User's Manual Charger Imax B6 Technical characteristics. IMAX B6 mini. Charging a car battery - complete instructions Charger imax b6 mini instructions

Microprocessor charger

(NiCd/NiMH/Lithium/Pb)

with built-in balancer

Introduction

Specification

Peculiarities

Intelligent Process Control

The charger has a function for automatically setting the voltage during battery charging/discharging. This is especially important for lithium batteries, where parameters incorrectly set by the user can lead to overcharging and possible fire of the battery. Each program in the memory is controlled by limiting setting parameters and various sensors, so if a problem occurs, the charge/discharge process is immediately interrupted and a fault message is displayed on the screen. All this allows you to achieve maximum safety when using this memory. All settings can also be configured by the user.

High power

The charger has a high output power of 50 Watts, and as a result, it can charge/discharge up to 15 NiCd/NiMH cells, as well as charge up to 6 lithium cells with a maximum current of 5 amperes.

Built-in voltage balancer for lithium batteries

There is no need to purchase a separate balancer. This charger has a built-in balancer for working with lithium batteries consisting of 2, 3, 4, 5 and 6 LiIo/LiPo/LiFe cells.

Balancing each element individually during discharge

The charger can also monitor and balance each lithium battery cell as it discharges. If the voltage of one of the elements changes incorrectly, the process is interrupted and an error message is displayed.

Supports all major lithium battery types

The charger works with three main types of lithium batteries: LiIo, LiPo and also with promising LiFe batteries. All types have different chemical compositions, so before working with the charger, correctly set the type of chemical composition of the battery being charged in the settings.

Modes for lithium batteries “FAST“ and “STORAGE“

You can charge lithium batteries in special modes. The “FAST“ mode allows you to reduce the battery charging time, and the “STORAGE“ mode allows you to prepare the battery for long-term storage (preservation).

Maximum safety with Delta Peak

The charger automatically interrupts the charging process (for NiCd/NiMh batteries) when the battery reaches 100% full. The operating principle is based on voltage difference monitoring, called Delta Peak.

Automatically set current during charging of nickel batteries

You can set the upper limit of the charging current when charging NiCd or NiMH batteries (“AUTO” mode). This is useful for NiMH batteries with low internal resistance and capacity.

Peculiarities

Capacity limit

In the charger settings, you can set a capacity limit, upon reaching which the charging process will be interrupted. The value of the capacitance parameter can be calculated using the formula: charge current multiplied by charge time.

Temperature limit*

The charging process can also be additionally controlled by a thermal sensor (or temperature sensor). The internal chemical reaction of the battery when charging causes the temperature of the battery to rise. If the temperature limit is reached, the process will be automatically interrupted.

* This function is available with a temperature sensor included.

Time limit:

You can also limit the process time to avoid any possible defects.

Input voltage control

To protect the car battery used as a power source for the charger from severe discharge, the microprocessor constantly monitors the input voltage. If it drops below a certain limit, the process will end automatically.

For user convenience, it is possible to use 5 cells to store data on charging/discharging different types of batteries. The user can recall/correct this data at any time.

For nickel batteries it is possible to use sequential charge/discharge operations in any direction (up to 5 cycles). This is especially useful for training Ni-Cd and Ni-MH batteries.

Appearance

Connecting the battery to the balancer

The figure on the left shows the correct way to connect the battery to the charger when using the battery cell voltage balancing program.

Menu structure

Initial parameters (set by user)

When you turn on the charger for the first time, all parameters are set to default. After turning on the charger, a sound signal is heard and a greeting is displayed on the screen.

All four buttons must be used to select programs and change parameters.

If you need to change a parameter in the current program, press the “START/ENTER“ button, then the selected parameter will start flashing. Using the “DEC” and “INC” keys, change the parameter to the required value. To confirm the selection, press “START/ENTER“ again, to cancel the selection and return to the old value, press “STOP“.

This screen displays the rated voltage for the lithium battery. The charger works with three types of batteries

And each type has its own voltage:

Li-Ion (3.6 V)

TO AVOID BATTERY FIRE, IT IS VERY IMPORTANT TO CORRECTLY SET THE CHEMICAL COMPOSITION OF THE BATTERY YOU CHARGE.

The memory automatically recognizes the number of elements

V lithium battery before starting the charging/discharging process. This is done to check the configuration and after user settings. If the battery is very low, automatic detection will not work correctly. To prevent such an error, you can set a time for the microprocessor to check the number of elements. Usually enough 10 minutes (this value is set by default). For large capacity batteries, this parameter needs to be increased. If the battery capacity is small and the time parameter is too long, this may cause an erroneous result when determining the number of elements. If the processor still incorrectly recognized the battery voltage, it is necessary to increase the auto-detection time,

V otherwise, the default setting should be used.

Delta-Peak sensitivity. This parameter shows the Delta Peak voltage to automatically complete charging for Ni-MH and NiCd batteries. The parameter varies from 5 to 20 millivolts per element. Setting this parameter to a high value risks overcharging the battery (reducing sensitivity), while decreasing the parameter threatens to terminate the charge prematurely (increasing sensitivity). If you adjust this parameter, please refer to the battery technical specification.

Default values: NiCd: 12mV, NiMH: 7mV

USB port / Temperature sensor. The Imax B6 charger has a universal 3 pin port used as a USB interface or temperature sensor port. (On the G.T. Power model, these ports are separate.) If the screen shows the temperature setting (as shown in the picture on the left), you can use additional temperature control. Here you can set the cut-off temperature. The charging process will be completed automatically to protect the battery once the battery temperature reaches the set temperature. The temperature can also be set during the charging process.

If the parameter is set as a USB port, you can connect the charger to your PC via an additional USB cable to monitor the charging process on the monitor screen.

Cooling time. The battery heats up during the discharge/charge process, so it is necessary to give it time to cool down. The program sets a time delay after each charge/discharge cycle to allow the battery to cool before the next cycle begins. The parameter can take a value from 1 to 60 minutes.

Time Timer. After the set time has elapsed, the charging/discharging process will be stopped. The timer can be set from 0 to 720 minutes. The timer can also be disabled, in which case the charge/discharge process will be uncontrolled in time.

Capacity cut-off (when charging) . Here you can set the capacity cutoff (up to 5000 mAh), this will allow you to interrupt the charging process when the specified capacity is reached. This limitation can be disabled, which will allow you to charge a battery of any capacity.

Setting up sounds . Here you can enable or disable event signals, as well as the sound of button presses.

Car battery voltage monitoring . Here you can set the cutoff for the input voltage (within 10.0 - 11.5 V), this will allow you to avoid deep discharge of the car battery when working with the charger.

Lithium battery programs

These programs are intended only for charging/discharging lithium batteries with a nominal voltage of 3.3V, 3.6V, 3.7V per cell. Each type of battery has its own charge current.

On this screen, the type of battery being charged is displayed at the top left, and the current charge current is displayed below. Set the charging current, then the number of elements connected in series (the number of elements determines what voltage the charger will supply to the battery, so it is VERY IMPORTANT to set this parameter correctly. On the charger screen, the number of elements is indicated by S. In the figure on the left, the charge is set for 3 elements (3S) After setting the current and voltage parameters, press the “START/ENTER“ button and hold it pressed for 3 seconds until the melody sounds.

If the charging process has started, the real-time charging progress screen will be displayed. The charging process can always be interrupted manually by pressing the button

Charging lithium batteries using a balancer

This function is designed to balance the voltage of LiPo batteries during charging. During balancing, the battery, in addition to the connected power connector, must be connected to the charger with an additional balancing cable. Balancing ports of various sizes are located on the right end side of the charger. The charging process with a balancer is somewhat different from the normal charging mode. In this case, the microprocessor looks at each cell of the battery individually and controls the supply of voltage to it to equalize to the rated voltage.

This screen displays the type of battery being charged at the top left, and the current charge current below. After setting the current and voltage parameters, press the “START/ENTER“ button and hold it pressed for 3 seconds until the melody sounds.

This screen shows the parameters for the number of elements selected by the user and the specific microprocessor.

“R“ - number of elements automatically determined by the microprocessor of the memory.

“S“ - number of elements set by the user in the previous screen.

If both numbers match, you can start charging by pressing the “START/ENTER“ button. Otherwise, press the “STOP” button to return to the previous screen to correct the data.

This does not mean homemade, but ready-made Chinese. On the one hand, there are quite a few outlet adapters on sale with a compartment for 4 AA or AAA elements. On the other hand, lithium batteries are increasingly used in gadgets and electronic toys, so you need to choose with an eye to the future. In general, after much thought, I settled on the universal programmable memory imax b6. There are original ones on sale, and there are Chinese copies. It’s hard to say how they differ, but my colleague bought a copy and has been successfully running it for almost a year now. The choice has been made.

Features of the imax b6 charger

• Controlled by a microprocessor
• Compatible with Ni-Cd, Pb and NiMH batteries
• Wide charging current range
• Input voltage monitoring
• Storing up to 5 sets of battery parameters in memory

Specifications

• Input voltage: 11~18v
• Maximum charging power: 60W
• Charge current range: 0.1~6.0A
• Discharge current range: 0.1~2.0A
• Ni-MH/NiCd: 1~15 cans
• Li-ion/LiPo: 1~6 cans
• Pb battery voltage: 2~20v
• Dimensions: 133x87x33mm
• Price: about 1500 rub.

This charger is not suitable for those who are used to sticking it in, pressing it, and then removing the batteries after several hours. Firstly, it requires an additional adapter (mains power supply) for 12-18 volts, and secondly, it does not have a battery connection compartment - only two crocodiles, which we hook to where needed. Therefore, to work with conventional 1.5 V AA batteries, you need to get a cassette box. But this is not a problem - they cost pennies.

Although the kit includes several other different cords with connectors - maybe someday they will be needed.

Instructions for use

We connect the power, the screen with the inscription SkyRc Imax-B6 immediately lights up. There is no on/off button for the device. After this we get to the main menu.

You can navigate through it using the "Stop" and " buttons.

As well as points for saving and loading user settings. You can select an item by pressing "Enter". Here, for example, is the Li-Ion charge menu item:

By pressing "Enter" again, we go to the parameter editing mode. The parameter being changed flashes at this time. You can change the maximum current and voltage. It's the same with nickel-cadmium.

Protection works at every stage. Charging will not start if: the battery polarity is reversed, the voltage is too low or too high, the voltage does not match the type of battery or the number of cells, etc.

It is possible to set the discharge and charge current, as well as the number of these cycles - this is a procedure for restoring tired batteries. After setting all the parameters, you can start charging by long pressing “Enter”.

Example of designation on the screen: NiCd - nickel battery. 0.1 A is the current charge current, 3.02 V is the current voltage, DHG is short for Discharging, charge. 000:35 - time in minutes and seconds from the start of the program, 00000 - “capacity” in milliamp-hours “poured” into the battery during charging, or received from the battery during discharge. Naturally, the second number will be smaller, and this is what you should be guided by when measuring the battery capacity. Description of the process in the photo below.

For more details, read the instructions supplied with the device or download this Russian-language manual.

A few more words about BP. In principle, any power supply will do, not necessarily a 5-amp one (unless, of course, you need to charge something very powerful). For most batteries, the charging current rarely exceeds 0.5 A, so the first 12 V, 1 A unit that came to hand turned out to be the last - the imax b6 has been working with it for the second month.

Diagram and details

What about without disassembly? Like a real radio amateur, the first thing I did was unscrew a few side screws and look at the diagram. Here you can see a buzzer, a standard LCD display, several planar microcircuits and other random items. I have no doubt that some craftsmen will reproduce this device without any problems, but for most it will be justified to buy a ready-made one, especially since 30 dollars is not that much money - buying parts will already eat up half the amount.

Charging day

Immediately after the purchase, I arranged a charging day for myself - I collected all the batteries, of which I had accumulated a couple of dozen, and assigned 3-5 discharge-charge cycles and began to restore them. At the end of the cycle, a melodic sound signal is heard, and the approximate battery capacity is shown on the screen. It makes sense to write it down with a marker on the battery housings so that in the future you will know what you can get from them.

Yes, it won’t even undertake to charge bad banks - feel free to throw them away. In general, a cool and convenient thing, after which you will no longer want to use conventional chargers! Bye everyone, the material was prepared specifically for the site Radio circuits .

Discuss the article IMAX B6 CHARGER

I purchased the Imax B6 device for $12.23. The seller sent it at my request by Hong Kong post, for which I had to pay a little extra, but it was worth it, delivery was faster than through logistics companies. During the delivery process, it was tracked by both Hong Kong Post and Russian Post. It took the IMAX B6 only 12 days to reach the post office from the date of payment.

Instructions and settings during operation

Appearance

The charging process is carried out in “AUTO” or manual mode. In the “AUTO” mode, only the maximum current is set; the charging current changes during the cycle according to a pre-programmed algorithm for each type of element, while in manual mode the specified current remains unchanged throughout the entire cycle.

You can test the actual capacity of the elements. Power supply from an external source with a voltage of 12-18 volts. Control is carried out with just four metal buttons. In the settings, you can save 5 operating programs of the device into the memory or set a new operating mode before connecting the battery.

It is possible to disable the charging process when a certain temperature is reached on the battery (when connecting a temperature sensor not included in the kit), after some time has passed (up to 4 hours or do not control the time), when a certain charging current is reached, the sound signal is turned on/off.

During operation, the liquid crystal display displays information about the operating mode, battery voltage, charging/discharging current.

My device is powered from the laptop power supply. During operation, the first thing I did was remake the output cords, since the ones included in the kit are not applicable, there are no such connectors (except for crocodile clips). This is perhaps the only thing I didn’t like, but maybe only me.

I made cords specifically for the equipment that I charge (mainly children’s toys) and adapted them to battery compartments for charging 1-3 AA, AAA batteries.

Click to enlarge

In the NICD and NIMN training mode, it was possible to restore, although not completely, the functionality of 4 of the 12 elements. The balancing program is necessary when operating several LIion, LIpol batteries connected in series, I haven’t used it, I can’t say anything.

Nizn

Charging NIZN cells in the Imax B6 is not provided, but is possible. The voltage of these elements is 1.6 V, which is slightly higher than the voltage of NICD, NIMN (1.2 V). The charging algorithm is identical. To connect, I use a battery compartment for 2 AA batteries; in the device I set the voltage to 3.6 V (3 cells). Charges, doesn't swear.

Car batteries

Use as a charger for lead batteries...

I charged and am charging a child’s electric car with two 6-volt batteries; in winter I charged a car battery with a current of 5 A. It is very convenient to notify about errors, not some code that needs to be looked for in a table, but a text message, albeit in good English.

Also, in the cold winter, I helped my Priora’s standard generator a little by charging the car’s battery in the garage. I have no heating in my garage, but the Imax withstood the cold well and didn’t act up.

Review

Overall, very pleased. I already wrote about NIZN batteries above and this is also a big plus! Outwardly it looks high quality, but I couldn’t take it apart. It has been working without failures or breakdowns for several months now, and in capable hands it provides a whole range of possibilities! All error messages, end of working cycle and other messages are accompanied by a sound signal.

Where can I buy

You can purchase it on the Aliexpress website. Please note: you should only buy the original iMax B6 product, for which we look at the product title. If it says “ORIGINAL”, then everything is fine. The fact is that the very rules of Aliexpress for sellers and stores prohibit them from selling counterfeits indicating the originality, thereby deceiving buyers.

If this rule is violated, they will pay a large fine or completely lose their account with all unpaid funds. So sellers of fakes simply usually do not write anything about the origin of the product, but sellers of original products will definitely note this in the title and description!

Comparison of original and fake

Video review

If you have ever been faced with the question of purchasing a universal charger that can charge all major types of batteries, then you have probably come across the legendary iMax B6 charger.

Today we are pleased to present you a new reincarnation of this charger, which has significantly decreased in size, but has acquired modern functionality that will be appreciated by both old and new fans of the B6 series chargers. So, let's meet the baby -...

SkyRC B6 mini is the new version of the world's best-selling iMax B6 universal charger.

Charger control and monitoring via smartphones

With the optional WiFi module, which is purchased separately and can be connected to the charger, you can control the charger and monitor battery status in real time

Specifications iMax B6 mini

• DC supply voltage: 11-18V
• Maximum charge power: 60W
• Charge current range: 0.1-6A
• Discharge current range: 0.1-2A

• Charge voltage:
  - for Ni-MH/NiCd - detected automatically
  - for Li-Po - 4.18-4.3V/element
  - for Li-Ion - 4.08-4.2V/element
  - for Li-Fe - 3.58-3.7V/element

• Charge interruption voltage in the range:
  - Ni-MH/NiCd: 0.85-1.0V/cell
  - Li-Po: 3.0V/cell
  - Li-ion: 2.5V/cell
  - Li-Fe: 2.0V/cell
  - Pb: 1.75V

• Lithium cell balancing current: 300mA per cell
• Delta Peak sensitivity for NiCd and Ni-MH cells: adjustable from 3-15mV per cell
• Charge/discharge interruption temperature setting: 20-80ºC
• Dimensions: 102 x 84 x 29 mm
• Weight: 233 g.

EQUIPMENT

• Charger
• Power connectors for charging batteries (T-Plug + crocodiles)
• Connectors for charging on-board batteries with JST (BEC), JR/Futaba/Hitec connectors
• Balancing connector JST-XH (for 2-6S batteries)
• Filament charging wire

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I purchased the original version. In others, either the build quality or the price tag suffers. The kit includes a large number of adapters for batteries, but there is no power supply. Which is generally logical: the charger is intended to “charge anything in any conditions.” So don’t put all possible voltage converters into the box, thereby only increasing the price. But buying the necessary power supply is not a problem - any with an output voltage of 11 - 18V and a maximum load current of at least 5.5A will do.

N and the photo is my power supply. This is a power supply for LED panels, for placement indoors. Since the workshop requires 12 volts not only for the charger, the characteristics are also slightly higher (two lines for 16.5A in total).But finding the same one for 6A will not be difficult.

The charger itself has a metal case with passive cooling. If you do not plan to drive it for days at maximum conditions, then this is quite enough. The battery is charged through a power connector with balancing through a special balancing connector. The following accessories may also be useful:

Peculiarities:

• Microprocessor controlled
• Separate balancing of each bank
• Compatible with Li-ion, LiPo and LiFe batteries
• Compatible with Ni-Cd and NiMH batteries
• Wide charging current range
• Charge/discharge to battery storage voltage
• Charging time limit function
• Input Voltage Monitoring (Protecting your vehicle's battery in the field)
• Storing Battery Parameters (Store up to 5 sets of battery parameters in memory)
• Storage of battery commissioning date and service life.

Specifications:

• Input voltage: 11~18v (60W)
• Maximum charging power: 50W
• Maximum discharge power: 5W
• Charge current range: 0.1~5.0A
• Discharge current range: 0.1~1.0A
• Ni-MH/NiCd: 1~15 cans
• Li-ion/LiPo: 1~6 cans
• Pb battery voltage: 2~20v
• Weight: 277g
• Dimensions: 133x87x33mm

Some tips for using the charger:

1. Using the charger in the car

2. How to charge LiPo/LiFe

3. How to charge NiCd/NiMh

Charging batteries in the field from a car.

Firstly, it is worth remembering that the charger consumes current up to 6A and does this for quite a long time. 6A is not that much... but not that little either. Considering that the charging process can last several hours, we get a fairly significant load on the car’s electrical network. Therefore, the first thing you should do is look for an outlet in your car with this marking (12V / 20A):

You should not connect the charger to the cigarette lighter. In most machines it is designed for 5A continuous and 10A short-term. If there is no such outlet, it is better to open the hood and connect directly to the car battery. Fortunately, the “crocodiles” are included in the charger kit.

Secondly, you should not start the charging process with the engine turned off. Because This is a long process, then by charging the model’s battery you risk draining the car’s battery. Then the latter will turn into real estate for some time, and you will go home on foot. At the same time, starting the engine in the car’s electrical network creates quite serious voltage drops. By the way, the “brains” of the machine have a circuit ala UPS, but your charger does not have one. Therefore, when the engine starts, the charger can easily reboot, and in the worst case, burn out.

Well, perhaps the last piece of advice on the topic of cars. Do not charge batteries directly in the car. Why? There are a huge number of videos on YouTube showing how a car burns out due to a lithium battery. And don’t think that this will definitely not happen to you. It is better to make a charger power extension cord and charge the batteries a few meters from the car.

Charging LiPo/LiFe batteries

For example, let's take the Rhino 3S 25C battery.

You can find out what 3S and 25C are. But in this case we will be interested in one more parameter - charging current. Information about it can sometimes be found on the back of the battery:

"NEVER charge above 2C" is exactly what we need. The maximum charging current is two capacities.

But if nothing like that is written on the battery, it’s okay. In this case, there is a simple rule - you can charge the battery with a current numerically equal to its capacity (1C). In general, the lower the charging current, the longer the battery will live. But the longer it will take to charge. If there is no hurry, set it to 0.5C.

In our example we will do just that. 1350Ah * 0.5C = 0.7A We calculate the value approximately to the nearest tenth, because You simply cannot enter greater accuracy into the charger.

We figured out the battery parameters - connect....

First of all, we connect all the connectors except the power to the charger.

Next we connect the battery

To attach the temperature sensor we use a rubber band

Connect the power and first look for the User Set Program menu

Here we set the cut-off temperature

It is better not to set it more than 60 degrees. Mine costs 45.

Set a timer. This is one of the security features. To do this, you need to roughly estimate the battery charging time based on its capacity, charging current and residual charge.

Select the type of lithium battery. If we charge not LiPo, but LiFe, then we need to select the appropriate value. The charger will set the voltage automatically depending on the selected battery type.

Now go to the top menu and find the item Program Select LiPo BATT (or LiFe BATT)

We go into it and look for the LiPo Balance item

Here we set the charging parameters for our battery and press Enter (the button will need to be held down for 3-4 seconds).

The charger will check the correspondence between the set number of cans and what is actually connected to it. If everything is correct, a confirmation message will appear.

Press Enter - the charging process begins. Next, wait for the sound signal about the end of charging.

During charging, you can use the right/left buttons to monitor the current battery temperature and the voltage on each bank.

Charging NiCd/NiMh batteries

Unlike LiPo, NiMh batteries must be discharged before charging. This is done in order not to fill the threshold.

Let's look at the charging process using the example of a NiMh 7.2V 1100mAh battery assembly

We connect it to the charger and select Programm Select NiMh Batt in the menu. Before doing this, you should set the Safety Timer to a higher number - NiMh takes a very long time to charge.

Here we find NiMH CHARGE CURRENT - charging current. Because If you need to charge the battery 0.3-0.6 times the nominal Ah, then we calculate it as 0.5A * 1.1Ah = 0.55A. Let's round up to 0.6A.

Now we find NiMH DISCHARGE. Here we set the discharge current and voltage. The smaller it is, the better. Typically the range of values ​​is from 0.3A to 0.5A. The discharge voltage is set according to the following formula V=1.25*(N-1), where N is the number of cans. For my battery V=1.25*(6-1)=6.25V.

Now press the Enter button for 3-4 seconds - charging has begun. It won't be over very soon. The charger will notify you of the end with a sound signal.

This does not mean homemade, but ready-made Chinese. On the one hand, there are quite a few outlet adapters on sale with a compartment for 4 AA or AAA elements. On the other hand, lithium batteries are increasingly used in gadgets and electronic toys, so you need to choose with an eye to the future. In general, after much thought, I settled on the universal programmable memory imax b6. There are original ones on sale, and there are Chinese copies. It’s hard to say how they differ, but my colleague bought a copy and has been successfully running it for almost a year now. The choice has been made.

Features of the imax b6 charger

• Controlled by a microprocessor
• Separate balancing of each bank
• Compatible with Li-ion, LiPo and LiFe batteries
• Compatible with Ni-Cd, Pb and NiMH batteries
• Wide charging current range
• Charge/discharge to battery storage voltage
• Charging time limit function
• Input voltage monitoring
• Storing up to 5 sets of battery parameters in memory
• Storage of battery commissioning date and service life.

Specifications

• Input voltage: 11~18v
• Maximum charging power: 60W
• Charge current range: 0.1~6.0A
• Discharge current range: 0.1~2.0A
• Ni-MH/NiCd: 1~15 cans
• Li-ion/LiPo: 1~6 cans
• Pb battery voltage: 2~20v
• Dimensions: 133x87x33mm
• Price: about 1500 rub.

This charger is not suitable for those who are used to sticking it in, pressing it, and then removing the batteries after several hours. Firstly, it requires an additional adapter (mains power supply) for 12-18 volts, and secondly, it does not have a battery connection compartment - only two crocodiles, which we hook to where needed. Therefore, to work with conventional 1.5 V AA batteries, you need to get a cassette box. But this is not a problem - they cost pennies.

Although the kit includes several other different cords with connectors - maybe someday they will be needed.

Instructions for use

We connect the power, the screen with the inscription SkyRc Imax-B6 immediately lights up. There is no on/off button for the device. After this we get to the main menu.

You can navigate through it using the "Stop" and " buttons.<". В главном меню находятся: выбор программы зарядки в зависимости от типа аккумулятора, меню настроек. Вот алгоритм управления:

As well as points for saving and loading user settings. You can select an item by pressing "Enter". Here, for example, is the Li-Ion charge menu item:

By pressing "Enter" again, we go to the parameter editing mode. The parameter being changed flashes at this time. You can change the maximum current and voltage. It's the same with nickel-cadmium.

Protection works at every stage. Charging will not start if: the battery polarity is reversed, the voltage is too low or too high, the voltage does not match the type of battery or the number of cells, etc.

It is possible to set the discharge and charge current, as well as the number of these cycles - this is a procedure for restoring tired batteries. After setting all the parameters, you can start charging by long pressing “Enter”.

Example of designation on the screen: NiCd - nickel battery. 0.1 A is the current charge current, 3.02 V is the current voltage, DHG is short for Discharging, charge. 000:35 - time in minutes and seconds from the start of the program, 00000 - “capacity” in milliamp-hours “poured” into the battery during charging, or received from the battery during discharge. Naturally, the second number will be smaller, and this is what you should be guided by when measuring the battery capacity. Description of the process in the photo below.

For more details, read the instructions supplied with the device or download this Russian-language manual.

A few more words about BP. In principle, any power supply will do, not necessarily a 5-amp one (unless, of course, you need to charge something very powerful). For most batteries, the charging current rarely exceeds 0.5 A, so the first 12 V, 1 A unit that came to hand turned out to be the last - the imax b6 has been working with it for the second month.

Diagram and details

What about without disassembly? Like a real radio amateur, the first thing I did was unscrew a few side screws and look at the diagram. Here you can see a buzzer, a standard LCD display, several planar microcircuits and other random items. I have no doubt that some craftsmen will reproduce this device without any problems, but for most it will be justified to buy a ready-made one, especially since 30 dollars is not that much money - buying parts will already eat up half the amount.

Charging day

Immediately after the purchase, I arranged a charging day for myself - I collected all the batteries, of which I had accumulated a couple of dozen, and assigned 3-5 discharge-charge cycles and began to restore them. At the end of the cycle, a melodic sound signal is heard, and the approximate battery capacity is shown on the screen. It makes sense to write it down with a marker on the battery housings so that in the future you will know what you can get from them.

Yes, it won’t even undertake to charge bad banks - feel free to throw them away. In general, a cool and convenient thing, after which you will no longer want to use conventional chargers! Bye everyone, the material was prepared specifically for the site Radio circuits .

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1 User Manual Imax B6 Charger Technical characteristics: Charging Li-ion, Li-Po, LiFe, NiCd, NiMH, PbAcid batteries (all types) Fully automatic charging process controlled by a microcontroller. Cut-off by current and voltage for lithium batteries, by temperature and ΔV for nickel ones. For all types, shutdown based on maximum time and capacity. NiCd and NiMH training. Balancing charge of Li-Po batteries (for batteries with several banks) Charge current up to 5A, discharge current up to 1A. Screen with readings of current voltage, current, capacitance. Uploading all these parameters to a computer and plotting graphs.

2 Contents 2 Purpose of buttons and connectors of the charger Charging power Pb batteries Charging power LiPo batteries Charging the battery of the Futaba 6EX control panel Charging the battery of the HiTech/GR control panel Memo for Pb + LiPo Memo for LiFe

3 Purpose of buttons and connectors of the charger 3

4 Charging power Pb batteries 4 This manual contains a brief description relating only to the batteries that are supplied with the KarpMaster product. 1. Connect the 220/12V power supply to the charger socket. If you are in the field, use a special cable from the car battery. ATTENTION: Observe the correct polarity when connecting alligator clips to the car battery, as this may damage the charger. 2. Charge the power battery Pb 12V 7000mA. 3. Program selection button “Batt. Type" select the program: PROGRAM SELECT Pb BATT 4. Press the "Start" button once to enter the following menu: Charge Charging. Pb CHARGE 2.0A 12.0V(6P) 5. Check the parameters for the Pb 12V 7000mA battery, the charging current should not exceed no more than 2.0A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds. Battery type Charge current Battery voltage Pb-6 2.0A 12.00V CHG 000: Charging Charging time ma, accumulated during battery charging 6. After the battery is fully charged, the charger beeps and automatically stops the charging process. This type of battery charges in approximately three and a half hours (210 min). Full FULL 0.0A 14.7V 002: The information on the display will be saved until you disconnect the battery being charged.

5 Charging power LiPo batteries 5 1. Charge the power LiPo 11.1V 5000mA battery. 2. Program selection button “Batt. Type" select the program: PROGRAM SELECT LiPo BATT 3. Press the "Start" button once to enter the following menu: Charge Charging. LiPo CHARGE 3.0A 11.1V(3S) 4. Check the parameters for the LiPo 11.1V 5000mA battery, the charging current should not exceed no more than 3.0A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds, the charger will enter test mode. Battery type installed on the charger Battery connected to the charger Confirmation R: 3SER S: 3SER CONFIRM (ENTER) Hold down the “Start” button for another 3 seconds, the device will enter charging mode. Battery type Charge current Battery voltage LiPo 3.0A 11.10V CHG 000: Charging Charging time ma accumulated during battery charging

6 5. After the battery is fully charged, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge. Full FULL 0.0A 12.5V 001: The information on the display will be saved until you disconnect the battery being charged. This type of battery requires balancing depending on operating conditions 1. To balance the battery, additionally connect the balancing cable from the battery to the charger into the corresponding 3S balancing socket. 2. Program selection button “Batt. Type" select the program: PROGRAM SELECT LiPo BATT 3. Press the "Start" button once to enter the following menu: Charge Charging. LiPo CHARGE 3.0A 11.1V(3S) 4. Press the “Int.” button once. enter the BALANCE menu. LiPo BALANCE 3.0A 11.1V(3S) 5. Check the parameters for the LiPo 11.1V 5000mA battery, the charging current should not exceed no more than 3.0A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds, the charger will enter test mode. 6 Battery type installed on the charger Battery connected to the charger Confirmation R: 3SER S: 3SER CONFIRM (ENTER)

7 6. Hold down the “Start” button for another 3 seconds, the device will enter charging mode. Battery type Charge current Battery voltage Li3S 3.0A 11.10V BAL 000: Charging Charging time ma, collected while charging the battery 7. During charging, by pressing the “Inc” button, you can view the charge for each battery element separately. LiPo 11.1V 5000mA 3S consists of three cells V 4.20V V 0.00V A normally balanced battery should be 4.20V per cell. ATTENTION: Do not discharge the battery below 3V for one cell and below 9V for the entire battery, as this may damage the battery. WARNING: Do not leave LiPo batteries unattended while charging, as this type of battery is explosive. 8. After completely balancing the battery, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge. Full FULL 0.0A 12.5V 001: The information on the display will be saved until you disconnect the battery being charged. 7

8 Charging the battery of the Futaba 6EX 8 control panel 1. Connect the 220/12V power supply to the charger socket. If you are in the field, use a special cable from the car battery. ATTENTION: Observe the correct polarity when connecting alligator clips to the car battery, as this may damage the charger. 2. Charge the LiPo 11.1V 1450mA 3S power battery. 3. Program selection button “Batt. Type" select the program: PROGRAM SELECT LiPo BATT 4. Press the "Start" button once to enter the following menu: Charge Charging. LiPo CHARGE 1.5A 11.1V(3S) 5. Check the parameters for the LiPo 11.1V 1450mA battery, the charging current should not exceed no more than 1.5A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds, the charger will enter test mode. Battery type installed on the charger Battery connected to the charger Confirmation R: 3SER S: 3SER CONFIRM (ENTER) Hold down the “Start” button for another 3 seconds, the device will enter charging mode. Battery type Charge current Battery voltage LiPo 1.5A 11.10V CHG 000: Charging Charging time ma accumulated during battery charging

9 6. After the battery is fully charged, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge. Full FULL 0.0A 12.5V 001: The information on the display will be saved until you disconnect the battery being charged. This type of battery requires balancing depending on operating conditions 1. To balance the battery, additionally connect the balancing cable from the battery to the charger into the corresponding 3S balancing socket. 2. Program selection button “Batt. Type" select the program: PROGRAM SELECT LiPo BATT 3. Press the "Start" button once to enter the following menu: Charge Charging. LiPo CHARGE 1.5A 11.1V(3S) 4. Press the “Int.” button once. enter the BALANCE menu. LiPo BALANCE 1.5A 11.1V(3S) 5. Check the parameters for the LiPo 11.1V 1450mA battery, the charging current should not exceed no more than 1.5A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds, the charger will enter test mode. 9 Battery type installed on the charger Battery connected to the charger Confirmation R: 3SER S: 3SER CONFIRM (ENTER)

10 6. Hold down the “Start” button for another 3 seconds, the device will enter charging mode. Battery type Charge current Battery voltage Li3S 1.5A 11.10V BAL 000: Charging Charging time ma, collected while charging the battery 7. During charging, by pressing the “Inc” button, you can view the charge for each battery element separately. LiPo 11.1V 1450mA 3S consists of three cells V 4.20V V 0.00V A normally balanced battery should be 4.20V per cell. ATTENTION: Do not discharge the battery below 3V for one cell and below 9V for the entire battery, as this may damage the battery. WARNING: Do not leave LiPo batteries unattended while charging, as this type of battery is explosive. 8. After completely balancing the battery, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge. Full FULL 0.0A 12.5V 001: The information on the display will be saved until you disconnect the battery being charged. 10

11 Charging the battery of the HiTech/GR control panel Connect the 220/12V power supply to the charger socket. If you are in the field, use a special cable from the car battery. ATTENTION: Observe the correct polarity when connecting alligator clips to the car battery, as this may damage the charger. 2. Charge the remote control battery LiFe 9.9V 1500mA 3S. 3. Program selection button “Batt. Type" select USER SET - Settings: USER SET PROGRAM-> 4. Press the "Start" button once to enter the following menu: LiPo V.Type 3.7V 5. Press the "Start" button and the "Inc." button once select LiFe 3.3V LiFe V.Type 3.3V 6. Using the “Batt. Type" select LiFe BATT PROGRAM SELECT LiFe BATT 7. Press the "Start" button once to enter the following menu: LiFe CHARGE 1.5A 9.9V(3S) 8. Check the parameters for the LiFe 9.9V 1500mA battery, the charging current should not exceed no more than 1.5 A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds, the charger will enter test mode.

12 Battery type installed on the charger Battery connected to the charger 12 Confirmation R: 3SER S: 3SER CONFIRM (ENTER) Hold down the “Start” button for another 3 seconds, the device will enter charging mode. Battery type Charge current Battery voltage LiFe 1.5A 9.90V CHG 000: Charging Charging time ma, accumulated during battery charging 9. After the battery is fully charged, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge. Full FULL 0.0A 10.2V 001: The information on the display will be saved until you disconnect the battery being charged. This type of battery requires balancing depending on operating conditions 1. To balance the battery, additionally connect the balancing cable from the battery to the charger into the corresponding 3S balancing socket. 2. Program selection button “Batt. Type" select USER SET - Settings: USER SET PROGRAM-> 3. Press the "Start" button once to enter the following menu: LiPo V.Type 3.7V

13 4. Press the “Start” button and the “Inc.” button once. select LiFe 3.3V LiFe V.Type 3.3V 5. Using the “Batt. Type" select LiFe BATT PROGRAM SELECT LiFe BATT 6. Press the "Start" button once to enter the following menu: LiFe BALANCE 1.5A 9.9V(3S) 7. Check the parameters for the LiFe 9.9V 1500mA battery, the charging current should not exceed no more than 1.5 A. If the set parameters do not match the battery parameters, press the “Start” button and the “Dec.” buttons. and "Inc." select the required charge current and battery voltage. If the set parameters match the battery parameters, press the “Start” button and hold it for 3 seconds, the charger will enter test mode. 13 Battery type installed on the charger Battery connected to the charger Confirmation R: 3SER S: 3SER CONFIRM (ENTER) Hold down the “Start” button for another 3 seconds, the device will enter charging mode. Battery type Charge current Battery voltage LiFe 1.5A 9.90V BAL 000: Charging Charging time ma, accumulated during battery charging 8. After the battery is fully charged, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge.

14 Full FULL 0.0A 10.2V 001: The information on the display will be saved until you disconnect the battery being charged. 9. During charging, by pressing the “Inc” button, you can view the charge for each battery element separately. LiFe 9.9V 1500mA 3S consists of three cells V 3.26V V 0.00V A normally balanced battery should be 3.30V per cell. ATTENTION: Do not discharge the battery below 2.0V for one cell and below 6.0V for the entire battery, as this may damage the battery. ATTENTION: Do not leave LiFe batteries unattended during charging, as this type of battery is explosive. 8. After completely balancing the battery, the charger beeps and automatically stops the charging process. This type of battery charges in approximately minutes depending on the discharge. Full FULL 0.0A 9.9V 001: The information on the display will be saved until you disconnect the battery being charged.

15 Reminder for Pb + LiPo 15 Observe polarity when connecting batteries, because this may damage the charger. Power batteries Pb 7000 mah can be recharged, but cannot be discharged to 100% and left without a charge after use, because this can disable them. LiPo 5000mAh (3S) power batteries can be recharged, but cannot be discharged below 9V and left without a charge after use, because this can disable them. This type of battery requires balancing. Your ship is equipped with the following batteries: Power batteries Pb 7000mAh 12V, charging current 1.0A, maximum current 2.0A. (can be recharged) Power batteries LiPo 5000mAh (3S) 11.1V charge current 3.0A. Do not discharge below 9V. Balancing required. (has no memory effect, can be recharged) Transmitter battery (remote control) LiPo 1450mAh 11.1V charge current 1.0A. Do not discharge below 9V. Balancing required. (no memory effect, can be recharged)

16 Reminder for LiFe 16 Observe polarity when connecting batteries, because this may damage the charger. Power batteries Pb 7000 mah can be recharged, but cannot be discharged to 100% and left without a charge after use, because this can disable them. LiPo 5000mAh (3S) power batteries can be recharged, but cannot be discharged below 9V and left without a charge after use, because this can disable them. This type of battery requires balancing. Your ship is equipped with the following batteries: Power batteries Pb 7000mAh 12V, charging current 1.0A, maximum current 2.0A. (can be recharged) Power batteries LiPo 5000mAh (3S) 11.1V charge current 3.0A. Do not discharge below 9V. Balancing required. (has no memory effect, can be recharged) Transmitter battery (remote control) LiFe 1500mAh 9.9V charge current 1.5A. Do not discharge below 9V. Balancing required. (has no memory effect, can be recharged) Sonar battery LiFe 1800mAh 9.9V charge current 1.8A. Do not discharge below 9V. Balancing required. (no memory effect, can be recharged)

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