Smart Light Connectivity Revolution and NXP Product Portfolio

Low Power Wireless Connectivity for Smart Light 1

The Internet of Things in the Smart Home 2

Smart Light Vision Potential for smart household nodes Units (based on conventional 2010) Lighting 70-90 Consumer Electronics 20-30 Electricity control 30-40 Climate control 10-15 Smart lighting will be the spearhead for consumer&commercial adoption About half of all nodes will be light and switch related Technology addresses key barriers of cost and convenience LED lamps with long lifetime Low power, low cost wireless networks Ubiquitous user-friendly smart phone and tablet apps Security ~10 Other ~10 Total 150-200 per household 3

The Wireless Connectivity Revolution Standards-based wireless systems become pervasive:- New standards catalyse market growth Power Wi-Fi (internet) IEEE802.11x UWB (usb2 cable replacement) Bluetooth (short-range voice) IEEE802.15.1 WSNs ZigBee, JenNet-IP (hundreds of applications) IEEE802.15.4 Speed 1 Mbps 11-54 Mbps 200+ Mbps 250 kbps 4

Wireless Network Topology End device End device Coordinator Point-to-Point Coordinator Star networks Coordinator Enddevice Mesh networks Tree networks Router Router Router Router Primary route End device Router Router Enddevice Secondary route End device Automatic route repair Automatic route repair Enddevice Coordinator is bottleneck No bottlenecks 5

NXP Products for Smart Light 6 NXP LPRF

NXP Product Portfolio for Smart Light Silicon: Single-chip IEEE802.15.4 2.4 GHz Radio and 32-bit microcontroller JN516x family Leading in high performance and ultra low power Supports several software stacks Modules Range of 3 module types Standards approved (FCC, ETSI, Industry Canada) Higher ASP, reduce design risk, accelerate time to market Software JenNet-IP IPv6 to the end nodes using JenNet and 6LoWPAN ZigBee PRO ZigBee Light Link ZigBee Home Automation Zigbee Smart Energy RF4CE RF for consumer electronics (remote controls) Developer kit and reference design 7

JN516x functional overview DIO15/I2CDATA/UART1RX/SPISCLK DIO14/I2CCLK/UART1TX/SPISSEL DIO9/TIM0CAP/32KXTALIN/32KIN DIO13/ADE/PWM3/SPISMISO DIO10/TIM0OUT/32KXTALOUT DIO12/ADO/PWM2/SPISMOSI DIO8/TIM0CK_GT/PC1 3 variants in 6x6mm QFN40 package JN5161/001: 64kB Flash, 8kB RAM, 4kB EEPROM JN5164/001: 160kB Flash, 32kB RAM, 4kB EEPROM JN5168/001: 256kB Flash, 32kB RAM, 4kB EEPROM DIO11/PWM1 VB_DIG VSS2 DIO16/SPISMOSI/COMP1P 40 39 38 37 36 35 34 33 32 31 1 30 VDD2 2 29 DIO17/COMP1M/PWM4 DIO7/RXD0*/JTAGDTI 3 RESETN DIO6/TXD0*/JTAGTDO 28 Class leading operating current 17mA RX, Low sleep currents 0.6uA sleep timer, 1.5uA with sleep timer and RAM held 100nA deep sleep with interrupt wake up 4 XTAL_OUT DIO5/RTS0*/JTAGTMS 27 VSSA 5 26 XTAL_IN DIO4/CTS0*/JTAGTCK 6 25 VB_SYNTH VB_RAM 7 24 VCOTUNE SPISELO 8 23 VB_VCO SPIMOSI 9 22 VDD1 SPIMISO 10 21 IBIAS VSS1 11 12 13 16 17 20 14 15 18 19 DIO2/RFRX VREF/ADC2 VB_RF2 RF_IN VB_RF1 ADC1 DIO0/SPISEL1/ADC3 DIO1/SPISEL2/PC0/ADC4 DIO3/RFTX SPICLK/POR +2.5dBm output power Just 15mA TX current *Note: JTAG occupies UART0 pins in either position 32-bit RISC CPU and radio Much higher code density than typical 80C51 Up to 32MIPS with programmable clock rate 98dB link budget Extensive peripherals In production now 8

Modules: JN5168 range All modules include JN5168 chip plus support components Surface mountable on motherboards Standard power modules With integrated printed antenna 16x30mm JN5168-001-M00 JN5168-001-M00 With uFl connector 16x21mm JN5148-001-M03 Medium power module uFl connector +9.5dBm High power module uFl connector +22dBm 16x30mm JN5168-001-M05 16x30mm JN5168-001-M06 JN5168-001-M03 Module value proposition Fast time to market Reduced support burden Ready approved to FCC and EU regulations No need for RF design resource for board and test design Overall lowest cost of implementation up to 20-50ku JN5168-001-M05 and M06 9

JN5168 Evaluation Kit Contents Two expansion boards with Sensors and buttons Capacitive touch remote control Cisco Router 4 base boards + lighting expansion boards LCD expansion board USB Dongles Remote programming board 10

Reference Design- Smart bulb 11

Reference Design - Gateway Power switch & monitor MIC20050 +5V 0 USB host RJ45 Ethernet EEPROM 256kbit 24LC256 USB OTG phy STOG04 Ethernet Phy DP83848 +3V 3 +3V 3 +3V 3 RF 2.4GH z RMII I2C I2C Wireless tranceiver JN5168 +3V 3+1V8 I2C1 USB I2C Vio +3V 3 Microcontroller LPC3240 Vemc UART +1V33 VCore I/O I/O Vbat RTC EMC +3V 3 1Gb NAND Flash H27U1G8F2B LDO MIC5232 S Battery 512Mb DDR SDRAM H5MS5162 +1V 8 16 bit databus +5V Power Supply 2xLT397 3xLM3671 +3V 0 7-16V DC Smaller memory sizes possible +1V 3 +1V33 8 Leverages existing Router Plugs into any available Ethernet port on a standard router Allows communication with up to 500 Jennet-IP IoT nodes Low cost, NXP based ARM design 12

NXP Software Solutions: ZigBee PRO ZigBee specifications are developed and managed by the ZigBee Alliance Feature rich Recommended when interoperability is the key requirement ZigBee PRO Standardised mesh networking stack Profiles defined to address specific applications Ensures interoperability Customer application developed above profiles Focus market is the emerging Smart Energy market SE 1.x profile Other profiles include Home Automation, LightLink Rigorous certification process To ensure interoperability at a platform and system level Provide a recognisable logo / branding Customer Application Application Profiles Application Profiles Management Plane NXP ZigBee PRO solution provides: ZigBee Compliant Platform using JN5168 Smart Energy profiles for In-Premises Display (IPD) Smart Energy Load Control and Demand Response LightLink profiles Home Automation profiles Lighting on request Application Support Layer ZigBee Network Layer IEEE802.15.4 MAC IEEE802.15.4 PHY 13

NXP Software Solutions: JenNet-IP Smart-Phone Tablet End-To-End IP Connectivity for Wireless networks Internet IPv4 or IPv6 JenNet-IP - Ethernet Bridge Internet Gateway Key features: IP-based networking stack Highly robust, easily scalable, self-healing & re- shaping tree network proven at over 500 nodes Highly secure: 128bit AES encryption Firmware upgrades with Over-Network Download Low cost of ownership: low development complexity, license-free, no need for compliance testing FAQ s 14

NXP JenNet-IP Overview 15 NXP LPRF

In-Home Low Power Wireless Network An IP address for every thing 16

NXP Software Solutions: JenNet-IP Key features: Major components: Highly robust, easily scalable, self-healing & re-shaping tree network proven at over 500 nodes IP-based networking enabling the Internet of Things Gateway or non-gateway options for connection to the Internet or standalone operation Easy-to-use, elegant and extensible JIP application API Mesh-under approach allows routing layer optimised for low power wireless link layer and minimises number of packet buffers needed Highly secure: 128bit AES encryption with secure authentication and device joining Low memory footprint, < 128kbytes Low cost of ownership: small memory footprint, low development complexity, license-free, compliance-free IEEE802.15.4 2.4GHz PHY and MAC JenNet, a mesh-under healing tree network with low memory footprint, proven in a variety of residential & industrial applications, including asset management, lighting, solar and building control 6LoWPAN, IETF standard wireless IPv6 network layer with fragmentation/ re-assembly and header compression, backwards compatible to IPv4 IP / ICMP/ UDP internet protocol stack JIP, an easy-to-use MIB-based application API tuned for extensible sensing/control and based on SNMP model 17

JenNet-IP: Stack Overview Wireless networking for the Internet of Things (IoT) IPv6 addresses for every node Standalone mode for simple remote control Connected mode for internet control JIP Using IEEE and IETF standards IEEE802.15.4 IETF IP, UDP, 6LoWPAN Based on proven JenNet networking layer Self healing tree network JIP Application layer for low power devices Similar to SNMP, using fewer resources Proven in connected lighting applications initially Provides whole house coverage Extending applications to cover IoT Uses JN5168 single chip wireless microcontroller 18

JenNet-IP: Map to OSI Stack of layers: Application, Transport, Internet, Link More loosely defined than the OSI 7-layer network model Each layer adds specific functionality Layer Function JenNet-IP OSI equivalent Application Provides service and data access mechanisms to applications JIP Application Presentation Session Transport Sequencing, flow control, acknowledgement, recovery UDP Transport Internet Addressing, routing IP,ICMP, 6LoWPAN Network Link Moves packets between nodes (hosts) JenNet Data-link Physical 19

JenNet-IP: Transmission Type Unicast from one node to another Broadcast from one node to everyone else Multicast from one node to a group of nodes 20

JenNet-IP: Mesh Under Mesh Under Not well understood in IETF Better to keep the complexity of the link layer routing away from the IPv6 model otherwise start inventing procedures eg 6LoWPAN-ND Only buffer MAC packets (IPv6 packet fragments) at intermediate nodes Could send fragments on different routes for load balancing Route on MAC packets therefore no need to reassemble App App IP IP 6LP 6LP Route Route Route MAC MAC MAC 21

JenNet-IP: Stack Layers in TX/RX Data Large frames not re-assembled at each device, only at the final destination Destination Device Source Device Application Application Application JIP JIP JIP UDP UDP UDP IPv6 IPv6 IPv6 6lowpan 6lowpan 6lowpan JenNet JenNet JenNet IEEE 802.15.4 IEEE 802.15.4 IEEE 802.15.4 22

JenNet-IP: What 6LoWPAN provides Two key features: Compression: reduces the transmitted size of IP and UDP headers by: Removing data that can be assumed From MAC and JenNet headers From the environment Reducing the size of other fields Recreating the original IP headers at the destination Fragmentation: allows a large IP packet to be: Split into 802.15.4-sized chunks Transmitted to a destination Reassembled in order IPv6 packet Compressed Fragmented IPv6 packet Compressed Fragmented 802.15.4 network 23

JenNet-IP: JIP API for Interoperability JIP is an easy-to-use MIB-based application API Standardised MIB defines behaviour of common devices Eg Lamp: On/Off, Dim up/down, Colour JIP can be implemented on any IP connected device Custom MIBs for differentiated behaviour Based on SNMP functionality SET and GET commands JIP is optimised for embedded systems with limited capabilities JIP - JenNet-IP SNMP Simple Network Mgt Protocol MIB Management Information Base UDP User Datagram Protocol Application Application JIP MIB Mode: ON Dim: 50% JIP SET Mode: ON SET Dim: 50% JenNet-IP wireless cluster JIP GET: current status UDP UDP IP Internet IP 6LoWPAN JIP GET: current status 3G or WiFI JenNet IEEE802.15.4 JIP SET: Mode: ON, Dim: 50% JIP SET: Mode: ON, Dim: 50% 24

JenNet-IP: Management Information Bases Data is held on a node in one or more MIBs in local memory A MIB comprises a table of local variables and their values: For example, a MIB on an environment monitoring node may contain variables for temperature, humidity and wind speed Functionality to interact with a MIB is included in JIP A MIB is created by the local application: A MIB is allocated a name and handle Up to 255 MIBs can be created on a node A MIB can have up to 255 variables Each variable is assigned the following: Handle Name Type Remote access rights (constant, read-only, read-write) Set and Get callback functions 25

JenNet-IP: Traps Traps are similar to the industry-standard SNMP traps A trap is associated with a specific MIB variable on a remote node It is used to monitor the state of the variable: Any change in the variable will result in the generation of a trap notification event to inform the application which set the trap This may result from a change in the value or in the enabled state of the MIB variable Traps can be globally suspended and resumed by the local application 26

JenNet-IP Gateway: Linux Architecture Lampcgi JIPcgi User Space JIPd 6LowPANd LibJIP Kernel /dev/tty Socket Interface /dev/tun IPv4 IPV6 Routing Phy Wifi Ethernet Serial JN5168 JenNet-IP Co-Processor BR Client PC or SmartPhone Running on USB Dongle 27

JenNet-IP Gateway: libJIP A library for interfacing with JenNet-IP devices running the JIP protocol from a Linux machine 28

competitive comparison JenNet/ZigBee ZigBee LightLInk No standard interface to IP defined Requires complex ZLL gateway to serve webpage interface JenNet-IP JenNet-IP gives IPv6 connectivity to wireless devices. Allows end to end control from any device in the internet, eg Smartphone via simple gateway - no need for web server Future proof common transport layer for all applications no need to upgrade gateway for new applications Will be extended to Home & Building Automation etc cf Internet of Things Adding Energy Harvesting support Tablet or PC graphical whitelist commissioning for large networks Simple commissioning for home systems NFC commissioning built in as standard . Whole building solution. Stable for at least 250 node networks. Scalable by adding more networks with gateways connected by ethernet Fast development driven by market needs.JIP planned to become Open Source JIP gives combined gateway and gatewayless system at same cost as ZLL 2 of top 5 lamp manufacturers (Leedarson & TCP), Greenwave Reality and Belkin adopted Internet Connectivity Restricted to Lighting applications only. Roadmap to add internet connectivity Scalability & Roadmap Remote control Touchlink commissioning only NFC commissioning not standardised in ZLL Room based lighting solution only. Targeted at small 40-50 node networks max. Commissioning Network size Slow development through ZigBee committees Cost parity with JIP but gatewayless system only Only Philips with products in shops Innovation speed Cost Adoption 29

Thanks for your listening.. 30