LightPRO System Setup Procedure Greater China Regional Marketing NXP Semiconductors Feb 18, 2014
Contents Setting up the Network 1. LightPRO dev kit overview 2. Setting up the LightPRO Network - IP network side setup - Jennet-IP network formation - Group configuration - Scene configuration 3. How to use the remote (to do On/OFF, Grouping, Dimming) Hardware – how to make a LightPRO SSL Driver 4. How to connect a LightPRO module LightPRO – hardware reference design How to connect LightPRO (PWM 3.
Setting up the LightPRO Network 3 Subject / Department / Author - July 25, 2014
LightPRO dev kit Overview Wifi Router Smart Bulbs Lan Cable WiFi Network Side IoT Gateway Jennet-IP Network Side LightPRO Module SSL Driver 4 July 25, 2014
Setting up the LightPRO network (1) - IP network side setup Step 1 Connect IoT Gateway to IPv4 network Connect the IoT gateway with a LAN Router. Then find the IP address of IoT gateway in the client list of DHCP Server. This will allow PC web to access to the IoT Gateway and Jennet‐IP network using the IP address.
Setting up the LightPRO network (2) - Jennet-IP network formation Step 2 Enter Jennet-IP Network formation Open Browser: http://192.168.0.xx.
Setting up the LightPRO network (2) - Jennet-IP network formation Step 3 Add lamp to Jennet-IP network Power up the lamp, which enters a breath mode to indicate a joining state.
Setting up the LightPRO network (2) - Jennet-IP network formation Step 4 Add Remote to Jennet-IP network Initiate the active mode of the remote by pressing “PRG button‐> Up button‐> Down button‐> Up button”.
Setting up the LightPRO network (3) - Group Configuration Step 5 Enter Group Configuration Open Browser: http://192.168.0.xx.( IP address is dynamically assigned by the DHCP server ) Go to “JIP Browser ‐> ..
Setting up the LightPRO network (3) - Group Configuration Step 6 Create a Group Entry to a lamp Fill in“AddGroup” box with supported GroupID and then “Set”; When the bottom line shows “Success”, Refresh the “Groups” table. Notes1: The Group IDs supported by the Android Smart Lighting App are “0x15a00a”, “0x15b00b”, “0x15c00c”, “0x15d00d” and “0x15f00f”. The Group IDs supported by the PC web are “0x15c00c”, “0x15d00d” and “0x15f00f”.
Setting up the LightPRO network (3) - Group Configuration Step 7 Delete a Group Entry from a lamp Fill in“RemoveGroup” box with a GroupID that is already in the Group table,and then “Set”; When the bottom line shows “Success”, Refresh the “Groups” table.
Setting up the LightPRO network (4) - Scene Configuration Step 8 Adjust Group Status for Scenes Based on group control, adjust the status of lamps to the expected scene value.
Setting up the LightPRO network (4) - Scene Configuration Step 9 Enter Scene Configuration Go to “JIP Browser ‐> ..‐> Network Contents”, all joined lamps will show out; Select target lamp then choose “BulbScene” MIB for scene configuration.
Setting up the LightPRO network (4) - Scene Configuration Step 10 Save Scene Configuration Save the status of the bulb into a scene by editing one of supported sceneID into “AddSceneID” and then “Set”; Go back to the step 9, save the status for the scene one by one until all bulb in the scene has been addressed. Notes: The valid scene IDs are 0xA00A (Home), 0xB00B (Away), 0xC00C (Movie), 0xD00D (Reading).
Hardware – how to make a LightPRO SSL Driver 15 Subject / Department / Author - July 25, 2014
How to connect a LightPRO module (to an SSL driver box) IoT Box Reference Design Power Supply PWM or 0-10V analog Antenna mounting LightPRO Module Pin Connections Testing Q&A 16 Subject / Department / Author - July 25, 2014
LightPRO - reference design 90-275VAC Universal AC AC Power Input Outputs 0~10V or PWM (500Hz) 17 July 25, 2014
How to connect LightPRO (1) - Inside your IOT SSL Driver – simple 3.3V PWM case ANT (2~3.6v) 3.3V DC output 3.3V PWM (Pin 14, 500Hz) G N D PWM dimming control input SSL DRIVER +3.3V +-10% NXP LightPRO In this example, we show how to interface to a SSL Driver that accepts 0 to 3.
How to connect LightPRO (2) - Inside your IOT SSL Driver – simple 12V PWM case ANT (2~3.6v) LDO ~12-15V 12V DC output Pin 14 3.3V PWM 500Hz G N D ~12V PWM 500Hz PWM dimming control input SSL DRIVER +3.
How to connect LightPRO (3) - Inside your IOT SSL Driver: 0-10V analog control case ANT (2~3.6v) LDO ~12-15V 15V DC output Pin 15 3.3V PWM 100kHz G N D 0-10V Analog Control 0~10V Analog Control Signal SSL DRIVER +3.3V +-10% NXP Light Pro Use low power rail to rail input and output opamp e.g. LT1006 or similar.
LightPRO module Pins – Top View LightPRO module is FCC Approved 500Hz PWM 100kHz PWM Monitor 0V 16 = +3.
Function 0V 0V +3.3V 100 kHz PWM 500 Hz PWM Monitor LightPRO Module Electrical Connections Pin Number Comments 17 Both pins 17 and 18 must be connected to 0V 18 16 +‐ 10% at 25mA 15 0 to +3.3V PWM used to develop 0‐10V analog diming signal 14 0 to +3.3V low frequency PWM signal 27 Monitor signal ‐ interface to LED via transistor buffer Note that the PWM output signals are 0 to +3.3V.
LightPRO module – General Guidelines Ensure the power supply entering the module is clean and stable. If there are long traces between the +3.
Testing your SSL driver with LightPRO module Use the small reference network provided in the LightPRO Developers Kit (2 lamps, 1 x gateway and 1 x remoter) plus an Android Smart Phone or an Android Tablet Get your module to join the network – this verifies that the RF section of the system is operational Check that the module functions all operate – this verifies that hardware interface and application software layer is operating correctly 24 Subject / Department / Author - July 25, 2014
Where to buy LightPRO module and the other parts? LightPRO Module: From distributors SAC, Zenitron, EDOM, Future, Arrow, WPI, ZLG Gateway: Liseng Remote Control: NXP (more suppliers in Q2) Sensors: Coming in Q2 (light and occupancy) 25 Subject / Department / Author - July 25, 2014
FCC Statement: This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.