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Tuesday, May 23, 2017
Reliable Efficient Convenient Intelligent
Huawei UPS5000-A Series Solution
Content
1
UPS5000-A-400/500K Product Highlights
2
Products Introduce
3
Products Competitive Analysis
4
The Installation of UPS&optionals and Alarms List
1
Huawei UPS Series
Large
UPS8000-D
200-600kVA
Medium
UPS5000-A
30-800kVA
UPS5000-E
40-320kVA
Small
UPS2000-G
1-20kVA
Modular UPS
RT Small Power UPS
2
Tower transformerless UPS
Tower transformer-based UPS
Product Overview
Input three-phase and output three-phase, top/bottom outlet
compatible, dimensions（H*W*D）2000*1200*850mm
Easy installation-connecting power cables without removing
the side panels and cabinets can be installed in parallel,
top/bottom outlet compatible.
High power density, 500K’s footprint is only 1m2.
Wide input voltage range from 138 Vac to 485Vac, adapted
to the harsh grid, stable and reliable.
Efficiency up to 96%, significantly reducing loss by 50%.
Output PF 0.95，at the same capacity UPS can load more.
3
UPS5000-A-400/500K Core Values—Reliable
 Wide input voltage and frequence range: 138-485V, 40Hz-70Hz,
reducing the number of switching to battery mode, and avoiding a
Verification and testing products'
reliability in a full range
Surge test
high incidence; reducing the battery charge and discharge times,
LLT TEST
extending battery life
 Redundant design from the functional unit to the components,
THB TEST
Temperatur
e cycle test
including auxiliary power and the control unit, to prevent single point
of failure
 Conformal Coating for adapting salt spray, dust ,high temperature
and humidity , expanding the life-span of key Component and
ensuring high reliability
 The cycle connection of parallel signal cables, to prevent the signal
point of failure.
4
Key device
bias test
HALT TEST
Unique
Cross-material
verification
Wet dust
test
Long-term 14 weeks
High temperature and humidity
Sulfide dust
UPS5000-A-400/500K Core Values—Efficient
96%
94%
<85%
Traditional UPS
Brand E
UPS5000-A
High efficiency of 96%,the leader in the field, and up to 99% at ECO mode.
5000A UPS saves 51,643 kW·h per year for you （VS 200kW@94%）
5000A UPS saves 315,000 kW·h per year for you （VS 200kW@85%）
5
UPS5000-A-400/500K Core Values—Convenient
 High output PF up to 0.95, adapt to new IT load, significantly improve
0.15m
the UPS’s load capacity
 Small footprint, 500K covers an area of 1m2, reduce customer investment
Traditional Tower
UPS 400kVA
Huawei 500kVA UPS
in room
 Adjustable battery number from 30 to 40, as a result, the backup time can
0.8m
1.2m
be configured precisely and re-use of the battery.
 Standard SNMP and ModBus protocol, FE, RS485 and dry contacts, and
other interfaces, easy networking and monitoring.
6
Savings covers 50% compared
to other UPSs
0.85m
UPS5000-A-400/500K Core Values—Intelligent
NetEco
 Intelligent battery management extending battery life 50% above,
include battery dormant, temperature compensation, intelligent
float conversion.
网管中
Video System
Cooling System
Power Distribution
System
Network
Management Center
 Supply neteco intelligent monitoring software, send the alarm to
operation and maintenance personnel through SMS or e-mail ,
NetEco
Server1
Access Control System
NetEco
Server n
centralized intelligent UPS management.
Modular Cluster
LCD+Signal UPS Monitor
Multiple UPS Network Management System
SMS Alarm
Engine room
Terminal Remote Management
Real-time monitoring
Output report
Pre-failure
Assets management
7
Content
1
UPS5000-A-400/500K Product Highlights
2
Products Introduce
3
Products Competitive Analysis
4
The Installation of UPS&optionals and Alarms List
8
Functional components
Number
Functional components
1
Power unit
2
Control unit
3
Optional card slot
4
PDU
Maintenance bypass
switch
Bypass unit
5
6
UPS5000-A’s main functional components:
power unit, communication slot, control units,
and control expansion options and monitoring
bus which is in order to achieve multimachine monitoring and configuration, etc.
9
UPS5000-A Components
Subsystem
Component
Function
Power cabinet
Performs AC-DC and DC-DC conversion on mains and battery inputs respectively, and boosts the
voltage to the bus voltage. Then the inverter converts DC inputs into AC sine wave outputs.
Power unit
Power conversion.
Bypass unit
Provides bypass voltages when the power unit is abnormal or after you transfer the UPS5000-A to
bypass mode.
Power distribution unit (PDU)
Provides input and output power distribution.
Monitoring
system
Monitoring display unit (MDU)
Provides a liquid crystal display (LCD) for human-machine interactions.
Monitoring subrack
Houses various monitoring units.
Energy control module (ECM)
Controls intra-rack and inter-rack system running, and reports status information to other
monitoring units.
Dry contact card
Enables the UPS5000-A to manage the battery system, including the external battery switch and
BMU. It also provides alarm signals for external devices and implements emergency power-off
(EPO).
Monitoring interface card
Provides an external port for the MDU and provides some monitoring and control functions.
Backfeed protection card
(optional)
Provides mains and bypass backfeed detection and protection.
Dry contact extended card
(optional)
Provides five relay dry contact outputs and five signal inputs, delivering abundant alarm and
control functions.
10
Components-ECM
Number
 Control
Components
1
BSC port
2
Parallel port
3
Run indicator
4
Alarm indicator
5
Fault indicator
the running of a single UPS5000-A and parallel system, and reports the UPS5000-A status information to
other monitoring units.
 Two
ECMs in the monitoring system standard, to prevent a single point of failure。
 Two
Parallel ports and two BSC ports
 UPS5000-As
parallel in cycle networking to prevent signal point of failure, which contains two Parallel ports and two
BSC ports.
11
Components- Monitoring Interface Card

NO.
Port
Silk Screen
B_TEMP
1
Battery temperature sensor port
2
3
4
Southbound port 1
Southbound port 2
Network port
COM1
COM2
FE
5
Northbound Communications port
RS485
6
MDU port
MDU
DO_1_NO
DO_1_COM
DO_2_NO
DO_2_ COM
DO_3_NO
DO_3_ COM
DO_4_NO
DO_4_ COM
DO_1
DO_2
7
DO_3
DO_4
12
The monitoring interface card provides external
ports for the MDU and certain monitoring and
control functions. It provides ports for sensors, the
BMU, the fast Ethernet (FE), and the NMS.
 Support NetEco monitoring software, can monitor
up to 10 UPSs.
Description
Connects to an indoor battery temperature sensor
Connects to an ambient temperature and humidity sensor over two wires.
Connects to a southbound device, such as a BMU.
FE port，support SNMP
Connects to a northbound network management device or
third-party network management device over two wires.
DB26 contains FE、RS485、I2C、CAN, etc signals.
DO indicates critical alarms, minor alarms, bypass mode, battery mode, low
battery voltage, or D.G. control. DO_3 indicates any of the six meanings
(except for D.G. control); by default, it indicates bypass mode. The maximum
voltage is 30 V DC, and the maximum current is 1 A.
Components- MDU
Status
On
Off
1 Fault indicator
Color
Meaning
Red
A critical alarm has been generated.
Yellow
A minor alarm has been generated.
Green
The UPS5000-A is running properly.
N/A
The MDU has been powered off.
2 LCD screen
Supports up to 2500 alarms history records to check
13
Components- Dry Contact Card
Port
J1
J2
J3
Description
Port for detecting battery grounding faults. Connected: battery grounding fault.
Port for detecting diesel generator (D.G.) mode. Connected: D.G. mode.
the battery system (including the external
Port for monitoring the battery switch. Connected: battery switch ON.
Port for controlling the trip of the battery switch in the BCB box.
battery switch), provide alarm signals for
12 V: battery switch tripped.
Emergency power-off (EPO) port. The initial status is Disconnected. If
external devices, and implement remote EPO.
the normally open (NO) port is connected to the EPO_12V port, EPO.
Disconnected: circuit breaker OFF.
Port for monitoring the maintenance circuit breaker on the output PDC.
Disconnected: circuit breaker ON.
Port for monitoring the bypass input circuit breaker on the input PDC.
J5
The dry contact card allows the UPS to manage
Port for detecting the BCB box. Connected: BCB box connected.
EPO port. The initial status is Connected. If the normally closed (NC) port is
disconnected from the EPO_12V port, EPO is triggered.
Port for monitoring the UPS output circuit breaker on the output PDC.
J4

Disconnected: circuit breaker OFF.
Port for monitoring the input AC surge protective device (SPD).
Disconnected: SPD disabled
14

Functional description of each interface table
on the right, for details, see the UPS user
manual.
Installation
Top/Bottom Cable Routing, Mains input and Bypass input can share a power source or not.
Top Cable Routing diagram
Bottom Cable Routing diagram
Mains and bypass use different sources
Step1:Remove the
copper bars
Step2:Connect
mains and bypass
input cables
respectively.
15
Content
1
UPS5000-A-400/500K Product Highlights
2
Products Introduce
3
Products Competitive Analysis
4
The Installation of UPS&optionals and Alarms List
16
UPS5000-A Specifications
Type
UPS5000-A-400K
Capacity
400kVA/380kW
UPS5000-A-500K
500kVA/475kW
Input
Main
Input
Rated input voltage
Input voltage range
Input system
Rated frequency
380/400/415Vac
138-485Vac
Three-phase, four-wire, and PE wire
50/60Hz
Input frequency range 40-70Hz
Input PF
THDi
Rated input voltage
Bypass
Input
0.99
≤3%
380/400/415Vac
Input frequency range 50/60±6Hz
Input system
Three-phase, four-wire, and PE wire
360-480 V DC (30-40 batteries, 32 by default). The UPS5000-A power
is derated by 6% when 30 batteries are configured.
Battery Battery voltage
17
Type
Capacity
Output
Rated output voltage
Frequency
Output PF
THDv
Output system
Efficiency
Overload capability
Environmental Specifications
Operating temperature
Storage temperature
Humidity
Altitude
Noise
Physical Specifications
Dimensions (H x W x D) mm
Weight
Communication
UPS5000-A-400K
400kVA/380kW
UPS5000-A-500K
500kVA/475kW
380/400/415Vac±1%
In normal mode, the mains frequency is synchronous with the bypass input frequency.
The frequency is 50 Hz or 60 Hz (tolerance ±0.25%) (local frequency of the inverter).
0.95
THDv＜1%
Three-phase, four-wire, and PE wire
96%
Inverter overload capability: 110%: transfer to bypass mode after 60 min; 125%: transfer
to bypass mode after 10 min; 150%: transfer to bypass mode after 1min
0-40℃
-40-70℃
0%-95%(non-condensing)
0-1000 m. When the altitude is above 1000 m, see IEC62040-3 to check how the
UPS5000-A power is derated. The maximum altitude is 4000 m.
＜70dB
2000×1200×850
900kg
1000kg
Dry contacts, RS485 port, and FE port supported; SNMP supported
18
Parameters compared E1 NXP Form
Brand
Type
Input system
Rated input voltage
(Vac)
MAIN Input voltage range(Vac）
Input Input frequency（Hz）
HUAWEI
UPS5000-A-(200-600K)
Three-phase, four-wire, and PE wire
E1
NXP
Three-phase, four-wire
380V/400V/415V（line voltage）
380/400/415
138-485
40Hz～70Hz
-15%～+25% adjustable
50/60Hz±10%
Input PF
>0.99
0.99
THDi)
<3%（full linear load); <5%（full non-linear load）
<3%
Output PF
0.95
0.9
<1%(full linear load）
<4%（full non-linear load）
<2%(full linear load)，
<5%(full non-linear load)
Up to 96%
4
>99%
95.5%
6
99%
Total harmonic
distortion of output
Voltage THDv
Efficiency
System Number of parallel UPSs
ECO Efficiency
Output
19
Parameters compared with A1 Galaxy7000 form
Item
UPS5000-A
Galaxy7000
Input Voltage Range（V）
138-485
250-470
Input frequency Range (Hz)
40-70
45-66
Overload capability
125%:10min
150%:1min
125%:10min
150%:1min
Output PF
0.95
0.9
Input PF
0.99
0.99
Efficiency
96%
94.3%
Weight（kg）
500kVA: 1000kg
500kVA:1500kg
20
Parameters compared with E2 9395 Form
Item
UPS5000-A
E2 9395
Input Voltage Range（V）
138-485
190-475
Input frequency Range (Hz)
40-70
45-65
Total harmonic
distortion of output
Voltage (THDv)
<1%(full linear load）
<4%（full non-linear load）
full linear load 3%，
full non-linear load 5%
Input Power Factor(PF)
1
0.9
Efficiency
Up to 96%
Less than 95%
Weight（kg）
600k-1100
600k-1450
125% transfer to bypass mode after 10 min
150% transfer to bypass mode after 1min
<3%（full linear load);
<5%（full non-linear load）
125%：10min;
150%:1min;
<3% (100% full linear load);
<5% (full non-linear load)
Overload capability
THDi
21
Content
1
UPS5000-A-400/500K Product Highlights
2
Products Introduce
3
Products Competitive Analysis
4
The Installation of UPS&optionals and Alarms List
22
Optional：Temperature Sensor

Battery temperature sensor：Connect to the B_TEMP port on
the monitoring interface card , monitors the ambient temperature
near batteries, to achieve temperature compensation.

Ambient temperature and humidity sensor：monitors the
ambient temperature and humidity in the equipment room for the
stable operation of the UPS.
23
Optional：Dry Contact Extended Card

The dry contact extended card provides five relay output dry contacts and five input dry contacts.

Monitor and control critical alarms, minor alarms, bypass mode, battery mode, low battery voltage, and
diesel generator, etc.

For details, see the UPS user manual.
24
Optional： Battery Monitor Unit

Each BMU monitors a maximum of 24 batteries’s voltage,
charge and discharge currents, and temperature. Users may
need to configure two BMUs, n = 1 to 10, in each group
can monitor the maximum 240 cells.

Each BMU monitors a maximum of 24 batteries with a
rated voltage of 2-12 V.

BMU communicates with the UPS monitoring system that
makes the installation and maintenance becomes very
simple and quick.
25
Optional：Battery Grounding Failure Detector

The battery grounding failure detector checks for
current leakage on the battery loop and reports
battery grounding failure signals to the
uninterruptible power supply (UPS).
26
Installation of the Short-distance Battery Temperature Sensor
Connect the short-distance
battery temperature sensor
to the B_TEMP port on the
monitoring interface card
on the UPS
On the Communication
screen, set NTC to Enabled
27
Installation of the Ambient Temperature and Humidity Sensor Configurations
Set the DIP switch on the
ambient temperature and
humidity sensor. For details,
see the user manual.
On the LCD, choose System info. >
Settings > Communication. The screen
shown in Figure is displayed.
28
Installation of the Dry Contact Extended Card
Remove the filler panel from
the monitoring module
1 Remove the filler panel
2 Insert the card , Tighten screws
The dry contact extended card
supports hot swap.
29
Installation of Battery Monitor Unit
1 As figure shows the connections of battery and BMU
2 Connect power cables to the BMU
Connect the N(+) port to the positive
terminal of the external power supply,
L(-) port to the negative terminal, and
PE port to the protection ground cable.
4 Set BMUs On the liquid crystal display (LCD)
Check all connections and
turn on the power switch, set
as the figure. For details, see
the user manual.
30
3 Connect the UPS and BMU
Connect an RS485 port on the BMU to
the COM2 port on the UPS monitoring
interface card.
Installation of Battery Grounding Failure Detector
As the figure to install the battery grounding
failure detector, perform the following steps:
1 Remove the front panel.
2 Install the battery grounding failure detector
on the UPS along the guide rail.
3 Place the fuse on the fuse base, and install the
fuse base.
4 Connect the battery grounding failure
detector to the UPS and AC current transformer.
5 Reinstall the front panel on the power
distribution subrack, check and then power on .
31
Appendix： Alarm List
32
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