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Low Power Radio Frequency
Long range. Low Power. Easy to use.
Part of the SimpleLink™ MCU Platform
Agenda
SimpleLink MCU Platform
Wireless Portfolio & Wireless Technology Summary
CC13x2 / CC26x2 introduction
CC13x2 / CC26x2 SDK
Why Sub-1 GHz?
TI offering with 802.15.4g stack & sensor to cloud solution
What‟s new with Bluetooth 5?
Why Thread?
TI Hardware Roadmap
2
Overview of TI Offering Nick Smith 2017
Low Power RF
Product Offering
Resources
New SimpleLink™ MCU platform One environment. Unlimited potential.
Wireless Network
Processor
Wireless Microcontrollers Microcontroller
CC2652R
Multi-standard
3
CC2642R
CC2640R2F
100% code reuse Common software
CC1312R
CC1310
CC1352R
CC1352P
CC1350
Multi-band
End-to-end development resources
Common
software
Wired & wireless
ARM®-based MCUs Development Kits
SimpleLink
Academy
Code Composer
Studio™ IDE
TI Resource
Explorer
4
TI Wireless Broad Portfolio Solutions for every Industry Challenge
Range Up to 100m cm km
Key Attributes
Key Differences
Throughput: Data up to 848 Kbps
ZigBee® NFC
RFID
Bluetooth®
Bluetooth® LE
Wi-Fi®
Sub-1 GHz,
Dual-Band
Proprietary
2.4GHz
Thread,
6LoWPAN
Identification Connection to smart
devices
Customizable Mesh Universal –
Cloud connection IP Mesh Long range
• Passive operation & data
storage
• Dedicated multi-tag read
zone
• In Portable devices
• Interoperable with other
Bluetooth devices
• Large install base
• In mobile devices
• Ultra Low Power
• Existing infrastructure
• Power Optimized
• Built-in security
• Wi-Fi Certified
• Connection to the cloud
• Multi-protocol BLE
• Longest range
• Ultra low power
• Customizable to
application
• Robust RF
• Standards based
• Self-healing mesh
• Ultra Low power
• Large area coverage
• Customizable to
application
• Robust RF
• IPv6 stack
• Ultra low power
• IoT platform
Personal Area Networks Proximity Local Area Networks Neighborhood
Area Networks
Throughput: Data or voice up to 3
Mbps
Throughput: Data up to 1 Mbps
Throughput: Data up to 256 Kbps
Throughput: Voice or video from
10-100 mbps
Throughput: Data up to 256 Kbps
Throughput: Data up to 1 Mbps
Power Required: No battery to coin cell
Power Required: Coin cell to AAA
Power Required: Coin cell
Power Required: Energy harvesting to AAA
Power Required: AA to Lithium Ion
Power Required: Energy harvesting to AAA
Power Required: Coin cell
5
2.4 GHz Wireless Technology Summary Grid infrastructure, Factory automation, Building automation
6
Zigbee
Mesh
WiSUN
Technology Features
TI Support
WHART Wireless IO-Link Thread Bluetooth LE
ZigBee
3RD Party TI Supported
3RD Party
Grid Infrastructure Factory Automation Building Automation
IPv6 IPv6 IPv6 IPv6
Mesh Mesh Mesh Mesh Mesh Mesh
Process Control
ZigBee in UK
WiFi Bluetooth LE
TI Supported
TI Supported
TI Supported
Mesh
IPv6
Mesh- Limited
TI Supported
IPv6 IPv6
3RD Party
Japan- HAN
IPv6
TI Supported
IPv6
Sub-1 GHz Wireless Technology Summary Grid infrastructure, Building automation
7
WiSUN Sigfox
IPv6
Mesh
TI Supported 3RD Party
Wireless M-BUS
IPv6
Mesh
Europe-centric
Contiki
Open Source
IPv6
Mesh
Comments
TI Support
Grid Infrastructure Building Automation
3RD Party
Mesh
IPv6
FAN
IPv6
Mesh
TI Supported
TI 15.4-Stack
Rescue tracking
RC toys
Irrigation systems
Rodent traps
Animal tracking
Monitoring sensors
Cable Replacement
Tollroad Tags
Asset Tracking
ESL/Price Tags
Locationing
Cold Chain Mgmt
Security Alarms
Smoke/CO2 alarms
Security Sensors
Flow Meters
E-Meters
Heat cost allocators
Lighting Control
Door Locks
Heat Control
Why Sub-1 GHz? Better range, Lower power, More robust, Diverse Applications.
8
Long range
• 200x more than Wi-Fi, ZigBee
• Full house coverage with a simple
software
• Choice of long range modulations
Sub-1 GHz in Space
• 20 km on coin cell battery
• Multi-years on coin cell battery
• Lower power vs. other technologies for
the same range
More information on ultra-low power
platform
Ultra-Low Power
• Less susceptible to interference
• Avoid the crowded 2.4 GHz
• Frequency hopping
Learn more about frequency hopping
Robust
Home / building
automation Smart Grid Alarm & Security Retail Logistics
Factory
Automation Agriculture Other
9
Building a Sub-1GHz network Key components
Network Management
• Formation, Discovery
• Joining, Leaving
Security
• Encryption
• Message Integrity
MAC
• Medium access
• Addressing
• Packeting
• Frequency Hopping
• Regulatory compliance
10
Network Management
• TI 15.4-Stack Link Management layer
Security
• AES-128 Encryption
• Message Integrity Code
MAC
• 802.15.4 standard CSMA\CA
• 802.15.4 standard addresses
• 802.15.4 standard packeting
• WiSun based frequency hopping
• ETSI/ FCC compliant
Network Management
• Formation, Discovery
• Joining, Leaving
Security
• Encryption
• Message Integrity
MAC
• Medium access
• Addressing
• Packeting
• Frequency Hopping
• Regulatory compliance
Resources • 15.4-Stack Video
• CC13x0 SDK
• TI 15.4-Stack Linux SDK
• SDK Overview
A standards-based Sub-1 GHz wireless networking solution
What is TI 15.4-Stack? Robust, Easy to use, Ultra-low power
11
Nick Smith 2018
SimpleLink Sub-1 GHz Sensor to Cloud What is it? Why is it needed?
Fast time to market.
Long range applications to the cloud.
Flexible gateway solution
What is it? An end-to-end solution providing cloud connectivity for
sending and receiving sensor data over a long range Sub-1 GHz network.
Why is it needed? The Sub-1 GHz band is very fragmented with
no single dominant technology that provides an end-to-end solution for devices
to access the cloud over a Sub-1 GHz network. The TI Sensor to Cloud is this
solution.
Key Features • IEEE 802.15.4g star networking solution
• AES-128 encryption and message integrity code
• Frequency hopping enabling robustness
• Scalable cloud integration
• Certification-ready design
12
13
SimpleLink Sub-1 GHz Sensor to Cloud Choose your solution
TI-RTOS-based wireless MCU gateway Linux-based processor gateway
• Fully integrated wireless gateway
• Low power solution
• Unprecedented scalability with the SimpleLink MCU platform
• Cost-optimized solution
• Enables enhanced user interface
• Ability to run concurrent applications
• Support for various wireless technologies like Bluetooth® low
energy, Wi-Fi, zigbee®, Thread, etc.
• Wired and wireless gateway option
Supported operating system: TI-RTOS Supported operating system: Linux
SimpleLink Wi-Fi CC3220
• ARM® Cortex®-M4
• Dedicated network processor and additional application MCU
• Chip-level Wi-Fi Alliance certification
• 256K RAM or 256K RAM + 1 MB Flash and advanced security
features
Sitara AM335x
• Scalable ARM® Cortex®-A8 from 300 MHz – 1 GHz
• 3D graphics option for enhanced user interface
• Premium secure boot option
• Dual-core PRU-ICSS
Order now Order now Learn more Learn more
Nick Smith 2018 Nick Smith 2018
Power Tools,
E-meters,
Sensors
Remote keyless entry
(RKE), Passive-entry
Passive-start (PEPS),
wire replacement
Anti-lost tags,
Asset tracking
Personel locator
EPOS Card Readers
EPOS Printers
Handheld transaction
terminals
Coffee-Maker,
Vacuum,
HVAC
Glucose Monitors,
Patient Monitors,
Drug delivery
Door locks, Beacons
Smoke Detectors,
Door bells, Lights
What’s new with Bluetooth 5? Longer range, Higher speed, More data, Diverse Applications.
14
Longer range
• 6 dB improved sensitivity through coding –
same TX/RX current
• Whole-house coverage (1.5km range)
Learn more
• 500% increase in data throughput vs.
Bluetooth 4.0 (2Mbps mode)
• CC2640R2F supports even higher
throughput up to 5Mbps (proprietary)
The secret to moving faster
Higher speeds
• Transmit more intelligent data over a
beacon (up to 248 bytes)
• Enable rich location/navigation
applications
Explore Bluetooth 5
Increased broadcasting capacity
Home / building
automation Health / medical Applicances Retail Logistics Automotive Industrial
What is Texas Instruments’ Offering
• BLE stack with full support for BLE5.0
– Support for 2Mbps high speed mode
– Support for Advertisement Extensions and Coded PHYs (125kbps / 500kbps)
• Secure Over-the-Air firmware upgrade
– Secure and signed firmware (know that firmware comes from trusted source)
• Tested with up to 32 simultaneous connections
– Multi-role, central or peripheral roles in combination in the network
• Dynamic multi-protocol manager (DMM)
– DMM lets you run two stacks simultaneously, ex BLE and 802.15.4 or ZigBee
15
What is Texas Instruments’ Offering
16
TI Radio: a unique future proof differentiation
• The BT5 long range mode specification is
based on a proposal from TI
• Flexible radio also ensures support for
future spec enhancements via software
update
• Support of up to 5Mbps for future
expandability
17
Updatable Radio
supports lower-level radio
updates via firmware to
support future standard
enhancements
Built-in Bluetooth5 support
Both 2Mbps and long range
radio modes are already
supported
Security Alarms
Smoke/CO2 alarms
Security Sensors
Lighting Control
Door Locks
Heat Control
Why Thread? The best way to connect and control products in the home
18
Low power mesh
• Full house coverage
• Battery operation for sleepy end nodes
• Self-healing to fix routing problems
• Worldwide standard
• Easy connection to existing networks
• IP-based security with DTLS
IP connectivity
• Thread commissioning smartphone app
is available
• Easy to form, join, and maintain network
• Secure commissioning
Smart phone commissioning
Home / building
automation Alarm & Security
Coffee-Maker,
Vacuum,
HVAC
Applicances
What is Texas Instruments’ Offering
• Integration of OpenThread with the TI
SimpleLink MCU SDK
• Extensive documentation
– OpenThread
– TI-RTOS
– TI Drivers
– Examples
• Inter-task support with a simple thread-
safe API
19
What is Texas Instruments’ Offering
• Currently supports following TI
devices:
– CC2652R (Thread Certified)
– CC1352R (To be Certified)
– CC1352P (To be Certified)
• Differentating elements:
– Low-power
– OAD, both native and over BLE
– Whole solution with BeagleBone Black-
based border router
– End equipment-based example
applications
– TI SimpleLink MCU framework 20
21
CC1312R
Sub 1GHz
352kB Flash, 80kB RAM, 7x7
Low Power RF Hardware Roadmap Sub-1 GHz, Multi-Band, 2.4 GHz, Bluetooth low energy, Zigbee, Thread
Su
b-1
GH
z
2.4
GH
z
Du
al-
Ban
d
CC112x,
CC12xx High performance
Transceivers
CC1350
Sub 1GHz + BLE
32-128kB Flash, 20 kB RAM
CC1352R
Multi-band
352kB Flash, 80kB RAM, 7x7
CC2530
802.15.4
128/256kB flash
CC2538
802.15.4
256/512kB flash
CC2630/50
2.4 GHz multi-protocol
128kB Flash, 20 kB RAM, ROM
CC2652R
2.4 GHz Multi-protocol
352kB flash, 80kB RAM
“Agama” “Agama + PA”
CC1352P
Same as CC1352+
Output power: 20dBm
CC2650
MOD BT4.2
Integrated antenna
CC2640R2F
BT5
275kB NV memory, 28 kB RAM
CC2640R2F-Q1
BT5
Automotive qualified – ACE-Q100, 7x7
Production
Sampling
Development
Roadmap/Planning
zigbee
BLE / BLE 5.0
Sub-1 GHz
6LoWPAN
Thread
Integrated PA
“Chameleon”
Key Features
Connectivity Technology
More memory. Multi-step approach from
128kB to 352kB
More integration. Integrating MCU, sensor
controller, PA, and multiple
wireless technologies
Easier to use. Comprehensive software,
complete reference
designs, and SimpleLink
Academy training
Pin-to Pin (7x7)
Pin-to Pin (7x7)
CC2541/Q1
BT4.0
256kB flash, Q-100 qual
CC2540/T
BT4.0
256kB flash, 125 C
Pin-to Pin (7x7)
BL
E
Nic
k S
mit
h 2
017
CC2642R
BT5
352kB Flash, 80kB RAM, 7x7
Nick Smith 2017
CC1310
Sub-1GHz
32-128kB Flash, 20 kB RAM
Nick Smith 2017
RTM: Apr „19 Prod. samples:
Mar „19
RTM: Apr „19 Prod. samples:
Mar „19
RTM: May „19 Prod. samples:
Mar „19
RTM: Apr „19 Prod. samples:
Mar „19
RTM: Apr „19 Prod. samples:
Mar „19
TI Confidential – NDA Restrictions 22
CC13x2 / CC26x2 Introduction SimpleLink™ Sub-1 GHz, Dual-Band and Multi-Protocol Ultra-low power Wireless MCUs
22
23
CC26x2/CC13x2 One architecture, several technologies
QFN package:
7x7mm
ARM®
Cortex®-M4F
Radio
SCE
Peripherals / modules
Application MCU
• Application
• Profiles / services
• TI RTOS
• Peripheral drivers and
libraries
• Royalty free protocol stacks
Peripherals / modules
• DC/DC converter
• Temp/battery monitor
• AES
• GPIO
• Timers
• UART / SPI
• I2C / I2S
• DMA
Sensor controller engine
• ADC and comparators
• Digital sensor readings
• Capacitive sensing
Radio
• Strong Sensitivity
• Power output:
• +5dBm / +20dBm @ 2.4 GHz
• +15dBm / +20dBm @ Sub-1
GHz
• LinkLayer in ROM
Memory
Memory
• 608 KB non-volatile memory
• 352 KB Flash + 256 KB ROM
• 80 KB SRAM + 8 KB cache
802.15.4g Low Energy
CC13x2 / CC26x2 new platform 2019
Agama
Main CPU:
Up to
352 kB
Flash
with 8kB
Cache
Sensor interface
cJTAG
Up to
80 kB
SRAM
2xROM
ARM®
Cortex™
M4F
LDO, clocks and references
Optional DC/DC converter
RF core
ARM®
Cortex™ M0
DSP modem, 2x speed
4xSRAM
ROM
ULP Sensor Controller
2 MHz, 24MHz
Low Power Comparators
12 bit ADC, 200ks/s
Constant Current Source
SPI/I2C digital sensor IF
4kB SRAM
Time to Digital converter
General peripherals/modules
4 16-bit Timers
2xSSI (SPI, µW, TI)
Watchdog timer
Temp. / batt. Mon.
RTC
I2C
2xUART
I2S
10 / 15 / 31 GPIOs
Enhanced Security
32 ch. µDMA
ADC
ADC
Digital PLL
Up to 48 MHz
61 µA / MHz
Sub-1 GHz
+20 dBm PA
TRNG
2.4 GHz
Narrow
band
2.4 GHzor
Sub-1 GHzMore memory for application
and RF protocol(s).
80k RAM protected by parity
for low soft error rate
More processing power: ARM Cortex M4F
• Enhanced security Hardware Acceleration: AES-128/256, SHA-512, ECC, RSA-2048)
Dual band RF:
• Sub 1GHz + 2.4 GHz
• Smart Phone Connection
More capable modem
• 2x speed for more
advanced modulation
+20 dBm PA for longer
range
Narrowband + 169 MHz
• Better sensitivity
• Cover more metering
standards (WMBUS)
Lower Power flow metering
• New 2MHz mode giving 3-
10 times lower power for
flow measurements
25
2.4 GHz
SimpleLink CC13x2 / CC26x2 Sensor controller
SPI reading -
Wake ups per
second
Cortex-M4, 48
MHz
Sensor controller,
24 MHz
Sensor controller,
2 MHz
1 2.4 uA 1.5 1.0 uA
20 25.4 uA 4.0 uA 1.4 uA
100 119 uA 15.6 uA 3.0 uA
16-Hz: 1.7 uA
Reading Comp A @ 100 Hz: 1.9 uA
ADC sampling @ 1Hz: 1uA
Flow metering
Motion detector monitoring output from a PIR
Thermostat external temp sensor reporting back to main
thermostat
Example application Power consumption
CC13x2 / CC26x2 Standby current over temp vs. competitor
0
1
2
3
4
5
6
7
8
9
10
11
12
(40) (30) (20) (10) 0 10 20 30 40 50 60 70 80
CC1352/2652
Competitor
µA
Degrees C
Standby current consumption, VDD=3.3V, 32kHz RCOSCCC1352/CC2652: 80k RAMCompetitor: 32k RAM
CC1352P Industry’s lowest power PA
Competitor (integrated)
Dedicated PA
New SimpleLink Wireless MCUs Summary
Device Description
CC2642R Bluetooth low energy only
CC2652R Multi-standard 2.4GHz device with support for Bluetooth
low energy, ZigBee and Thread
CC1312R Sub-1GHz only device. Support for TI 802.15.4g stack and
proprietary RF
CC1352R Multi-standard Sub-1GHz and 2.4GHz device with support
for Bluetooth low energy, ZigBee, Thread ++
CC1352P Adds a +20dBM PA in addition to CC1352R functionality
SimpleLink SDK Overview Multi-Standard software package for CC2642R/CC2652R/CC1352R/P
29
Thread
Accelerate your time to market
Bluetooth Low Energy
• Thread 1.1 networking stack based on
OpenThread core
• NCP and CLI example applications
• CoAP-based example applications (door lock,
thermostat, window shade, temperature
sensor)
• TI SimpleLink MCU ™ framework
• Enablement of Beaglebone black-based border
router with agent
Zigbee
• Zigbee Pro compliant platform
• GP device and sink support
• Example applications including light, switch,
thermostat, temperature sensor, door lock
• Support for Zigbee Network Processor
Uncompromised flexibility
• Support for Bluetooth 5
• High Speed 2Mbps mode
• Coded PHYs long range modes
• Advertising Extensions
• Backwards compatible to Bluetooth 4.x
• Simple BLE peripheral, central, and
network processor example applications
• TI SimpleLink MCU™ framework
• Multirole
• OAD (over-air-download)
One environment, unlimited potential
SimpleLink SDK Overview Sub-1 GHz CC1312R / Multi-Band CC1352R/P software package
30
TI 15.4-Stack
Accelerate your time to market
Multi-Band – Sub-1 GHz +
Bluetooth Low Energy
• IEEE 802.15.4e/g-based star network solution
• Support for both 50kbps and SimpleLink Long
Range Mode (5kbps)
• Complete stack software including MAC with
CSMA/CA, Network management, and built in
security features
• Sensor and Collector example embedded
application
• Linux gateway example application
• Sensor to cloud solution with IoT agent reference
design
Proprietary SW RF
examples
• Proprietary RF examples leveraging TI-RTOS
• Support for non-RTOS examples in packet
TX/RX, PER-meter, and EasyLink TX/RX
• EasyLink RF abstraction layer – simple API
exposing various APIs from the RF core
• Support for any characterized PHY directly from
SmartRF Studio settings
• AT command interface
Uncompromised flexibility
• Concurrent 15.4 Stack sensor + BLE advertiser
using BLE micro-stack service
• Concurrent WSN sensor + BLE advertiser using
BLE micro-stack service
• Seamless OAD upgrade between BLE, 15.4-
Stack and EasyLink
• Concurrent WSN sensor and BLE peripheral
One environment, unlimited potential
31
Learn more >
• New! CC2642R
• CC2640R2F
• CC2640R2F-Q1
Tools and Software >
Learn more >
• New! CC1312R
• CC1310
Tools and Software >
Learn more >
• New! CC2652R
Tools and Software >
Learn more >
• New! CC2652R
Tools and Software >
Learn more >
• New! CC1352R
• New! CC2652R
• CC1350
Tools and Software >
Building Automation,
HVAC, and Smart Meters
End
Equipment
Information
• Training
• TI E2E Support Forum
Support and
Training
• Web
• Video
• Blog
• TI-RTOS-based design
• Linux-based design
SimpleLink
Sensor to
Cloud
LPRF Resources Learn more >