MPPT太阳能电动车充电控制器使用说明书

深圳市爱庞德新能源科技有限公司I-P-SMART2-40A/50A/60A目录1注意事项 (2)2安全说明 (2)3设备开封检查 (5)4MPPT控制器安装 (6)5 MPPT控制器连接 (7)6LED\LCD和功能键说明. (10)7 MPPT控制器参数设置 (12)8 MPPT控制器与PC的连接 (13)9MPPT控制器技术参数 (18)10维护和清洁................................................................................... . (20)11 储存和废弃处理 (21)12 故障处理与保修 (21)标志图1 MPPT 太阳能控制器配件图项目A AEDHF4.2.1 尺寸如果高电压输入，操作不正确，太阳能充电控制器可能导致生太阳能充电系统连接图图4 太阳能充电系统连接图5.2.1 太阳能板组串请选择具有优异性能和可靠质量的光伏组件，可以多块太阳能板串联和并联，组成后的太阳能板模块列阵的开路电压和总功率应小于太阳能控制器允许5.2.2 蓄电池系统电压及其类型确保控制器按以上安装和连接后6、LED\LCD显示和功能键说明6.1面板说明图3 面板显示示意图LED指示灯及功能键说明:ALARM (Red） ----- 故障灯(红色，控制器出现故障后此灯会亮) CHANGE(Blue) ----- 充电示灯(蓝色，控制器充电过程此灯会亮) LOAD(Green)------- 负载灯（绿色，当DC开关打开后此灯会亮）UP ----------- UP功能键（用于查询或设置上翻页和数值增大的更改）DOWN ------- DOWN 功能键（用于查询或设置下翻页和数值减小的更改）ENTER ------------------ ENTER 键（用于确认、进入某参数的设置）ESC ------------------- ESC 键（用于退出并且保存）6.2 充电模式辨别本控制器充电模式有三种模式，分别是恒流充电阶段（CC模式），恒压充电阶段(CV模式），浮充充电阶段（CF模式）；在快充CC模式中，蓝色电源指示灯每秒会闪一次；在恒压CV充电模式中，蓝色电源指示灯每三秒会闪一次；在浮充CF模式中，电源指示灯会处在常亮状态中。

PWM太阳能控制器使用说明书版本号：2014-V1.0非常感谢您购买我公司的太阳能控制器！请在安装及使用本产品前，仔细阅读说明书，并妥善保管。

须有经验的技术人员进行安装操作，安装过程需严格按照本使用手册进行安装，以确保该产品能正常工作。

目录一、重要的安全说明 (2)二、一般安全信息 (2)三．产品简介 (2)四．性能特点 (3)五、产品外观 (3)六、LCD液晶显示说明 (3)七、安装说明第1步：连接蓄电池 (6)第2步：连接光伏组件 (6)第3步：连接负载 (7)第4步：检查连接 (8)第5步：控制器通电 (8)第6步：光伏组件通电 (8)八、LCD浏览说明 (9)九、系统异常情况下的显示说明 (10)十、系统设置说明 (11)十一、一般故障排除 (13)十二、光伏发电系统的维护 (14)十三、使用环境 (14)十四、保修承诺 (15)十五、声明 (15)十六、型号说明 (15)十七、部分技术参数 (16)十八、控制器外形尺寸图 (17)十九、监控软件及数据线的连接 (18)一、重要的安全说明警告1. 连接蓄电池之前，确保蓄电池电压高于额定电压的80%!低于80%时控制器很大可能会造成损坏。

严禁使用劣质蓄电池！2.光伏组件的总开路电压不得高于蓄电池组电压的2倍。

3. 光伏组件的总工作电压不得低于蓄电池组电压的1.2倍。

4. 严禁在未接蓄电池情况下，用三相交流电整流后模拟光伏组件充电。

二、一般安全信息控制器内部没有需要维护或维修部件，用户不可拆卸和维修控制器。

在安装和调整控制器的接线前务必断开光伏的连线和蓄电池端子附近的保险或断路器。

建议在控制器外部安装合适的保险丝或断路器。

防止水进入控制器内部。

安装之后检查所有的线路连接是否紧实，避免由于虚接而造成热量聚集发生危险。

三、产品简介是针对小型的光伏离网发电系统设计的一款智能型光伏控制器，能控制多路太阳能电池方阵实现蓄电池组的充放电管理功能，依据蓄电池组端电压的变化趋势自动控制太阳能电池方阵的依次接通或切离，既可充分利用宝贵的太阳能电池资源，又可保证蓄电池组安全而可靠的工作。

Operating manualSolar charge controller10.10 A / 8.8 A / 6.6 APlease read these instructions completely before installation!1. About this manualThese operating instructions are part of the product. Read these operating instructions carefully before use, keep them over the entire lifetime of the product, and pass them on to any future owner or user of this product.This manual describes the installation, function, operation and maintenance of the solar charge controller. These operating instructions are intended for end customers.A technical expert must be consulted in cases of uncertainty.2. SafetyThe solar charge controller may only be used in PV systems for charging and controlling lead-acid batteries in accordance with this operating manual and the charging specifications of the battery manufacturer.The solar charge controller may only be connected to the local loads and the battery by trained personnel and in accordance with the applicable regulations. Follow the installation and operating instructions for all components of the PV system.No energy source other than a solar generator may be connected to the solar charge controller. Follow the general and national safety and accident prevention regulations.Keep children away from PV systems. Do not use the solar charge controller in dusty environments, in the vicinity of solvents or where inflammable gases and vapours can occur. No open fires, flames or sparks in the vicinity of the batteries. Ensure that the room is adequately ventilated. Check the charging process regularly.Follow the charging instructions of the battery manufacturer. Battery Acid splashes on skin or clothing should be immediately rinse with plenty of water. Seek medical advice.Do not operate the solar charge controller when it does not appear to function at all. The solar charge controller or connected cables are visibly damaged or loose. In these cases immediately remove the solar charge controller from the solar modules and battery.3. FunctionsThe solar charge controller monitors the state of charge of the battery bank, controls the charging process, controls the connection/disconnection of loads. This optimises battery use and significantly extends its service life.The following protection functions are part of the basic function of the controller: Overcharge protection ; Deep discharge protection ; Battery undervoltage protection ; Solar module reverse current protection.4. Installation4.1 Mounting location requirementsDo not mount the solar charge controller outdoors or in wet rooms. Do not subject the solar charge controller to direct sunshine or other sources of heat. Protect the solar charge controller from dirt and moisture.Mount upright on the wall (concrete) on a non-flammable substrate. Maintain a minimum clearance of 10 cm below and around the device to ensure unhindered air circulation. Mount the solar charge controller as close as possible to the batteries (with a safety clearance of at least 30 cm).4.2 Fastening the solar charge controllerMark the position of the solar charge controller fastening holes on the wall.Drill 4 Ø 6 mm holes and insert dowels. Fasten the solar charge controller to the wall with the cable openings facing downwards, using 4 oval head screws M4x40 (DIN 7996).4.3 ConnectionUse an wire size suited to the current ratings of the charge controller, e.g. 6mm² for 10A, 5 mm² for 8A, 4 mm² for 6A, 3 mm² for 5A for cable length of 10 m.An additional external 20A fuse (not provided) must be connected to the battery connection cable, close to the battery pole. The external fuse prevents cable short circuits.Solar modules generate electricity under incident light. The full voltage is present, even when the incident light levels are low. Protect the solar modules from incident light during installation, e.g. cover them.Never touch not isolated cable ends. Use only insulated tools. Ensure that all loads to be connected are switched off. If necessary, remove the fuse.Connections must always be made in the sequence described below.1st step: Connect the batteryConnect the battery connection cable with thecorrect polarity to the middle pair of terminalson the solar charge controller (with the batterysymbol).If present, remove any external fuse. Connectbattery connection cable A+ to the positivepole of the battery. Connect batteryconnection cable A– to the negative pole ofthe battery. Insert the external fuse in thebattery connection cable.If the connection polarity is correct, the infoLED illuminates green.2nd step: Connect the solar moduleEnsure that the solar module is protected from incident light (cover it or wait for night).Ensure that the solar module does not exceed the maximum permissible input current.First connect the M+ solar module connection cable to the correct pole of the left pair ofterminals on the solar charge controller (with the solar module symbol), then connect theM– cable. Remove the covering from the solar module.3rd step: Connect loadsFirst connect the L+ load cable to the correct pole of the right pair of terminals on the solarcharge controller (with the lamp symbol), then connect the L– cable. Insert the load fuse orswitch on the load.Notes : Connect loads that must not be deactivated by the solar charge controller deepdischarge protection, e.g. emergency lights or radio connection, directly to the battery.Loads with a higher current consumption than the device output can be directly connectedto the battery. However, the solar charge controller deep discharge protection will no longerintervene. Loads connected in this manner must also be separately fused.4th step: Final workFasten all cables with strain relief in the direct vicinity of the solar charge controller(clearance of approx. 10 cm).5. LED displaysLED Status Meaningilluminates green normal operationInfo LEDflashes slowly red* system fault- too high charging current- overload / short circuit- overheatedtogether with red LED :- too low battery voltagetogether with green LED :- too high battery voltageflashing quickly* battery empty, low voltage disconnectionprewarning, loads still onBatteryredLED flashing slowly* deep discharge protection active (LVD), loadsdisconnectedilluminates battery weak, loads are onBatteryyellowLEDflashes slowly yellow* LVD reconnection setpoint has not yet beenreached, loads still disconnectedilluminates battery goodBatterygreenLEDflashes quickly green* battery full, charge regulation active*flashing slowly: 0,4Hz: 4 times in 10 second, flashing quickly: 3Hz: 3 times in 1 second6. GroundingThe components in stand-alone systems do not have to be grounded – this is not standardpractice or may be prohibited by national regulations (e.g.: DIN 57100 Part 410: Prohibitionof grounding protective low voltage circuits). Ask your dealer for technical assistance.7. Lightning protectionIn systems subjected to an increased risk of overvoltage damage, we recommendinstalling additional lightning protection / overvoltage protection to reduce dropouts.Ask your dealer for technical assistance.8. MaintenanceThe solar charge controller is maintenance-free.All components of the PV system must be checked at least annually, according to thespecifications of the respective manufacturers. Ensure adequate ventilation of the coolingelement. Check the cable strain relief. Check that all cable connections are secure. Tightenscrews if necessary. Check corrosion on terminals.9. Faults and remediesNo display : Check battery polarity and external fuse. Or battery voltage is too low orbattery defective.Battery is not charged : Check if solar modul is connected with correct polarity or if shortcircuit at the solar input. If solar module voltage is lower than battery voltage or if solarmodule is defective the battery cannot be charged.Battery displays jumps quickly : Battery voltage changes quickly. Large pulse currentscause voltage fluctuation. Battery is too small or defective. Ask your dealer for technicalassistance.The following faults do not destroy the controller. After correcting the fault, the device willcontinue to operate correctly:* solar module short circuits * reverse solar module polarity *2* short circuits at load output * excessive load current* reversed battery polarity *1* solar module overcurrent* device overtemperature * overvoltage at the load output10. Legal guaranteeAccording to the German legal requirements, for this product the customer has a 2 yearlegal guarantee.The seller will remove all manufacturing and material faults that occur in the product duringthe legal guarantee period and affect the correct functioning of the product. Natural wearand tear does not constitute a malfunction.Legal guarantee does not apply if the fault can be attributed to third parties, unprofessionalinstallation or commissioning, incorrect or negligent handling, improper transport, excessiveloading, use of improper equipment, faulty construction work, unsuitable constructionlocation or improper operation or use.Legal guarantee claims shall only be accepted if notification of the fault is providedimmediately after it is discovered. Legal guarantee claims are to be directed to the seller.The seller must be informed before legal guarantee claims are processed.For processing a legal guarantee claim an exact fault description and the invoice / deliverynote must be provided. The seller can choose to fulfil the legal guarantee either by repair orreplacement.If the product can neither be repaired nor replaced, or if this does not occur within asuitable period in spite of the specification of an extension period in writing by thecustomer, the reduction in value caused by the fault shall be replaced, or, if this is notsufficient taking the interests of the end customer into consideration, the contract iscancelled. Any further claims against the seller based on this legal guarantee obligation, inparticular claims for damages due to lost profit, loss-of-use or indirect damages areexcluded, unless liability is obligatory by German law.11. Technical DataSteca Solsum F 6.6F 8.8F 10.10FSystem voltage 12 V (24 V)Own consumption < 4 mADC input sideOpen circuit voltage solar module(at minimum operating temperature)< 47 VModule current 6 A 8 A 10 ADC output sideLoad current 6 A 8 A 10 AEnd of charge voltage 13.9 V (27.8 V)Boost charge voltage 14.4 V (28.8 V)Reconnection voltage (SOC / LVR) *³> 50 % / 12.4 V … 12.7 V(24.8 V … 25.4 V)Deep discharge protection (SOC / LVD) *³< 30 % / 11.2 V … 11.6 V(22.4 V … 23.2 V)Operating conditionsAmbient temperature -25 °C … +50 °CFitting and constructionTerminal (fine / single wire) 4 mm2 / 6 mm2 - AWG 12 / 9Degree of protection IP 32Dimensions (X x Y x Z) 145 x 100 x 24 mmWeight approx. 150 g*1Solsum is protected against reverse battery polarity together with polarity protectedloads. Reverse battery polarity combined with short circuited or polarised load couldcause damages in load or regulator*2Avoid reverse module polarity in a 24V system*3Lower value for nominal current, higher value for lowest currentInfo LED Battery LEDsManufactured in aDIN EN ISO 9001:2000 facilitySolsum / Z02 / Version 1104/ 730.930。

Operating manualSolar charge controller10.10 A / 8.8 A / 6.6 APlease read these instructions completely before installation!1. About this manualThese operating instructions are part of the product. Read these operating instructions carefully before use, keep them over the entire lifetime of the product, and pass them on to any future owner or user of this product.This manual describes the installation, function, operation and maintenance of the solar charge controller. These operating instructions are intended for end customers.A technical expert must be consulted in cases of uncertainty.2. SafetyThe solar charge controller may only be used in PV systems for charging and controlling lead-acid batteries in accordance with this operating manual and the charging specifications of the battery manufacturer.The solar charge controller may only be connected to the local loads and the battery by trained personnel and in accordance with the applicable regulations. Follow the installation and operating instructions for all components of the PV system.No energy source other than a solar generator may be connected to the solar charge controller. Follow the general and national safety and accident prevention regulations.Keep children away from PV systems. Do not use the solar charge controller in dusty environments, in the vicinity of solvents or where inflammable gases and vapours can occur. No open fires, flames or sparks in the vicinity of the batteries. Ensure that the room is adequately ventilated. Check the charging process regularly.Follow the charging instructions of the battery manufacturer. Battery Acid splashes on skin or clothing should be immediately rinse with plenty of water. Seek medical advice.Do not operate the solar charge controller when it does not appear to function at all. The solar charge controller or connected cables are visibly damaged or loose. In these cases immediately remove the solar charge controller from the solar modules and battery.3. FunctionsThe solar charge controller monitors the state of charge of the battery bank, controls the charging process, controls the connection/disconnection of loads. This optimises battery use and significantly extends its service life.The following protection functions are part of the basic function of the controller: Overcharge protection ; Deep discharge protection ; Battery undervoltage protection ; Solar module reverse current protection.4. Installation4.1 Mounting location requirementsDo not mount the solar charge controller outdoors or in wet rooms. Do not subject the solar charge controller to direct sunshine or other sources of heat. Protect the solar charge controller from dirt and moisture.Mount upright on the wall (concrete) on a non-flammable substrate. Maintain a minimum clearance of 10 cm below and around the device to ensure unhindered air circulation. Mount the solar charge controller as close as possible to the batteries (with a safety clearance of at least 30 cm).4.2 Fastening the solar charge controllerMark the position of the solar charge controller fastening holes on the wall.Drill 4 Ø 6 mm holes and insert dowels. Fasten the solar charge controller to the wall with the cable openings facing downwards, using 4 oval head screws M4x40 (DIN 7996).4.3 ConnectionUse an wire size suited to the current ratings of the charge controller, e.g. 6mm² for 10A, 5 mm² for 8A, 4 mm² for 6A, 3 mm² for 5A for cable length of 10 m.An additional external 20A fuse (not provided) must be connected to the battery connection cable, close to the battery pole. The external fuse prevents cable short circuits.Solar modules generate electricity under incident light. The full voltage is present, even when the incident light levels are low. Protect the solar modules from incident light during installation, e.g. cover them.Never touch not isolated cable ends. Use only insulated tools. Ensure that all loads to be connected are switched off. If necessary, remove the fuse.Connections must always be made in the sequence described below.1st step: Connect the batteryInfo LED Battery LEDsConnect the battery connection cable with thecorrect polarity to the middle pair of terminalson the solar charge controller (with the batterysymbol).If present, remove any external fuse. Connectbattery connection cable A+ to the positivepole of the battery. Connect batteryconnection cable A– to the negative pole ofthe battery. Insert the external fuse in thebattery connection cable.If the connection polarity is correct, the infoLED illuminates green.2nd step: Connect the solar moduleEnsure that the solar module is protected from incident light (cover it or wait for night).Ensure that the solar module does not exceed the maximum permissible input current.First connect the M+ solar module connection cable to the correct pole of the left pair ofterminals on the solar charge controller (with the solar module symbol), then connect theM– cable. Remove the covering from the solar module.3rd step: Connect loadsFirst connect the L+ load cable to the correct pole of the right pair of terminals on the solarcharge controller (with the lamp symbol), then connect the L– cable. Insert the load fuse orswitch on the load.Notes : Connect loads that must not be deactivated by the solar charge controller deepdischarge protection, e.g. emergency lights or radio connection, directly to the battery.Loads with a higher current consumption than the device output can be directly connectedto the battery. However, the solar charge controller deep discharge protection will no longerintervene. Loads connected in this manner must also be separately fused.4th step: Final workFasten all cables with strain relief in the direct vicinity of the solar charge controller(clearance of approx. 10 cm).5. LED displaysLED Status Meaningilluminates green normal operationInfo LEDflashes slowly red* system fault- too high charging current- overload / short circuit- overheatedtogether with red LED :- too low battery voltagetogether with green LED :- too high battery voltageflashing quickly* battery empty, low voltage disconnectionprewarning, loads still onBatteryredLED flashing slowly* deep discharge protection active (LVD), loadsdisconnectedilluminates battery weak, loads are onBatteryyellowLEDflashes slowly yellow* LVD reconnection setpoint has not yet beenreached, loads still disconnectedilluminates battery goodBatterygreenLEDflashes slowly green* battery full, charge regulation active*flashing slowly: 0,4Hz: 4 times in 10 second, flashing quickly: 3Hz: 3 times in 1 second6. GroundingThe components in stand-alone systems do not have to be grounded – this is not standardpractice or may be prohibited by national regulations (e.g.: DIN 57100 Part 410: Prohibitionof grounding protective low voltage circuits). Ask your dealer for technical assistance.7. Lightning protectionIn systems subjected to an increased risk of overvoltage damage, we recommendinstalling additional lightning protection / overvoltage protection to reduce dropouts.Ask your dealer for technical assistance.8. MaintenanceThe solar charge controller is maintenance-free.All components of the PV system must be checked at least annually, according to thespecifications of the respective manufacturers. Ensure adequate ventilation of the coolingelement. Check the cable strain relief. Check that all cable connections are secure. Tightenscrews if necessary. Check corrosion on terminals.9. Faults and remediesNo display : Check battery polarity and external fuse. Or battery voltage is too low orbattery defective.Battery is not charged : Check if solar modul is connected with correct polarity or if shortcircuit at the solar input. If solar module voltage is lower than battery voltage or if solarmodule is defective the battery cannot be charged.Battery displays jumps quickly : Battery voltage changes quickly. Large pulse currentscause voltage fluctuation. Battery is too small or defective. Ask your dealer for technicalassistance.The following faults do not destroy the controller. After correcting the fault, the device willcontinue to operate correctly:* solar module short circuits * reverse solar module polarity *2* short circuits at load output * excessive load current* reversed battery polarity *1* solar module overcurrent* device overtemperature * overvoltage at the load output10. Legal guaranteeAccording to the German legal requirements, for this product the customer has a 2 yearlegal guarantee.The seller will remove all manufacturing and material faults that occur in the product duringthe legal guarantee period and affect the correct functioning of the product. Natural wearand tear does not constitute a malfunction.Legal guarantee does not apply if the fault can be attributed to third parties, unprofessionalinstallation or commissioning, incorrect or negligent handling, improper transport, excessiveloading, use of improper equipment, faulty construction work, unsuitable constructionlocation or improper operation or use.Legal guarantee claims shall only be accepted if notification of the fault is providedimmediately after it is discovered. Legal guarantee claims are to be directed to the seller.The seller must be informed before legal guarantee claims are processed.For processing a legal guarantee claim an exact fault description and the invoice / deliverynote must be provided. The seller can choose to fulfil the legal guarantee either by repair orreplacement.If the product can neither be repaired nor replaced, or if this does not occur within asuitable period in spite of the specification of an extension period in writing by thecustomer, the reduction in value caused by the fault shall be replaced, or, if this is notsufficient taking the interests of the end customer into consideration, the contract iscancelled. Any further claims against the seller based on this legal guarantee obligation, inparticular claims for damages due to lost profit, loss-of-use or indirect damages areexcluded, unless liability is obligatory by German law.11. Technical DataSteca Solsum F 6.6F 8.8F 10.10FSystem voltage 12 V (24 V)Own consumption < 4 mADC input sideOpen circuit voltage solar module(at minimum operating temperature)< 47 VModule current 6 A 8 A 10 ADC output sideLoad current 6 A 8 A 10 AEnd of charge voltage 13.9 V (27.8 V)Boost charge voltage 14.4 V (28.8 V)Reconnection voltage (SOC / LVR) *³> 50 % / 12.4 V … 12.7 V(24.8 V … 25.4 V)Deep discharge protection (SOC / LVD) *³< 30 % / 11.2 V … 11.6 V(22.4 V … 23.2 V)Operating conditionsAmbient temperature -25 °C … +50 °CFitting and constructionTerminal (fine / single wire) 4 mm2 / 6 mm2 - AWG 12 / 9Degree of protection IP 32Dimensions (X x Y x Z) 145 x 100 x 24 mmWeight approx. 150 g*1Solsum is protected against reverse battery polarity together with polarity protectedloads. Reverse battery polarity combined with short circuited or polarised load couldcause damages in load or regulator*2avoid reverse module polarity in a 24V system*3Lower value for nominal current, higher value for lowest currenManufactured in aDIN EN ISO 9001:2000 facilitySolsum / Z02 / Version 09.45/ 730.930。

太阳能充电控制器使用说明太阳能充电控制器使用说明一、太阳能充电控制器的概述太阳能充电控制器是一种专门用于控制太阳能电池板充电的设备，主要功能是对太阳能电池板进行充电管理和保护，防止过充、过放和短路等问题。

太阳能充电控制器具有高效节能、安全可靠、易于操作等优点，广泛应用于家庭、工业和农业等领域。

二、太阳能充电控制器的安装1. 安装地点选择：应选择干燥通风、避免日晒雨淋和防尘的地方。

2. 安装方法：将太阳能充电控制器固定在墙面或支架上，并连接好所需的线路和插头。

3. 接线顺序：首先将蓄电池正极与太阳能充电控制器正极连接，然后将太阳能板正极与太阳能充电控制器正极连接，最后将负极按相同方式连接即可。

三、太阳能充电控制器的使用方法1. 开机操作：将开关旋钮拨到“ON”位置即可启动。

2. 充电模式选择：根据所需的充电模式，将开关旋钮拨到相应的位置，如“普通充电”、“浮充充电”、“均衡充电”等。

3. 充电状态显示：太阳能充电控制器具有多种状态指示灯，可以显示当前的工作状态和故障提示。

4. 其他功能设置：太阳能充电控制器还可以根据需要进行其他功能设置，如时间设定、温度补偿、过压保护等。

四、太阳能充电控制器的注意事项1. 安全使用：在使用太阳能充电控制器时，应注意安全问题，避免触电和短路等危险。

2. 正确接线：接线时应按照正确的顺序连接各个部件，并确保接头牢固可靠。

3. 保持清洁：定期对太阳能充电控制器进行清洁和检查，避免灰尘和杂物进入设备内部影响正常工作。

4. 防潮防水：在安装和使用过程中应注意防潮防水，避免设备受潮或进水导致故障和损坏。

五、太阳能充电控制器的维护保养1. 定期检查：应定期对太阳能充电控制器进行检查和维护，如清洁、紧固插头、更换损坏零件等。

2. 防止过度放电：在长期不使用时，应将蓄电池拆卸并储存在干燥通风的地方，避免过度放电。

3. 保持通风：在使用时应保持太阳能充电控制器通风良好，避免过热和损坏。

Victron Energy B.V. | De Paal 35 | 1351 JG Almere | The Netherlands General phone: +31 (0)36 535 97 00 | Fax: +31 (0)36 535 97 40 E-mail:***********************|SmartSolar Charge ControllerMPPT 250/60 MPPT 250/70 MPPT 250/85 MPPT 250/100Battery voltage12 / 24 / 48V Auto Select (software tool needed to select 36V)Rated charge current60A 70A 85A 100A Nominal PV power, 12V 1a,b) 860W 1000W 1200W 1450W Nominal PV power, 24V 1a,b) 1720W 2000W 2400W 2900W Nominal PV power, 48V 1a,b) 3440W 4000W 4900W 5800W Max. PV short circuit current 2) 35A (max 30A per MC4 conn.) 70A (max 30A per MC4 conn.)Maximum PV open circuit voltage 250V absolute maximum coldest conditions 245V start-up and operating maximumMaximum efficiency 99%Self-consumptionLess than 35mA @ 12V / 20mA @ 48V Charge voltage 'absorption' Default setting: 14,4 / 28,8 / 43,2 / 57,6V(adjustable with: rotary switch, display, VE.Direct or Bluetooth) Charge voltage 'float' Default setting: 13,8 / 27,6 / 41,4 / 55,2V(adjustable: rotary switch, display, VE.Direct or Bluetooth)Charge algorithmmulti-stage adaptive Temperature compensation -16 mV / -32 mV / -64 mV / °CProtectionBattery reverse polarity (fuse, not user accessible)PV reverse polarity / Output short circuit / Over temperatureOperating temperature -30 to +60°C (full rated output up to 40°C)Humidity95%, non-condensing Data communication port VE.Direct or Bluetooth Remote on/off Yes (2 pole connector)Programmable relay DPSTAC rating: 240VAC / 4A DC rating: 4A up to 35VDC, 1A up to 60VDCParallel operationYes (not synchronized)ENCLOSUREColourBlue (RAL 5012)PV terminals 3)35 mm² / AWG2 (Tr models)Two sets of MC4 connectors (MC4 models 250/60 and 250/70) Three sets of MC4 connectors (MC4 models 250/85 and 250/100)Battery terminals 35 mm² / AWG2Protection category IP43 (electronic components), IP22 (connection area)Weight3 kg 4,5 kgDimensions (h x w x d) in mmTr models: 185 x 250 x 95 MC4 models: 215 x 250 x 95 Tr models: 216 x 295 x 103 MC4 models: 246 x 295 x 103STANDARDSSafetyEN/IEC 62109-1, UL 1741, CSA C22.21a) If more PV power is connected, the controller will limit input power to the stated maximum.1b) The PV voltage must exceed Vbat + 5V for the controller to start. Thereafter the minimum PV voltage is Vbat + 1V.2) A PV array with a higher short circuit current may damage the controller in case of reverse polarity connection of the PV array.3) MC4 models: several splitter pairs may be needed to parallel the strings of solar panels.Maximum current per MC4 connector: 30A (the MC4 connectors are parallel connected to one MPPT tracker)Bluetooth Smart built-in: dongle not neededThe wireless solution to set-up, monitor and update the controller using Apple and Android smartphones, tablets or other devices.VE.DirectFor a wired data connection to a Color Control panel, Venus GX, PC or other devicesRemote on-offTo connect for example to a VE.BUS BMS.Programmable relayCan be programmed (a.o. with a smartphone) to trip on an alarm, or other events.Optional: pluggable LCD display Remove the seal that protectsthe plug on the front of the controller, and plug-in the display.Ultra-fast Maximum Power Point Tracking (MPPT)Especially in case of a clouded sky, when light intensity is changing continuously, an ultra-fast MPPT controller will improve energy harvest by up to 30% compared to PWM charge controllers and by up to 10% compared to slower MPPT controllers.Advanced Maximum Power Point Detection in case of partial shading conditionsIf partial shading occurs, two or more maximum power points may be present on the power-voltage curve.Conventional MPPTs tend to lock to a local MPP, which may not be the optimum MPP.The innovative SmartSolar algorithm will always maximize energy harvest by locking to the optimum MPP.Outstanding conversion efficiencyNo cooling fan. Maximum efficiency exceeds 99%.Flexible charge algorithmFully programmable charge algorithm (see the software page on our website), and eight pre-programmed algorithms, selectable with a rotary switch (see manual for details).Extensive electronic protectionOver-temperature protection and power derating when temperature is high.PV short circuit and PV reverse polarity protection. PV reverse current protection.Internal temperature sensorCompensates absorption and float charge voltage for temperature.SmartSolar Charge ControllerMPPT 250/100-MC4 without displaySmartSolar Charge ControllerMPPT 250/100-Tr with pluggable display。