T-LightTM LCU (Light Control Unit) NEMA LoRa User Manual Models: LCUN2LUS and LCUN2LEU Revision 1.0, September 12, 2019 Copyright Telematics Wireless Ltd. All rights reserved The document contains proprietary information of Telematics Wireless, Ltd.; it is provided under a license agreement containing restrictions on use and disclosure, and is also protected by copyright law. Due to continued product development this information may change without notice. The information and intellectual property contained herein is confidential between Telematics Wireless Ltd. and the client, and remains the exclusive property of Telematics Wireless Ltd. If you find any problems in the documentation, please report them to us in writing. Telematics Wireless Ltd. does not warrant that this document is error-free. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise without the prior written permission of Telematics Wireless Ltd. Content About Telematics Wireless Products ................................................................................................... 3 Description ........................................................................................................................................ 3 Smart Lighting System Overview ........................................................................................................ 4 LCU NEMA LoRa ................................................................................................................................. 5 Standard Features .................................................................................................................................... 5 Auto Detection and Verification Software ............................................................................................ 5 Optional Features ..................................................................................................................................... 5 LCU LoRa Supported Data Transfer .......................................................................................................... 6 Technical Specifications ..................................................................................................................... 7 LoRa RF Radio Characteristics ................................................................................................................... 7 Environment ............................................................................................................................................. 7 LCU NEMA Dimensions ............................................................................................................................. 8 LCU NEMA Electrical Structure............................................................................................................ 9 LCU NEMA Contacts/Wiring ..................................................................................................................... 9 LCU NEMA Contact Details ..................................................................................................................... 10 LCU NEMA Pinout ................................................................................................................................... 10 Standards Compliance ...................................................................................................................... 11 LoRa Certification ................................................................................................................................... 11 Regulation Information .................................................................................................................... 12 FCC Part 15 Regulation Class B device .................................................................................................... 12 FCC interference Notice .......................................................................................................................... 13 FCC Radiation Hazard Warning ............................................................................................................... 13 Installation Requirements ................................................................................................................ 14 Mandatory Customer-Supplied Equipment............................................................................................ 14 Mandatory Voltage Surge Protection ................................................................................................. 14 Mandatory Current Surge Protection ................................................................................................. 14 Location 14 Post-Installation Commissioning ............................................................................................................ 15 Contact Details ................................................................................................................................ 15 2 About Telematics Wireless Products Telematics Wireless products have been evaluated as Information Technology Equipment (ITE), which may be installed in Central Offices, Telecommunication Centers, offices, computer rooms, and similar commercial type indoor or outdoor locations. Telematics Wireless is an associate member of the TALQ Consortium, and its products are ELEXON approved. The T-Light Wireless Light Control Unit (LCU) is also certified by Intertek. Description The T-Light Wireless Light Control Unit (LCU) and its communication interface with the T-Light management software are key components in the Telematics Wireless Smart Lighting System. The LCU is a wireless control unit installed in one of the following locations:
On top of the luminaire fixture (External) The LCU handles the collection and transmission of luminaire data and the execution of commands on the luminaire from the Smart Lighting System Control Management Software (CMS). In the luminaire fixture (Internal) In the base of the pole (Internal) 3 Smart Lighting System Overview The Smart Lighting System collects data from and manages the operation of remote street luminaires. The System consists of the following components:
LCU Located on top of or inside the luminaire cover, or in the light pole, the LCU sends sensor data and executes scheduled and unscheduled luminaire control commands, such as on/off and dim, received from the CMS Application Server. LoRa Gateway the gateways forward message to/from Network Server to end devices. LoRa Network Server forward message to appropriate Application Server and selects best gateway to send message for transmission to end devices. CMS Web-based backend application server provides real-time management: receives LCU communications from the LoRa network server and sends luminaire control commands to the LoRa network server for transmission to LCUs. CMS usually contains a database of static and dynamic LCU information: ambient light values, lighting and dimming schedules, power usage, status, etc. Figure 1 System Topology 4 LCU NEMA LoRa The LCU NEMA LoRa is an external luminaire control device that is installed on top of the luminaire cover into a standard NEMA socket. Control features offer On/Off and dimming level operations. Monitoring features include identification of lamp and electrical issues and measurement of electrical parameters. The LCU NEMA uses standard NEMA socket twist and lock installation on top of a pole or luminaire cover, according to ANSI C136.10 and C136.41 specifications. Standard Features Light sensor - Operates as a photocell with the integrated microcontroller and is used as a backup light control in the event of microcontroller failure. Energy meter - Continuous measurement collection and aggregation. Real Time Clock (only when connected to the system or when unit received its time zone from the Integrated RF antenna. system and operates with GPS) Network data is protected by AES 128 encryption. Relay Control for LED driver/ballast power. Uses unlicensed frequency. Built in GPS receiver for auto-commissioning Auto Detection and Verification Software Auto Detection and Verification Software The LCU NEMA includes the Telematics Auto Detection and Verification software that automatically detects and stores the ballast type (1-10V or DALI) in the LCU. The ballast type is then retrieved during the commissioning process, thereby eliminating the need to enter it manually into the CMS (auto detection process also occur each time the power turns on from off state) Optional Features Built-in GPS receiver for full auto-commissioning. 5 LCU LoRa Supported Data Transfer Lamp energy (kWh) With the proper matching of LED driver, the following data information will be provided. Current Voltage Metered/Active power (Watt) Power Factor Lamp Burning hours LED Driver Temperature (depend on LED driver characteristics) 6 Technical Specifications Feature Dimming Ballast/Driver Communication Protocols
(different configurations depend on part number ordering information) Operating Input Voltage Load Current Internal Surge Protection MTBF Isolation Power Consumption Specification DALI Analog 0-10V 110-277V AC @50-60Hz 10A 350J (10kA)
>1M hours 3.75kVac/5mA/5Sec Up to 2W LoRa RF Radio Characteristics Parameter Value Operating Frequency:
EU868 US915 AS923 KR920 Network Topology Modulation EU868 US915 AS923 KR920 Maximum Transmitter output power EU868 US915 AS923 KR920 Antenna Gain (Typical) Antenna Type
(1) The RF characteristics are derived from LoRaTM specifications 863-870 902-928 920-925 920-923 Star of Starts LoRa125, LoRa250, FSK LoRa125, LoRa500 LoRa125, LoRa250, FSK LoRa125 Up to 16 (EIRP) Up to 21 (conducted) Up to 16 (EIRP) Up to 14 (EIRP) 0 built in Antenna Unit MHz MHz MHz MHz dBm dBm dBm dBm dBi Environment Operating Temperature IP Rating
-40 F to 161.6 F
(-40 C to +72 C) IP 66 per IEC 60529-1 7 LCU NEMA Dimensions Model External NEMA Weight Measurements 3.467 in D x 4.173 in H
(88 mm D x 106 mm H) 225 g Figure 2 - LCU NEMA Enclosure 8 LCU NEMA Electrical Structure LCU NEMA Contacts/Wiring Following is a wiring diagram for a NEMA receptacle with dimming pads for use with the LCU NEMA:
Figure 3 - NEMA Receptacle Wiring Diagram for use with LCU NEMA Figure 4 - LCU NEMA 7-Pin Contact Interface 9 LCU NEMA Contact Details Wire Color Name Black White Red Violet Gray Brown Orange Li N Lo Dim+
Dim-
Reserved 1 Reserved 2 Purpose AC Line In AC Neutral AC Line Out: Load DALI(+) or (+)0-10V or PWM or RS485-A Common GND: DALI(-) or (-) 0-10V or RS485-B Digital IO or Analog In or RS485-A (optional) Digital IO or RS485-B (optional) LCU NEMA Pinout
#
1 2 3 4 5 6 7 Model External NEMA 7-pin Pin 1-2 Black-White Main AC Line IN Main AC Neutral IN LED Driver Pins 3-2 Red-White AC for lamp Line OUT Neutral IN Pins 5-4 Gray-Violet Dimming 0-10V Analog, DALI, PWM, Modbus RS485 Pins 6-7 Brown-Orange For future user purposes, for example, sensors, Modbus RS485, GPIO-digital or analog 10 Standards Compliance Region All Europe United States Category Quality Management Systems Locking Type IP Rating Safety EMC/Radio Safety EMC/Radio Standard ISO 9001:2008 ANSI C136.41 IP 66 per IEC 60529-1 IEC 61347-2-11(IEC 61347-1) ETSI EN 300220-1&2, ETSI EN 301489-1&3 UL916 CSA C22.2#205 47CFR FCC Part 15 LoRa Certification The LCU has LoRa Module certified with LoRa Alliance. 11 Regulation Information FCC Part 15 Regulation Class B device The digital circuit of this device has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
-Reorient or relocate the receiving antenna.
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help. 12 FCC interference Notice This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions:
(1) This device may not cause interference; and
(2) This device must accept any interference, including interference that may cause undesired operation of the device. FCC Radiation Hazard Warning WARNING! To comply with FCC RF exposure compliance requirements, the device should be located at a distance of at least 20 cm from all persons during normal operation. The antennas used for this product must not be co-located or operated in conjunction with any other antenna or transmitter. WARNING! Changes or modifications to this equipment not expressly approved by the party responsible for compliance (Telematics Wireless Ltd.) could void the users authority to operate the equipment. 13 Installation Requirements Mandatory Customer-Supplied Equipment System integrity for the LCU NEMA is ensured with the mandatory installation of customer-
supplied voltage and current surge protection equipment. Mandatory Voltage Surge Protection Warning: To prevent damage due to power network voltage surges, it is mandatory that you also provide and install a surge protection device to protect the LCU and the luminaire driver. Mandatory Current Surge Protection Warning: To prevent damage due to power network current surges, it is mandatory that you also provide and install a 10 amp slow-blow fuse or circuit breaker to protect the LCU and the luminaire driver. Location The LCU NEMA is installed on the top surface of the luminaire cover utilizing a standard (twist and lock) NEMA socket. 14 Post-Installation Commissioning The serial numbers and GPS coordinates of the LCU NEMA units must be added to the CMS Equipment Inventory as part of the commissioning process. The level of automation in the Commissioning process depends on the optional equipment installed in the LCU NEMA:
GPS Commissioning is fully automated. Commissioning is complete after the CMS Administrator executes the relevant command. No GPS Commissioning is a partially manual process:
Installer obtains the GPS coordinates of the LCU NEMA with a handheld GPS device. Installer records the serial number and GPS coordinates. CMS Administrator imports the recorded values into the CMS Equipment Inventory, one by one or by batch. Contact Details Contact your local Telematics technical support representative, or contact us at:
Telematics Wireless, Ltd. 26 Hamelacha St., POB 1911 Holon 58117 ISRAEL Phone: +972-3-557-5763 Fax: +972-3-557-5703 Sales: sales@tlmw.com Support: support@tlmw.com www.telematics-wireless.com 15