Cyber Power CPS5000ECH48, CPS3000ECH48 User Manual

User’s Manual

All-In-One Off-Grid Inverter

Contents

1 Brief Introduction ........................................................................................................... 1

1.1 Preface ................................................................................................................................................. 1

1.2 Target Group ........................................................................................................................................ 1

1.3 Product Description ............................................................................................................................. 1

1.4 Basic System Architecture .................................................................................................................... 2

1.5 Product Overview................................................................................................................................. 2

2 Safety Instructions .......................................................................................................... 4

3 Installation...................................................................................................................... 5

3.1 Unpacking and Inspection .................................................................................................................... 5

3.2 Basic Installation Requirements ........................................................................................................... 5

3.3 Inverter Connection ............................................................................................................................. 7

3.3.1 Lead acid battery connection .................................................................................................... 7

3.3.2 AC Input & Output Connection ................................................................................................. 9

3.3.3 PV Connection ......................................................................................................................... 11

3.3.4 Finally assemble ...................................................................................................................... 12

4 Communication Connection .......................................................................................... 13

5 Dry Contact ................................................................................................................... 14

6 Operation ..................................................................................................................... 15

6.1 Power ON/OFF ................................................................................................................................... 15

6.2 Operation and Display Panel.............................................................................................................. 15

6.3 LCD Display description ...................................................................................................................... 17

7 Specifications ................................................................................................................ 24

8 Trouble Shooting .......................................................................................................... 27

9 Manufacturer Warranty ................................................................................................ 28

10 Appendix .................................................................................................................... 29

1

1 Brief Introduction

1.1 Preface

This manual describes the assembly, installation, operation and troubleshooting. Please read this

manual carefully and put this manual on some place where is convenient to installation, operation,

obtain. Any modifications of user’s manual, we will not notify the user.

1.2 Target Group

Only qualified and trained electrical technicians are allowed to install and operate the unit.

The unit is compatible with lead acid battery. For lead acid battery, you are easy to find it on the market.

However, we strongly recommend you to contact your installer or CyberPower system to confirm before

the procedure.

1.3 Product Description

The unit is sort of off-grid inverter. It uses surplus PV generation to charge the battery in the day time.

After the sun goes down, the PV generation is unavailable, it discharge the battery or utilize grid

electricity to power the load at night. It enjoys following features:

Pure sine wave inverter

Built-in MPPT solar charge controller

Configurable input voltage range for home appliances and personal computers via LCD setting

Configurable battery charging current based on applications via LCD setting

Configurable AC/Solar Charger priority via LCD setting

Auto restart while AC is recovering

Overload/Over temperature/Short circuit protection

Smart battery charger design for optimized battery performance

Cold start function

2

Solar power

Generator

OR

Utility

External

Battery Packs

Home Appliances

DEFGHNI

J K M L

A

B

C

O P Q

1.4 Basic System Architecture

Figure 1-1

As shown in above system diagram, the unit is used to power common house appliances including some

inductive load such as light, refrigerator. Also, diesel generator and power grid can be compensation in

which solar energy is insufficient as well as to charge the battery.

1.5 Product Overview

Figure 1-2

3

NOTE:

For parallel model installation and operation, please check separate” parallel & three phase

installation guide” for the details. Only CPS5000ECH48 have the function.

Table 1 -1

Position Description

A LCD Display

B Status Indicator

C Function Buttons

D Power ON/OFF Switch

E Dry Contact

F RS485 Communication Port (Reserve)

G RS232 Baffle

H Battery Input

I Circuit Breaker

J AC Input

K AC Output

L PVB Input

M PVA Input

N Parallel Baffle

O Parallel Communication Cable

P Parallel Current Sharing Cable

Q RS232 Communication Port

4

!

WARNING

2 Safety Instructions

This chapter contains important safety and operating instructions. Read

and keep this manual for future reference.

1. Before using the unit, read all instructions and cautionary marking on the unit, the batteries and all

appropriate sections of this manual. The company has the right not to quality assurance, if not

according to the instructions of this manual for installation and cause equipment damage.

2. All the operation and connection please professional electrical or mechanical engineer.

3. All the electrical installation must comply with the local electrical safety standards.

4. When install PV modules in the daytime, installer should cover the PV modules by opaque materials,

otherwise it will be dangerous as high terminal voltage of modules in the sunshine.

5. CAUTION：To reduce risk of injury, charge only deep-cycle lead-acid type rechargeable batteries. Other

types of batteries may burst, causing personal injury and damage.

6. Do not disassemble the unit. Take it to a qualified service center when service or repair is required.

Incorrect re-assembly may result in a risk of electric shock or fire.

7. To reduce risk of electric shock, disconnect all wirings before attempting any maintenance or cleaning.

Turning off the unit will not reduce this risk.

8. NEVER charge a frozen battery.

9. For optimum operation of this inverter, please follow required spec to select appropriate cable size. It’s

very important to correctly operate this inverter.

10. Be very cautious when working with metal tools on or around batteries. A potential risk exists to drop a

tool to spark or short circuit batteries or other electrical parts and could cause an explosion.

11. Please strictly follow installation procedure when you want to disconnect AC or DC terminals. Please

refer to INSTALLATION section of this manual for the details.

12. GROUNDING INSTRUCTIONS -This inverter should be connected to a permanent grounded wiring

system. Be sure to comply with local requirements and regulation to install this inverter.

13. NEVER cause AC output and DC input short circuited. Do NOT connect to the mains when DC input

short circuits.

14. Make sure the inverter is completely assembled, before the operation.

5

Monitor

Connector

Connector

Monitor

Monitor

Connector

Monitor

Connector

Connector

Monitor

3 Installation

3.1 Unpacking and Inspection

Before installation, please inspect the unit. Be sure that nothing inside the package is damaged. You

should have received the following items inside of package:

3.2 Basic Installation Requirements

1. The installation location must be suitable for inverter’s weight for a long period time.

2. The installation location must conform to dimension of the inverter.

3. Do not install the unit on structures constructed of flammable or thermo labile materials.

4. The Ingress Protection rate is IP20 and the pollution degree is PD2, The install area shall be generally

The unit×1
User manual×1
Setting screws×3

conditioned in term of temperature, humidity and air filtration.

5. Battery installation option is not far below the position of inverter.

6. The humidity of the installation location should be 5 ~ 85%.

7. The ambient temperature should be 0℃ ~ 55℃.

8. The inverter can be installed in vertical or lean back on plane, Please refer to the below. Installation

position shall not prevent access to the disconnecting means.

Figure 3-1

6

248mm(9.76")

380mm(14.96")

69mm(2.71")

9. In order to ensure machine can run normally and easy to operate, please pay attention to provide

adequate space for the inverter. Please refer to below:

Figure 3-2

10. Do not install the machine near television antenna or any other antennas and antenna cables.

11. Do not install the machine in the living area.

12. Be sure that the machine is out of the children’s reach.

13. Install the unit by screwing three crews as below. It’s recommended to use M6 screws.

Figure 3-3

7

( 



inverter. It may not be

however, it’s still requested to

All wiring must be performed by a qualified personnel.

It's very important for system safety and efficient

operation to use appropriate cable for battery

!

WARNING

3.3 Inverter Connection

3.3.1 Lead acid battery connection

User can choose proper capacity lead acid battery with a nominal voltage at 48V. Also, you need to

choose battery type as “lead acid battery”.

CAUTION:

For safety operation and regulation compliance, it’s requested to install a separate DC

over-current protector or disconnect device between battery and

requested to have a disconnect device in some applications,

have over-current protection installed.

connection. To reduce risk of injury, please use the proper

recommended cable and terminal size as below.

Figure 3-6

Recommended battery cable and terminal size:

Table 3 -1

Ring Terminal

Cable

)

Dimensions

D

(mm) L (mm)

Torq u e

Val ue

Recommended

Charge Current

Model

Max.

Charging

Current

Battery

Wire Size

Capacity

CPS5000ECH48 130A 200AH 2*8AWG 14 6.4 29.2 2-3Nm 40A

CPS3000ECH48 100A 100AH 1*6AWG 14 6.4 29.2 2-3Nm 20A

Note:

For lead acid battery, the recommended charge current is 0.2C (Cbattery capacity).

8

!

WARNING

Installation must be performed with care due to high battery voltage in series.

ring terminal. Otherwise, overheating may occur.

oxidant substance on the terminals before terminals are

connected tightly.

Before making the final DC connection or closing DC breaker, be sure positive

Please follow below steps to implement lead-acid battery connection:

1. Assemble battery ring terminal based on recommended battery cable and terminal size

(same as Lead acid,see section 3.3.2 for details).

2. Insert the ring terminal of battery cable flatly into battery connector of inverter and make sure

the bolts are tightened with torque of 2-3Nm.Make sure polarity at both the battery and the

inverter/charge is correctly connected and ring terminals are tightly screwed to the battery

terminals.

Shock Hazard

CAUTION:

Do NOT place anything between the flat part of the inverter terminal and the

Do NOT apply anti-

(+) must be connected to positive (+) and negative (-) must be connected to

negative (-).

Figure 3-7

9

AC breaker

mis-connect input and output connectors.

!

WARNING

3.3.2 AC Input & Output Connection

CAUTION:

Before connecting to AC input power source, please install a separate

between inverter and AC input power source. This will ensure the inverter can be

securely disconnected during maintenance and fully protected from over current of

AC input. The recommended spec of AC breaker is 50A for 5KVA.

There are two terminal blocks with “IN” and “OUT” markings. Please do NOT

All wiring must be performed by qualified personnel.

It's very important for system safety and efficient operation to use appropriate cable

for AC input connection. To reduce risk of injury, please use the proper recommended

cable size as below.

Suggested cable requirement for AC wires:

Table 3 -2

Model Wire size Torque value

CPS5000ECH48 1*8AWG 1.4-1.6Nm

CPS3000ECH48 1*10AWG 1.4-1.6Nm

Please follow below steps to implement AC input/output connection:

1. Before making AC input/output connection, be sure to open DC protector or disconnector first.

2. Remove insulation sleeve 10mm for six conductors. And shorten phase L and neutral conductor

N 3mm.

3. Insert AC input wires according to polarities indicated on terminal block and tighten the terminal

screws. Be sure to connect PE protective conductor ( ) first.

→ Ground (yellow-green)
L → LINE (brown)
N → Neutral (blue)

10

!

WARNING

it to the unit.

are worked in parallel operation.

Figure 3-8

Be sure that AC power source is disconnected before attempting to hardwire

4. Then, insert AC output wires according to polarities indicated on terminal block and tighten

terminal screws. Be sure to connect PE protective conductor ( ) first.

→ Ground (yellow-green)
L → Line (brown)
N → Neutral (blue)

Figure 3-9

5. Make sure the wires are securely connected.

CAUTION:

Be sure to connect AC wires with correct polarity. If L and N wires are

connected reversely, it may cause utility short-circuited when these inverters

11

!

WARNING

All wiring must be performed by qualified personnel.

use the proper recommended cable size as below.

3.3.3 PV Connection

CAUTION:

Before connecting to PV modules, please install separately a DC circuit

breaker between inverter and PV modules.

It's very important for system safety and efficient operation to use

appropriate cable for PV module connection. To reduce risk of injury, please

Table 3 -3

Model Max charging current per string Diameter Torque

CPS5000ECH48 35A 1*10AWG 1.2-1.6Nm

CPS3000ECH48 35A 1*10AWG 1.2-1.6Nm

PV Module Selection:

When selecting proper PV modules, please be sure to consider below parameters:

1. Open circuit Voltage (Voc) of PV modules not exceeds max. PV array open circuit voltage

of inverter.

2. Open circuit Voltage (Voc) of PV modules should be higher than min. battery voltage.

Table 3 -4

Model CPS5000ECH48 CPS3000ECH48

Max. PV array open circuit voltage 145Vdc

PV array MPPT voltage range 60~115Vdc

Min. battery voltage for PV charge 36Vdc

There’re two pairs of string for PV Input. Also, it’s allowed to make two PV input parallel (see section

6.2 for details).

Please follow below steps to implement PV input connection:

1. Remove insulation sleeve 10 mm for positive and negative conductors.

Figure 3-10

12

2. Check correct polarity of connection cable from PV modules and PV input connectors.

Then, connect positive pole (+) of connection cable to positive pole (+) of PV input connector.
Connect negative pole (-) of connection cable to negative pole (-) of PV input connector.

Figure 3-11

Figure 3-12

3. Make sure the wires are securely connected.

3.3.4 Finally assemble

After connecting all wirings, please put bottom cover back by screwing two screws as shown below:

Figure 3-13

13

RS

232

RS485

4 Communication Connection

The unit is compatible with RS232 and RS485 communication.

It can be monitored by RS232 port on local PC or RS485 port on data logger, and configured by RS232

port on local PC.

Figure 4-1

14

5 Dry Contact

There’s one dry contact (2A/30VDC) available on the rear panel. It could be used to deliver signal to

external device when battery voltage reached warning level.

Table 5 -1

Dry contact port:

Unit Status Condition

NC & N NO & N

Power Off No output is powered Close Open

Output is powered from Utility Close Open

Output is

powered

Power On

from

Battery or

Solar

AC output

source is

"UTI first"

AC output

source is

"PV first" or

"BAT first"

Battery voltage < Low DC

warning voltage

Battery voltage > Battery

charging reaches floating

stage

Battery voltage < Setting

value in "Battery Low Volt"

Battery voltage > Battery

charging reaches floating

stage

Open Close

Close Open

Open Close

Close Open

15

LCD Display

LED Display

Function Keys

6 Operation

6.1 Power ON/OFF

Once the unit has been properly installed and the batteries are connected well, simply press On/Off

switch (located on the button of the case) to turn on the unit.

Figure 6-1

6.2 Operation and Display Panel

The operation and display panel, shown in below chart, are on the front panel of the inverter. It includes

LCD display, indicators, and function keys to show the operating status and input/output power

information.

Figure 6-2

LED indicator：

Table 6 -1

LED

LED

Description

indicators

status

Green Solid on Normal: Inverter working well

Red Flashing Warning : Warning, but still working

Red Solid on Error: Inverter stop work

16

Character Display

Icon Display

Buzzer：

Table 6 -2

Buttons：

Status Description

Beeps every 3 seconds Inverter is in warning state

Beeps constantly Inverter is in error state

Function

Key

ESC To exit setting mode

UP To go to previous selection

DOWN To go to next selection

ENTER To confirm the selection in setting mode or enter setting mode

LCD Display：

Table 6 -3

Description

Figure 6-3

17

6.3 LCD Display description

In the first line of the LCD, it displays the warning error code & current status & setting item.

The current status includes Normal, Warn, and Error. More info about error & warning code

and setting item please refer to following pages. In the second line of the LCD, it displays input

& output parameters and time of inverter

Table 6 -4

Items Description

Vb/Cb: xx.xV/ xxx% Battery Voltage/Battery Capacity

Vpv: xxxV/ xxxV

PV Voltage：PVA Voltage/PVB Voltage

Ic_pv: xx.x / xx.x A PV Charge Current: PVA Charge Current/ PVB Charge Current

Ppv: xxxx/ xxxxW PV Charge Power: PVA Charge Power/ PVB Charge Power

AC_In: xxxV/ xxHz Voltage/Frequency of input AC

AC_Out: xxxV/ xxHz Voltage/Frequency of output AC

Ichr_ac: xx.xA AC Charge Current

Ichr_all: xxx.xA Max. Charge Current

PL: xxxxW/ xxxxVA Power of Load

Per_Load: xxx% Load Percentage

Epv_d: xxxx.x KWh Daily PV Generation

Epv_a: xxxx.x KWh Total PV Generation

Ec_d: xxxx.x KWh Daily Charged Capacity of Battery

Ec_a: xxxx.x KWh Total Charged Capacity of Battery

Ed_d: xxxx.x KWh Daily Discharged Capacity of Battery

Ed_a: xxxx.x KWh To t a l Discharged Capacity of Battery

20xx/xx/xx xx:xx Time

SerNo: xxxxxxxxxx Series Number

FW Version: xxxx Firmware Version

18

Display：

Table 6 -5

Item Description

It presents battery capacity. Each interval indicates battery capacity level

by 0-20%

Load power: Each interval indicates load level by 0-25%

Indicates unit connects to the mains or generator

Indicates unit connects to PV modular. One PV modular icon presents

one string PV modular connects to the unit

Indicates the DC/DC (MPPT) circuit is working.

Indicates the DC/AC inverter circuit is working.

Indicates the RS232 circuit is working.

Indicates the RS485 circuit is working.

Indicates the unit is in silent mode

Indicates the inverter is in warning state

Indicates the inverter is in error state

19

LCD Display Description：

Item Description

Table 6 . 6

Battery powers the load.

PV energy charges battery.

Utility energy charges battery.

PV and utility energy charge battery together.

PV energy is charging battery while battery powers the load.

PV energy is charging battery while utility powers the load.

Utility powers the load and charges battery.

PV energy and utility charge the battery together while utility

powers the load.

Only utility powers the load.

20

warning voltage or the setting point in “Battery

LCD Description：

When the power switch is turned on, pressing and holding Enter button immediately for 3

seconds, the unit will into the setting mode. Press “UP” or “DOWN” button to select setting

programs. And then, press “ENTER” button to confirm the selection or ESC button to exit.

Table 6 -7

Main menu Submenu Description

Exit setting mode Exit

1. Even the utility power is connected to the

input of the unit and it is available. Solar

energy to provide output the loads are priority.

If solar energy is not sufficient to power all

connected loads, battery energy will supply

AC Output Source

PV first

UTI first

power the loads at the same time.

2. When the solar energy is not available or

the battery voltage drops to either low-level

Low Volt”. This unit will be automatic transfer

to Utility power to provide output loads.

Utility (during utility’s powering load time) will

provide power to the load as first priority.

Solar and battery energy will provide power to

the load only when utility power is not

available.

1. Even the utility power is connected to the

input of the unit and it is available. Solar

energy to provide output the loads are priority.

If solar energy is not sufficient to power all

connected loads, battery energy will supply

power to the loads at the same time.

BAT fi rst

(default)

2. Even the solar energy is not available. This

unit will be keeping on the battery mode to

provide output loads.

3. When the battery voltage drops to either

low level warning voltage or the setting point

in “Battery Low Volt”. This unit will automatic

transfer to Utility power to provide output

loads.

21

to power the load.

Main menu Submenu Description

Charge Source

UTI out start

UTI out end

UTI Charge Start

UTI Charge End

PV first

(default)

Solar energy will charge battery as first priority.

Utility (during utility’s charging time) will

charge battery only when solar energy is not

available.

PV & UTI Solar energy and utility (during utility’s

charging time) charge the battery at the same

time.

PV Only Solar energy charges the battery only.

xxH

(default 0H)

xxH

(default 0H)

xxH

(default 0H)

xxH

(default 0H)

The time when utility start to power the load.

Setting range from 0H to 23H.

The time when utility end

Setting range from 0H to 23H.

The time when utility start to charge the

battery. Setting range from 0H to 23H.

The time when utility start to charge the

battery. Setting range from 0H to 23H.

PV Input Mode

AC Input Mode

AC Output Volt

AC Output Freq

OverLoad Restart

Parallel Two solar input parallel.

Independent

Two solar input independent.

(default)

APL:90-280VAC

Common application. (APL: Appliances)

(default)

UPS:170-280VAC UPS application.

208VAC AC output voltage 208VAC.

230VAC

AC output voltage 230VAC.

(default)

240VAC AC output voltage 240VAC.

50Hz

AC output frequency 50Hz.

(default)

60Hz AC output frequency 60Hz.

YES

Enable auto restart when overload occurs.

(default)

NO Disable auto restart when overload occurs.

Swith to UTI

If overload occurs in battery discharge mode,

utility provides power to the load.

22

Main menu Submenu Description

OverTemp Restart

Buzzer ON/OFF

Battery Type

Max charge Curr

Bulk charge Volt

YES

Enable auto restart when temperature occurs.

(default)

NO Disable auto restart when temperature occurs.

ON

Alarm on.

(default)

OFF Alarm off.

Lead_Acid Lead_Acid.

Custom

Self-defined Lead_Acid.

Lead_Acid

If battery type is selected as lead acid battery,

xxxA

this program can be set up. Setting range is

(default 40A)

from 10A to 130A.

If battery type is selected as “self-defined

xx.xV

Lead_Acid”, this program can be set up. Setting

(default 56.4V)

range is from 50.0V to 57.4V.

Float charge Volt

Battery Low Volt

System Time

COM Addr xxx Setup communication address

xx.xV

(default 54V)

xx.xV

(default 46.4V)

xxxx/xx/xx

xx:xx:xx

If battery type is selected as “self-defined

Lead_Acid”, this program can be set up. Setting

range is from 50~56V.

Setting voltage point back to battery mode
when selecting“BAT fi rst” or “PV first”. Setting

range is from 44.4~51.4V.

Setup the system time

23

Error Description：

Error code Description

Bat voltage high Battery voltage is high

Over Temperature Over temperature

Over Load Over load

Over Current Over current

MOV break MOV failed

Error: 101 M3 failed to communicate with DSP

Error: 102 The sample from M3 and DSP of the battery voltage is inconsistent

Error: 103 Buck over current

Error: 116 Reverse polarity protection diode failed

Error: 117 Bus Soft-start failed

Error: 118 DC-DC boot failed

Table 6 -8

Error: 119 DC injection outrange

Error: 120 Failed to detect current

Error: 121 Communication failed between DSP and M3

Error: 122 Bus voltage is too high

Error: 127 AC Output voltage is too high

Warn Description：

Table 6 -9

Item Description

Warn: Fan Warning Fan failed to turn

Warn: Bat Low Battery voltage low

Warn: Over Load Over load

Warn: Over Temp Over temperature

Warn: 103 Failed to read EEPROM

Warn: 104 Firmware version mismatched

Warn: 105 Failed to write EEPROM

24

INVERTER MODEL

CPS3000ECH48

CPS5000ECH48

Input Voltage Waveform

Sinusoidal (utility or generator)

Nominal Input Voltage

230VAC

Low Loss Voltage

170±5VAC(UPS) 90±5VAC(APL)

Low Loss Return Voltage

180±5VAC(UPS) 100±5VAC(APL)

High Loss Voltage

280±5VAC

High Loss Return Voltage

270±5VAC

Max AC Input Voltage

300VAC

Nominal Input Frequency

50Hz/60Hz (Auto detection)

Low Loss Frequency

40±1Hz

Low Loss Return Frequency

42±1Hz

High Loss Frequency

65±1Hz

High Loss Return Frequency

63±1Hz

Transfer Time

10ms (UPS) 20ms(APL)

7 Specifications

Line Mode Specifications:

Table 7-1

Power derating:

When AC input voltage drops

to 170V depending on models,

the output power and charge

power will be derated.

25

INVERTER MODEL

CPS3000ECH48

CPS5000ECH48

Rated Output Power

3KVA/2.4KW

5KVA/4KW

Output Voltage Waveform

Pure Sine Wave

Output Voltage Regulation

230±5%VAC/208VAC/240VAC

Output Voltage Frequency

50Hz (default)/60Hz

Peak Efficiency

93.5%

Overload Protection

10s (110%-150%) 5s (150%-200%)

Battery Type

Lead_Acid

Battery Voltage Range

38.4V-60V (Lead_Acid)

Cold Start Voltage

46VDC (Lead_Acid)

High DC Cut-off Voltage

60VDC (Lead_Acid)

High DC Recovery Voltage

58VDC (Lead_Acid)

Low DC Warning Voltage

@ load ≥ 50%

Low DC Warning Return

@ load ≥ 50%

Low DC Cut-off Voltage

@ load ≥ 50%

No Load Power Consumption

<50W

MAX Charging Current

100A

130A

MAX Charging Voltage

57.4VDC

Bat Mode Specifications:

Table 7-2

(only Lead_Acid)

@ load < 20%

@ 20% ≤ load < 50%

Voltage(only Lead_Acid)

@ load < 20%

@ 20% ≤ load < 50%

(only Lead_Acid)

@ load < 20%

@ 20% ≤ load < 50%

44.0VDC

42.8VDC

40.4VDC

46.0VDC

44.8VDC

42.4VDC

42.0VDC

40.8VDC

38.4VDC

26

INVERTER MODEL

CPS3000ECH48

CPS5000ECH48

PVA MAX Power

1750W

PVB MAX Power

1750W

PVA MAX input current

30A

PVB MAX input current

30A

Total PV MAX charge current

70A

Efficiency

98.0% MAX

Max. PV Array Open Circuit

Voltage

PV Array MPPT Voltage Range

60-115VDC

INVERTER MODEL

CPS3000ECH48

CPS5000ECH48

Safety Certification

CE

Operating Temperature Range

0℃-55℃

Storage Temperature

-15℃-60℃

Over Temperature

Over Voltage

Output Short

Over Load

Noise

<48dB

Dimension (D*W*H, mm)

470x440x120

Net Weight (kg)

12.5

PV Mode Specifications:

Table 7-3

145VDC

General Specifications:

Table 7-4

Protection

27

Explanation/

Possible cause

Unit shuts down

startup process.

1. The battery voltage is far

connected reversed.

1. Check if batteries and the

3. Replace battery.

Check if AC breaker is tripped
and AC wiring is connected well.

1. Check if AC wires are too thin

(Appliance)

Set “Solar First” as the priority

of output source.

Change output source priority to
Utility first.

When the unit is turned

repeatedly.

8 Trouble Shooting

Table 8-1

Problem

automatically during

No response after power

on.

Mains exist but the unit

works in battery mode.

on, internal relay is

switched on and off

The battery voltage is too low

too low.

2. Battery polarity is

Input protector is tripped

Insufficient quality of AC

power. (Shore or Generator)

Battery is disconnected.

What to do

1. Re-charge battery.

2. Replace battery.

wiring are connected well.

2. Re-charge battery.

and/or too long.

2. Check if generator (if applied)
is working well or if input
voltage range setting is correct.

Check if battery wires are
connected well.

28

9 Manufacturer Warranty

This certificate represents a 2 year warranty for the CyberPower products listed below. Possession of this

certificate validates a standard factory warranty of 2 years from the date of purchase.

Warranted products

This warranty is applicable solely to the following products:

CyberPower CPS3000ECH48

CyberPower CPS5000ECH48

Limited Product Warranty

(Applicable under normal application, installation, use and service conditions)
CyberPower provides a non-transferable warranty for a period of 2 years for the above listed products.
This standard warranty validates from the date of customer purchase, and doesn’t exceeding 2 years from
the date of purchasing as shown in the proof of Purchase from the Original purchaser.

Exclusion of liability

CyberPower limited factory warranty does not cover damages that occur due to:

 Misuse, abuse, neglect or accident;
 Alteration, improper installation or application;
 Unauthorized modification or attempted repairs;
 Insufficient ventilation of the product;
 Breaking of the original manufacturers seal;
 Non-observance of CyberPower installation and maintenance instruction;
 Failure to observe the applicable safety regulations;
 Power failure surges, flood, fire, accident, force majeure, explosion, terrorist act, extreme weather

conditions or other unreasonable circumstances;

The warranty shall also cease to apply if the product cannot be correctly identified as the product of

CyberPower. Warranty claims will not be honored if the type of serial number on the machines have been

altered, removed or rendered illegible.

29

10 Appendix

The following chart is the inverter optional appendix list, if there is a need please contact the CyberPower

or our local distributors.

Table 10-1

Name Description

Data Logger CPSDL02 data record by RS485

The following chart is approximate Back-up time table:

Table 10-2

Model Load(VA)

CPS3000ECH48

Backup Time

with 48Vdc 100Ah(min)

Backup Time

with 48Vdc 200Ah(min)

300 1054 2107

600 491 1054

900 291 668

1200 196 497

1500 159 402

1800 123 301

2100 105 253

2400 91 219

2700 71 174

3000 63 155

500 613 1288

1000 268 613

1500 158 402

2000 111 271

CPS5000ECH48

Note: Back up time depends on the quality of the battery, age of battery and type of battery.
Specifications of batteries may vary depending on different manufacturer

2500 90 215

3000 76 182

3500 65 141

4000 50 112

4500 44 100

5000 40 90

Note

Note

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