Sign In | Join Free | My splicd.com
splicd.com
TIANJIN ESTEL ELECTRONIC SCIENCE AND TECHNOLOGY CO., LTD
TIANJIN ESTEL ELECTRONIC SCIENCE AND TECHNOLOGY CO., LTD
Home > Telecom Power System (Rack Mount UPS) >

GPE48350E,Rectifier,DC48V,350A,Modular Rectifier System,With Monitoring Module,Software

TIANJIN ESTEL ELECTRONIC SCIENCE AND TECHNOLOGY CO., LTD
TIANJIN ESTEL ELECTRONIC SCIENCE AND TECHNOLOGY CO., LTD
Country/Region: China
Tel: 86--13752765943
Contact Person:
Ms Fiona Liang

GPE48350E,Rectifier,DC48V,350A,Modular Rectifier System,With Monitoring Module,Software

Place of Origin : China
Brand Name : ESTEL
Certification : ISO9001:2008
Model Number : GPE48350E
MOQ : 1 Set
Packaging Details : Wooden Case
Delivery Time : 15~20 Days
Payment Terms : T/T,L/C
Supply Ability : 10000 Sets
Contact Now

Power System of High Performance and High Reliability

GPE48350E Embedded Power System

Input:90~290Vac; Output: -42~-58Vdc;

The GPE48350E embedded power system consists of the power distribution frame, monitoring module and rectifier module, with functions of AC lightning proof and DC power distribution. The monitoring module supports outside signal input, communication transformation, AC/DC detection and contactor control. The whole system is of high reliability and performance, and can be operated through PC software.
Application
■ Small scale program controlled exchanger
■ Access network
■ Transmission equipment
■ Mobile communication
■ Satellite communication ground station
■ Microwave communication
Main features
Adoption of active power factor compensation technology with factor >0.98
Wide operating range of AC input voltage: 90~290Vac
Operating temperature range: -25°C~+55°C
Zero current/voltage switching tech with high efficiency ≥91%
Lifecycle of battery prolonged by perfect battery management, including electrical charge/discharge management, battery temperature compensation, battery capacity test, reversal connection proof protection, low voltage protection etc.
Hot-swappable
Input over/under voltage protection
Output over voltage protection
Output over current protection
Output short circuit protection
Auto current sharing, parallel output
Embedded mounting
1. General Introduction
1.1 System Configuration
The system consists of power distribution unit, rectifier module (from 1 set, up to 7 sets) and 1 monitoring module. The configuration is optional, as following table:

Configuration

Rectifier Module

Monitoring Module

Power Distribution

Remark

Standard

GPR4850D

GPM48P (With Ethernet Port)

AC power distribution: 3-phase, 5-wire input, 3-pole AC breaker @ general line (63A/3P) and guide rail type terminal;

DC power distribution: battery MCB 125A/2P;

LVLD: 63A×4 32A×3 16A×4 (MCB capacity optional)

LVBD: 16A×6 (MCB capacity optional)

For details, please refer to the specifications of modules.

1.2 Operating Principle
AC power is first input AC-INPUT MCB and then feed into the rectifier module after lightning proof and filtering. AC-INPUT acts as protection to over load and short circuit to AC power. The user’s battery is connected to the DC output side through MCB BAT and KM2, and the circuit breaker provides disconnection control, over-load and short-circuit protection to the battery.
Under normal conditions, every parameter of rectifier modules and power distribution unit are all under control of the monitoring module, operating according to the pre-set parameter or user’s commands. If AC mains faults, the battery will power to the system. With the battery discharge, the terminal voltage of the battery starts to descend. When battery voltage is under -47V±0.5V, the monitoring module sends DC under voltage alarm signal and when battery voltage is under -46.0V±0.5V (adjustable), the KM1cuts off non-priority loads and retaining power to priority loads. If battery voltage drops to -43.0V±0.5V (adjustable), the KM2 will cut off output of priority loads and then the power system will stop working. If the external AC mains recovers, the system will normally work again. (All above monitoring data are system default values and can be reset by user).
Except for battery over-discharge protection, battery or load over-temperature protection is prohibitive under default, users can send command to activate or inactivate according to the demanding.

2. System Properties


Environment

Item

Min.

Typical

Max.

Unit

Remark

Operating temperature

-25


55

°C

When ≥55°C, decreased power output

Storage temperature

-40


80

°C


Humidity

10


90

%

Relative humidity without condensing

Atmospheric pressure

70


106

KPa


Altitude

0


3000

m


Cooling

Forced cooling with fan


Input

Item

Min.

Typical

Max.

Unit

Remark

Input voltage range

90

220

290

Vac


Input frequency

45

50

65

Hz


Max. Input current



40

A


Power factor

0.98




Rated load

Input over voltage protection point

300



Vac

Automatically recoverable

Input over voltage recovery point

290



Vac

Return difference ≥5V

Input under voltage protection point



85

Vac

Automatically recoverable

Input under voltage recovery point



90

Vac

Return difference ≥5V

Input over current protection





MCB in AC Input supply protection


Output (Table 1)

Item

Min.

Typical

Max.

Unit

Remark

Output voltage

42

53.5

58

Vdc

Adjustable by monitor, tested in no load

Output power


18725


W

18725W output when input voltage is 176~290VAC (rated power includes battery charging power plus load power)


9350


W

90~175VAC input

Output over voltage protection point

58.5


60.5

Vdc

Lock up

Output current limiting protection point





Output current limiting protection

Output short circuit protection





Long-term short circuit protection, automatically recoverable

Over temperature protection





Automatically recoverable in ambient temperature lower than 65°C

Battery power-down protection





Battery power-down protection

Battery polarities reversal connection protection





No damage on battery and power system

Voltage regulation accuracy



±1

%



Output (Table 2)

Item

Min.

Typical

Max.

Unit

Remark

Temperature coefficient



±0.2

‰/℃


Current sharing unbalance



±5

%

Within 50~100% load range

Start-up/shut-down overshoot range



±5

%

Any module is removed when operating, (the load current should be less than total output current of working rectifier modules), the system output voltage fluctuates

Dynamic response recovery time



200

uS

25%~50%~25% load variation

50%~75%~50% load variation

Dynamic response overshoot



±5

%

Rated output voltage, rated load current

Efficiency

91

92


%

220Vac input, rated output voltage, rated load current

83



%

110Vac input, rated output voltage, rated load current

Start-up time

3


8

S

pre-current limiting is fitted with start-up output between rated start up input voltage and rated output voltage established period

Pressure drop



500

mV


Peak-peak noise voltage



200

mV


Psophometrically weighted noise voltage



2

mV



Other Parameters

Item

Requirement

Acoustic noise

≤55dB(A)

Smelling

any abnormal and poisonous smelling is not allowed

Components

rated temperature of the electrolytic capacitor ≥105℃

Hot swappable

the rectifier module meets the hot-swappable requirement

Mixed insertion

rectifier modules can be mixed insertion

Ineffective separation

rectifier module can separate with system when it is ineffective

Cooling

forced cooling by fan mounted on rectifier, face in, back out. The fan is mounted on rectifier front panel; can be disassembled. Fans include temperature control speed adjusting function.


Insulation Rating

Parameters

Min.

Typical

Max.

Unit

Remark

Input-chassis


3535


Vdc


Input-output


3535


Vdc


Output-chassis


1414


Vdc


Insulating Resistance

In normal atmospheric pressure, when relative humidity is 90%, testing voltage is 500VDC, the insulating resistance of input-output, input-grounding, output-grounding are all ≥10MΩ

3. Mechanical Properties


Mechanical specifications

Dimensions (Overall)

as the following diagram

Weight(kg)(Overall)

≤41.5kg (Inclusive of module)

≤23kg (Frame + Distribution, exclusive of module)

4. Installation Instruction
4.1 Installation Dimension
4.2 Installation
First insert the embedded power system to the specified location till the system is well fixed. Keep the 8 fixing holes on the bracket in line with those on the cabinet and then screw up 8pcs M6 cross rounded head screws. Finally complete the installation after tightening the screw.
Note: The cabinet shall be provided by the use
5. Electric Connection
5.1 Electrical Connection
Chassis connects with external electric through system interface board. As shown in figure below:
MCB descriptions:
(1)3-phase AC input MCB and rail type connector; aa
(2)AC SPD;
(3)LOAD (-): system load- (17 MCBs);
(4)BAT (-): battery- (MCB);
(5)LOAD (+): system load+ (copper bar at front of system),
BAT (+): battery+ (copper bar at front of system)
5.2 Process of Electric Connections
Electric connection between main cabinet and external equipment includes: connection of AC input line, connection of DC output and battery, connection of communication cables, connection of GND cables. The main requirements of electrical connection are safety and reliability. The following are detailed description.
(1) AC input cable connections
The connectors for AC input cable are 3PIN MCB and rail type connector at the front panel of system. The AC cable can be directly crimped to MCB input terminal.
(2) Connection of DC load cables
The load connection connectors of power system are 17 MCBs, locating on the front panel of the
system. The cable can be directly inserted to the MCB.
a. The specifications and model of the cables shall be according to the engineering design requirements.
b. Connect one end of positive connection cable to the positive copper bar at the front of system;
c. Connect one end of negative connection cable to the MCB at the front of system;
(3) Connection of DC battery cables
Connection terminal of system and battery is MCB, indicated as BAT(-). The cable can be directly inserted to the MCB and tighten the screws. The detailed process of battery connection is as following:
a. Prepare positive connection cables and negative connection cables(including terminals and polarity identifications ready).
b. Fasten up the battery connection cable
c. Connect one end of positive connection cable to the positive copper bar at the front of system;
d. Connect one end of negative connection cable to the MCB at the front of system;
(4) Recommended cable specifications

Item

Sign

AWG/ Min. section(#/mm2)

AWG / Max. section(#/mm2)

Temp rating(℃)

Withstand voltage

(V)

Output load wire

Load3, Load3-

Load4, Load4-

6#/10

4#/16

105

600

Input GND wire

PEin

9#/6

6#/10

105

600

Mains neutral wire

Nin

6#/10

4#/16

105

600

Mains live wire

Lin

6#/10

4#/16

105

600

Battery +

(BAT +)

2#/35

1#/50

105

600

Battery -

(BAT -)

2#/35

1#/50

105

600

(5) Connection of GND cables
PE connection: The GND section is near the left bracket of system. Connect the chassis GND point of system main cabinet and external earth with cable of 10mm2 above.
(6) Connection of communication cables
LAN and RS-485, communication interface of GPE48350E, locates at the monitoring module, function for communication with the host.
LAN Ethernet communication code: Directly connect to the PC with cross wires or with common wire through a router.
RS-485 communication mode:
a. Connect one end of communication cable to RS-485 interface on monitoring module of GPE48350E.
b. Pin2 of communication cable linked to RS-485+ at RS-485 converter (RS485 to RS232) , Pin3 linked
to RS485- at RS-485 converter, connect COM interface of PC through RS232 port on the converter.
5.3 Instruction of Interfaces on the Back Panel
The rectifier modules and monitor module are connected on back panel of system GPE48350E, through which DC output goes to current collection bar; control signals of the monitor modules drives the contactor; SPD within distribution frame transfers signals to monitor; monitoring module and rectifier module communicate with each other; signals of current sharing goes into monitoring module.

Draft of Back Panel Design

Interfaces list is as following:

Contactor NO.

Terminal type

I/O

Signal function

Other panel, contact and signal connected

Remark

J2

AC voltage (A phase) detection

I

AC voltage (A phase) signal input

AC A phase voltage

None

J3

AC SPD alarm signal

I

AC PSD alarm signal input

AC PSD connection alarm signal

None

J4

Battery conactor control signal

0

Battery contactor control signal output

Connection between cable and contactor coil

Installation requirement marked on coil terminal of sample signal

J5

Battery current sharing interface

I

Battery current sharing sample signal input

Cable connection current sharing sample signal

Cable of sample signal includes positive and negtive ones

J6

Load contactor control signal interface

O

Load contactor control signal output

Cable connection contactor control coil

Installation requirement marked on coil terminal of sample signal

J7

Load current sharing signal interface

I

Load current sharing sample signal input

Sample signal of cable connection current sharer

Cable of sample signal includes positive and negative ones

CON8

Load and battery output signal detection terminal

I

Load and battery signal detection input

None

Attention:

D18-D19 battery

D1-D17 load

CON1, CON2, CON3, CON4, CON5, CON6, CON15

Rectifier module interface

I/O

Rectifier signal input and output, rectifier power output

None

None

CON7

PMU 96PIN connector

I/O

Monitor signal input and output

Terminal connects with PMU

None

6. GPE48350E Distribution Frame

7. Instruction of GPM48P

7.1 Monitor Module Function

Function

Remark

Remote monitoring of the host

The host can conduct enquiries, settings and control upon the monitoring and realize the remote message, remote sense and remote control.

Rectifier management by monitoring module

To send controlling orders to or get data from the rectifier module via RS485 communication.

Battery management

To manage the low voltage, power down, equalizing/float charge, temperature compensation and capacity testing of the battery.

Output management by monitoring module

To inspect and control the system

LED indicator

Signal indication

6 dry contacts output

Dry contact setting

COM port signal

RS485,LAN


China Customized Inflatable Bumper Ball Game Bubble Adult Grass CE supplier

GPE48350E,Rectifier,DC48V,350A,Modular Rectifier System,With Monitoring Module,Software Images

Inquiry Cart 0
Send your message to this supplier
 
From:
Enter your email please.
To: TIANJIN ESTEL ELECTRONIC SCIENCE AND TECHNOLOGY CO., LTD
Subject:
Message:
Characters Remaining: (0/3000)
 
Inquiry Cart 0