Intelligent Buildings and the Internet of Things Filling in the Missing Link? Michael Welzel michael@directcontrol.co.nz Page 1
Who are we? Founded in 1991 Based in Auckland Operating in New Zealand & International More than 1000 Installations Page 2
Some of our Partners Tridium Integration Platform SkySpark Advanced Building Analytics Optergy Energy & Facility Management Delta Controls Building Automation - HVAC Philips Dynalite Lighting Control Solutions Janitza Monitoring & Targeting LoRaWAN IoT Networks Page 3
What we do Integrated Building Automation Advanced Building Analytics Energy & Facility Management Monitoring & Targeting IPMVP M&V Reports (CMVP) NABERS NZ Ratings Smart Metering Wireless Networks and Sensors Lighting Controls Access Control & CCTV Page 4
Solutions for Smart Cities Commercial & Office Buildings Apartment Buildings Airports Education Campuses & Schools Health Care / Hospitals Large Retail Spaces Hospitality Data Centres Farms Industrial Page 5
Some key clients Office Buildings Precinct Properties Ltd. AMP Zurich Building Mason Brothers Commercial Bay.. Spark Nationwide Vodafone 125 Queen Street Britomart and much more Page 6
Precinct Precinct is one of the largest owners of premium inner-city business space in Auckland and Wellington. Direct Control provide: Portfolio Integration Energy Management Advanced Analytics BMS & HVAC Control Energy, Water Monitoring Smart Metering Page 7
Spark NZ Spark NZ is a New Zealand-wide communications service provider Direct Control provide nationwide: Integration Platform HVAC Control Energy Monitoring Power Monitoring Smart Metering Data Centre Power Management Page 8
Spark NZ nationwide HVAC, Energy Monitoring, Power Management, Lighting Controls, Facility Management, CCTV and Access Control. Tridium as Integration Platform More than 30 sites 3 major data centres More than 250,000 Data Points which are not IoT devices Page 9
IoT Internet of Things? There are many graphics like this Showing all kind of devices communicating with applications, platforms or frameworks IoT is not new, it s just another name for things we already have done in the past How is this all communicating? Let s go back in time Page 10
History of wireless Guglielmo Marconi was sparking messages Karl Ferdinand Braun Heinrich Rudolf Hertz All this happened just 120 years ago Page 11
Mobiles & M2M Marty Cooper made the first mobile call 1973 Changed from keypad to touch. Nokia did not believe it! Cellular modems with SIM cards (GPRS/3G/4G/.) And the phones started to burn sometimes All this happened in the last 50 years Page 12
Tubes and Sandy Bridges First tubes about 1900. Still good for analog music amplifiers 1950 the Transistor came and TTL, CMOS as integrated circuits in the late 60th Microprocessors showed up like the 4004 and 8008 in 1972 And something like Sandy-Bridge with 1.16 billion Transistors until today More or less the last 70 years Page 13
Page 14
LPWAN Low Power WAN High Integration with millions of transistors Low Power going down to Pico ampere in sleep Made for Smart-Metering and Sensors All this happened in the last 3-5 years Page 15
LPWAN Networks Traditional network structures versus LPWAN like LoRa and SigFox. LPWAN (Low Power WAN) Long range Small data packages Long battery life time Page 16
So what about IoT? Something new had to come It was not anymore the Host it became a Cloud Where do all the data go if we have a blue sky? Connected devices became the Internet of Things IoT was born and we started to create IoT Clouds How do we fill the missing link? Page 17
http://directcontrol.co.nz/index.php/en/lora-wan-iot Page 18
Buildings & Systems All have Revenue- & Water-Meter Most of the Premium and A-grade Buildings have Building Automation Some have NABERSNZ ratings Mid-tier (B,C & D-grade) in NZ/AUS lagging significantly in implementing Building-Management retrofits C/D-grade Premium & A-grade B-grade Page 19
LoRa Gateway up to 15 km Radius C/D-grade A-grade B-grade Page 20
LoRa Gateway Mounted on / off Mobile Towers Public or Private Networks possible Requires Internet Connection Different gateways available, also for in house as pico-cells Page 21
LoRa Multi-Sensor Pulse Totaliser S0 Power Monitoring Analog input ( 0-10V) Water leak sensor input Moisture sensor input Distance sensor input And more.. Battery status 10 years battery life-time Page 22
LoRa ModBus Converter Power and Energy Up to 32 channel power meter Energy Management Check Meters for Apartment Buildings Page 23
LoRa Pulse Sensor Water Meter with Pulse Output Consumption and flow Register for leak detection Burst alarm Temper alarm Sensor temperature Page 24
LoRa Modularis Sensor Water Meter with Modularis Module Consumption and flow Register for leak detection Burst alarm Temper alarm Temperatur Page 25
LoRa Room Sensor Temperature Light sensor Humidity Motion (PIR) CO2 Battery status 10 years battery life-time Page 26
LoRa Room Sensor Temperature Light sensor Humidity Acceleration PIR motion sensor (optional) Battery status 10 years battery life-time Page 27
Just the Beginning More sensors, converters and acutators will be available due to the AS923 Standard New applications will come for different fields It s like the beginning of the internet on a complete different level Page 28
Asia Pacific LoRa Standard AS923 Plan NZ and AUS on 915-928 MHz JoinFreq 923.2 / 923.4 Created a huge market for sensor suppliers W-MBus 923MHz was never developed by suppliers They rather changed directly to LPWAN Page 29
AS923 Channel Plan NZ and AUS 915-928 MHz practical the same ( used is only 920-928) Created a huge market for sensor suppliers Not like for W-Mbus 923MHz Page 30
Smart Agriculture Connected Building & Facility management Smart Metering Street Lighting Industry 4.0 Wearables & mhealth Traffic & Waste management Remote Industries Smart Parking Logistics & Tracking Page 31
LPWAN networks Public Networks Network Provider Private Networks with LoRa WAN for local and isolated connectivity Page 32
Low Power WAN Low Power & Long Range Page 34
A simple problem How do I monitor a dry contact and create an alarm within a range of kilometers and a battery life-time of 10 years with practically no costs? In 2021 there will be 28 billion connected devices over half of which will be Internet of Things based devices Source : Ericsson Mobility Report July 2016 Page 35
The LoRa Alliance The fastest growing alliance in the tech world 320th member MWC 2015 All members All members MWC 2016 2015 Meeting 2015 Meeting 2015 2016 Page 36
Coverage Lifetime Cost Usage 5-15 km range Deep indoor Star network Bidirectionnality 10+ years battery life Low power consumtion Adaptative data rate Connectivity profiles Low deployment costs Licence-free spectrum (ISM band) Open standard Public & private networks Network scalability Location without GPS Datarate up to 5.5 kbps Page 37
Contact Michael Welzel Phone +64 9 300 4300 Email mwelzel@directcontrol.co.nz THANK YOU FOR YOUR ATTENTION! QUESTIONS? www.directcontrol.co.nz Page 38