SWRU351A
October 2013
ZigBee Light Link Development Kit Quick Start Guide
Opening the box and setting up a ZLL network
1. Kit Contents
2. Regulatory Information
3. Purpose of the Kit
The Zlight2 boards and the Remote control are FCCand IC certified and they are tested to comply with
ETSI/R&TTE over temperature from 0 to +35°C. The
Remote control has an on-board inverted F PCB
antenna while the Zlight2 has an on-board half wave
dipole PCB antenna.
The CC2531 ZigBee Light Link (ZLL) development kit
is intended for customers who would like to evaluate
ZLL lighting control for LED light products, and
develop simple applications and demonstrators
based on this standard.
FCC/IC Regulatory Compliance
FCC Part 15 Class A Compliant
IC ICES-003 Class A Compliant
3 x Zlight2 LED boards
1 x Remote Control
1 x CR2025 Battery
3 x micro-USB cables
Documentation
Caution! The kit contains ESD sensitive
components. Handle with care to prevent
permanent damage.
4. Operating the Zlight2
5. Powering the Boards
RISK GROUP 2
CAUTION
Caution! To minimize the risk of
fire or equipment damage, make
sure that ambient temperature air
is allowed to circulate freely
around the Zlight2 board when
operating. Avoid touching components during
operation if symbolized as hot. A thermal shutdown
routine is implemented in the included firmware
running on the lights. Always make sure that this
routine is implemented if you flash your own
firmware. The easiest way to do that is to base it
on ZStack-Lighting-1.0.2 or later releases from
Texas Instruments.
Caution! DO NOT STARE
DIRECTLY INTO THE LED
LIGHT SOURCE. Intense light
sources have a high secondary
exposure potential due to their
blinding effect. A temporary reduction in visual
acuity and afterimages can occur, leading to
irritation, annoyance, visual impairment, and even
accidents, depending on the situation. Always
consider the use of light filtering/darkening
protective eyewear and be fully aware of
surrounding laboratory type set-ups when viewing
intense light sources to minimize/eliminate such
risks in order to avoid accidents related to
temporary blindness.
The kit contains everything needed to set up a ZLL
network and control the lights individually or as a
group. It’s also possible to extend the kit with more
HW to allow cloud based control solutions such as
Ninja
blocks
(http://www.ninjablocks.com/).
Information about this can be found by following the
links supplied at the end of the document.
Possible hazardous optical radiation
emitted from this product.
Do not stare at operating lamp. May be
harmful to eyes.
Do not stare at operating LEDs
(Risk Group 1 (RG1) @ 0.9m)
Per IEC 62471 ed 1.0: 2006-07 (“Photobiological Safety
of Lamps and Lamp Systems”) this product has been
classified in Risk Group 2. Products classified as Risk
Group 2 do not pose a hazard due to the aversion
response to very bright light sources or due to thermal
discomfort.
It should be noted that INTENTIONALLY staring at the
lamp for extended lengths of time from short distances
could lead to a potential risk of eye damage due to a
retinal blue-light hazard. In order to reduce the potential
of exposure to a retinal blue-light hazard, the operator
must avoid any direct view of the LEDs while in
operation, from a distance of 0.9m, or closer.
The Zlight2 boards are powered through the USB
connector. It is recommended that they are powered
from a dedicated USB power supply capable of
supplying 800mA and max 5.5V.
External Power Supply Requirements:
Nom Voltage: 5 VDC
Max Current: 800 mA
Efficiency Level V
Note! When using an external power supply, make sure it meets
the listed requirements in addition to complying with applicable
regional product regulatory and safety certification requirements
such as UL, CSA, VDE, CCC, and PSE.
The Remote control is powered by a 3V CR2025
battery (included). Do not use other battery types.
Battery Requirements:
CR2025 UL Recognized Component Battery
Voltage: 3 V
Min Capacity: 165 mAh
NOTE: Only use Varta or Energizer CR2025 battery or equivalent.
Connect the Zlight2 boards to your USB power
supply using the supplied cables.
Insert the CR2025 battery into the
remote
control.
Follow
the
instructions on the back of the
remote for correct placement.
6. Starting the Network
Starting the Network (cont.)
7. Operating the Zlight2
In ZLL, the process of pairing a new lamp with
a remote control is called touch linking.
To confirm a successful touch link, you may press the
“on” button, and then the “off” button, and verify that
the lamp switches on and off accordingly.
Once connected to the ZLL network through touch
linking, the Zlight2s can be controlled with the remote
control. The remote control will always address a
target, which can be an individual lamp, or a group of
lamps.
Touch link the first Zlight2 board by holding
the remote control close and simultaneously
pressing the “on” and “off” buttons.
Quickly release both buttons. After a few
seconds, the Zlight2 will flash, and the remote
control will give a short beep.
Continue by touch linking the remaining 2 Zlight2
boards, one at a time.
Note that if the two buttons are pressed with too much
time difference, the “on” or “off” command will be sent
to the previously touch linked Zlight2 instead of
initiating a new touch link command. Try again.
Lamp 2
…
…
Lamp N
Lamp 1
RC Group
(unique to
the remote)
Use the < > buttons to select target
Figure 1: Touch Link
Please turn the page
Operating the Zlight2 (cont.)
Operating the Zlight2 (cont.)
The touch link operation, in addition to
bringing the Zlight2 on to the ZLL network,
also adds it to the remote control’s own
group, the RC Group. When more than one
lamp is on the network, repeatedly pressing
the
or
button on the remote will cycle
through all the individual lights, and the RC
Group, in a circular manner ( > cycles
clockwise and < cycles counter-clockwise).
You can now control level, color and saturation on all
the lamps. The on/off commands will also be sent to
the RC Group.
The lamps will blink to identify when they are
selected, and the next command will be sent
to the last selected target. Select RC Group
by pressing the left or right arrow button until
all the lamps blink simultaneously to identify.
Level up: Increase intensity
Level down: Decrease intensity
Color (Hue) up: Change colour
Color (Hue) down: Change colour
Sat up: Increase saturation (“more color”)
Sat down: Decrease saturation (“more white”)
8. Next Steps
For more advanced use and colour control, go to the
TI ZigBee Light Link wiki page by following the link
found at the end of this document.
Note: Changing the color (hue) will not produce a
visible change in the light if the Saturation is set to
minimum, i.e. white light.
Additional Tools and Links
CC debugger
SmartRF Flash Programmer
IAR Embedded Workbench
The CC debugger is a tool that allows you to flash
and debug the Zlight2 using SmartRF Flash
Programmer or IAR Embedded Workbench. It
connects to a USB port on your PC and to the
debug header on the Zlight2 board.
Texas Instruments has a simple tool which can
be used to program and flash the Zlight2.
To develop software, program, and debug the
Zlight2, you should use IAR Embedded
Workbench for 8051.
CC2531 USB dongle
The CC2531 USB dongle plugs into a Linux or
Windows host and can serve as a gateway for
cloud based lighting
control.
SmartRF
Flash
Programmer
can
be
downloaded
from
www.ti.com/tool/flashprogrammer
Useful Links
Useful Links
TI ZigBee Light Link wiki page:
Kit Product Page
http://www.ti.com/tool/cc2530zdk-zll
More information on IAR EW8051, including a free
evaluation version download, can be found at
www.iar.com/ew8051.
http://processors.wiki.ti.com/index.php/ZStackLighting_Kit
CC2530 and CC2531 User’s Guide
http://www.ti.com/lit/swru191
For additional help, visit the TI E2E Forum
www.ti.com/lprf-forum
The Zlight2 lights supplied in this kit are powered by OSLON LEDs from Osram. Please visit the LED Light for you web
site to learn more about LED lighting and ZigBee Light Link wireless control examples.
http://www.ledlightforyou.com/Partners/Highlights/en-ZigBee-Lighting-Control.php
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