Release Notes

F01D2000V100R001Product Description

Issue05

Date2013-08-31

DOCPROPERTY Confidential

HUAWEI TECHNOLOGIES CO., LTD.

Copyright Huawei Technologies Co., Ltd. 2013. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.

Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.

All other trademarks and trade names mentioned in this document are the property of their respective holders.

Notice

The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied.

The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.

Huawei Technologies Co., Ltd.

Address:Huawei Industrial Base

Bantian, Longgang

Shenzhen 518129

People's Republic of China

Website:http://www.huawei.com

Email:support@huawei.com

About This Document

Product Version

The following table lists the product version related to this document.

Product NameVersion

F01D2000V100R001

Intended Audience

The F01D2000 cabinet provides a large-capacity outdoor solution.

This document describes the features, structure, configuration, specifications, environmental requirements, and standards compliance of the F01D2000 cabinet.

This document is intended for:

Network planning engineers

Installation and commissioning engineers

On-site maintenance engineers

Network monitoring engineers

System maintenance engineers

Data configuration engineers

Application developers

Symbol Conventions

The symbols that may be found in this document are defined as follows.

SymbolDescription

Indicates a hazard with a high level of risk that, if not avoided, will cause death or serious injury.

Indicates a hazard with a medium or low level of risk that, if not avoided, could cause minor or moderate injury.

Indicates a potentially hazardous situation that, if not avoided, could cause device damage, data loss, performance degradation, or unexpected results.

Provides additional information to emphasize or supplement important points of the main text.

Indicates a tip that may help you solve a problem or save time.

Update History

Updates between document issues are cumulative. Therefore, the latest document issue contains all updates made in previous issues.Updates in Issue 05 (2013-08-31)

Compared with Issue 04 (2012-12-31), the following items are modified:

2.2 Cabinet Structure 2.3 Power Supply System

2.4 Monitoring System 2.5 MUE02A Sensor Transfer Box 2.6 Sensors 3.1 F01D2000 Cabinet Configured with the MA5600T 3.2 F01D2000 Cabinet Configured with the UA5000

Updates in Issue 04 (2012-12-31)

Compared with Issue 03 (2012-05-04), the following items are modified:

1.1

REF _Ref323917286 \h Prominent Security Performance 2.2

REF _Ref345163926 \h Cabinet Structure 2.3.3

REF _Ref370227318 \h Maintenance Socket 6

REF _Ref323917308 \h Standards ComplianceUpdates in Issue 03 (2012-05-04)

Compared with Issue 02 (2011-11-30), the following items are modified:

1.1

REF _Ref323917289 \h Prominent Security Performance 6

REF _Ref323917312 \h Standards ComplianceUpdates in Issue 02 (2011-11-30)

Compared with Issue 01 (2011-06-30), the following items are modified:

2.8.1

REF _Ref310945667 \h MDF 3

REF _Ref310326438 \h Configuration 4.2

REF _Ref309031306 \h WeightUpdates in Issue 01 (2011-06-30)

This is the first release.

Contents

iiAbout This Document

11 Features

11.1 Prominent Security Performance

11.2 Easy Installation

21.3 Convenient Maintenance

31.4 Superior Monitoring Function

31.5 Integrated Structure Design

42 Structure

42.1 Cabinet Appearance

52.2 Cabinet Structure

62.3 Power Supply System

72.3.2 ETP48150 Power System

122.3.3 Batteries

142.3.4 Maintenance Socket

142.3.5 Lightning Arrester

152.4 Monitoring System

172.5 MUE02A Sensor Transfer Box

202.6 Sensors

242.7 Temperature Control Device

252.8 Cable Distribution Device

252.8.1 MDF

282.8.2 ODF

303 Configuration

303.1 F01D2000 Cabinet Configured with the MA5600T

323.2 F01D2000 Cabinet Configured with the UA5000

354 System Specifications

354.1 Dimensions

364.2 Weight

364.3 Power Consumption

375 Environmental Requirements

386 Standards Compliance

40A Acronyms and Abbreviations

1 Features

1.1 Prominent Security Performance

The F01D2000 cabinet features prominent security performance and therefore can be applied in harsh environmental conditions.

The F01D2000 cabinet features prominent protection, and anti-attack capability. The protection performance of the F01D2000 cabinet meets the requirements of IP55 class protection.

The device compartment and the cable distribution compartment of the F01D2000 cabinet are isolated from each other and use different types of door locks. Therefore, the two compartments can be separately maintained by personnel at different levels. The compartments support external locks to better protect the devices inside the cabinet.

1.2 Easy Installation

The F01D2000 cabinet can be installed on a concrete pedestal.

The F01D2000 cabinet has a properly designed structure and can be easily installed.

Figure 1-1 shows the F01D2000 cabinet installed on a concrete pedestal.

Figure 1-1 F01D2000 cabinet installed on a concrete pedestal

1.3 Convenient Maintenance

The structure of the F01D2000 cabinet meets the requirements of convenient maintenance.

The device compartment of the F01D2000 cabinet supports front-access maintenance.

The F01D2000 cabinet provides a portable illuminator in the device compartment and cable distribution compartment to facilitate nighttime maintenance. The F01D2000 cabinet provides an AC maintenance socket in the device compartment and cable distribution compartment to supply power to the maintenance terminal.1.4 Superior Monitoring Function

The structure of the F01D2000 cabinet meets the requirements of real-time monitoring.

The F01D2000 cabinet uses the sensors, sensor transfer box, and power system to monitor various monitored parameters in real time and to provide the remote alarming function.

The cabinet monitors the environment parameters, such as the temperature, smoke, and door status. It also provides ports for monitoring extended environment parameters.

The cabinet monitors the power supply devices, such as the power system and batteries.

The cabinet monitors the components, such as the cable distribution frame, lightning arrester, and temperature control device.

1.5 Integrated Structure Design

The integrated structure of the F01D2000 meets the requirements of easy installation and running reliability.

The F01D2000 cabinet integrates the service device, power system, battery, lightning arrester, cable distribution frame, and temperature control device. This saves the installation cost and the ground area. The cabinet can be installed quickly on site to meet the requirements of carriers for quick deployment.

The sealed design of the F01D2000 cabinet prevents dust, moisture, and rain from entering the cabinet, and thus ensures that the cabinet can run reliably in the harsh environment.2 Structure

2.1 Cabinet Appearance

This topic provides the appearance of the F01D2000 cabinet.

Figure 2-1 shows the appearance of the common F01D2000 cabinet.

Figure 2-2 Appearance of the common F01D2000 cabinet

2.2 Cabinet Structure

The components of the F01D2000 cabinet include the temperature control device, power supply device, service device, and cable distribution device.

Figure 2-2 shows the structure of the common F01D2000 cabinet configured with MA5600T.

Figure 2-3 Structure of the common F01D2000 cabinet configured with MA5600T

Figure 2-3 shows the structure of the common F01D2000 cabinet configured with UA5000.

Figure 2-4 Structure of the common F01D2000 cabinet configured with UA5000

2.3 Power Supply System

The F01D2000 cabinet supports the 220 VAC power supply and uses the ETP48150 power system to convert the 220 VAC input into the 48 VDC.

The AC power cable is routed into the cabinet through the bottom of the cable distribution compartment, and then connected to the mains AC MCB in AC PDU. Then the cable is connected to the filter in the AC PDU and then routed in the following two directions:

One channel supplies power to the maintenance sockets in the device compartment and cable distribution compartment.

The other channel supplies power to the heat exchangers, service devices, and maintenance illuminators after the AC is converted into the 48 VDC by the ETP48150 power system.

The power shelf of the ETP48150 power system provides two outputs for two battery groups.

Figure 2-4 shows the power distribution of the F01D2000 cabinet

Figure 2-5 Power distribution of the F01D2000 cabinet

2.3.2 ETP48150 Power System

The AC-powered cabinet uses the ETP48150 power system to convert the 220 VAC input into the 48 VDC and then distribute the power.

Functions

The ETP48150 power system converts one AC input into six DC outputs to implement the DC power distribution. It can be connected to one to two battery groups and use its monitoring module to manage batteries. The ETP48150 power system can also use the external sensor transfer box to collect and report the status of sensors (such as temperature, humidity, door status, and smoke) and standby detected parameters.

The rectifier modules of the ETP48150 power system work in the load balancing and mutual hot backup mode.

Appearance

Figure 2-5 shows the appearance of the ETP48150 power system.

Figure 2-6 Appearance of the ETP48150 power system

(1) AC input(2) Ground screw(3) DC output

(4) SMU(5) Space for rectifiers

Configuration

Table 2-1 lists the component configuration of the ETP48150 power system.

Table 2-1 Component configuration of the ETP48150 power system

Component NameConfiguration

Rectifier module: R4830G1s

R4830N2s

NOTE

The R4830G1 and R4830N2 can be installed together..1 to 5 (optional)

The following SMUs are supported:

SMU01A

SMU01B1

ETP48150 AC/DC power supply unit1

The ETP48150 power system can be configured with five rectifier modules, which are connected in parallel for output.

The ETP48150 is a box-type power system that supplies power for -48 V DC communications equipment. It uses 30 A rectifiers and provides a maximum output current of 150 A.PDU

Figure 2-6 shows the PDU panel.

Figure 2-7 PDU panel

(1) BATT- port(2) LOAD(1-8)- ports(3) BATT+ port

(4) LOAD(1-8)+ ports(5) LOAD(1-8) circuit breakers(6) BATT circuit breaker

(7) AC input

The port marked "-" is a negative port. The port marked "+" is a positive port.

Rectifiers

Rectifiers convert AC inputs into stable -48 V DC outputs.

Figure 2-7 shows a rectifier.

Figure 2-8 Rectifier

Figure 2-8 shows the rectifier panel.

Figure 2-9 Rectifier panel

(1) Run indicator(2) Alarm indicator(3) Fault indicator

(4) Locking latch(5) Handle

SMU

Figure 2-9 shows the SMU01A panel.

Figure 2-10 SMU01A panel

(1) Run indicator(2) Alarm indicator(3) DB50 port

(4) USB port (reserved)(5) Handle(6) RS485/RS232 port

(7) COM port(8) Locking latch(9) Four buttons

(10) Liquid crystal display (LCD)

Figure 2-10 shows the SMU01B panel.

Figure 2-11 SMU01B panel

(1) Run indicator(2) Alarm indicator(3) DB50 port

(4) Battery temperature sensor port(5) Handle(6) RS485/RS232 port

(7) COM port(8) Locking latch(9) Four buttons

(10) Liquid crystal display (LCD)

Table 2-2 describes the buttons on the SMU01A and SMU01B panel.

Table 2-2 Button description

ButtonNameDescription

or Up or DownAllows you to view menu items and set the value of a menu item.

BackReturns to the previous menu without saving the settings.

Enter Enters the main menu from the standby screen.

Enters a submenu from the main menu.

Saves the menu settings.

NOTE The standby screen is displayed and the LCD screen becomes dark if you do not press any button for 5 minutes.

You need to log in again to enter the control and setting menus if you do not press any button for 8 minutes.

Specifications

Table 2-3 lists the specifications of the ETP48150 power system.

Table 2-3 Specifications of the ETP48150 power system

ItemSpecification

AC input 220V AC single-phase (default mode)

110V AC Dual-live wire

220/380V AC three-phase, four-wire Frequency: 45-66 Hz (rated frequency: 50 Hz or 60 Hz)

DC power distribution Battery circuit breaker:

One 1-pole 100 A circuit breaker

Load circuit breaker Four 1-pole 40 A circuit breakers

Two 1-pole 20 A circuit breakers

Two 1-pole 12 A circuit breakers

Efficiency R4830G1: Highest efficiency: 96%

95% (230 V AC, 45%-80% load)

R4830N2: Highest efficiency: 94%

93% (230 V AC, 30%-100% load)

Working temperature range-40C to +70CNOTEThe power system can work at a temperature of 70 C for 8 hours.

Cooling methodNatural cooling

Dimensions (W x D x H)442 mm x 255 mm x 130.5 mm

2.3.3 Batteries

The F01D2000 cabinet uses two groups (four batteries in serial connection) of 150 AH batteries as the backup power supply.

Configure the battery before powering on or powering off the battery.

The battery (storage battery) used as the backup power supply of the device refers to the battery whose power can be restored through charging after the battery is discharged. The battery can be charged in two modes: equalized charging and floating charging. The meanings of the two modes are as follows:

Equalized charging: A constant voltage charging mode used to balance the capacity among cells. This charging mode features high voltage and is used for fast restoration of the battery capacity.

Floating charging: A constant voltage charging mode used to complement the capacity lost during the discharging of a battery, or to restore the battery capacity. This charging mode features a lower input voltage than that of the equalized charging.

The battery appearance, dimensions, and weight provided in this topic are for reference only. The actually delivered batteries prevail.

Figure 2-11 shows the appearance of the 150 AH battery.

Figure 2-12 Appearance of the 150 AH battery

Table 2-4 lists the specifications of the 150 AH battery.

Table 2-4 Specifications of the 150 AH battery

ItemSpecification

Voltage of a single battery12 V

Rated capacity(four batteries in serial connection)150 AH

Equalized charging voltage (four batteries in serial connection)56.5 V

Floating charging voltage (four batteries in serial connection) 53.5 V

Maximum charging current of the battery group22.5 A

Dimensions of a single battery (width x depth x height)550 mm x 110 mm x 3100 mm

Weight of a single battery50 kg

2.3.4 Maintenance Socket

The F01D2000 cabinet provides an AC maintenance socket on each of the two parts (device compartment and cable distribution compartment) to supply power to the external devices on site.

Maintenance sockets include the DIN socket and the universal socket (default configuration). You can select one type based on your requirements.

Table 2-5 lists the specifications of the maintenance socket.

Table 2-5 Specifications of the maintenance socket

ItemValue

Rated voltage220 VAC

Rated current3 A

2.3.5 Lightning Arrester

This topic describes the functions and technical specifications of the lightning arrester used in the F01D2000 cabinet.

The F01D2000 cabinet uses a lightning arrester with the maximum discharge current of 60 kA to protect the 220 V single-phase power system against the surge voltage caused by lightning.

Table 2-6 lists the technical specifications of the 60 kA lightning arrester.

Table 2-6 Specifications of the 60 kA lightning arrester

ItemSpecification

Rated working voltage220 VAC

Maximum continuous running voltage (Uc)385 VAC

Maximum discharge current (Imax)60 kA (8/20 s)

Rated discharge current (In)30 kA (8/20 s)

Protection rating (Up) L-N: 2 kA

N-PE: 1.5 kA

Local alarm window indication Green: The lightning arrester is in the normal state.

Red: The lightning arrester is faulty.

Dimensions (W x D x H)90 mm x 65 mm x 72 mm

Applicable environment Temperature: 40C to +85C

Moisture-sensitivity level: 5% to 95%; the lightning arrester can work normally in full temperature range (no condensation)

2.4 Monitoring System

The F01D2000 cabinet uses the sensor transfer box to collect the information about monitored parameters, and uses the monitoring module of the power system to process the information and report the processed information to the control board of the device. In this way, the F01D2000 cabinet monitors the environment, power supply, and main components inside the cabinet.

Configured with the MA5600TFigure 2-12 shows the monitoring system of the F01D2000 cabinet configured with the MA5600T.

Figure 2-13 Monitoring system of the F01D2000 cabinet configured with the MA5600T

Configured with the UA5000Figure 2-13 shows the monitoring system of the F01D2000 cabinet configured with the UA5000.

Figure 2-14 Monitoring system of the F01D2000 cabinet configured with the UA5000

2.5 MUE02A Sensor Transfer BoxThe sensor transfer box provides various sensor ports to connect the external sensors to monitoring module, collecting signals from the sensors and forwarding the signals to the monitoring module.

Appearance

Figure 2-14 shows the appearance of the MUE02A sensor transfer box.

Figure 2-15 Appearance of the MUE02A sensor transfer box

Sensor Port

Figure 2-15 and Table 2-7 describe the sensor ports on the MUE02A sensor transfer box.

Figure 2-16 Sensor ports of the MUE02A sensor transfer box

Table 2-7 lists the Pin function of the sensor ports.Table 2-7 Pin function of the sensor ports

Silk ScreenSignal PortPin Function

SIM1/SIM2Port for detecting voltages Pin 1 is for the signal cable.

Pin 2 is reserved.

FU_ALMPort for detecting battery fuses Pin 1 is for the signal cable.

Pin 2 is reserved.

TEM_HUPort for detecting temperature and humidity 1 Pin 1 and pin 3 are for +12 V power supply.

Pin 2 is for the temperature signal cable.

Pin 4 is for the humidity signal cable.

BAT_WEPort for detecting battery temperature 1 Pin 1 is for the +12 V power supply.

Pin 2 is for the signal cable.

VBTEM2Port for detecting battery temperature 2 Pin 1 is for the +12 V power supply.

Pin 2 is for the signal cable.

VTEM2Port for detecting temperature 2 Pin 1 is for the +12 V power supply.

Pin 2 is for the signal cable.

JTD1-JTD7Port for digital parameter input Pin 1 and pin 2 are for +12 V power supply.

Pin 3 is for the signal cable.

Pin 4 is for grounding.

SMOKESmoke sensor port Pin 1 is for the signal cable.

Pin 2 is for +12 V power supply.

WATERWater sensor port Pin 1 is for +12 V power supply.

Pin 2 is for the signal cable.

Pin 3 is for grounding.

JTM1Door status sensor port Pin 1 is for the signal cable.

Pin 2 is for +12 V power supply.

JTP1Sensor port on the MDF Pin 1 is for the signal cable.

Pin 2 is reserved.

JK1/JK2Alarm dry contact output portThe maximum voltage is 60 V DC and the maximum load current is 500 mA.

JAC1/JAC2Alarm dry contact output portThe maximum voltage is 60 V DC and the maximum load current is 500 mA.

JKM1-JKM4Alarm dry contact output portThe maximum voltage is 60 V DC and the maximum load current is 500 mA.

CAB_E-LABELCabinet electronic label port Pin 1 is for +5 V power supply.

Pin 2 is for the clock cable.

Pin 3 is for the digital cable.

Pin 4 is for grounding.

Parameter

Table 2-8 lists the specifications of the MUE02A sensor transfer box.

Table 2-8 Specifications of the MUE02A sensor transfer box

ParameterSpecifications

Dimensions (H x W x D)31 mm x 140 mm x 96 mm

Weight0.6 kg

2.6 Sensors

This topic provides the appearances of the sensors embedded in the cabinet and describes the functions of these sensors.

Door Status Sensor

The door status sensor monitors the status of the cabinet door. The output signals are the dry-contact output signals that have no polarity.

The door status sensor uses a magnetic switch as the probe. The door status switch consists of two parts and is covertly installed. The spring plates of the door status switch are attracted together through the electromagnetic interaction.

Figure 2-16 shows the appearance of the door status sensor.

Figure 2-17 Appearance of the door status sensor

Temperature and Humidity Sensor

The temperature and humidity sensor monitors the ambient temperature and humidity of the cabinet in real time.

The temperature and humidity sensor sends the signals of standard current (4 mA to 20 mA) analog parameter.

Figure 2-17 shows the appearance of the temperature and humidity sensor.

Figure 2-18 Appearance of the temperature and humidity sensor

The temperature and humidity sensor is classified into two types and the functions of these two types are the same.Technical Specifications

Table 2-9 shows the technical specifications of the environment temperature sensor (NTC type).

Table 2-9 Technical specifications of the environment temperature sensor (NTC type)

ParameterValue

Nominal resistance10 K1% (at 25C)

Temperature measurement range-40C to +80C

Precision of temperature measurement1C (at 25C)

Signal output190.25 K to 1.663 K

Smoke Sensor

The smoke sensor is sensitive to the white smoke that is generated in burning. It probes the smoke and prompts the fire in advance in case of fire.

Figure 2-18 shows the appearance of the smoke sensor.

Figure 2-19 Appearance of the smoke sensor

Water Sensor

The water sensor (liquid-level sensor) adopted by Huawei is a kind of plug-in spacing liquid-level sensor. This sensor is of the current type. When the sensor enters the liquid, the power supply forms an injection current to the signal end so as to monitor the liquid level change.

Figure 2-19 shows the appearance of the water sensor.

Figure 2-20 Appearance of the water sensor

Battery Temperature Sensor (NTC Type)

The battery temperature sensor (NTC type) samples the ambient temperature of the battery set to monitor the temperature of the battery in real time, and is used for float charging temperature compensation, over temperature alarming, and protection for the battery.

Appearance

The battery temperature sensor (NTC type) integrates with a negative temperature coefficient (NTC) temperature sensor, and outputs resistance analog parameters. To sample the ambient temperature of the battery set, install the temperature probe of the battery temperature sensor (NTC type) at a position that best represents the temperature of the battery set. Do not connect the temperature probe to other exothermic devices.

Figure 2-20 shows the appearance of the battery temperature sensor (NTC type).

Figure 2-21 Appearance of the battery temperature sensor (NTC type)

Technical Specifications

Table 2-10 lists the technical specifications of the battery temperature sensor (NTC type).

Table 2-10 Technical specifications of the battery temperature sensor (NTC type)

ParameterValue

Nominal resistance10 K1% (at 25C)

Temperature measurement range-40C to +80C

Precision of temperature measurement1C (at 25C)

Signal output190.25 K to 1.663 K

2.7 Temperature Control Device

The F01D2000 cabinet uses two heat exchangers (each heat exchanger consisting of one heat exchanging core, two internal-cycle fans, and two external-cycle fans) for heat dissipation. The heat exchangers maintain the temperature inside the cabinet in a proper scope and thus ensure that the device can run reliably outdoors for a long time.

The heat exchanger of the F01D2000 consists of two independent air cycles, that is, the internal cycle and the external cycle. The centrifugal fans for the internal and external cycles implement air convection and cool the sealed area. The air in the sealed area is cooled through the ambient air and the heat is transferred through the heat exchanger core.

Figure 2-21 shows the ventilation principles of the F01D2000 cabinet.

Figure 2-22 Ventilation principles of the F01D2000 cabinet

Table 2-11 lists the specifications of the temperature control device in the F01D2000 cabinet.

Table 2-11 Specifications of the temperature control device in the F01D2000 cabinet

ItemSpecification

Heat dissipation capability of the cabinet3300 W (45 C + 1120 W/m2)

Maximum rotation speed of the external-cycle or internal-cycle fan3100 rpm

Dimensions of the external-cycle or internal-cycle fan (Diameter x Depth)175 mm x 69 mm

2.8 Cable Distribution Device

The cabinet has the built-in MDF and ODF. The MDF is used to connect the internal subscriber cable and the external subscriber cable. The ODF is used to connect the optical fibers and optical communication devices.

2.8.1 MDF

This topic provides the appearance and the specifications of the MDF used in the F01D2000 cabinet.

Figure 2-22 shows the appearances of the MDF in the F01D2000 cabinet.

Figure 2-23 Appearances of MDF in the F01D2000 cabinet

The F01D2000 cabinet provides the built-in MDF to implement cable distribution.

The exchange side terminal blocks are installed to connect the cables at the MDF side and the jumper cables. The exchange side terminal blocks are also used for tests and open circuits.

The cable side terminal blocks are installed to connect the external cables and jumper cables on the MDF. The protective unit installed in the cable side terminal block provides the overvoltage protection, and generates alarms.

The harness, which consists of the connector, subscriber cable, and exchange side terminal block, provides connections between the service boards and the MDF.

Figure 2-23 shows the appearances of terminal blocks and protective units configured for the F01D2000 cabinet.

Figure 2-24 Appearances of terminal blocks and protective units

Table 2-12 lists the specifications of the MDF.

Table 2-12 Specifications of the MDF

ItemUA5000 and MA5600T (CAME&ASPB) Service ConfigurationMA5600T (ADPE&VDPE) Service Configuration

Type of the terminal block Exchange side terminal block: JPX658-STO-236XD

Cable side terminal block: JPX658-BLK2-E10VJPX658-BLK2-E10V

Height of the terminal block Exchange side terminal block: 12 mm

Cable side terminal block: 13 mm13 mm

Type of the protective unitJPX658-SPD2-G400T

Height of the MDFFour columns in all: Two columns in the middle: 2 x (600 mm + 900 mm) for the internal subscriber cables and external subscriber cables

Two columns in the side: 2 x 1600 mm for external subscriber cables.

The customer needs to buy a proper number of cable side terminal blocks based on the actual requirements and install the cable side terminal blocks on the MDF to connect the internal subscriber cables and external subscriber cables.2.8.2 ODF

A 12-core integrated splicing and termination tray connects optical fibers to optical communication equipment.

The 12-core integrated splicing and termination tray provides the following functions:

Secures and protects optical fibers.

Protects peeled optical fibers.

Splices optical fibers.

Distributes optical fibers.

Adjusts optical fibers.

Stores optical fibers.

Figure 2-24shows the appearance of the 12-core integrated splicing and termination tray.

Figure 2-25 Appearance of the 12-core integrated splicing and termination tray

Table 2-13lists the specifications of the 12-core integrated splicing and termination tray.

Table 2-13 Specifications of the 12-core integrated splicing and termination tray

ParameterValue

ModelGPX147-FIM1101-12

Applicable adapter typeFC, SC, and ST (default configuration: four FC adapters)

Maximum line capacity12 optical fibers

Dimensions (H x W x D)25 mm x 232 mm x 200 mm

3 Configuration

This topic provides the layouts of the F01D2000 cabinet configured with different Huawei devices and the maximum number of subscribers in each case.3.1 F01D2000 Cabinet Configured with the MA5600TThis topic provides the layout of the F01D2000 cabinet configured with the MA5600T and the maximum number of subscribers in this case.

Figure 3-1 shows the layout of the F01D2000 cabinet configured with the MA5600T.

Figure 3-26 Layout of the F01D2000 cabinet configured with the MA5600T

To balance the heat consumption between the left compartment and right compartment of the cabinet, it is recommended that the transmission device be installed under the MA5600T service shelf that has relatively low power consumption.

When the F01D2000 cabinet is configured with the MA5600T, you can change the number of broadband subscribers (ADSL2+/VDSL2 subscribers) and narrowband subscribers (POTS subscribers) according to the actual requirements. Table 3-1, lists the maximum number of subscribers supported by the F01D2000 cabinet configured with the MA5600T.

Table 3-14 Maximum number of subscribers supported by the F01D2000 cabinet configured with the MA5600TConfiguration of the Service ShelfMaximum Number of Subscribers

2 MA5600T 1536 (POTS + ADSL2+) 1024 POTS + 1024 ADSL2+/VDSL2 1792 ADSL2+/VDSL2 2048 POTS

For details of the service shelf listed in Table 3-1, see "Introduction to Shelves" in the MA5600T Hardware Description.3.2 F01D2000 Cabinet Configured with the UA5000

This topic provides the layout of the F01D2000 cabinet configured with the UA5000 and the maximum number of subscribers in this case.

Figure 3-2 shows the layout of the F01D2000 cabinet configured with the UA5000.

Figure 3-27 Layout of the F01D2000 cabinet configured with the UA5000

When the F01D2000 cabinet is configured with the UA5000, you can change the number of broadband subscribers (ADSL2+ subscribers) and narrowband subscribers (POTS subscribers) according to the actual requirements. Table 3-2 lists the maximum number of subscribers supported by the F01D2000 cabinet configured with the UA5000.

Table 3-15 Maximum number of subscribers supported by the F01D2000 cabinet configured with the UA5000

Configuration of the Service ShelfMaximum Number of Subscribers

2 HABDs +1 HABF 1312 (POTS + ADSL2+) 1920 POTS + 352 ADSL2+ 2624 POTS

For details of the service shelf listed in able 3-2, see "Introduction to Shelves" in the UA5000 Hardware Description.4 System Specifications

4.1 Dimensions

This topic provides the dimensions of the F01D2000 cabinet and its main compartments.

Table 4-1 lists the dimensions of devices.

Table 4-16 Dimensions of devices

ItemDimensions (W x D x H)

F01D2000 cabinet1750 mm x 800 mm x 1850 mm

Device compartment1398 mm x 635 mm x 1360 mm

Available space inside the device compartmentConfigured with the MA5600T: Width: 21 inches (ETSI) Depth: 560 mm

Height: 2 x 1200 mmConfigured with the UA5000:

Width: 19 inches (IEC) Depth: 560 mm

Height: 2 x 27 U

Battery compartment1398 mm x 710 mm x 386 mm

Available space inside the battery compartment1217 mm x 680 mm x 345 mm

In Table 4-1, the dimensions of the cabinet exclude the dimensions of the mounting bracket. 1 U = 44.45 mm and 1 inch = 25.4 mm.

4.2 Weight

This topic provides the maximum weight of a fully-loaded F01D2000 cabinet and the weight of the battery.

Table 4-2 lists the weight of devices.

Table 4-17 Weight of devices

ItemSpecification

Fully-loaded cabinet (excluding batteries, maximum weight)650 kg

150 AH batteries (two groups)50 kg x 8 = 400 kg

4.3 Power Consumption

This topic provides the power consumption of the main components in the cabinet.

Table 4-3 lists the power consumption of devices.

Table 4-18 Power consumption of devices

ItemSpecification

Heat exchanger (maximum power consumption, including the external-cycle and internal-cycle fans)34 W x 8 = 272 W

5 Environmental Requirements

This topic describes the environmental requirements for the storage, transportation, and running of the cabinet.

Table 5-1 lists the environmental requirements for the storage, transportation, and running of the cabinet.

Table 5-19 Environmental requirements for the storage, transportation, and running of the cabinet

EnvironmentItemValue

StorageTemperature45C to +70C

Solar radiation intensity 1120 W/m2

Relative humidity8% to 100%

Air pressure70 kPa to 106 kPa

TransportationTemperature40C to +70C

Solar radiation intensity 1120 W/m2

Relative humidity (without drastic variation in temperature)95% (+45C)

Relative humidity (with drastic variation in temperature: air/air)95% (40C to +30C)

Air pressure 70 kPa

RunningTemperature15C to +45C (with solar radiation)

15C to +50C (without solar radiation)

Solar radiation intensity 1120 W/m2

Relative humidity8% to 100%

Air pressure70 kPa to 106 kPa

6 Standards Compliance

This topic provides the standards that the cabinet complies with in terms of environment, structure, power supply, and lightning protection.

Table 6-1 lists the standards that the cabinet complies with.

Table 6-20 Standards that the cabinet complies with

ItemCompliant StandardLevel

Environment

ETSI 300 019-1-4: Environmental conditions and environmental test for telecommunications

equipment; Part 1-4: Classification of

environmental conditions; Stationary use at nonweather protected locationsClass 4.1 requirement

can meet all ETSI

countries

environmental

requirement

ETSI 300 019-1-2: Environmental conditions and environmental test for telecommunications

equipment; Part 1-2: Classification of

environmental conditions; TransportationClass 2.3 Public

transportation

ETSI 300 019-1-1: Environmental conditions and environmental tests for telecommunications

equipment; Part 2-1: Classification of

environmental conditions; StorageClass 1.3 E nonweather

protected

storage locations

extended

Lightning

protection&

EMCETSI EN 300 386: Electromagnetic compatibility

and Radio spectrum Matters (ERM);

Telecommunication network equipment;

ElectroMagnetic Compatibility (EMC)

requirementsnon-telecom central

equipments

EN 55022: Information technology equipment Radio disturbance characteristics Limits and methods of measurementClass A

EN 55024:Information technology equipment Immunity characteristics Limits and methods of measurement-

K.45: Resistibility of telecommunication

equipment installed in the access and trunk

networks to over-voltages and over-currents-

IEC 61643: Performance requirement for surge

protective device connected to low-voltage

distribution systems of telecommunication

stations/sites-

Safety IEC/EN60950-1: Information technology

equipment-Safety-Part 1: General

requirements

IEC/EN60950-22: Information technology

equipment-Safety-Part 22: Equipment to be installed outdoors-

ProtectionIEC 60529: Degrees of protection provided by enclosures (IP Code)IP55

Structure IEC 60297-1: Panels and racks IEC 60297-3 subracks and associated plug-in units IEC 60297-2 Cabinets and Pitches of racks structure

IEC 60297-2: Cabinets and Pitches of racks structure-

GroundingK.35: Bonding configurations and earthing at remote electronic sites-

A Acronyms and Abbreviations

A

ACAlternating Current

ADSLAsymmetrical Digital Subscriber Line

D

DCDirect Current

E

EMCElectromagnetic Compatibility

EMIElectromagnetic Interference

EMSElectromagnetic Shield

EMUEnvironment Monitor Unit

ENEnd Node

ETSEuropean Telecommunication Standards

ETSIEuropean Telecommunications Standards Institute

I

IDCInternet Data Center

IECInternational Electrotechnical Commission

IEEEInstitute of Electrical and Electronics Engineers

IPInternet Protocol

ISDNIntegrated Services Digital Network

ITU-TInternational Telecommunication Union - Telecommunication Standardization Sector

M

MDFMain Distribution Frame

O

ODFOptical Distribution Frame

P

POTSPlain Old Telephone Service

PSTNPublic Switched Telephone Network

V

VDSL2Very high speed digital subscriber line

iiHuawei Proprietary and Confidential Copyright Huawei Technologies Co., LtdIssue 05 (2013-08-31)