IAR IDE 환경에서 손쉽게 개발 할 수 있는 IoT 관련 Microchip 제품 소개 MH EUM- Senior Embedded Solutions Engineer
11 April, 2018
2
Agenda
1. Easy IAR Project creation by using Atmel START
2. Microchip Wireless Solutions for IoT
Wi-Fi®
Bluetooth
802.15.04 Zigbee
LoRa
3. Microchip Security IC for IoT Application.
ECC508 & ECC608
4. Public Cloud Examples & Apple HomeKit Support
3
EASY IAR PROJECT CREATION BY USING ATMEL START
4
Atmel START Software configuration made easy using the Web
Explore and configure software & devices Large repository of products
Supporting device drivers & software components
Select from Atmel, third party and open community software
components
Visual software and device configuration Device pin mux & system clock
Peripheral software configuration
Middleware & example software configuration
Code generation & delivery
No installation – Web-based, central
part of Atmel Open Development Platform
Software package delivery to any
Integrated Development Environment (IDE)
5
Atmel START Example project creation
http://start.atmel.com/
6
Atmel START Export the created Project for IAR
We can generated a compatible project with IAR Workbench IDE
7
Atmel START Import the created project to IAR
You can refer to the user guide from the below link http://atmel-studio-doc.s3-website-us-east-1.amazonaws.com/webhelp/GUID-4E095027-601A-4343-844F-
2034603B4C9C-en-US-1/index.html?GUID-31CAFDCB-DD38-462B-893D-B5A7DC63B24A
The Downloaded project file can be imported to IAR Wokbench IDE
8
MICROCHIP WIRELESS SOLUTIONS
9
Narrowband
2.4GHz &
Sub GHz
~2.5kb/s
Up to 2km
Ultra-NB/ DSSS
100-600bit/s
Up to ~ 40km
802.15.4
ZigBee
6LoWPAN
250kb/s
Up to 300m Wi-Fi / BT
802.11
a/b/g/n
72Mb/s
Up to 200m
Wi-Fi
802.11
a/b/g/n
72Mb/s
Up to 200m
Bluetooth
Low
Energy
1Mb/s
Up to 10m
Range
IoT: Wireless Technologies
10
MICROCHIP WIRELESS SOLUTIONS
WiFi Product
11
Wi-Fi® Portfolio
SAMW25
SAMD21 + WINC1500
256k/32k
802.11n 2.4GHz
Module
RN1723/131
802.11g
Low Power
Module
WINC15x0
802.11n
2.4GHz
IC and Module
WINC3400
802.11n
2.4GHz
BLE 4.0
IC and Module
RN1810
802.11n 2.4GHz
Module
Netw
ork
Contr
olle
r
Legacy product
Production
Sta
ndalo
ne
Lin
k
Contr
olle
r
WILC1000
802.11n 2.4GHz
IC and Module
WILC3000
802.11n 2.4GHz
BLE 4.0
IC and Module
MRF24xxx
802.11n 2.4GHz
Module
MCU with Wi-Fi
Link Control
Network Stack
Application
Network
Controller
RN or WINC
MCU
Network Stack
Application Link Control
Link
Controller
MRF or
WILC
MPU/MCU
Link Control
Application
Network Stack
12
Modules
SAMW25
15x34
SAMD21
48MHz M0+
256k/32k
+
WINC1500
WINC3400
WILC3000
15x22
802.11n
BLE 4.0
WINC1500
WILC1000
15x22
802.11n
RN1810
18x27
802.11n
RN131
802.11g
RN171
802.11g
MRF24WG
802.11g
13
WINC15x0 Wi-Fi Network Controller
Wi-Fi Network Controller:
TCP/IP & TLS1.2 stacks on-chip
OTA firmware upgradeable
4Mb (1500) / 8Mb (1510) Serial Flash
Host MCU driver < 15KB Flash
Multiple cloud partners
Fast (150ms) reconnect to access point
Both ARM and PIC32 Harmony support
WiFi Stack
TCP/IP TLS
SPI Driver
API
WINC15x0
Wi-Fi SoC 802.11 b/g/n
Device Type IC / Module
External Host MCU
Host Interface SPI
WPS,WPA/WPA2/ EAP
TCP/UDP, HTTP, HTTPS
SSL/TLS
Antenna Design PCB / uFL
Serial Flash 4Mb (1500) 8Mb (1510)
OTA Upgrade
Dimensions (mm) 5x5 IC
15x22 Module
Certification FCC, IC, ETSI
Availability (MP) Now
14
SAMW25
SAMW25
Wi-Fi SoC WINC1500B
Embedded Host MCU SAMD21
(ARM Cortex M0+)
802.11b,g,n
WPS, WPA/WPA2
TCP/UDP, DNS, HTTP/HTTPS
SSL/TLS
CryptoAuthentication (ECC508)
Antenna Design PCB/uFL
Flash 256KB Flash on MCU
OTA Upgrade
Dimensions 15 x 34 mm
Certification FCC, IC, ETSI, TELEC
Availability (MP) Now
Host Application
SPI Driver
SPI
Socket API
WiFi Stack
TCP/IP TLS
SPI Driver
API WiFi
WINC1500
MCU
SAMD21
CryptoAuth
ECC508
Standalone Edge Module MCU + Wi-Fi solution
Complete system design
15
WINC 3400 Wi-Fi + BLE network controller
Wi-Fi + BLE network controller: Single Antenna with co-existence
On-Chip Network Stack to offload MCU:
o Integrated Network IP stack to minimize
host CPU requirements
Fast boot options:
o On-Chip Boot ROM (firmware instant
boot)
o SPI flash boot (firmware patches and
state variables)
o Low-leakage on-chip memory for state
variables
o Fast AP re-association (150ms)
SPI
WINC3400
Wi-Fi SoC 802.11 b/g/n
BLE SoC BT 4.0
Host Interface SPI
WPS, WPA/WPA2, WPA2 EAP
TCP/UDP, DNS, HTTP/HTTPS
SSL/TLS
Antenna Design Chip / uFL
Flash 8Mb serial flash
OTA Upgrade
Dimensions 15x22
Certification FCC, IC, ETSI
Availability Now
16
WILC1000/WILC3000 Product
Wi-Fi Link Controller w/
or w/o BLE 4.0
Ideal add-on to
existing MCU or MPU
Linux now in RTP
WILC1000 WILC3000
Wi-Fi SoC 802.11 b/g/n 802.11 b/g/n
Bluetooth - BLE 4.0
Device Type IC / Module IC / Module
External Host MCU/MPU MCU/MPU
Host Interface SDIO or SPI SDIO or SPI
WPS,WPA/WPA2/ EAP (Host) (Host)
TCP/UDP, HTTP, HTTPS
(Host) (Host)
SSL/TLS (Host) (Host)
Antenna Design PCB / uFL PCB / uFL
Dimensions (mm) 5x5 IC
3.25x3.25 IC 15x22 Module
6x6 IC 4.2x4.2 IC
15x22 Module
Op. Voltage Range 2.5V to 4.2V 2.5V to 4.2V
Temperature -40°C to +85°C -40°C to +85°C
Certification FCC, IC, CE FCC, IC, CE
Mass Production Now Now
Host MPU/MCU
Host Application
Driver
Linux/RTOS
SPI or
SDIO
Mic
roch
ip
WIL
C1
00
0
or
300
0
WiFi Stack
SPI/SDIO Driver
API
http://www.microchip.com/ATWILC1000 http://www.microchip.com/ATWILC3000
17
Interop Test Setup at Allion WINC1500
Security
Open, WEP, WPA, WPA2,
WPA2 Hidden
- Connection
- DHCP
- Ping
- DNS
- ARP
- UDP
- SSL
Compatibility Test with
300 Access Points
18
Regulatory Certified
• Wi-Fi Modules tested against the following standards:
• US: FCC
• Europe: CE/ETSI
• Canada: Industry Canada (IC)
• Brazil: Anatel
• Compliance to the above standards, certification reports and Registrations
• Some countries require In-country RF testing
• Many countries require end product compliance or Host level registration
19
MICROCHIP WIRELESS SOLUTIONS
BLE Product
20
Provides 2-3x
battery life
compared to other
BLE solutions
available today
Rx: <4 mA @3.6V,
Tx: <3 mA @3.6V
Low Power
Package enables
up to 3x smaller
designs vs.
current solutions
Die Size: 2.15 mm
x 2.25 mm
Small Size
Certified modules
and silicon
Certified
Solutions
Easy to develop
IoT solutions with
multiple sample
examples
IoT Solutions
SAMB11 & BTLC1000 Small & low power BLE SoC
21
BLE Product Types
SAMB11 - BLE SoC • Standalone BT 4.1 MCU
• User application and BT stack run on SAMB11
• Readily available BLE SDK
SAMB11
MCU
BTLC
1000 MCU
BTLC1000 - BLE Link Controller • Companion solution for existing / new systems.
• BT 4.1 stack on BTLC1000
• User application & BT profiles run on MCU
RN MCU
“RN” Style BT Module • Companion to MCU or can run standalone
• BT 4.2 stack and scripting runs on BT IC
• User app runs on MCU (companion) or
Simple user app runs on RN (standalone)
IS187x MCU
IS1870/71 - BLE SoC • Companion to MCU or can run standalone
• BT4.2 stack runs on IS1870/71
• User app runs on BT SoC or MCU
22
BTLC1000 / SAMB11 Wireless MR Modules
SAMB11 -MR210CA
BTLC1000 -MR110CA
BLE 4.1 SoC SAMB11 BTLC1000
MCU Cortex M0 Cortex M0
Integrated Flash Memory
256KB -
Security Manager with AES128b and SHA256
Link layer
Host Layer (L2CAP, ATT, GATT, GAP)
Crypto integration (ECC508)
Antenna Design Chip
Antenna
Chip
Antenna
Dimensions 22.9 x 15.4
mm
20 x 13 mm
Pin out 39x
castellation 24x
castellation
Certification FCC, IC, CE FCC, IC, CE
Host Application
BLE API
BLE 4.1 Stack
Host MCU
Host Application
UART
BLE API
BLE 4.1 Stack
SPI/UART Driver
SAMB11
BTLC1000
23
BTLC1000 and SAMB11 ZR Modules
Fully certified modules
Small size 7.5 x 10 mm
70% smaller footprint than MR module
Integrates all BOM components
Including chip antenna except 32kHz XTAL
Based on XR SiP with castellated pins
SiP is 4.5x5.5mm ultra small LGA package
34pin + GND paddle
FCC/CE/IC certified
New SDK (v6.1) is available on ASF
ZR MR
www.microchip.com/wwwproducts/en/atbtlc1000-zr
www.microchip.com/wwwproducts/en/atsamb11-zr
24
IS1870 / 71 Series BM / RN Module
BM70/ RN4870
BM71/ RN4871
BLE 4.2 SoC IS1870 IS1871
Integrated Flash Memory
256KB 256KB
AES128b
Link layer
Host Layer ( L2CAP, ATT, GATT, GAP)
Services/Profiles
ASCII Command &
Scripting RN4870 RN4871
Antenna Design Chip Antenna Chip Antenna
Dimensions 22 x 12 mm / 15 x 12 mm
11 x 9 mm / 8 x 6 mm
Pin out 33x 17x
Certification FCC, IC, CE, MIC, SRRC, KCC, NCC
FCC, IC, CE, MIC, SRRC, KCC, NCC
Host MCU
UART
Host Application
BLE 4.2 Stack
UART Driver
Optional
Wireless BLE Module
Certified module used as a turn key Add-On module
adding BLE 4.2 Connectivity to an existing system.
BM module: Transparent mode or binary command
RN module; ASCII based embedded scripting
BLE Mesh available
25
MICROCHIP WIRELESS SOLUTIONS
802.15.04 Zigbee Product
26
SmartConnect – Enabling Embedded 15.4 Solutions
SAMR21
MCU SAMR21 Series: 802.15.4 Microcontrollers
• ARM Cortex M0+ MCU w/integrated 2.4 GHz transceiver
• High level of integration
• Standalone and host-controlled operation
• Available as modules and as SiPs
AT86RF2xx Series: 802.15.4 Transceivers
• Sub-GHz and 2.4 GHz
• Controlled fully from MCU over SPI connection
• High level of MCU flexibility
• Available as modules and as chips
Inte
gra
tio
n
AT86RF MCU
Host
MCU/MPU SAMR21
MCU
Standalone MCU operation
Network processor operation
over serial interface
External Transceiver operation
27
ATSAMR21 Device Family Cortex M0+ with 2.4Ghz 802.15.4 Transceiver
Memories
64kB/128kB/256kB/768kB Flash
8k/16k/32kB SRAM
Peripherals
4-SERCOM Interfaces
I2C, SPI, and USART
4x16 bit timers
4-Ch 12-Bit ADC
Analog Comparator
Sleep Power Consumption
<150µA/MHz active (CoreMark® )
<4µA with RTC and Full RAM retention
Key Features
HW AES
Automatic external FEM control, Antenna Diversity
Capacitive Touch HW engine (PTC)
USB FS Host & Device
Phase Measurement Unit (PMU)
Package Options
(E) 32pin 5x5mm QFN, (G) 48pin 7x7mm QFN
SAMR21
CPU Core Cortex-M0+ @ 48MHz
Max PHY rate 250kbps (IEEE 802.15.4)
Frequency 2.4GHz
Stacks Zigbee / BitCloud , MiWi
Applications Lighting, Sensor Networks,
Home Automation
Interfaces SPI, UART
RF Tx/Rx peak 14mA/12mA @ 3.0V
Tx Pout +4dBm
Rx Sensitivity -99dBm
Sleep Mode <4uA (RTC+RAM)
Package 7x7 QFN48
5x5 QFN32
Power Supply 1.8V – 3.6V
Temp Range -40 to +125˚C
Availability NOW
http://www.atmel.com/products/wireless/802154/single-chip_solutions.aspx
28
SAMR30 Single-chip MCU with Sub GHz
Transceiver
A Cortex M0+ MCU + Sub-GHz
Transceiver in a single package! ATSAML21 + AT86RF212B
256 KB flash / 32KB RAM
8KB Low Power Mode Retained
RAM
USB Host and Device
Ultra Low Power Consumption 700nA Typical with RTC
Hardware AES crypto accelerators
Peripheral Touch Controller
High performance ADC and analog
peripherals for sensor nodes
IEEE® 802.15.4-2003/2006/2011
compliant
769-935MHz band support
5x5 32QFN or 7x7mm 48QFN Pkgs
MiWi P2P and Mesh in development
Complimentary module family with
certifications in development
App Code
Protocol Stack (ex. MiWi)
48MHz CortexM0+
12b ADC (8ch)
USB
SERCOM (4)
LP SERCOM
769-935MHz BPSK / O-QPSK Transceiver
RTCC/WDT
256KB Flash
32KB RAM
8KB LP-RAM
AES Crypto
16b Timer
Analog Compare (2x)
Configurable Custom Logic (4x)
Peripheral Touch Controller
Real Time Counter
29
AT86RF215 802.15.4 Dual Band Transceiver
Sub-GHz
Radio
2.4GHz
Radio
Baseband
Core 1
MR-FSK
MR-OFDM
MR-O-QPSK /
O-QPSK
Baseband
Core 0
MR-FSK
MR-OFDM
MR-O-QPSK /
O-QPSK
SPI
Interface
1.8v
DVReg
Battery
Monitor TX/RX Switch TX/RX Switch
AVReg AVReg RNG RNG
Crystal
Oscillator
Features
• Simultaneous dual-band
operation
• SPI interface to host MCU
• True Random Number
Generator
• Single Xtal Operation
Standards Supported
• IEEE 802.15.4TM-2015
• IEEE 802.15.4gTM-2012
• ETSI TS102 887-1
Single Chip 7mm QFN48 Package
30
AT86RF215 Device Family 2.4Ghz & Sub-GHz 802.15.4 / 802.15.4g Transceiver
Fully integrated radio transceiver
Covering 389.5-510MHz / 779-1020MHz / 2400- 2483.5MHz
Including:
• European band: 863-870MHz / 870-876MHz / 915-921MHz
• Chinese band: 470-510MHz / 779-787MHz
• North American band: 902-928MHz
• Korean band: 917-923.5MHz
• Japanese band: 920-928MHz
• World-wide ISM band: 2400-2483.5MHz
• Simultaneous operation of sub-1GHz and 2.4GHz transceiver
• Programmable TX output power up to +14.5 dBm @ 900MHz
• Receiver sensitivity down to -123dBm at 6.25kb/s MR-O-QPSK
• Low power supply voltage from 1.8V to 3.6V
• Separate 2kbytes RX and TX frame buffer
Supported PHYs • MR-FSK
• MR-OFDM
• MR-O-QPSK
• O-QPSK
• Proprietary
Package Options
48pin 7x7mm QFN
AT86RF215
PHY rates 6.25kbps - 2400kbps
Frequency Simultaneous 2.4GHz /Sub-GHz
Stacks
IEEE 802.15.4 MAC
Third Party wireless stack solutions
available
Applications Smart Energy - Ranging
Interfaces SPI, I/Q
RF Tx/Rx peak 62mA/28mA TX@14dBm
Tx Pout +14.5dBm typical at 900MHz
Rx Sensitivity Down to -123dBm @ 6.25kb/s
Sleep Mode 30nA
Package 7x7mm QFN48
Power Supply 1.8V – 3.6V
Temp Range -40 to +85˚C
Availability NOW
http://www.microchip.com/design-centers/smart-energy-products/wireless-communications
Variants AT86RF215 dual band
AT86RF215M SubGhz only
AT86RF215IQ IQ radio
31
Atmel 802.15.4 Stack Support
3rd party SW vendors provide
solutions on Atmel HW
Atmel solution has ZigBee
Golden Unit status
Atmel provides reference
applications
802.15.4-2003
-2006
-2011
ZigBee IP
Smart Energy
2.0
Home
Automation
Light Link
RF Platform
Network
Platform
Input Device
Smart Energy
1.x
OEM
Manufacturer
Specific
ZigBee RF4CE ZigBee PRO
Green
Power
...
Remote
Control
On request
6LoWPAN
Atmel BitCloud SDK
OEM
Manufacturer
Specific
lwMesh
OEM
Manufacturer
Specific
OEM
Manufacturer
Specific
Applications
ZigBee 3.0
ZigBee New Standard - Unification
32
MICROCHIP WIRELESS SOLUTIONS
LoRA Product
33
LoRa Roadmap Strategy
Network Co-Processor (NCP) Modules – Certified & Available Now!
• LoRaWAN stack running on module
• Application running on external MCU
• Easiest path to integrate LoRaWAN
Open Modules or Discrete MCUs – Available Now!
• Application & LoRaWAN Library merged inside module
• Eliminates external MCU
• Delivered via MPLAB + Microchip Code Configurator (MCC)
• Also supports 1000’s of MCUs for discrete designs
ARM-based SiP – 2Q 2018
• Cortex M0+ MCU + Radio
• Atmel Studio + ASF LoRa Library
• Low power Sleep
• Smallest form-factor
• Easy to use Modules
• LoRa Alliance Certified
• Regulatory Certified
• Custom Code Development
• Reduce Cost and Size
ARM-based Module – 2Q 2018
• SiP feature set in module form-factor
• Size & cost optimized
• Enhanced crypto/authentication options SAMR--M
34
Single-chip MCU with LoRa™ Transceiver
Highly Integrated Solution
Cortex M0+ MCU & LoRa™ Radio
in a compact BGA package!
Family of cost optimized variants:
64 / 128 / 256 KB flash
USB (SAMR34) & non-USB (SAMR35)
Ultra Low Power Consumption
<< 1 uA sleep with RTC & LPRAM retention
Backup RAM retention for frame
counters
Hardware AES crypto accelerators
True Random Number Generator
High performance ADC and analog
peripherals for sensor nodes
169, 433, 780, 868 & 915MHz band
support
6 x 6 x 1.2 mm 64-ball TFBGA package
Free access to Microchip-maintained,
Alliance-certified ‘Golden’ LoRaWAN stack
Complimentary module family with
certifications
App Code
RF Stack
48MHz CortexM0+
12b ADC (8ch)
12b DAC (2ch) USB Device
SERCOM (4)
LP SERCOM
LoRa/FSK Radio
RTCC/WDT
128KB Flash (256KB Options) 16KB RAM
(32KB
Option)
4KB LP-RAM
AES Crypto
16b Timer
CCL
True RNG
Sampling: 2H 2017
MICROCHIP CONFIDENTIAL - INTERNAL USE ONLY
35
MICROCHIP SECURITY SOLUTION
ECC508 & ECC608
36
Layer 1: Physical
Layer 2: Link
Layer 3: Network
Layer 4: Transport
Layer 5: Session
Layer 6: Presentation
Layer 7: Application
802.11b/g/n
TLS/SSL
TCP/UDP
IP, ARP, DHCP
Application
HTTP, FTP, SMTP,
SNMP
Microchip Wi-Fi® Devices Security Level
CryptoAuthenticationTM
ATECC508A/608 bundled
with WINC1500 / WINC3400
Authentication used for
Anti-cloning, Ecosystem
Management, Storage of
Keys/Certificates
On-Chip (WINC1500 / 3400)
TLS 1.2 (SSL)
Ensures Data Encryption
“Coming out” of the LAN, also
Known as Internet Security
On-Chip (WINC1500 / 3400)
WEP, WPS,
WPA2 Personal
WPA2 Enterprise
Ensures Data Encryption
within the LAN to avoid
intrusion
Offering Best-in-Class Security for IoT Edge Nodes
IoT Layered Security Solutions
37
ECC508A ECC608
Key Features & Use Cases
Node / Accessory Authentication
Network Security
Node to Cloud Authentication and
On-Boarding
Key Provisioning
Node / Accessory Authentication
Network Security
Node to Cloud Authentication and
On-Boarding
Key Provisioning
Support minimum TLS1.2
cryptography
Secure Boot
LoRaTM Security
Crypto Algorithms NIST SHA256;
ECC P256
NIST SHA256;
ECC P256, AES
Non Volatile Memory 8.5 Kbits 8.5 Kbits
I/O Interface I2C, Single Wire I2C, Single Wire
Packages
UDFN8, SOIC8, SOT23-3 Package
and pin to pin compatible
UDFN8, SOIC8, SOT23-3 Package
and pin to pin compatible
Availability Production Production
ATECC508A / ATECC608A Security ICs
Addition of AES
accelerator
Allow security for small
microcontrollers
38
ATECC508A / ATECC608A Security ICs
Crypto devices
Standard
devices
Active shield over entire chip
39
Crypto Acceleration
ATECC608A versus Arm® Cortex® -M0+ MCU running
at 48 MHz
0
1000
2000
3000
4000
5000
6000
ECC256 Ken Gen ECDSA Sign ECDSA Verify ECDHE Key Agree
H/W vs S/W benchmark
ATECC508A Cortex M0+ @ 48 MHz
milliseco
nd
s
y
40
Secure Factory Provisioning
Private key generated entirely inside
the ATECC608A
Solid randomness
NEVER readable
NEVER known by anybody
Certificates generated by world-
class HSMs at Microchip
Protected in State-of-the-art
Secure Facilities
24/7 surveillance
No special equipment or procedures
required in the 3rd party
manufacturing sites
41
Security Use Cases
42
PUBLIC CLOUD EXAMPLES & APPLE HOMEKIT SUPPORT
43
Cloud service example using
Amazon Web Services
IoT OEM AWS Account
Customer Specific
Production Signers
Customer Specific
Production Signers
Root of Trust
IoT OEM OEM CA
Device #NN
Amazon DASH Button
44
Google IoT Core Use Case
ECDSA
Sign
Signature
ECDSA
ATECC608A
How the Microcontroller
communicates to the secure
element and JWT created?
CryptoAuthLib library
Signature
ECDSA
Appended to
JWT Token
32-bit Microcontroller
Signed
Send
Part of the JWT token
Token is hashed
Public
Key
Google IoT Core Device Management
Signed
45
Total System Solution Afero – Secure IOT Platform
ATSAMG55 Cortex-M4+ MCU
Executes Client and interfaces to
Communication device
ATWINC3400 Single Chip WiFi \ BLE
802.11b\g\n WiFi Network Controller
BLE4.1 Modem
ATECC508A Crypto Authentication
Key Storage
Network Authentication \ TLS Support
Afero Modulo Hardware
46
Apple HomeKit Support
HW is Based on CEC1702 (ARM Cortex M4F) + WINC1510 (Wi-Fi module)
Microchip Wi-Fi SDK is fully certified by Apple (R8 version of spec)
Development will be done on SecureIoT1702 Board + WINC1510 CLICK Board
Dramatic reduction in execution time in Homekit specific events
Power consumption on par with BLE while retaining Wi-Fi benefits
https://developer.apple.com/homekit/
WINC1500 WiFi
MFi AuthIC
WINC1510 MR210PB (Certified module)
CEC1702 ARM M4 @
48MHz
480KB SRAM
MFi AuthIC
MCU
Wi-Fi
HomeKit App
HomeKit SDK Library
Customer App
47
What Makes Our Solutions Different… and Successful
Full Documentation
IoT Security
Certified
Local Support Scalability
Software Standards and Alliances
Turn Key Solutions Robustness