CyberPower CPSPV3600ETL, CPSPV2000ETL, CPSPV3000ETL User Manual

User’s Manual

CPSPV3600ETL
CPSPV3000ETL
CPSPV2000ETL

CyberPower Systems Inc.

www.cpsww.com

Copyright © 2012 CyberPower Systems, Inc.

IMPORTANT SAFETY INSTRUCTIONS

1

Save These Instructions! This manual contains important constructions that shall be followed during the installation and maintenance of the CyberPower Grid

Tie Solar Inverter.

CAUTION! Before installation and using the Inverter, read all
instructions and cautionary markings on the inverter and appropriate
sections of this guide.

CAUTION! To reduce risk of fire hazard, do not cover or obstruct the
heat sink.

CAUTION! Observe the clearance recommendations. Do not install the
Inverter in a zero-clearance or non-ventilated compartment. Overheating
may result.

CAUTION! Use only accessories recommended or sold by the
manufacturer. Doing otherwise may result in a risk of fire, electric shock,
or injury to persons.

CAUTION! To avoid a risk of fire and electric shock, make sure that
existing wiring is in good condition and that wire is not undersized. Do not
operate the Inverter with damaged or substandard wiring.

CAUTION! Do not operate the Inverter if it has received a sharp blow,
been dropped, or otherwise damaged in any way.

CAUTION! Do not disassemble the Inverter. It contains no
user-serviceable parts. Attempting to service the Inverter yourself may
result in a risk of electrical shock or fire and will void the factory warranty.

CAUTION! To reduce the risk of electrical shock, disconnect both AC
and DC power from the Inverter before attempting any, maintenance or
cleaning or working on any circuits connected to the inverter. Turning off
controls will not reduce this risk. Internal capacitors remain charger for 2
minutes after disconnecting all source of power.

CAUTION! The Inverter must be connected to an equipment-grounding
conductor directly or via the AC ground.

ATTENTIO: Risk of burning: During operation the case temperature
may exceed 140℉(60℃) , do not touch.

HIGH VOLTAGE: Before opening the device, disconnect from the grid
and the PV generator. The device may only be opened by an electrician.

WARNING! Require PV modules that have IEC 61730 class A rating.

The following conventions are used in this guide.

WARNING! Warnings identify conditions that could result in

personal injury or loss of life.

CAUTION! Cautions identify conditions or practices that could

result in damage to the unit or other equipment.

IMPORTANT: These notes describe things which are important for you to
know, but not as serious as a caution or warning.

About This Manual

This purpose of this Installation & Operation Manual is to provide
explanations and procedures for installing, operating, maintaining, and
troubleshooting the CyperPower Grid Tie Solar Inverter.

Scope

This manual provides safety guidelines, detailed planning and setup
information. It provides procedures for installing the inverter and
information about operating and troubleshooting the unit. It dose not
provide details about particular brands of photovoltaic (PV) panels. You
need to consult individual PV manufacturers for this information.

Audience

This manual is intended for anyone who needs to install and operate the
inverter. Installers should be fully educated on the hazards of installing
electrical equipment. Certified electricians or technicians are
recommended.

Abbreviation and Acronyms

AC: Alternating Current

DC: Direct Current

LCD: Liquid Crystal Display

LED: Light Emitting Diode

MPPT: Maximum Power Point Tracking

PC: Personal Computer

PV: Photovoltaic

PWM: Pulse Width Modulation

Vac: Volts AC

Vdc: Volts DC

VMP: Voltage at Maximum power

VOC: Open Circuit Voltage

!

!

Copyright © 2012 CyberPower Systems, Inc.

UNPACKING

2

1) CPSPV2000ETL、CPSPV3000ETL or

CPSPV3600ETL module

2) Stainless wall mount bracket

3) User’s manual 4) Warranty card

5) Self-tapping screws: M6*20L(5)

Copyright © 2012 CyberPower Systems, Inc.

Installation

3

CyperPower Grid Tie Solar Inverter

The CyberPower Grid Tie Solar Inverter is designed to convert solar
electric (photovoltaic or PV) power into utility-grade electricity that can be
used by the home or sold to the local power company.

Installing the inverter consists of mounting it to the wall and connecting
the DC input to a PV array and the AC output to the utility. See below
figure for a simple diagram of a typical installation.

In order to operate, the inverter must have grid power available and
connected. It will not provide backup power if the AC grid fails.

Installation Options

The inverter may be installed as a single inverter, or in a multiple inverter
configuration.
For CPSPV3600ETL / CPSPV3000ETL / CPSPV2000ETL, only one PV
array can be connected to the inverter.

Single Inverter Installation

In this configuration, a single inverter collects the harvested solar energy
and route the power to the main utility service panel to be used by the
loads. Any surplus power not used by the loads will be directed to the
utility grid.

Multiple Inverter Installation

If multiple inverters are used, each inverter must be wired to an
independent PV array. In this configuration, each inverter collects the
harvested solar energy from a separate PV array and routes the power to
the main utility service panel to be used by the loads. Any surplus power
not used by the loads will be directed to the utility grid.

Planning the Installation

The following issues need to be considered when planning for an
installation using the inverter. See the specified sections for more
information.

- Inverter Location?

- PV Array Requirements?

- Grounding Requirements?

- Routing the wires?

Ensure that you have obtained all permits required by local authorities or
utilities before commencing installation.

Inverter Location

WARNING! Burn hazard

Do not install in a location where people can accidentally come into
contact with the inverter. High temperatures can be present on the
inverter, causing a potential burn hazard.
In extreme condition, the inverter chassis can reach temperatures over
70℃ (158℉), which can cause skin burns if accidentally touched.
Ensure that the inverter is located away from normal traffic areas.

Inverter failure due to improper installation will void the inverter warranty.
Consider the following when determining where to install the inverter.

Fire Safety

Do not install anywhere near combustible or flammable materials.

Indoor/Outdoor

The inverter uses a Type IP65-rated enclosure that can be mounted
indoors or outdoors.

Orientation

The inverter must be mounted vertically on a wall or pole. Do not mount
the inverter horizontally.

Temperature

Ensure that the inverter is mounted in a location where the ambient
temperature range is -20℃ to +60℃. When the temperature is over
+40℃, the inverter may de-rate power.

Ground Clearance

Outdoors, the inverter requires at least 50 cm (19.7 inches) of clearance
between the bottom of the unit and the ground.
Indoors, it is recommended that the same clearance between the bottom
of the unit and the floor be used.

Distance

To minimize copper losses, ensure that wire lengths between the PV
array and the inverter and between the inverter and the Main Utility
Service Panel are kept to a minimum.
The maximum distances will depend on wire gauges and PV array output
voltages

Debris free

Excessive debris (such as dust, leaves, and cobwebs) can accumulate
on the unit, interfering with wiring connections and ventilation. Do not
install in a location where debris can accumulate (under a tree, for
example).

!

Copyright © 2012 CyberPower Systems, Inc.

Installation

4

PV Array Requirement

WARNING! Shock hazard

Whenever a PV array is exposed to sunlight, a shock hazard exists at the
output wires or exposed terminals. To reduce the risk of shock during
installation, cover the array with an opaque (dark) material before making
any connections.

IMPORTANT:

The PV array should be free of shade. This requirement includes even
small obstructions such as vent pipes, chimneys and power lines. A small
amount of shade can have a disproportionately high impact on system
performance.

General Recommendations

It is important that the PV array is installed correctly to the manufacturer
specifications and to local code requirement.

Equipment and Installation Recommendation

Equipment recommendations

- All electric equipment should be listed for the voltage and current

ratings necessary for the application.

- All wiring should be sized correctly to minimize voltage drop.

- All required over-current protections should be include the system

and accessible for maintenance.

- Integral roofing products should be properly rated.

Installation recommendations

- All electrical terminations should be fully tightened, secured, and

strain relieved as appropriate.

- All mounting equipment should be installed according to the

manufacturer specifications.

- All roof penetrations should be sealed with an acceptable sealing

method that does not adversely impact the roof warranty.

- All wires, conduit, exposed conductors and electrical boxes should

be secured and supported according to code requirements.

PV Voltage and MPPT Requirement

MPPT operational window

The MPPT software maximizes the output energy of solar arrays as long
as the operating voltage is within the operational window. Ensure that the
PV array used in the system operates within the MPPT operational
window. Effects of array voltages outside of the MPPT operational
window are shown in below Table.

Vo lt ag e

(V d c)

Ef f ec t o f A rr ay Vo l ta g e In v er te r M od e

<100 Will shut down

Shutdown

100~175

Maximum harvest of solar energy. (limit

input max current 12A)

CPSPV2000ETL

MPPT window

175~450

Maximum harvest of solar energy.

CPSPV2000ETL

MPPT window

100~210

Maximum harvest of solar energy. (limit

input max current 15A)

CPSPV3000ETL

MPPT window

210~450

Maximum harvest of solar energy.

CPSPV3000ETL

MPPT window

100~250

Maximum harvest of solar energy. (limit

input max current 15A)

CPSPV3600ETL

MPPT window

250~450

Maximum harvest of solar energy.

CPSPV3600ETL

MPPT window

450~550

Maximum harvest of solar energy. (limit

input max power)

MPPT window

>550

Will shut down and may cause damage

to the inverter.

Shutdown

PV Voltage requirements

The maximum power point voltage of a string connect to the inverter
should be a minimum of 250Vdc for CPSPV3600ETL model. If it is less
than 250Vdc for CPSPV3600ETL model, the inverter will continue to
operate, but it will regulate the PV voltage to 250Vdc for CPSPV3600ETL
model. Because the array will not be operating at its maximum power
point, this may result in lower than expected energy harvest.

Maximum PV Power

The solar array should be sized such that the maximum power output
dose not exceeds the limit of the MPPT operation window. The array
voltage should never exceed 550 VOC (open circuit voltage) under any
thermal condition. Likewise, ensure that ISC (short circuit current) rating
of the array at any temperature does not exceed the short circuit current
of the inverter.

Guideline for Matching PV Array Size to Solar Inverter Input

For determining the number of panels required in the PV string (panels
connected in series), you must ensure that the following requirements are
met:

1. To avoid damage to the inverter, ensure that PV array output will

never exceed 550Vdc under any conditions.

2. Do not exceed the maximum array short circuit current rating

marked on the inverter.

3. To achieve maximum energy harvest from your array, ensure that

the VMP (voltage at maximum power) dose not drop below 250Vdc
under most condition for CPSPV3600ETL model.

!

Copyright © 2012 CyberPower Systems, Inc.

Installation

5

Grounding Requirements

WARNING! Shock hazard

The inverter must be grounded by connection to a grounded permanent
wiring system.

AC grounding

The inverter must be connected to a grounded, permanent wiring system
via the inverter ground terminal.

The ground terminal must also be connected to the main utility breaker
panel ground bar and to the house-grounding rod according to
requirement.

Lightning protection

Reduce the risk of lightning damage by using a single-point grounding
system. In this system, all ground lines terminate at the same point. This
point normally is the main utility ground installed by the utility company to
provide a ground for the house wiring. This ground usually consists of a
copper rod driven 1.5 to 2.5 meters (6 to 8 feet) into the earth.

Routing the wires

Preparing for the Installation

Ensure your local utility is consulted for any requirements for connecting to
or returning power to the grid. Obtain all permits necessary to complete the
installation. Consult your local and national electrical codes for more
information.

This section includes the following topic:

1. Wiring

- The wires to AC terminal:
Acceptable wire size:
For CPSPV3600ETL: From #12 AWG to #10 AWG (3mm2 to 6mm2).
For CPSPV3000ETL: From #14 AWG to #12 AWG (2mm2 to 3mm2).
For CPSPV2000ETL: From #14 AWG to #12 AWG (2mm2 to 3mm2).

- The wires to DC connectors:
Recommended Type:
For PV (+): PV-KBT4/2,5I with 1.5~2.5mm^2 cable (double-isolation)
For PV (-): PV-KST4/2,5I with 1.5~2.5mm^2 cable (double-isolation)

IMPORTANT:

Wiring should be not undersized. Undersized wiring can result in
significant power losses and reduction in system efficiency.

2. AC Circuit breaker

This breaker must be sized to handle the rated maximum output voltage
and current of the inverter. (Please refer to the inverter specification)
Recommended AC Circuit Breaker:
For CPSPV3600ETL: 23 Amps / 250 Vac.
For CPSPV3000ETL: 20 Amps / 250 Vac.
For CPSPV2000ETL: 13 Amps / 250 Vac

WARNING! Fire

、、、、

Shock and Energy Hazard

Before installing the inverter, read all instructions and cautionary
markings located in this manual, on the PV array, and on the main
service panel.

!

!

CPSPV2000ETL CPSPV3000ETL CPSPV3600ETL

MPPT tracker

1 1 1

Input current

limitation

12A 15A 15A

Max. Input short

circuit current

14A 18A 18A

MPPT start

voltage (Vdc)

130 130 130

MPPT window

(Vdc)

100~550 100~550 100~550

Inverter full load

range (Vdc)

175~450 210~450 250~450

Inverter de-rating

range (Vdc)

100~175 100~210 100~250

Maximum input

voltage (Vdc)

550 550 550

Copyright © 2012 CyberPower Systems, Inc.

Mounting the inverter

6

Mount the inverter

Make sure the supporting surface is strong enough to handle 60 kg
(133lb) for the inverter.

Step1: Fix the wall mount bracket

Use the attached screws / Self-tapping screws: M6*20L (5pcs)

Step2: Put the inverter on the wall mount bracket

Step3: Make sure the host of inverter on the incision of
the wall mount bracket

Step4: Move the inverter from right to left side, and
make sure the hole is locked with wall mount bracket.

Step5: Use cable ties, and fix the inverter with wall

mount bracket.

WARNING! Equipment damage Shock hazard

If your installation location requires that you drill additional conduit holes
into the bracket, ensure that there are no metal shavings left inside the
unit. These could cause a short circuit when unit is operating.

!

Copyright © 2012 CyberPower Systems, Inc.

Inverter

Introduction

7

Standard Feature

- Sealed inverter section protecting power electronic components (IP65)

- Liquid Crystal Display providing easy-to-read system status and daily cumulative energy production information

- Three LED indicator lights providing status, ground fault and other warning indication

Front Panel Feature

1. LCD:

Graphic liquid crystal display / “160*128” dots

2. Button:

○

A : Up key: select the display item

○

B : Down key: select the display item

○

C : Esc key: escape to upper level

○

D : Enter key: enter into next level

3. LED:

○

E : LED Indicator Light (Green) – Flash: Standby for reconnection / Solid: Operation

○

F : LED Indicator Light (Red) – Warning condition

○

G : LED Indicator Light (Yellow) – Ground fault

Copyright © 2012 CyberPower Systems, Inc.

Inverter

Introduction

8

Rear Panel Feature

○

1 : DC switch: The device which can disconnect the solar input

○

2 : Solar input (- / negative): DC wire connect to solar array negative

- Recommended type: PV-KST4/2,5I with 1.5~2.5mm^2 cable (double-isolation)

○

3 : Solar input (+ / positive): DC wire connect to solar array positive

-

Recommended type: PV-KBT4/2,5I with 1.5~2.5mm^2 cable (double-isolation)

○

4 : M20*1.5 cable glands * 2pcs: For RS-485 communication

○

5 : M20*1.5 cable gland * 1pcs: For RM card communication

○

6 : AC connector (male): Connect to the utility output

-

Recommended female type: PWJ-03BFFB-LL8001

(Amphenol)

Copyright © 2012 CyberPower Systems, Inc.

Startup Procedure

9

Check the PV Array DC Voltage

1.

Uncover the PV arrays and expose them to full sunlight. The sunlight must be intense enough to produce the required output voltage.

2.

Measure the PV array open circuit DC voltage across the DC positive (+) and negative (-) terminals. This voltage must greater than 100
volts DC (to energize the electronics) and less than 550 volts DC (to prevent damage to the inverter).

Check the AC Utility Voltage

1.

Switch on the main and inverter breakers in the main electrical service panel.

2.

Using an AC voltmeter, measure the AC open circuit utility voltage between L (L1) and N (L2). Ensure the voltage is at approximately the
nominal value. The inverter operates with the voltage range around the nominal value.

See “Electrical Specification”, output section for the utility voltage operating range for your inverter model.

Start up the Inverter

1.

Switch the DC and AC disconnection switches (breakers) to the ON position.

2.

Check the inverter LCD. The startup screens should appear for several seconds, and then the “Countdown xx:xx” special screen will

appear until protection timer countdown is completed.

Disconnect Test

The disconnect test is designed to verify correct operation of the inverter both on initial operation and periodically through its life as required

by the utilities. This test ensures that inverter dose not send electricity to the utility grid when local utility has shut off the grid for repairs, or

when the utility wiring is damaged.

To run the disconnect test

1. Switch off the AC circuit for the inverter

This can be accomplished by switching the breaker on the main panel that feeds the inverter(s). The disconnection for the home or

business may be used as well.

2. Have someone watch the front panel of the inverter to ensure the green light on the front of the inverter goes out.

The green light goes out when AC circuit is switched off, disconnecting the inverter from the AC grid. The front panel display will show

an AC voltage and frequency fault display, indicating that the AC is out of the operating range.

3 Switch on the AC circuit for the inverter

The inverter responds by starting it reconnecting protection timer. Ensure that the inverter does not produce power before the

countdown is over. After completing the countdown, the green light turns on and the inverter begins to send power to the grid. The

display returns to show the power being produced and total kWh produced to date.

IMPORTANT:

The default voltage, frequency and reconnect delay values are programmed into the unit at time of shipment from the factory. No changes to these settings
can be made in the field by the user. Only authorized personnel with utility permission may change these settings.

Copyright © 2012 CyberPower Systems, Inc.

Monitoring the Inverter

10

After installation, at the first startup, the

following setting should be set through the

display.

 Select code

 Select language

 Select date & time

After you select above three items, the

display will enter into “Home Page”

1. Home page

Pac kW: Right now the inverter provides how much power to the grid.

E-Total: From the installation to now, the inverter provided how much
energy to the grid.

E-day: Today the inverter provided how much energy to the grid.

 Press “Enter” key

2. Main menu:

Copyright © 2012 CyberPower Systems, Inc.

Monitoring the Inverter

11

 In “Main Menu”, select Energy totals, then

press “Enter” key

2.1 Energy Totals:

 In “Main Menu”, select Multi meter, then press

“Enter” key

2.2 Multi meter:

 In “Main Menu”, select Data Logger, then press “Enter” key

2.3 Data Logger:

 In “Data Logger”, select Daily Log, then press “Enter” key

2.3.1 Daily Log:

 In “Data Logger”, select Monthly Log, then press “Enter” key

2.3.2 Monthly Log:

Copyright © 2012 CyberPower Systems, Inc.

Monitoring the Inverter

12

 In “Data Logger”, select Yearly Log, then press

“Enter” key

2.3.3 Yearly Log:

 In “Main Menu”, select Log Book, then press

“Enter” key

2.4 Log Book:

IMPORTANT:

There are over last 100 dated failure reports on the NS
protection can be read.

 In “Main Menu”, select Config, then press

“Enter” key

2.5 Config:

 In “Config”, select Date & Time, then press “Enter” key

2.5.1 Date & Time:

 In “Config”, select Grid Set, then press “Enter” key

2.5.2 Grid Settings:

IMPORTANT:

The settings only can be used by authorized personnel with utility
permission.

Copyright © 2012 CyberPower Systems, Inc.

Monitoring the Inverter

13

 In “Config”, select Display Set, then press

“Enter” key

2.5.3 Display Settings:

 In “Config”, select Device Info, then press

“Enter” key

2.5.4 Device Info:

 In “Config”, select Installer Code, then press “Enter” key

2.5.5 Installer Code:

IMPORTANT:

The settings only can be used by authorized personnel with utility
permission.

 In “Config”, select RMCard Set, then press “Enter” key

2.5.6 RMCard Settings:

IMPORTANT:

The settings only can be used by authorized personnel with utility
permission.

Copyright © 2012 CyberPower Systems, Inc.

Warning / Error / Fault List

Table

14

Warning table

W00

Solar input voltage low

W04

Solar input voltage high

Error table:

E00

No Grid

E01

AC frequency high (According to

code setting table)

E02

AC frequency low (According to

code setting table)

E03

AC voltage high (According to code

setting table)

E04

AC voltage low (According to code

setting table)

Fault table

(Usually you need to call service people if
there is always fault condition happened)

F01

Hardware DC injection of output

current (According to code

setting table)

F05

Temperature sensor 1 low

F06

Temperature sensor 1 high

F07

Hardware temperature sensor 1

failure

F08

Temperature sensor 2 high

F09

Hardware temperature sensor 2

failure

F10

Temperature sensor 3 high

F11

Hardware temperature sensor 3

failure

F15

Hardware main DSP ADC1

failure

F16

Hardware main DSP ADC2

failure

F17

Hardware main DSP ADC3

failure

F18

Hardware main DSP ADC4

failure

F19

Hardware redundant MCU

ADC1 failure

F20

Hardware efficiency failure

F22

Hardware communication 1

failure

F23

Hardware communication 2

failure

F24

Residual current failure

(According to code setting

table)

F25

Hardware RCMU failure

F26

Input insulation failure

F28

Hardware relay short

F29

Hardware relay open

F31

Hardware DC Bus 1 OVP

F33

Hardware DC Bus 2 OVP

F36

AC output current high (fast)

F37

AC output current high (slow)

F42

Hardware CT failure

F45

Hardware AC current OCP

F60

DC input current high (slow)

F70

DC input current high (fast)

Copyright © 2012 CyberPower Systems, Inc.

TECHNICAL SPECIFICATIONS

15

Model

CPSPV2000ETL CPSPV3000ETL CPSPV3600ETL

Feature

Type of equipment

Grid tied PV inverter

Non-isolated (transformer-less)

Adjustable reactive power

Outdoor enclosure (IP65)

Input

Absolute maximum PV input
voltage

550 Vdc

Operation voltage range 100~ 550 Vdc
MPP voltage range @nominal
power 175 ~ 450 Vdc 210 ~ 450 Vdc 250~450 Vdc
Input power capture

>99%
Rating input voltage 360 Vdc
Inverter wake up voltage < 100 Vdc (DC power supply on)
Start voltage 130 Vdc
MPPT tracker 1 tracker
Input current limitation 12 Adc 15 Adc 15 Adc

Max backfeed current 0 A

Maximum efficiency@650Vdc 97.5% 97.8% 97.8%
European efficiency@650Vdc 96.8% 97.3% 97.3%

Input protection

Voltage and current limitation

Array impedance measurement

Residual current measurement

Input detection tolerance

Input voltage deviation < 2%

Input current deviation <3%

Input power deviation <3%

Output

Output rating power 2000 Watt 3000 Watt 3600 Watt
Grid Single phase
Grid rating voltage 230 Vac
Grid voltage range (Over /

under voltage disconnect) 180 ~ 270 Vac (According to code setting table)
Over / under voltage
disconnect time According to code setting table
Grid rating current 8.7 A 13 A 15.6 A
Grid maximum continuous
current 10A 14.5 A 16 A
Grid rating frequency

50 / 60 Hz

Grid maximum inrush current

120 A <2uS

Maximum output fault current

30Arms

Maximum output overcurrent
protection 20 A 30 A 35 A

Grid frequency range (Over /
under frequency disconnect) 50 / 60 +/- 5 Hz (According to code table setting)
Over / under frequency
disconnect time According to code setting table

Active islanding method Yes
Reconnect time (After grid
recover) According to code setting table
Output current DC component According to code setting table
Output current harmonic
distortion < 5%
Reactive power Control Yes
Power factor range 0.8 Leading ~ 0.8 Lagging
Nighttime power consumption About 1 Watt

Output protection

Output AC fuse

Current limitation and thermal de-rating

Over temperature protection

Output detection tolerance

Utility voltage deviation < 1%

Utility frequency deviation < 0.05Hz

Output current deviation < 3%

Output power deviation < 3%

Copyright © 2012 CyberPower Systems, Inc.

TECHNICAL SPECIFICATIONS

16

CyberPower Systems Inc.

www.cpsww.com

Countdown timer deviation <1 sec

Power limitation

Temperature sensor on heat-sink & internal air temperature

Output voltage under 195 Vac

Information

Communication RS485 / Ethernet (optional) / WiFi (optional)
LED Green / Red / Yellow
LCD display

160 * 128 dots

Control switches Up / Down / Esc / Enter

Display data

Real-time output power

Inverter status

Accumulate today output energy

Accumulate lifetime output energy

Event message

Utility voltage, frequency

PV voltage, power

Firmware revision

Inverter ID
RTC (Real time counter) 10 years life
Data storage Accumulate historical energy

Regulatory

Safety IEC 62109-1/2
Grid interface VDE-AR-N 4105 / VDE0126-1-1
Emission EN 55022:2006
Harmonic current emissions EN 61000-3-2:2005 / EN 61000-3-12:2005
Voltage fluctuations and flicker

EN 61000-3-11:2001

Immunity EN 55024

Operation Environment

Operating Temperature

-20℃ to 60℃(full power -20℃ to 40℃)

Storage temperature

-20℃ to 60℃

Relative humidity 4% ~ 100%
Audible noise

<36dB

Operating elevation

0 ~ 2000 m ( 0 ~ 6666 ft)

Vibration / Drop ISTA_1A standard

Physical

Dimensions (unit) L x W x H = 487x397x196
Dimensions (Package) L x W x H = 615x515x380
Net Weight 18 Kg 19.5 Kg 19.5 Kg
Gross Weight 21.5 Kg 23 Kg 23 Kg
Enclosure rating IP 65
Installation type Wall mount
DC connector 1 pairs connectors
AC connector Waterproof AC connector

Copyright © 2012 CyberPower Systems, Inc.

TECHNICAL SPECIFICATIONS

17

Explanation of symbols

Beware of dangerous electrical voltage.

Energy storage timed discharge with 2 minutes.

Beware of hot surface.

Observe enclosed documentation.

There are special requirements.

The inverter complies with the requirements of the applicable EC guidelines.

The inverter must not be disposed of together with the household waste.

Copyright © 2012 CyberPower Systems, Inc.

Code setting table

18

Code table number 2 3 4 5

Code

VDE-AR-N4105 VDE0126-1-1 VDE0126-1-1/UTE VDE0126-1-1/TW

Default

Setting Trip time Setting Trip time Setting Trip time Setting Trip time

Start up time 60 -- 30 -- 30 -- 30 --

Reconnect time (T < 3S) 60 -- 5 -- 5 -- 300 --

Reconnect time (normal) 60 -- 30 -- 30 -- 300 --

Voltage high OFF (Fast) 264.5 0.08 sec 264.5 0.2 sec 255.3 0.2 sec 242 0.2 sec

Voltage high ON (Fast) 250.7 -- 259.5

-- 251.3 -- 237 --

Voltage low OFF (Fast) 184.0 0.08 sec 184 0.2 sec 184 0.2 sec 187 0.2 sec

Voltage low ON (Fast) 197.8 -- 189 -- 189 -- 192 --

Frequency high OFF (Hz) 51.50 0.08 sec 50.2 0.2 sec 50.2 0.2 sec 60.3 0.2 sec

Frequency high ON (Hz) 50.05 -- 50.15

-- 50.15 -- 60.1 --

Frequency low OFF (Hz) 47.50 0.08 sec 47.5 0.2 sec 46 0.2 sec 59.7 0.2 sec

Frequency low ON (Hz) 47.55 -- 47.55

-- 46.1 -- 59.9 --

Voltage high OFF (Slow) 253.0 600 sec 253 600 sec 253 600 sec 242 600 sec

Voltage high ON (Slow) 250.0 -- 250 -- 250 -- 239 --

Voltage low OFF (Slow) -- -- -- -- -- -- -- --

Voltage low ON (Slow) -- -- -- -- -- -- -- --

DC Injection (mA) -- -- 1000 0.2 sec 1000 0.2 sec 0.45% 0.2 sec

Ground Current (mA) 300 0.3 sec 300 0.3 sec 300 0.3 sec 300 0.3 sec

Insulation Yes 5 sec Yes 5 sec Yes 5 sec Yes 5 sec

Islanding Yes Yes Yes Yes

Islanding Factor 100 100 100 100

Active Power Yes -- -- --

Reactive Power Yes -- -- --

Frequency de-rating Yes -- -- --

Power slow-up Yes -- -- --

Copyright © 2012 CyberPower Systems, Inc.

Code setting table

19

Reactive power measurement