHz
928 MHz
1 Channel
H
S
Point to Point Topology
868.3 MHz
Frequency Band and Data rate in
IEEE 802.15.4 standard
Why 6LoWPAN?
•
•
•
•
•
•
Open standard that defines IPv6 over
IEEE802.15.4
Runs on top of IEEE 802.15.4 physical layer
Uses mesh technique to support large
scalable networks that require IP connectivity
for all nodes
Leverage on the structure of IP network
protocol stack
Can be used with sub-1 GHz and 2.4 GHz
Smart metering, home/industrial automation
Why TI 6LoWPAN?
•
•
•
Complete hardware and software 6LoWPAN
platforms
High-performance radio, based on the
CC1101 radio design or CC1110 and CC430
System-on-chip solutions
Application support, development kits and
tools
Why Zigbee?
•
•
•
•
•
•
Protocol chosen as standard for SE (Smart
Energy) and Medical (Continua) networks
Scalable up to 1000’s of nodes
Helps achieve full mesh topology
Allows interoperability among different
manufacturers
Low data rate (up to 250Kbps) targeted for
battery applications (gas /water meters)
Uses IEEE 802.15.4 radio architecture
Why TI Zigbee?
• TI provides total solution (HW/SW/app profiles)
on various platforms including single-chip, ultralow power MSP430 or Cortex M3 Stellaris
• TI provides extensive development tools,
application support, reference designs
• TI is Zigbee market leader and #1 in 802.15.4
• TI brings ZigBee technology to smartphones as
mobile smart energy display
Image
Why RF4CE?
•
•
•
•
•
•
Remote controls, Set-top boxes, TVs, Blu-Ray
players, 3D glasses
Non-line-of-sight control
Uses IEEE 802.15.4 radio architecture
RF4CE is a profile of the Zigbee Alliance
Provides more advanced features based on
bi-directional communication
Longer range, longer battery life and
interoperability
Why TI RF4CE?
• TI offers RemoTI - a complete hardware and
software solution for RF4CE remote control
applications
• CC2533 based single-chip remote controls
with lower power, higher reliability and a lower
bill-of material cost than alternative devices
• TI brings RF4CE technology into smartphones
through OMAP development platform demoed
at MWC in Feb’11
Why 2.4GHz Proprietary?
•
•
•
•
•
•
2.4GHz band can be used world-wide
RF protocol can be tailored to specific
application needs
Allows 100% duty cycle applications
Very low-cost designs possible with “nocost” PCB antennas
Small form factor compared to sub-1GHz
Very popular in the consumer segment
Why TI 2.4GHz?
•
•
•
•
TI has both transceiver, transmitter and
system-on-chip RF parts with embedded
microcontroller and USB
Excellent co-existence performance in
noisy environments
Extensive development kits, reference
designs and application notes available
TI offers free of charge SimpliciTI
protocol for a fast and easy start to build
networks”
Why PurePath Wireless?
•
•
•
•
Wireless audio solutions tailored for
headphones, headsets, speakers and
home entertainment systems
Designed for wireless audio, no dropouts
Uncompressed, low latency CD-quality
audio streaming enabled by 5Mbps RF
data rate
Easy-to-use designer’s PC software tool
(free of charge)
Why TI PurePath?
•
•
•
Unique combination of high quality of
service, low power consumption and low
system cost
Low latency (sub-20ms) and distributed
clock scheme allows synchronization for
surround systems and gaming
Firmware options for various application
use cases using pin-compatible hardware
Why Bluetooth®?
•
•
•
•
•
•
•
Wireless data, audio or voice in industrial,
consumer and medical applications
Replacement of serial cables
10-100m range personal ‘bubble’ (Personal
Area Network)
Instant, secure, automatic connections
Low power consumption
(AAA battery power source)
Good data rates (~2Mbps throughput)
Install base of 3 billion units
Why TI Bluetooth?
•
•
•
•
Best in-class RF performance (Transmit and
Receive)
Dual-mode options with ANT & Bluetooth
Available with Wi-Fi
Highly integrated, fully certified module
available to reduce cost and time to market
Bluetooth Operation
Designed to avoid interference
•
Hop between 79 frequencies
of 1MHz each (2.401-2.480
GHz)
•
Pseudo-random pattern
known to transmitter and
receiver
Frequency
(GHz)
Devices form ad-hoc networks called piconets
• Each piconet uses a different frequency
hopping sequence
• Piconets have 1 master and up to 7 slaves
• Master determines hopping scheme and timing
• Communicate in round-robin fashion
• Devices can switch roles
Why ANT?
•
•
•
•
Ultra low power (ULP) enables coin cell operation
for wireless sensors with battery lifetime of 1 year
and longer
Main market in sports and fitness sensors, medical
and healthcare devices
ANT is a proprietary protocol developed by
Dynastream that operates in the 2.4-GHz ISM band
ANT+ defines a set of device profiles to ensure
products from different manufacturers are
interoperable; Established ANT+ ecosystem of over
14 million devices
Why TI ANT?
• Only TI offers single-mode (CC2570/71) and dualmode solutions (CC2567, WiLink)
• Fully tested TI ANT ecosystem solution – for both
sensor and mobile handheld devices
• Best in class RF performance
• Excellent coexistence with other 2.4GHz devices
ANT Applications
Why Bluetooth Low Energy (BLE)?
•
•
•
Ultra low power consumption, similar to ANT
battery lifetime of 1 year and longer
Fraction of the power of Bluetooth enabling nonrechargeable batteries (alkaline or coin cell) while
addressing Bluetooth installed base through dualmode chipsets
Target applications are consumer medical, sports
and wellness, and mobile accessories
Why TI BLE?
• TI provides both single mode and dual mode
Bluetooth low energy solutions
• Both sides of the link to create a fully tested
Bluetooth low energy ecosystem - from smart
sensors to smart phones
• Leading RF performance up to -97dBm
• Excellent coexistence with other 2.4GHz devices
• CC2540 System on a chip integrated solution (host
& controller) and certified modules available
Why Wi-Fi?
•
Connect electronic devices to each other, to the
Internet, and to wired networks – quickly and
securely
• Most prominent wireless connectivity technology
for computers and internet
• Real-world performance similar to wired
networks
• High data rates (>20Mbps throughput)
• Over 2.5B Wi-Fi units deployed in the market
today; ~1 billion units/year projected starting in
2011
Why TI Wi-Fi?
• Best in class idle-connect current
0.72mA for deeply embedded applications
• Single Antenna & on-chip coexistence when
using the integrated Bluetooth
• Highly integrated, fully certified modules
available to reduce cost and time to market
• Platforms offered that integrate system
hardware and software
WLAN Infrastructure Mode Networks
Access Point
Stations
Access Point (AP)
• Networks are built to transfer data between
stations
• The hub to relay all network communications,
translating frames between a wireless medium
and a wired medium
• Given a service set identifier (SSID), which
becomes the network name for the users
• Sends out beacons to let stations know there is
an access point they can connect to
Stations
• Computing devices with wireless network
interfaces
• Stations associate with an AP to join a network
• Stations listen for beacons to understand if any
traffic is available
• Because stations know when the next beacon is
coming, they can go to sleep during this wait
period and wake up in time for the next beacon
• Stations can access the Internet through the
access point connected to a network
Why GPS?
•
•
•
Space-based global navigation satellite
system utilizing a constellation of 27
Earth-orbiting satellites
Provide reliable location, time, and
velocity information to a receiver
anywhere in the world
Widely deployed and useful tool for
asset tracking, industrial automation,
surveillance, banking, power grids
Why TI GPS?
•
•
•
•
Connect to host processor simply
Utilizes industry standard NMEA
protocol
Quick startup performance – or Time To
First Fix (TTFF)
Highly integrated, fully certified modules
available to reduce cost and time to
market
Wireless Technologies Comparison
Range
Throughput
20
Mbps
Zigbee
ANT
<250
kbps
RF4CE
BLE/ANT
RF4CE
Zigbee
Sub-1GHz
2.4GHz
Bluetooth
Technology
BLE
Li-Ion
Sub-1GHz
Typical Power Source Required
AAA
WiFi
Bluetooth
WiFi
2.4GHz
Proprietary
Bluetooth
Coin
Cell
Technology
WiFi
<2
Mbps
Zigbee
BLE/ANT
10
100
Range (m)
10,000
RF4CE
Sub-1GHz
2.4GHz
RFID
Proprietary
Technology
Getting Started
To learn more information about the industry’s
broadest wireless portfolio, please see:
• Wireless Connectivity Selection Guide:
www.ti.com/wirelessconnectivityguide
• Ask an engineer:
http://e2e.ti.com/forums
• TI Connectivity Wiki:
www.ti.com/connectivitywiki