170615 UPS Product Catalogue V7.1low Res

User Manual: 170615-UPS-Product-catalogue-v7.1low-res of /wp-content/uploads/2015/04

Open the PDF directly: View PDF .
Page Count: 52

Download
Open PDF In Browser	View PDF

Product & Service Catalogue

Contents

About UPS Ltd

PowerWAVE 9500DPA

48

UPS Ltd Products

11

PowerWAVE Generators

54

Single Phase

13

PowerWAVE EL

60

MINIpowerPLUS

14

PowerNSURE

64

PowerWAVE 1000

18

PowerREPORTER

68

PowerWAVE 3000/TP

22

Service Solutions

72

27

Maintenance

74

PowerWAVE 5000/TP

28

Batteries

75

PowerWAVE 6000

32

Monitoring

76

PowerWAVE 8000DPA

36

On site

78

PowerWAVE 9000DPA

42

Technical Specifications

81

Three Phase

2

4

3

About UPS Ltd

What makes us different?

Why choose us?

About Kohler Co.

Our aim is simple – to be the best
power protection company there is.

UPS Ltd takes a comprehensive,
end-to-end approach to meeting our
customers’ specific and demanding
requirements. From initial contact
through installation, service,
maintenance and disposal, UPS Ltd
provides its customers with an unrivalled
partner for complete peace of mind.

Established in 1873, Kohler Co. has
a pedigree for quality, innovation and
exceptional craftsmanship. In 1920,
it launched the world’s first engine
powered electric generator. Since then,
it has been developing products for
every aspect of critical load protection
and is one of the world’s largest power
protection equipment manufacturers
with products in use on every continent.

Together with our parent company, the
Kohler Company’s Power Group,
Uninterruptible Power Supplies Limited
(UPS Ltd) is a driving force within the
power protection industry offering
pioneering product technology, service
excellence and global reach.
Best in class power protection solutions

Total vertical and
horizontal scalability
using hot swap
modularity

Central to our product portfolio is a range
of the highest quality, class-leading threephase and single-phase uninterruptible
power supplies. Developed to offer the
highest levels of efficiency, availability,
scalability and flexibility.
Leveraging Kohler’s technical leadership
in global power protection, the full power
protection portfolio includes:
Uninterruptible power supply (UPS)
Standby diesel generators
Battery systems
Emergency lighting static inverters
Switchgear

We understand that every client is
different and each has its own specific
opportunities to consider and challenges
to overcome. The key, we believe,
is to spend the time required to truly
understand the business and how it
operates. Only then can we apply our
comprehensive product range,
combined with our broad support
services offering, to provide power
protection solutions which exceed
expectations.
This also means UPS Ltd continuously
invests in product and system
development, the talent of its
employees, broadening its range of
services, and improving its service
delivery. By doing so, UPS Ltd expertly
meets the present and future needs of its
customers and achieves its objective –
to be a leader of power protection
solutions and services.

Together, UPS Ltd and Kohler bring
a potent, global force of longevity,
pedigree, pioneering product
technology, service excellence and
global reach to the power protection
industry.

Pure Power Systems
In May 2017, Kohler Co. acquired Pure
Power Systems, an independent
distributor and service provider of UPS
systems, covering Ireland. Pure Power
Systems is now a part of Uninterruptible
Power Supplies Ltd (UPSL), extending
its coverage to the entirety of the UK and
Ireland. Pure Power Systems currently
has locations in Dublin and Limerick.

Software and ancillaries
Service excellence guaranteed
UPS Ltd has built an outstanding
reputation for service excellence through
its unrivalled pre and post sales support.
Our wide range of services includes initial
site surveys, system design, installation
& commissioning, preventative
maintenance, training, remote monitoring
and technical support.
With 24/7 availability, all these services
are delivered by a dedicated and
extensive network of trained service
engineers and service support staff ensuring lifelong and reliable operation of
the power protection solutions it provides.
Quality management and certifications
UPS Ltd’s quality management system
is certified to BSI EN ISO 9001, its
environmental procedures to ISO 14001
and its health & safety procedures to
OHSAS 18001, and is recognised as an
Investor in People. UPS Ltd is also
certified under the SafeContractor
scheme. These certifications guarantee
that all its customer obligations under
health and safety and environmental
legislation are met.

The UPS Ltd mission

To continuously
delight our
customers through
the provision of
industry-leading
Power Protection
Solutions and
Support Services.
5

PW 9500

Total vertical and
horizontal scalability
using hot swap
modularity

Made in Switzerland
For over 20 years, UPS Ltd has led the
UK in terms of power protection
innovation. Today, the company is
recognised as one of the industry’s most
innovative organisations – thanks in part
to the success of its class-leading
products and services, and the
introduction of game-changing
technologies to the UK market – several
of which are now considered almost
ubiquitous within the power protection
industry.
Throughout this period, UPS Ltd has
worked with a single manufacturing
partner, based in Switzerland, where the
vast majority of UPS Ltd’s products are
designed and constructed. This
consistency and close cooperation
benefits UPS Ltd’s clients in countless
ways, not least through additional
resources and investment, and access
to an extensive team of R&D specialists
in more than 20 countries.

6

7

Product overview:
Industry-leading products

Market overview

UPS Ltd’s product portfolio contains
some of the most technologically
advanced power protection products.
At the core of its product portfolio is a
range of high quality and reliable threephase and single-phase uninterruptible
power supplies.

From financial services and Colo
providers to retail and manufacturing
giants, UPS Ltd’s products are being
utilised in a broad range of markets,
supporting an even broader range of
applications.

Single-phase UPS from 1–20 kVA,
parallelable up to 80 kVA
Three-phase transformerless UPS from
10-500 kVA scalable up to 5 MVA

Total vertical and
horizontal scalability
using hot swap
modularity

Standby diesel generators
Battery systems
Switchgear
Emergency lighting static inverters

Regardless of whether you need a multiMVA system to support a tier 4-data
centre or a 10 kVA UPS to support an
emergency lighting system, UPS Ltd has
the perfect solution. Our teams of sales
managers and engineers have extensive
experience in developing tailor-made
solutions, specifically designed to meet
your particular challenges and ensure
that any requirement can be satisfied, no
matter the business or area of operation.

Software and ancillaries

Service overview
24/7 onsite service
Initial site survey
System design
Installation
Commissioning
Preventative maintenance
Repair
Battery maintenance, replacement
and testing
Capacitor replacement

“UPS Ltd’s team presented
its latest product
development to us, the
PowerWAVE 9500DPA, and
thankfully it answered all of
our needs. Its ability to
support a load of 400 kVA
within a single frame, whilst
still offering N+1
redundancy, was a big
advantage over competitors’
products.”

Remote monitoring
Load bank testing
Witness testing

Phil Jones, Business Manager,
Royal Bank of Scotland

Disposal

Enhanced Capital Allowance Scheme
Specific products within UPS Ltd’s
product range are now included on the
Carbon Trust’s Enhanced Capital
Allowance approved product list. This
offers customers the opportunity of
significant tax savings on the capital
investment, and the knowledge that they
are purchasing equipment with classleading efficiency.

9

Testimonials

“The purchase, installation and
subsequent maintenance has
been smooth and without fault.
The process of purchasing the
communications card was easy
and the support provided before
the purchase was made was
very informative.”

“I am always told when the
engineers will arrive on site; the
service I receive is outstanding.
If anything was to change in my
service visits I am always notified
in good time.”
Mo Knott, Tesco Stores Ltd

Richard McLennan, The Law Society

Mark Caines, The Ipswich Hospital
NHS Trust

Gary Sturges, Wren Environmental Ltd

“A quick response to initial
enquiry with quotation and
technical information. Delivery
and commissioning all as
detailed. Overall excellent
service.”
Darryl Behn, Fenner Nash Electrical Ltd

“The service I get is second to
none. You have been supplying
me with UPS and generators for
over ten years and never once
have you let me down.”

“The engineer who attends our
site is very competent, answers
any questions and leaves you
feeling that your building is
covered in all eventualities.”

Philip Oke, Peldon Rose
William McGuiggan, John Lewis

10

UPS Ltd Products

“The Trust has been a UPS
customer for a number years.
The UPS sits in the corner of the
data centre and does the job.
Any minor power interruptions
have been handled without an
issue. Service, support and
preventative maintenance have
always been handled in a
professional manner with the
engineers being knowledgeable
and friendly.”

“After 30 years plus of working in
the building services, and past
service contracts with you, I have
always had a reliable service, with
emergencies always being
resolved without dramas.”

11

UPS Ltd’s product portfolio
contains some of the most
technologically advanced power
protection products. At the core
of its product portfolio is a range
of high quality and reliable
three-phase and single-phase
uninterruptible power supplies.

Single Phase

Total vertical and
horizontal scalability
using hot swap
modularity

12

13

(1.25–10 kVA)

MINIpowerPLUS

The most reliable and resilient
single-phase UPS currently
available, a must for all
professional users.

MINIpowerPLUS
Expandable in 1.25 kVA modular steps
to 10 kVA
Online double conversion technology
for a clean and protected supply
Internal N+1 parallel redundancy for high
availability and reliability
Easy-to-use LCD interface for
programming, status reporting
and diagnostics
Expandable up to 8 hours’ battery
autonomy
Tower or 19” rack-mounted
configurations

Total vertical and
horizontal scalability
using hot swap
modularity

Onsite, flexible upgrade capability
Near unity input power factor at partial
and full loads

Single-phase, scalable
critical power protection
up to 10 kVA.
The MINIpowerPLUS range is ideal for
small low power protection applications
where reliable power must be scaled to
cost and space constraints. Available in
an office-friendly tower or compact 19”
rack-mounted modular configuration,
the MINIpowerPLUS is the most reliable
and resilient single-phase UPS currently
available.

15

Total flexibility
Ability to ‘right size’ the system
Simple installation of new UPS modular
power boards

The right solution
MINIpowerPLUS is available
in two different versions
MINIpowerPLUS tower

Reduced total cost of ownership
Total flexibility is a key benefit of the
MINIpowerPLUS. It is possible to simply
add UPS power boards – in costeffective incremental steps – to the
MINIpowerPLUS as the critical load
requirement grows. This ensures the
UPS is ‘right sized’ to the critical load at
initial installation. This ‘right sizing’
reduces initial costs, optimises operating
efficiency and helps reduce the total cost
of ownership. Adding or replacing
existing boards also enables easy
system upgrades or repairs.
Battery autonomy is similarly flexible,
and can be customised using battery
kits. These can be standalone or
integrated with the UPS power boards.
Full-load battery standby time of up to
eight hours is available with a rapid
recharge capability. Battery redundancy
can also be built-in for guaranteed
continuity of supply.

MINIpowerPLUS tower systems deliver
up to either 5 kVA (MINIpowerPLUS
5000) or 10 kVA (MINIpowerPLUS
10000) in a compact unit measuring only
270 x 475 x 570mm.

High up time
Internal N+1 parallel redundancy
If one of the modules stops working,
the others will all continue supplying the
load without any interruption,
redistributing the percentage of load that
was previously supplied by the module
now out of order. This redundancy
ensures continuous up time.

MINIpowerPLUS 5000 uses the spacesaving single tower to accommodate up
to four 1.25 kVA UPS power boards and
four strings of batteries. Battery
autonomy can be increased by adding a
separate battery cabinet.
MINIpowerPLUS 10000 allows four to
eight 1.25 kVA UPS power boards to be
accommodated in one tower to provide
a maximum output of 10 kVA. Up to ten
strings of batteries can be housed in a
separate cabinet.
MINIpowerPLUS rack
MINIpowerPLUS rack-mounted version
uses 6U of a standard 19” rack. With four
UPS power boards, this version provides
up to 5 kVA in capacity or 3.75 kVA in
parallel redundant (N+1) mode. Batteries
are internal. Autonomy can be extended
simply by mounting additional batteries
in a separate rack-mounted battery unit.
Features of both the tower and rackmounted MINIpowerPLUS include
automatic bypass, battery test function,
load/temperature dependent fan speed
and an RS232 port allowing the use of
diagnostic or auto-shutdown software.

MINIpowerPLUS tower

16

MINIpowerPLUS rack

17

(1-10 kVA)

PowerWAVE 1000

For server, network, storage,
VolP and telecommunication
applications – combining high
reliability with low upfront
costs to make it the perfect
solution for mission critical
applications.

PowerWAVE 1000
Compact design, offered in both
19” rack and tower versions
Up to 94% efficiency
High efficiency eco-mode
0.9 power factor (1–3 kVA)
Unity power factor (6–10 kVA)
Interfaces: USB, RS-232, SNMP,
Modbus, potential free contacts,
EPO contact inputs
Flexible battery configuration –
programmable number of batteries
(6–10 kVA)

Designed for single-phase
uninterruptible power supply
requirements.
Manufactured with the flexibility to meet
the demands of today’s critical
applications, the PowerWAVE 1000 can
be used as a standalone UPS device or
installed into a standard 19” rack
configuration, with connectivity options
available for each.
The UPS completely regenerates the
utility power to correct power
disturbances in the mains and provides
clean AC power, with voltage and
frequency independency from the
mains power supply (VFI).

19

Hot-swappable batteries

Advanced battery discharge
management

Power distribution and bypass

Replace or add battery packs with no
downtime/no risk

Reduced recovery time from discharge

Optional manually operated
maintenance bypass switch, which
facilitates electrical and physical
isolation of the UPS. Power distribution
(1, 2 and 3 kVA UPS) facilitates easy
electrical connection of devices to
the UPS. The units can fit in as a tower
or rack version.

With the PowerWAVE 1000’s front
access panel, replacing battery packs no
longer requires the critical load to be
interrupted, ensuring you are always
protected 24/7.

The PowerWAVE 1000 automatically
manages the end-discharge voltage of
the internal batteries according to the
load, preventing deep discharge of the
batteries during a power failure.

With the 6–10 kVA versions, the number
of batteries is programmable allowing for
a flexible battery configuration.

High reliability

User-friendly display

Low cost of ownership

Automatic (6–10 kVA UPS) redundant
parallel operation

Quick glance screen

High operating efficiency

Increasing load and protection levels is
made quick and easy with the
PowerWAVE 1000. A larger load or N+1
parallel redundancy can easily be
achieved by simply connecting up to
four units, using the CAN-bus (RJ45) on
the rear of the unit. Versions are available
for 1, 2, 3 or 4 x UPS to create a 1+1, 2+1
or 3+1 redundancy system. This ‘right
sizing’ reduces initial cost, optimises
operating efficiency and helps reduce
total cost of ownership.

An easy-to-read display provides a
real-time view of all major system
parameters and current status, including
load level, battery level, system wiring
faults, overload and programmable
output status.

0.9/Unity power factor & low input THDi
The PowerWAVE 1000 delivers high
efficiency of up to 94%. The eco mode
allows this to be increased to 98%.
The PowerWAVE 1000 provides an
output factor of 0.9 (1 kVA, 2 kVA and
3 kVA) and unity (6 kVA and 10 kVA), as
well as a low input THDi of <3%.

In addition, matching battery cabinets
can be added to extend the back-up
time for several hours.

20

21

(10 & 20 kVA)
Parallelable up to 80 kVA

PowerWAVE 3000/TP

Single-phase UPS for midsize
server rooms, networks,
telecommunications systems
and industrial processes.

PowerWAVE 3000/TP
Energy savings up to 93% efficiency
97% efficiency in eco mode
Low harmonic distortions (< 5% THDi)
and active power factor correction
(0.99 input PF) eliminate interference
from other equipment in the network
Paralleling up to 4 units allows for
increase of capacity and introduction
of redundancy to system to enhance
availability
Integrated manual bypass switch
simplifies maintenance and reduces
need for external switchgears
Can operate as frequency converter
(50 Hz to/from 60 Hz)
Power factor 0.9
Same model supports different wiring
schemes: three-phase and single-phase
input as well as single and dual input
feed
Extended autonomy with matching
battery cabinets

Compact, single-phase
critical power protection
up to 20 kVA.
The PowerWAVE 3000/TP UPS delivers
reliable power, low running costs, long
battery life, easy maintenance and high
levels of flexibility.
Featuring double-conversion, voltage
and frequency independent (VFI)
topology, the PowerWAVE 3000/TP is
available in both 10 and 20 kVA versions,
with the option to configure up to four
units in parallel to boost power capability
or provide redundancy.
Three-phase or single-phase inputs can
also be accommodated, as well as
single or dual supply inputs – allowing
the customer to manage two
independent power sources.
Simple to install and with a small
footprint, the PowerWAVE 3000/TP
provides stable, regulated, transientfree, pure sine wave AC power with
extremely tight output voltage
regulation.
23

Reliable
Online double conversion topology
delivers constant and stable power to
the load even in the presence of severe
disturbances in the utility
Parallelable up to four units to provide
system redundancy

Flexible

Scalable

Single or three-phase input is field
configurable – adaptable to installation
requirements

Different autonomy variations with inbuilt
batteries or additional battery cabinets

Single or dual input power source
compatible (field configurable)

Simple power increase (pay-as-yougrow) by paralleling up to four units

Programmed and automated battery
tests ensure an optimised battery
management, operation and lifetime

Communication options

Battery options

Reduced costs

Through monitoring devices, any
abnormal situation (events/alarms) can
be detected immediately

Additional battery cabinets that match
perfectly with the UPS for scaling
autonomy time

High efficiency reduces the quantity of
power consumed by your installation

Dry-contact card – relay interface card
enables advanced communication
between the UPS systems

Reduced heat losses maintain a lower
operating temperature, prolonging the
lifetime of components and batteries
The small footprint saves space and
makes installation simpler

Network interface cards – control and
monitoring of the UPS via a web browser
Sensors – combined with the network
interface card, humidity and temperature
sensors can be integrated into the
system and monitored remotely via
a web browser

Battery runtime (half load/full load)
10 kVA

20 kVA

UPS internal battery

39 / 16

16 / 5

UPS + battery cabinet

152 / 70

70 / 29

25

Three Phase

PW 9500
26

Total vertical and
horizontal scalability
using hot swap
modularity

27

(10-50 kVA)

PowerWAVE 5000/TP

Three-phase UPS for midsize
server rooms, networks,
telecommunication systems
and industrial processes.

PowerWAVE 5000/TP
Capacities from 10 kVA to 50 kVA
three phase
On-line double conversion,
transformerless technology for high
reliability
Parallel capability of up to 20 units
Intelligent battery management
95.5% efficiency across a wide load
range
Integral batteries
Near unity input power factor (0.99)
Low input harmonic distortion
(THDi <3%)
Small footprint and low weight
Ergonomic design for easy serviceability
Energy saving and low carbon footprint
Extended autonomy with matching
battery cabinets

A true on-line, doubleconversion, VFI (voltage
frequency independent)
UPS that provides
enhanced power protection
in a compact format.
Its outstanding price and performance
deliver the best value for money in its
category with uncompromised system
reliability and power availability.

29

Flexible battery configuration

Highest load availability

High efficiency for
lowest lifetime costs

Optimal sizing of the battery capacity

Productivity maximised, ‘downtime’
minimised

High efficiency at partial and rated loads

10–50 kVA with different sized cabinets
Extended autonomy with matching
battery cabinets
The PowerWAVE 5000/TP is available in
three cabinet sizes, enabling you to
choose the ideal capacity and required
autonomy for your critical load. The
smaller 10-25 kVA units are available in
two cabinet sizes, dependent on the
required level of autonomy, with the
larger units (25–50 kVA) available in a
third cabinet size, which can house both
7/9Ah and 28Ah batteries.
Additional battery cabinets that match
perfectly with the UPS for scaling
autonomy time.

Paralleled systems are designed to
ensure availability by significantly
increasing system redundancy. In the
case of a power failure, should a UPS unit
fail, the remaining units are still able to
continue to support the critical load.
Redundant paralleled systems also
enable regular maintenance to be carried
out on the system without any
requirement to remove the critical load
from conditioned power.

Low carbon footprint

PowerWAVE 5000/TP range

UPS cabinet A (10–20 kVA)

UPS cabinet B (10–25 kVA)

UPS cabinet C (25–50 kVA)

Dimensions (W x H x D)

Dimensions (W x H x D)

Dimensions (W x H x D)

345 x 720 x 710 mm

345 x 1045 x 710 mm

440 x 1420 x 910 mm

With a transformerless design and
Energy Saving Inverter Switching (ESIS)
technology, PowerWAVE 5000/TP
delivers very high efficiency at partial
and rated loads (up to 95.5%). This level
of efficiency dramatically reduces the
total cost of ownership of the UPS
during its lifecycle.
Ripple-free and optional temperature
controlled battery chargers protect
batteries and extend the life-time
performance, further reducing running
costs.
These benefits combine to make the
PowerWAVE 5000/TP a truly eco-friendly
solution for all power protection
requirements.

Weight without battery

Weight without battery

Space saving

Weight: 7/9 Ah cabinet without battery

10 kVA:

60 kg

10 kVA:

88 kg

25 kVA:

151 kg

Reduced footprint

15 kVA:

62 kg

15 kVA:

90 kg

30 kVA:

160 kg

Valuable floor space maximised

20 kVA:

64 kg

20 kVA:

92 kg

40 kVA:

165 kg

25 kVA:

94 kg

50 kVA:

170 kg

With a footprint of only 0.4m2 at 50 kVA,
the PowerWAVE 5000/TP has a power
density of up to 100kW/m2. As a result,
substantial and valuable space savings
are achieved even at the highest power
ratings.

Weight with 48 x 7/9 Ah battery
10 kVA:

180 kg

Weight with 96 x 7/9 Ah battery

Weight: 28 Ah cabinet without battery

15 kVA:

182 kg

10 kVA:

328 kg

25 kVA:

135 kg

20 kVA:

184 kg

15 kVA:

330 kg

30 kVA:

145 kg

20 kVA:

332 kg

40 kVA:

150 kg

25 kVA:

334 kg

50 kVA:

155 kg

LCD display
Weight with 144 x 7/9 Ah battery

Output contacts and
SNMP card (optional)

25 kVA:

540 kg

30 kVA:

550 kg

Customer inputs
RS232 interface

40 kVA:

555 kg

50 kVA:

560 kg

Rectifier &
bypass fuses
Batteries
Battery fuses

Weight with 48 x 28 Ah battery
Available in three different cabinet sizes

25 kVA:

605 kg

Cabinet A: 10 – 20 kVA

30 kVA:

615 kg

Cabinet B: 10 – 25 kVA

40 kVA:

620 kg

Cabinet C: 25 – 50 kVA

50 kVA:

625 kg

Maintenance
bypass switch
Parallel isolator
Battery containment
Input/output connection
30

31

(60 kVA/kW)
Paralellable up to 5 MVA/MW

PowerWAVE 6000

The best combination of
energy efficiency, reliability
and low cost of ownership
– capacity from 60 kVA/kW to
5 MVA/MW.

PowerWAVE 6000
Single unit capacities from 60 kVA/kW to
500 kVA/kW
Capacity up to 5 Megawatts
(5 MVA/MW) with 10 units in parallel
Power density of up to 363kW/m2
High efficiency and minimum cost of
ownership
Low input harmonic distortion:
THDi =3.5%
Near unity input power factor of 0.99
Fully rated output power (blade friendly)
Full front access maximises system
serviceability
Transformerless design

Three-phase UPS with unity
power delivers the best
combination of availability,
energy efficiency, overall
power performance and
lowest total cost of
ownership in its class.
Offering both intelligent energy
management and maximum power
protection it uses less energy, achieves
significant cost reductions, saves on
valuable floor space (leaving room for
revenue-earning equipment) and has a
reduced impact on the environment.

33

Near unity input power factor

Extended battery life

Reduced installation costs

Front access for ease of installation
and servicing

PowerWAVE 6000 manages the Total
Input Harmonic Distortion (THDi) at a low
level (3.5% at 100% load). It does this by
neutralising the emission of harmonics
at the input of the UPS. Low harmonic
distortion saves unnecessary oversizing
of generators, cabling and ancillary
equipment (such as circuit breakers),
avoids extra heating of input
transformers (thus wasting less energy)
and extends the lifetime of all input
components.
High efficiency is further enhanced by
removing any requirement for additional
phase compensating devices.

100

100
96

95.5

PowerWAVE 6000 allows the freedom
to tailor the battery installation to the
requirements of the critical load at the
lowest possible cost. By adding external
battery cabinets, it enables each battery
configuration to match the required
autonomy, ensuring smallest system
footprint and easy usability.

95.5

95

95

90

90

85

85

80

80

50%

75%

AC–AC
(60—120)design
With a efficiency
transformerless

10

and Energy
Saving
Inverter
AC–AC
efficiency
(60—120)
100

9.0

96

95.5

95

96
95.5 (160—500)
AC–AC efficiency
95
90
100
96
90
95.5
85
95

95.5

95

95.5

95

100
95

6.0

3.5

400–500 kVA
2
50%

75%

100% load

75
80

0.99

0.99

25%

10
128

6
84

75%

100% load

6.0
9.0

4.5

6.0

3.5

4.5

3.5

6.0
4.5

25%

50%

75%

3.5
100% load

25%

50%

75%

100% load

75%

100% load

,9

25%

50%

,9

0,8

=0

=
hi

=0

=

Input power factor versus load
0.985

8
0,

1.0

0.99

0.99

0.99

0.99

0.99

0.99

0.985

1.0

40

PowerWAVE
6000 is equipped with
20
multiple interfaces that can be used
for local and0 remote monitoring, status
Leading maintenance and
signalling, control,
firmware upgrade.

95

96

95

75
80
75

Linear load (cosphi = 1)

(cosphi = 1) 75%
25% Linear load
50%

100% load

25%

75%

100% load

75%

100% load

50%

25%

50%

The PowerWAVE 6000 actively
manages the input current total
harmonic distortion (THDi) at a
low level (3.5% at 100% load).
PowerWAVE’s unique technology
neutralises the emission of
harmonics at the input of the UPS
system, providing greater
reliability of operations for circuit
breakers and extending the
overall service life of the
equipment.

Low harmonic distortion saves
unnecessary oversizing of
gensets, cabling and circuit
breakers, avoids extra heating of
input transformers and extends
the overall service life of all
upstream components.

Input
0 power factor versus load

0.95

PowerWAVE 6000’s class-leading power
density (up to 363kW/m2) is driven by
the UPS’s small physical footprint of
0.3m2 up to 120 kVA/kW, 0.64m2 up to
200 kVA/kW, 0.82m2 up to 300 kVA/kW,
and 1.4m2 up to 500 kVA/kW. As a result,
substantial and valuable space savings
are achieved even at the highest power
ratings.

50%

Input
1.0 power factor versus load

phi

phi

Supports monitoring and control

hi

Valuable floor space maximised

0.96

0.96

0.985

0.95
0.96

Lagging

0.95

0.9

0.9

0.9(%)
kW

25%

50%

75%

100% load

25%

50%

75%

100% load

25%

50%

75%

100% load

kW
100(%)
100

kW80(%)
80
100
60
60
80
40
40
60
20

,9 ,9
0,9
=0 =0
hi =
phi phi
8 s p8
cos cos
0c, o 0,
0
= =
=
hi hi
hi
sp sp
sp
co co
co

For data centres in particular, this
helps to maximise floor space for
revenue-earning servers.
34

cos

Blade servers typically have a leading
power factor and this can present
problems to those UPS systems that are
not designed to manage such loads. The
PowerWAVE 6000 is designed to power
all types of electrical loads, including
high-powered servers. It can provide
fully rated output power to power factors
from 0.9 leading to 0.9 lagging.

sp
co

Multiple interface
options
60

95

96

Linear load (cosphi = 1)

9.0

4
62

0
2

Reduced footprint

Supports leading power factors

100% load

2
40

100

Connectivity
80

75%

cos

1650 x 2094 x 850
kW (%)
Footprint: 1.4m2

50%

co
sp

1100 x 1920 x 750
Footprint: 0.82m2

25%

cos phi = 1

850 x 1820 x 750
Footprint: 0.64m2

100% load

75%

12
10

0.9

96

Input current total harmonic distortion (THDi)

8
106

615 x 1954 x 480
Footprint: 0.3m2

100% load

50%

Input current9.0
total harmonic distortion (THDi)

0.95

Dimensions
W x H x D (mm)

(cosphi = 1) 75%
25% Linear load
50%
25%

Input
12 current total harmonic distortion (THDi)

0.96

Dimensions
W x H x D (mm)

Linear load (cosphi = 1)

Linear load (cosphi = 1)

0.985

Dimensions
W x H x D (mm)

Switching95.7
(ESIS) technology,
the
95.8
100
PowerWAVE
6000 delivers high
95
95.8
95.7 (60—120)
AC–AC
efficiency
efficiency
at partial and full load
95
90to 96% in double conversion
(up
100
online
mode).
of
95.8
95.7 This level
90
85
efficiency
dramatically reduces
95
85total cost of ownership of the
the
80
90
UPS
system during its life cycle.
80
75
85

80
75
85

75

1.0

Dimensions
W x H x D (mm)

95.5

85
80
90

Input power factor versus load

Supports high powered servers such as
blade servers

100% load

AC–AC efficiency (160—500)

25%

Space saving

75%

AC–AC
efficiency (160—500)
100

0

Blade friendly

50%

12

4.5

250–300 kVA

25%

100% load

Input current total harmonic distortion (THDi)

6

160–200 kVA

95

Linear load (cosphi = 1)

Linear load (cosphi = 1)

4

60–120 kVA

96

95.8

Top-of-market 96% efficiency in
double conversion mode reduces
running costs without
compromising reliability. This
UPS has a very flat efficiency
curve so high efficiency is
reached at low load levels.

75

75

8

Product range

95.7

95

25%

Running costs are further reduced by
ripple-free and temperature controlled
chargers that protect batteries and
extend life-time performance. Front
access also aids easy installation and
servicing.

AC–AC efficiency (60—120)

AC–AC efficiency (160—500)

cos cos
phi
phi phi
=
=0 =0
co 0,c9o
,9 ,9
sp sp
hi
hi hi
=
= =
0,8
0,8 0,8

Bespoke configuration

sp

Low input harmonic distortion (THDi)

Understanding efficiency and power

cos

Flexible batteries

cos phi =cos
1 phi
1 =1
cos=phi

Improved input performance

Thanks to the near-to-unity input
power factor of 0.99, the
PowerWAVE 6000 reduces the
input installation costs by
enabling the use of smaller
cables. Furthermore, it avoids the
unnecessary use of additional
phase compensating devices,
which consequently keeps the
overall UPS efficiency high.

35

(10–20 kVA/kW)
Parallelable up to 400 kVA/kW

PowerWAVE 8000DPA

Modular UPS designed
for low and medium
power applications.

PowerWAVE 8000DPA
Capacities from 10 kVA/kW to
200 kVA/kW in 10 kVA/kW or 20 kVA/kW
modular steps
Parallelable frames up to 400 kVA/kW
Available as tower (ST) or
19” rack-mountable (RI) solutions
Fully rated output power (blade friendly);
20 kVA = 20kW
N+1 redundancy up to 180 kVA/kW N+1
in a single frame
‘Six nines’ (99.9999%) availability

Key benefits
Individual static switches per module
Each module has its own display and
controller
Each module has its own control logic

Up to 95.5% efficiency across a wide
load range
Near unity input power factor at partial
and full loads (PF=0.99 @ 100% load)
Low input harmonic distortion
(THDi<3%)

Separate or common battery
configuration

Ideal for low to medium,
high-density critical power
protection applications.
Three-phase UPS built for low to
medium, high-density power protection
applications. Leading-edge modular
design using proven decentralised
parallel architecture (DPA) technology.
The PowerWAVE 8000DPA offers
incredible energy efficiency, 99.9999%
availability and flexible scalability in
either a tower or rack-mountable
solution.

37

The right solution
PowerWAVE 8000DPA is
available in two versions
PowerWAVE 8000DPA ST (tower)
is available for high-density applications
requiring a standard power protection
solution including frame, UPS, battery
and communication. This solution
delivers power protection from
10–200 kVA/KW (180 kVA/KW N+1) in
10 kVA/KW or 20 kVA/KW modular steps
to provide a maximum power density of
472 kW/m2. PowerWAVE 8000DPA
cabinet can be paralleled horizontally to
increase the capacity up to 400 kVA/kW.
The PowerWAVE 8000DPA RI (19” rackmountable) solution includes UPS,
battery and communication, which can
be integrated into any 19” rack
(independent of manufacturer) and
provides up to 80 kVA/KW (60 kVA/KW
N+1) making it ideal for integrated IT,
telecom or other applications.

Advanced Decentralised Parallel
Architecture (DPA)

Easy to replace ‘hot-swap’
modules

High reliability

Blade friendly

Generator friendly

Distributed control and power

Replace or add modules with
no downtime

Reliability maximised

Supports blade servers

Generator compatible

Automatic parallel redundant operation

Supports leading power factors

Soft start – introduces the generator
load in steps

Parallel redundant (N+1) UPS systems
provide the highest level of reliability by
ensuring that the number of UPS
modules in a system is a minimum of
one (N) over and above the number
required (N) to fully support the critical
load.

Blade servers typically have a leading
power factor, which can present
problems to UPS systems, particularly if
they are not designed to power such
loads. The PowerWAVE 8000DPA is
designed to power all types of electrical
loads, including blade servers. It can
provide fully rated output power to
power factors in the range of 0.9 leading
to 0.8 lagging.

Independent hot-swap modules
No single points of failure

Cost effective scalability & ‘right sizing’
Simple power upgrade

Decentralised Parallel Architecture (DPA)
means each UPS module contains all
the hardware and software required
for full-system operation. They share no
common components so a DPA parallel
system offers extremely high availability.
In addition, potential single points of
failure are eliminated and system uptime
is maximised. PowerWAVE 8000DPA
UPS modules can be paralleled to
provide redundancy (parallel
redundancy) or to increase the system’s
total capacity.

Future proof investment
True ‘hot-swap’ modularity enables the
safe removal and/or insertion of UPS
modules into a PowerWAVE 8000DPA
system without risk to the critical load
and without the need to either transfer
the critical load onto raw mains or
remove power from the critical load. This
directly addresses today’s requirement
for continuous uptime, reducing mean
time to repair (MTTR).

The PowerWAVE 8000DPA is designed
to automatically operate as a parallel
redundant system, ensuring that the
critical load always receives the highest
level of power protection.

PowerWAVE 8000DPA ST (tower)

PowerWAVE 8000DPA RI (19” rack-mountable)

Up to 10 UPS modules

UPS modules

The PowerWAVE 8000DPA offers a
highly effective solution when
introducing a generator to the critical
load. If the load exceeds 50 per cent of
the generator’s standby rating, switching
the load in a single step presents a
number of dangers. To negate this, each
of the ‘hot-swap’ modules within the
PowerWAVE 8000DPA’s modular frame
come equipped with ‘soft start’
capability. This allows the modules to be
switched on sequentially, introducing the
generator to the load in more
manageable steps.

Internal battery storage

Slot for optional
SNMP card

Customer inputs and
volt-free outputs /
RS232 serial interface

RS232 serial interface

Customer inputs and
volt-free outputs

Maintenance bypass
switch
Parallel interface
AC input terminals
Maintenance bypass switch
AC output terminals
Battery terminal rail
Earth bar

38

Slot for optional SNMP card

Battery fuses

39

Class-leading energy efficiency
– low total cost of ownership
Very high operating efficiency

Additionally, PowerWAVE 8000DPA has
a near unity input power factor at full
load (and even partial loads) reducing
the size of the input cable and fuses,
thereby saving on materials and costs.

PowerWAVE 8000DPA ST
ST tower range – 10-200 kVA/kW
ST 40 – 2 modules

ST 80 – 4 modules

ST 60 – 3 modules

ST 120 – 6 modules

ST 200 – 10 modules

Dimensions WxHxD:
550 x 1135 x 775 mm

Dimensions WxHxD:
550 x 1135 x 775 mm

Dimensions WxHxD:
550 x 1975 x 775 mm

Dimensions WxHxD:
550 x1 975 x 775 mm

Dimensions WxHxD:
550 x 1975 x 775 mm

No. of internal batteries:
2 x 40 x 7.2/9Ah
Total 80 blocks

External battery ONLY

No. of internal batteries:
3 x (2x40) x 7.2/9Ah
Total 240 blocks

External battery ONLY

External battery ONLY

Reduced installation and upgrade costs
Near unity input power factor and low
input (THDi) – reduces running costs
The PowerWAVE 8000DPA delivers
class-leading efficiency of up to 95.5%
across a wide load range significantly
reducing system running costs and site
air conditioning costs.

Input current total harmonic distortion
(THDi) of less than 3% virtually
eliminates harmonic distortion of the
mains supply. This saves unnecessary
oversizing of gen-sets, cabling and
circuit breakers; avoids extra heating of
input transformers; and extends the
overall lifetime of all input components.
All these benefits ensure that the
PowerWAVE 8000DPA offers one of the
lowest ‘total cost of ownerships’ and
smallest carbon footprints of any UPS
system in its class.

Input power factor versus load (Leading)
Input power
power factor
factor versus
versus load
load (Leading)
(Leading)
Input
Input1 power0.96
factor versus 0.985
load (Leading) 0.99
0.985
0.985
0.985

0.99
0.99
0.99

0.99
0.99
0.99
0.99

Input
Input
power
power
factor
factor
Input
power
factor
Input
power
factor

1
1
1
0.8
0.8
0.8
0.8
0.6
0.6
0.6
0.6
0.4
0.4
0.4
0.4
0.2
0.2
0.2
0.2
0
0
0
0

0.96
0.96
0.96

PowerWAVE 8000DPA RI
25%
25%
25%
25%

50%
75%
50% Load (%) 75%
75%
50%
50% Load
Load (%)
(%) 75%
Load (%)

100%
100%
100%
100%

Input
Input
THDi
THDi
Input
THDi
%%
Input
THDi
%%

Input current distortion THDi
Input current
current distortion
distortion THDi
THDi
Input
Input
6.0 current distortion THDi
6.0
6.0
5.5
6.0
5.5
5.5
5.0
5.5
5.0
5.0
4.5
5.0
4.5
4.5
4.0
4.5
4.0
4.0
3.5
4.0
3.5
3.5
3.0
3.5
3.0
3.0
2.5
3.0
2.5
2.5
2.0
2.5
2.0
2.0
1.5
2.0
1.5
1.5
1.5

4.0
4.0
4.0
4.0

25%
25%
25%
25%

3.7
3.7
3.7
3.7

3.4
3.4
3.4
3.4

50%
75%
50% Load (%) 75%
75%
50%
50% Load
Load (%)
(%) 75%
Load (%)

Efficiency
Efficiency
(%)
Efficiency
(%)(%)
Efficiency
(%)

95
95
95
95

94.5
94.5
94.5
94.5

Power
Power
(kW
(kW
versus
versus
KVA)
KVA)
Power
(kW
versus
KVA)
Power
(kW
versus
KVA)

95.5
95.5
95.5
95.5

25%
25%
25%
25%

50%
75%
50% Load (%) 75%
75%
50%
Load (%)
(%) 75%
50% Load
Load (%)

With batteries
RI 11 – 1 module

RI 12 – 1 module

RI 22 – 2 modules

RI24 – 2 modules

Dimensions WxHxD:
488 x 487 x 735 mm (11 HU)

Dimensions WxHxD:
488 x 665 x 735 mm (15 HU)

Dimensions WxHxD:
488 x 798 x 735 mm (18 HU)

Dimensions WxHxD:
488 x1153 x 735 mm (26 HU)

Number of batteries: 40

Number of batteries: 80

Number of batteries: 80

Number of batteries: 160

Without batteries
RI 10 – 1 module

RI 20 – 2 modules

RI 40 – 4 modules

Dimensions WxHxD:
488 x 310 x 565 mm (7 HU)

Dimensions WxHxD:
488 x 440 x 565 mm (10 HU)

Dimensions WxHxD:
488 x 798 x 735 mm (18 HU)

3.0
3.0
3.0
3.0

100%
100%
100%
100%

95.5
95.5
95.5
95.5

The PowerWAVE 8000DPA’s 95.5% true online
efficiency significantly reduces system running
costs and site air-conditioning costs. This helps
reduce the organisation’s carbon footprint.
*Depending on configuration.

Blade server friendly power
Blade server
server friendly power
power
Blade
Blade server friendly
friendly power

40

19” rack-mountable range – 10-80 kVA/kW
Input current total harmonic distortion (THDi) of
<3% virtually eliminates harmonic distortion of
the mains supply.

Reduced TCO – AC–AC efficiency
Reduced TCO
TCO –– AC–AC
AC–AC efficiency
Reduced
Reduced
TCO – AC–AC efficiency
efficiency
97
97
97
97
96
96
96
96
95
95
95
95
94
94
94
94
93
93
93
93
92
92
92
92
91
91
91
91
90
90
90
90

PowerWAVE 8000DPA has a near unity input
power factor at full load (and even partial loads)
reducing the size of the input cable and fuses,
thereby saving on materials and costs.

100%
100%
100%
100%

25
25
25
25
-0.80
1.00
0.80
20
-0.80
1.00
0.80
-0.80
1.00
0.80
-0.80
1.00
0.80
20
20
Additional
kW
20
Additional kW
kW
Additional
15
Additional kW
15
15
15
10
10
10
Constant kW
10
Constant kW
kW
Constant
5
Constant kW
5
5
5
0
0 -0.75 -0.80 -0.85 -0.90 -0.95 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0.65
0
0 -0.75 -0.80 -0.85 -0.90 -0.95 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0.65
-0.75 -0.80 -0.85 -0.90 -0.95 1.00 0.95
kW 0.90 0.85 0.80 0.75 0.70 0.65
-0.75 -0.80 -0.85 -0.90 -0.95 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0.65
kW
kW
kW

Designed to power all types of electrical loads
including blade servers, the PowerWAVE
8000DPA can provide fully rated output power
from 0.9 leading to 0.8 lagging.
*Depending on battery configuration.

41

(30-50 kVA)
Parallelable up to 1.5 MVA

PowerWAVE 9000DPA

Designed to meet the
requirements of today –
and tomorrow.

PowerWAVE 9000DPA
Up to 250 kVA (200 kVA N+1) in a
single frame
Parallelable up to 1.5 MVA
Transformerless technology
96% true online efficiency
Near unity input power factor at partial
and full loads (0.99% @ 100% load)
Low input harmonic distortion
(THDi<3%)
Fully rated output power (blade friendly)
Online double conversion technology

Key benefits

Low running costs

Individual static switches per module
Each module has its own display and
controller
Each module has its own control logic
Separate or common battery
configuration

Delivers class-leading
‘six nines’ (99.9999%)
power availability.
A revolutionary rack-mounted
uninterruptible power supply designed
with ‘hot swap’ modules for future
scalability. A transformerless UPS
system with class-leading ‘six nines’
(99.9999%) power availability for
demanding IT environments and data
centres.

43

In today’s ‘on demand’
world, highly reliable power
protection systems are
essential to the protection of
critical data and to ensure
24/7 availability for business
applications.

Smallest footprint
saves space

Maximum availability

Extremely high power density

Six nines availability 99.9999%

Uses less valuable floor space
Class-leading power density of
342kW/m2 significantly minimises the
floor space required to accommodate
the PowerWAVE 9000DPA. This is
particularly important in data centres
where space must be maximised to
accommodate revenue-earning
equipment.

Mains 1

Mains 2

UPS

Static
bypass

UPS

Static
bypass

PowerWAVE 9000DPA maximises
availability by combining the benefits of
decentralised parallel architecture,
parallel redundancy and ‘hot-swap’
modularity with low MTTR.

Battery

Critical
load
UPS

Static
bypass

Battery

Scalable – vertically

Battery

Scalable – horizontally

Advanced decentralised
parallel architecture (DPA)

Easy to replace
‘hot-swap’ modules

Future proof installation

High reliability

Low running costs

Blade friendly

Distributed control and power

Replace or add modules with no
downtime/no risk

Investment protection

Reliability maximised

High operating efficiency, regardless
of loading

Supports blade servers

Independent hot-swap modules
No single points of failure
Decentralised parallel architecture (DPA)
means each UPS module contains all the
hardware and software required for full
system operation. They share no
common components, so a DPA parallel
system offers extremely high availability.
In addition, potential single points of
failure are eliminated and system uptime
is maximised. PowerWAVE 9000DPA
UPS modules can be paralleled to
provide redundancy (parallel
redundancy) or to increase the
system’s total capacity.

44

Simple power upgrade
True ‘hot-swap’ modularity enables the
safe removal and/or insertion of UPS
modules into a PowerWAVE 9000DPA
system without risk to the critical load
and without the need to either transfer
the critical load onto raw mains or
remove power from the critical load.
This directly addresses today’s
requirement for continuous uptime,
reducing mean time to repair (MTTR).

Future proof installation is assured with
the PowerWAVE 9000DPA’s scalability
and ability to supply the most
demanding of modern loads.

Automatic parallel redundant operation
Parallel redundant (N+1) UPS systems
provide the highest level of reliability by
ensuring that the number of UPS
modules in the system is a minimum of
one over and above the number required
(N) to fully support the critical load. The
PowerWAVE 9000DPA is designed to
automatically operate as a parallel
redundant system, ensuring that the
critical load always receives the highest
possible level of power protection.

Reduced installation and upgrading
costs
Near unity input power factor and low
input THDi
By delivering energy efficiency, scalable
flexibility and ergonomic design, the
PowerWAVE 9000DPA offers a low total
cost of ownership and easy
serviceability.

Supports leading power factors
Blade servers typically have a leading
power factor, which can present
problems to UPS systems, particularly if
they are not designed to power such
loads. The PowerWAVE 9000DPA is
designed to power all types of electrical
loads, including blade servers. It can
provide fully rated output power to
power factors in the range of 0.9 leading
to 0.8 lagging.

45

AC- AC Efficiency

The PowerWAVE 9000DPA’s 96%
true online efficiency, significantly
reduces system running costs and
site air-conditioning costs. This
helps reduce the organisation’s
carbon footprint.

100%

Efficiency %

96%

90%

85%

80%

75%

0
Load

25%

50%

75%

100%

Input power factor

Near unity input power factor, at
partial and full load, reduces
the required size of the input cable
and fuses, thereby reducing the
materials (and costs) associated
with the system’s electrical
installation.

Input power factor

1.00

0.80

0.60

0
Load

25%

50%

75%

100%

THDi

Input current total harmonic
distortion (THDi) of <3% virtually
eliminates harmonic distortion of
the mains supply.

6

5

120%

100%
Room capacity
Expected load

80%

3

2

Cost-effective scalability

1

Ability to ‘right size’ the system over
time

0
0
Load

25%

50%

75%

100%

Simple installation of new modules
Minimal waste
due to load
matching

40%
Actual load
20%

0%
0
Years

1

2

3

4

5

6

7

8

9

10

UPS modules can be added in costeffective incremental steps as the critical
load power requirement grows. This
‘right sizing’ reduces initial cost,
optimises operating efficiency and helps
reduce total cost of ownership.
Up to five UPS modules can be
paralleled in a single rack-format cabinet
to enable up to 200kW (342kW/m2) of
power capacity per cabinet, providing
‘vertical scalability’. If more capacity is
required, cabinets can be paralleled
providing ‘horizontal scalability’.

Leading/Lagging

Fully rated output power in the
range of 0.9 leading and 0.8
lagging

25

-0.90

1.00

0.80

20

Power (kW)

Installed capacity

60%

46

Input THDi %

Right sizing

Capacity

4

15

10

5

0
0

-0.75

-0.80

-0.85

-0.90

-0.95

1.00

0.95

0.90

0.85

0.80

0.75

0.70

0.65

Without derating

47

(100–500 kVA/kW)
Parallelable up to 3 MVA/MW

PowerWAVE 9500DPA

500 kVA/KW
modular UPS,
designed with high
efficiency and
maximum flexibility
at its core.

Total vertical and horizontal
scalability using hot swap
modularity.
Key benefits
Individual static switches per module
Each module has its own display and
controller
Each module has its own control logic
Separate or common battery
configuration

PowerWAVE 9500DPA

Dimensions and clearances

Up to 96% true online efficiency

Dimensions

Eco-mode efficiency ≥ 99%

Width = 1580mm

Cost effective scalability to ‘right size’
system

Height = 1975mm

Unity power factor and low input THDi

Depth = 945mm
1.49m2 footprint

Up to 500 kVA/KW (400 kVA/kW N+1) in
a single frame

Weight (with 5 modules) = 975 kg

Scalable to 3 MVA/MW

Minimal clearances

Transformerless technology

Front 1000mm

Hot swappable 100 kVA/kW modules

Back 300mm (air outlet)

Up to 96% true online efficiency
Eco-mode efficiency ≥ 99%
Low total cost of ownership
99.9999% (six nines) availability
Small footprint/high power density
Unity power factor (kW = kVA)
Low input harmonic distortion
(THDi <3.5%)
Top and bottom cable entry
Graphical touchscreen system display
Xtra VFI mode: maximum efficiency even
when underloaded

PowerWAVE 9500DPA boasts low total
cost of ownership through a combination
of high energy efficiency, scalability and
ergonomic design.
A class-leading online energy efficiency
of up to 96% significantly reduces
system running and cooling costs,
helping to reduce the organisation’s
carbon footprint. Further energy savings
can be made by operating the
PowerWAVE 9500DPA in eco-mode,
which increases the efficiency to ≥ 99%.
The UPS can be ‘right sized’ to optimise
the power required to match the critical
load and modules can be added
incrementally as the load increases. This
means that you only power and cool
what you need, saving power usage over
the life of the UPS.
Additionally, PowerWAVE 9500DPA
has a near unity input power factor at
full load reducing the size of the input
cable and fuses, thereby saving on
materials and costs. Input current total
harmonic distortion (THDi) of less than
3.5% virtually eliminates harmonic
pollution of the mains supply. This saves
unnecessary oversizing of gen-sets,
cabling and circuit breakers, avoids
extra heating of input transformers and
extends the overall lifetime of all input
components.

AC/AC Efficiency with linear, resistive load
100%

Eco-mode
98%

96%

94%

92%

90%
0
Load

25%

50%

75%

100%

High efficiency reaching 96.1%
Flat curve g 95.8% at 25% load

49

Hot swappable modules

Six nines availability

Replace or add modules with
no downtime
Simple power upgrade
Future proof investment
True ‘hot-swap’ modularity enables the
safe removal and/or insertion of UPS
modules into a PowerWAVE 9500DPA
system without risk to the critical load
and without the need to either transfer
the critical load onto raw mains or
remove power from the critical load.

Hot swappable
module

Modules can be replaced or added
without any system downtime. Simple
power upgrades are therefore possible
as the critical load power requirements
grow. Additionally, modules can easily
be removed for service or replaced if
faulty without compromising the
availability of the system.

PowerWAVE 9500DPA UPS 500 kVA/kW

Advanced decentralised parallel
architecture (DPA)

Graphical touchscreen display

99.9999% availability

Distributed control and power

System level display

By combining the benefits of
decentralised parallel architecture,
parallel redundancy and hot swap
modularity, PowerWAVE 9500DPA has a
high mean time between failure (MTBF)
and a much reduced mean time to repair
(MTTR). This delivers six nines
availability – a highly desirable quality
required by data centres in pursuit of
zero downtime.

Independent hot-swap modules

Individual module displays

No single points of failure
Decentralised parallel architecture (DPA)
means each UPS module contains all the
hardware and software required for full
system operation. They share no
common components so a DPA parallel
system offers extremely high availability.
In addition, potential single points of
failure are eliminated and system uptime
is maximised. UPS modules can be
paralleled to provide redundancy
(parallel redundancy) or to increase the
system’s total capacity.

The 7” colour touchscreen display
provides a clear overview of the UPS at a
system level. Graphical and intuitive, the
display provides easy navigation to drill
down on the performance and status of
the individual modules within the
system. Additionally, each module has
its own display.

Graphical touchscreen
system display

500 kVA/kW

Top cable entry

Vertical scalability

Smart connection
interface

Optional inbuilt
maintenance
bypass switch

Individual module
isolator

Inbuilt backfeed
protection

Bottom cable entry

50

51

Xtra VFI: maximum
efficiency – even
when underloaded.

Xtra VFI
Maximum load = 800 kW
98%

Efficiency
75
75

50
50

2 x 500 kW frames (10 x 100 kW)

92%

Load power = 200 kW

90%

No. of active modules = 4

88%

Active capacity = 400 kW

Increased UPS Efficiency - More Energy Savings

Standby capacity = 600 kW

Xtra VFI
Operating Range
where Efficiency
is Enhanced

84%

82%

VFI Double Conversion
Default Operating Mode - Up to
96.1% Efficiency

Load

25
25

0
Load

Scalable up to 3 MVA/MW

25%

50%

75%

100%

Increased UPS efficiency – more energy savings
90%

88%

86%

84%

82%

VFI double-conversion
default operating mode –
up to 96.1% efficiency

Xtra VFI
operating range
where efficiency
is enhanced

%

0%
10

%

95

%

90

85

%

%

80

75

%
70

%
65

%
60

%

%

55

%

50

%

45

%

40

35

%

80%
%

0.60

92%

30

0.80

94%

%

Near unity input power factor, at
partial and full load, reduces
the required size of the input cable
and fuses, thereby reducing the
materials (and costs) associated
with the system’s electrical
installation.

95.6%

25

1.00

96.0%

95.8%

%

Input power factor

96.1%
96%

20

-0.8 -0.85 -0.9 -0.95 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0.65 0.60
-0.8 -0.85 -0.9 -0.95 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0.65 0.60
cosphi
cosphi

98%

%

0
0

With Xtra VFI mode enabled, the
PowerWAVE 9500DPA automatically
adjusts the number of active modules
according to the load requirements.
Modules that are not needed are
switched to standby but remain in state
of readiness, primed to kick in and
transfer to active mode if the load
increases or the mains fails. The
efficiency improvements achieved by
this mode of operation are especially
significant when the load is less than
25% of full UPS system capacity.

15

kVA
kVA
kW
kW

Load

In addition, Xtra VFI has the added
benefit of rotating modules between
active and standby, therefore extending
the service life of the UPS.

Vertical scalability:
one to five modules in one single cabinet

Key benefits
Xtra VFI scales the UPS module active
capacity according to the load to
maximise efficiency
The system calculates the optimal %
value for maximum efficiency, taking into
account desired redundancy
Horizontal scalability:
six cabinets in parallel configuration up to 3 MVA/MW

The redundancy level for active capacity
and the highest expected load step can
be configured by the user to guarantee
highest protection level
In case of mains failure or alarm, Xtra VFI
gets deactivated automatically all
modules switch to ‘Active’ status
Module rotation between active and
standby extends the service life and
stabilises aging

52

53

95
%

10

90
%

85
%

80
%

75
%

70
%

65
%

60
%

55
%

50
%

45
%

40
%

35
%

30
%

25
%

20
%

15
%

10
%

80%
5%

No derating in the range
0.9 leading to 0.6 lagging

9

94%

86%

10

PowerWAVE 9500DPA can be scaled
vertically in 100 kVA/kW modular steps
to provide up to 500 kVA/kW of power in
a single frame. This enables power to be
added as requirements grow, without the
impact on footprint. Horizontal
scalability is also possible, with up to
6 frames in parallel, to increase total
power up to 3 MVA/MW. This twodimensional scalability means that there
is no need to overspecify the original
configuration, as modules and/or frames
can be added to optimise the power
requirements and increase/decrease
power to meet future requirements.

100
100

When a UPS is operating
significantly under capacity,
its energy efficiency can be
negatively impacted. With
PowerWAVE 9500DPA,
featuring Xtra VFI, this
problem is solved.

5%

Cost effective ‘right sizing’

Power vs power factor
Power vs power factor

96.0%

95.8%

Efficiency

Vertical and horizontal scalability

Input and output characteristics

Input power factor

Scalable up to 3 MVA/MW

96.1%
Redundancy = N+2

96%

PowerWAVE Generators

Single and three-phase
standby generators.

PowerWAVE generators
Standby generators for total
power protection
Integrated PowerWAVE generators
and UPS systems
Fully matched solutions for true,
‘no-break’, total power protection

24/7 standby power.

Single source installation, technical
support and service
A truly turnkey, one-stop-shop for
standby power

Total power protection
solutions
No longer simply a back-up plan,
critical power protection is an essential
requirement of every business. If critical
applications must be available at all times,
without downtime, then a standby
generator is the only practical source for
long-term power protection during an
extended mains outage.
Part of the Kohler Company’s Global
Power Group, UPS Ltd leverages Kohler’s
technical leadership in the global
generator industry to provide a
comprehensive range of standby diesel
generators to deliver reliable power
when it’s needed most.
Radiator

Fuel tank
Engine
Control panel

Alternator

55

Acoustic enclosures

PowerWAVE T series

PowerWAVE V series

Noise compliant to latest EC directive

Single phase (8–17 kVA)

Three phase (275-700 kVA)

2000/14/EC

Three phase (11–22 kVA)

High specification range of UPS
generators providing ‘turnkey’ backup
power with TELYS control panels fitted
as standard. Each generator is powered
by a Volvo engine. Built-in fault-finding
tools and remote operation for a reliable
power supply during mains failures.
Available ‘open’ or within a weatherproof
enclosure for added protection from the
elements. Standard and DW24 tank
options.

Integral bunded fuel tanks
UPS Ltd’s range of acoustic enclosures
has been designed to withstand even
the harshest and most extreme climate
conditions. Their compact design has
been developed specifically to save
space and costs – a plus for today’s
streamlined business environments.
They are highly transportable, easy to
install and due to their integrated cooling
system, sound attenuation and silencers
are completely self-contained.

Bulk fuel tanks

PowerWAVE J series

PowerWAVE D series

Environment Agency PPG02 compliant

Three phase (22-250 kVA)

Three phase (275-830 kVA)

Series of three-phase UPS generators
providing power from 22 to 250 kVA.
Each generator is powered by a John
Deere engine for reliable backup during
power failures. Bunded fuel tank
minimises diesel spillage, with additional
fuel tank capacity to extend run time.
Models available for commercial and
industrial use. Standard, DW24 and
DW48 tank options.

Power products generating set,
equipped with a DOOSAN engine.
Standard and DW24 tank options.

Content gauges and overfill alarms

Standalone generator

One-stop-shop – installation
and services ‘turnkey’ solution

Reliability and durability

Whether it’s a standalone generator or a
generator and UPS combined as a total
standby power solution, UPS Ltd
supplies products engineered to the
highest specifications for today’s
commercial environments.

UPS Ltd’s turnkey UPS and generator
package guarantees both systems are
fully matched, which ensures a true
no-break supply in the event of a power
failure. Turnkey supply and project
management ensures the correct sizing
of the generator set with respect to the
UPS and critical load. Our fully trained
service engineers will test the complete
installation to verify system integrity,
removing the problem of demarcation
between different suppliers.

PowerWAVE generators are highly
reliable. We only supply products that we
know are going to be with you a long
time, which will never fail to provide you
with back-up power whenever you need
it. PowerWAVE generators offer leadingedge control panel technology,
versatility, durability, operation and
maintenance. Weatherproof enclosures,
for example, and protective coverings
for vital parts, reduce wear and tear and
aid longevity.

The PowerWAVE generator brand
stands for high reliability, low cost and
durability. Whether you buy a single
generator or a complete solution, all
products have the backing of
comprehensive technical support,
commissioning and maintenance
services with excellent service delivery.

PowerWAVE generators
Single and three-phase standby
generators. 24/7 standby power.

Powerful series of standby generators
available in 6 models for single and
three-phase business applications.
Each generator is built with a high
performance Mitsubishi engine for
reduced noise pollution and improved
fuel efficiency. Available as an ‘open’
generator or within an acoustic
enclosure to further minimise noise
emissions. Standard and DW24 tank
options.

‘Bunding’, in a fuel tank, minimises the
risk of spillage and offers total security
alongside compliance with Environment
Agency PPG2 regulations for the storage
of diesel fuel. We can provide a wide
range of bunded fuel tanks, ready to use.
All our tanks are available in different
specifications, depending on customer
and site requirements. The correct
installation of bunded fuel tanks is just
as important as the quality of the tank
itself. Using single or double-skinned
pipework, our team of experts install and
test bunded fuel tanks to ensure they are
fully compliant with applicable
regulations and in complete working
order.

Bespoke acoustic packages
Plantroom attenuation
Acoustic enclosures / containers
Every installation is different and some
require bespoke acoustic engineering.
At UPS Ltd, we’ve made it our business
to design solutions around the customer
and this is evidenced by our ability to
customise acoustic packages that
include container design, plantroom
design, groundworks, mechanical
installation, cabling, pipework and
associated works required to meet the
exact requirements of the installation.

All sets available open or canopied.

56

57

Your choice of control
Most generators supplied by UPS Ltd
have a choice of control panel options.
Generators these days are extremely
reliable with almost all enabling both
automatic and manual operation. The
choice of an appropriate control panel is
therefore down to how much additional
monitoring is desired. A more advanced
control panel offers enhanced userfriendliness and diagnostics capability.
It does all this with a reduced number of
buttons, thus simplifying operation.

Changeover panels
UPS Ltd provide a choice of two high
quality automatic changeover panels –
the VERSO 100 and 200 – to enable
automatic start-up of the standby
generator and safe, fast transfer of the
load in the event of a mains power cut.
When mains power is restored, these
changeover panels will automatically
disconnect the generator and connect
the load back to the mains.
The VERSO 100 is rated for applications
from 35 to 160 amp.

APM 303 control panel

TELYS control panel

Entry level control panel

Advanced control panel

LCD screen for basic engine and
alternator operational parameters

Simplified operation

LED alarm and fault indication
Our entry level product is the APM 303
panel. APM 303 is fitted as standard on
all PowerWAVE T and J series standby
generators. It provides both manual and
automatic operational control of the
generator and provides a basic
indication of operational parameters, as
well as alarm and fault indication via its
standard LCD screen. Additionally, LED
indication of alarms and faults are also
provided.

Large backlit LCD makes engine/
alternator parameters easy to read
Built-in fault-finding tool
Enhanced communication
Integrated maintenance monitoring
programme
The more advanced TELYS panel offers
enhanced operational user-friendliness
and a diagnostics capability. The
combination of its large backlit LCD
screen and its ability to adjust the
contrast to ambient light conditions
makes operational parameters easy to
read. Additionally, the generator can be
controlled and operating parameters
viewed remotely – without the need to
install specific software – via USB,
Ethernet or RS485 ports. TELYS also has
a built-in fault-finding tool for fault or
alarm diagnosis. TELYS is fitted as
standard on the PowerWAVE V series of
generators, but can be factory fitted in
place of the APM 303 to provide
enhanced capability to the PowerWAVE
T and J series generators.

The VERSO 200 is rated for higher
applications from 200 to 1600 amp and
has the additional benefit of an LCD,
allowing the voltage and frequency
parameters on both the mains and
generator sides to be simultaneously
displayed.

58

59

(Single phase 500 VA – 30 kVA
Three phase 10-160 kVA)

PowerWAVE EL

Efficient power for
emergency lighting
and safety equipment.

PowerWAVE EL
Designed to the latest European
EN 50171
True double-conversion and PWM
technology
Inverter stage output galvanic isolation
transformer included
Capable of 120% continuous overload
to meet European emergency lighting
regulations
Parallel mode operation (optional) (hot
standby, redundant, symmetric parallel)
Large charger for faster recharge of
batteries
Maintenance bypass (for complete
isolation of the inverter during
maintenance)
Unique inverter design to suit high inrush
lighting loads
Bypass to load (changeover mode) user
selectable
LCD panel providing accurate detailed
information about load, batteries and
inverter with advanced diagnostics
RS232 and dry contacts for
communication and remote monitoring

Addresses the need for
a range of high performance
static inverters
manufactured using
state-of-the-art technology
to give your operation the
peace of mind it needs.
Boasting true double-conversion and
PWM technology, the entire range is
capable of 120% continuous overload
and has optional parallel modes. UPS
Ltd’s most intelligent battery monitoring
maximises service life and a galvanic
isolation transformer is included as
standard.

61

Common applications

PowerWAVE EL 100XA series

PowerWAVE EL 100 series

Central power supply systems

High performance static inverter
(500-3000VA)

Single-phase input and output
online static inverter (4-12 kVA)

Fire alarm and safety systems

Wall-mounted and standalone options

System and battery test function

Allows for an internal self-contained
battery system capable of supplying
standard emergency lighting of 3 hour
autonomies

Solution for higher power, single-phase
loads

Emergency lighting systems

Hospital and medical systems
Cinemas and entertainment venues
Retail

Fully encapsulated product for lower
rated requirements
High reliability with low maintenance
Low operating cost
Wide range of standard ratings available
Battery options to suit all applications

Galvanic isolation transformer at the
inverter stage
High reliability with low maintenance
Low operating cost
Wide range of standard ratings available
Battery options to suit all applications
Intelligent battery monitoring to
maximise service life
Simple & easy to install with front access

Intelligent battery monitoring to
maximise service life
Simple & easy to install with front access

PowerWAVE EL 200 series

PowerWAVE EL 300DSP series

Three-phase input and single-phase
output static inverter (10-20 kVA)

Three-phase input & output
static inverter (10-160 kVA)

Solution for higher power, single-phase
loads

Solution for higher power, three-phase
loads

Galvanic isolation transformer at the
inverter stage

High reliability with low maintenance

High reliability with low maintenance
Low operating cost
Wide range of standard ratings available
Battery options to suit all applications
Intelligent battery monitoring to
maximise service life
Simple & easy to install with front access

62

Low operating cost
Wide range of standard ratings available
Battery options to suit all applications
Intelligent battery monitoring to
maximise service life
Simple & easy to install with front access
IP41 as standard: suitable for harsher
environments

63

Battery system care

PowerNSURE

Battery design, installation
and continuous care.

Battery services
Advice on battery system design
‘Made to measure’ battery installation
service
Battery impedance testing to track
battery condition
Inspection, cleaning and maintenance
options to ensure battery working life
is optimised
Battery replacement programme for
a wide range of battery supported
products
Safe battery disposal
Monitoring and regulation of batteries
to extend battery life and prevent
unexpected failure using PowerNSURE

Pioneering solutions
for total power protection.
The battery plays a key role in the overall
reliability and availability of a power
protection system. It supplies the energy
required by the critical load in the event
of a mains utility failure or when the input
mains voltage and frequency are outside
the acceptable values. Moreover, the
battery represents an important share of
the total cost of the UPS, and therefore
battery care and management are of
paramount importance when a UPS is
designed.
UPS Ltd provides a range of remote
monitoring and diagnostics services to
provide early fault detection and
prevention. PowerNSURE is the most
advanced monitoring product on the
market today.

65

Inspection, cleaning
and maintenance
Regular maintenance optimises the
working life of a battery installation and
ensures early detection of weak or faulty
battery blocks. If not replaced, a
compromised battery would threaten the
integrity of the whole power protection
system. Routine battery maintenance
provided by our skilled team of specialist
engineers includes:

Replacement and upgrade
We supply and fit batteries of all types
into all models of UPS and secure power
systems. Additionally, UPS Ltd offers a
battery replacement programme for a
wide range of battery supported
products. These include AC UPS, DC
equipment, emergency lighting units and
generator starting batteries.

– Checking the open circuit battery and
UPS float voltages

Disposal

– Inspecting the physical condition of
batteries, terminals and connections

Batteries are classed as hazardous
waste and, in the UK, must be disposed
of in line with the Hazardous Waste
Regulations 2005. As a registered carrier
of such waste (registration number
TWE/675610), UPS Ltd ensures that all
the legal requirements associated with
the removal, transportation and disposal
of waste batteries are fully complied with.

– Environmental checks – ambient
temperature of battery room
– Checking the cleanliness of
equipment
– Assessing the condition of battery
cabinets
– Performing a detailed examination
of individual cells for post and
interconnector corrosion
– Taking voltage readings – block and
string voltages

PowerNSURE
16

Extends battery life by equalisation
Monitors and regulates the battery
charging process and avoids
undercharging
Indicates battery problems before failure

Impedance testing

15
14
13

Block voltage

12
11
10
9

Monitors condition of every battery
individually including temperature

09:12

09:42

10:12

10:42

11:12

11:42

16

The PowerNSURE system from UPS Ltd
is the most advanced product on the
market today, providing an ethernetnetwork integrated battery monitoring
and management system. Using webmanagement technology, it checks the
internal resistance, temperature and
voltage of every single battery
sequentially. Through the equalisation
process, the system corrects the
charging voltage operating range. This
prevents gassing, dry-out and thermal
runaway. The constant monitoring and
controlling of the individual charging
voltages for each battery guarantees the
availability of the battery at all times.

66

15
14
13
12

Our impedance testing provides a
means of assessing the internal
condition of batteries. Almost any
battery problem will lead to an increase
in internal impedance. Recorded at
regular intervals, impedance testing will
track battery condition and enable
end-of-working-life prediction. This
service is included as part of the
PowerNSURE system or can be
purchased separately.

Quality guaranteed
Our quality assurance, health and safety
and environmental procedures are BSI
EN ISO 9001, OHSAS 18001 and ISO
14001 certified. We are also certified
under the SafeContractor scheme
(www.safecontractor.com). These
certificates ensure that all of your
obligations under health and safety
legislation are fully met. All battery
maintenance visits and activities are
fully documented.

11
10
9
0

1

2

3

4

5

6

7

8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

Battery block numbers

PowerNSURE reporting
The reporting system displays the status
of all lead-acid batteries. Any change in
impedance, temperature and voltage is
displayed and stored. Reports can be
run regularly on site, enabling constant
monitoring of the system using the
PowerNSURE viewer. Through regular
monitoring of key parameters, the
system will provide a warning when
attention is required.

The graph above demonstrates that
battery 6 is weak after 30 minutes of
discharge into a 45-minute run. This
early warning system enables the user to
replace the weak performing battery and
thus increase the lifetime of the
complete battery system.

67

PowerREPORTER

24-hour remote monitoring
service for UPS systems.

Benefits
Continuous monitoring and
management of your UPS
Ideal for mission-critical systems and
unmanned sites
Alarm-triggered interrogation of UPS
parameters for remote diagnosis
Prevention and early fault detection
Dedicated UPS Ltd Support Centre –
manned 24/7/365 to ‘collect, assess and
respond’
Combined with a maintenance contract,
PowerREPORTER improves service
levels, enabling engineer to arrive onsite
with the correct spares
Complete assurance of continuous
availability

A ‘virtual’ power engineer
on your site 24 hours a day.
Total power protection
solutions
PowerREPORTER is specifically
designed to ensure your business’
critical load is protected by dedicated,
trained personnel, even when your
facility is unmanned.

69

How PowerREPORTER works

PowerREPORTER communicates
constantly with your UPS system in
order to automatically detect any error or
alarm messages. In the event of an
incident being detected,
PowerREPORTER automatically
connects with UPS Ltd’s Service Centre
network via email, transmitting a status
message and providing any available
details relating to the fault, as well as
a device identification string.
UPS Ltd’s Service Centre personnel are
then able to liaise with the company’s
field service team who can interrogate
and manage the UPS, performing all
necessary remote diagnostics before
reaching the facility within the
contracted service agreement
timeframe.

PowerREPORTER
Specifically designed to
ensure your business’
critical load is protected by
dedicated, trained
personnel, even when your
facility is unmanned.

Your fully customised
monitoring solution

Monthly UPS Ltd Status Report
Example screenshots of power outages from a client site.

Installation and maintenance of your
power surveillance system
Email connectivity

Input and output voltage

Real-time email notification sent in
response to alarm/critical events directly
to UPS Ltd Support Centre

The input voltage data on this
graph clearly shows the first
major power cut. The output
voltage is unaffected and steady
on all 3 phases throughout.

271
244
217

Monthly UPS Ltd status report detailing
trends and alarms

190

Optional battery monitoring via
PowerNSURE – measuring battery
parameters to help prevent battery
failure

135

163

108

Input voltage (1)
Input voltage (2)

101

Input voltage (3)
54

Input voltage (1)
Output voltage (2)

27
0
0:00 2:00 4:00 6:00 8:00 10:00 12:00 14:00 16:00 18:00 20:00 22:00 0:00

Output voltage (3)

23. 3. 2012 (5 min average)

“PowerREPORTER provides
valuable eyes and ears in our
server room during weekends,
out of hours and unmonitored
periods with engineer backup.
We have previously been called
by the engineer, out of hours,
and the problem rectified before
the next working day.
PowerREPORTER
communicates securely and
further provides the capability for
us to monitor the system’s web
front-end, plus it has a remote
power-off capability.”

Load

A London-based Hedge Fund
organisation

286

This graph demonstrates how the
load was supplied throughout the
mains failures.

49
48
47
46
45
44
43
41
40
Load (1)

39

Load (2)

38
0:00 2:00 4:00 6:00 8:00 10:00 12:00 14:00 16:00 18:00 20:00 22:00 0:00

Load (3)

23. 3. 2012 (5 min average)

Battery voltage
280

This graph clearly shows the
battery voltage discharge and
recovery as the charger returns
after each mains failure.

274
267
261
255
Servers with
power REPORTER
software

Alarm Event Data
and monthly report

Customer
Site
UPS

249
243
237
231

UPSL
email server

Consulting specialists

UPSL 24 hour
Helpdesk

Analyst

225
0:00 2:00 4:00 6:00 8:00 10:00 12:00 14:00 16:00 18:00 20:00 22:00 0:00

Battery voltage

23. 3. 2012 (5 min average)

Server
UPS
with power
REPORTER

Site
manager

Batteries

Battery
care
system

Email

Service
co-ordinator

UPS Service Engineer

70

71

Service Solutions

Flexible service plans,
load bank testing,
UPS and generator rental.

Service solutions
Maintenance
UPS maintenance contracts
Generator maintenance contracts
Batteries
Battery replacement and upgrade
Load bank testing
Impedance testing
PowerNSURE battery monitoring
Battery disposal
Monitoring
PowerNSURE battery monitoring
PowerREPORTER remote UPS
monitoring
Generator monitoring
SNMP onsite monitoring
Onsite
Site survey
Installation & commissioning
Black building testing
Load bank testing
UPS relocation and disposal

Pioneering solutions for
total power protection.
At UPS Ltd, our core business is the
design, installation and maintenance of
secure power protection systems.
Delivered by our trained engineers and
support staff, we offer the most
comprehensive and cost-effective
service plans available ensuring your
power protection systems are expertly
maintained on a regular basis and ready
to support your business load.

73

Maintenance

UPS maintenance contracts

Generator maintenance
contracts

Battery replacement
and upgrade

Load bank testing

PowerNSURE battery
monitoring

UPS Ltd’s maintenance plans offer the
flexibility to choose the level of service
needed to ensure that risks and costs
are minimised. They all provide regular
maintenance visits and you can choose
the level of service time you need to suit
your business requirements. To
maximise the reliability of your UPS, a
service plan from UPS Ltd also ensures
critical component degradation is
identified and that repairs or
replacements are carried out before a
fault occurs. Immediate spares
availability is assured through our
extensive spares inventory.

UPS Ltd offers a comprehensive and
cost-effective range of service plans to
ensure your standby generator is ready
to perform when it is needed most. Our
standby generator service plans cover
all key components including engine,
alternator, control system, fuel, exhaust,
cooling and air handling systems.

We supply and fit batteries of all types
into all models of UPS and secure power
systems. UPS Ltd also offers a battery
replacement programme for a wide
range of battery supported products. We
can supply a replacement UPS battery
compatible with your AC UPS, DC
equipment, emergency lighting and
generator starting batteries

Comprehensive commissioning
procedures and the regular testing and
maintenance of UPS systems and
batteries go a long way towards ensuring
the integrity of a power protection system.
However, there is only one certain way of
establishing that all the components of
the system will function correctly together
and perform as intended when required
– load bank testing.

The PowerNSURE system from UPS Ltd
is the most advanced product on the
market today, providing an ethernetnetwork integrated battery monitoring
and management system.

Features
Routine inspection and preventative
maintenance
Emergency call-out options including
guaranteed speed of response, 24 hours
a day, 365 days a year
Remote monitoring (optional)
Battery maintenance
Fully comprehensive cover available

Since generators are usually inoperative
for long periods, regular service is
needed to ensure that they are fully
functional and able to supply power
when required. All our service plans offer
the flexibility to choose the level of
service needed to ensure that risks and
costs are minimised. They all provide
regular maintenance visits and you can
choose the level of response time you
need to suit your business requirements.

Inspection and cleaning
Electrical, hydraulic and lubricant checks

Battery checks and maintenance

Comprehenive plans competitively
priced optimising UPS availability – with
no unscheduled budgetary surprises

Oil sampling and changing, air and water
filter replacement

Guaranteed response times to site –
we’re there when we say we’ll be there

Load bank testing (optional)

Service for a wide range of UPS brands
Support contracts tuned precisely to
each installation, so you only pay for the
service level you need
Remote monitoring options to
complement telephone support
Extensive spare parts inventory ensuring
maintenance and repairs are carried out
without delay

Impedance testing

Engine maintenance and repair

Fuel checks and replenishment

Extensive network of trained field service
engineers

A key benefit of regular battery
maintenance is the early detection of
weak battery blocks. As they are such a
critical part of a power protection
system, replacement of weak battery
blocks should therefore take place
before they fail. If a UPS replacement
battery is not purchased, a weak or
faulty battery will compromise the
integrity of the whole power protection
system.

Features

Key benefits

24/7 telephone support for an instant
response to your service needs

74

Batteries

24/7 emergency support
Identification of critical component
degradation
Immediate spares availability
We will communicate with you right
through the service process, proactively
managing your service visits and
organising the best time to visit to
minimise any disruption.
All this not only ensures your power
protection system will guarantee your
business continuity but assures your
peace of mind.

Almost any battery problem will lead to
an increase in internal impedance.
Recorded at regular intervals,
impedance testing will track battery
condition and enable end-of-working-life
prediction for individual cells, so
batteries can be replaced before they
cause a critical power protection failure
An electrical current is passed through
each battery in turn and a measurement
taken. The internal impedance of each
battery is then calculated, logged in a
table and plotted on a graph.

Fully loading the power support system
stresses all components. It is clearly
preferable to identify potential
weaknesses under controlled conditions
rather than to wait until the system is
supporting a critical load. It is also cost
effective to acquire this service and the
expertise and experience of a
professional specialist service provider.
Load bank testing is the provision and
connection of an electrical load to a
power supply, often a UPS, in order to
simulate the client’s load and prove the
integrity of the overall system. Load
bank testing ascertains the performance
of the UPS, and of the entire electrical
supply infrastructure including cabling,
switchgear, generator and fuses. A load
bank can also be used to discharge
batteries as an effective, accurate and
relatively low cost method of
determining battery autonomy.

Using web-management technology,
PowerNSURE checks the internal
resistance, temperature and voltage of
every single battery sequentially.
Through the equalisation process, the
system corrects the charging voltage
operating range. This prevents gassing,
dry-out and thermal runaway. The
constant monitoring and controlling of
the individual charging voltages for each
battery ensures the availability of the
battery at all times.

Battery disposal
We manage the safe and environmental
disposal of batteries and replacement
UPS batteries in line with Hazardous
Waste Regulations. As a registered
carrier of such waste, UPS Ltd ensures
that all the legal requirements associated
with the removal, transportation and
disposal of waste batteries are fully
complied with.

Key benefits
Mobile AC/DC load banks of any size
Engineer-controlled tests carried out to
individual requirements
Battery autonomy and integrity testing

A report will be provided after the
batteries have been tested detailing the
status of each bank and advising which,
if any, will need to be replaced.

Out-of-hours testing to suit the client’s
operational requirements

This service is included as part of the
PowerNSURE system or can be
purchased separately.

75

Monitoring

PowerNSURE battery
monitoring and care

Generator monitoring

All UPS systems rely on the integrity of
batteries to protect the critical load in the
event of a power failure. To ensure
the integrity of your secure power
system is not compromised, we provide
a comprehensive range of battery
services including design installation,
maintenance, monitoring, replacement
and disposal.

The new Remote Monitoring Systems
are much more than just a piece of
communication hardware fitted to your
generator. UPSL’s Remote Monitoring
System is an industry-leading,
monitoring, management and fault
rectification system integrating the latest
GSM communications technology with
the best 24/7 generator support
personnel anywhere in the world.

See pages 64–67.

PowerREPORTER remote
UPS monitoring
PowerREPORTER is specifically
designed to ensure your business’
critical load is protected by dedicated
trained personnel, even when your
facility is unmanned.
See pages 68-71.

SNMP onsite monitoring

Once a week, the system automatically
starts your generator and runs it for 10
minutes, checking vital operating
parameters such as voltage, frequency,
oil and water temperature, battery
condition, emergency stop and fuel
levels. After the test, a full condition
report is sent to the remote monitoring
centre via phone line or GSM upload.
You can also choose to receive SMS or
voicemail reports sent to nominated
numbers.
If your standby generators are in action,
or you’re using prime power generators
equipped with the latest monitoring
system, you get 24-hour monitoring,
365 days a year.
Features include:

Connect your UPS directly to your
computer network as a network device
with UPS Ltd’s SNMP solution. Contact
us on 0800 731 3269 for more
information.

Fully automatic operation 24/7
Continuous monitoring of generator
conditions
Notification of mains failure and
generator operation
Confirmation of a successful test run
Automatic low fuel warning
Based on a common platform, the
monitoring system can be fitted to new
or existing generators and programmed
to monitor a huge range of parameters
including:
– Electrical – voltage, current,
frequency of generator and mains
power
– Mechanical – engine data including
speed, oil pressure, and temperature
– Physical – location of the generators
using the GPS network
– Remote control – test running, fuel
levels, alarms and alerts
– Site specific requirements – intruder
alarms, fire alarm, etc.

76

77

On site

On site

Site survey

Installation and commissioning

Black building testing

Load bank testing

UPS relocation and disposal

UPS Ltd’s experienced team of
engineers are able to provide a free site
survey, to offer you a choice of power
protection solutions tailored to your
requirements and budget.

Both UPS and generators must be
properly installed and commissioned to
ensure a long and trouble-free working
life. Whilst small less sophisticated UPS
systems simply plug into a standard
mains socket, larger UPS systems –
must be electrically installed and
commissioned by skilled and qualified
professionals. Likewise with generators;
larger standby generator systems should
be professionally installed and
commissioned. Additionally, a generator
must be properly matched with all other
power equipment for continuous power
to be guaranteed.

UPS Ltd’s trained service engineers can
be on hand to monitor your UPS
systems during your annual IST
(Integrated System Test) black building
testing.

Comprehensive commissioning
procedures and the regular testing and
maintenance of UPS systems and
batteries go a long way towards
ensuring the integrity of a power
protection system. However, there is
only one certain way of establishing that
all the components of the system will
function correctly together and perform
as intended when required – load bank
testing.

Relocation

The free survey is offered during normal
working hours within our service network
covers area.
A typical UPS site survey will last around
1-2 hours depending on the size of the
installation. Full recommendations and
quotations will be provided after the
survey has been completed.
UPS Ltd endeavours to assess the
following areas during the survey:
– Load size
– Physical location and environment
– Suitability for existing UPS and
battery installation
– Delivery route and logistics
requirements
– Remote monitoring requirements
– Ongoing maintenance and technical
support requirements
– General programme of works and
preferred installation timeframe

As a leading generator supplier, our
project team will work closely with you,
from start to finish, ensuring your UPS
and/or generator installation is
commissioned safely, on time and with
minimal disruption to your business.
Our factory trained, highly skilled fieldservice engineers will commission and
test the complete power protection
system. They work in accordance with
factory-issued commissioning
procedures and written method
statements and provide full
commissioning certification for warranty
validation.
Key benefits

Black building tests are normally carried
out to test for high availability,
performance, business continuity plans
and recovery capabilities in a disasterlike scenario. For example, the testing
will result in the electrical power to the
entire building being shut off imitating a
street power outage.
Black building tests tend to be carried
out to:
– Simulate a total power failure –
leading to a complete power shutdown in a facility
– Test the functionality of generators,
simulating a total (external) power
outage, replaced by generatorprovided energy. This does not touch
any equipment except generators,
thus not causing any disruption to
systems
Why Is the test important?
Equipment loss of power can result in
compromised:

Full project management including site
assessment, delivery and positioning

– Safety

Organisation of any electrical and
mechanical work required

– Comfort

Extensive network of trained field service
engineers
Certification to BSI EN ISO 9001,
environmental procedures ISO 14001,
health & safety procedures OHSAS
18001 and SafeContractor scheme

– Product and equipment protection
– Staff convenience
Key benefits
UPS Ltd offers skilled and qualified
engineers to attend site during the test
period to monitor the UPS systems
Fully documented, procedures ensuring
full traceability of all test events and
actions

Fully loading the power support system
stresses all components. It is clearly
preferable to identify potential
weaknesses under controlled conditions
rather than to wait until the system is
supporting a critical load. It is also cost
effective to acquire this service and the
expertise and experience of a
professional, specialist service provider.
Load bank testing is the provision and
connection of an electrical load to a
power supply, often a UPS, in order to
simulate the client’s load and prove the
integrity of the overall system.
Load bank testing ascertains the
performance of the UPS, and of the
entire electrical supply infrastructure
including cabling, switchgear, generator
and fuses. A load bank can also be used
to discharge batteries as an effective,
accurately and relatively low cost
method of determining battery
autonomy.

If you have a requirement for a UPS to be
relocated either to a different room within
the same building or to a brand new
location, UPS Ltd can assist you.
The relocation of a UPS involves the
decommissioning, safe transportation
and recommissioning of the UPS,
associated batteries and electrical
switchgear. Using trained engineers and
our highly experienced logistics team,
UPS Ltd can assist with this. Should you
require help with the associated
electrical works, we can accommodate
this using one of our electrical contractor
service partners.
UPS disposal
If you have a requirement to dispose of
a UPS, UPS Ltd can assist with a wide
range of UPS brands.
Using trained engineers and our highly
experienced logistics team, we can carry
out the disposal of the UPS and
associated batteries. Our engineer will
ensure that the UPS is safely
decommissioned ready for our logistics
team to pack and palletise the UPS and
batteries for transportation and disposal.

Key benefits
Mobile AC/DC load banks of any size
Engineer-controlled tests carried out to
individual requirements
Battery autonomy and integrity testing
Out-of-hours testing to suit the client’s
operational requirements

‘Safe method of work’ covering the
power down and power up of a UPS
and/or generator
UPS Ltd’s ISO procedures and
certifications assure quality of service
and compliance with health and safety
legislation

78

79

80
81

Technical Specifications

MINIpowerPLUS

PowerWAVE 1000

All models

Model

1 kVA

2 kVA

3 kVA

Input voltage (nominal)

230V

Input

Input frequency

50/60Hz ±2% autosensing

Nominal voltage

110–130 VAC @ 60% load/150–300 VAC @ 75% load/180–300 VAC @ 100% load

Input voltage range

184 to 264V at 100% load, 100 to 264V at 50% load

Frequency

50/60Hz ±5Hz (auto sensing)

Input power factor

>0.99 at 20% load

Phase

Single phase

Input current total harmonic distortion

<3%

Power factor

≥0.99 (full load)

Output voltage

230V ± 1%

Output

Output frequency

50/60Hz synchronised

Voltage (VAC)

200/208/220/230/240

Voltage regulation

+/-1% (until low battery warning)
1000VA / 900W

Overload capacity
Online modes

150% for 30s, 200% for 5s, 300% for 1s

Capacity

Battery modes

160% for 15s

Wave form

Sine wave, THD<3% (no load to full load)

Protection degree

IP 21

Frequency

50–60 Hz +/-0.2% unless synchronised to line

Standards

EN62040-1, EN50091-2, EN62040-3

Transfer time inverter to bypass

4 ms (typical)

Batteries

3 x 12V 9 Ah sealed lead-acid, maintenance-free batteries per board (standard)
Up to several hours available on request

Crest factor

3:1

Efficiency (AC to AC) full load @ 230V

90%

91%

91%

Efficiency (eco mode)

97%

97%

97%

Autonomy (built-in battery)

>4 min

DC start

Yes

MINIpowerPLUS tower

5000

Rated power (kVA)

1.25

2.5

3.75

5

5

6.25

7.5

8.75

10

Active power (kW)

0.875

1.75

2.625

3.5

3.5

4.375

5.25

6.125

7

Dimensions (mm) WxDxH

270 x 475 x 570

Weight (kgs)

23.5

Battery

Internal (external optional)

MINIpowerPLUS rack

5000

Rated power (kVA)

1.25

2.5

3.75

5

Active power (kW)

0.875

1.75

2.625

3.5

Dimensions (mm) WxDxH

483 x 600 x 266

(6 U)

Weight (kgs)

23.5

43

Battery

Internal (external optional)

See page 14 for full product overview.

10000

34

34

270 x 475 x 570
43

53

24

26.5

3000VA / 2700W

4 ms (typical) / 0 ms (optional)

>3 min

Battery
29

External (additional cabinets)

53

2000VA / 1800W

31.5

34

Type

Sealed lead acid maintenance free

Capacity

7Ah

Quantity (pcs)

3

9Ah
6

6

Display
LED/LCD

Normal, battery, bypass, programmable outlet 1, programmable outlet 2, self-test, battery weak & bad, site wiring fault,
fault, overload, and load/battery level conditions

Key

On button/off button (test/alarm silence button)

Self-diagnostics

Upon power on and software control

Protection
Overload AC mode & backup mode
(delay before switching to bypass)

<105% continuously. >106%-120% for 30 seconds transfer to bypass. >121%-150% for 10 seconds transfer to
bypass. >150% immediately transfer to bypass. Buzzer continuously alarms

Epo

UPS shuts down immediately

Alarms
Audible & visual

Line failure, battery low, overload, system fault conditions

Physical
Dimensions (mm) WxDxH

440 x 405 x 88

440 x 600 x 88

Net weight (Kg)

11.7

21.8

24.6

Environment
Operating temperature

0ºC – 40ºC

Altitude

0-2000m up to 40ºC / 3000m up to 35ºC

Humidity

90% RH maximum, non-condensing

Environment – heat dissipation
(approx)

150W

Noise

≤ 50dBA

275W

415W

Computer interface
Interface type

EPO, Standard RS232

Communication slots

Relay contact board, SNMP card

Compatible platforms

Windows, Linux, Mac, Novell NetWare

Continued overleaf

82

83

PowerWAVE 1000
Model

1 kVA

2 kVA

3 kVA

Model

6 kVA

Safety conformance
Quality assurance

ISO9001 certified company

Voltage

176–280 VAC – line to neutral @ 100% load

Safety standard

EN62040-1-1

Frequency

45–70 Hz

Performance

EN62040-3 complied

Phase

Single phase

EMC standard

EN62040-2, EN61000-3-2, EN61000-3-3

Power factor

≥0.99 @ 100% linear load

Protection class

IP20

Output

See page 18 for full product overview.

10 kVA

Input

Voltage distortion (THD)

≤2% @ 100% linear load, ≤7% @ run linear load with CF:25

Voltage

200/208/220/230/240 vac selectable

Voltage regulation

+/-1% (until low battery warning)

Capacity

6000VA/6000W

Rated power factor

1.0

Wave form

Pure sine wave

10000VA/10000W

Transfer time inverter to bypass

0 ms

Crest factor

3:1

Efficiency (mains operation)

93%

94%

Efficiency (AC to AC, ECO)

98%

98%

External battery cabinet
Type

Sealed lead acid maintenance free

Capacity

12V/9AH

No. of battery blocks per cabinet

20 pcs (connected or a single battery string)

Display
Readings on LCD

Input voltage, input frequency, output voltage, output frequency, load percentage, battery voltage, and inner
temperature

Self-diagnostics

Upon power-on and front panel setting

Alarms
Audible

Battery mode, battery low, overload, general error

Protection
Overload

Inverter supply: sliding scale: 105% continuous operation, 150% 160ms, >150% switch to bypass

Physical
Dimensions (mm) WxDxH
without battery

440 x 680 x 88

Input/output connection

Hardwire

External battery connection

Plug-in and play

Net weight (Kg)

24

440 x 680 x 132

45

Environment
Operating temperature

0ºC – 40ºC

Altitude

0–1000m without derating

Humidity

20–95% non-condensing

Environment – heat dissipation
(approx)

<450W

Noise at 1 metre

≤55dBA

<650W

Computer interface
Interface type

Standard RS232/EPO interface/USB

Communication slots

2nd RS232, USB, relay contact, SNMP/WEB card

Continued overleaf

84

85

PowerWAVE 3000/TP

Safety conformance
Quality assurance

ISO 9001:2000

Safety standard

EN62040-1-1, UL1778

EMC standard

EN 62040-2, EN 61000-3-2, EN61000 -3-3 FCC Part 15 class A

Certification protection class

CE (1P/1P), CTUVus (3P/1P)

Protection class

IP20

Battery bank
Model

Battery type

Maximum quantity

With batteries (Kg)

Dimension (W x H x D) mm

PWBAT-9-20

9AH

20 pcs

65.4

440 x 132 x 680 (3u)

See page 18 for full product overview.

General data

10 kVA

10 kVA (5 min)

Output rated power [W]

9 kW

18 kW

Output power factor

0.9

0.9

Topology

True online double conversion

True online double conversion

Parallel configuration

Up to 4 units

Inbuilt batteries

No

Yes

10 kVA (16 min)

Yes

20 kVA

No

20 kVA (5 min)

Yes

Input
Nominal input voltage

1ph + N: 220 / 230 / 240 VAC 3ph + N: 380 / 400 / 415 VAC

Input voltage tolerance

1ph -230 V: -23%, +15%, 3ph -400 V: -23%, +15%

Input current THD

< 5% linear load, < 7% non-linear load

Frequency range

45 - 55 Hz for 50 Hz systems / 55 - 65 Hz for 60 Hz system

Power factor

0.99

Output
Rated output voltage

220 / 230 / 240 VAC

Voltage tolerance

± 2%

Voltage distortion

2 % linear load, 5 % non-linear load

Overload capability
(linear load)

5 min: 105 % ~ 110 %, 1 min: 110% ~ 130 %,
10 s: 130 % ~ 150 %, 25 ms: > 150 %

Nominal frequency

50 or 60 Hz ± 0.1 Hz

Crest factor

3:1

Efficiency
AC-AC

Up to 93.6 %

In eco-mode

Up to 97 %

Environment
Protection rating

IP 20

Storage temperature

-15 – +60°C for UPS, 0~35°C for battery

Operating temperature

0 - 40°C

Relative humidity

0 - 95 % (non-condensing)

Altitude (above sea level) 1000 m without de-rating
Batteries
Type

VRLA, vented lead-acid

Inbuilt batteries

-

1x 24

2 x 24

-

2 x 24

Battery capacity

-

9 Ah

9 Ah

-

9 Ah

Charging current

4A

4A

4A

4A

4A

Recharge time

-

3 h to 90%

up to 8 h to 90%

-

8 h to 90%

Communications
User interface

LCD display

Communication cards
(option)

Network interface (SNMP card), dry-contact card (AS400)

Standards
Safety

IEC / EN 62040-1

EMC

IEC / EN 62040

Performance

IEC / EN 62040-3

Manufacturing

ISO 9001, ISO 14001

Weight /Dimensions
Weight

56 kg

117 kg

177 kg

66 kg

187 kg

Dimensions
(mm) WxDxH

350 x 890 x 712

350 x 890 x 712

350 x 890 x 712

350 x 890 x 712

350 x 890 x 712

See page 22 for full product overview.

86

87

PowerWAVE 5000/TP

PowerWAVE 6000

General data

10 kVA

15 kVA

20 kVA

25 kVA

30 kVA

40 kVA

50 kVA

General data

60 kVA

80 kVA

100 kVA 120 kVA 160 kVA 200 kVA 250 kVA 300 kVA 400 kVA 500 kVA

Topology

True online double conversion

Parallel configuration

Up to 20 units

Output power max.

60 kW

80 kW

100 kW

Output power factor

1.0

Integral batteries

Yes

Topology

True online double conversion

120 kW

160 kW

200 kW

250 kW

Parallel configuration

Up to 10 units

Nominal input voltage

3 x 380 / 220 V + N, 3 x 400 V / 230 V + N, 3 x 415 / 240 V + N

UPS type

Standalone

Voltage tolerance

(-23%/+15%) 3 x 308/177V to 3 x 460/264V for <100% load

Cable entry

Bottom front

Input distortion THDi

3.0% @ 100% load

Input

Frequency range

35–70 Hz

Nominal input voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Power factor

0.99 @ 100 % load

Voltage tolerance
(ref. to 3 × 400 / 230 V)

For loads < 100 % (-23 %, +15 %), < 80 % (-30 %, +15 %), < 60 % (-40 %, +15 %)

Input distortion THDi

≤ 3.5% at 100 %

Frequency

35–70 Hz

Power factor

0.99 at 100 % load

Input

Output
Output rated power

9 kW

Output power factor

0.9

13.5 kW

18 kW

22.5 kW

Rated output voltage

3 x 380 / 220 V + N, 3 x 400 / 230 V + N, 3 x 415 / 240 V + N

Voltage tolerance

1% static, 4% dynamic

Voltage distortion

< 2 % with linear load, < 4 % with non-linear load

27 kW

36 kW

45 kW

10 min: 110% load, 1 min: 130% load

Nominal frequency

50 or 60 Hz

Crest factor

3:1

Efficiency
Up to 95.5% @ 100% load

In eco mode

Up to 98% @ 100% load

IP 20 (IP 21 option)

Operating temperature

0°C – 40°C

600 mm minimum

Positional clearances
Right: 600 mm minimum

Cabled at the rear (A & B cabinets only)

Input & output power
cabling accessibility

–

Relative air humidity

Up to 95% (non condensing)

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Voltage distortion

<2%

Frequency

50 or 60 Hz

Overload capability

10 min.: up to 125 % or 1 min.: up to 150 %

Unbalanced load

100 % possible

Crest factor

3:1

Overall efficiency

Up to 96 %

In eco-mode configuration

≥ 99%

98%

Storage temperature

-25–70 °C

Operating temperature

0–40 °C

Altitude configuration

1000 m without derating

Battery type

–

Sealed, lead-acid, maintenance-free or NiCd

Communications

Cabled at the front (C cabinets only)

Graphical display

Optional

Yes

Standards

Batteries
Min / Max number of
12V blocks per string*

22–50

Charging current

4A

Battery type

Maintenance free VRLA or NiCd

32–50

32–50

40–50

24–50
6A

Standards
Safety

IEC/EN 62040-1-1:2003, IEC/EN 60950-1:2001/A11:2004

EMC

IEC/EN 62040-2:2005, IEC/EN61000-3-2:2000, IEC/EN61000-6-2:2001

See page 28 for full product overview.

Rated output voltage

Battery

Rear: 200 mm minimum for cooling, 600 mm minimum for service

Performance

Bottom front or top

Environment

Front: 900 mm minimum
Left:

500 kW

Efficiency

Environment
Protection rating

400 kW

Output

Overload capability (0.9 p.f)

AC-AC (@ p.f = 1.0)

300 kW

IEC/EN62040-3:2001

32–50

40–50

Safety

IEC / EN 62040-1

Electromagnetic compatibility
(EMC)

IEC / EN 62040-2

Performance

IEC / EN 62040-3

Product certification

CE

Protection rating

IP 20

Manufacturing

ISO 9001, ISO 14001

Weight/Dimensions
Weight (without batteries)

230 kg

240 kg

Dimensions (mm) WxDxH

615 x 1954 x 480

245 kg

280 kg

290 kg

850 × 1820 × 750

310 kg

390 kg

410 kg

1100 × 1920 × 750

950 kg

1000 kg

1650 × 1994 × 850

See page 32 for full product overview.

88

89

PowerWAVE 8000DPA ST
ST60

PowerWAVE 8000DPA RI

General data

ST40

General data

RI10

RI11

RI12

RI20

RI22

RI24

RI40

System power range
Max power per module

10–400 kVA/kW

Max power per module

10–20 kVA/kW

10–20 kVA/kW

Max power per frame

20 kVA/kW

20 kVA/kW

20 kVA/kW

40 kVA/kW

40 kVA/kW

40 kVA/kW

80 kVA/kW

Max power per frame

40 kVA/kW

60 kVA/kW

80 kVA/kW

120 kVA/kW

200 kVA/kW

UPS modules

1

1

1

1 to 2

1 to 2

1 to 2

1 to 4

Number of UPS modules per cabinet

1 to 2

1 to 3

1 to 4

Max. number of inbuilt batteries
(7/9 Ah)

1 to 6

1 to 10

Maximum number of inbuilt batteries
(7/9 Ah)

80

240

–

–

–

–

40

80

–

80

160

–

Output power factor

1.0

Output power factor

1.0

Topology

Online double conversion

Topology

Online double conversion

UPS type

Modular (Decentralised Parallel Architecture)

Maximum number of parallel cabinets

4

UPS type

Modular (Decentralised Parallel Architecture)

ST80

ST120

3

ST200

2

Input

Input
Nominal input voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Voltage tolerance
(referred to 3 × 400 / 230 V)

For loads <100% (−25%, +15%), <80% (−30%, +15%), <60% (−40%, +15%)

Nominal input voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Voltage tolerance
(referred to 3 × 400 / 230 V)

Input distortion THDi
For loads <100% (−23%, +15%), <80% (−30%, +15%), <60% (−40%, +15%)

≤3%

Frequency

35 –70 Hz

Input distortion THDi @ 100% load

<4% (10kW module), <3% (20kW module),

Power factor

0.99

Frequency

35 –70 Hz

Output

Power factor

0.99 @ 100% load

Rated output voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Voltage distortion

<1.5% linear load

Frequency

50 Hz or 60 Hz

Overload capability

1 min.: 150% / 10 min.: 125%

Unbalanced load

100% (all three phases regulated independently)

Crest factor

3:1 (load supported)

Output
Rated output voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Voltage distortion
(referred to 3 × 400 / 230 V)

<1.5% linear load

Frequency

50 Hz or 60 Hz

Overload capability

1 min.: up to 150% / 10 min.: up to 125%

Unbalanced load

100% (all three phases regulated independently)

Crest factor

3:1 (load supported)

Efficiency

Efficiency

Overall efficiency

Up to 95.5%

In eco-mode configuration

98%

Environment

Overall efficiency

Up to 95.5%

In eco-mode configuration

98%

Environment
Storage temperature

−25 °C to +70 °C (cabinet), -20°C to +40 °C (batteries)

Operating temperature

0 °C to +40 °C

Altitude configuration

1000 m without derating

Storage temperature

−25 °C to +70 °C (cabinet)/-20 °C to +40 °C (batteries)

Operating temperature

0 °C to +40 °C

Altitude configuration

1000 m without derating

Communications
LCD

Communications
LCD

Yes (per module); system display optional (graphical touch screen display)

LEDs

LED for notification and alarm

Communication ports

USB, RS-232, SNMP slot, potential-free contacts

IEC / EN 62040-1

Electromagnetic compatibility (EMC)

IEC / EN 62040-2

Performance

IEC / EN 62040-3

Product certification

CE

Manufacturing

ISO 9001, ISO 14001, OHSAS18001

Degree of protection

IP20

LEDs

LED for notification and alarm

Communication ports

USB, RS-232, SNMP slot, potential-free contacts

Standards
Safety

Standards
Safety

Yes (per module)

IEC / EN 62040-1

Electromagnetic compatibility (EMC)

IEC / EN 62040-2

Performance

IEC / EN 62040-3

Product certification

CE

Manufacturing

ISO 9001, ISO 14001, OHSAS18001

Weight/Dimensions
Weight
(with modules /without batteries)

Up to 39 kg

Up to 62 kg

Up to 78 kg

Up to 68 kg

Up to 109 kg

Up to 136 kg

Up to 136 kg

Dimensions (mm) WxDxH

488 × 310 ×
565 (7 HU)

488 × 487 ×
735 (11 HU)

488 × 665 ×
735 (15 HU)

488 × 440 ×
565 (10 HU)

488 × 798 ×
735 (18 HU)

488 × 1153 ×
735 (26 HU)

488 × 798 ×
735 (18 HU)

Weight/Dimensions
Weight
(with modules / without batteries)

Up to 136 kg

Up to 238 kg

Up to 169 kg

Up to 263 kg

Up to 389 kg

Dimensions (mm) WxDxH

550 × 1135 × 770

550 × 1975 × 770

550 × 1135 × 770

550 × 1975 × 770

550 × 1975 × 770

See page 36 for full product overview.

See page 36 for full product overview.

90

91

PowerWAVE 9000DPA
General data

General data

System power range

30–1500 kVA

System power range

100 kVA/kW – 3 MVA/MW

Max power per module

30 kVA / 40 kVA / 50 kVA

Max power per module

100 kVA/kW

Max power per frame

250 kVA

Max power per frame

500 kVA/kW

Number of UPS modules in each frame

1 to 5

Output power factor

1.0

Topology

Double conversion, transformer-free, modular, Decentralised Parallel Architecture

Parallel configuration

Up to 5 modules in one frame (500 kW) / up to 6 frames in parallel (3 MW)

Cable entry

Bottom or top as standard

Serviceability

Fully front serviceable

Back-feed protection

Built-in as standard

Weight
(with modules / without batteries)

421–439 kg

Dimensions (mm) WxDxH

730 × 1975 × 800

Output power factor

0.8

Topology

Online double conversion

Parallel configuration

Up to 30 modules

UPS type

Modular (Decentralised Parallel Architecture)

Input

Input
Nominal input voltage

3 x 380 / 220 V + N, 3 x 400 / 230 V + N, 3 x 415 / 240 V + N

Voltage tolerance

308 – 460 V (−10 – +15 %) < 100 % load (−20 – +15 %) < 80 % load, (−34 – +15 %) < 60 % load

Nominal input voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Input distortion THDi

< 3.5 % at 100 % load

Voltage tolerance
(referred to 3 × 400 / 230 V)

For loads <100% (−25%, +15%), <80% (−30%, +15%), <60% (−40%, +15%)

Frequency range

45 to 70 Hz

Input distortion THDi

<3% @ 100% load

Power factor

0.99 @ 100 % load

Frequency

30–70 Hz

Walk in / Soft start

Yes

Power factor @ 100% load

0.99

Output

Output

Rated output voltage

3 x 380 / 220 V + N, 3 x 400 / 230 V + N, 3 x 415 / 240 V + N

Output voltage variation

< +/- 1.5

Rated output voltage

3 × 380 / 220 V + N, 3 × 400 / 230 V + N, 3 × 415 / 240 V + N

Voltage distortion
(referred to 3 × 400 / 230 V)

<±2% with linear load

Frequency

50 Hz or 60 Hz

Efficiency

Overload capability

1 min.: up to 150% / 10 min.: up to 125%

AC-AC

Up to 96 %

Unbalanced load

100% (all three phases regulated independently)

In eco-mode

≥ 99 %

Crest factor

3 : 1 (load supported)

Environment

Efficiency

Voltage distortion

< 2% with linear load < 4% with non-linear load

Frequency

50 or 60 Hz (selectable)

Protection rating

IP 20

Overall efficiency

Up to 95.5%

Storage temperature

−25° – +70°

In eco-mode configuration

99%

Operating temperature

0° – +40°C

Altitude (above sea level)

1000 m without de-rating

Environment
Storage temperature

−25 °C to +70 °C

Batteries

Operating temperature

0 °C to +40 °C

Number of 12V blocks / string

Flexible number from 40 – 50 blocks

Altitude

1000 m without derating

Types

VRLA, vented lead-acid, NiCd

Battery charger

Decentralised charger per module

Battery
Battery capacity

Configurable up to several hours

Internal batteries

240 x 7/9Ah (150 frame) / External batteries only (250 frame)

Communications
User interface

Communications

Graphical touch screen (one per frame as standard)
Decentralised LCD + mimic diagram (one per module as standard)

LCD

Yes (per module)

Communication ports

USB, RS-232, voltage-free contacts, SNMP (optional)

LEDs

LED for notification and alarm

Customer interface

Remote shutdown, gen-set interface, external bypass contact

Communication ports U

SB, RS-232, SNMP slot, potential-free contacts

Compliancy

Standards

Safety

IEC / EN 62040-1

Safety

IEC / EN 62040-1

EMC

IEC / EN 62040-2

Electromagnetic compatibility (EMC)

IEC / EN 62040-2

Performance

IEC / EN 62040-3

Performance

IEC / EN 62040-3

Manufacturing

ISO 9001, ISO 14001

Manufacturing

ISO 9001, ISO 14001, OHSAS18001

Weight/Dimensions

Product certification

CE

Weight

Approx. 975 kg (500 kW system without batteries)

IP rating

IP 20

Dimensions (mm) WxDxH

1580 x 1975 x 945

See page 42 for full product overview.

92

PowerWAVE 9500DPA

See page 48 for full product overview.

93

PowerWAVE Generators
Canopied units
T Series generating sets from 8.6 kVA to 17 kVA (single phase) or 11.5 to 22kVA (three phase)
with weatherproof/acoustic enclosure
Single-phase
(230V)
Mitsubishi
engine
T9KM

T12KM

Standby
rating kVA
(0.8pf)

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Acoustic
pressure
level dB(A)
@ 1m

Standard day tank (50L)

1750 x 775 x 1230

544

16

20

71

DW24 tank option (93L)

1797 x 775 x 1391

625

30

37

71

Standard day tank (50L)

1750 x 775 x 1230

630

11

14.5

72

DW24 tank option (93L)

1797 x 775 x 1391

668

21

27

71

Standard day tank (100L)

2080 x 960 x 1415

820

16

21

70

DW24 tank option (230L)

2160 x 966 x 1582

1010

37

48.5

70

Base tank options

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Acoustic
pressure
level dB(A)
@ 1m

Three-phase
(400/230V)
John Deere
engine

Standby
rating kVA
(0.8pf)

J22

22

12

17

Three-phase
(400/230V)
Mitsubishi
engine

Standby
rating kVA
(0.8pf)

T16K

Base tank options

8.6

T17KM

T12K

J Series generating sets from 22 kVA to 250 kVA with weatherproof/acoustic enclosure

Standard day tank (50L)

1750 x 775 x 1230

530

16

20

71

DW24 tank option (93L)

1797 x 775 x 1391

615

30

37.5

71

J33

J44K

J66K

11.5
Standard day tank (50L)

1750 x 775 x 1230

554

11

14.5

72

DW24 tank option (93L)

1797 x 775 x 1391

633

21

27

71

Standard day tank (100L)

2080 x 960 x 1415

780

16

21

70

2160 x 966 x 1582

970

37

48.5

V350C2

V400C2

V440C2

V500C2

V550C2

V650C2

V700C2

83

Standby
rating kVA
(0.8pf)

Base tank options

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

J88K
Run time
hours @ 75%
load

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Acoustic
pressure
level dB(A)
@ 1m

Standard day tank (100L)

2080 x 960 x 1415

980

14

20

75

DW24 tank option (230L)

2160 x 966 x 1582

1160

32.5

46

74

DW48 tank option (420L)

2160 x 966 x 1631

1124

60

84

74

Standard day tank (100L)

2080 x 960 x 1415

980

14

20

74

DW24 tank option (230L)

2160 x 966 x 1582

1160

32.5

46

74

DW48 tank option (420L)

2160 x 966 x 1631

1165

60

84

74

Standard day tank (100L)

2080 x 960 x 1415

1040

10

13

74

DW24 tank option (230L)

2160 x 966 x 1582

1210

23

30.5

74

DW48 tank option (420L)

2160 x 966 x 1631

1215

42.5

56

73

Standard day tank (180L)

2300 x 1060 x 1680

1405

11

15

73

DW24 tank option (390L)

2344 x 1060 x 1900

1652

24

32.5

72

DW48 tank option (700L)

2344 x 1060 x 1989

1682

43.5

58

72

Standard day tank (180L)

2300 x 1060 x 1680

1548

11

15

74

DW24 tank option (390L)

2344 x 1060 x 1900

1735

24

32.5

73

DW48 tank option (700L)

2344 x 1060 x 1989

1765

43.5

58

73

Standard day tank (180L)

2300 x 1060 x 1680

1508

9

12.5

76

DW24 tank option (390L)

2344 x 1060 x 1900

1695

20

27.5

76

DW48 tank option (700L)

2344 x 1060 x 1989

1725

35.5

50

76

Standard day tank (190L)

2554 x 1150 x 1680

1587

8

11.5

78

DW24 tank option (505L)

2602 x 1150 x 1900

2006

21

30.5

77

DW48 tank option (825L)

2602 x 1150 x 1948

2012

35

50

77

Standard day tank (340L)

3508 x 1200x 1830

2088

13

18

75

DW24 tank option (868L)

3560 x 1200 x 2182

2488

33

46.5

74

DW48 tank option (1630L)

3560 x 1200 x 2364

2656

62.5

88

74

Standard day tank (340L)

3508 x 1200x 1830

2168

10

13.5

75

DW24 tank option (868L)

3560 x 1200 x 2182

2561

25.5

34.5

74

DW48 tank option (1630L)

3560 x 1200 x 2364

2816

48.5

65

74

Standard day tank (340L)

3508 x 1200x 1830

2306

8

10.5

76

DW24 tank option (868L)

3560 x 1200 x 2182

2699

21

27.5

76

DW48 tank option (1630L)

3560 x 1200 x 2364

2964

39.5

52

76

Standard day tank (340L)

3508 x 1200x 1830

2471

7.5

10

77

DW24 tank option (868L)

3560 x 1200 x 2182

2811

19

25.5

77

DW48 tank option (1630L)

3560 x 1200 x 2364

3069

36

47.5

77

Standard day tank (340L)

3508 x 1200x 1830

2400

7

9

82

DW24 tank option (868L)

3560 x 1200 x 2182

2740

18

24

82

DW48 tank option (1630L)

3560 x 1200 x 2364

2800

34.5

45

82

70

V Series generating sets from 275 kVA to 700 kVA with weatherproof/acoustic enclosure

V275C2

71

22
DW24 tank option (230L)

Three-phase
(400/230V)
Volvo engine

48

16
J77K

T22K

33

Base tank options

Acoustic
pressure
level dB(A)
@ 1m

Standard day tank (390L)

4004 x 1380 x 2145

3102

7

9

78

DW24 tank option (950)

4056 x 1380 x 2340

3815

17.5

22

77

Standard day tank (470L)

4475 x 1410 x 2430

4035

7

9.5

81

DW24 tank option (1368L)

4527 x 1410 x 2700

4588

21.5

28

76

Standard day tank (470L)

4475 x 1410 x 2430

4082

6.5

8.5

81

DW24 tank option (1368L)

4527 x 1410 x 2700

4612

19

25.5

76

Standard day tank (470L)

4475 x 1410 x 2430

4080

5.5

7

81

DW24 tank option (1368L)

4527 x 1410 x 2700

4740

16

21.5

78

Standard day tank (470L)

4475 x 1410 x 2430

4360

5

6.5

81

DW24 tank option (1368L)

4527 x 1410 x 2700

4910

14.5

19.5

78

Standard day tank (500L)

5031 x 1560 x 2435

4870

4.5

6.5

76

DW24 tank option (1770L)

5083 x 1560 x 2303

4262

17

23.5

76

Standard day tank (610L)

5031 x 1690 x 2672

5300

5

7

80

DW24 tank option (1950L)

5083 x 1690 x 2932

5910

16.5

22.5

80

Standard day tank (610L)

5031 x 1690 x 2672

5550

4.5

6

85

DW24 tank option (1950L)

5083 x 1690 x 2932

6140

13.5

18.5

85

J110K

87

110

275
J130K

138

358

400

J165K

165

440
J200K

200

500

570

J220C2

220

660

745

J250K

250

Based on manufacturer’s information; may be subject to change.
Based on manufacturer’s information; may be subject to change.

See page 54 for full product overview.

94

95

PowerWAVE Generators
D Series generating sets from 275 kVA to 830 kVA with weatherproof/acoustic enclosure
Three-phase
(400/230V)
Doosan
engine

D275

D300

D330

D440

D550

D630

D700

D830

Standby
rating kVA
(0.8pf)

275

300

J Series generating sets from 22 kVA to 250 kVA

Base tank options

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Three-phase
(400/230V)
John Deere
engine

Standby
rating kVA
(0.8pf)

Base tank

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Standard day tank (390L)

4004 x 1380 x 2145

3160

6.5

8.9

J22

22

Standard day tank (100L)

1700 x 896 x 1221

750

14

20

DW24 tank option (950L)

4056 x 1380 x 2340

3960

16

21.5

J33

33

Standard day tank (100L)

1700 x 896 x 1221

750

14

20

DW48 tank option (2130L)

4056 x 1380 x 2618

3965

36.5

48.5

J44K

48

Standard day tank (100L)

1700 x 896 x 1221

820

10

13

Standard day tank (390L)

4004 x 1380 x 2145

3250

6.5

8.9

J66K

71

Standard day tank (180L)

1870 x 994 x 1360

995

11

15

DW24 tank option (950L)

4056 x 1380 x 2340

4050

16

21.5

J77K

83

Standard day tank (180L)

1870 x 994 x 1360

1128

11

15

DW48 tank option (2130L)

4056 x 1380 x 2618

4050

36.5

48.5

J88K

87

Standard day tank (180L)

1870 x 994 x 1360

1088

9

12.5

Standard day tank (470L)

4475 x 1410 x 2430

3540

7

10

J110K

110

Standard day tank (190L)

1950 x 1084 x 1330

1187

8

11.5

DW24 tank option (1368L)

4527 x 1410 x 2700

4060

21.5

29

J130K

138

Standard day tank (340L)

2370 x 1114 x 1480

1498

13

18

Standard day tank (500L)

5031 x 1560 x 2435

4090

5.5

7.5

J165K

165

Standard day tank (340L)

2370 x 1114 x 1480

1578

10

13.5

DW24 tank option (1770L)

5083 x 1560 x 2700

4750

19.5

27

J200K

200

Standard day tank (340L)

2370 x 1114 x 1480

1716

8

10.5

Standard day tank (500L)

5031 x 1560 x 2435

4262

4

6

J220C2

220

Standard day tank (340L)

2398 x 1114 x 1480

1811

7.5

10

DW24 tank option (1770L)

5083 x 1560 x 2700

5044

15

21

J250K

250

Standard day tank (340L)

2398 x 1114 x 1535

1800

7

9

Standard day tank (610L)

5031 x 1690 x 2672

5146

4.5

6

DW24 tank option (1950L)

5083 x 1690 x 2932

5853

15.5

20.5

V Series generating sets from 275 kVA to 700 kVA

Standard day tank (610L)

5031 x 1690 x 2672

5381

4

5.5

5083 x 1690 x 2932

6099

14

18.5

Three-phase
(400/230V)
Volvo engine

Standby
rating kVA
(0.8pf)

Base tank

DW24 tank option (1950L)

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Standard day tank (610L)

5031 x 1690 x 2672

5720

3.5

5

V275C2

275

Standard day tank (390L)

2900 x 1300 x 1590

2172

7

9

DW24 tank option (1950L)

5083 x 1690 x 2932

6410

12

16

V350C2

358

Standard day tank (470L)

3160 x 1340 x 1805

3103

7

9.5

330

440

546

675

735

825

V400C2

400

Standard day tank (470L)

3160 x 1340 x 1805

2972

6.5

8.5

Open units

V440C2

440

Standard day tank (470L)

3160 x 1340 x 1805

3110

5.5

7

T Series generating sets from 8.6 kVA to 17 kVA (single phase) or 11.5 to 22kVA (three phase)

V500C2

500

Standard day tank (470L)

3160 x 1340 x 1805

3250

5

6.5

V550C2

570

Standard day tank (500L)

3470 x 1500 x 2043

3620

4.5

6.5

V650C2

660

Standard day tank (610L)

3470 x 1630 x 2095

3780

5

7

V700C2

745

Standard day tank (610L)

3470 x1630 x 2050

4020

4.5

6

Single-phase
(230V)
Mitsubishi
engine

Standby
rating kVA
(0.8pf)

Base tank

T9KM

8.6

Standard day tank (50L)

1405 x 715 x 1053

396

16

20

T12KM

12

Standard day tank (50L)

1405 x 715 x 1053

406

11

14.5

D Series generating sets from 275 kVA to 830 kVA

T17KM

17

Standard day tank (100L)

1700 x 896 x 1121

590

16

21

Standby
rating kVA
(0.8pf)

Base tank

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Three-phase
(400/230V)
Doosan
engine

Standby
rating kVA
(0.8pf)

Base tank

Three-phase
(400/230V)
Mitsubishi
engine

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

D275

275

Standard day tank (390L)

2900 x 1300 x 1670

2310

6.5

8.9

T12K

11.5

Standard day tank (50L)

1405 x 715 x 1053

387

16

20

D300

330

Standard day tank (390L)

2900 x 1300 x 1670

2400

6.5

8.9

T16K

16

Standard day tank (50L)

1405 x 715 x 1053

406

11

14.5

D330

330

Standard day tank (470L)

3160 x 1340 x 1592

2440

7

10

T22K

22

Standard day tank (100L)

1700 x 896 x 1121

549

16

21

D440

440

Standard day tank (500L)

3470 x 1500 x 1829

2942

5.5

7.5

D550

546

Standard day tank (500L)

3470 x 1500 x 1815

3220

4

6

D630

675

Standard day tank (610L)

3470 x 1630 x 1970

3465

4.5

6

D700

735

Standard day tank (610L)

3470 x 1630 x 2162

3700

4

5.5

D830

825

Standard day tank (610L)

3470 x 1630 x 2185

4080

3.5

5

Based on manufacturer’s information; may be subject to change.

Dimensions
L x W x H (mm)

Dry weight
(kg)

Run time
hours @
100% load

Run time
hours @ 75%
load

Based on manufacturer’s information; may be subject to change.

96

97

PowerWAVE EL 100
Model

PowerWAVE EL 100XA

EL104

EL105

EL106

EL108

EL110

EL112

Model

Power rating kVA/kW

4 / 2.8

5 / 3.5

6 / 4.2

8 / 5.6

10/7

12.5 / 8.75

Power factor

0.7

Input

EL1005XA

EL1012XA

EL1030XA

Power rating VA / W

500 / 400

1250 / 1000

3000 / 2400

Power factor

0.8

Input

Voltage / tolerance

230 VAC single phase, +/- 15%

Voltage / Tolerance

230VAC single phase / 184V ~ 285V

By-pass voltage

230 VAC single phase

Frequency

50Hz +5%

Input frequency

50Hz +/- 5%

Max. RFI

EN50091-2 CLASSA

Max RFI

EN50091-2 Class A

Output

Output

Voltage

230VAC Single phase

230 VAC single phase

Voltage stability

Changeover mode +10% / battery mode +3%

Voltage stability

Static (balanced load) +/-1%, static (unbalanced load) +/-2%, dynamic (step load 0-100%) +/-5%

Voltage recovery time

After step load 0-100%. Max. 20ms.

Voltage recovery time

After step load 0-100% max. 20ms

Frequency

50Hz

Frequency

50Hz

Frequency tolerance

±1% in battery mode

Frequency tolerance

Line synchronised +/- 1% / free running +/- 0.2%

Efficiency at 100% load

>97%

Efficiency at 100% load

>87-91%

Crest Factor

3:1

Crestffactor

3:1

Short circuit protection

Electronic short circuit

Short circuit protection

Electronic short circuit

Overload capacity

120% continuous

Overload capacity

120% continuous, 120–150% load 10min. 150–180% 1min

Batteries

Total harmonic distortion (THD)

Linear Load <3%

Type

Sealed lead aid –maintenance free

Number of 12V blocks (Internal)

4

4

4or 8

Voltage

Batteries
Type

Sealed lead acid – maintenance free

Float charging voltage

54VDC

54VDC

54VDC

Number of 12V blocks

16

18

20

End of discharge voltage

42VDC

42VDC

42VDC

Float charging voltage

216Vdc

243Vdc

270Vdc

Battery ambient temperature

20°C

20°C

20°C

End of discharge voltage

160Vdc

180Vdc

200Vdc

Battery protection

Double pole DC circuit breaker

Battery ambient temperature

20°C

Battery test

Automatic battery test / smart battery management

Battery protection

Circuit breaker

General

Battery test

Automatic battery test once a week

Serial communication

Drycontacts plus RS232

Software

Optional monitoring & shutdown / optional SNMP module

General
Serial communication

Dry contacts plus RS232

Protection degree

IP21

Software

T-Mon standard / SNMP module optional
IP41

Ambient operating temperature /
altitude

0°C to 40°C / <1000m above sea level

Protection degree
Ambient operating temperature / altitude

0°C to 40°C / <1000m (above sea level)

Standard

Emergency lighting EN50171

Ventilation

Forced air cooling

Acoustic Noise at 1m distance

<56 dB

Dimensions (mm) WxDxH

750 x 250 x 850

Standard

Emergency lighting EN 50171

Ventilation

Forced air cooling

Acoustic noise at 1m distance

<56 dB

Weight (kgs)

85

Dimensions (mm) WxDxH

570 x 370 x 1210

95

110

125

150

750 x 250 x 1250

750 x 400 x 1250

155

See page 60 for full product overview.

98

99

PowerWAVE EL 200

PowerWAVE EL 300 DSP

Model

EL210

EL215

EL220

Power rating kVA/kW

10 / 7

15 / 10.5

20 / 14

Power factor

0.8

General
Serial communication

Dry contacts plus RS232

Software

T-Mon standard / SNMP module optional

Protection degree

IP41

Ambient operating temperature /
altitude

0°C to 40°C / <1000m (above sea level)

Standard

Emergency lighting EN 50171

Ventilation

Forced air cooling

Relative humidity

10–90% max (non-condensing)

Acoustic noise at 1m distance

<60 dB

Input
Voltage / tolerance

230/400 VAC 3phase, 4wires, +ground, +/- 15%

By-pass voltage

230 VAC single phase

Input frequency

50Hz +/- 5%

Max RFI

EN50091-2 Class A

Output
Voltage

230 VAC single phase

Voltage stability

Static (balanced load) +/-1%, Static (unbalanced load) +/-2%, Dynamic (stop load 0-100%) +/-5%

Voltage recovery rime

After step load 0-100% max. 20ms

Frequency

50Hz

Frequency rolerance

Line synchronised +/- 1% / free running +/- 0.2%

Efficiency at 100% load

>87-91%

Crest factor

3:1

Short circuit protection

Electronic short circuit

Overload capacity
Total harmonic distortion (THD)

Model

EL310
DSP

EL320
DSP

EL330
DSP

EL340
DSP

EL360
DSP

EL380
DSP

EL3100
DSP

EL3120
DSP

EL3160
DSP

Power rating kVA/kW

10 / 9

20 / 18

30 / 27

40 / 36

60 / 54

80 / 72

100 / 90

120 / 108

160 / 144

Power factor

0.8

<64 dB

<68 dB

265

482

General
Serial communication

Dry contacts plus RS232

Software

T-Mon standard / SNMP module optional

Protection degree

IP41

Ambient operating
temperature / altitude

0°C to 40°C / <1000m (above sea level)

Standard

Emergency lighting EN 50171

Ventilation

Forced air cooling

Relative humidity

10–90% (non-condensed)

Acoustic noise
at 1m distance

<62 dB

Input
Voltage / tolerance

380/400/415 VAC (3PH + N + PE)

By-pass voltage

230/400 VAC three phase

Input frequency

50Hz +/- 5%

Max RFI

EN50091-2 Class A

Harmonic distortion

<5% @ 100% load

Output
Voltage

230/400 VAC three phase

Voltage stability

Static (balanced load) +/-1%, Static (unbalanced load) +/-2%, Dynamic (stop load 0-100%) +/-5%

Voltage recovery time

After step load 0–100% max. 20ms

Frequency

50Hz

Frequency tolerance

Line synchronised +/- 1% / free running +/- 0.2%

120% continuous, 120–150% load 10min. 150–180% 1min

Efficiency at 100%
load

>87-91%

Linear load <3%

Crest factor

3:1

Short circuit
protection

Electronic short circuit

Overload capacity

120% continuous, 120–150% load 10min. 150–180% 1min
Linear load <3%

Batteries
Type

Sealed lead acid – maintenance free

Number of 12V blocks

30

Float charging voltage

405

Total harmonic
distortion (THD)

End of discharge voltage

300VDC

Batteries

Battery ambient temperature

20°C

Type

Sealed lead acid – maintenance free

Battery protection

Circuit breaker

30

Battery test

Automatic battery test once a week

Number of 12V
blocks
Float charging
voltage

405

End of discharge
voltage

300VDC

Battery ambient
temperature

20°C

Weight/Dimensions
Weight (kgs) excluding batteries

250

Dimensions (mm) WxDxH

545 x 730 x 1250

Battery protection

Circuit breaker

Battery test

Automatic battery test once a week

Weight/Dimensions

100

Weight (kgs)
excluding batteries

91

Dimensions
(mm) WxDxH

400 x 815 x 1040

100

173

197

209

220

515 x 855 x 1440

232

880 x 775 x
1900

101

UK product catalogue V2 Sept 17

Uninterruptible Power
Supplies Ltd,
Woodgate,
Bartley Wood Business Park,
Hook, Hampshire RG27 9XA
Tel: 01256 386700
ISO 9001
UKAS
ACCREDITED

Fax: 01256 386701
Email: sales@upspower.co.uk



---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.4
Linearized                      : No
Page Count                      : 52
XMP Toolkit                     : XMP toolkit 2.9.1-13, framework 1.6
About                           : uuid:2d94db50-f807-11f2-0000-e8f1b0a08c72
Producer                        : GPL Ghostscript 9.22
Modify Date                     : 2017:11:02 17:26:50+01:00
Create Date                     : 2017:11:02 17:26:50+01:00
Creator Tool                    : Adobe InDesign CC 2017 (Macintosh)
Document ID                     : uuid:2d94db50-f807-11f2-0000-e8f1b0a08c72
Format                          : application/pdf
Title                           : Untitled
Creator                         : Adobe InDesign CC 2017 (Macintosh)

EXIF Metadata provided by EXIF.tools