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APP iOSOfficial Website APP Android 340-00087-02 V ersion 1.0 SBP SERIES USER MANUAL AC-COUPLED BATTERY STORAGE RETROFIT No.189 Kun Lun Shan Road, SND, Jiangsu, China. www.goodwe.com servicegoodwe.com Jiangsu GoodWe Power Supply Technology Co.,Ltd TABLE OF CONTENTS 021.2 SAFETY Password admin Then click “OK” Click “Start Setup” to choose your router Then click “Next” 1. Fill in the password of the router, then click “Next” 2. Click “Complete” 10.10.100.253 AdminU Password OK CANCEL Remember the passwordR Step 1 Step 2 Step 3 NOTE Wi-Fi Reset Long press the touch button 35 seconds Wi-Fi LED on inverter will quartic blink. PV Master is an external monitoring/ configuration application for GoodWe hybrid inverters, used on smart phones or pad for both Android and iOS system, main functions as below 1. Edit system configuration to make the system work as customer needs 2. Monitor and check performance of the hybrid system 3. Wi-Fi configuration Please download PV Master OPERATION INSTRUC- TIONS from www.goodwe.com PV Auto-Test function of CEI is integrated in PV Master App for Italy safety country requirements. For detailed instruction of this function please refer to PV Master OPERATION INSTRUCTIONS 3.2 PV Master APP OPERATION 3.3 CEI AUTO-TEST FUNCTION 17 Touch Button Wi-Fi Reset Wi-Fi Reload Note All the errors about battery happen only on Lithium battery with BMS communication. ERROR MASSAGE 4.1 ERROR MASSAGE AND TROUBLESHOOTINGS The error massages below will be displayed on PV Master App or report by Email if the error really happen. OTHERS04 18 Utility Loss VAC Failure Not available of public grid power power loss or on-grid connection fails Grid voltage is not within permissible range Inverter does not detect the connection of grid Inverter detects that AC voltage is beyond the normal range required by the safety country FAC Failure Grid Efficiency is not within permissible range Inverter detects that Grid frequency is beyond the normal range required by the safety country Over Temperature Temperature inside of the inverter is too high Inverter working environment leads to a high temperature condition Relay Check Failure Self checking of relay fails Neutral b. If battery still not discharge when Meter power is higher than 150W, then please check EzMeter 3. Make sure SOC is higher than 1-DOD. Or if battery discharged to below 1-DOD, than battery will only discharge again when SOC charged to 20 1-DOD/ 2 and SOC 105 -DOD if need battery discharge immediately, battery should be restarted 4. Check on APP if already set charge time, as during charge time, battery will not discharge battery will charge in priority during coincident time of charge/discharge Solutions No Discharge or Output From S-BP to Support Loads 1. Battery in S-BP system does not charge automatically unless on conditions as below a. Battery is under compulsive charging condition different condition for different battery brands, like some battery will compulsively get charge when SOC is lower than 5 b. On App, under Economic Mode, here is option to set a charge time, during which battery will get charge compulsively from Grid c.When connecting with a grid-tied inverter or other power source, when load power is lower, the exceed power from grid-tied inverter or sources will charge battery, unless battery is fully charged already. Possible Reason Battery Does Not Charge NOTE In S-BP system, there is usually a grid-tied inverter connected. As system cannot detect power from grid-tied inverter or other power source, thus sometimes when you see the system does not discharge when load power is high, which actually is because of grid-tied production is supporting load. OTHERS OTHERS 23 24 About PV Master Operation and Monitoring About EzMeter and Power Limit Function Other Questions 4.3 WARINING QUICK CHECK LIST [1] Inverter cannot be installed near flammable, explosive or strong electro-magnetic equipment, page 06 [2] Remember that this inverter is heavy Please be careful when lifting out from the package, page 07 [3] Make sure battery switch is off and battery nominal voltage meet S-BP specification before connecting battery to inverter make sure inverter is totally isolated from AC power, page 08 [4]Make sure inverter is totally isolated from any DC or AC power before connectiong AC cable,page 10 [5]Make sure S-BP and grid-tied inverters are totally isolated from AC and DC power before connecting EzMeter CT, page 12 A This could be caused by losing connection to Solar-WiFi *. 1.Make sure you connected Solar-WiFi* make sure no other devices connected or router if connected Solar-WiFi* to router and on APP home page shows connection well. 2.Make sure S-BP under waiting mode on APP before you change any settings on PV Master APP --- disconnect grid/load, only leave battery connected and then restart S-BP till see work mode as “wait” on APP. Q Why Cannot save settings on PV Master App A Please refer to page11 for details of this function on S-BP system Q Is Power Limit function Possible for S-BP system A The max current for CT is 120A Q What is the max current allowed going through CT on EzMeter A The shortest way, please refer to S-BP QUICK INSTALLATION INSTRUCTIONS Q Is there a quick way to make the system work A Please refer to user manual on page 11 Q What kind of load can I connect on Back-Up side A Normally if any problem caused by disobey the instructions on user manual, we can provide technical support to help solve the problem, but cannot guarantee a replacement or returns. So if there is any special condition when you cannot 100 follow the instructions, please contact GoodWe for suggestions Q Whether the warranty of the inverter still valid if the installation or operation does not follow the user manual instructions, for some special conditions when we cannot 100 follow them A Can not, because the communication protocol between inverter and EzMeter is inset in the EzMeter, other brand Meter cannot communicate. Also any setting change could cause EzMeter communication failure. Q Can I use other brand Meter to take over EzMeter in S-BP system or change some settings on EzMeter A As the data on APP is from inverter and on home page and Param page, the data refresh frequency is different, so there will be a data inconformity between different pages on APP as well as between that on portal and APP Q On the App, why data on the homepage and Param page are different, like charge/discharge, load or grid value A NA means App does not receive data from inverter or server, normally it is because communica- tion problem, such as battery communication, and communication between inverter and the APP. For lead-acid battery, NA is normal Q On App, some columns show NA, like battery SOH, etc. why is that 4.2 DISCLAIMER The S-BP series hybrid inverters are transported, used and operated under environmental and electrical conditions. GoodWe has the right not providing after-sales services or assistance under following conditions * Maintenance The inverter requires periodically maintenance, details as below NOTE Make sure inverter is totally isolated from all DC and AC power for at least 5 mins before maintenance Heat sink please use clean towel to clean up heat sink once a year Torque please use torque wrench to tighten AC and battery wiring connection once a year DC switch check DC switch regularly, active the DC switch 10 times in a row once a year. operating DC switch will clean contacts and extend lifespan of DC switch Water-proof covers check if water-proof covers of RS485 and other part are fasten once a year Note GoodWe will keep right to explain all the contents in this user manual. Inverter is damaged during transferring Inverter is out of warranty year and extended warranty is not bought Inverter is installed, refitted or operated in improper ways without authority from GoodWe Inverter is installed or used under improper environment or technical condition mentioned in this user manual, without authority from GoodWe Installation or configuration of the inverter does not follow requirements mentioned in this user manual The inverter is installed or operated against the requirements or warnings that are mentioned in this user manual Inverter is broken or damaged by any force majeure like lightening, earthquake, fire hazard, storm and volcanic eruption etc. Inverter is disassembled, changed or updated on software or hardware without authority from GoodWe Inverter is installed, used or operated against any related items in international or local policies or regulations Any non-compatible batteries, loads or other devices connected to S-BP system 4.4 TECHNICAL PARAMETERS AND CERTIFICATES TECHNICAL PARAMETERS OF S-BP INVERTERS [1] Lead acid battery use refers to Approved Battery Statement The actual charge and discharge current also depends on the battery [2] If need S-BP work under off-grid mode, battery capacity should be min 100Ah [3] On condition of battery and PV power being enough [4] 4600 for VDE-AR-N 4105 and CEI 0-21, 5000 for other country [5] GW3600S-BP 4050 for CEI 0-21, GW5000S-BP 5100 for CEI 0-21, 4600 for VDE-AR-N 4105, [6] GW5000S-BP 21.7A for AS/NZS 4777.2, GW3600S-BP 18A for CEI0-21 [7] Default communication with BMS is CAN, requirment RS485 needs special configuration process OTHERS OTHERS 25 26 GW5000S-BP Supported Battery Type [1] Battery Input Data Nominal Battery Voltage V Max. Charge Voltage V Max. Charge Current A [1] Max. Discharge Current A [1] Battery Capacity Ah [2] Battery Over-Current Protection A Battery Backfeed Current Li-lon or Lead-Acid 48 ≤60 Configurable 75 100 75 100 502000 125 0 AC Output Data Back-Up Charge Pattern for Li-lon battery Max. Output Apparent Power VA Peak Output Apparent Power VA [3] Automatic Switch Time ms Nominal Output Voltage V Nominal Output Frequency Hz Back-Up Over Current Protection A Output Inrush Current Peak/Duration 3680 5000 4416, 10s 5500, 10s 10 230 /-2 single phase 50A 50/60/-0.2 40A 60A, 5µs Max. Output Fault Current Peak/Duration 70A, 3µs Max. Output Current A 16 22.8 Output THDv linear load 3 AC Output Data On-Grid Nominal Active Power Output to Grid W 3680 4600/5000 [4] Max. Apparent Power Output to GridVA Max. Apparent Power From GridVA Nominal Output Voltage V 7360 9200 230 single phase Nominal Output Frequency Hz 50/60 Max. AC Output Current to Grid A [6] 16 22.8 Max. AC Current from Grid A 32 40 AC Over Current Protection A AC Backfeed Current A 40 50 Max. Output Fault Current Peak/Duration 70A, 3µs 0 Output Inrush Current Peak/Duration 60A, 5µs Input Inrush Current Peak/Duration Output Power Factor 100A, 20µs 1Adjustable from 0.8 leading to 0.8 Lagging Output THDi Nominal Output 3 AC Overvoltage Category ü GW3600S-BP Self-adaption to BMS 3680 [5] 4600/5000/5100 [5] Zref RA0,24 XAj0,15 at 50Hz RN0,16 XNj0,10 at 50Hz. For Australian requirements, in the THDi test, there should add Zref between inverter and mains. RA , XA for Line conductor RN, XN for Neutral conductor CERTIFICATES OF S-BP SERIES OTHER TEST G83 G59 G100 IEC62109-1 CEI 0-21 VDE0126-1-1 VDE-AR-N 4105 NRS 097-2-1 RD1699 GW5000S-BP Max. Efficiency Efficiency General Data Operation Temperature Range ¥ Storage Temperature Range ¥ Relative Humidity Moisture Location Category External Environment Pollute Degree Environment Category 95.5 -2560 -3065 095 4K4H Grade 1,2,3 Outdoor Indoor Cooling system Operation Altitude m Noise dB User Interface Communication With BMS Communication With EzMeter Communication With Portal Weight kg 18.5 Size Width*Height*Depth mm Nature Convection 25 LED, APP RS485, CAN [7] RS485 347*432*190 Wi-Fi Mounting Wall Bracket Protective Rating IP65 Standby Self-Consumption W 15 Topology Protective Class Protection Anti-islanding Protection Output Over-current Protection Output Short-circuit Protection Integrated Integrated Output Overvoltage Protection Integrated Certifications Standards Grid Regulation AS/NZS 4777.22015, G83/2, G100, CEI 0-21, EN50438, VDE-AR-N4105, VDE0126-1-1, UNE206006, RD1699 AS/NZS 4777.22015, G59/3, G100, CEI 0-21, EN50438, VDE-AR-N4105, VDE0126-1-1, UNE206006, RD1699 Safety Regulation EMC IEC/EN62477-1, IEC62040-1 EN61000-6-1, EN61000-6-2, EN61000-6-3, EN61000-6-4 EN61000-4-16, EN61000-4-18, EN61000-4-29 GW3600S-BP ≤4000 Integrated AFD High Frequency Isolation ú OTHERS OTHERS 27 Appendix Protection Category Definition No pollution or only dry, non-conductive pollution occurs. The pollution has no influencePollution Degree ú Normally only non-conductive pollution occurs. Occasionally, however, a temporary conductivity caused by condensation must be expected. Pollution Degree û Conductive pollution occurs, or dry, non-conductive pollution occurs, which becomes conductive due to condensation, which is expected. Pollution Degree ü Persistent conductive pollution occurs, for example, the pollution caused by conductive dust, rain and snow.Pollution Degree ý Pollution Degree Definition Relative Humidity Applied to -20 50¥ Ambient Temperature 4 100 PD3Outdoor Environment Condition Indoor Unconditioned Indoor Conditioned -20 50¥ 5 95 5 85 PD3 PD20 40¥ Environment Category Definition Applies to equipment connected to a circuit where measures have been taken to reduce transient overvoltage to a low levelCategory ú Applies to equipment not permanently connected to the installation. Examples are appliances, portables tools and other plug-connected equipment Category û Applies to a fixed equipment downstream of and including the main distribution board. Examples are switchgear and other equipment in an industrial installation Category ü Applies to equipment permanently connected at the origin of an installation upstream of the main distribution board. Example are electricity meters, primary over-current protection equipment and other equipment connected directly to outdoor open lines Category ý Overvoltage Category Definition Moisture Location Category Definition Level 3K3 4K2 4K4H Moisture Parameters Humidity Range 15100 Temperature Range 040¥ -3340¥ -2055¥ 4100585
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