lndustrial Charger(DC UPS)

12-pulse uXcelPremium® Battery Charger

The EverExceed uXcelPremium® industrial battery charger is the flagship charger of EverExceed Industrial Power solutions. It integrates proven design topology with the latest advanced digital control technology to control the 12-pulse thyristor bridge rectifier and provide the most reliable and trouble-free performances in any electrical and industrial environments. EverExceed uXcel® range rectifier chargers can continuously protect your critical DC power industrial equipments and operations from the damage of power failures and interruptions, with its high reliability and superior performance.


  • lead time:

    Normally 4~6 weeks
  • brand:

    EverExceed
  • Nominal DC voltage(Output):

    24/48/110/125/220/240/400V
  • Nominal DC current(output):

    10-1500A
  • Input AC voltage:

    Single phase 1×230V(220,240)/Three phase 3×400V(380,415)other input voltage can be customized
  • Battery type:

    Lead acid batteries, nickle cadmium batteries, lithium batteries
  • Communication:

    RS232/RS485 Modbus, TCP/IP Ethernet (optional)
  • OEM/ODM Service:

    Yes, customized service available
  • Certificates:

    CE, EN61000, IEC60146
  • Features
  • TECHNICAL DATA
  • SUCCESSFUL CASES
  • Download
  • Factory
  • Video
  • FAQ





EverExceed | A global leading manufacturer of customized industrial battery charger;


Comprehensive Industrial Chargers for Diversified DC Power Solution


We can customize More flexible, More reliable, More affordable industrial battery chargers for lead acid batteries, nickel cadmium batteries and lithium batteries.






Technical features



 

Large LCD display

Leading Technology

                      High Reliability and High MTBF 
User friendly operation with large LCD display, optional touch screen with the choices of 8 languages ensure easy maintenance and operation. Smart communication and remote monitoring.
The embedded micro-computer controller processes signals 10 times faster than standard analog methods.
Fully automatic battery management with "four remote"
functions meeting requirements of untended duty control.




Isolation transformer

Flexible maintenance and Reduced MTTR

                           Long design life up to 20+years
Filter more than 3 harmonics in the power grid interference to the system equipment, while strengthening the operation security of the system.

The design make it easy for front-access to all vital modules modules of the charger

Versatile constant voltage and constant current charging modes

Smart communication and Remote Monitoring through isolated RS232, RS485, Ethernet. Full data logging.


 System design life up to 20+ years in continuous operation under the condition of appropriate maintenance.


Flexibly customized
Ruggedized solutions
Complete power protection solutions

Power solutions to perfectly meet the specific requirements of customer’s industrial applications.

To withstand harsh environments,extreme temperatures, humidity, dust and vibrations etc. Up to IP55 protection.
Including switchgear,DC distribution, monitoring suite.





Application:


The EverExceed uXcel Premium Rectifier Charger range suits all DC applications requiring a large battery back-up:

Power transmission and distribution; Continuous process industries; Oil and Gas and petrochemical industries; Transportation (rail, metro, tramway)

                                                                                                                                                 


                


Our partners


    

                                                                                                                                                                                                          






INPUT
AC voltage
3×400V(380,415)
Three phase
Input voltage tolerance
±10%
Input wiring 
3 Phase 3 Wirse or 3 Phase 4 Wires
Input frequecny 
50Hz(60Hz)
Input frequecny tolerance
±5%
Input protection
Thermic Magnetic Overcurrent protection via MCCB
Input power factor
>0.9
Input THDi
10%~15%




OPTIONS
Rectifier
Other input voltage
Blocking diode
Surge and Lightning protections
Voltage ripple filter
Battery circuit protection box
Bettery
Battery reversed polarity detection
Battery low-voltage disconnection contactor (LVD)
Battery room temperature sensor
Battery cabinet / rack
Battery monitoring system
Parallel configurations
System
Dropping diodes/DC-DC converter
Earth fault monitoring
Internal cabinet lighting
Anti-condensation heater
Output breaker
Front-panel analog meters/digtal meters
DC distribution
Temparature compensation
AC high and AC low alarm/protection
DC high and DC low alarm/protection
AC fault alarm
LED test function
Other frame colour
Mechanical
Up to IP55 external
Plate thickness
Gaivanized sheet
Front access maintenance
Top cable entey
Specified cabinet identification(tag,nameplate)
Communication
Modbus TCP/IP
DNP3.0 protocol
Volt-free contacts
Transducers 4-20mA











OUTPUT

Nominal DC voltage
24/48/110/125/220/240/400
Output voltage range
0-1.5×nominal voltage (adjustable)
Nominal DC current
10-1500A
Output current range
0-1.1×nominal current(adjustable)
Voltage stability
±1% in float mode, input within tolerance
Voltage ripple
1% RMS(with battery connected)
Current Limitation
Battery current limitation can be adjusted
Filtering
L-C Filter
Output Protection
Short Circuit, NH Fuse and Overvoltage protection



BATTERY

Type
Lead acid or nickel cadmium,
vented or recombination and Lithium battery




COMMUNICATION
Communication
RS232, Modbus RTU



GENERAL DATA
Operating temperature
0 to 50 °C
Storage temperature
-20 to +70 °C
Relative humidity
< 95 % non condensing
Operating altitude
1000 m max without derating
Cooling
Fan cooling or Natural cooling according to rating
Efficiency
90% according to rating
External protection
IP20
Noise
(at 1m in front of the unit)
55 – 65 dB according to rating
Cabinet color
RAL 7035
Dimensions
Varying according to ratings & options



STANDARDS
IEC60146-1-1:2009
Semiconductor converters -
Specification of basic requirements

IEC62040-1:2008+AMD1:2013
Uninterruptible power systems (UPS)
- Part 1-2: General and safety requirements
 for UPS in restricted access locations

IEC62040-2:2006
Uninterruptible power systems (UPS) – Part 2:
Electromagnetic compatibility (EMC) requirements
IEC61439-1:2011
Low voltage switchgear and controlgear assemblies -
Part 1: General rules

IEC60529:1989+

AMD1:1999

Degrees of protection provided by enclosures (IP Code)
IEC60076-11:2004
Power transformers – Part 11: Dry type transformers




European Directives
Low voltage directive: 2006/95/EC and 2014/35/EU
EMC directive: 2004/108/EC and 2014/30/EU
CE Mark









If you need to download files, you need to register as our member first ! log in / registered

  • EverExceed uXcel premium series Charger Catalog V2.0.pdf


How are “equalize”, “boost” and “fast charge” charging different?

Each of these terms describes the same function of the charger where the charger temporarily elevates the battery’s voltage above the float level. There are different uses for elevated charge voltage, as shown below:

Commonly understood meaning of the term

Equalize – Periodic “topping up” of battery capacity, and correct cell capacity differences

Boost – Can refer to “equalize,” “fast charge,” and sometimes both

Fast charge – Faster recharge of a discharged battery

 

What does “equalize” charging do, and why is it needed?

All batteries, even those assembled into unitized blocks, are all built of individual battery cells connected in series to obtain the required DC voltage. Like all manufactured products, there is variation between the capacities of each cell in the battery. As the battery ages this variation increases. Since the battery is a chain of cells that is only as strong as the weakest link some scheme is required to ensure that all cells stay at peak capacity.

A scheme called “equalizing” is commonly used in both lead-acid and nickel cadmium batteries. Equalizing temporarily elevates the charging voltage of the entire battery string above the normal “float” voltage. The elevated charging voltage allows all cells, including the weak ones, to accept more current from the charger than they would at float voltage. A consequence of the elevated equalize voltage is that all cells in the battery are overcharged. This is acceptable for short periods provided the battery has sufficient electrolyte.

Overcharging greatly increases the rate at which the water in battery electrolyte is electrolyzed into oxygen and hydrogen gas. Since low electrolyte level will permanently damage the battery it is important to limit when, and for how long, the battery is charged at the equalize voltage.

 

What is “fast charging”?

Batteries, like all electrical conductors, suffer from resistance in their conductive metals. Ohm’s law says that resistance increases in proportion to current flow through the battery (or any other imperfect conductor). This means that the more amperes of charge we attempt to apply to the battery the more will be lost due to internal heating.

“Fast charging” temporarily increases the charger’s output voltage to compensate for the battery’s internal resistance. This allows the battery to continue accepting maximum current from the charger for a longer time – instead of reducing its charge acceptance early as it would if charged at normal float voltage.

 

What is the correct charging voltage?

The value of both float and equalize/boost/high rate voltages is determined by the battery manufacturer, and depends on the chemistry and construction of the battery. Deviating from the recommended values, except where needed to adjust for temperature, will under or overcharge the battery – both of which will reduce the battery’s life and performance.

 

How do you know when the charger should operate in float or equalize mode?

Regardless of the intended purpose of increasing the charger’s voltage there needs to be a way to start and end charging at voltage higher than float.

The most common control methods are shown below.

Control method: Manual switch

· Advantage: Simple, cheap

· Disadvantage: High risk of forgetting unit is operating at elevated charging voltage

· Comment: Not recommended

Control method: Manually initiated timer

· Advantage: Simple, and automatically terminates charge

· Disadvantage: Requires user intervention

· Comment: No way to know when battery would benefit from elevated voltage charge. No way to know what the right time setting is

Control method: Automatically initiated timer

· Advantage: Suited for remote sites where users do not visit frequently

· Disadvantage: Time must be pre-programmed.

· Comment: The correct pre-programmed time cannot be predicted since depth of discharge is likely to vary

Control method: Automatic initiation with battery-determined end

· Advantage: Termination of elevated charge voltage is based on battery needs, not a program

· Disadvantage: High continuous current can trick system into staying at elevated voltage too long

When is battery temperature compensation needed? How important is it?

It is well known that all storage batteries – vented or VRLA lead acid or nickel cadmium – require different charging voltage at different temperatures. When cold, the battery requires higher than normal charge voltage in order to deliver maximum possible performance. When warm, charging voltage must be reduced to prevent overcharging and consequent loss of electrolyte.

When the battery is located in a well-controlled environment temperature compensation adds little value. In contrast, temperature compensation is absolutely essential when batteries are located in outdoor cabinets or other areas subject to extremes of temperature. These facts illustrate the value of temperature compensation:

· When a battery that is 90 degrees F in temperature is charged at the correct voltage for 50 degrees F it will be boiled dry in three months.

· When a battery 20 degrees F is charged at the correct voltage for 50 degrees F it will fail to charge – and thus fail to deliver its specified performance.

Using a charger equipped with automatic temperature compensation can prevent both of these problems.

 

 

I am thinking about disabling the temperature compensation feature because the charger and battery are not in the same location, and I am worried about overcharging the battery.

Temperature compensation should only be disabled if the batteries can always be guaranteed to be at room temperature (25C, or 77F).

Remote temperature sensing (RTS) is the correct way to provide temperature compensated charging where battery and charger are in different ambients. It is always preferable to both non-compensated and locally compensated charging. Using a sensor attached directly to the battery eliminates all variables of charger temperature and different room temperatures. There is no downside to using RTS. Compared with either disabled, or in-charger temperature compensation, RTS will absolutely, positively increase battery performance to the maximum possible. Regardless of conditions, RTS causes the charger to deliver the exact voltage needed by the battery.

EVEREXCEED made a provision to disable temperature compensation mainly for customer acceptance testing – to demonstrate that the voltage setting agrees with the actual output voltage. This can be difficult to determine in a temperature compensated charger.

EVEREXCEED designed its RTS system so that if the remote sensor is damage or becomes disconnected the charger reverts to non-compensated operation. This change is indicated on the charger front panel.

 

Why do nickel cadmium batteries need to be “boost” charged?

Nickel cadmium batteries offer the highest reliability of any battery, and are more resistant to mechanical and environmental abuse than lead-acid batteries. They do, however, need special charging in order to deliver maximum performance.

If a nickel cadmium battery is charged only at the float rate it will typically deliver only about 70% of its rated capacity. This is a more serious problem for high rate applications, such as engine starting, where even small reductions in capacity have a significant impact on performance.

The most effective way to insure full capacity is available in a nickel cadmium battery is to periodically charge it at an elevated voltage. This can be initiated either manually or automatically, depending on the charger. Automatic equalization is easier to use, and reduces the risk of forgetting to switch back to float voltage.

 

 

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