Q200Q200 AC/DC Quattro Charger SkyRC Technology Co., Ltd. 2016 Version 1.0 TABLE OF CONTENTS INTRODUCTION SPECIAL FEATURES WARNING AND SAFETY NOTES PROGRAM FLOW CHART OPERATION OPERATING PROGRAM CHARGING PROGRAM BATTERY MEMORY SET AND CALL OUT SYSTEM SETTING BATTERY METER BATTERY RESISTANCE METER WARNING AND ERROR MESSAGE USING THE CHARGE CONTROL SOFTWARE CHARGE MASTER SPECIFICATION CONFORMITY DECLARATION COMMONLY USED TERMS WARRANTY AND SERVICE 01 03 06 09 10 11 16 17 19 21 22 23 24 25 26 27 28 INTRODUCTION Congratulations on your choice of SKYRC Q200 AC/DC Quattro Balance Charger/Discharger. This unit is simple to use, but the operation of a sophisticated automatic charger such as SKYRC Q200 does require some knowledge on the part of the user. These operating instructions are designed to ensure that you quickly become familiar with its functions. It is therefore important that you read right through the Operating Instructions, Warning and Safety Notes before you attempt to use your new charger for the first time. We hope you have many years of pleasure and success with your new battery charger. SKYRC Q200 is a four-channel charger with four independent circuits which can charge four different kinds of batteries simultaneously, equipping with 480*320 colorful LCD display. Each two channels support power distribution in AC model to make full use of the power when charging a small battery in one channel and allocate all remaining power to charge another big battery pack. Whats more, users could set the terminal voltage by themselves and connect it to PC for PC control and firmware upgrade. Besides that, users could also use it as Lithium Battery Meter and Battery Internal Resistance Meter. There are Automatic Charging Current Limit, Capacity Limit, Temperature Threshold and Processing Time Limit which makes the charger safe to use. integral equalizer SKYRC Q200 is a high-performance, micro processor control charge/discharge station with battery management suitable for use with all current battery types, with iron phosphate(LiFe) and Lithium-Ion (LiIon) batteries; maximum 10A charge current and maximum 100W charge power. The additional LiHV mode is able to charge the new generation of LiPo batteries with an end of charge voltage 4.35V. for six-cell Lithium-Polymer (LiPo), Lithium Please BE SURE to read these INSTRUCTIONS, WARNING and SAFETY NOTES before you use the charger for the first time. It can be dangerous to mis-handle batteries and battery chargers, as there is always a risk of batteries catching fire and exploding. Q200 01 INTRODUCTION Please read this entire operating manual completely and attentively before using this product, as it covers a wide range of information on operating and safety. Or please do use this product in company with a specialist!
LCD Display Channel D Micro USB Port for PC Link Cooling Fan USB Port Channel C Balance Lead Socket Temperature Sensor Port Output Socket 4mm Banana Plug Channel A Power Switch Channel B Switch from Channel A to D or Channel D to A AC Input 100-240V DC Input 11-18V Resume or Start Charge Processes Scroll Through the Main Menu Stop Any Charge Processes Alter Values See the Status of Individual Cells in Balance Charge Mode 02 Q200 SPECIAL FEATURES Colorful LCD Display It is equipped with 480*320 3.5" colorful LCD display. The user interface looks clear, visible and comfortable. Four-channel Charger SKYRC Q200 allows you to plug 4 batteries into one charger simultaneously, and it will intelligently and automatically charge 4 battries at once to their maximum capacity. To top of it, the batteries being charged do not even need to have the same configuration. You can connect different chemistry(NiMH/NiCd/LiPo/LiFe/Lilon/LiHV/Pb)batteries into any of the charging channels. Dual Input and Power Distribution The input of SKYRC Q200 is AC 100-240V and DC 11-18V. In AC mode, it supports power distribution. Please refer to below table for detailed distributed power value in different channels. DC Mode Charging Power Charging Power Power Distribution AC Mode CH A 0-100W 50-100W A+C=100W B+D=100W A+C=100W B+D=100W CH B 0-100W 50-100W CH C 0-50W 0-50W CH D 0-50W 0-50W Optimized Operating Software SKYRC Q200 features the so-called AUTO function that set the feeding current during the process of charging or discharging. Especially for lithium batteries, it can prevent the overcharging which may lead to an explosion due to the user's fault. It can disconnect the circuit automatically and alarm once detecting any malfunction. All the programs of this product were controlled through two way linkage and communication, to achieve the maximum safety and minimize the trouble. All the settings can be configured by users!
Q200 03 SPECIAL FEATURES Battery Memory (Data Store/Load) The charger can store up to 40 different charge/discharge profiles for each channel. You can keep the data pertaining to program setting of the battery of continuous charging or discharging. Users can call out these data at any time without any special program setting. Charge/Discharge Indication There is a clear icon when the charger is in process to indicate and charge or discharge status and the current capacity percentage. Terminal Voltage Control(TVC) The charger allows user to change the end voltage. (for expert user only) PC Control Software Charge Master The free Charge Master software gives you unparalleled ability to operate the charger through the computer. You can monitor pack voltage, cell voltage and other data during the charging, view charge date in real-time graphs. And you can initiate, control charging and update firmware from Charge Master. With Charger Master and one computer, you could operate and update two channels simultaneously. Smart Phone Control via Bluetooth (both iOS and Android) Finally, your charger gets its own apps. Bluetooth Module is inside of the charger and you could control your charger by your smart phone after they are connected via bluetooth. Internal Independent Lithium Battery Balancer SKYRC Q200 employs an individual-cell-voltage balancer. It isn't necessary to connect an external balancer for balance charging. Balancing Individual Cells Battery Discharging During the process of discharging, SKYRC Q200 can monitor and balance each cell of the battery individually. Error message will be indicated and the process will be ended automatically if the voltage of any single one cell is abnormal. Adaptable to Various Type of Lithium Battery SKYRC Q200 is adaptable to various types of lithium batteries, such as LiPo, LiIon and the new LiFe series of batteries. LiHV Mode Available The additional LiHV mode is able to charge the new generation of LiPo batteries with an end of charge voltage 4.35 V. 04 Q200 SPECIAL FEATURES Fast and Storage Mode of Lithium Battery Purposes to charge lithium battery varies, 'fast' charge reduce the duration of charging, whereas 'store' state can control the final voltage of your battery, so as to store for a long time and protect useful time of the battery. Re-Peak Mode of NiMH/NiCd Battery In re-peak charge mode, the charger can peak charge the battery once, twice or three times in a row automatically. This is good for making certain the battery is fully charged. Delta-peak Sensitivity for NiMH/NiCd Delta-peak sensitivity for NiMH/NiCd battery: The automatic charge termination program based on the principle of the Delta-peak voltage detection. When the battery's voltage exceeds the threshold, the process will be terminated automatically. Cyclic Charging/Discharging 1 to 5 cyclic and continuous process of charge > discharge or discharge > charge is operable for battery refreshing and balancing to stimulate the battery's activity. Automatic Charging Current Limit You can set up the upper limit of the charging current when charging your NiMH or NiCd battery, it is useful for the NiMH battery of low impedance and capacity in the 'AUTO'
charging mode. LiPo Battery Meter The user can check battery's total voltage, the highest voltage, the lowest voltage and each cell's voltage. Battery Internal Resistance Meter The user can check battery's total internal resistance and each cell's internal resistance. Capacity Limit The charging capacity is always calculated as the charging current multiplied by time. If the charging capacity exceeds the limit, the process will be terminated automatically when you set the maximum value. Temperature Threshold*
The battery's internal chemical reaction will cause the temperature of the battery to rise. If the temperature limit is reached, the process will be terminated. This function is available by connecting optional temperature probe, which is not included in the package.
*
Processing Time Limit:
You can also limit the maximum process time to avoid any possible defect. Q200 05 WARNING 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. Never leave the charger unattended when it is connected to its power supply. If any malfunction is found, TERMINATE THE PROCESS AT ONCE and refer to the operation manual. Keep the charger well away from dust, damp, rain, heat, direct sunshine and vibration. Never drop it. The allowable DC input voltage is 11~18V DC The allowable AC input voltage is 100~240V AC This charger and the battery should be put on a heat-resistant, noninflammable and nonconductive surface. Never place them on a car seat, carpet or similar. Keep all the inflammable volatile materials away from 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 .It can cause fire or explosion due to overcharging. Standard Battery Parameters LiPo LiIon LiFe LiHV NiCd MiMH Pb 4.1V/cell 3.6V/cell 3.7V/cell 2.0V/cell 1.2V/cell 1.5V/cell 1.2V/cell 3.6V/cell 3.3V/cell 3.8V/cell 4.2V/cell 3.7V/cell 4.35V/cell Nominal Voltage Max Charge Voltage Storage Voltage Allowable Fast Charge Min. Discharge Voltage 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. 3.0-3.3V/cell 2.9-3.2V/cell 2.6-2.9V/cell 0.1-1.1V/cell 0.1-1.1V/cell 1.8V/cell 3.1-3.4V/cell 2.46V/cell 3.85V/cell 3.3V/cell 1.5V/cell 3.7V/cell 0.4C 1C-2C 1C-2C 1C 1C 4C 1C n/a n/a n/a 06 Q200 WARNING AND SAFETY NOTES 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 (Explosion hazard). Batteries that require a different charge technique from NiCd, NiMh, LiPo or Gel cell
(Pb, Lead acid). 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 adequate current for charging or discharging?
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. 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 performance, 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 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 battery manufacturer about charging methods, recommended charging current and charging time. Especially, the lithium battery should be charged according the charging instruction provided by the manufacturer strictly. Attention should be paid to the connection of lithium battery especially. Do not attempt to disassemble the battery pack arbitrarily. Q200 07 WARNING AND SAFETY NOTES 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 battery capacity by the number of cells with total voltage stay the same. The voltages imbalance may cause fire or explosion .Lithium battery is recommended to charge in series. Discharging The main purpose of discharging is to clean 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 charging. The final discharge voltage should be set up correctly to avoid deep-
discharging. Lithium battery can not be discharged to lower than the minimum voltage, or it will cause a rapid loss of capacity or a total failure. Generally, lithium battery doesn't need to be discharged. Please pay attention to the minimum voltage of lithium battery to protect the battery. 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 NiCd and NiMH batteries are suffering from memory effect. NiCd has more memory effect than NiMH. FCC Caution:
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
-Reorient or relocate the receiving antenna.
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help. 08 Q200 PROGRAM FLOW CHART Note: The flow chart is taking one channel for example as the flow chart for the two channels (Channel A, B, C and Channel D) are identical. INC DEC BATT/PROGRAM LiPo BATT INC DEC BATT/PROGRAM LiFe BATT INC DEC BATT/PROGRAM LiIo BATT START ENTER START ENTER INC DEC BATT/PROGRAM START LiHV BATT ENTER START ENTER LiPo BALANCE CHG 2.0A 7.4V (2S) INC DEC LiPo CHARGE 2.0A 7.4V (2S) LiFe BALANCE CHG 2.0A 6.6V (2S) INC DEC LiFe CHARGE 2.0A 6.6V (2S) Lilo BALANCE CHG 2.0A 7.2V (2S) LiHV BALANCE CHG 2.0A 7.6V (2S) Lilo CHARGE 2.0A 7.2V (2S) LiHV CHARGE 2.0A 7.6V (2S) INC DEC INC DEC INC DEC INC DEC LiPo FAST CHARGE 2.0A 7.4V (2S) LiFe FAST CHARGE 2.0A 6.6V (2S) Lilo FAST CHARGE 2.0A 7.2V (2S) LiHV FAST CHARGE 2.0A 7.6V (2S) INC DEC BATT/PROGRAM START NiMH CHARGE NiMH BATT ENTER CURRENT 2.0A INC DEC BATT/PROGRAM NiCd BATT START ENTER NiCd CHARGE CURRENT 2.0A NiMH Auto CHARGE CURRENT 2.0A INC NiMH DISCHARGE 0.1A CUT: 1.0V DEC NiCd Auto CHARGE CURRENT 2.0A INC NiCd DISCHARGE 0.1A CUT: 1.0V DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC LiPo STORAGE 2.0A 7.4V (2S) LiFe STORAGE 2.0A 6.6V (2S) Lilo STORAGE 2.0A 7.2V (2S) LiHV STORAGE 2.0A 7.6V (2S) NiMH RE-PEAK 1 NiCd RE-PEAK 1 INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC LiPo DISCHARGE 2.0A 7.4V (2S) LiFe DISCHARGE 2.0A 6.6V (2S) Lilo DISCHARGE 2.0A 7.2V (2S) LiHV DISCHARGE 2.0A 7.6V (2S) NiMH CYCLE CHG>DCHG 1 NiCd CYCLE CHG>DCHG ��� 1 INC DEC BATT/PROGRAM START Pb BATT ENTER INC DEC BATT/PROGRAM BATT METER INC DEC BATT/PROGRAM BATT RESISTANCE Pb CHARGE 2.0A 2.0V (1P) INC Pb DISCHARGE 0.1A 2.0V (1P) DEC START ENTER START ENTER 4.20 4.19 4.19 V 0.00 0.00 0.00 V INC DEC MAIN 0.00V H0.000V L0.000V INC 005 003 003 m 005 m DEC TATAL: 16m H: 5m L: 3m INC DEC START BATT/PROGRAM SYSTEM SETTING-> ENTER Safety Timer ON 120Min Load Factory Set Enter DEC INC Version HW:1.00 FW: 1.10 INC DEC Stop Batt Type INC DEC INC DEC Capacity Cut-Off ON 5000mAH INC DEC Temp Cut-Off ON 50C 122F INC AC�Max Power Set 50W DEC Bal. Connection ON INC DEC INC DEC Temperature Unit Celsius DC Input Low CUT-OFF 11.0V INC DEC INC DEC Rest Time CHG>DCHG 10Min Key Beep ON Buzzer ON BATT/PROGRAM BATT MEMORY START ENTER
[ BATT MEMORY 1 ]
ENTER SET->
START BATT TYPE ENTER LiPo STARG/ENTER>3�Seconds�
[ BATT MEMORY 1 ]
C:4.9A D:2.2A ENTER CHARGER LOAD LiPo BALANCE CHG 4.9A 7.4V(2S) ENTER START
[ BATT MEMORY 2 ]
ENTER SET->
START ENTER BATT TYPE MiMH
[ BATT MEMORY 2 ]
C:1.0A D:1.0A START ENTER > 3s ENTER CHARGER LOAD
[ BATT MEMORY 2 ]
NiMH 2.4V (2S ) NiMH CHARGE CURRENT 1.0A ENTER START
[ BATT MEMORY 3 ]
ENTER SET->
START BATT TYPE ENTER Pb INC DEC INC DEC INC DEC INC DEC INC DEC BATT VOLTS 7.4V ( 2S ) DEC INC CHARGE CURRENT INC DSCH CURRENT 4.9A DEC 2.2A
[ BATT MEMORY 1 ]
LiPo 7.4V (2S ) SAVE PROGRAM SAVE. START ENTER SAVE PROGRAM ENTER LiPo CHARGE 4.9A 7.4V(2S)
����2.4V (2S) BATT VOLTS INC DEC INC DEC LiPo FAST CHARGE 4.9A 7.4V(2S) CHARGE CURRENT 3.3A INC DEC INC DEC SAVE PROGRAM SAVE. START ENTER SAVE PROGRAM ENTER INC DSCH VOLTAGE DEC NiMH Auto CHARGE CURRENT 1.2A BATT VOLTS 4.0V (2P) INC DEC INC DEC NiMH DISCHARGE 1.0A CUT: 2.0V CHARGE CURRENT 3.3A INC DEC INC DEC LiPo STORAGE 4.9A 7.4V(2S) TRICKLE 100mA
����1.1V/CELL
������1.5A NiMH RE-PEAK 2 DSCH CURRENT INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC INC DEC NiMH�� Sensitivity D.Peak �� 4mv INC DEC NiCd�� Sensitivity D.Peak �� 4mv DSCH VOLTAGE 3.0V/CELL INC DEC TVC=YOUR RISK 4.20V LiPo DISCHARGE 2.2A 7.4V(2S) PEAK DELAY 1Min INC DEC DSCH CURRENT 2.2A NiMH CYCLE DCHG>CHG 1
����1.7V/CELL DSCH VOLTAGE INC DEC Pb CHARGE 3.3A 4.0V(2P) ENTER CHARGER LOAD
[ BATT MEMORY 3 ]
C:3.3A D:1.5A
[ BATT MEMORY 3 ]
Pb 4.0V (2S ) STARG/ENTER>3s SAVE PROGRAM SAVE. START ENTER SAVE PROGRAM ENTER Pb DISCHARGE 1.5A 4.0V(2P) Q200 09 OPERATION CHANNEL A/B/C/D It is used to switch among channels. BATT PROG / STOP Button:
It is used to stop the progress or go back to previous step/screen DEC Button:
It is used to go through the menus and decrease the parameter value INC Button:
It is used to go through the menus and increase the parameter value ENTER / START Button:
It is used to enter parameter or store parameter on screen. When you are willing to alter the parameter value in the program, press the START/ENTER button to make it blink then change the value by pressing DEC and INC button. The value will be stored by re-pressing the START/ENTER button. If there is another parameter can be altered in the same screen, when you confirm the first parameter value, the next parameter value will start to blink which means it is ready to alert. When you are willing to start the process, press and hold the START/ENTER button for 3 seconds. When you are willing to stop the progress or go back to previous step/screen, press the BATT PROG/STOP button once. When you power on the charger, it will enter LiPo Battery balance program directly. You could change the mode (balance mode, normal charge mode, fast charge mode, store mode or discharge mode), enter the desired charging/discharging mode, set the referred parameter and start the progress. If you have no request for LiPo Battery program, please press the BATT PROG/STOP button to enter BATT PROGRAM screen. 10 Q200 OPERATING PROGRAM Here is the detailed procedure to make the charger work. All the screens and operations will take Li-Po BALANCE CHARGE program for example, Note: We will explain one channel as the operating procedure of Channel A, B, C and D is identical. 1. Connection 1). Connecting to power source There are two kinds of inputs for SKYRC Q200, DC 11-18V and AC 100-240V. A. Operating in AC mode SKYRC Q200 comes with built in switching power supply. You can connect the AC power cord directly to the main AC socket. (100-240V AC). In AC mode, it supports Power Distribution. You could set the AC Max Power for one channel (Take Channel A for example)as following, A B C D A B C D BATT/PROGRAM SYSTEM SETTING->
LIPO BALANCE 2.0A 7.4V(2S) LIPO BALANCE 2.0A 7.4V(2S) LIPO BALANCE 2.0A 7.4V(2S) AC Max Power Set 65W LIPO BALANCE 2.0A 7.4V(2S) AC Max Power Set 35W LIPO BALANCE 2.0A 7.4V(2S) A B C D A B C D Safety Timer ON 120Min LIPO BALANCE 2.0A 7.4V(2S) LIPO BALANCE 2.0A 7.4V(2S) LIPO BALANCE 2.0A 7.4V(2S) AC Max Power Set 50W LIPO BALANCE 2.0A 7.4V(2S) LIPO BALANCE 2.0A 7.4V(2S) LIPO BALANCE 2.0A 7.4V(2S) And the other channel (Channel C) will take the rest power automatically (For example, if you set channel A as AC 65W, the channel C will be AC 35W). NOTE1:
NOTE2:
If Channel A and Channel C are both charging, you cant change the AC power. If Channel A is charging, you can change AC power of Channel C and Channel A will take the rest power automatically. Q200 11 OPERATING PROGRAM Please refer to below table for detailed distributed power value in different channels. DC Mode Charging Power Charging Power Power Distribution AC Mode CH A 0-100W 50-100W A+C=100W B+D=100W A+C=100W B+D=100W CH B 0-100W 50-100W CH C 0-50W 0-50W CH D 0-50W 0-50W Note 1:
Note 2:
Note 3:
The total power of Channel A and Channel C is 100W; and the total power of Channel B and Channel D is 100W. Power distribution can be applied in certain two channels. Take Channel A for example, it can be shared power with Channel C only, but cant with Channel B or Channel D. There is min and max charging power limit in certain two channels. Take Channel A and Channel C for example, Channel A can be set from 50W to 100W while Channel C can be set from 0 to 50W. B. Operating in DC mode Please connect SKYRC Q200 with AC/DC power supply by supplied DC input cable. Also you could use terminal clips with DC connectors, for attaching directly to 12V car batteries. It is critically important that you use either a fully charged 13.8V car battery or a high quality AC/DC power supply in the range of 11-18V DC output with minimum power 400W or higher to insure reliable performance. Important Notice Low quality DC power source may damage your Q200 charger. We recommend you to choose EFUEL 30A/540W Power Supply (SK-
200013). 12 Q200 OPERATING PROGRAM 2). Connecting the battery Important!!! Before connecting a battery it is absolutely essential to check one last time that you have set the parameters correctly. If the settings are incorrect, the battery may be damaged, and could even burst into flames or explode. To avoid short circuits between the banana plugs, always connect the charge leads to the charger first, and only then to the battery. Reverse the sequence when disconnecting the pack. 3). Balance Socket For safety issue, the default setting for charging Lithium(LiPo, Lilo, LiFe and LiHV) battery is using balance adaptor to connect battery and charger in Charge, Fast Charge, Balance Charge and Storage modes. But if the battery comes no balance wire, you could disable this function in system setting�as�following, BATT/PROGRAM SYSTEM SETTING BAL.Connection OFF The balance wire attached to the battery must be connected to the charger with the black wire aligned with the negative marking. Take care to maintain correct polarity!
(See the wiring diagram below.) This diagram shows the correct way to connect your battery to the SKYRC Q200 while charging. WARNING:
Failure to connect as shown in this diagram will damage this charger. To avoid short circuit between the charge lead always connect the charge cable to the charger first, then connect the battery. Reverse the sequence when disconnecting. Q200 13 OPERATING PROGRAM 2. Getting started Locate the flowcharts show the entire programming menu. It is highly recommended to have these flowcharts handy while learning to operate this charger. There are two main ways in which to set the charger.
(1) A memory profile is available for setting and storing pertinent information for up to 40 different batteries, each channel can store 10 sets. Once a battery's information is stored into a memory it will be retained until changed again manually. Recalling a battery's memory number makes the charger instantly ready to go!
If you do not wish to use the battery memories, this charger can be manually set before each use.
(2) For following step, all are basing on manually set 3. BATT/PROGRAM Select BATT/PROGRAM LiPo BATT START/ENTER LiPo BALANCE CHG 2.0A 11.1V (3S) START/ENTER LiPo BALANCE CHG 2.0A 11.1V (3S) START/ENTER LiPo BALANCE CHG 2.0A 11.1V (3S) START/ENTER LiPo BALANCE CHG 2.0A 11.1V (3S) START/ENTER
> 3 Seconds BATTERY CHECK WAIT... R:3SER S:3SER CANCEL(STOP) Press INC and DEC to go through all the programs and press START/ENTER to enter LiPo BATT Program. 4. Mode Select Press INC and DEC to go through all the modes and press START/ENTER to enter LiPo Balance Charge Mode. 5. Battery Setting Press START/ENTER, the current value will start to blink, press INC and DEC to change the value and press START/ENTER to confirm your setting. At the same time, the battery cells number will start to blink, press INC and DEC to change the value and press START/ENTER to confirm your setting. 6. Program Start Press and hold START/ENTER for 3 seconds to start the program. The charger is detecting the battery cell. R shows the number of cells detected by the charger and S is the number of cells set by you at the previous screen. If both numbers are not identical, press STOP to go back to previous screen to recheck the number of cells of the battery pack before going ahead. 14 Q200 R:3SER S:3SER CONFIRM(ENTER) START/ENTER Lp4s 1.5A 12.14V BAL 000:50 00022 OPERATING PROGRAM R shows the number of cells detected by the charger and S is the number of cells set by you at the previous screen. If both numbers are identical, press START/ENTER to start charging process. 7. Charging Status Monitor During charge process, real-time status will be showed as left screen. NOTE:
The battery icon indicates the charge / discharge status and finished capacity percentage. Greencharge Reddischarge VARIOUS INFORMATION DURING THE PROCESS Press INC or DEC during charging or discharging process, you can inquire various information on LCD screen . LP4s 1.5A 12.14V BAL 000:50 00022 INC 4.07 4.06 4.11 V 0.00 0.00 0.00 V INC Fuel= 90%
Cell= 4.10V LP4s 1.5A 12.14V BAL 000:50 00022 DEC End Voltage 12.6V(3S) DEC IN Power Voltage 12.56V DEC Ext. Temp ----
Int. Temp 37C DEC Real-time status: battery type, battery cell, charge current, battery voltage, elapsed time and charged capacity Voltage of each cell in the battery pack when the battery is connected with balance lead. Charged capacity percentage and average cell voltage of the battery pack. Final voltage when the program ends. Input voltage. Internal temperature. Temperature probe is needed to show external temperature. Temp Cut-Off 50C Cut off temperature DEC Safety Time ON 200min DEC Capacity Cut-Off ON 5000mAh Q200 Safety timer ON and duration of time in minutes. Capacity cut-off ON and the setting value of capacity. 15 OPERATING PROGRAM 8. Program Stop During the charging process, press STOP to stop the charging process. 9. Program Complete When the charging process finishes, an audible sound will be heard. Charging Program Depends on different battery types, the operation programs are different. Batt Type LiPo Lilon LiFe LiHV Operation Program CHARGE DISCHARGE STORAGE FAST CHG Description This charging mode is for charging LiPo/LiFe/LiIon/LiHV battery in normal mode. This mode is for discharging LiPo/LiFe/LiIon/LiHV battery. This program is for charging or discharging LiPo/LiFe/LiIon/LiHV battery which will not be used for long time. The charging capacity may be less than normal charging but the process time will be reduced. BAL CHARGE This mode is for balancing the voltage of LiPo/LiFe/LiIon/LiHV battery cells while charging. CHARGE The charger will charge NiMH and NiCd batteries using the charge current set by the user. AUTO CHG DISCHARGE NiMH NiCd RE-PEAK CYCLE Pb CHARGE DISCHARGE In this program the charger detects the condition of the battery which is connected to the output and automatically charges the battery. Note: you should set up the upper limit of the charge current to avoid damage by excessive feeding current. Some batteries of low resistance and capacity can lead to higher current. This mode is for discharging NiMH/NiCd battery. In re-peak charge mode, the charger can peak charge the battery once, twice or three times in a row automatically. This is good for confirming the battery is fully charged, and for checking how well the battery receives fast charges. 1 to 5 cyclic and continuous process of charge>discharge or discharge>charge is operable for battery refreshing and balancing to stimulate the battery's activity. This mode is for charging Pb battery. This mode is for discharging Pb battery. 16 Q200 BATTERY MEMORY SET AND CALL OUT The charger can store up to 40 different charge/discharge profiles(each channel 10 sets) for your convenience, and the stored profiles can be recalled quickly without having to go through the setup process. When you are willing to alter the parameter value in the program, press START/ENTER to make it blink then change the value with INC or DEC. The value will be stored by pressing START/ENTER once. Note: All following screen are taking 2S(7.4V) LiPo battery for example.
[ BATT MEMORY 1 ]
ENTER SET->
START/ENTER BATT TYPE LiPo DEC INC BATT VOLTS 7.4V ( 2S ) DEC INC CHARGE CURRENT 4.9A DEC INC DSCH CURRENT 2.0A DEC INC DSCH VOLTAGE 3.0V/CELL DEC INC TVC=YOUR RISK 4.20V DEC INC SAVE PROGRAM ENTER START/ENTER Q200 1. Battery Memory Set Enter the battery memory program.
(10 different charge/discharge profiles can be stored in each channel). Set the battery type(LiPo/LiFe/LiIon/LiHV/NiMH/NiCd/Pb). Set the voltage and number of cells(1S-6S). Set the charge current(CH A/B 0.1-10.0A / CH C/D 0.1-5.0A). Set the discharge current (0.1-2.0A). Set the discharge voltage(3.0-3.3V/Cell). Set the terminal voltage(4.18-4.25V). Press ENTER to save program. 17 BATTERY MEMORY SET AND CALL OUT SAVE PROGRAM SAVE.
[ BATT MEMORY 1 ]
LiPo ��� 7.4V (2S) Indicate the battery type and battery cell of the saved profile.
[ BATT MEMORY 1 ]
C:4.9A D:2.2A Indicate the charge and discharge current of the saved profile. Press the START/ENTER for 3 seconds to call out the memory. START/ENTER
>3 Seconds 2. Battery Memory Call Out ENTER CHARGER LOAD Load the memory set LiPo BALANCE CHG 4.9A 7.4V(2S) Press START/ENTER for 3 seconds to start the process. 18 Q200 SYSTEM SETTING It will be operated with the default value of the essential user settings when it is powered on 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 to make it blink then change the value with INC or DEC. The value will be stored by pressing START/ENTER once. ITEM SELECTION DESCRIPTION Safety Timer ON 120Min OFF/
ON
(1-720 Min) Capacity Cut-Off ON 5000mAH OFF/
ON
(100-50000 mAh) Temp Cut-Off ON 50C 122F Temperature Unit Celsius OFF/
ON
(20 C/68 F -
80 C/176 F) Celsius Fahrenheit 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. This program sets the maximum charge capacity that will be supplied to the battery during charge. If the delta peak voltage is not detected nor the safety timer expired by any reason, this feature will automatically stop the process at the selected capacity value. The battery's internal chemical reaction will cause the temperature of the battery to rise. If the temperature limit is reached, the process will be terminated. You can choose the temperature displayed by Celsius or Fahrenheit as you like. Rest Time CHG>DCHG 10Min 1-60Min A rest time allowing the battery to cool down between charging/discharging cycle. Q200 19 SYSTEM SETTING ITEM SELECTION DESCRIPTION NiMH�Sensitivity D.Peak �Default NiCd�Sensitivity D.Peak �Default Default: 4mV/Cell 5-15mV/Cell This program is for NiMH/NiCd battery only. When the charger detects the delta peak value reaches the value you set, the charger will say the battery is fully charged. Key Beep ON Buzzer ON OFF/ON Input. Power Low Cut-Off 11.0V 10.0-11.0V BAL.Connection ON OFF/ON AC Max Power Set 100W 0-100W Load Factory Set Enter Version HW:1.00 FW: 1.10 The beep sounds at every time touching the buttons to confirm your action. The beep or melody sounded at various times during operation to alert different mode changes. 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. The default setting for charging Lithium battery is using balance adaptor to connect battery and charger in Charge, Fast Charge, Balance Charge and Storage modes. This function could be disabled here. It is to set the max AC power of the present channel. Once you set it, the another channel will take the rest. Max Charge Power for CH A/CH B 100W Max Charge Power for CH C/CH D 50W Press ENTER to load factory default setting. It indicates the hardware and firmware version. 20 Q200 BATTERY METER The user can check battery's total voltage, the highest voltage, the lowest voltage and each cell's voltage. Please connect the battery to the charger main battery lead to battery socket and balance wires to balance socket. Battery Pack A B C D 4.19 4.15 4.18V 4.15 4.19 4.18V 4.19 4.15 4.18V 4.15 4.19 4.18V 4.19 4.15 4.18V 4.15 4.19 4.18V 4.19 4.15 4.18V 4.15 4.19 4.18V Battery Pack P a c k B a t t e r y P a c k B a t t e r y This diagram shows the correct way to connect your battery to check the voltage. BATT/PROGRAM BATT METER Press the START/ENTER to enter the Lithium Battery Meter program. START ENTER 4.20 4.19 4.19 V 4.18 4.18 4.19 V INC DEC MAIN 25.13V H4.200V L4.182V The screen indicate each cell's voltage. The screen indicate the total voltage, the highest voltage and the lowest voltage. Q200 21 BATTERY RESISTANCE METER The user can check battery's total resistance, the highest resistance, the lowest resistance and each cell's resistance. Please connect the battery to the charger main battery lead to battery socket and balance wires to balance socket. Battery Pack A B C D 005 003 003 m 005 003 003 m 005 003 003 m 005 003 003 m 005 003 003 m 005 003 003 m 005 003 003 m 005 003 003 m Battery Pack P a c k B a t t e r y P a c k B a t t e r y This diagram shows the correct way to connect your battery to check the resistance. BATT/PROGRAM BATT RESISTANCE Press the START/ENTER to enter the Lithium Battery Resistance program. Start Enter 012 005 005 �m 006 �m INC DEC The screen indicate each cell's resistance.
��TATAL:�28m H:�12m� L:�5m The screen indicate the total resistance, the highest resistance and the lowest resistance. 22 Q200 WARNING AND ERROR MESSAGE In case of an error the screen will display the cause of error and emit an audible sound. REVERSE POLARITY Incorrect polarity connected. CONNECTION BREAK The battery is interrupted. CONNECT ERROR CHECK MAIN PORT BALANCE CONNECT ERROR The�battery connection is wrong. The�balance�connect�is�wrong. DC IN TOO LOW Input voltage less than 11V. DC IN TOO HIGH Input voltage higher than 18V. CELL ERROR LOW VOLTAGE CELL ERROR HIGH VOLTAGE CELL ERROR VOLTAGE-INVALID CELL NUMBER INCORRECT INT.TEMP.TOO HI Voltage of one cell in the battery pack is too low. Voltage of one cell in the battery pack is too high. Voltage of one cell in the battery pack is invalid. The cell number is wrong. The internal temperature of the unit goes too high. EXT.TEMP.TOO HI The external temperature of the battery goes too high. OVER CHARGE CAPACITY LIMIT OVER TIME LIMIT The battery capacity is more than the maximum capacity which the user sets. The charging time is longer than the maximum charging time which the user sets. BATTERY WAS FULL The battery voltage is higher than the maximum voltage which the user sets when charging in balance mode. Q200 23 USING THE CHARGE CONTROL SOFTWARE CHARGE MASTER The free Charge Master software gives you unparalleled ability to operate the charger through the computer. You can monitor pack voltage, cell voltage and other data during the charging, view charge date in real-time graphs. And you can initiate, control charging and update firmware from Charge Master. In order to connect the charger to the computer and use the Charge Master, you are required to use a USB cable which is not included in this package. The cable must be terminated on one end with A plug and the opposite end is terminated with micro-B plug which can connect to charger directly. You can control, monitor, operate and upgrade two channels with one computer. The Charge Master can be download from www.skyrc.com. THE�SET�CONTAINS 1. SKYRC Q200 Charger 2. XH Adaptor X 4 3. Charging Cable X 2 4. Banana Connectors with XT60 Connector Charging Cable X 4 5. Power Cord 2 1 3 4 5 24 Q200 SPECIFICATION DC Input Voltage : 11-18V AC Input Voltage: 100-240V Display Type: Colorful 480x320 LCD Display Backlight: Cool White Case Material: Plastic Controls: Five Buttons Case Size: 197x182x71mm Weight: 1325g PC Communications: USB Port for PC Control & Firmware Upgrade External Port: 2-6S Balance Socket-XH, Temperature Probe Socket, Battery Socket, DC Input, Micro USB Port for PC, 5V/2.1A USB Port. Delta Peak Detection for NiMH/NiCd: 3-15mV/cell / Default: 4mV/cell Charge Cutoff Temperature: 20C/68F-80C/176F(adjustable) Charge Voltage: NiMH/NiCd: Delta peak detection
���� LiPo: 4.18-4.25V/cell LiIon: 4.08-4.2V/cell LiFe: 3.58-3.7V/cell LiHV: 4.25-4.35V/cell Balance Current: 200mA/cell Reading Voltage Range: 0.1-26.1V/cell Battery Types/Cells: LiPo/LiIon/LiFe/LiHV: 1-6cells NiMH/NiCd: 1-15cells
��������� Pb: 2-20V Battery Capacity Range: NiMH/NiCd: 100-50000mAh LiPo/LiIon/LiFe/LiHV: 100-50000mAh
������������������������������������������������������Pb: 100-50000mAh Charge Current: Channel A/B: 0.1-10A; Channel C/D: 0.1-5A Safety Timer: 1-720minutes off Charge Wattage: AC CHA+CHC=100W CHB+CHD=100W
(CHA/CHB: 50-100W CHC/CHD: 0-50W) DC CHA/CHB: 100W CHC/CHD: 50W Discharge Current: (0.1A-2.0A) x4 Discharge Cut-off Voltage: NiMH/NiCd: 0.1-1.1V/cell LiPo: 3.0-3.3V/cell LiIon: 2.93.2V/cell LiFe: 2.6-2.9V/cell LiHV: 3.1-3.4V/cell Pb: 1.8V Discharge Wattage: 10Wx4 Balance Cells: 2-6 cells Memory: 10x4 Different Charge/Discharge Profiles Charge Method: CC/CV for Lithium Types and Lead (Pb) Batteries Delta-peak Sensitivity for NiMH/NiCd. Q200 25 CONFORMITY DECLARATION D200 satisfy all relevant and mandatory CE directives and FCC Part 15 Subpart B: 2014. For EC directives:
The product has been tested to meet the following technical standards:
EN 300328 EN 301489-1 EN 301489-17 EN 62479 EN 60950-1 EN 55014-1 EN 55014-2 EN 61000-3-2 EN 61000-3-3 Part 15 Section 15.247 Electromagnetic compatibility and Radio spectrum Matters (ERM); Wideband transmission systems; Data transmission equipment operating in the 2.4 GHz ISM band and using wide band modulation techniques;
Harmonized EN covering essential requirements under article 3.2 of the R&TTE Directive. Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1:
Common technical requirements. Part 17: Specific conditions for Broadband Data Transmission Systems. Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields
(0 Hz - 300 Ghz). Information Technology Equipment-Safety- Part 1: General Requirements Electromagnetic Compatibility - Requirements for household appliances, electric tools and similar apparatus
- Part 1: Emission. Electromagnetic Compatibility - Requirements For Household Appliances, Electric Tools And Similar Apparatus - Part 2: Immunity Product Family Standard. Electromagnetic Compatibility (EMC) Part 3-2: Limits for harmonic current emissions (Equipment input current up to and including 16A per phase). Electromagnetic Compatibility (EMC) Part 3-3: Limitation of voltage supply systems for equipment with rated current 16A Operation within the bands 902 - 928 MHZ, 2400 -
2483.5 MHz, and 5725 - 5850 MHz. This symbol means that you must dispose of electrical from the General household waste when it reaches the end of its useful life. Take your charger to your local waste collection point or recycling centre. This applies to all countries of the European Union, and to other European countries with a separate waste collection system. 26 Q200 COMMONLY USED TERMS Commonly used terms Final charge voltage: the voltage at which the battery's charge limit (capacity limit) is reached. The charge process switches from a high current to a low maintenance rate
(trickle charge) at this point. From this point on further high current charging would cause overheating and eventual terminal damage to the pack. Final discharge voltage: the voltage at which the battery's discharge limit is reached. The chemical composition of the batteries determines the level of this voltage. Below this voltage the battery enters the deep discharge zone. Individual cells within the pack may become reverse polarized in this condition, and this can cause permanent damage. A, mA: unit of measurement relating to charge or discharge current.1000 mA = 1 A
(A=Ampere,mA=Milliampere) Ah, mAh: unit of measurement for the capacity of a battery (Amperes x time unit; h = hour). If a pack is charged for one hour at a current of 2 A, it has been fed 2 Ah of energy. It receives the same quantity of charge (2 Ah) if it is charged for 4 hours at 0.5 A, or 15 minutes (=1/4 h) at 8 A.
'C'-rating: Capacity is also referred to as the 'C' rating. Some battery suppliers recommend charge and discharge currents based on the battery 'C' rating. A battery's '1C' current is the same number as the battery's rated capacity number, but noted in mA or amps. A 600mAh battery has a 1C current value of 600mA, and a 3C current value of (3 x 600mA) 1800mA or 1.8A. The 1C current value for a 3200mAh battery would be 3200mA (3.2A). Nominal voltage(V): The nominal voltage of the battery pack can be determined as follows;
-.NiCd or NiMH: multiply the total number of cells in the pack by 1.2. A 8-cell pack will have a nominal voltage of 9.6 volts (8x1.2).
-.LiPo: multiply the total number of cells in the pack by 3.7. A 3-cell LiPo wired in series will have a nominal voltage of 11.1 volts (3x3.7).
-.LiIo: multiply the total number of cells in the pack by 3.6. A 2-cell LiIo wired in series will have a nominal voltage of 7.2 volts (2x3.6).
-.LiFe: multiply the total number of cells in the pack by 3.3. A 4-cell LiIo wired in series will have a nominal voltage of 13.2 volts (4x3.3).
-.LiHV: multiply the total number of cells in the pack by 3.7V. A 4-cell LiHV wired in series will have a nominal voltage of 14.8 volts (4x3.7). If the nominal voltage of the battery is not printed on the battery's label, consult your battery manufacturer or supplier. Do not guess the rated voltage of battery. Q200 27 WARRANTY AND SERVICE Liability exclusion This charger is designed and approved exclusively for use with the types of battery stated in this Instruction Manual. SkyRC accepts no liability of any kind if the charger is used for any purpose other than that stated. We are unable to ensure that you follow the instructions supplied with the charger, and we have no control over the methods you employ for using, operating and maintaining the device. For this reason we are obliged to deny all liability for loss, damage or costs which are incurred due to the incompetent or incorrect use and operation of our products, or which are connected with such operation in any way.Unless otherwise prescribed by law, our obligation to pay compensation, regardless of the legal argument employed, is limited to the invoice value of those SkyRC products which were immediately and directly involved in the event in which the damage occurred. Warranty and service We guarantee this product to be free of manufacturing and assembly defects for a period of one year from the time of purchase. The warranty only applies to material or operational defects, which are present at the time of purchase. During that period, we will repair or replace free of service charge for products deemed defective due to those causes. This warranty is not valid for any damage or subsequent damage arising as a result of misuse, modification or as a result of failure to observe the procedures outlined in this manual. Note:
1. 2. The warranty service is valid in China only. If you need warranty service overseas, please contact your dealer in the first instance, who is responsible for processing guarantee claims overseas. Due to high shipping cost, complicated custom clearance procedures to send back to China. Please understand SkyRC can't provide warranty service to overseas end user directly. If you have any questions which are not mentioned in the manual, please feel free to send email to info@skyrc.cn 3. 28 Q200 Manufactured by SKYRC TECHNOLOGY CO., LTD. www.skyrc.com FCC IDREY-Q200 All specifications and figures are subject to change without notice. Printed in China 2016.02 7504-0601-01