ZXDU68B201 - libertyport.com · l Collects the operational data and monitors the operations of the...

ZXDU68 B201DC Power System

Product Description

Version: V5.0R99M04

ZTE CORPORATIONNo. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://support.zte.com.cnE-mail: [email protected]

LEGAL INFORMATIONCopyright © 2015 ZTE CORPORATION.

The contents of this document are protected by copyright laws and international treaties. Any reproduction or

distribution of this document or any portion of this document, in any form by any means, without the prior written

consent of ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by

contractual confidentiality obligations.

All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE

CORPORATION or of their respective owners.

This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions

are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,

title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the

use of or reliance on the information contained herein.

ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications

covering the subject matter of this document. Except as expressly provided in any written license between ZTE

CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter

herein.

ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.

Users may visit the ZTE technical support website http://support.zte.com.cn to inquire for related information.

The ultimate right to interpret this product resides in ZTE CORPORATION.

Revision History

Revision No. Revision Date Revision Reason

R1.0 2015-09-14 First edition

Serial Number: SJ-20150914145904-001

Publishing Date: 2015-09-14 (R1.0)

SJ-20150914145904-001|2015-09-14 (R1.0) ZTE Proprietary and Confidential

ContentsAbout This Manual ......................................................................................... I

Chapter 1 System Introduction and Features.......................................... 1-11.1 System Introduction............................................................................................ 1-1

1.2 System Features ................................................................................................ 1-1

Chapter 2 Configuration List ..................................................................... 2-1

Chapter 3 System Structure and Components........................................ 3-13.1 System Structure ............................................................................................... 3-1

3.2 PDU .................................................................................................................. 3-3

3.3 ZXD3000 Rectifier .............................................................................................. 3-5

3.4 Centralized Supervision Unit ............................................................................... 3-6

3.5 Signal Interface Unit ........................................................................................... 3-8

3.6 FBMU.............................................................................................................. 3-10

Chapter 4 ZXD3000 Rectifier Specifications............................................ 4-14.1 Technical Specifications...................................................................................... 4-1

4.2 Input Features.................................................................................................... 4-3

4.3 Output Features ................................................................................................. 4-4

4.4 Power Decrease With High Temperature ............................................................. 4-5

Chapter 5 System Specifications.............................................................. 5-15.1 Environment Specifications ................................................................................. 5-1

5.2 Performance Specifications................................................................................. 5-1

5.3 Electrical specifications Specifications ................................................................. 5-2

5.4 Physical Specifications ....................................................................................... 5-4

Appendix A Alarm List .............................................................................. A-1A.1 Monitoring Alarms..............................................................................................A-1

A.2 AC Alarms.........................................................................................................A-4

A.3 SMR Alarms ......................................................................................................A-9

A.4 DC Alarms....................................................................................................... A-10

A.5 Environment Alarms......................................................................................... A-14

Appendix B Electrical Connection Diagram ........................................... B-1

Glossary .......................................................................................................... I

I


This page intentionally left blank.

II


About This ManualPurposeThis manual applies to the ZXDU68 B201 (V5.0R99M04) DC Power System(short forZXDU68 B201 system). The ZXDU68 B201 is a built-in DC power system and providespower for 48 V communications equipment.

This manual describes the system structure, characteristics, and configuration.

Intended AudienceThis manual is intended for:

l Planning engineersl Maintenance engineers

What Is in This ManualThis manual contains the following chapters/appendices:

Chapter/Appendix Summary

Chapter 1. System

Introduction and Features

Describes the system overview and features.

Chapter 2. Configuration List Describes the configuration list of the ZXDU68 B201 (V5.0R99M04)

system

Chapter 3. System Structure

and Components

Describes the system structure, power supply chassis, ZXD3000

(V5.0) rectifiers, Centralized Interface Unit (CSU), Signal Interface

Unit and FBMU.

Chapter 4. ZXD3000

Rectifier Specifications

Describes the ZXD3000 rectifier specifications, including technical

specifications, input features, output features and the feature of power

decrease with high temperature.

Chapter 5. System

Specifications

Describes system environment specifications, performance

specifications, technical specifications, and physical specifications.

Appendix A, Alarm List Describes system alarm name, default Level / output Relay, alarm

generation conditions.

Appendix B, Electrical

Connection Diagram

Provides the electrical connection diagram of the ZXDU68 B201

(V5.0R99M04) system.

Related DocumentationThe following documentation is related to this manual:

l ZXDT CSU500B (V1.01.00.00) Centralized Supervision Unit Operation Guidel ZXDU68 B201 (V5.0R99M04) DC Power System Quick Installation Guide

I


ConventionsThis manual uses the following typographical conventions:

Typeface Meaning

Italics Variables in commands. It may also refer to other related manuals and documents.

Bold Menus, menu options, function names, input fields, option button names, check boxes,

drop-down lists, dialog box names, window names, parameters, and commands.

Danger: indicates an imminently hazardous situation. Failure to comply can result in

death or serious injury, equipment damage, or site breakdown.

Warning: indicates a potentially hazardous situation. Failure to comply can result in

serious injury, equipment damage, or interruption of major services.

Caution: indicates a potentially hazardous situation. Failure to comply can result in

moderate injury, equipment damage, or interruption of minor services.

Note: provides additional information about a certain topic.

II


Chapter 1System Introduction andFeaturesTable of Contents

System Introduction....................................................................................................1-1System Features ........................................................................................................1-1

1.1 System IntroductionThe ZXDU68 B201 system is a built-in DC power system. It provides 48 V power forcommunication equipment.

l Single-phase three-wire (L/N/PE) AC input, applicable to the 220 V electrical grid.l The system can provide 48 V power for communication equipment.l The system can be installed in a standard cabinet with 19-inch width.l When fully configured, the power chassis is equipped with four ZXD3000 rectifiers

and can provide a maximum power output of 12 kW.

1.2 System FeaturesEfficient Rectifiersl With 50% - 100% output power, the rectifier efficiency is ≥ 96%.l With 30% - 50% output power, the rectifier efficiency is ≥ 94%.

Automatically Switching the Rectifiers to the Sleep ModeThe system switches one or more rectifiers to the sleep mode according to the load power.The power of a rectifier in sleep mode is not larger than 4 W.

A Wide Range of Input VoltageA wide range of input phase voltage (85 V to 295 V) makes the system suitable for areaswith unstable power sources and save energy consumption of the battery.

Managing Data in BatchesUsers can set the parameters in batches, copy records and upgrade programs via a USBflash drive.

1-1


ZXDU68 B201 Product Description

Professional Monitoring and Managementl The transmission speed is high via CAN bus.l The monitoring unit supports energy saving management, intelligent battery

management, rectifier management, alarm management.l The system can be remotely managed through a computer installed with a web

browser anywhere if Ethernet is available.l Users can press theQUY button of a rectifier to query the data of the rectifier or control

it.

Flexible Monitoring NetworkingThe system provides input and output relays, RJ45 Ethernet interface, RS232 interface,RS485 interface, and USB interface. The system supports multiple monitoring networkingmodes via Telnet, Hypertext Transfer Protocol (HTTP), File Transfer Protocol (FTP), andSimple Network Management Protocol (SNMP).

1-2


Chapter 2Configuration ListFor the configuration list of the ZXDU68 B201 system, refer to Table 2-1.

Table 2-1 Configuration List of the ZXDU68 B201 System

Component Configuration

Product Model ZXDU68 B201(V5.0R99M04)

Model ZXD3000(V5.0R03)Rectifier

Quantity 4 sets (when fully configured)

Model CSU500B09Centralized

Supervision

Unit(CSU)Software version V1.01.00.00

AC input mode One-phase(L/N)

AC input circuit breaker 1×80 A ACB

AC auxiliary output 2×16 A ACBs

AC

distribution

unit

AC SPD Class C

Battery input circuit breakers l Four battery input branches

l 4×100 A ACBs

DC

distribution

unit DC load output l LLVD1+BLVD

l LLVD1: 2×100 A ACBsr

l BLVD: 1×15 A+1×63 A ACBs

FBMU Two sets

Battery temperature sensor Four sets

Signal Interface Unit Provides multiple interfaces for supervision and

networking.

Note:

Capacity configuration of DC output circuit breakers described in Table 2-1 isrecommended. The actual configuration is subject to the contract.

2-1




2-2


Chapter 3System Structure andComponentsTable of ContentsSystem Structure .......................................................................................................3-1PDU ...........................................................................................................................3-3ZXD3000 Rectifier ......................................................................................................3-5Centralized Supervision Unit ......................................................................................3-6Signal Interface Unit ...................................................................................................3-8FBMU.......................................................................................................................3-10

3.1 System StructureThe ZXDU68 B201 (V5.0R99M04) system consists two parts： ZXDU68 B201 powersupply chassis and FBMU chassis.

For details of FMBU chassis, refer to 3.6 FBMU.

External viewThe dimensions of the ZXDU68 B201 power supply chassis are 219.3 mm × 442 mm ×394 mm (Height × Width × Depth). For an external view of the ZXDU68 B201, see Figure3-1.

3-1



Figure 3-1 ZXDU68 B201 External View

Product StructureThe ZXDU68 B201 power supply chassis consists of power distribution units, rectifiers, asignal processing board, and a monitoring unit.

For the product structure, see Figure 3-2.

Figure 3-2 ZXDU68 B201 Product Structure

1. PDU2. Rectifier

3. SIU4. CSU

For a description of the components, refer to Table 3-1.

3-2


Chapter 3 System Structure and Components

Table 3-1 ZXDU68 B201 Component Descriptions

SerialNumber

Component Description

1 PDU The PDU includes AC power distribution components and DC power

distribution components.

l AC power distribution components: AC input ACB,, AC output ACB,

AC input terminals, AC output terminals and AC SPD.

l DC power distribution components: battery input ACB, DC output ACB

and DC output terminals.

For details, refer to 3.2 PDU.

2 Rectifier A rectifier converts AC power to DC power for load and battery charging.

For a description of the rectifiers, refer to 3.3 ZXD3000 Rectifier.

3 SIU The signal processing board provides relay interfaces, battery temperature

detection interfaces, environment detection interfaces, and communication

interfaces. For details, refer to 3.5 Signal Interface Unit.

4 CSU The monitoring unit collects information, monitors alarms, and manages

the operation of the system. For details, refer to 3.4 Centralized

Supervision Unit.

3.2 PDUAC Power Distribution ComponentsAC power distribution units are located in the left part of the PDU. Figure 3-3 shows thelayout of AC power distribution components.

Figure 3-3 AC Power Distribution Components

For a description of the AC power distribution components, refer to Table 3-2.

3-3



Table 3-2 Descriptions of AC Power Distribution Components

Label Component Function

AC input terminals Connect to the live wire (L), neutral wire (N) and protection

Earth (PE) wire in AC input cables as the AC input interface.

AC Input

AC input air circuit

breaker

Connects or disconnects the total AC power supply.

AC output terminals Connect to the L/N cables of AC auxiliary output.AC Output

AC output air circuit

breaker

Connect/disconnect the AC auxiliary output of the system.

AC SPD AC lightning arrester Provides surge protection for the AC input.

DC Power Distribution ComponentsDC power distribution units are located in the right part of the PDU. Figure 3-4 shows thelayout of DC power distribution components.

Figure 3-4 DC Power Distribution Components

For a description of the DC power distribution components, refer to Table 3-3.

Table 3-3 Descriptions of DC Power Distribution Components

Label Component Function

BATT Input Battery input terminals Connect BATT+ and BATT- cables of the battery

branches 1 and 2.

BLVD

LLVD1

Load air circuit breaker l Connects DC output circuits.

l Control DC output to the LLVD and BLVD loads.

BATT1 ~ BATT4 Battery air circuit

breaker

l Connects or disconnects battery circuits.

l Connects to the negative output wire of a battery

pack as the battery input interface.

DC OUT DC OUT terminals Connects to the -48 V power cable for electrical load as

the DC output interface.

3-4



3.3 ZXD3000 RectifierFunctionThe ZXD3000 rectifiers convert AC to DC, power DC loads and charge the batteries.

External ViewFor the external view of the ZXD3000 rectifier, see Figure 3-5.

Figure 3-5 Rectifier External View

1. Indicators 2. Fan 3. QUY button

Buttons and Indicatorsl Press and hold the QUY (query) button of a rectifier for 5 seconds and then the CSU

displays the rectifier's main information screen.l The indicators display the operational status of the rectifier. For a description of the

indicators, refer to Table 3-4.

Table 3-4 Rectifier Operational Status

Indicator

Power Run Alarm FaultOperational Status

Lit Lit - Not lit Operating with Stable

Voltage

Flashing Not lit - Not lit Sleep

Lit Flashing - Not lit Output Current Limit

Lit - Flashing - Communication Failure

Lit - Lit - Alarm

Lit Not lit - Lit Fault

• "-" means that the status of the indicator is not relevant to the condition.

InterfacesInput and output interfaces are laid at the back of the rectifier. For the interface layout ofthe rectifier, see Figure 3-6. For a description of the pin definitions, refer to Table 3-5.

3-5



The interfaces complete the electrical and signal connections between the rectifier and theZXDU68 B201 power system.

Figure 3-6 Rectifier Interfaces

Table 3-5 Pin Definitions of Rectifier Interfaces

Interface Name Pin No. SignalDefinition

Function

1 - 6 L Connects the AC input phase cable.

7 - 12 N Connects the AC input neutral cable.

AC input

interfaces

18 - 20 PE Connects the protection ground.

- 13 - Reserved

14 AAPhase detection

interfaces 15 AB

Locates the phase where an operating rectifier is.

16 CAN-CAN

communication

detection

interfaces

17 CAN+

A rectifier communicates with other devices

through the interfaces. For example, a rectifier

transmits data to the CSU, and the CSU issues

commands to a rectifier.

21 - 28 OUTPUT+DC output

interfaces 29 - 36 OUTPUT-

Provide DC output power.

37, 38 Hot-plug pin (+)Hot-plug pins

39, 40 Hot-plug pin (-)

Prevent sparks when a rectifier is installed into

the ZXDU68 B201 system.

3.4 Centralized Supervision UnitThe Centralized Supervision Unit (CSU) is the foreground monitoring unit of the system.It monitors the AC distribution, DC distribution, rectifiers and batteries of the system.

Functionsl Gives an audible and visual alarm and provides the protection function when the

ZXDU68 B201 system is faulty.

3-6



l Collects the operational data and monitors the operations of the ZXDU68 B201system.

l Performs advanced battery management with protection functions.l Manages the rectifiers and automatically switches one or more rectifiers to the sleep

mode to save power.l Transmits data to the background Supervision Center (SC) and receives commands

from the SC. In this way, the system can be monitored remotely.l The CSU can be remotely managed through a computer installed with IE 7.0 (or

above) anywhere if Ethernet is available.l Users can set the parameters in batches, copy records and upgrade programs via a

USB flash drive.

External ViewFor the external view of the CSU, see Figure 3-7.

Figure 3-7 CSU External View

1. RJ45 Ethernet interface2. USB interface

3. Indicators4. LCDscreen

5. Buttons

Interfacesl USB interface

à Supports USB flash drives but does not support SD card or other portable storagedevices, such as portable hard disks, MP3 or MP4.

à Use a 2 GB (or below) USB flash drive with available capacity of greater than 32MB.

l RJ45 Ethernet interface

à The Ethernet interface rate is 10M/100M (adaptive).

à The Ethernet interface supports multiple monitoring networking modes throughTelnet, HTTP, FTP and SNMP.

3-7



IndicatorsThe indicators display the operational status of the CSU and the system. For a descriptionof indicators, refer to Table 3-6.

Table 3-6 CSU Operational Status

Indicator

Power Run AlarmOperational Status

Lit Flashing Not lit Operating Normally

Lit Flashing Flashing Alarm

Lit Lit or not lit - Faulty

• "-" means that the status of the indicator is not relevant to the condition.

Buttons and LCDThe buttons and the LCD of the CSU enable the users to query operational data of thesystem, set parameters, and control the operation of the system.

For a description of the functions of CSU buttons, refer to Table 3-7.

Table 3-7 Functions of Buttons

Button Function

▲ l Scrolls pages up

l Moves to the previous item

l Increases numerical values

▼ l Scrolls pages down

l Moves to the next item

l Decreases numerical values

► Moves the cursor to the right

◄ Moves the cursor to the left

Esc l Returns to the upper-level screen

l Cancels modifications

Ent l Displays the lower-level screen

l Saves modifications

<◄+▲> Enters the Language Set menu

<▲+Ent> Displays help information of the current menu

3.5 Signal Interface UnitThe Signal Interface Unit (SIU) is installed inside the SIU slot. The signal interfaces arelaid on the front panel of the SIU.

3-8



The interfaces include communication interfaces, battery temperature interfaces,environment detection interfaces, input and output relay interfaces.

For the SIU interface layout and definitions of the ZXDU68 B201(V5.0R99M04) system,see Figure 3-8and Figure 3-9.

Figure 3-8 Layout of SIU Interfaces

Figure 3-9 Definitions of the SIU Interfaces

For a description of the pin definitions, refer to Table 3-8.

Table 3-8 Pin Definitions of SIU Interfaces

Interface Description

Communication Interfaces

X1 RS485 The interface for RS485 communication

X8 RS232 The interface for RS232 communication

Environment Detection Interfaces

X2 BATT1.Temp Connects to temperature sensor of battery pack 1

X3 BATT2.Temp Connects to temperature sensor of battery pack 2

X4 Amb.Temp Connects to environment temperature sensor

X5 Flood Alarm Connects to flood detection sensor

3-9



Interface Description

X6 Door Alarm Connects to the door magnet sensor

Input/Output Relay Interfaces

X7 In-relay 1, 2 l Users can customize these input relays for alarm

input.

l Alarm name, level and status of each input relay can

be modified in the CSU.

X9 Out-relay 1, 2 The output relays 1, 2 correspond to the software codes

A1, A2 in the CSU. Users can customize these output

relays for alarm output.

X10 BATT3.Temp, Connects to temperature sensor of battery pack 3.

X12 BATT4.Temp Connects to temperature sensor of battery pack 4.

3.6 FBMUFBMU is a lithium iron battery management unit used to perform the elaboratemanagement of lithium iron batteries.

FunctionFBMU is used to collect lithium iron battery data for real-time alarms and battery protectionto effective manage the lithium iron battery modules.l Communication with supervision devices.l Output of heating pad control signals.l Collection of battery voltage and temperature detection signals.l Collection of current detection signals.

External ViewFor the external view of the FBMU, see Figure 3-10. The dimensions of the FBMU are 41mm × 205 mm × 129 mm (Height × Width × Depth).

3-10



Figure 3-10 FBMU External view

Interface DefinitionsFor the front overview of the interfaces on the FBMU board, see Figure 3-11.

Figure 3-11 Front overview of FBMU

For a description of the interfaces definitions, refer to Table 3-9.

Table 3-9 Description of the interfaces

InterfaceID

InterfaceName

PinNo.

Interface and Signal Description Function

1 RS485 signal input terminal BRS485A RS485 com-

munication

interface2 RS485 signal input terminal A

Used to communicate with

supervision equipment.

1 RS485 signal input terminal BRS485B RS485 com-

munication

interface2 RS485 signal input terminal A

Used to communicate with

supervision equipment.

1 Protective earth

2 Normally-open terminal of the

circuit control relay of the heating

pad

3 Common terimnal of the circuit

control relay of the heating pad

PE/HC-

/CO-

Heating

pad control

interface

4 Total load of batteries

Used to output heating pad

control signal and lead out

battery load and PE cables.

3-11



InterfaceID

InterfaceName

PinNo.

Interface and Signal Description Function

M1 ~ M4 interface of

the batteries

- - Used to introduce the

battery voltage and

temperature signal of

the batteries

1 Nagative terminal of the current

splitter

CUR Current

detection

interface 2 Positive terminal of the current

splitter

Used to introduce the

current detection signal

For a description of the indicators , refer to Table 3-10.

Table 3-10 Description of the indicators

RUN (Green) ALM (Red) FBMU Operation Status Function

Not lit Lit Charging protection status

Lit Flashing (lit for 0.5

second and not lit for

1.5 second)

Charging alarm status

Lit Not lit Normal charging status

Not lit Flashing (lit for 0.5


1.5 second)

Discharging protection

status

Flashing (lit for 0.5


1.5 second)



1.5 second)

Discharging alarm status



1.5 second)

Not lit Normal discharging status



0.5 second)

Not lit Online non-float charging

status/this status is cleared

when the batteries are fully

charged.



0.5 second)



0.5 second)

Online non-float charging

alarm status

Used to indicate an

visual alarm.

3-12


Chapter 4ZXD3000 RectifierSpecificationsTable of Contents

Technical Specifications .............................................................................................4-1Input Features ............................................................................................................4-3Output Features .........................................................................................................4-4Power Decrease With High Temperature....................................................................4-5

4.1 Technical SpecificationsFor the technical specifications of the ZXD3000 (V5.0) rectifiers, refer to Table 4-1.

Table 4-1 Technical Specifications

Item Description

Input mode Single-phase three-wire (L/N/PE)

Input voltage l Input voltage: 85 V to 295 V

l Rated input voltage: 100 V to 240 V

Maximum input current 18 A

Frequency l Frequency: 45 Hz to 66 Hz

l Rated frequency: 50 Hz/60 Hz

AC input

Input power factor ≥ 0.998 (when the input and output values are

rated)

Maximum output power 3,000 W (when the input voltage is 176 V to 295 V

and the environment temperature is -40 °C to 55

°C)

Rated output voltage 53.5 V

Range of output voltage 42 V to 59.5 V

Adjusted through the monitoring unit of the power

system

Output current limit 5 A to 63.5 A

Set through the monitoring unit

Efficiency l Peak efficiency: ≥ 96%

l Efficiency with the rated load: ≥ 95%

DC output

4-1



Item Description

Voltage stabilizing accuracy ≤ ±0.6%

Output weighted noise ≤ 2 mV

Broad frequency noise

voltage

l ≤ 50 mV (3.4 kHz to 150 kHz)

l ≤ 20 mV (0.15 MHz to 30 MHz)

Discrete frequency noise

voltage

l ≤ 5 mV (3.4 kHz to 150 kHz)

l ≤ 3 mV (150 kHz to 200 kHz)

l ≤ 2 mV (200 kHz to 500 kHz)

l ≤ 1 mV (0.5 MHz to 30 MHz)

Peak-to-peak noise voltage ≤ 200 mV (bandwidth of 0 Hz to 20 MHz)

Inter-rectifier load sharing The number of the rectifiers that can be connected

in parallel is not less than 30; when the output

current of a single rectifier is 10% to 100% of the

rated value, the output current imbalance of the

rectifiers is not greater than 1.5 A.

Dielectric strength l 2840 VDC voltage of the AC input terminals

to the chassis for one minute: no breakdown

or arc; the stable leakage current is less than

1 mA.

l 4242 VDC voltage of the AC input terminals

to the DC output terminals for one minute: no

breakdown or arc; the stable leakage current

is less than 1 mA.

l 707 VDC voltage of the DC output terminals

to the chassis for one minute: no breakdown

or arc; the stable leakage current is less than

1 mA.

l 707 VDC voltage of other interfaces to the

chassis for one minute: no breakdown or arc;

the stable leakage current is less than 1 mA.

Safety standard Compliant with IEC60950

Safety

protection

Electromagnetic

compatibility

Compliant with EN55022 Class B and IEC61000

Mean time between failures MTBF ≥ 2 × 105 h

Cooling mode l Forced cooling;

l The fan speed can be adjusted according to

the environment temperature and the working

status of the rectifier.

4-2


Chapter 4 ZXD3000 Rectifier Specifications

Item Description

Environment requirement l Operating temperature: -40 °C to 75 °C

l Storage temperature: -40 °C to 85 °C

l Relative humidity: ≤ 95% (non-condensing)

l Air pressure: 80 kPa to 106 kPa

Dimensions 41.5 mm × 132 mm × 300 mm (H×W×D)

Weight 2 kg

4.2 Input FeaturesOverviewThe ZXD3000 (V5.0) rectifier automatically adjusts its operational status according to theAC input voltage.

The input features include the under-voltage protection, over-voltage protection, and powerlimit.

Under-Voltage ProtectionWhen the AC input voltage is lower than the under-voltage threshold, the rectifierautomatically shuts down and provides no output. Meanwhile, the alarm indicator is on.After the AC input voltage reaches the under-voltage recovery threshold, the rectifierautomatically recovers.

The under-voltage recovery threshold = the AC input under-voltage threshold + the returndifference.

The AC input under-voltage threshold is (85 ± 5) V and the return difference ranges from8 V to 12 V.

Over-Voltage ProtectionWhen the AC input voltage is higher than the over-voltage threshold, the rectifierautomatically shuts down and provides no output. Meanwhile, the alarm indicator ison. After the AC input voltage falls to the over-voltage recovery threshold, the rectifierautomatically recovers.

The over-voltage recovery threshold = the AC input over-voltage threshold – the returndifference.

The AC input over-voltage threshold is (295 ± 5) V and the return difference ranges from5 V to 10 V.

Power LimitThe rectifier limits its output power according to the input voltage.

4-3



See Figure 4-1 for the power limit feature of the rectifier when the following conditions aremet.

l Environment temperature: -25 °C to 55 °Cl Output voltage of the rectifier: 48 V to 59.5 V

Figure 4-1 Power Limit Feature

1. Under-voltage threshold(85±5 V)

2. 55% power (110 V)3. Maximum power (176 V)

4. Over-voltage threshold(295±5 V)

For the relationship between the AC input voltage and the output power, refer to Table 4-2.

Table 4-2 Relationship Between AC Input Voltage and Output Power

AC Input Voltage Output Power (Percentage of the Maximum Output Power)

≤ (85 ± 5) V 0

(85 ± 5) V to 110 V Linear power limit

Output power percentage: 40% to 55%

110 V to 176 V Linear power limit

Output power percentage: 55% to 100%

176 V to (295 ± 5) V 100%

> (295 ± 5) V 0

• Maximum output power: 3000 W

4.3 Output FeaturesSee Figure 4-2 for the output features of the ZXD3000 (V5.0) rectifier when the followingconditions are met.

l AC input voltage of the rectifier: 176 V to 295 V

4-4


Chapter 4 ZXD3000 Rectifier Specifications

l Environment temperature: -25 °C to +55 °C

Figure 4-2 Output Features

As shown in Figure 4-2, the output features of the rectifier can be concluded as follows:

l When the output voltage ranges from 42 V to 48 V, the maximum output current isconstant.

l When the output voltage ranges from 48 V to 59.5 V, the maximum output power isconstant.

l When the output voltage is lower than 36 V, the rectifier restarts for protection.

When the environment temperature ranges from -25 °C to +55 °C and the input voltageranges from 85 V to 176 V, the rectifier still has the above output features. However,because of the power limit feature, when the input voltage ranges from 85 V to 176 V, theoutput power cannot reach the highest percentage (100%). Therefore, the input voltageaffects the maximum output power and maximum output current.

4.4 Power Decrease With High TemperatureThe feature of power decrease with high temperature refers to that the output power ofthe ZXD3000 (V5.0) rectifier decreases with the increase of the environment temperaturewhen the environment temperature reaches the over-temperature threshold.

For the feature of power decrease with high temperature, see Figure 4-3.

4-5



Figure 4-3 Power Decrease With High Temperature

For a description of the feature, refer to Table 4-3.

Table 4-3 Power Decrease With High Temperature

Environment Temperature Output Power (Percentage of the Maximum Power)

-40 °C to +55 °C 100%

+55 °C to 75 °C Linear power limit

The output power decreases with the increase of the temperature

and is not less than 50% when the temperature is 75 °C.

> 75 °C 0% (the rectifier shuts down for protection against over-temperature)

• Maximum output power: 3000 W

4-6


Chapter 5System SpecificationsTable of Contents

Environment Specifications ........................................................................................5-1Performance Specifications........................................................................................5-1Electrical specifications Specifications........................................................................5-2Physical Specifications...............................................................................................5-4

5.1 Environment SpecificationsFor a description of the environment specifications of the ZXDU68 B201 system, refer toTable 5-1.

Table 5-1 Environment Specifications

Item Specifications

Operating temperature -10 °C to +55 °C

Storage temperature -40 °C to +80 °C

Operating relative humidity ≤90％ (40±2 ℃)

Storage relative humidity ≤95％ (40±2 ℃)

Altitude l 0 ~ 2000 m: 100% output power

l 2000 m ~ 3000 m: The power derating percentage is 1%

for each 100 m increase in altitude.

Other requirements l The cabinet should be stable and erect.

l No explosion hazard, no shake or jolt.

l Never install the equipment where there is a risk of liquid

or objects falling into the top of the equipment.

l No conductive dust or corrosive gas.

l No strong Electromagnetic Interference (EMI).

5.2 Performance SpecificationsFor the performance specifications of the ZXDU68 B201 DC power system, refer to Table5-2.

5-1



Table 5-2 Performance Specifications

Item Specification

Rated output power 12 kW (when fully configured with four ZXD3000 rectifiers)

System efficiency l Peak efficiency: ≥ 95.5%.

l Efficiency at rated load: ≥ 94.5%.

Power limitation based on

the input voltageRefer to .

Power limitation based on

the temperatureRefer to .

Equipment noise ≤ 55 dB (A)

Network architecture for

monitoring

RS232 serial port mode, Ethernet mode, active-device transparent

transmission mode, relay mode

Mean time between failures MTBF≥3.2×105 h

5.3 Electrical specifications SpecificationsFor the electrical specifications of theZXDU68 B201 DC power system, refer to Table 5-3and Table 5-4

Table 5-3 AC Electrical Specifications

Item Specification

AC input mode Single-phase three-wire (L/N/PE) with a rated phase voltage

ranging from 220 V to 240 V

AC input voltage l Rated input voltage: 220 V - 240 V (phase voltage) / 380 V

- 415 V (line voltage)

l Phase voltage range: 85 V - 295 V

AC input frequency l Rated frequency: 50 Hz/60 Hz

l Frequency range: 45 Hz - 66 Hz

AC input power

factor

≥ 0.998 (with rated load)

AC surge

protection

l Standard class C SPD

l Imax = 40 kA (8/20 μs)

AC input

features

Input Total

Harmonic

Distortion (THD)

THD ≤ 5% (with 30% - 100% rated power)

5-2


Chapter 5 System Specifications

Item Specification

AC over-voltage

protection

If the input phase voltage is higher than the over-voltage

threshold, the system takes a protective action against

over-voltage

AC under-voltage

protection

If the input phase voltage is lower than the under-voltage


under-voltage

Protection

functions

Input over-current

protection

The AC input circuit breaker (or AC input contactor) provides

the over-current protection function

Table 5-4 DC Electrical Specifications

Item Specification

Rated output

voltage

-53.5 V

Output voltage

range

-42 V to -58 V (adjustable in the CSU)

Rated output

power

12 kW (in full configuration with four ZXD3000 rectifiers)

DC surge

protection

Imax = 15 kA (8/20 μs)

DC voltage drop

inside the chassis

≤ 0.5 V

Regulated voltage

precision

≤ 0.5%

Weighted noise

voltage

≤ 2 mV

Peak-peak noise

voltage

≤ 150 mV (20 MHz bandwidth)

DC output

features

Load

disconnection

modes

l Load Low Voltage Disconnect 1 (LLVD1)

l Battery Low Voltage Disconnect (BLVD)

l Battery High Temperature Disconnect (BHTD)

l Load Low Temperature Disconnect (LLTD)

5-3



Item Specification

DC over-voltage

protection

If the DC output voltage is higher than the over-voltage


over-voltage

DC under-voltage

protection

If the DC output voltage is lower than the under-voltage


under-voltage

Battery under-

voltage protection

l If the battery voltage is lower than the LLVD1 threshold,

the system disconnects the LLVD1 loads.

l If the battery voltage is lower than the BLVD threshold, the

system disconnects the batteries.

Battery high-

temperature

protection

If the battery voltage is higher than the BHTD threshold, the

system disconnects the batteries

Protection

functions

Load low-

temperature

protection

If the battery voltage is lower than the LLTD threshold, the

system disconnects the loads

5.4 Physical SpecificationsFor the physical specifications of the ZXDU68 B201 DC power system, refer toTable 5-5.

Table 5-5 Physical Specifications

Item Specification

Dimensions 219.3 mm × 442 mm × 394 mm (t × W × D)

Weight About 25 kg (excluding the rectifiers)

Installation mode Embedded in standard cabinet with 19-inch width

Maintenance mode Front-end maintenance

Cabling mode Bottom cabling

Protection degree IP20

5-4


Appendix AAlarm ListTable of Contents

� Monitoring Alarms................................................................................................... A-1

� AC Alarms .............................................................................................................. A-4

� SMR Alarms ........................................................................................................... A-9

� DC Alarms............................................................................................................ A-10

� Environment Alarms ............................................................................................. A-14

A.1 Monitoring AlarmsFor a description of the monitoring alarms, refer to Table A-1.

Table A-1 Monitoring Alarm Description

No. Alarm Name Default Level/DefaultOutput Relay

Alarm Generation Conditions

1 Common Alarm Mask/Null If an alarm is generated in the

system, the corresponding output

relay action is triggered.

2 In-Relay-1# Mask/Null If In.Rly AppList-1# is set to Yes,

and input relay 1 detects equipment

malfunction, this alarm is generated.













A-1






































18 Batt.Test Fail Mask/A1 In a battery test, if the battery voltage

amounts to the test voltage, but the

battery capacity does not amount to

the test stop voltage, this alarm is

generated.

A-2


Appendix A Alarm List



19 LLVD1 Loop Brk. Major/A1 When LLVD1 is performed, this alarm

is generated.

20 LLVD2 Loop Brk. Major/A1 When LLVD2 is performed, this alarm

is generated.

21 Batt.Det.Abr. Critical/A1 During the battery detection, if battery

terminal voltage is lower than the test

stop voltage, this alarm is generated.

22 BLVD Alarm Critical/A1 When BLVD is performed, this alarm

is generated.

23 LLTD Alarm Critical/A1 If the environment temperature is

lower than LLTD Env. Temp., andthe LLTD is performed, this alarm is

generated.

24 BHTD Alarm Critical/A1 If the battery temperature is higher

than BHTD Temp. and the BHTD is

performed, this alarm is generated.

25 All Alarm Blocked Critical/Null This alarm indicates that all real-time

alarms are not displayed. You can

set whether to display real-time

alarms in the CSU.

26 Batt. Equal Mask/Null This alarm indicates that the batteries

are in equalized charging.

27 BMU Comm.Fail Major/Null This alarm indicates that the

communication between the CSU

and BMU fails.

28 BLTD Alarm Critical/A1 If the battery temperature is lower

than BLTD Temp. and the BLTD is

performed, this alarm is generated.

29 Battery Testing Mask/Null This alarm indicates that the batteries

are in the testing status.

30 Sys.OverLoad Alm. Major/Null If the load current of the DC power

system (including battery charging

current) exceeds the system

overload current threshold, this alarm

is generated.

31 multi-SMR Alm. Major/Null If two or more SMRs are faulty, this

alarm is generated.

A-3





32 FBMU Comm.Fail Major/Null This alarm indicates that the

communication between the CSU

and FBMU fails.

33 DG.Start Alm. Mask/Null This alarm indicates that the CSU

has started the DG.

34 DG.Abnormal Alm. Major/A2 This alarm indicates that the CSU

has started the DG, but the DG does

not provide power to the DC power

system.

35 PV SPD Abr. Major/Null If the PV SPD is damaged or not

installed, this alarm is generated.

36 24V DC SPD Abr. Major/Null If the 24V DC SPD is damaged or not

installed, this alarm is generated.

37 PV.Comp.Missing Major/Null If the PV components are faulty or

not installed, this alarm is generated.

38 Sys. Expansion

Alm.

Major/Null If the system expansion is faulty, this

alarm is generated.

A.2 AC AlarmsFor a description of the AC alarms, refer to Table A-2.

Table A-2 AC Alarm Description



1 AC Power Off Mask/Null If there is no AC input, this alarm is

generated.

2 AC Volt.High Major/Null If the AC input phase voltage is higher

than AC Volt.H.Thre., this alarm is

generated.

3 AC Volt.Low Major/Null If the AC input phase voltage is lower

than AC Volt.L.Thre., this alarm is

generated.

4 AC Phase Lack Major/Null If one phase or two phases are

missing for AC input, this alarm is

generated.

A-4





5 AC Curr.High Major/Null If the AC input phase current is higher

than the AC current high threshold,

this alarm is generated.

6 AC Volt.Imbala. Major/Null If the difference between AC input

phase voltages is greater than phase

voltage imbalance value, this alarm

is generated.

7 AC Out.SW Off Major/Null If the AC output circuit breaker is

broken, this alarm is generated.

8 AC In.Switch Off Major/Null If the AC input main circuit breaker is

broken, this alarm is generated.

9 AC SPD Abr. Major/Null If the AC surge protection device

(SPD) is damaged or not installed,


10 DG.Out.UVP Major/Null If the DG output voltage is lower

than the low threshold of output AC

voltage, this alarm is generated.

11 DG.Out.OVP Major/Null If the DG output voltage is higher

than the high threshold of output AC

voltage, this alarm is generated.

12 DG.Over Curr. Major/Null If the DG output current is higher than

the output over current threshold, this

alarm is generated.

13 DG.Over Load Major/Null If the DG output power is higher than

the set power, this alarm is generated.

14 DG.Und.Freq. Major/Null If the DG output frequency is lower

than the low DG. frequency threshold,


15 DG.Over Freq. Major/Null If the DG output frequency is

higher than the high DG. frequency

threshold, this alarm is generated.

16 DG.Und.Speed Major/Null If the DG speed is lower than the lower


17 DG.Over Speed Major/Null If the DG speed is higher than

the upper threshold, this alarm is

generated.

A-5





18 DG.Low Oil Pres. Major/A2 If the DG oil pressure is lower than

the lower threshold, this alarm is

generated.

19 DG.Coolant OTP Major/Null If the DG water temperature is higher

than the upper threshold, this alarm

is generated.

20 DG.Oil OTP Major/Null If the DG oil temperature is higher

than the upper threshold, this alarm is

generated, this alarm is generated.

21 DG.Bat.UVP Major/Null If the DG battery voltage is lower

than the lower threshold, this alarm

is generated.

22 DG.Bat.OVP Major/Null If the DG battery voltage is higher


is generated.

23 DG.Charge.Fail. Major/Null If the output of the AC charger is not

detected by the GCP, this alarm is

generated.

24 DG.Engine OTP Major/Null If the DG temperature is higher than

the upper threshold, this alarm is

generated.

25 DG.Engine UTP Major/Null Reserved. No alarm is available in

current version.

26 DG.Start Fail. Major/A2 If the DG failed to be started

through remote control, this alarm is

generated.

27 DG.Stop Fail. Major/A2 If the DG failed to be switched off

through remote control, this alarm is

generated.

28 DG.High Fl Lev. Major/Null If the oil level is higher than the upper

threshold set in the CSU, this alarm

is generated.

29 DG.Fail Load Major/A2 If the GCP sends DG output switch-on

signals, but the DG output switch

fails to be switched on, this alarm is

generated.

A-6





30 DG.Fail to Open Major/A2 If the GCP sends DG output switch-off

signals, but the DG output switch

fails to be switched off, this alarm is

generated.

31 Mns.GCB Fail Load Major/A2 If the GCP sends mains supply

output switch-on signals, but the

mains supply output switch fails to be

switched on, this alarm is generated.

32 Mns.GCB Fail Open Major/A2 If the GCP sends mains supply

output switch-off signals, but the

mains supply output switch fails to be

switched off, this alarm is generated.

33 Mns.High Freq. Major/Null If the mains output frequency is higher


is generated.

34 Mns.Volt.Imba. Major/Null The difference between the

mains phase voltage and rated

phase voltage is greater than the

Mns.Volt.Imba. threshold, this alarm

is generated.

35 Mns.Ph.Seq.Err. Major/Null If the sequence of mains phases is

incorrect, this alarm is generated.

36 MLLS Comm.Fail Major/Null If the communication between the

CSU and the liquid level sensor fails,


37 GCP Comm.Fail Major/Null If the communication between the

CSU and the GCP fails, this alarm is

generated.

38 DG.Fuel Leakage Major/Null If the fuel declining speed exceeds

the threshold, this alarm is generated.

39 ATS Comm.Fail Major/Null If the communication between the

CSU and the ATS control panel fails,


40 ACEM Comm.Fail Major/Null If the communication between the

CSU and the electricity meter fails,


A-7





41 GMU Comm.Fail Major/Null If the communication between the

CSU and the GMU fails, this alarm is

generated.

42 Mns.Failure Mask/Null If a mains failure occurs, this alarm is

generated.

43 Mns.Pha.Volt.High Major/Null If the mains voltage is higher than

the upper over-voltage threshold, this

alarm is generated.

44 Mns.Pha.Volt.Low Major/Null If the mains voltage is lower than the

lower under-voltage threshold, this

alarm is generated.

45 Mns.Pha.Curr.High Major/Null If the mains phase current is higher

than the upper Mns.Pha.Curr.High


46 DG.Ph.Seq.Err. Major/Null If the phase sequence is incorrect,


47 DG Maint.Not. Warning/Null If an interval between two

maintenances is greater than

the maintenance period, this alarm is

generated.

48 DG.Common Alm. Major/Null If an alarm occurs on the DG, this

alarm is generated.

49 DG.Low Fl.Lev. Major/Null If the oil level is lower than the

DG.Low Fl.Lev. threshold, this alarm

is generated.

50 DG Volt.Imbala. Major/Null If the ratio of the DG phase voltage

difference to the rated phase voltage

is greater than the DG.Volt.Imba.


51 Mns.Low Freq. Major/Null If the mains frequency is lower than

the Mns.Low Freq. threshold, this

alarm is generated.

52 ATS Fault Major/Null If the ATS is faulty, this alarm is

generated.

A-8



A.3 SMR AlarmsFor a description of the SMR alarms, refer to Table A-3.

Table A-3 SMR Alarm Description

No. Alarm Name DefaultLevel/DefaultOutput Relay


1 SMR Fan

Fault

Major/Null If the SMR fan is faulty, this alarm is generated.

2 SMR

Ra.T.H.O.

Major/Null If the temperature of the PFC heat radiator is higher

than the maximum radiator temperature, this alarm is

generated.

3 SMR

In.V.H.O.

Major/Null If the AC input voltage of the SMR is higher than the

maximum input voltage, this alarm is generated.

4 SMR

In.V.L.O.

Major/Null If the AC input voltage of the SMR is lower than the

minimum input voltage, this alarm is generated.

5 SMR

Out.V.H.O.

Major/Null If the output voltage of the SMR is higher than the

maximum output voltage, this alarm is generated.

6 SMR

Out.C.H.

Major/Null If the output current of the SMR is higher than the

maximum output current, this alarm is generated.

7 SMR

PFC.Fault

Major/Null If the SMR PFC is faulty, this alarm is generated.

8 SMR

Inter.T.H.

Major/Null If the temperature of the SMR inlets is higher than

SMR Inter temperature high threshold, this alarm is

generated.

9 SMR

Out.Fuse

Major/Null If the output fuse of the SMR breaks, this alarm is

generated.

10 SMR

Curr.Share

Major/Null If the current difference is greater than the SMR current

share protection value, this alarm is generated.

11 SMR Input

Off

Major/Null If the power input of the SMR is interrupted, this alarm

is generated.

12 PFC

Out.V.H.

Major/Null If the output voltage of PFC is higher than the threshold,


13 PFC Out.V.L. Major/Null If the output voltage of PFC is lower than the threshold,


14 SMR

EEPROM

Major/Null If errors occur when the SMR reads and writes the

EEPROM, this alarm is generated.

15 SMR

In.Comm F.

Major/Null If some error occurs to the communication of the Serial

Communication Interface (SCI), this alarm is generated.

A-9





16 SMR

Primy.C.H.

Major/Null If the primary current of the transformer is higher than

the threshold, this alarm is generated.

17 PFC Input

C.H.

Major/Null Reserved alarm

18 SMR Start

Abr.

Major/Null If the starting time of the SMR exceeds 5 minutes, this

alarm is generated.

19 SMR In.Fuse Major/Null If the input fuse of the SMR breaks, this alarm is

generated.

20 SMR

Comm.Fail

Major/Null If the communication between the SMR and the

CSU is interrupted because the SMR is removed or

there is some communication exception, this alarm is

generated.

21 SMR In.Freq. Major/Null If the input frequency of the SMR is too high or too low,


22 SMR

Out.V.L.

Major/Null If the output voltage of the SMR is lower than the


23 SMR

Out.O.P.

Major/Null If the output power of the SMR exceeds the threshold,


24 SMR SN

Clash

Major/Null If two or more than two SMR sequence numbers are

the same, this alarm is generated.

25 SMR Pro.Err. Major/Null If the CSU does not support the CAN communication

protocol of the SMR, this alarm is generated.

26 SMR No

Match

Major/Null If the SMR that supports mix-use and the SMR that

does not support mix-use are used together in the

system, this alarm is generated.

27 SMR

Ext.O.T.

Major/Null If the temperature of the SMR inlet exceeds the


28 Start. R.T.H. Major/Null .If the soft-starting resistor temperature is too high, this

alarm is generated.

A.4 DC AlarmsFor a description of the DC alarms, refer to Table A-4.

A-10



Table A-4 DC Alarm Description



1 DC Volt.High Major/Null If the DC output voltage is higher than the DC voltage

high threshold, this alarm is generated.

2 DC Volt.Low Major/Null If the DC output voltage is lower than the DC voltage low


3 DC SPD Abr. Major/Null If the DC SPD is faulty, this alarm is generated.

4 Batt.Volt.Low Major/Null If the voltage of a battery pack is lower than the battery

voltage low threshold, this alarm is generated.

5 Batt.Curr.Abr. Minor/Null If the rate of the detected battery current to the highest

detectable current is greater than the abnormal battery

current rate, this alarm is generated.

6 Batt.Temp.High Major/Null If the battery temperature is higher than the battery

temperature high threshold, this alarm is generated.

7 Batt.Temp.Low Major/Null If the battery temperature is lower than the battery

temperature low threshold, this alarm is generated.

8 Batt.Loop Brk. Critical/A1 If the battery loop is disconnected, this alarm is

generated.

9 Batt.Dischg. Mask/Null If the battery discharging current is higher than battery

discharging threshold, this alarm is generated.

10 Batt.T.Invalid Warning/Null If the system is configured with batteries, but the battery

temperature detection fails, or the battery temperature

sensor is not installed or the battery temperature is out of

the detection range, this alarm is generated.

11 LLVD1 Extend

Brk.

Major/A3 If the circuit breaker or fuse of the extended LLVD1 loop

breaks, this alarm is generated.

12 LLVD1 Loop

Brk.

Major/A3 If the circuit breaker or fuse of the LLVD1 loop breaks,


13 LLVD2 Extend

Brk.

Major/A3 If the circuit breaker or fuse of the extended LLVD2 loop

breaks, this alarm is generated.

14 BLVD Extend

Brk.

Major/A3 If the fuse of the extended BLVD loop breaks, this alarm

is generated.

15 BLVD Loop Brk. Major/A3 If the fuse of the BLVD loop breaks, this alarm is

generated.

16 Cell Reverse Major/Null If a 2 V battery cell is reversely connected, this alarm

is generated.

A-11





17 Block Reverse Major/Null If a 12 V battery block is reversely connected, this alarm

is generated.

18 Cell Poor Major/Null If the difference between a 2 V battery cell voltage and

the average battery voltage is greater than Battery Cell

Voltage Differ Valve, this alarm is generated.

19 Block Poor Major/Null If the difference between a 12 V battery block voltage

and the average battery voltage is greater than Battery

Block Voltage Differ Valve, this alarm is generated.

20 DC.Loop.Brk. Critical/A3 If the load loop is broken, this alarm is generated.

21 Load Ext.Brk. Major/A3 If the extended load loop is broken, this alarm is

generated.

22 Batt.COCA_Li Critical/Null If the battery charging current exceeds the battery charge

over current alarm_Li value, this alarm is generated.

23 Batt.DOCA_Li Critical/Null If the battery discharging current exceeds the battery

discharge over current alarm_Li value, this alarm is

generated.

24 Cell DOTA_Li Critical/Null During battery discharging, if the battery cell temperature

is higher than the Cell Discharge Over Temperature

Protection_Li value, this alarm is generated.

25 Cell DUTA_Li Critical/Null During battery discharging, if the battery cell temperature

is lower than the Cell Discharge Under Temperature

Alarm_Li value, this alarm is generated.

26 Cell OVA_Li Critical/Null If the battery cell voltage is higher than the Cell Over

Voltage Alarm_Li value, this alarm is generated.

27 Cell UVA_Li Critical/Null If the battery cell voltage is lower than the Cell Under

Voltage Alarm_Li value, this alarm is generated.

28 Cell Poor_Li Critical/Null If the difference between the voltage of a single cell and

average cell voltage exceeds the Cell Poor_Li value, this

alarm is generated.

29 Batt.UVP_Li Critical/A1 If the battery pack voltage is lower than the Battery

Under Voltage Protection Threshold_Li value, this alarm

is generated.

30 Batt.DOCP_Li Critical/A1 If the battery discharging current exceeds the Battery

Discharge Over Current Protection_Li value and

the FBMU disconnects the discharging loop of the

corresponding battery pack, this alarm is generated.

A-12





31 Batt.COCP_Li Critical/A1 If the battery charging current exceeds the Battery

Charge Over Current Protection_Li value and the FBMU

disconcerts the charging loop of the corresponding

battery pack, this alarm is generated.

32 Cell DOTP_Li Critical/A1 During battery discharging, if the battery cell temperature

is higher than the Cell Discharge Over Temperature


33 Cell DUTP_Li Critical/A1 During battery discharging, if the battery cell temperature

is lower than the Cell Discharge Under Temperature


34 Cell OVP_Li Critical/A1 If the temperature of single battery cell is higher than

the Cell Over Voltage Protection_Li value, this alarm is

generated.

35 Cell UVP_Li Critical/A1 If the voltage of single battery cell is lower than the

Cell Under Voltage Protection_Li value, this alarm is

generated.

36 Cell TI_Li Critical/Null If the detected cell temperature exceeds the detection

range of the temperature sensor, this alarm is generated.

37 Batt.OVP_Li Critical/A1 If the voltage of a battery pack is higher than the

Battery Over Voltage Protection_Li value, this alarm is

generated.

38 Cell COTA_Li Critical/Null During battery charging, if the cell temperature is higher

than the Cell Charge Over Temperature Alarm_Li value,


39 Cell CUTA_Li Critical/Null During battery charging, if the cell temperature is lower

than the Cell Charge Under Temperature Alarm_Li value,


40 Cell COTP_Li Critical/A1 During battery charging, the cell temperature is higher

than the Cell COTP_Li value and the FBMU disconnects

the charging loop of the corresponding battery pack, this

alarm is generated.

41 Cell CUTP_Li Critical/A1 During battery charging, if the cell temperature is lower

than the Cell Charge Under Temperature Protection_Li

value and the FBMU disconnects the charging loop of

corresponding battery pack, this alarm is generated.

A-13





42 Chg.Over T._Li Critical/A1 If the battery charging duration exceeds the Battery

Charge Over Time Protecion_Li value and the FBMU

disconnets the charging loop of corresponding battery

pack, this alarm is generated.

43 Chg.Sw.Inv_Li Critical/Null This alarm is not available in current version.

44 Dch.Sw.Inv_Li Critical/Null This alarm is not available in current version.

45 Batt. CI_Li Critical/Null If the detected battery pack current exceeds the FBMU

current detection range, this alarm is generated.

46 Batt. VI_Li Critical/Null If the detected cell voltage exceeds the FBMU cell

voltage detection range, this alarm is generated.

47 Batt.UVA_Li Major/Null If the battery pack voltage is lower than the Battery

Under Voltage Alarm_Li value, this alarm is generated.

48 Batt.Low-

SOC_Li

Critical/Null If the battery pack SOC is lower than the Battery Low

SOC Alarm_Li value, this alarm is generated.

49 ZXD2430

Alarm

Major/Null If the ZXD2430 is faulty, this alarm is generated.

50 Inverter Alarm Major/Null If the inverter is faulty, this alarm is generated.

51 24V Load Brk. Major/A3 If 24V load loop is broken, this alarm is generated.

A.5 Environment AlarmsFor a description of the environment alarms, refer to Table A-5.

Table A-5 Environment Alarm Description



1 Env.Temp. High Minor/A4 If the environment temperature is higher than

Env.Temp.H.Thre., this alarm is generated.

2 Env.Temp. Low Minor/A4 If the environment temperature is lower than

Env.Temp.L.Thre., this alarm is generated.

3 Env.Hum. High Minor/Null If the environment humidity is higher than

Env.Hum.H.Thre., this alarm is generated.

4 Env.Hum. Low Minor/Null If the environment humidity is lower than

Env.Hum.L.Thre., this alarm is generated.

A-14





5 Door Alarm Major/Null If the status of the door sensor is abnormal, this

alarm is generated.

6 Access Control Mask/Null If the status of the door access control is abnormal,


7 Smog Alarm Major/Null If the sensor detects smog, this alarm is generated.

8 Flood Alarm Major/Null If the sensor detects flood, this alarm is generated,


9 Glass Brk.Alm. Minor/Null If the sensor detects broken glasses, this alarm is

generated.

10 Env.Temp.In-

valid

Mask/Null If the environment temperature sensor is damaged

or not installed, this alarm is generated.

11 Env.Hum.Invalid Mask/Null If the environment humidity sensor is damaged or

not installed, this alarm is generated.

12 T.Ctrl Unit Alm Minor/Null If the status of the temperature control unit is

abnormal, this alarm is generated.

13 Env.OTA_Li Minor/Null If lithium iron phosphate batteries are configured,

and the environment temperature is higher than

Env.OTA_Li., this alarm is generated.

14 Env.UTA_Li Minor/Null If lithium iron phosphate batteries are configured,

and the environment temperature is lower than

Env.UTA_Li., this alarm is generated.

A-15




A-16


Appendix BElectrical ConnectionDiagramFor the electrical connection diagram of the ZXDU68 B201 system, see Figure B-1.

B-1


ZXDU68

B201

ProductDescription

Figure B-1 Electrical Connection Diagram of the ZXDU68 B201System

B-2

SJ-20150914145904-001|2015-09-14

(R1.0)

ZTE

Proprietaryand

Confidential

Appendix B Electrical Connection Diagram

For the electrical connection diagram of the FBMU, seeFigure B-2 .

B-3


ZXDU68

B201

ProductDescription

Figure B-2 flectrical connection diagram of the FBMU

B-4

SJ-20150914145904-001|2015-09-14

(R1.0)

ZTE

Proprietaryand

Confidential

GlossaryAC- Alternating Current- 交流电，交流

ACB- Air-conditioning Control Board- 空调控制板

BHTD- Battery High Temperature Disconnect- 高温电池下电

BLVD- Battery Low Voltage Disconnect- 低压电池下电

CAN- Controller Area Network- 控制器局域网络

CSU- Centralized Supervision Unit- 集中监控单元

DC- Direct Current- 直流电

EMI- Electromagnetic Interference- 电磁干扰

FBMU- FeLi Battery Management Unit- 铁锂电池管理单元

FTP- File Transfer Protocol- 文件传输协议

HTTP- Hypertext Transfer Protocol- 超文本传输协议

IE- Internet Explorer- 因特网浏览器

I



LCD- Liquid Crystal Display- 液晶显示

LLTD- Load Low Temperature Disconnect- 低温负载下电

LLVD- Load Low Voltage Disconnect- 低压负载下电

MTBF- Mean Time Between Failures- 平均故障间隔时间

SC- Supervision Center- 监控中心

SIU- Signal Interface Unit- 信号接口单元

SNMP- Simple Network Management Protocol- 简单网络管理协议

SPD- Surge Protection Device- 电涌保护装置

THD- Total Harmonic Distortion- 总谐波失真

USB- Universal Serial Bus- 通用串行总线

II


ZXDU68B201 - libertyport.com · l Collects the operational data and monitors the operations of the...

Documents

Transcript of ZXDU68B201 - libertyport.com · l Collects the operational data and monitors the operations of the...