Rc-plus Plus power 80 User manual

WARNINGS AND SAFETY NOTES

These warnings and safety notes are particularly important. Please follow the instructions

for maximum safety; otherwise the charger and the battery can be damaged or at worst

it can cause a ﬁre. Also read the chapter before you begin.

• Never leave the charger unsupervised when it is connected to its power supply.

If any malfunction is found, TERMINATE THE PROCESS IMMEDIATELY and refer to

the operation manual.

• Keep the charger well away from dust, damp, rain, heat, direct sunshine and vibra-

tion. Never drop it.

• The allowable DC input voltage is 11-18V DC.

• The allowable AC input voltage is 110V or 220V AC.

• This charger and the battery should be put on a heat-resistant, non-ﬂammable and

non-conductive surface.

Never place them on a car seat, carpet or similar surface. Keep all ﬂammable volatile

materials away from the operating area.

• Make sure you know the speciﬁcations of the battery to be charged or discharged to

ensure it meets the requirements of this charger. If the program is set up incorrectly,

the battery and charger may be damaged.

Fire or explosion can occur due to overcharging. This warranty is not valid for any

damage or subsequent damage arising as a result of a misuse or failure to observe

the procedures outlined in this manual.

• To avoid short circuiting between the charge lead, always connect the charge cable to

the charger ﬁrst, then connect the battery. Reverse the sequence when disconnecting.

• Never attempt to charge or discharge the following types of batteries:

• A battery pack which consists of different types of cells

(including different manufacturers)

• A battery that is already fully charged or just slightly discharged

• Non-rechargeable batteries (pose an explosion hazard)

• A faulty or damaged battery

• A battery ﬁtted with an integral charge circuit or a protection circuit.

• Batteries installed in a device or which are electrically linked to other components

• Batteries that are not expressly stated by the manufacturer to be suitable for the

currents the charger delivers during the charge process

Please bear in mind the following points before commencing charging

• Did you select the appropriate program suitable for the type of battery you are charging?

• Did you set up appropriate current for charging or discharging?

WARNINGS AND SAFETY NOTES

properly is that the charge lead should be of adequate conductor cross-section, and high

quality connectors which are normally gold-plated should be ﬁtted to both ends.

Always refer to the manual by the battery manufacturer pertaining to charging methods.

Operate according to their recommended charging current and charging time. Lithium

batteries, in particular, should be charged strictly according to the manufacturer’s

instruction.

Close attention should be paid to the connection of lithium batteries.

Do not attempt to disassemble the battery pack arbitrarily. Please get highlighted that

lithium battery packs can be wired in parallel and in series. In the parallel connection, the

battery’s capacity is calculated by multiplying single the battery’s capacity by the number

of cells, bearing in mind that total voltage stays the same. If the voltage is imbalanced, it

may cause a ﬁre or explosion. Lithium batteries are recommended to charge in series.

Discharging

The main purpose of discharging is to clean the residual capacity of the battery, or to

reduce the battery’ voltage to a deﬁned level. The same attention should be paid to the

discharging process as the charging process. The ﬁnal discharge voltage should be set

up correctly to avoid deep discharging. Lithium batteries cannot be discharged to lower

than the minimum voltage, or it will cause a rapid loss of capacity or a total failure. Gen-

erally, lithium batteries don’t need to be discharged. Please pay attention to the minimum

voltage of lithium batteries to protect them.

Some rechargeable batteries have a memory effect. If they are partly used and

recharged before the whole charge is accomplished, they remember this and will only

use that part of their capacity next time. This is a ‘memory effect’ It is said that NiMH and

NiCD batteries are suffering from memory effect. NiCD has more ‘memory effect’ than

NiMH.

Lithium batteries are recommended to be discharged partially rather than fully. Frequent

full discharging should be avoided if possible. Instead, charge the battery more often

or use a battery of larger capacity. Full capacity cannot be reached until it has been

subjected to 10 or more charge cycles. The cyclic process of charge and discharge will

optimize the capacity of battery pack.

WARNINGS AND SAFETY NOTES

• Have you checked the battery voltage? Lithium battery packs can be wired in parallel

and in series, i.e. a 2-cell pack can be 3.7V (in parallel) or 7.4V (in series).

• Have you checked that all connections are ﬁrm and secure? Make sure there are no

intermittent contacts at any point in the circuit.

Standard Battery Parameters

Be very careful to choose the correct voltage for different types of battery otherwise you

may cause damage to the batteries. Incorrect settings could cause the cells to ﬁre or

explode.

Charging

During charge process, a speciﬁc quantity of electrical energy is fed into the battery.

The charge quantity is calculated by multiplying charge current by charge time. The

maximum permissible charge current varies depending on the battery type or its perfor-

mance, and can be found in the information by the battery manufacturer. Only batteries

that are expressly stated to be capable of quick-charge are allowed to be charged at

rates higher than the standard charge current.

Connect the battery to the terminal of the charger: red is positive and black is negative.

Due to the difference between resistance of cable and connector, the charger can not

detect resistance of the battery pack. The essential requirement for the charger to work

Battery

Type

Fast Charge

Rate

Nominal Cell

Voltage

Max. Charge

Voltage Cell

Min. discharge

Voltage Cell

Storage

Voltage Cell

Ni-Cd 1 - 2C 1.2V 1.5V 0.85V

Ni-MH 1 - 2C 1.2V 1.5V 0.85V

Li-Ion <= 1C 3.6V 4.1V 2.5V 3.7V

Li-Po <= 1C 3.7V 4.2V 3.0V 3.8V

Li-Po HV <= 1C 3.8V 4.35V 3.3V 3.9V

Li-Fe <= 4C 3.3V 3.6V 2.0V 3.3V

PB <= 0.4C 2V 2.46V 1.75V

SPECIFICATIONS

Operating voltage range: 10.0~18.0Volt

Circuit power: max.80W for charging

max.5W for discharging

Charge current range: 0.1~7.0A

Discharge current range: 0.1~1.0A

Current drain for balancing Li-po: 300mAh/cell

NiCd/ NiMH battery cell count: 1~15cells

Lithium battery cell count: 1~6Series

Pb battery voltage: 2 to 20V

Weight: 400g

Dimension: 136×127×56mm

Multiple Charging Leads Included

ACCESSORIES

Deans charge cable

Conversion lead Deans > Bec

Conversion lead Deans > Receiver plug

Conversion lead Deans > Alligator clips

AC Input cable

CHARGER LAYOUT

Input Power Cable

AC100-240V

Charging lead

connector

4mm banana female

BATT TYPE/STOP

To select main program

To stop operation

DEC/INC

To select sub program

To alter the value

START/ENTER

To resume or start the

operation

Individual cell

connector port

Input Power Cable

DC11-18V

3-pin port for tem-

perature sensor

Optimised operating software

When charging or discharging, it has an ‘AUTO’ function that sets the feeding current

automatically. Especially for Lithium batteries, it can prevent the over-charging can lead

to an explosion by users fault. Every program in the unit is controlled with mutual links

and communication for every possible error so it introduces a maximum safety. These

can be set at users option.

Special recharge plugs-port for receiver, transmitter and igniter charger. And for

frequently used charger port such as multi purpose crocodile pin etc.

It provides most convenient balance charge port for Lithium batteries, with separated

3,4,5,6 charge port, and external reverse connector.

High-power and high-performance circuit

It employs the circuit that has maximum output power of 80W. As a result it can charge

or discharge up to 15 cells of NiCd/NiMH and 6 series of Lithium batteries with maxi-

mum current of 7.0A. Furthermore the cooling system is so efﬁcient that can hold such

a power without any trouble of running the CPU or the operating program.

Individual voltage balancer for Lithium batteries inside

It has an individual-cell-voltage balancer inside. This does not require any extra balanc-

er separately when charging Lithium batteries(Lilo/LiPO/LiFe) for cell voltage balancing.

Balance individual cells on discharge

It also can monitor and balance individual cells of the Lithium battery pack during the

discharge process. If the voltage of any one cell varies abnormally, the process will be

stopped with the error message.

Accept various types of Lithium battery

It can accept three types of Lithium batteries Lilo, LiPo and LiFe. They have different

characteristics by their chemistry. You can select any one of them that you are going

to process before the job. For their speciﬁcations, refer ‘Warnings and safety notes’

section.

Lithium battery ‘Fast’ and ‘Storage’ mode

You can charge Lithium battery for special purposes. ‘Fast’ charge reduces the charg-

ing time of Lithium battery and ‘Storage’ mode controls the ﬁnal voltage of the battery

to be suit for long time storage.

FEATURES

Maximum safety

Delta-peak sensitivity: The automatic charge termination program works on the

principle of the Delta-peak voltage detection.(NiCd/NiMH)

Auto-charge current limit: When charging NiCd or NiMH at ‘AUTO’ current mode, you

can set the upper limit of change current to avoid from high current charging. This is

very useful when charging the low impedance and small capacity NiMH battery in

‘AUTO’ mode.

Capacity limit: The changing capacity always calculated by multiple of the charging

current and time. If the charging capacity exceeds the limit the process will be termi-

nated automatically when you set the maximum value.

Temperature limit: The temperature of the battery on charging will rise by its internal

chemical reaction. If you set the limit of temperature the process will be expired forcibly

when the limit has reached.

Processing time limit: you can also restrain the maximum process time to prevent

from any possible defect.

Input power monitor: To protect the car battery using as input power from being dam-

aged the voltage of it always monitored. If it drops below the lower limit the process

will be ended automatically.

Automatic cooling fan: The electric cooling fan comes into action automatically only

when the internal temperature of the unit is raised.

Data store/load

For users convenience it can store maximum 5 data of different batteries. You can

establish the data contains program setting of the battery to charge or discharge

continually. These data can be called out at any time you need and the process can be

executed without program setting.

Cyclic charging/discharging

Perform 1 to 5 cycles of charge>

FEATURES

PROGRAM FLOW CHART

Start

INC INC INC

PROGRAM SELECT

Enter

LIXX CHARGE LIXX BALANCE

LIXX FAST CHG LIXX STORAGE

LIXX BATT

DEC DEC DEC

Batt type

stop

INC

DEC

PROGRAM SELECT

Start

Enter

NiMH CHARGE

INC INC

NiMH DISCHARGE

NiMH CYCLE

LIXX DISCHARGE

NiMH BATT

'Aut' / 'Man'

DEC DEC

Batt type

stop

PROGRAM SELECT

Start

icd

CHARGE

INC INC

Enter

icd

DISCHARGE

Nicd CYCLE

Nicd BATT

'Aut' / 'Man'

DEC DEC

Batt type

stop

PROGRAM SELECT

Start

Enter

INC

CHARGE

Pb DISCHARGE

Pb BATT

DEC

Batt type

stop

PROGRAM SELECT

Start

Enter

SAVE DATA

SAVE DAT A

Batt type

stop

PROGRAM SELECT

Start

Enter

LOAD DATA

Batt type

stop

USER SET

Start

INC

Lilo / LiPo / LiFe

INC INC

Enter

LIXX V. Type

NiMH Sensitivity

Nicd Sensitivity

PROGRAM

CHK Time

D. Peak

DEC DEC DEC

INC

DEC

INC INC INC

Capacity Cut-Off

Safety Timer

Waste Time

Temp Cut-Off

DEC DEC

CHG>DCHG

DEC

USB Enable

Batt type

INC

DEC

stop

INC

Key Beep

Input Power Low

Buzzer

DEC

Cut-Off

INC INC

Start

Test LiXX Internal

Measuring IR

1:026 050 044

mΩBattery Pack IR

Enter

Resistance

WAIT DLEASE...

4:039 042 044

mΩ

DEC DEC

231mΩ

INITIAL PARAMETER SET UP

It will be operated with the default value of the essential user settings when it is connected to a 12V

battery for the ﬁrst time. The screen displays the following information in sequence and the user can

change the value of parameter on each screen.

When you are willing to alter the parameter value in the program, press Start/Enter key to make it

blink then change the value with INC or DEC key. The value will be stored by pressing Start/Enter

key once.

The screen displays the nominal voltage of Lithium battery.

There are three kinds of Lithium battery; LiFe(3.3V),Lilo(3.6V)

or LiPo(3.7V). This is very important so you have to check the

battery carefully and set it up correctly. If it is different from

correct value the battery can explode during charge process.

It recognise the cell count of Lithium battery automatically at

the beginning of charge or discharge process to avoid from

erroneous setting by user. But deeply discharged battery can

be perceived incorrectly. To prevent the error, you can set the

time term to verify the cell count by the processor. Normally,

10 minutes are enough to perceive the cell count correctly.

For the battery of larger capacity, you may extend the time

term. But if you set the time term too long for the battery of

smaller capacity, the charge or discharge process can be

ﬁnished within the time term with the erroneous cell count.

This may cause the fatal result. If the processor recognises

the cell count incorrectly at the beginning of charge or dis-

charge process, you may extend the time. Otherwise, you

had better use with the default value.

-7-

5.Initial Parameter set up (Users' set up)

It will be operated with the default value of the essential user settings when it

is connected to a 12V batttery for the first time.The screen displays the following

information in sequence and the user can change the value of parameter on each

screen.

When you are willing to alter the parameter value in the program, press Start/

Enter key to make it blink then change the value with INC or DEC key. The value will

be stored by pressing Start/Enter key once.

The screen displays the nominal voltage of Lithium

battery. There are three kinds of Lithium battery;

LiFe(3.3V),Lilo(3.6V) or LiPo(3.7V). This is very

important so you have to check the battery carefully

and set it up correctly. If it is different from correct

value the battery can explode during charge process.

It recognise the cell count of Lithium battery

automatically at the beginning of charge or discharge

process to avoid from erroneous setting by user. But

deeply discharged battery can be perceived incorrectly.

To prevent the error, you can set the time term to verify

the cell count by the processor. Normally, 10 minutes

are enough to perceive the cell count correctly. For

the battery of larger capacity, you may extend the

time term. But if you set the time term too long for the

battery of smaller capacity, the charge or discharge

process can be ﬁnished within the time term with the

erroneous cell count. This may cause the fatal result.

If the processor recognises the cell count incorrectly at

the beginning of charge or discharge process, you may

extend the time. Otherwise, you had better use with

the default value.

This shows the trigger voltage for automatic charge termination of

NiMH and NiCd battery.The effective value ranges from 5 to 20mV per

cell .if the trigger voltage is set higher, there is a danger of overcharg-

ing the battery; if it is set lower, there is a possibility of premature ter-

mination. Please refer the technical speciﬁcation of the battery.(NiCd

default:12mV, NiMH default:7mV)

The 3-pin port at left side is a temp. Port.You can use an optional tem-

perature probe to contact the surface of battery. You can set the max-

imum temperature at which the charger allow battery to reach during

charging. Once a battery reaches this temperature during charge, the

process will be terminated to protect the battery.

The battery is on the cyclic process of charge and discharge can often

become warm after charge or discharge period. The program can in-

sert a time delay to occur after each charge and discharge process to

allow the battery adequate time to cool down before being subjected to

the next process. The value ranges from 1 to 60 minutes.

When you start a charge process, the integral safety timer automati-

cally starts running at the same time. This is programmed to prevent

overcharge the battery if it proves to be faulty, or if the termination cir-

cuit cannot detect the battery full. The value for the safety timer should

be generous enough to allow a full charge of the battery .

-8-

This shows the trigger voltage for automatic charge

termination of NiMH and NiCd battery. The effective

value ranges from 5 to 20mV per cell .if the trigger

voltage is set higher, there is a danger of overcharging

the battery; if it is set lower, there is a possibility of

premature termination. Please refer the technical

speciﬁcation of the battery.(NiCd default:12mV, NiMH

default:7mV)

The battery is on the cyclic process of charge and

discharge can often become warm after charge or

discharge period. The program can insert a time delay

to occur after each charge and discharge process to

allow the battery adequate time to cool down before

being subjected to the next process. The value ranges

from 1 to 60 minutes.

When you start a charge process, the integral safety

timer automatically starts running at the same time.

This is programmed to prevent overcharge the battery

if it proves to be faulty, or if the termination circuit

cannot detect the battery full. The value for the safety

timer should be generous enough to allow a full charge

of the battery .

Temp Cut-Off 80C

Safety Temp

The 3-pin port at left side is a temp. Port. You can use

an optional temperature probe to contact the surface of

battery. You can set the maximum temperature at

which the charger allow battery to reach during

charging. Once a battery reaches this temperature

during charge, the process will be terminated to protect

the battery.

LITHIUM BATTERY (LILO/LIPO/LIFE) PROGRAM

CHARGING LITHIUM BATTERY

This program sets the maximum charge capacity that will be supplied

to the battery during charge. If the delta-pack voltage is not detected

nor the safety timer expired by any reason, this feature will automati-

cally stop the process at the selected capacity value.

The beep sounds at every time pressing the buttons to conﬁrm your

action. The beep or melody sounded at various times during operation

to alert different mode changes. These audible sounds can be on or off.

This program monitors the voltage of input battery. If the voltage drops

below the value you set the operation forcibly terminated to protect

the input battery.

-9-

6. Lithium battery(Lilo/LiPo/LiFe)program

These programs are only suitable for charging and discharging Lithium batteries

with a nominal voltage of 3.3V, 3.6V and 3.7V per cell. These batteries need to

adopt different charge technique is termed a constant voltage(CV) and constant

current(CC) method. The charge current varies according to the battery capacity and

performance. The ﬁnal voltage of charge process is also very important; it should be

precisely matched with the charade voltage of the battery. They are 4.2V for LiPo, 4.1V

for Lilo, and 3.6 V for LiFe. The charge current and nominal voltage as for cell count

set on the charge program must always be correct for the battery to be charged.

When you are willing to alter the parameter value in the program, press Start/

Enter key to make it blink then change the value with INC or DEC key. The value will

be stored by pressing Start/Enter key once.

6.1 Charging Lithium Battery

The left side of the ﬁrst line shows the type of battery

you select at the users setting. The value on the left

side of second line sets a charge current and the value

on the right side of second line sets the voltage of the

battery pack.

After setting the current and voltage press Start/Enter

key for more than 3 seconds to start the process.

(Charge current:0.1~7.0A,Voltage:1~6 series)