1. AUSTIN ENERGY ROAM STREETLIGHT MANAGEMENT SYSTEM ROAM = Remote Operations Asset Management SWEDE 2016

2. JUSTIFICATIONFOR IMPLEMENTING JUSTIFICATION FOR IMPLEMENTING Potential energy cost savings of $1M annually – Program Burn Hours (delay on/early off) – Dimmable (requires dimmable driver) Potential energy savings of 160MWh annually Less truck rollouts – Crews have materials to make repairs in one trip. – More efficiently schedule repairs. Event lighting – Enhance select areas during special events. Record of historical data – Track maintenance, energy usage, etc. Asset Management

3. HOW IT WORKS Nodes - Installed on individual streetlights (in place of photo controls). Gateways - Communicates with a group of streetlight nodes. Network Operation Center (NOC) - Processes data to and from gateways. Hosted by Acuity. Customer Portal – Web-based access of data and controls.

4. Customer Portal - Web Interface ◦Identify malfunctioning streetlights and gateways. ◦Control lighting and schedules (on/off/dim) ◦Create work orders for repairs ◦Run reports (outages, burn hours, etc.)

5. Web Interface

6. Gateway Locations

7. Equipment Node – Installed in place of photo cell, NEMA receptacle. – Started with 3-pin node. Now have 7-pin node, which enables dimming. – 1000ft range (max distance between streetlight nodes). – Has bar code to activate and scan in GPS location. – Voltage Range of 120-277V – Power demand = 2.2 Watts

8. Scan Tool – Activates and sets GPS location of node, date installed, light type, etc. Handheld PDA GPS Antenna (Bluetooth Enabled) Equipment

9. Gateway (Ethernet or Cellular) – Installs on pole. – Controls up to 2,000 nodes (lights). – 120V, power demand = 12 Watts – Cellular require an annual data plan. Equipment

10. Installation Initial installation - Contracted installation and activation of ROAM nodes to all 70,000 existing lights. AE installed 32 gateways at locations identified by Acuity. AE now installs and maintains all equipment (nodes, gateways).

11. Lessons Learned Ethernet gateways, tied to substations, are not always in the best location to communicate. Cellular gateways are more flexible to get them where needed. Some TV and radio frequencies can interfere with communications. Nodes require scan to set the GPS location. Make sure crews re-scan when replace nodes. – New nodes available with internal GPS. However, they range about $200 per node, versus about $50 per standard node. Web-based portal does not show real-time data. – Diagnostics are run (by Acuity) every 24hrs and updated to customer portal at 7am. Dimmable lights require Dimmable Control Module.

12. Questions

13. Oncor Electric Delivery Aviation Light Monitoring SWEDE 4-27-16 Nathan Kassees 13

14. Aviation Lighting 14 Dual L-810 Lights (Steady Burning) Photocell Dual L-810 LED Light

15. Process FAA is notified if construction is being installed near airport and determines if light is needed Light configuration determined primarily by tower height 15 Filing Not Required FAA’s Criteria Tool Filing RequiredFile with FAADetermination

16. 16 FAA Advisory Circular 70/7460-1K Describes standard requirements for monitoring tower and pole aviation lights Section 47: “ Obstruction lighting systems should be closely monitored by visual or automatic means” Every 24 hours: Visually inspect obstruction lighting without automatic monitoring When using remote monitoring devices, the communication status and operational status of the system should be confirmed

17. Monitoring Requirements Must monitor light every 24 hours and file a report to the FAA after finding failure 15 days allowed to repair structure, must notify FAA if unable to repair in time window No Failure report required if lights are voluntary “Structures 150 feet (46 m) AGL or less should have one or more double steady-burning lights installed at the highest point and operating simultaneously” 17

18. Monitoring Solution Cellular Communication SNMP Based Requires a controller Reviewing options to maximize lights/RTU Being tested by Telecommunications group 18

19. Scope Distribution Deploy RTU monitoring on existing lights or determine alternative solutions (daily sight inspection or move line underground) Upgrade L-810 to LED as needed. All distribution pole structures are below 150 ft AGL Class “A0”, requires steady burning Dual L-810 Red light Transmission Deploying monitoring system using solar/battery powered RTU Most poles less than 200’, all “A0” or “A1” structures 19