LeafNut Technical Brochure

CMS and Outdoor Range
About us
Overview
Having celebrated its 20th year in 2013, Harvard is a world leader in the
design, development and manufacture of power and control products
for the lighting industry.
LeafNut is a wireless control and monitoring system for outdoor and
street lighting applications. The award winning solution provides users
with the ability to make savings by reducing carbon emissions and
lowering energy usage.
Products include EyeNut, the new ingenious control and management
system for indoor lighting; the innovative range of CoolLED drivers; the
award winning revolutionary LeafNut system for wireless control and
monitoring of street lighting; and the high quality CustomLED design
and placement service.
Harvard works with its customers to achieve the best lighting solutions
with efficient, standard and customised products; for commercial,
retail, emergency, and street lighting applications. All Harvard’s
products are researched, developed and manufactured in the UK.
The system uses WiMAC protocol Central Management System (CMS)
technology to remotely manage and control the output of individual
lighting points, using a combination of GPRS and radio frequency.
Each light can be dimmed using automatic profiles to match the specific
requirements of the surrounding area throughout the night. At the
users command, such as in the event of an emergency, lights can be
brought back up to full brightness at the touch of a button, from either a
computer, laptop, tablet or smartphone.
Every lighting point within the inventory is remotely monitored, with
any faults being reported to the specified user(s) via scheduled email.
Reports detailing the energy usage of each light, or a particular group
of lights, are also available.
So far, LeafNut has been successfully installed by over 100
organisations across the world and is used to realise significant cost
savings and reductions in carbon emissions.
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LeafNut at work
Nodes
Each lantern has its own Node installed which can control either a WiMAC enabled
ballast and driver, or any other conventional control gear for switching up to 400w
or dimming through DALI and 1-10v Analogue protocol.
Nodes available include: LeafNode, RetroNode, UniNode, MagNode and NEMANode
BranchNode
This is the main control unit of the LeafNut system out in the field. It communicates
bi-directionally through Radio Frequency with 256 Nodes. The Branchnode contains
a photocell and GPS locator, and has a typical urban range of 1km and a rural range
of up to 8km where clear line of sight is available.
Trunk
The trunk is where users access and manage their LeafNut system. The LeafNut
remote monitoring system can be managed wirelessly by laptop or desktop computer
from anywhere in the world. It uses sophisticated ground-breaking WiMAC Central
Management System (CMS) technology, which provides the operator with a secure
Internet connection so nodes can be commissioned, assigned to a dimming profile
and report back in a matter of minutes.
Integration
Users receive scheduled reports by email and can integrate the LeafNut system directly with their current Asset Management
System to keep a comprehensive inventory. Users will also receive training and support from the LeafNut Support team on
any required aspect of the system.
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Features
Energy consumption
Diagnostics made easy
Lowering carbon emissions by reducing energy consumption
has become a major priority for Local Authorities with the
introduction of the Carbon Reduction Commitment.
The mapping tool, which is integrated
with Google Maps, allows users to
easily view their entire lighting stock. This simplifies the
process of plotting and managing installations as well as
organising maintenance schedules. LeafNut also provides
detailed and relevant report summaries to allow quick and
easy viewing of filtered events. Time profiles have been
enhanced to provide bespoke daily time profiles, allowing
different schedules for festivity lighting, bank holidays
and local events, which can be be planned up to a year in
advance. This gives more flexibility and allows for more
effective planning of lighting schedules.
Most of the street lights in the UK are powered by
an unmetered supply, which means that the energy
consumption cannot be accurately metered. A feature of
LeafNut is its ability to provide energy consumption data
directly to the appointed meter administrator, as well as
scheduled reports to the end user.
Monitoring and control
LeafNut cleverly allows street lighting engineers to securely
monitor and control street lighting stock from anywhere in
the world by using the internet. Management information is
exchanged between the LeafNut enabled control gear and
the central server, which means that users can identify:
lamp problems in advance, on/off and end of life issues,
predict lamp failure and create maintenance routines.
There is a wide range of possible dimming and switching
programmes available and no limit to the number of
grouping configurations.
WiMAC protocol
LeafNut operates by using the WiMAC protocol and is fully
compatible with other WiMAC based Central Management
Systems (CMS), which enables the user to choose between
vendors. This gives Local Authorities the freedom and
flexibility to procure hardware from a number of sources
and gives them the peace of mind that throughout the
lifetime of the product, they have a number of support
options.
Tools designed for simplicity
Robust
The system has been developed by working closely with
Local Authorities to understand their specific requirements,
and has been rigourously tested in field trials to ensure it
is robust. LeafNut is now widely deployed across the UK.
Scalability
Modular by design, LeafNut has been deployed in many
places, from small car parks and highways, to mountain
top villages and city wide installations, demonstrating that
it is easily scalable.
WiMAC, the Central Management System (CMS)
behind LeafNut, has developed a PDA tool to
speed up and simplify the installation of LeafNut.
The PDA is a battery-operated handheld tool that allows
engineers to automate the installation process. They can
also manage, install and verify hardware on the system,
meaning each column only needs to be visited once during
installation, saving time and money.
Easy to retrofit
Accessibility and control
Integrates with AMS
Once installed users can continuously monitor
their LeafNut system via a Mobile Android App to
manage summaries and performance statistics.
Full on-site training provided
LeafNut Support Team available
The Android device is a trademark of Google Inc.
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Switching, Dimming and Metering Platforms
10V lights are on 100% and at 5V
advice on specific UMS related
lights are on 50%. Analogue drivers
matters.
DALI drivers provide full DALI dimming
can also be used for fixed output
Street lighting in the UK is unmetered,
support from 100% to 1% (depending
where customers need to reduce the
therefore any component that is to
on driver capability) and have the
output current to meet their needs.
be used in street lighting must be
ability to switch completely off.
This is achieved by placing a resistor
submitted to Elexon for approval.
Customers have the ability to control
across the 1-10 input.
Each component is tested to confirm
individual LED luminaires or specified
the energy usage at different power
groups. DALI also provides fault
SmartNight
factors. Once a component has
reporting on up to 64 devices of which
passed the tests and Elexon are
With programmable and pre63 can be drivers with one controller.
satisfied, it will be awarded a unique
programmed drivers, lighting can
charge code, also known as an
be dimmed using pre-set levels,
UMSUG code.
providing the customer with a
A charge code is a 13 digit number
reduction in power usage. The pre
assigned to apparatus that UMS
programmed drivers can be dimmed
LeafNut
customers, such as local authorities,
to 50% or 75% for 6, 8 or 10 hours,
The LeafNut platform, which uses the
use in their lighting inventory when
and the programmable versions
WiMAC protocol, makes it possible to
submitting energy usage.
can be programmed with up to 8
remotely manage and control outdoor
Charge codes are used with an
unique dimming levels, down to 5%
lighting. Luminaries can be controlled
equivalent meter, such as LeafNut,
(depending on driver capability) from
through dimming profiles or switched
to calculate volumes of electricity
a PC and SmartNight programmer.
off completely.
consumed in order to provide a more
accurate energy bill for UMS.
Charge Codes
LeafNut generates a daily report that
An Unmetered Supply (UMS) is any
calculates total energy usage over a
1-10V
electronic equipment that draws
24-hour period (pseudo or equivalent
a
current
and
is
connected
to
the
metering). This is done through
Distribution
Network
without
a
calculating switching times (recorded
1-10V/0-10V Analogue Dimming –
meter
recording
its
actual
energy
in the BranchNode) and dimming
EN60292 ANNEX E
consumption.
commands set in 7-day profiles. This
Analogue 0-10V and 1-10V drivers
The Unmetered Supplies Operator
report is automatically submitted to
provide linear dimming from a
(UMSO) provides the UMS service
a Meter Administrator daily, who use
conventional 0-10V or 1-10V dimmer.
on behalf of a distributor, and the
the information to provide energy
Analogue drivers measure voltage
Unmetered Supplies User Group or
billing on behalf of a local authority.
at the control input to manage the
UMSUG (part of the Elexon governing
*For more information on charge codes, please visit
intensity of the light, for example at
body) is an expert group that provides www.elexon.co.uk
DALI Dimming – EN62386-207
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March 2014 Edition
Features
Switchable
Hot Plug
These allow users to be able to have
one driver that can switch between
two or more pre-determined current
outputs, for use with similar light
fittings with different power needs.
This is when an output over-current
occurs, if the LED is turned on or
plugged into an energized driver.
Most of our drivers have built in
protection to limit the over current
and protect LEDs.
Resistive Programming
This involves placing a resistor
between two terminal blocks, to set
a lower output current as required by
the application.
Auxiliary Fan Output
Auxiliary Fan output is available
factory set to 5V or 12V output and
can provide 1 or 2 watts of power
depending on model.
Negative Temperature Co-efficient
(NTC)
Helping to prevent light engines from
overheating this thermal protection
component measures the temperature
of the light engine, to detect
overheating of its LEDs. If the light
engine reaches a high temperature
that could damage the LEDs, the NTC
adjusts the current to a lower level
until a more acceptable temperature is
reached. If the light engine continues
to overheat it will cut the current
therefore switching off the light
engine and protecting the LED’s until
it cools down*.
*CLH platform only
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TALQ Consortium
Compliance standards
CE
CE marking is the manufacturer’s declaration that the product meets the
requirements of the applicable EC directives. In order to meet these directives
our products are designed to European EN Standards.
ENEC – European Norms Electrical Certification
The ENEC mark complements the CE mark and signifies that products have
been tested for compliance with the relevant European product safety and
performance standards.
Testing takes place in independent ENEC Approved Testing Laboratories. There
are 24 laboratories in whole of Europe with the licence to grant the ENEC mark.
Many of our LED drivers supplied into the European market carry the ENEC
mark, which is widely recognised for lighting products in Europe.
ENEC LED Driver Requirements:
Safety EN61347-2-13:2006, EN61347-1:2007
Performance EN62384:2006+A1:2009 (1st Edition)
E33790
UL – Underwriters Laboratories
UL is an independent US based organisation, which develops product safety
standards for the North American market. Harvard products, which are 120V,
277V or Universal input, are designed to meet the relevant UL safety standards.
Many of these products have been tested by UL and carry the “UL Recognized“
mark. Some North American products have also been assessed to Canadian
(CSA) Standards and are marked cRU.
UL LED Driver Requirements:
UL8750, UL1310, UL60950-1
CSA-C22.2 NO. 250.13-12, CSA-C22.2 NO. 223-M91(R2008)
TALQ is a global consortium initiated by companies from the lighting industry,
with the aim of creating a globally accepted open standard for a management
software interface for outdoor lighting networks.
TALQ was founded to accelerate the adoption of outdoor lighting networks, in
order to provide energy savings and CO2 reduction, improved monitoring and
maintenance, highly adaptive and programmable controls, and simplified data
collection. The consortium also strives to enable system interoperability and
avoid the perception of vendor lock-in.
The scope of the Consortium is:
• The TALQ Consortium will standardise the application protocol at the
interface between the Central Management System (CMS) and Outdoor
Lighting Networks (OLN)
• TALQ will deliver a software protocol specification for this interface that
covers parameters and behaviour of end-points at the OLN and CMS side,
needed for interoperability at application level
• TALQ shall not specify any physical aspect of the connection or connectivity
• TALQ shall not specify how to achieve the required illumination behaviour
• TALQ shall allow for vendor specific function or feature implementations
of the local/segment controllers and management systems, fostering
competition and differentiation of vendors
As one of the founding companies of the consortium, Harvard Engineering is
keen to promote interoperability and simplified data collection, ensuring that
users have a fully endorsed lighting controls solution.
C Tick
The Australian government requires that all imported or locally produced
electrical and electronic equipment comply with electromagnetic compatibility
(EMC) emission requirements.
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Platforms
Platforms
LED
LED
CL33W Standard Hybrid
CLQ Twin Channel
Part Number
Output
Current
Min Vf
Max Vf
Max Power
Power Factor
Efficiency
Dimming
Range (Stand
Alone)
Dimming
Range (with
CMS)
Part Number
Output Current
Min Vf
Max Vf
Max Power
Power
Factor
Efficiency
Dimming
Range (Stand
Alone)
Dimming
Range (with
CMS)
CL350-240-AB-CC
350mA
9V
48V
17W
0.98
88%
N/A
N/A
CLQ2700S-240-B/C
700mA/350mA
12V
48V
2x 33W/17W
0.98
89%
N/A
N/A
CL500-240-AB-CC
500mA
9V
48V
24W
0.98
88%
N/A
N/A
CLQ21000S-240-B/C
1000mA/500mA
12V
33V/48V
2x 33W/24W
0.98
89%
N/A
N/A
CL700-240-AB-CC
700mA
9V
48V
33W
0.98
88%
N/A
N/A
CLQ21000S2-240-B/C
1000mA/700mA
12V
33V/48V
2x 33W
0.98
89%
N/A
N/A
CL1000-240-AB-CC
1000mA
9V
33V
33W
0.98
88%
N/A
N/A
Max. Dimensions
AB-style: 31.5 x 150 x 32
CLQ2700S-UNI-B/C
700mA/350mA
12V
48V
2x 33W/17W
0.98
89%
N/A
N/A
CLQ21000S-UNI-B/C
1000mA/500mA
12V
33V/48V
2x 33W/24W
0.98
89%
N/A
N/A
CLQ21000S2-UNI-B/C
1000mA/700mA
12V
33V/48V
2x 33W
0.98
89%
N/A
N/A
Unique features
• 2 output channels up to 33W each
• Optional conformal coating
• Switchable
Max. Dimensions
B-style: 32.2 x 116 x 76.2
C-style: 32.2 x 147 x 76.2
CLQ Single Channel
CLP Twin LeafNut Enabled
Part Number
Output Current
Min Vf
Max Vf
Max Power
Power Factor
Efficiency
Dimming
Range (Stand
Alone)
Dimming
Range (with
CMS)
CLQ1050-240-59V-B/C-CC
1050mA
12V
59V
62W
0.98
88%
N/A
N/A
CLQ21-240-B/C
2100mA
9V
29.5V
62W
0.98
89%
N/A
N/A
CLQ21-UNI-B/C
2100mA
9V
29.5V
62W
0.98
89%
N/A
N/A
Max. Dimensions
B-style: 32.2 x 116 x 76.2
C-style: 32.2 x 147 x 76.2
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March 2014 Edition
Unique features
• Up to 62W of power
• Optional conformal coating
• Surge protection up to 4kV
Part Number
Output Current
Min Vf
Max Vf
Max Power
Power
Factor
Efficiency
Dimming Range
(Stand Alone)
Dimming Range
(with CMS)
CLP2-350-240-B-CC-WM
2x 350mA
18V
48V
2x 17W
0.95
85%
N/A
25-100%
CLP2-500-240-58-B-CC-WM
2x 500mA
20V
58V
2x 29W
0.95
85%
N/A
25-100%
CLP2-700-240-B-CC-WM
2x 700mA
18V
48V
2x 33W
0.95
89%
N/A
25-100%
Max. Dimensions
B-style: 34.5 x 116.5 x 81.5
Unique features
• WiMAC enabled
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Platforms
Platforms
LED
LED
CLP LeafNut Enabled 88V
CLH150W WiMAC Enabled
Part Number
Output
Current
Min Vf
Max Vf
Max Power
Power
Factor
Efficiency
Dimming Range
(Stand Alone)
Dimming Range
(with CMS)
Part Number
Output Current
Min Vf
Max Vf
Max
Power
Power
Factor
Efficiency
Dimming Range (Stand
Alone)
Dimming Range
(with CMS)
CLP2-350-88V-240-B-CC-WM
2x 350mA
44V
88V
2x 31W
>0.9
90%
N/A
25-100%
CLH150-500S2-305-B-CC-WM
500mA/350mA
80V
300V/430V
150W
>0.95
92%
N/A
5-100%
CLP-350-88V-240-B-CC-WM
350mA
44V
88V
31W
>0.9
87%
N/A
25-100%
CLH150-700S2-305-B-CC-WM
700mA/500mA
55V
215V/300V
150W
>0.95
92%
N/A
5-100%
CLH150-1000S2-305-B-CC-WM
1000mA/700mA
40V
150V/215V
150W
>0.95
92%
N/A
5-100%
Power
Factor
Efficiency
Dimming Range (Stand
Alone)
Dimming Range
(with CMS)
CLP-500-88V-240-B-CC-WM
500mA
44V
88V
44W
>0.9
88%
N/A
25-100%
CLP-700-88V-240-B-CC-WM
700mA
44V
88V
62W
>0.9
88%
N/A
25-100%
Max. Dimensions
B-style: 32.2 x 116 x 76.2
C-style: 32.2 x 147 x 76.2
Unique features
• 2 output channels up to 33W each
• Optional conformal coating
• Switchable
Max. Dimensions
B-style: 42.48 x 169 x 100
Unique features
• Switchable, resistive, NTC
CLH150W Analogue 1-10V
Part Number
CLP Twin SmartNight
Output Current
Min Vf
Max Vf
Max
Power
Part Number
Output
Current
Min Vf
Max Vf
Max
Power
Power
Factor
Efficiency
Dimming Range
(Stand Alone)
Dimming Range
(with CMS)
CLH150-500S2A-305-B-CC-WM
500mA/350mA
80V
300V/430V
150W
>0.95
92%
5-100%
N/A
CLH150-700S2A-305-B-CC-WM
700mA/500mA
55V
215V/300V
150W
>0.95
92%
5-100%
N/A
CLP2-350-58V-240-B-CC-SN*
350mA
18V
58V
2x 20W
0.95
85%
Via SmartNight profile
N/A
CLH150-1000S2A-305-B-CC-WM
1000mA/700mA
40V
150V/215V
150W
>0.95
92%
5-100%
N/A
CLP2-350-58V-240-B-CC-SNR
350mA
18V
58V
2x 20W
0.95
85%
Via SmartNight profile
N/A
CLP2-500-58V-240-B-CC-SN*
500mA
18V
58V
2x 24W
0.95
86%
Via SmartNight profile
N/A
CLP2-500-58V-240-B-CC-SNR
500mA
18V
58V
2x 24W
0.95
86%
Via SmartNight profile
N/A
CLP2-700-240-B-CC-SN*
700mA
18V
48V
2x 33W
0.95
88%
Via SmartNight profile
N/A
CLP2-700-240-B-CC-SNR
700mA
18V
48V
2x 33W
0.95
88%
Via SmartNight profile
N/A
CLP2-1000-240-B-CC-SN*
1000mA
18V
33V
2x 33W
0.95
87%
Via SmartNight profile
N/A
CLP2-1000-240-B-CC-SNR
1000mA
18V
33V
2x 33W
0.95
87%
Via SmartNight profile
N/A
CLP Twin SmartNight with WiMAC Override
Max. Dimensions
B-style: 42.48 x 169 x 100
Unique features
• Switchable, resistive, NTC
• 1-10V dimming
• Dimming range 5-100%
CLH150W DALI
Part Number
Output Current
Min Vf
Max Vf
Max
Power
Power
Factor
Efficiency
Dimming Range (Stand
Alone)
Dimming Range
(with CMS)
CLH150-500S2D-305-B-CC-WM
500mA/350mA
80V
300V/430V
150W
>0.95
92%
5-100%
N/A
CLP2-700-240-B-CC-SN*-WM
700mA
18V
48V
2x 33W
0.95
89%
Via SmartNight profile
25-100%
CLH150-700S2D-305-B-CC-WM
700mA/500mA
55V
215V/300V
150W
>0.95
92%
5-100%
N/A
CLP2-700-240-B-CC-SNR-WM
700mA
18V
48V
2x 33W
0.95
89%
Via SmartNight profile
25-100%
CLH150-1000S2D-305-B-CC-WM
1000mA/700mA
40V
150V/215V
150W
>0.95
92%
5-100%
N/A
Max. Dimensions
B-style: 34.5 x 116.5 x 81.5
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March 2014 Edition
Unique features
• Dimming range 5-100%
Max. Dimensions
B-style: 42.48 x 169 x 100
Unique features
• Switchable, resistive, NTC
• 1-10V dimming
• Dimming range 5-100%
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Platforms
LED
CLP Twin Analogue 1-10V
Part Number
Output Current
Min Vf
Max Vf
Max
Power
Power
Factor
Efficiency
Dimming Range
(Stand Alone)
Dimming Range
(with CMS)
CLP2-350A-58V-240-B/C
2x 350mA
18V
58V
2x 17W
0.95
88%
5-100%
N/A
CLP2-500A-58V-240-B/C
2x 500mA
18V
58V
2x 24W
0.95
88%
5-100%
N/A
CLP2-700A-240-B/C
2x 700mA
18V
48V
2x 33W
0.95
88%
5-100%
N/A
CLP2-1000A-240-B/C
2x 1000mA
18V
33V
2x 33W
0.95
88%
5-100%
N/A
Unique features
• Smooth turn on
• Faster turn on at low dimming levels
• 1-10V dimming
Max. Dimensions
B-style: 34.5 x 116.5 x 81.5
C-style: 34.5 x 142.5 x 81.5
CLP Twin DALI
Part Number
Output Current
Min Vf
Max Vf
Max Power
Power
Factor
Efficiency
Dimming Range
(Stand Alone)
Dimming Range
(with CMS)
CLP2-350D-58V-240-B/C
2x 350mA
18V
58V
2x 17W
0.95
86%
5-100%
N/A
CLP2-500D-58V-240-B/C
2x 500mA
18V
58V
2x 24W
0.95
87%
5-100%
N/A
CLP2-700D-240-B/C
2x 700mA
18V
48V
2x 33W
0.95
88%
5-100%
N/A
CLP2-1000D-240-B/C
2x 1000mA
18V
33V
2x 33W
0.95
88%
5-100%
N/A
Max. Dimensions
B-style: 34.5 x 116.5 x 81.5
C-style: 34.5 x 142.5 x 81.5
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March 2014 Edition
Unique features
• Smooth turn on
• Intelligent load detection when load to each output is unbalanced
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Platforms
Platforms
Fluorescent
Fluorescent
Compact Fluorescent CDX LeafNut Enabled Ballast
Compact Fluorescent WDX LeafNut Enabled Ballast
Part Number
Lamp
Type
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with CMS)
Compliance
Part Number
Lamp
Type
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with CMS)
Compliance
CDX18-240-CC-WM
18W
PLL
18W
50Hz - 60Hz
>460
-20°C to 50°C
0.95
82%
N/A
100-50%
(lumens)
WDX42-240-B-CC-WM
42W
PLT
47W
50Hz 60Hz
>575
-20°C to 50°C
0.95
87%
N/A
100-50%
(lumens)
CDX36-240-CC-WM
36W
PLL
35W
50Hz - 60Hz
>460
-20°C to 50°C
0.95
87%
N/A
100-50%
(lumens)
EN61347-1
EN61347-2-1
CE
EN61347-1
EN61347-2-1
CE
CDX55-240-CC-WM
55W
PLL
60W
50Hz - 60Hz
>460
-20°C to 50°C
0.95
90%
N/A
100-50%
(lumens)
Max. Dimensions
36.7 x 144 x 91
Max. Dimensions
30 x 212 x 43.9
Compact Fluorescent WDX SmartNight LeafNut Enabled Ballast
Part Number
Lamp
Type
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with CMS)
Compliance
WDX42-240-B-CC-SN6-50-WM
42W
PLT
47W
50Hz 60Hz
>575
-20°C to 50°C
0.95
87%
N/A
100-50%
(lumens)
EN61347-1
EN61347-2-1
CE
Compact Fluorescent CDX SmartNight LeafNut Enabled Ballast
Part Number
Lamp
Type
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with CMS)
Compliance
CDX18-240-CC-SN6-50-WM
18W
PLL
18W
50Hz 60Hz
>460
-20°C to 50°C
0.95
82%
N/A
100-50%
(lumens)
CDX36-240-CC-SN6-50-WM
36W
PLL
33W
50Hz 60Hz
>460
-20°C to 50°C
0.95
87%
N/A
100-50%
(lumens)
EN61347-1
EN613472-1
CE
CDX55-240-CC-SN6-50-WM
55W
PLL
55W
50Hz 60Hz
>460
-20°C to 50°C
0.95
90%
N/A
100-50%
(lumens)
Max. Dimensions
36.7 x 144 x 91
Max. Dimensions
30 x 212 x 43.9
18
March 2014 Edition
19
Platforms
Platforms
LeafNut
LeafNut
BranchNode
MagNode
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Leaf
Communications
Operating
Frequency
Compliance
Power Supply
Requirements
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Power
Supply
Requirements
Max
Load
Standby
Power
Consumption
WMBN-868GB
20mm
hole,
nut and
sealing
washer
provided
Externally
sealed
enclosure /
Maintains
Luminaire
Integrity
Rugged
polycarbonate
enclosure
with windage
of 0.0178m².
Internal photocell adjustable
18 to 105 Lux.
Quad band
GSM/GPRS
communication
via integral
antenna.
Connects
directly to
a range of
WiMAC enabled control
gear, or can
supported remotely using
the LCMPU
mains power
unit (sold
seperately).
-20°C to +55°C
WiMAC 868 or
WiMAC 915
pseudo random
channel hopping
system
868MHz or
915MHz
FM narrow
band
EN300 220 /
REC 70-03
Supplied from
a WiMAC enabled ballast
or the LCMPU
mains unit.
WMMAGN
-240-868
20mm
hole,
nut and
sealing
washer
provided
Conformal
coating
on PCB /
Maintains
Luminaire
Integrity
Polycarbonate
Connects directly to any
conventional
control gear
50W to 400W
or 5W to 50W
for LP
-20°C to
+55°C
WiMAC
868
pseudo
random
channel
hopping
system
868MHz
FM narrow
band
EN300 220
/ REC 70-03
220V-240VAC
50Hz
400W @
55°C
0.5 Watt
WMBN-868EUR
WMBN-915ANZ
WMBN-915USA
Max. Dimensions
150 x 135
Annex1 (g1)
/ FCC Part 15
WMMAGN
-240-915
-ANz
Unique features
• Main control device for up to 256 lighting columns
• Contains a GSM device, UHF communication module, photocell and GPS locator
• 1 BranchNode will support a mixture of types up to 256 nodes
WMMAGN
-240-915
-USA
WMMAGN
-240-915
-USA-LP
Max. Dimensions
40.5 x 124.85 x 70.5
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Power Supply
Requirements
Standby
Power
Consumption
WMLN-868A
20mm
hole,
nut and
sealing
washer
provided
Conformal
coating
on PCB /
Maintains
Luminaire
Integrity
Rugged
PC + ABS
enclosure
Connects
directly to a
range of WiMAC enabled
control gear
-40°C to
+75°C
WiMAC 868 or
WiMAC 915
pseudo random
channel hopping
system
868MHz
FM narrow
band
EN300 220
/ REC 70-03
Supplied from
a WiMAC enabled ballast
1.22 Watt
WMLN-915ANZ
Max. Dimensions
150 x 135
Annex1 (g1)
/ FCC Part
15
WMMAGN
-240-915
-ANz-LP
LeafNode
WMLN-915USA
WMMAGN
-240-868
-LP
Annex1 (g1)
/ FCC Part
15
Unique features
• Suitable for retrofit
• Flying lead connection
• Switching only, non-dimmable
• Variants with -LP suffix are suitable for controlling lower
power LED fixtures> Flying lead connection
Unique features
• Controls any WiMAC enabled Driver or Ballast
• Allows full range dimming in 1% steps
• Suitable for retrofit
• Flying lead connection
Range of 1Km typical urban, up to 8Km line of sight
20
March 2014 Edition
21
Platforms
Platforms
LeafNut
LeafNut
NemaNode
RetroNode
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Power
Supply
Requirements
Max
Load
Standby
Power
Consumption
WMNEMA
-240-868
NEMA
Socket
Hermetically
Sealed
Enclosure
Polycarbonate
Connects directly to any
conventional
control gear
50W to 400W
or 5W to 50W
for LP, via a
Nema socket.
-20°C to
+55°C
WiMAC 868
pseudo random channel
hopping
system
868MHz
FM narrow
band
EN300 220
/ REC 70-03
Annex1 (g1)
/ FCC Part
15
Standard
NEMA fixing,
220V-240VAC
50Hz
400W
@
55°C
0.5 Watt
WMNEMA
-240-868
-LP
WMNEMA
-240-915
-ANz
WMNEMA
-240-915
-ANz-LP
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Power Supply
Requirements
Standby
Power
Consumption
WMLN
-RETRONODE
-868
NEMA
Socket
Hermetically
Sealed
Enclosure
Polycarbonate
Connects
directly to a
range of WiMAC enabled
control gear,
via a Nema
socket.
-40°C to +75°C
WiMAC
868
pseudo
random
channel
hopping
system
868MHz
FM narrow
band
EN300 220
/ REC 70-03
Supplied from
a WiMAC enabled ballast
1.22 Watt
Annex1
(g1)
Unique features
• Suitable for retrofit
• Full LeafNut capabilities through a Nema socket
Max. Dimensions
81 x 135.6
UniNode
WMNEMA
-240-915
-USA
WMNEMA
-240-915
-USA-LP
Max. Dimensions
81 x 135.6
Part Number
Unique features
• Suitable for retrofit
• Switching only, non-dimmable
• Directly replaces a standard NEMA PECU
• Variants with -LP suffix are suitable for controlling lower power LED fixtures
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Power Supply
Requirements
Standby
Power
Consumption
WMUN
-240
-868
20mm
hole,
nut and
sealing
washer
provided
Conformal
coating
on PCB /
Maintains
Luminaire
Integrity
Polycarbonate
Dali, 0-10V &
1-10V Ballast
Drivers
-40°C to
+75°C
WiMAC 868
pseudo random
channel hopping
system
868MHz
FM narrow
band
EN300 220 /
REC 70-03
Annex1 (g1)
EN55015
EN61000
EN60929
Annex G
DALI
220V-240VAC
50Hz
<1.5w (max 2W)
Max. Dimensions
29 x 122 x 82
Unique features
• Suitable for retrofit
• Flying lead connection
Range of 1Km typical urban, up to 8Km line of sight
22
March 2014 Edition
23
Platforms
Platforms
LeafNut
LeafNut
UniNode Gen II Unmetered
SensorNode
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Powe Supply
Requirements
Standby Power
Consumption
WMUN2
-240868
-NM
20mm
hole,
nut and
sealing
washer
provided
Conformal
coating on PCB
/ Maintains
Luminaire
Integrity
Polycarbonate
Dali, 0-10V &
1-10V Ballast
Drivers
-40°C to
+75°C
WiMAC 868
pseudo random
channel hopping
system
868MHz
EN300 220
/ REC 70-03
Annex1 (g1)
EN55015
EN61000
EN60929
Annex G
DALI FCC
Part 15
220V240VAC 50Hz
<1.5w
(max 2W)
Environment
Protection
Housing
Material
Operating
Temperature Range
Branch
Communications
Operating
Frequency
Compliance
Standby Power
Consumption
WMSENS01-868
Conformal coating
on PCB / Maintains
Luminaire Integrity
Polycarbonate
-20°C to +55°C
WiMAC 868 pseudo
random channel
hopping system
868MHz
EN300 220 / REC
70-03 Annex1 (g1)
EN55015 EN61000
<1.5w (max 2W)
Unique features
• Allows automated control of lighting through presence detection
• Acts as a configurable timer to override a group profile upon presence detection
• Requires 1 external presence detection unit to function
• Up to 5 SensorNodes Per BranchNode
Max. Dimensions
29 x 122 x 82
Unique features
• Suitable for retrofit
• Flying lead connection
• Able to control up to 4 identical drivers in the same luminaire where there is a
combined power of 20W-400W
Max. Dimensions
29 x 122 x 82
Part Number
PDA
Part Number
Environment Protection
Operating Temperature Range
LN-PDA
IP65 protection
0°C and +50°C
BranchNode Mains Power Unit
Part
Number
Mounting
Environment
Protection
Housing
Material
Ballast
Compatibility
Operating
Temperature
Range
Branch
Communications
Operating
Frequency
Compliance
Power Supply
Requirements
Standby Power
Consumption
WMUN2
-240
-868
-NM
20mm
hole, nut
and sealing washer
provided
Conformal
coating on PCB /
Maintains Luminaire Integrity
Polycarbonate
Dali, 0-10V &
1-10V Ballast
Drivers
-40°C to
+75°C
WiMAC 868
pseudo random
channel hopping
system
868MHz
EN300 220
/ REC 70-03
Annex1 (g1)
EN55015
EN61000
EN60929
Annex G
DALI FCC
Part 15
220V
-240VAC 50Hz
<1.5w
(max 2W)
Unique features
• Used to support a BranchNode that needs to be mounted in a location remote
from a lighting column
Unique features
• Installation tool to scan node 2D barcodes and pair with Trunk to ensure
cohesive system administration
• Supports lighting inventory upload to match CMS and AMS data from day one
• Rugged design and 1.8m drop tolerance
Sniffer
Part Number
Environment
Protection
Housing
Material
Operating
Temperature Range
Branch
Communications
Compliance
Power Supply
Requirements
WMSNIFF
IP65 protection
Polycarbonate
0°C and +50°C
WiMAC 868MHz compatible
communications
EN300 220 / REC
70-03 Annex1 (g1)
2 x AA batteries (typical
40hrs of use)
Unique features
• Maintenance tool to run diagnostic tests on LeafNodes > 20m+ Range between
NodeSniffer and LeafNode
• BranchNode search to find locally installed BranchNode IDs
Range of 1Km typical urban, up to 8Km line of sight
24
March 2014 Edition
25
Case Study
Westminster - London, UK
Key benefits
As part of its ‘Smart Lights’ project, Westminster City Council
trialled the innovative LeafNut monitoring and control system
for street lighting back in 2008. The trial was so successful that
LeafNut has now been rolled out across Westminster’s 15,000
street lights, in the first major scheme of its kind in the UK.
The City Council previously had
a traditional lighting stock with
a 40 year replacement cycle and
was looking for a solution that
would reduce energy and carbon
use and optimise its lighting
service, improving service delivery.
Westminster also wanted a control
system which would allow engineers
to effectively manage individual
or groups of lights by specifically
adapting light output at specific times
to meet the environment individual
requirements.
The success of the LeafNut installation
by Westminster City Council has been
significant in leading the way for
other councils. LeafNut has now been
installed by approaching 100 local
authorities worldwide, including Zurs
in Austria, Sydney in Australia, Hobart
in Tasmania, and Blackpool in the UK.
26
March 2014 Edition
With the installation of LeafNut, it is
estimated that Westminster is saving
a total of 1.5 million kg of carbon a
year and approximately £420,000 per
year - based on current energy prices.
With energy prices only expected to
increase, the installation is expected
to save £20 million over the next 20
years.
The City Council has adopted the
principles of Ultra Efficient Lighting
(UEL) “right light, in the right place,
at the right time, controlled by
the right systems” and adaptive
lighting strategies will enable the
lighting service to optimise its
delivery realising energy/carbon and
maintenance efficiencies.
In order to control the whole
borough’s street lights, Westminster
has installed over 100 BranchNodes,
each managing upto 256 LeafNodes.
Street lights can be reduced by 25%
in areas where they used to burn
brightly at off peak times, when there
is little activity. Should an accident
or emergency occur however, street
lights can be brought back to full
power at the touch of a button,
using a computer, laptop, tablet or
smartphone.
Another benefit of LeafNut is the
unique reporting feature which
allows engineers to see the status
and power usage of each street light.
This allows maintenance schedules to
be created and night scouting to be
avoided, leading to further savings on
maintenance costs.
“Harvard’s LeafNut system
is enabling Westminster to
transform the public lighting
service. The City Council now
has a dynamic, interactive
lighting solution suitable for the
requirements of one of
the world’s most demanding city’s.
A system that not only meets our
current demands, but will be able
to adapt to future challenges. The
‘end to end’ solution provided
by LeafNut promotes a two way
dialogue ensuring that our needs
are met and any concerns are
addressed directly, with their
ongoing support that is seen as a
significant benefit.”
Dave Franks, chief lighting
engineer at Westminster City
Council
Rolled out across
Westminster’s 15,000
street lights, with over 100
BranchNodes currently
installed controlling the
whole borough.
The potential to reduce
light output by 25%during
off peak times where there
is little activity.
The ability to monitor
and control Lighting from
CCTV control centre or the
Police reports. If levels are
too low managers will be
immediately alerted.
Harvard’s engineers
are constantly working
alongside Westminster’s
street lighting engineers to
ensure smooth running of
the system.
The installation of LeafNut
is expected to save
Westminster City Council
an estimated £20 million
over an anticipated 20 year
product life cycle.
27
Platforms
Platforms
HID
HID
HID 250W Ballast
HID DALI Cosmopolis
Part Number
Power
Rating
Power Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating Temperature Range
Power
Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with
CMS)
Compliance
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with
CMS)
Compliance
CPE250-240-B/CCC-WM
250W
268W
AC45-65Hz
2.7kV Pk
-20°C to +50°C
0.95
93%
No
dimming
via
LeafNut
profile
EN61347-212:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD45-240-B/C-CSCC-DALI
45W
51W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
88%
No
dimming
68-100%
Power
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD60-240-B/C-CSCC-DALI
60W
68W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
88%
No
dimming
60-100%
Power
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD90-240-B/C-CSCC-DALI
90W
97W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
93%
No
dimming
60-100%
Power
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD140-240-B/C-CSCC-DALI
140W
152W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
92%
No
dimming
60-100%
Power
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
(218W @ 75%
dimmed,
177W @ 50% dimmed)
Unique features
• UMSUG approved
• Surge protection up to 4kV
• Ballast can be operated up to 25m away
Max. Dimensions
61.5 x 166 x 98.9
HID DALI SON
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range (Stand
Alone)
Dimming
Range
(with
CMS)
Compliance
HPIDD50-240-B/CCC-DALI
50W
55W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
91%
No dimming
60-100%
Power
EN61347-212:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD70-240-B/CCC-DALI
70W
79W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
87%
No dimming
60-100%
Power
EN61347-212:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD100-240-B/CCC-DALI
100W
109W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
92%
No dimming
60-100%
Power
EN61347-212:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD150-240-B/CCC-DALI
150W
161W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
93%
No dimming
60-100%
Power
EN61347-212:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
Max. Dimensions
36.7 x 144 x 91.2
Max. Dimensions
36.7 x 144 x 91.2
28
March 2014 Edition
29
Platforms
Platforms
HID
HID
CoolPower CPE
HPIDD High Power
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range (Stand
Alone)
Dimming
Range
(with
CMS)
Compliance
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand
Alone)
Dimming
Range
(with CMS)
Compliance
CPE35-240-B/C-CC
39W
45W
AC45 - 65Hz
2.5kV
Peak Sine
wave /
28kHz
-20°C to +50°C
0.95
87%
No dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN55015
HPIDD35-240-B/C-CC
35W
43W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
81%
No
dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
CPE45-240-B/C-CC
45W
51W
AC45 - 65Hz
2.5kV
Peak Sine
wave /
28kHz
-20°C to +50°C
0.95
88%
No dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN55015
HPIDD50-240-B/C-CC
50W
55W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
91%
No
dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD70-240-B/C-CC
70W
79W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
87%
N/A
2.5kV
Peak Sine
wave /
28kHz
-20°C to +50°C
No
dimming
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD100-240-B/C-CC
100W
109W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
92%
No
dimming
N/A
2.5kV
Peak Sine
wave /
28kHz
-20°C to +50°C
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD150-240-B/C-CC
150W
161W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
93%
No
dimming
N/A
2.5kV
Peak Sine
wave /
28kHz
-20°C to +50°C
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD45-240-B-CC-CS
45W
51W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
88%
No
dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD60-240-B-CC-CS
60W
68W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
88%
No
dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD90-240-B-CC-CS
90W
97W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
93%
No
dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD140-240-B-CC-CS
140W
152W
AC45 - 65Hz
2.5kV Pk
-20°C to +50°C
0.95
92%
No
dimming
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
CPE50-240-B/C-CC
CPE60-240-B/C-CC
CPE70-240-B/C-CC
50W
60W
72W
55W
68W
79W
Max. Dimensions
B-style: 32.2 x 111.1 x 76.2
C-style: 32.2 x 145.6 x 76.2
AC45 - 65Hz
AC45 - 65Hz
AC45 - 65Hz
0.95
0.95
0.95
91%
88%
91%
No dimming
No dimming
No dimming
N/A
N/A
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN55015
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN55015
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN55015
Max. Dimensions
B-style: 36.7 x 144 x 91.2
C-style: 36.7 x 171.4 x 91.2
30
March 2014 Edition
31
Platforms
Platforms
HID
HID
HID LeafNut Enabled Ballast
HID SmartNight
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand Alone)
Dimming
Range
(with CMS)
Compliance
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Power
Factor
Efficiency
Compliance
45W
49.3W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
91%
No dimming
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
Dimming
Range
(Stand
Alone)
Dimming
Range (with
CMS)
HPIDD45-B/C-CCCS-WM
Operating
Temperature
Range
HPIDD60-240-B/CCC-SN
60W
68W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
88%
Via SmartNight profile
N/A
HPIDD60-B/C-CCCS-WM
60W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD90-240-B/CCC-SN
90W
97W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
93%
Via SmartNight profile
N/A
HPIDD90-B/C-CCCS-WM
90W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD140-240-B/CCC-SN
140W
152W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
92%
Via SmartNight profile
N/A
HPIDD140-B/C-CCCS-WM
140W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD50-240-B/CCC-SN
50W
55W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
91%
Via SmartNight profile
N/A
HPIDD50-B/C-CC-WM
50W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD70-240-B/CCC-SN
70W
79W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
93%
Via SmartNight profile
N/A
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD100-240-B/CCC-SN
100W
109W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
92%
Via SmartNight profile
N/A
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD150-240-B/CCC-SN
150W
161W
AC45 - 65Hz
2.5kV pk
-20°C to
+50°C
0.95
93%
Via SmartNight profile
N/A
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD70-B/C-CC-WM
HPIDD100-B/C-CC-WM
HPIDD150-B/C-CC-WM
70W
100W
150W
68.2W
97.1W
153.2W
57.5W
81.5W
109W
162W
88%
93%
91%
87%
86%
92%
93%
No dimming
No dimming
No dimming
No dimming
No dimming
No dimming
No dimming
Max. Dimensions
B-style: 36.7 x 144 x 91.2
C-style: 36.7 x 171.4 x 91.2
Max. Dimensions
B-style: 36.7 x 144 x 91.2
C-style: 36.7 x 171.4 x 91.2
32
March 2014 Edition
33
Platforms
Platforms
HID
HID
HID Switched Dim
HID SmartNight/LeafNut Enabled Ballast
Part Number
Power
Rating
Power
Consumption
Mains
Frequency
Range
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming Range
(Stand Alone)
Dimming
Range
(with CMS)
Compliance
HPIDD60-240-B/CCC-SD
60W
68W
AC45-65Hz
2.5kV Pk
-20°C to
+50°C
0.95
88%
Via SD Power
N/A
HPIDD50-240-B/CCC-SD
50W
55W
AC45-65Hz
2.5kV Pk
-20°C to
+50°C
0.95
91%
Via SD Power
HPIDD90-240-B/CCC-SD
90W
97W
AC45-65Hz
2.5kV Pk
-20°C to
+50°C
0.95
93%
HPIDD140-240-B/CCC-SD
140W
152W
AC45-65Hz
2.5kV Pk
-20°C to
+50°C
0.95
HPIDD70-240-B/CCC-SD
70W
79W
AC45-65Hz
2.5kV Pk
-20°C to
+50°C
HPIDD100-240-B/CCC-SD
100W
109W
AC45-65Hz
2.5kV Pk
HPIDD150-240-B/CCC-SD
150W
161W
AC45-65Hz
2.5kV Pk
Max. Dimensions
B-style: 36.7 x 144 x 91.2
C-style: 36.7 x 171.4 x 91.2
Part Number
Power
Rating
Power
Consumption
Ignition
Voltage
Operating
Temperature
Range
Power
Factor
Efficiency
Dimming
Range
(Stand Alone)
Dimming
Range
(with CMS)
Compliance
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
Mains
Frequency
Range
HPIDD45-B/C-CC-CSSNR-WM
45W
49.3W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
91%
Via SmartNight
profile
Via LeafNut
profile
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD60-B/C-CC-CSSNR-WM
60W
68.2W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
88%
Via SmartNight
profile
Via LeafNut
profile
Via SD Power
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD90-B/C-CC-CSSNR-WM
90W
97.1W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
93%
Via SmartNight
profile
Via LeafNut
profile
92%
Via SD Power
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD140-B/C-CC-CSSNR-WM
140W
153.2W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
91%
Via SmartNight
profile
Via LeafNut
profile
0.95
91%
Via SD Power
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD50-B/C-CC-SNRWM
50W
57.5W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
87%
Via SmartNight
profile
Via LeafNut
profile
-20°C to
+50°C
0.95
92%
Via SD Power
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD70-B/C-CC-SNRWM
70W
81.5W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
86%
Via SmartNight
profile
Via LeafNut
profile
-20°C to
+50°C
0.95
93%
Via SD Power
N/A
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD100-B/C-CC-SNRWM
100W
109W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
92%
Via SmartNight
profile
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
HPIDD150-B/C-CC-SNRWM
150W
162W
AC4565Hz
2.5kV pk
-20°C to
+50°C
0.95
93%
Via SmartNight
profile
Via LeafNut
profile
EN61347-2-12:2005
EN61000-3-2:2000
EN61000-3-3:2001
EN61547:2000
Max. Dimensions
B-style: 36.7 x 144 x 91.2
C-style: 36.7 x 171.4 x 91.2
34
March 2014 Edition
35
Platforms
Platforms
Gear Trays
RetroLED
Part Number
Lamp Compatibility
Luminous
Flux (lm)*
In (V)
In (mA)
System
Power
(W)
Power
Factor
Efficacy
(lm/W)
Product Title
Part Number
Gear Tray
Arc Indal
Gear Tray
ZX-1 Urbis
RetroLED35 lensed
Thorn Beta 5, Philips MI26
1,620
220-240
350
15.6
0.98
104
Gear Tray
ZX-2 Urbis
RetroLED35 lensed DALI
Thorn Beta 5, Philips MI26
1,620
220-240
350
15.6
0.96
104
Gear Tray
ZX-3 Urbis
Images unavailable
RetroLED35 lensed SmartNight
Thorn Beta 5, Philips MI26
1,620
220-240
350
15.4
0.95
105
RetroLED35 lensed WiMAC-enabled
Thorn Beta 5, Philips MI26
1,620
220-240
350
15.4
0.95
105
RetroLED35 non-lensed
Thorn Beta 5, Philips MI26
1,770
220-240
350
13.3
0.98
133
RetroLED35 non-lensed DALI
Thorn Beta 5, Philips MI26
1,770
220-240
350
13.3
0.96
133
RetroLED35 non-lensed SmartNight
Thorn Beta 5, Philips MI26
1,770
220-240
350
13.1
0.95
135
RetroLED35 non-lensed WiMAC-enabled
Thorn Beta 5, Philips MI26
1,770
220-240
350
13.1
0.95
135
RetroLED55 lensed
CU Phosco P226, Philips MI36, Thorn Beta 2
2,180
220-240
500
22.8
0.98
96
RetroLED55 lensed DALI
CU Phosco P226, Philips MI36, Thorn Beta 2
2,180
220-240
500
22.8
0.96
96
RetroLED55 lensed SmartNight
CU Phosco P226, Philips MI36, Thorn Beta 2
2,180
220-240
500
22.6
0.95
97
RetroLED55 lensed WiMAC-enabled
CU Phosco P226, Philips MI36, Thorn Beta 2
2,180
220-240
500
22.6
0.95
97
RetroLED55 lensed
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
700
33
0.98
88
RetroLED55 lensed DALI
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
700
33
0.96
88
RetroLED55 lensed SmartNight
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
700
32.6
0.95
89
RetroLED55 lensed WiMAC-enabled
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
700
32.6
0.95
89
RetroLED55 non-lensed
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
500
22.3
0.98
130
RetroLED55 non-lensed DALI
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
500
22.3
0.96
130
RetroLED55 non-lensed SmartNight
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
500
22
0.95
132
RetroLED55 non-lensed WiMAC-enabled
CU Phosco P226, Philips MI36, Thorn Beta 2
2,900
220-240
500
22
0.95
132
* Excluding luminaire optical losses
Unique features
• White light at 4,000K and 80 CRI
• Easy to retrofit and cost-effective to install
• Standard 3-year warranty
36
March 2014 Edition
37
Case Study
RetroLED
Key benefits
Every local authority can relate to the pressure of tightening
budgets and the increasing need to manage spend as
economically as possible. The installation and maintenance
of street lighting in a borough often calls for a big slice of this
financial pie and as such requires a significant consideration
when the time comes to upgrade.
In recent years, advancements in technology
have brought new options to the street
lighting arena. One solution already offered
by Harvard Engineering is LeafNut, a central
management system (CMS) that can
wirelessly monitor and control street lights
through
integration with client AMS databases.
LeafNut provides exceptional savings
potential through the remote management
of dimming profiles and fault finding
designed to reduce the need for scouting
activities. LED technology is another option
that offers significant energy-savings,
as well as an extended life-time over
traditionally used light sources.
Harvard has now identified another solution
for the budget-conscious buyer, with a
short-term payback period and a 3-year
warranty alongside.
The new RetroLED range delivers a retrofit
LED solution for SOX lamps and boasts an
impressive energy-saving compared with
existing luminaires. The ease of installation
and reduced costs thereafter also make
this an ideal option for modernising old
streetlights without changing the existing
columns and lanterns.
David Hale, the Design Engineer from
Blaenau Gwent County Borough Council, was
38
March 2014 Edition
one of the first to recognise the potential for
RetroLED application and promptly installed
a trial scheme. David explains:
“With the rising cost of energy, we as a
Council have to continually find ways to
reduce our energy consumption. While
looking for options on how to save money,
we came across Salix funding and started to
compile a business case by which to apply.
We approached a number of manufacturers
to supply a gear tray and lamp that would
go into a SOX fitting. We had some very
positive solutions provided to us (one of
them being a gear tray and a 36W PLL lamp),
and with the information gathered, we
applied for Salix funding for the replacement
SOX gear trays. Having obtained a positive
assessment, the funding was then granted.
After discussing the progress with Harvard
Engineering, they proposed that they
could have a possible alternative to the PLL
gear tray, by developing a more advanced
LED gear tray. Three weeks later Harvard
returned with a sample of the product and
we were so impressed with the results,
we decided to make a start with a trial
installation right away.”
Currently available in 35W and 55W
replacement options, RetroLED uses
a lantern-specific gear tray holding a
rectangular light engine, powered through
Energy efficient
Quick to install
Dim and non-dim
variants
an integrated Harvard driver. Producing
white light with a colour temperature of
4,000K and a colour rendering index of 80 –
SOX lamps are typically 1,800K.
The light output produced by a RetroLED
is 1,700lm (35W) and 2,900lm (55W),
with a circuit wattage of 14W for the 35W
replacement (versus an average 65W for
SOX) and 23W for the 55W replacement
(versus an average 77W for SOX). With
a maximum output power of 10W, the
RetroLED is also much more efficient.
During the RetroLED trial installation on a
semi-rural residential road, one electrician
was timed at a staggering 3-minutes to
completely retrofit one lantern, including
removal of the old gear.
David also comments, “The trial has now
been running for a few nights, and having
visited the site before and after, I can
“We originally planned
to change 2444 units to
36W PLL trays, but we are
now planning to install
the RetroLED gear trays to
complete the conversion of
the SOX fittings – RetroLED
gear trays will give the
Council an extra 16% energy
savings over the PLL gear
trays.”
White light
4,000K and 80 CRI
3-year warranty
David Hale, the Design Engineer from
Blaenau Gwent County Borough Council
confirm that the light produced by the
RetroLED gear tray has surpassed my
expectations. I have also taken photographs
before and after the installations and
distributed these throughout the Council
for the members to evaluate – we are
unanimous in opinion that this is an
impressive alternative to our original
proposal of PLL lighting.
39
Harvard Engineering plc
Tyler Close Normanton Wakefield WF6 1RL United Kingdom
Tel: +44 (0)113 383 1000 Fax: +44 (0)113 383 1010
www.HarvardEng.com

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