FCC ID: 2ASN7-LOGGER1000 DataLogger

Logger1000 Data Logger User Manual Logger1000-UEN-Ver11-201903 Content 3.1 1 About this Manual ................................................................... 1 Intended Use ........................................................................................................ 1 1.1 Target Group ........................................................................................................ 1 1.2 How to Use This Manual ................................................................................... 1 1.3 1.4 Symbol Explanations ......................................................................................... 2 1.5 Warning ................................................................................................................. 2 2 Safety Instruction .................................................................... 6 3 Product Introduction ............................................................... 8 Function Description ......................................................................................... 8 3.1.1 Brief Product Introduction .................................................................................. 8 3.1.2 Networking Application ...................................................................................... 9 Appearance ........................................................................................................ 11 3.2 3.3 Dimensions ........................................................................................................ 12 Installation Flow..................................................................... 13 4 5 Mechanical Installation ......................................................... 14 Unpacking and Inspection ........................................................................... 14 Installation Location Requirements ........................................................... 15 Installation Tools .............................................................................................. 16 Installing Logger1000 .................................................................................... 16 5.4.1 Wall-Mounting ......................................................................................................17 5.4.2 Guide Rail-Mounting ..........................................................................................18 Installing Antenna ........................................................................................... 19 Installing Power Box ....................................................................................... 20 6 Electrical Connection ............................................................. 21 Safety Instructions ........................................................................................... 21 Port Introduction ............................................................................................. 21 Connection to PV Devices ............................................................................. 22 5.1 5.2 5.3 5.4 6.1 6.2 6.3 5.5 5.6 I 7.1 7.2 8.1 8.2 8.3 6.4 6.5 6.6 6.3.1 Connection to Inverter ...................................................................................... 22 6.3.2 Connection to Energy Meter ........................................................................... 26 6.3.3 Connection to Meteo Station .......................................................................... 26 Connection to Background ........................................................................... 27 Connection to Power Supply........................................................................ 28 Cable Routing Requirements ....................................................................... 30 7 Commissioning ...................................................................... 31 Inspection before Commissioning ............................................................. 31 Commissioning Steps ..................................................................................... 31 8 Web Interface ......................................................................... 33 Running Requirements .................................................................................. 33 Preparation before Ethernet Login ............................................................. 33 Login Steps ........................................................................................................ 33 8.3.1 Ethernet Login ...................................................................................................... 33 8.3.2 WiFi Login............................................................................................................... 34 8.4 Web Main Interface ......................................................................................... 35 8.5 Web Menu .......................................................................................................... 36 8.6 Operation Procedure ...................................................................................... 36 8.7 Overview............................................................................................................. 37 8.7.1 General Information ........................................................................................... 37 8.7.2 Current Alarms...................................................................................................... 38 Device Monitoring ........................................................................................... 38 8.8.1 Real-Time Information ....................................................................................... 38 8.8.2 DC Data ................................................................................................................... 39 8.8.3 Initial Parameter ................................................................................................... 39 8.8.4 Protection Parameter ......................................................................................... 40 8.8.5 General Parameter .............................................................................................. 40 8.8.6 Device Instruction ............................................................................................... 41 8.8.7 Device Information ............................................................................................. 41 Device Maintenance ....................................................................................... 42 8.9.1 Device List .............................................................................................................. 42 8.8 8.9 II 9.1 9.2 8.9.2 Firmware Update .................................................................................................44 8.9.3 Inverter Log ...........................................................................................................44 8.10 History Data ....................................................................................................... 44 8.11 System ................................................................................................................. 45 8.11.1 Running Information .......................................................................................45 8.11.2 System Maintenance ........................................................................................45 8.11.3 Remote Maintenance.......................................................................................47 8.11.4 Message Export .................................................................................................47 8.11.5 System Time ........................................................................................................48 8.11.6 Forwarding Configuration ..............................................................................49 8.11.7 Interface ...............................................................................................................53 8.12 About ................................................................................................................... 55 9 Grid Dispatching Function .................................................... 56 Function Description ...................................................................................... 56 Interface Description ...................................................................................... 57 9.2.1 Digital Control Interface ....................................................................................57 9.2.2 Analog Control Interface ...................................................................................59 9.2.3 DRM Control Interface .......................................................................................59 Power Control ................................................................................................... 60 9.3.1 Active Power ..........................................................................................................60 9.3.2 Reactive Power .....................................................................................................63 9.3.3 Emergency Button ..............................................................................................66 10 Device Maintenance .............................................................. 67 10.1 Safety Instructions ........................................................................................... 67 10.1.1 Safety Rules .........................................................................................................67 10.1.2 Five Safety Rules ................................................................................................67 10.2 Maintenance ..................................................................................................... 68 10.3 Troubleshooting .............................................................................................. 68 11 Appendix ................................................................................ 70 11.1 Technical Data .................................................................................................. 70 11.2 Quality Guarantee ........................................................................................... 70 9.3 III 11.3 Contact Information ........................................................................................ 72 IV 1 About this Manual This manual is valid for the following data loggers researched and manufactured by Sungrow Power Supply Co., Ltd. Logger1000 1.1 Intended Use This manual is intended to provide users with detailed information on the Logger1000 as well as installation, operation, and maintenance description. 1.2 Target Group This manual is applicable to technical personnel who are responsible for the installation, operation and maintenance of the Logger1000 and to users who need to perform daily operation. Readers should have some electrical knowledge and be familiar with electrical principles and electrical components. This manual does not cover the electrical connections of the inverter and the Meteo Station or related safety instructions. For the details of the electrical connections of these devices, refer to the corresponding manuals. 1.3 How to Use This Manual Read this manual carefully before performing operation on the device. This manual must be stored at hand and available at all times. All rights reserved including the pictures, symbols, and markings used in this manual. Any reproduction or disclosure, even partially, of the contents of this manual is strictly prohibited without prior written authorization of SUMGROW. The content of the manual will be periodically updated or revised as per the product development. It is probably that there are changes in manuals for the subsequent module edition. If there any mismatch between the product and its manual, the actual product shall prevail and the manual of the latest version can be obtained from SUMGROW. 1 1 About this Manual User Manual 1.4 Symbol Explanations This manual contains important safety and operational instructions that must be accurately understood and respected during the installation and maintenance of the equipment. To ensure the optimum use of this manual, note the following explanations of the symbols used. DANGER indicates a hazard with a high level of risk which, if not avoided, will result in death or serious injury. WARNING indicates a hazard with a medium level of risk which, if not avoided, could result in death or serious injury. CAUTION indicates a hazard with a low level of risk which, if not avoided, could result in minor or moderate injury. NOTICE indicates a situation which, if not avoided, could result in equipment or property damage. NOTE indicates additional information, emphasized contents or tips to help you solve problems or save time. 1.5 Warning 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 User Manual 1 About this Manual

(2) This device must accept any interference received, including interference that may cause undesired operation. Note: This product 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 in a residential installation. This product 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 product 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:

interference 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. Please take attention that changes or modification not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. This equipment complies with FCC/IC RSS-102 radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. This device complies with Industry Canada Operation is subject to the following two conditions:

licence-exempt RSS standard(s).

(1) this device may not cause interference, and

(2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radioexempts de licence. L'exploitation est autorise aux deux conditions suivantes :

(1) l'appareil ne doit pas produire de brouillage, et

(2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. Under Industry Canada regulations, this radio transmitter may only operate using an 3 1 About this Manual User Manual antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. Conformment la rglementation d'Industrie Canada, le prsent metteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou infrieur) approuv pour l'metteur par Industrie Canada. Dans le but de rduire les risques de brouillage radiolectrique l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonne quivalente

(p.i.r.e.) ne dpasse pas l'intensit ncessaire l'tablissement d'une communication satisfaisante. This equipment complies with FCC/IC RSS-102 radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. ce matriel est conforme aux limites de dose d'exposition aux rayonnements, FCC /

CNR-102 nonce dans un autre environnement.cette eqipment devrait tre install et exploit avec distance minimale de 20 entre le radiateur et votre corps. The user manual for local area network devices shall contain instructions related to the restrictions mentioned in the above sections, namely that:

(i) the device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems;

(ii) the maximum antenna gain permitted for devices in the bands 5250-5350 MHz and 5470-5725 MHz shall comply with the e.i.r.p. limit; and

(iii) the maximum antenna gain permitted for devices in the band 5725-5825 MHz shall comply with the e.i.r.p. limits specified for point-to-point and non point-to-point operation as appropriate.

(i)Les dispositifs fonctionnant dans la bande 5150-5250 MHz sont rservs uniquement pour une utilisation l'intrieur afin de rduire les risques de brouillage prjudiciable aux systmes de satellites mobiles utilisant les mmes canaux.

(ii) le gain d'antenne maximal autoris pour les appareils dans les bandes 5250-5350 MHz et 5470-5725 MHz doivent respecter le pire limiter; et

(iii) le gain d'antenne maximal autoris pour les appareils dans la bande 5725-5825 MHz doivent respecter le point--point et l'exploitation non point point, le cas chant. limites spcifies pour le pire Users should also be advised that high-power radars are allocated as primary users

(i.e. priority users) of the bands 5250-5350 MHz and 5650-5850 MHz and that these radars could cause interference and/or damage to LE-LAN devices. 4 User Manual 1 About this Manual Les utilisateurs de radars de haute puissance sont dsigns utilisateurs principaux

(c.--d., qu'ils ont la priorit) pour les bandes 5250-5350 MHz et 5650-5850 MHz et que ces radars pourraient causer du brouillage et/ou des dommages aux dispositifs LAN-EL. 5 2 Safety Instruction This chapter mainly introduces safety instructions that need to be respected during the operation of Logger1000. The Logger1000 has been designed and tested strictly according to international safety regulations. As electrical and electronic equipment, the Logger1000 must be installed, commissioned, operated, and maintained in strict accordance with related safety instructions. Incorrect operation or misuse of the device may cause:

damage to personnel safety of the operators or the third party damage to the Logger1000 or other properties belong to the operators or the third party Therefore, the following safety instructions must be read and always kept in mind prior to any work. All detailed work-related safety warnings and notes will be specified at the critical points in corresponding chapter. All operation and electrical work must only be performed by qualified personnel. Before Installation After receiving the device, please check if there is damage caused during transport. Contact SUMGROW or the forwarding company once any problem is detected. The related operators must be familiar with the safety instructions in this manual and other safety regulations about the installation, operation and maintenance of the Logger1000. Move, transport, install, operate, and maintain the Logger1000 correctly and appropriately. 6 User Manual 2 Safety Instruction During Installation The Logger1000 can only be used as described in this manual. Altering the product without authorization or using spare parts not sold or recommended by SUMGROW may lead to fire, electric shock or other damages. Disconnect all electrical connections and the upstream input switch and make sure the Logger1000 is voltage-free during installation. Maintenance and Replacement The maintenance of the Logger1000 can only be performed by qualified personnel from service dept. of SUMGROW or other qualified personnel. User can never maintain or replace the modules and other parts. Serious personal injury or property loss may follow if otherwise. Never replace the internal components of the Logger1000 without authorization. SUMGROW shall not be held liable for any possible damage caused by ignorance of this warning. 7 3 Product Introduction 3.1 Function Description 3.1.1 Brief Product Introduction The Logger1000 is a device used for data collection, power control, and protocol conversion for inverters and other PV equipment in the PV plant. The device is also integrated with communication gateway and plant O&M function. The Logger1000 is featured as flexible networking, auxiliary maintenance, and easy operation. Flexible networking Support of RS485, Ethernet, and Wi-Fi communication Support of access by various environment sensors, energy meters, Meteo Stations, inverters, and other equipment Auxiliary maintenance Support of batch inverter parameter setting and software upgrading Support of remote desktop function, lower maintenance costs Support of grid control instruction and power factor control Support of local real-time monitoring, unnecessary to connect the Internet Easy operation Auto search and allocation of inverter address Embedded web operation interface, support of mobile phone access, free download of the App 8 User Manual 3 Product Introduction 3.1.2 Networking Application As shown in the figure below, the Logger1000 can be connected to iSolarCloud via a switch. The Logger1000 can be connected to iSolarCloud via the router or connected to the iSolarCloud via the Wi-Fi. 9 3 Product Introduction User Manual The Logger1000 supports various communication manners such as Wi-Fi. The Logger1000 is connected to various environment sensors, energy meters, Meteo Stations, and inverters in the PV power generation system via an RS485 bus. Users can access the Web interface via mobile phone or PC, on which parameter configuration and remote on-line upgrading can be performed. The Logger1000 can transmit data to iSolarCloud and forward background instructions to downstream devices. The Logger1000 is equipped with grid dispatching function, including active power control, reactive power regulation, etc. 10 User Manual 3 Product Introduction 3.2 Appearance Views of the Logger1000 are shown in the following figure. C D Front view Bottom view A B Rear view Side view Fig. 3-1 Appearance Item A B C D Designation Indicator Vent WLAN antenna mounting hole Wiring terminal Description Indicate the running state of the Logger1000

-

-

Refer to "Tab. 6-1 Port description"

Indicator Indicator

(print) LED color LED status Description Running indicator (RUN) Red/green WLAN indicator

(WLAN) Blue flash flash Off Slow

(Green) Slow

(Red) Steady

(Red) Off Steady on Slow flash power supply external No connected Normal running Device alarm on Logger1000 running fault No data communication Wi-Fi connected successfully Data communication in process Slow flash means that the indicator flashes once every second. 11 3 Product Introduction User Manual Slow flash of the communication indicator indicates data communication in process. If there has been no data communication with iSolarCloud for 10s, the indicator will keep steady on. 3.3 Dimensions Height

(H) Width (W) Depth (D) Fig. 3-2 Dimensions Width (W) 200mm Height (H) 110mm Depth (D) 60mm 12 4 Installation Flow The following figure shows the overall installation flow of Logger1000. Start Unpacking and Inspection Installation location selection Mechanical installation Electrical installation Check before commissioning Running steps 1 2 3 4 5 6 Ends Fig. 4-1 Installation flow Tab. 4-1 Description of the installation flow No. 1 2 3 4 5 6 Procedure Unpacking and inspection Installation location selection Mechanical installation Electrical installation Check before commissioning Running steps Reference chapter 5.1 5.2 5.4~5.6 6 7.1 7.2 13 5 Mechanical Installation 5.1 Unpacking and Inspection Check the scope of delivery for completeness according to the packing list. The following items should be included. A F B G Item A Designation Logger1000 Documents Communicatio n terminal resistor cable Nylon tie Fastener assembly Expansion bolt Terminal fastener Guide rail WLAN antenna B C D E F G H I J C H D I E J Fig. 5-1 Scope of delivery Description Logger1000 Quick User Manual, quality certificate, packing list, product test report, and warranty card 6x120 (Note:

if there are more than 15 devices connected on the RS485 bus, it is recommended to connect a 120 terminal resistor in parallel on the A and B lines at the head or tail end of the bus) Used to tie cables 4 sets, M4X16, used for wall-mounting to fasten the device on the metal surface 4 sets, ST4.8X19, used for wall-mounting to fasten the device on the concrete wall 2 sets, E/UK-1201442, fixed on the guide rail to prevent the Logger1000 from moving Length: 240mm

-

Power box Converters the AC current into DC current Length of supporting guide rail: 170mm 14 User Manual 5 Mechanical Installation 5.2 Installation Location Requirements Selecting an optimal installation location for the Logger1000 is critical to safe operation, long service life, and sound performance. Take the following requirements into account when selecting the installation location:

With the ingress of protection IP 20, the Logger1000 can be installed only indoors. Ambient temperature range: -30 to +60. The relative humidity should not exceed 95%. If otherwise, the internal components will be damaged. Take anti-moisture and anti-corrosion measures. Ensure that enough space is reserved around the Logger1000. The installation location should be 1,500mm above the ground surface, and maintenance clearance of at least 500mm should be reserved. Minimum clearances are shown in the figure below. 500mm 500mm 500mm 1500mm Ground When there are external devices (such as Meteo Station) connected to the Logger1000, users should add corresponding communication SPD according to onsite condition. 15 5 Mechanical Installation User Manual 5.3 Installation Tools Installation tools include but are not limited to the following recommended ones. If necessary, use other auxiliary tools on site. Type Tool Utility knife Marker Measuring tape Protective gloves Gener al tools Dust mask Goggles Vacuum cleaner

-

Hammer drill Wire stripper Wire clipper Electric screwdriver Specification:

M4 Install ation tools Phillips screwdriver Rubber mallet Crimping tool

-

5.4 Installing Logger1000 The Logger1000 can be in the wall-mounting manner or guide rail-mounting manner, and users can select either one according to onsite condition. installed 16 User Manual 5 Mechanical Installation 5.4.1 Wall-Mounting Mount the Logger1000 onto the concrete wall or metal surface according to onsite conditions. Mount the Logger1000 onto the wall via the wall-mounting holes (as shown in the figure below) on the back of it. 83mm Mounting hole Fig. 5-2 Wall-mounting hole dimension Step 1 Select an appropriate installation surface. Step 2 Mark positions for drilling holes with a marker. 8 3 m m 8 3 m m Step 3 Drill the holes with a drill according to the marked positions. Concrete wall Metal surface Concrete wall Metal surface Avoid drilling holes in the utility pipes and/or cables attached to back of the wall!

17 5 Mechanical Installation User Manual Operation personnel should wear goggles and dust mask throughout the drilling process to avoid dust inhalation or contact with eyes. Step 4 Secure the expansion bolts into the holes with a rubber mallet. If the Logger1000 is installed onto the metal surface, skip performing this step. Step 5 Fix the screw or bolt on the installation surface , where the screw protrudes from the wall surface by about 5mm.Hang the Logger1000 onto the screws on the concrete wall or metal surface via the wall-mounting holes on the back of Logger1000. Check and ensure that the Logger1000 is firmly installed. 5.4.2 Guide Rail-Mounting Secure the Logger1000 via the rail buckles (as shown in the figure below) on the back of it. 18 User Manual 5 Mechanical Installation Buckle Step 1 Install and secure the guide rail at the appropriate location. Step 2 Slight press down the recessed part under the buckle of Logger1000 with a flat-head screwdriver or other similar tools to pull out the buckle outwards. Step 3 Tilt the power box and hook the buckle into the guide rail. Press down the power box until it snaps into place. 1 2 Step 4 Push the buckle of the Logger1000 upwards to clamp the guide rail. Step 5 Secure the terminal fasteners on both ends of the guide rail, to prevent the Logger1000 from moving. Check and ensure that the Logger1000 is firmly installed. 5.5 Installing Antenna The sucker antenna base should be placed on a metal surface outside the container to avoid impact on signal reception. Antenna entry should be reserved on the container, and the entry hole size is 20mm. Secure the sucker antenna base onto the surface outside the container, lead one end (with the nut) of the antenna through the drilled hole, and fix it onto the corresponding terminal of the Logger1000 clockwise. 19 5 Mechanical Installation User Manual 5.6 Installing Power Box Mount the power box onto the concrete wall or metal surface according to onsite conditions. Secure the power box via the buckles (as shown in the figure below) on the back of it. Buckle Step 1 Install and secure the power box guide rail at the appropriate location. Step 2 Tilt the power box and hook the buckle into the guide rail. Press down the power box until it snaps into place with an audible "Click" sound. 1 2 20 6 Electrical Connection 6.1 Safety Instructions Incorrect cable connection may cause device damage or even personal injury. All cables must be intact, well insulated, appropriately dimensioned, and firmly connected. 6.2 Port Introduction External wiring terminals are located at the bottom of Logger1000, and the wiring area is shown in the figure below. WLAN RUN WLAN RST 24V OUT

-

+

DI 24V IN

-

+

AI/DI 1+ 1-

2+ 2-

3+

3-

4+

4-

1 2 DI 3 4 DRM R C 5 0V RS485 A1 B1 A2 B2 A3 B3 ETH Fig. 6-1 Wiring area Tab. 6-1 Port description Port 24V OUT DI 24V IN Function 24V power output Converters AI into DI 24V power input Description 24V5%, the max. output current: 0.5A Switch for enabling the AI/DI function 24V3%

21 6 Electrical Connection User Manual Port AI/DI DI DRM 0V RS485 ETH WLAN RST Function Grounding Compatible with AI/DI function Digital input DRM Response function Digital reference point RS485 communication port

(Demand Modes) Ethernet port WLAN antenna Reset Description Connecting protective grounding cable Default AI 4-20mA Max. withstand voltage: 24V input sampling: 0-10V or Works together with the DI1~DI4 to achieve the DRM function

-

Support of 3 inputs of RS485 Can be connected to background master via devices such as Ethernet switch and router

-

Press it for 3s to reset For the RS485 (A1B1~A3B3) ports, the communication distance should not exceed 1,000m. 6.3 Connection to PV Devices Devices in the PV system that can be connected to the Logger1000 includes the inverter, Meteo Station, energy meter, etc. 6.3.1 Connection to Inverter Connection to a single inverter The RS485 port of SUNGROW inverter is RS485 terminal block or RJ45 port. RS485 terminal block connection Communication cable specification:

Cable RS485 communication cable Type Shielded twisted pair Cable connection procedure:

Recommended cross-section Outer diameters cable 1mm2~2mm2 12mm Step 1 Lead the RS485 communication cable from the inverter to the wiring area of Logger1000. 22 User Manual 6 Electrical Connection Step 2 Strip the cable jacket and insulation layer with a wire stripper by about 15mm and 8mm to 10mm respectively. A B A:15mm B:8mm...10mm Step 3 Connect the stripped cable to the RS485 ports of the Logger1000, as shown in the figure below. 1 2 3 4 RS485A is connected to port A while RS485B is connected to port B. The RS485 communication cable must be the shielded twisted pair with the shielding layer single-point grounded. When a multi-core multi-strand copper wire cable is used, crimp an appropriate euro style terminal at the communication cable head and then connect it to the RS485 port of the Logger1000. Step 4 Logger1000 is connected to the inverter. Logger1000 Inverter RJ45 port connection RS485 A1 B1 PE A1 B1PE 23 6 Electrical Connection User Manual Communication cable specification:

Cable RS485 communication cable Cable connection procedure:

Type Shielded twisted pair Ethernet cable Step 1 Lead the RS485 communication cable from the inverter to the wiring area of Logger1000. Step 2 Strip the insulation layer of the communication cable with an Ethernet wire stripper, and lead the corresponding RS485A/B signal cables out. Insert cord end terminals into signal cable RS485+ A and signal cable RS485- B, and crimp them with a crimper. Cut off the redundant signal cable and warp it with a heat-shrink tubing. Step 3 If the communication cable is Shielded Ethernet cable, white-green cable 3 is defined as RS485- B cable and the green cable 6 as RS485+ A cable. RS485- B RS485+ A Corresponding Relationship Between Cables and Pins:

Pin 1: White-orange; Pin 2: Orange;

Pin 3: White-green; Pin 4: Blue;

Pin 5: White-blue; Pin 6: Green;

Pin 7: White-brown; Pin 8: Brown. 1----8 Step 4 Connect the communication cable to the RS485 port of the Logger1000 as shown below. Pin 3 and Pin 6 are used for communication.

- Pin 3 to RS485- B

- Pin 6 to RS485+ A 1 2 3 Step 5 Logger1000 is connected to the inverter. 4 24 User Manual 6 Electrical Connection Logger1000 Inverter Connection to multiple inverters Multiple inverters are connected to the Logger1000 in the RS485 daisy chain manner. If more than 15 inverters are connected on the RS485 bus, it is recommended to connect a 120 terminal resistor in parallel on the RS485A and RS485B lines at the head or tail end of the bus.

...

... Inverter Logger1000 Inverter Meteo station Inverter Inverter Inverter Energy meter With an outdoor device connected to the Logger1000, it is recommended to connect an SPD to protect the Logger1000 from lightning damage. The Logger1000 allows for 3 inputs of RS485 buses and 30 devices at most. Different device types must connect to different RS485 communication ports of the Logger1000. For example, connect the transformer and inverter to different RS485 communication ports of the Logger1000. 25 6 Electrical Connection User Manual The address of each device on the RS485 bus should be within the set address range (1 to 246) of the Logger1000 without repetition. Otherwise, communication failure occurs. Serial port parameters of each device on the RS485 bus should be consistent with those of the Logger1000. The serial port parameters include baud rate, data bit, stop bit, and check bit. 6.3.2 Connection to Energy Meter It is recommended to use the energy meter whose communication protocol complies with DL/T645-2007 protocol or Modbus RTU protocol. The recommended energy meter types are as follows:

No. 1 2 3 4 Manufacture Sfere Acrel Acrel Janitza Type PD194E/Z PZ96-E3 DTSD1352 UMG604 The following figure shows the connection between the Logger1000 and the energy meter. Energy meter Logger1000 Connect the communication cable led from the energy meter to the RS485 port of the Logger1000. All devices on each RS485 bus support the same communication protocol. 6.3.3 Connection to Meteo Station The following figure shows the connection between the Logger1000 and the Meteo Station. 26 User Manual 6 Electrical Connection Meteo Station Logger1000 Connect the communication cable led from the Meteo Station to the RS485 port of the Logger1000. If multiple inverters are connected to the Logger1000 together with the Meteo Station, the Meteo Station should be connected on the very end of the daisy chain. 6.4 Connection to Background The Logger1000 can be connected to the background of the PV system via the network port, and the communication protocol is standard Modbus TCP or IEC104. As a salve device, the Logger1000 can be accessed by multiple backgrounds and communicate by using the standard protocol. The following figure shows the connection between the Logger1000 and the background. The Logger1000 can be connected to multiple monitoring background systems via the Ethernet switch or router, or it may be connected to the single monitoring background system via the network cable. For example, the Logger1000 is connected to the background system via the Ethernet switch, and the wiring steps are as follows:

Step 1 Prepare a suitable length of Ethernet cable. Step 2 Insert one end of the cable into the port of the Ethernet switch and the other end to the "ETH" port of the Logger1000. Step 3 Set IP address of the ETH port to be within the same network segment as that of the background monitoring system. 27 6 Electrical Connection User Manual Fig. 6-2 Connection to PV background system Default IP of the "ETH": IP12.12.12.12. 6.5 Connection to Power Supply The Logger1000 supports DC24V power supply. Prepare two-core DC cable, three-core AC cable, and grounding cable before wiring. Power cable specifications are shown in the table below. Tab. 6-2 Power cable specification Cable Outer cable diameters Recommende d cross-section of Length Protective layer to be stripped off DC cable, AC cable Groundi ng cable 3mm 3mm 1mm2~2mm2 15mm 1mm2~2mm2 8mm~10mm Power cable wiring steps are as follows:

Length of insulation to be stripped off 8mm~10mm

-

Step 1 Strip the cable jackets and insulation layers of the DC cable, AC cable, and grounding cable with a wire stripper by appropriate length. 28 User Manual 6 Electrical Connection DC cable Grounding cable AC cable Step 2 Insert the stripped DC cable into the "24V IN" and "24V OUT" ports of the Logger1000. Connect the DC cable led from the "24V OUT" port of the Logger1000 to other devices that need 24V DC power supply. Step 3 Connect the stripped grounding cable to the corresponding port of the Logger1000. Step 4 Connect the DC cable led from the "24V IN" port of the Logger1000 to the

"DC 24V OUT" port of the power box. Connect the stripped AC cable to the

"AC (100~277V)" port of the power box, and connect the other end of the AC cable to the 220V AC power. 29 6 Electrical Connection User Manual AC (100~277V) Logger1000 Power eox DC 24V OUT 6.6 Cable Routing Requirements Cables used in the system generally include power cables and communication cables. The communication cable needs to be routed away from the power cable, and the cables need to form a right angle at the intersection. The communication cable needs to be as short as possible and keeps a distance from the power cable. Power cables and communication cables should be routed in different cable trenches to avoid long-distance parallel cable routing of power cables and other cables, thereby reducing electromagnetic interference due to output voltage transient. The distance between the power cable and communication cable should be greater than 200mm. When the cables meet with each other, the cross angle should be 90, and the distance can reduced accordingly. The following table shows the recommended minimum distances between parallel shielded communication cables and power cables. Parallel cable length (m) 200 300 500 Min. distance (m) 0.3 0.5 1.2 The communication cables should be routed as closely to the ground surface or supports (such as support beam, steel channel, or metal rail) as possible. 30 7 Commissioning 7.1 Inspection before Commissioning No. 1 2 3 intact, well-insulated, and appropriately Inspection item All cables are dimensioned All cables are connected correctly and firmly The polarity of the power supply cable is correct. The grounding cable is reliably grounded Result 7.2 Commissioning Steps Tab. 7-1 Commissioning Steps No. 1 Step Inspection before commissioning Power on the Logger1000. Result 2 3 4 5 6 7 Check whether the indicators of Logger1000 normally flash. Connect the debugging PC to the "ETH" port of the Logger1000 via the network cable (default IP address of "ETH": 12.12.12.12). Log in the Web at 12.12.12.12 through the IE or Chrome browser. Make sure that the device is firmly connected to the Logger1000 communication line, and close the inverter DC side circuit breaker to ensure that the inverter is powered. Set serial port parameters by referring to the "RS485" chapter, including the baud rate, check bit, data bit, and stop bit. The default setting is 9600bps, 8 data bit, 2 stop bit, and no check bit. Set the devices connected to the Logger1000 through the device management function. If the device connected for the first time is SUNGROW residential inverter or string inverter, use 8.9.1 Device List" function to search the device whose address will be automatically allocated. For devices of other types, connect them to the Logger1000 by referring to "8.9.1 Device List". For the devices of other types, the communication address needs to be preset. 31 7 Commissioning User Manual No. 8 9 10 11 Step The router starts the DHCP service, and the Logger1000 uses the DHCP function to automatically obtain an IP address. Set the iSolarCloud address if data needs to be uploaded to cloud server. The default iSolarCloud station is "China Station". Users in mainland China access the "China Station", users in Europe access the "Europe Station", and users in other regions access the

"International station". Check the data of SUNGROW string inverter for correctness on the real-time information interface. Create new plant via the iSolarCloud data for correctness. iSolarCloud APP and check the Result 32 The auto search function is available for SUNGROW residential inverters and string inverters only whose addresses are automatically allocated. Devices of other types, such as energy meter and transformer, can be connected to Logger1000 will the adding device function. Addresses of the device connected to the same communication port should be different from each other. Save the settings after operation, and otherwise the settings will not take effect. Use the iSolarCloud APP to create a new plant. Users can directly scan the QR code on the front label of the Logger1000 or manually input the S/N to add communication equipment. For details, refer to the Quick Guidance of iSolarCloud APP. Scan the bottom QR Code to view or obtain the Quick Guidance of iSolarCloud APP. 8 Web Interface 8.1 Running Requirements Item Browser Min. resolution Parameter IE11 or later, Chrome65 or later, and Safari11 or later 1024*768 8.2 Preparation before Ethernet Login The IP address of the PC connected to the Logger1000 is the same as that of the Logger1000. The IP address is 12.12.12.X. For example, the IP address of the PC may set to 12.12.12.125, and the subnet mask is 255.255.255.0. Connect the PC to the ETH port of the Logger1000, and the IP address of the ETH port is 12.12.12.12 by default. 8.3 Login Steps The Web interfaces provided in this document are for reference only, and the actual ones may differ. Users of different types have different permissions. In the following, description is given by using the O&M permission as an example. Users can log into the Logger1000 via the Ethernet or WiFi according to actual condition. 8.3.1 Ethernet Login Step 1 Connect the Logger1000 to the PC via the Ethernet. Step 2 Enter the IP address 12.12.12.12 of the Logger1000 in the PC address bar to enter the general user login interface, as shown in the following figure 33 8 Web Interface User Manual Step 3 Click the button "Login" in the upper right corner, enter the default password

"pw1111", and click "Login", to enter the O&M user interface. User types include "general user" and "O&M user". The general user can view basic information, real-time fault, and device monitoring information of the Logger1000. In addition to all permissions of the general user, the O&M user has the permission to set and modify parameters of the Logger1000 and devices connected to the Logger1000. In the following, description is given by using the O&M permission as an example. After login for the first time, it is recommended to change the password as soon as possible. Click "O&M user" -> "Modify password" to change the password. With the login password forgotten, contact SUNGROW and provide the device S/N as well as system time, to get the password. 8.3.2 WiFi Login Step 1 Open the wireless network settings of the PC, search for the wireless network

"SG-A1234567890" of the Logger1000, and connect the PC to the wireless network of the Logger1000 (without password).

"SG-A1234567890" is just used as an example. For actual wireless network, refer to the S/N on the label attached to the front side of the Logger1000. Step 2 Enter the IP address 11.11.11.1 of the Logger1000 in the PC address bar to enter the general user login interface. Step 3 Refer to the step 3 in "0Ethernet Login" to login into the O&M user interface. User types include "general user" and "O&M user". Users of different types have different permissions. 34 User Manual 8 Web Interface 8.4 Web Main Interface When the "O&M user" logs into the Web for the first time, the "Help" window pops up. Follow the prompts to perform operations such as time synchronization, device connection, and forwarding configuration. The Web main interface is as follows:

C D E F B A G Item Designation A Navigation menu Function display area Description Display main function modules of the Web Display the current interface Alarm icon Help Language menu User Display the current alarm level and alarm number. Users can click the icons to enter the corresponding alarm interface Display the basic configuration steps of the Logger1000 Click the button to select the desired language Display the current login user

: WiFi connection Information icon Ethernet Connection Cloud access 35 B C D E F G 8 Web Interface User Manual 8.5 Web Menu The Web has seven main function modules: "Overview", "Device monitoring",

"Device", "Power Control", "History Data", "System", and "About". The permissions of the O&M users are as follows:

Main menu Overview Device monitoring Device Power control History data System About General information Device list Active power Operation logbook Current alarms Firmware update Reactive power Inverter log Emergency button Run-info System maintenance Remote maintenance Message export System time Transfer configuration Interface 8.6 Operation Procedure Perform the following operations before logging into the Logger1000 Web for the first time. Step 1 Complete the electrical connections. Ensure that the Logger1000 has been correctly connected to other devices. Refer to the chapter "6 Electrical Connection". Step 2 Configure serial ports of the Logger1000. After logging into the Web, first configure the serial ports of the Logger1000, to ensure that the Logger1000 can normally communicate with upstream devices. Refer to the chapter "8.11.7 Interface Step 3 Calibrate the system time. Check whether the current system time is correct, and perform manual time synchronization or automatic time synchronization when necessary. Refer to the chapter 8.11.5 System Time. Step 4 Automatically search the device. 36 User Manual 8 Web Interface After all devices have been added, configure the forwarding service of the Logger1000, to ensure that the Logger1000 can forward the data to upstream devices. Refer to the chapter "8.9.1 Device List". Step 5 Add the device. Refer to the chapter "8.9.1 Device List". Step 6 Configure forwarding service. After all devices have been added, configure the forwarding service of the Logger1000, to ensure that the Logger1000 can forward the data to upstream devices. Refer to the chapter "8.11.6 Forwarding Configuration". 8.7 Overview 8.7.1 General Information Click "Overview" -> "General information" to enter the corresponding interface. Shortcut menu Device setup: support of auto search and add device functions. Click the menu to add, delete, modify, and view the device or perform auto search operation to search the device to which address will be automatically allocated. Refer to the chapter 8.9.1 Device List. Network management: set port parameters. Refer to the chapter 8.11.7 Interface. Transfer configuration: transfer the data connected by the system to the background. Refer to the chapter "8.11.6 Forwarding Configuration". System maintenance: support of operations such as system upgrade, log export, and rebooting. Refer to the chapter 8.11.2 System Maintenance. 37 8 Web Interface User Manual PV-plant value Information such as today yield, total yield, real-time active power, and number of offline devices can be viewed. Click the button "Exp." To view more information. Inverter real-time values Information on the inverter such as state, daily yield, active power, and reactive can be viewed. 8.7.2 Current Alarms Click "Overview" -> "Current alarms" to view the device fault information. Information such as device name, alarm type, alarm time, fault code, and fault ID can be viewed. 8.8 Device Monitoring Click "Device Monitoring" to enter the corresponding interface. Device information such as real-time data, DC data, initial parameter, and device information can be viewed on this interface. 8.8.1 Real-Time Information Click "Device Monitoring" -> "Realtime values" to view the corresponding information. 38 User Manual 8 Web Interface Click the button to select the device type. On this interface, information such as power generation, device state, and active power can be viewed. 8.8.2 DC Data Click "Device Monitoring" -> "DC data" to view the corresponding information. On this interface, voltage and current information of multiple inputs of MPPTs and strings can be viewed. 8.8.3 Initial Parameter Click "Device monitoring" -> "Initial parameter" to enter the corresponding interface and set initial parameters. 39 8 Web Interface User Manual Initial parameters can be set in two manners: single setting and batch setting. Single setting: select the desired country (region) and grid type, and click "Setting"

to set initial parameters for the single device. Batch setting: select the desired country (region) and grid type, and click "Configure synchronization". Select the desired devices in the pop-up device list, and click

"Save" to achieve batch setting. 8.8.4 Protection Parameter Click "Device monitoring" -> "Protection parameter" to enter the corresponding interface and set protection parameters. Protection parameters can be set in two manners: single setting and batch setting. For specific setting method, refer to "0On this interface, voltage and current information of multiple inputs of MPPTs and strings can be viewed.

". 8.8.5 General Parameter Click "Device monitoring" -> "General parameters" to enter the corresponding interface and set general parameters. 40 User Manual 8 Web Interface Select "Read-back", set register address, register number, and address type, and click the button "Read-back", to read the current value of the device. Select "Setting", set register address, data type, and set value, and click the button

"Save", to set device parameters. 8.8.6 Device Instruction Click "Device monitoring" -> "Device instruction" to enter the corresponding interface. On this interface, users can start/stop the device or restore factory setting. 8.8.7 Device Information Click "Device Monitoring" -> "Device Information" to view the corresponding information. 41 8 Web Interface User Manual Parameter information such as device S/N, device model, and rated active power can be viewed. 8.9 Device Maintenance 8.9.1 Device List Click "Device" -> "Device list" to enter the corresponding interface. The function module "Device list" is used for managing devices connected to the Logger1000 and configuring addresses for these devices. Devices can be automatically searched and added. Auto search The "Auto search" function is used for SUNGROW residential inverter and string inverter to which addresses will be automatically allocated. Click the button "Auto search", and the corresponding window pops up. Select an interface type, and click "Search". After that, corresponding devices will be displayed. Automatic address allocation pops up only when there is an actual address confrontation. 42 User Manual Export 8 Web Interface Click the button to export the searched device list. Import After the device list is exported, the user can modify device addresses and device names in batch. Click the button Web. to import the modified device list to the Only the address of SUNGROW residential inverter or string inverter can be modified. Add device Click "Add device", select a device type in the pop-up window, and fill in the information required. Edit device Click the button connected to the Logger1000 and other parameters in the operation bar, to modify the name of the device 43 8 Web Interface User Manual is named

"Device Name"

The number-communication address). Take SG36KTL-M(COM1-7) as an example. SG36KTL-M is device type, COM1 is the communication port, and 7 is the communication address. form device model

(port the in Delete device After a device is deleted on site, the user can delete the device from the device list, to keep device consistency. Select the device to be deleted, click the button "Delete", and click "Confirm" in the pop-up window, to delete the device. 8.9.2 Firmware Update The firmware update function is used to upgrade the SUNGROW residential inverter and string inverter. Step 1 Click "Device" -> "Firmware update" to enter the corresponding interface. Step 2 Select the device to be upgraded, and click the button "Select upgrade package" to upload the upgrade file. Step 3 Complete firmware update. 8.9.3 Inverter Log Click "Device" -> "Inverter log" to enter the corresponding interface. Select the device running information and click the button corresponding logs.

, to export 8.10 History Data Click "History data" -> "Operation logbook" to enter the corresponding interface. 44 User Manual 8 Web Interface On this interface, operation logs of different users can be viewed. 8.11 System 8.11.1 Running Information Click "System" -> "Run-info" to enter the corresponding interface. Information such as wireless signal strength, WiFi AP IP, AI voltage, DI status can be viewed. 8.11.2 System Maintenance Click "System" -> "System maintenance" to enter the corresponding interface. 45 8 Web Interface User Manual System upgrade Users can upgrade Logger1000 on the Web interface. Click "System upgrade", select the upgrade file, and click "Upgrade". The upgrade file should be in the ".zip" format. Log export Click the button "Log export", select the type of logs to be exported, and click

"Confirm". Rebooting Click "Rebooting" to enter the corresponding interface. A warning window will pop up, and click "Confirm" to continue the rebooting operation. Modification of the configuration parameters (port parameters and transfer configuration) of the Logger1000 will not take effect before the system is rebooted. Restore factory setting Click "Reset all settings" to enter the corresponding interface. Restoring the factory settings refers to restoring all modified settings to the factory state and will not clear the data. Clear data Click "Erase device data" to enter the corresponding interface. 46 User Manual 8 Web Interface This operation will clear all data of the system. 8.11.3 Remote Maintenance Click "System" -> "Remote maintenance" to enter the corresponding interface. Tab. 8-1 Parameter description Remote maintenance switch state Disabled Enable Description Not allow for remote maintenance on the Logger1000 Allow for remote maintenance on the Logger1000 In case the remote maintenance switch is in the "Enable" state, the remote service address needs to be set. Users in mainland China select "iSolarCloud of China", users in Europe select "iSolarCloud of Europe", and users in other regions select the

"iSolarCloud of International". 8.11.4 Message Export Click "System" -> "Message export" to enter the corresponding interface. Tab. 8-2 Parameter description Parameter Description Port

-

Range Serial port: COM1, COM2, COM3 Network port: ETH, WiFi Duration Export during the set time the message recorded 1min ~ 10min Set parameters, including interface, serial port, and duration, and click "Start" to start recording message. The recording automatically stops when the set time reaches, or the user may manually click the button "Stop" to stop recoding message. 47 8 Web Interface User Manual Click "Export" to export the message. 8.11.5 System Time Click the "System time" to check whether the current system time is correct, synchronize the system time, and enable/disable "Inverter timing". Click "System" -> "System time" to enter the corresponding interface. Method of setting system time:

1. When the option "Inverter timing"

synchronized with the time of Logger1000. When the clock source is set to "User define", user can manually set the current system time and time zone in the following two manners:

is selected, device time will be 2. Select "Use PC time" to synchronize the time of the Logger1000 with the time of the PC. Click the "Time zone" pull-down-list and select the local time zone. Enter the

"Date" and "Time" and click "Save" to manually set the time of the Logger1000. 4. It is recommended to select "User define" during debugging. 3. When the clock source is set to "NTP", time of all devices can be synchronized. Click the "Time zone" pull-down-list and select the local time zone. Fill in the domain, set the time interval, and click "Save". In this way, the time of the Logger1000 is synchronized with the time of the server. The clock source is set to "IEC104". In this way, the Logger1000 and the background must use the IEC104 communication protocol, and otherwise, this manner is invalid. The clock source is set to "iSolarCloud". The clock source is set to "MODBUS-TCP". 5. 6. It is recommended that the top priority should be given to the IEC104 and then the iSolarCloud. 48 User Manual 8 Web Interface The first time the Logger1000 is used, the system time must be configured. After the Logger1000 is powered off for more than 24 hours, if there is no online clock source, you need to manually modify the system time. 8.11.6 Forwarding Configuration The Logger1000 supports data forwarding to the background, before which forwarding service configuration needs to be performed. The Logger1000 includes 4 kinds of forwarding services: iSolarCloud, IEC104, MODBUS, and third-party portal. Click "System" -> "Transfer configuration" to enter the corresponding interface. iSolarCloud The default iSolarCloud station is "iSolarCloud of China". Users in mainland China select "iSolarCloud of China", users in Europe select

"iSolarCloud of Europe", and users in other regions select the

"iSolarCloud of International". to modify the forwarding configuration information of Click the button iSolarCloud. IEC104 Configure the IEC104 forwarding service for the Logger1000 on this interface. Click "Transfer configuration" -> "IEC104" to enter the corresponding interface. 49 8 Web Interface User Manual The local port is 2404. White list setting When the option "Enable the white list or not" is not selected, and the default IP address is "0.0.0.0", any background devices with valid IP address can access the Logger1000. When the option "Enable the white list or not" is selected, and specified IP address is entered, only the device with the specified IP address can access the Logger1000. Edit IEC104 forwarding point table Step 1 Click "Export of configuration tools" to export the IEC104 forwarding point table. Step 2 Open the sheet "Introduce" of the IEC104 forwarding point table, where data of five types (telemetry, telesignalling, remote pulse, remote control, and remote regulating) are included. Step 3 Open the sheet "Configure Para" of the IEC104 forwarding point table to view and set the addresses of the five types of data. The addresses shown in the following table are default ones and can be modified according to actual situation. Step 4 Open the sheets such as inverter, energy meter, Meteo Station, and Logger1000, to set corresponding measuring point data. 50 User Manual 8 Web Interface Parameter Data Type Data ID Value

-

-

State*

Invert*

Coefficient*

Uint Data Name Y N Y N

-

-

-

Description Data type Data type Data is uploaded to the background via the IEC104 communication protocol Data is not uploaded to the background Negate, 0 is 1, and 1 is 0, available for telesignalling only No negate, 0 is 0 and 1 is 1 Coefficient, available for telemetry, remote pulse, and remote regulating only Unit, available for telemetry, remote pulse, and remote regulating only NA indicates no unit Data name in multiple languages Note: * indicates that the parameters should be set according to onsite conditions. Devices with the same measuring points should be listed in the same sheet, for example, "SG80KTL-M|SG50KTL" sheet. Step 5 Open the sheet "Device List" of the IEC104 forwarding point table to sort the devices. Parameter No. Device Type Com ID*

Collect ID*

Access ID*

Description Sort devices, and only support moving the whole line for the device type corresponds one-to-one to its parameters in the same line Device type Number of COM port to which device connected, corresponding to the port data of the "Device list" on the Web interface Collect device Modbus to communication address of the "Device list" on the Web interface Background access address, corresponding to the forwarding address of the "Device list" on the Web interface Reserved telesignalling address Reserved telemetry address Reserved remote pulse address Reserved remote control address Reserved remote regulating address corresponding address, Reserved YX Addr Reserved YC Addr Reserved YM Addr Reserved YK Addr Reserved YT Addr Note:Export the excel from the "Device list" interface and copy the data in the 51 8 Web Interface User Manual exported excel. The device type in the sheet "Device List" should be keep consistent with the that in the device sheet. Configuration tool export Step 1 After editing the IEC104 forwarding point table, click "Export" -> "IEC104 CFG", so that a prompt window pops up, and then convert the excel file into xml file. The xml file and the excel file are at the same path. Step 2 Click the button on the operation bar, and then click the button on the pop-up window, to import the xml file. MODBUS Configure the MODBU forwarding service for the Logger1000 on this interface. Click "Transfer configuration" -> "MODBUS" to enter the corresponding interface. For the white list setting, refer to the description in "IEC104". Third-party portal Configure the third-party cloud forwarding service for the Logger1000 on this interface. Click "Transfer configuration" -> "Third-party portal" to enter the corresponding interface. 52 User Manual 8 Web Interface 8.11.7 Interface Set ports of the Logger1000 on the interface. RS485 Click "System" -> "Interface" -> "RS485" to enter the corresponding interface. The RS485 port data includes serial port, baud rate, parity bit, and stop bit. When the Logger1000 is connected to a device via the serial port, the baud rate, parity bit, and stop bit of the serial port should be the same as those set for the connected device, so as to ensure normal communication between the Logger1000 and the connected device. The baud rate is 9,600bps, stop bit is 1, and there is no parity bit by default. Ethernet Perform Ethernet settings on this interface. Click "System" -> "Interface" -> "Ethernet" to enter the corresponding interface. The default IP address of the ETH port is 12.12.12.12. If auto IP allocation is enabled, it is recommended to obtain the current IP address of the ETH port by connecting the WiFi module and logging into 11.11.11.1. If both auto IP allocation and WiFi STA client are enabled, ensure that the 53 8 Web Interface User Manual Ethernet and the WiFi STA are at different network segment. Otherwise, it is probably that neither of the two networks is available. WiFi Perform WiFi setting on this interface. Click "System" -> "Interface" -> "WiFi" to enter the corresponding interface. WiFi STA client WiFi STA refers to a case in which the Logger1000 connect to another hotspot or router via the WiFi function. WiFi hotspot WiFi hotspot mode means that the Logger1000 is used as an hotspot, and the PC or mobile phone can be connected to the Logger1000 via the WiFi function. AI Click "System" -> "Interface" -> "AI" to enter the corresponding interface. 54 User Manual 8 Web Interface DI Click "System" -> "Interface" -> "DI" to enter the corresponding interface. 8.12 About Click "About" to view the firmware information of the Logger1000. Click "About" and then the following interface pops up. 55 9 Grid Dispatching Function Only installation personnel with some communication knowledge can perform operations described in this chapter. 9.1 Function Description The Logger1000 not only serves as a communication management device of single PV array/plant, but also has the power regulation function. Multiple regulation manners can meet different regulation requirements. The Logger1000 can regulate the power output of the SUNGROW inverter, and the regulation mainly includes active power control and reactive power regulation. The Logger1000 can control device power output according to the local preset instructions. In addition, it can receive regulation instructions via the remote communication (IEC104, MODBUS, and TCP), AI, and dry contact (DI). Digital input K1 K2 K3 K4 K5 Grid dispatching center Analog input Logger1000 PC Fig. 9-1 Overall frame of power control function The Logger1000 supports closed-loop power regulation. The regulation accuracy and real-time performance can be further improved by adding an energy meter. The Logger1000 supports fast instruction transfer channels (ms-level processing delay) while ensuring that the dispatching instructions are correctly transmitted to all inverters. 56 User Manual 9 Grid Dispatching Function The corresponding power dispatching function is available only when the inverter supports active power control, power factor control, and reactive power regulation!

For details, refer to the inverter user manual or consult the local retailer. 9.2 Interface Description The Logger1000 is equipped with digital control interfaces and analog control interfaces for receiving digital instructions and analog instructions sent by the grid dispatching center. 9.2.1 Digital Control Interface The digital control interfaces are at the bottom of the Logger1000, and a sum of 5 digital input ports are provided, as shown in the figure below. 24V OUT

-

+

DI 24V IN

-

+

AI/DI 1+ 1-

2+ 2-

3+

3-

4+

4-

DI 3 1 2 4 5 DRM R C 0V Tab. 9-1 Digital control interface signal definition Signal DI 1+, 1-, 2+, 2-

3+, 3-, 4+, 4-

1, 2, 3, 4, 5 DRM 0V Definition Enabling switch for converting AI function to DI function 4 input dry contact channels 5 independent-input dry contact signal channel Works together with the DI1 to DI4 to achieve the DRM function Input dry contact signal ground There are 4 ports at the bottom of the Logger1000 compatible with the AI/DI function. When the DI function of the "AI/DI" port is enabled, use a power cable to connect the "24V OUT+" port to "DI" port. Wiring between the Logger1000 and the wireless receiver controller is as follows:

57 9 Grid Dispatching Function User Manual Logger1000 0V l 2 3 4 5 Wireless receiver controller K1 K2 K3 K4 K5 In Germany and some other European countries, the grid company uses the Ripple Control Receiver to convert the grid dispatching signal and send it in a dry contact manner, In this case, the plant needs to receive the grid dispatching signal in the dry contact communication manner. Wiring of the active power dry contact is shown in the figure below:

Logger1000 1 2 3 4 5 0V Ripple Control Receiver DI 1+

DI 1-

DI 2+

DI 2-

DI 3+

DI 3-

DI 4+

DI 4-

+

-

Fast-Stop Wiring of the reactive power dry contact is shown in the figure below:

58 User Manual 9 Grid Dispatching Function Logger1000 1+

1-

2+

2-

3+

3-

4+

4-

DI 24 OUT-

24 OUT+

Ripple Control Receiver DI 1+

DI 1-

DI 2+

DI 2-

DI 3+

DI 3-

DI 4+

DI 4-

9.2.2 Analog Control Interface The analog control interfaces are at the bottom of the Logger1000, and a sum of 4 analog input ports are provided, as shown in the figure below. AI/DI 1+ 1-

2+ 2-

3+

3-

4+

4-

Tab. 9-2 Analog control interface signal definition Signal 1+, 1-, 2+, 2-

3+, 3-, 4+, 4-

The Logger1000 supports 4 inputs of 420mA analog currents or 4 inputs of 0 10V analog voltage. 4 analog input channels Definition 9.2.3 DRM Control Interface The DRM control interface are located at the bottom of the Logger1000, as shown in the figure below. DI 3 1 2 4 5 DRM R C 0V The DRM interface works together with DI1~DI4 to achieve the DRM function. Wiring between the Logger1000 and the DRED is as follows:

59 9 Grid Dispatching Function User Manual Logger1000 2 3 4 5 R C DRED S1 S2 S3 S4 S5 S6 S7 S8 15K The DRM interface requires that the inverter can be connected to the DRED via the corresponding wiring terminal or RJ45 connector. 9.3 Power Control Power regulation includes active power control and reactive power regulation. 9.3.1 Active Power Disable Click "Power control" -> "Active power" to enter the active power interface. Set the active control mode to "Disable", to forbid active power derating. Remote power control If the Logger1000 is disconnected from the background, set the active control mode to "Remote power control". Communication abnormality output (%): Abnormality of delivering specified data. 60 User Manual 9 Grid Dispatching Function Control method includes "Open loop control" and "Closed-loop control". Control cycle: 1~60s Local power control If the Logger1000 is disconnected from the energy meter, set the active control mode to "Local power control". Control method includes "Open loop control" and "Closed-loop control". Open loop control: At the start time, the locally configured active instruction is converted into the active value (in percentage) and sent to the power output port of the inverter, thereby implementing active power control. Closed-loop control: At the start time, the locally configured active instruction is used as the target value. If an energy meter is connected, the active power or power factor of the meter needs to be collected and used as the input parameter, and the closed-loop control algorithm is used to calculate the active power compensation value (in percentage) and send it to the power output port of the inverter, thereby implementing active power control. Q-Method includes "kW" and "%". kW: set active power value.

%: set active power percentage. Add local power control manner Tick the checkbox, fill in "Start time" and "Percentage" (active power fix value), and click "Save". 61 9 Grid Dispatching Function User Manual Delete local power control manner Select a local control manner that needs to be deleted, and click "Clear data". AI control Set the active control mode to "Analog input". Control method includes "Open loop control" and "Closed-loop control". AI channel can be set to any one of AI1~AI4. Q-Method includes "kW" and "%". Fill in "Min. (%)", "Max. (%)", and "Step (%)". 62 User Manual 9 Grid Dispatching Function Digital input Set the active control mode to "Digital input". Control method includes "Open loop control" and "Closed-loop control". Q-Method includes "kW" and "%". Add digital input manner Tick the checkbox, select the desired DI channel, fill in the "Percentage", and click

"Save". Delete digital input manner Select a digital input manner that needs to be deleted, and click "Clear data". DRM mode Set the active control mode to "DRM mode". 9.3.2 Reactive Power Click "Power control" -> "Reactive power" to enter the reactive power interface. 63 9 Grid Dispatching Function User Manual Disable If the grid company does not need the power plant to adjust the voltage at the grid-connection point, and the inverter does not need to cooperate with the grid for reactive power compensation, the inverter can keep operating in the pure active power output state, and the operator can set the "Reactive control mode" to

"Disable" to forbid reactive power derating. Remote power control Set the "Reactive control mode" to "Remote power control". Control method includes "Open loop control" and "Closed-loop control". Local power control Set the "Reactive control mode" to "Local power control". 64 User Manual 9 Grid Dispatching Function Control method includes "Open loop control" and "Closed-loop control". Open loop control: At the start time, the locally configured active instruction is converted into the reactive value (in percentage) and sent to the power output port of the inverter, thereby implementing reactive power control. Closed-loop control: At the start time, the locally configured reactive instruction is used as the target value. If an energy meter is connected, the reactive power or power factor of the meter needs to be collected and used as the input parameter, and the closed-loop control algorithm is used to calculate the reactive power compensation value (in percentage) and send it to the power output port of the inverter, thereby implementing reactive power control. Q-Method includes "%". Add local power control manner Tick the checkbox, fill in "Start time" and " Percentage", and click "Save". Delete local power control manner Select a local power control manner that needs to be deleted, and click "Clear data". AI control Set the reactive control mode to "Analog input". Control method includes "Open loop control" and "Closed-loop control". AI channel can be set to any one of AI1~AI4. Q-Method is "%" and the "Min. (%)" and "Max. (%)" range from -100% to 100%

Fill in "Min. (%)", "Max. (%)" and "Step(%)". 65 9 Grid Dispatching Function User Manual Digital input Set the reactive control mode to "Digital input". Control method includes "Open loop control" and "Closed-loop control". Q-Method is "%". Add digital input manner Tick the checkbox, select the desired DI channel, fill in the "Percentage ", and click

"Save". Delete digital input manner Select a digital input manner that needs to be deleted, and click "Clear data". 9.3.3 Emergency Button Click "Power control" -> "Emergency button" to enter the corresponding interface. Set the emergency button to "Enable" or "Disable". 66 10 Device Maintenance Due to the effect of ambient temperature, humidity, dust and vibration, the inner components of the Logger1000 will be aging and worn out. To ensure the system safety and maintain the efficiency of the Logger1000, it is necessary to carry out routine and periodic maintenance. All measures, which can help the Logger1000 to keep good working conditions, are within the maintenance scope. 10.1 Safety Instructions 10.1.1 Safety Rules Only qualified personnel can perform the work described in this chapter. Do not leave any screws, washers or other metallic parts inside the Logger1000 to avoid damages to the Logger1000. Wait at least 5 minutes after the Logger1000 stops and then perform operations on it. 10.1.2 Five Safety Rules Respect the following five rules thought the maintenance or service process to ensure personnel safety. Disconnect the Logger1000 from all the external connections and internal power supplies. Ensure that the Logger1000 will not be inadvertently connected. Ensure that the Logger1000 is voltage free with a multimeter. Connect necessary grounding cables. Cover the electrical components with insulation cloth during operation. 67 10 Device Maintenance User Manual 10.2 Maintenance Recommended routine maintenance work is shown in the following table. Item Working environment Hardware maintenance System cleaning Terminal and cable connection Software maintenance Method Check to make sure there is no strong EMC interference device around the Logger1000 Check to make sure there is no hot source around the Check to make sure there is no corrosive materials around Logger1000. the Logger1000 Check to make sure the power supply voltage is normal Check to make sure the cables are connected firmly Check to make sure the grounding cable is grounded properly Clean the enclosure, circuit board and the components Check the heat dissipation hole and the ensure it is not covered Check if the screws of the control terminals are loose. Refasten them with screwdriver if necessary;

Check if the connection copper bar or screws are Visually check the wiring layout and the device terminal Log in Web to check the device communication situation Log in Web to check the parameter setting of the Log in Web to check the software version of the Logger1000 discoloring. connection Logger1000 10.3 Troubleshooting The grounding cable must be grounded reliably. Otherwise, electric shock can cause personal injury!

The common faults and troubleshooting is shown in the table below. If the problem still cannot be removed by following the instruction in this manual, please contact SUMGROW. 68 User Manual 10 Device Maintenance Fault Power-on fault Cannot find device any or The The power Cause 1. supply terminal of the Logger1000 has no power connection 2. Power source failure 3. Logger1000 fault 1. The RS485 port is not connected to any devices or the connection cable is loose connected reversely. 2. RS485 communication parameters are set incorrectly. 3. The devices that do not support automatic search are not manually added, such as Meteo Station and energy meter. 4. The address of the manually added device is inconsistent with the actual device address 5. Device does not operate normally. The Logger100 0 displays the device state as disconnecti on is 1. Communication cable between the device and the Logger1000 loose or disconnected. 2. The device operates abnormally 3. The device is removed or its configuration is changed Cannot communic ate with the backgroun d 1. The network between the Logger1000 the and background is failed. 2. setting is incorrect. 3. The forwarding protocol configuration is incorrect. parameter Network Corrective measures 1. Connect the power cable to the power the Logger1000 2. Replace the power source 3. Contact SUNGROW terminal of supply connection;

1. Check the RS485 communication cable reconnect and tighten the cable if necessary. 2. Check the RS485 communication parameter setting; and make sure the Baud rate and the communication address setting are correct. 3. Manually add the devices such as Meteo Station and energy meter. 4. Check the device address setting. 5. Check the device operation status. research or add 1. Check the cable connection between the device and Logger1000; and reconnect and tighten the cable if necessary. 2. Power on the device if the device connection is correct 3. Check if there is a device replaced. If so, the device manually. If the device is removed, conduct the Device List operation through the Delete. 1. Check if the Ethernet port of the Logger1000 is connected to the PC or router correctly. 2. Check if the network parameter is set correctly. 3. Check if the forwarding protocol is set correctly. 69 11 Appendix 11.1 Technical Data Communication Max. number of devices Communication ports RS485 interface Ethernet Digital input Analog input Wireless Communication WiFi communication Power Supply DC input DC output Power consumption Ambient Conditions Operating temperature Storage temperature Relative air humidity Elevation Protection class Mechanical Parameters Dimensions (W x H x D) Weight Mounting type 30 at most 3 1 x RJ45, 10/100/1000Mbps 5, Max. 24VDC 4, support 420mA or 010VDC 802.11 b/g/n/ac; HT20/40/80MHz; 2.4GHz/5GHz 24VDC, max. current: 1.2A 24VDC, 0.5A

<10W

-30 ~ +60

-40 ~ +80 95% (no condensation) 4000m IP20 200 x 110 x 60 mm 500 g Top-hat rail mounting/ wall mounting 11.2 Quality Guarantee SUNGROW shall service or replace the faulty product for free within the warranty period. Evidence Within the warranty period, SUNGROW shall require the customer to present the purchase invoice and date. The trademark on the product shall be clearly visible, and 70 User Manual 11 Appendix SUNGROW shall hold no liability if otherwise. Conditions The replaced failure product needs to be disposed of by SUNGROW. The client needs to reserve enough troubleshooting time for SUNGROW. Exclusion of Liability The following cases shall void the warranty claims of SUNGROW. The free warranty periods for the whole machine/components have expired The device is damaged during transport The device is installed, altered, or operated incorrectly The device operates in an environment harsher than that described in this manual The fault or damage is caused due to installation, maintenance, alteration, or disassembly performed by persons not from SUNGROW The fault or damage caused by using non-standard components or software or using components or software not from SUNGROW The installation and use do not comply with stipulations of relevant international standards The damage is caused by unpredictable factors For the foregoing faults or damages, SUNGROW can provide a paid service at the request of the client after judgment. The dimensions and parameters of the device are subject to changes without notification, and reference can be made to the latest document. Software licenses It is prohibited to use data contained in firmware or software developed by SUNGROW, in part or in full, for commercial purposes by any means. It is prohibited to perform reverse engineering, cracking, or any other operations that compromise the original program design of the software developed by SUNGROW. 71 11 Appendix User Manual 11.3 Contact Information Should you have any question about this product, please contact us. We need the following information to provide you the best assistance:

Type of the device Serial number of the device Fault code/name Brief description of the problem China (HQ) Australia Sungrow Power Supply Co., Ltd Sungrow Australia Group Pty. Ltd. Hefei

+86 551 65327834 Sydney

+61 2 9922 1522 service@sungrowpower.com service@sungrowpower.com.au Brazil Sungrow Do Brasil Sao Paulo

+55 11 2366 1957 France Sungrow France Siege Social Paris latam.service@sa.sungrowpower.com service.france@sungrow.co Germany Greece Sungrow Deutschland GmbH Service Partner Survey Digital Mnchen

+49 89 324 914 761 service.germany@sungrow.co

+30 2106044212 service.greece@sungrow.co India Italy Sungrow (India) Private Limited Sungrow Italy Gurgaon

+91 080 41201350 service@in.sungrowpower.com Milano service.italy@sungrow.co 72 User Manual 11 Appendix Japan Sungrow Japan K.K. Tokyo

+ 81 3 6262 9917 Korea Sungrow Power Korea Limited Seoul

+82 70 7719 1889 japanservice@jp.sungrowpower.com service@kr.sungrowpower.com Malaysia Sungrow SEA Selangor Darul Ehsan

+60 19 897 3360 Philippines Sungrow Power Supply Co., Ltd Mandaluyong City

+63 9173022769 service@my.sungrowpower.com service@ph.sungrowpower.com Thailand Spain Sungrow Thailand Co., Ltd. Sungrow Ibrica S.L.U. Bangkok

+66 891246053 Navarra service@th.sungrowpower.com service.spain@sungrow.co Romania Service Partner Elerex

+40 241762250 service.romania@sungrow.co UK Turkey Sungrow Deutschland GmbH Turkey Istanbul Representative Bureau Istanbul

+90 212 731 8883 service.turkey@sungrow.co U.S.A, Mexico Sungrow Power UK Ltd. Sungrow USA Corporation Milton Keynes

+44 (0) 0908 414127 service.uk@sungrow.co Phoenix Arizona

+1 833 747 6937 techsupport@sungrow-na.com 73 User Manual 11 Appendix Vietnam Sungrow Vietnam Hanoi

+84 918 402 140 service@vn.sungrowpower.com 74

SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 1 of 5 Internal Photos Applicant:

Address of Applicant:

SUNGROW POWER SUPPLY Co., Ltd No.1699 Xiyou Rd., New & High Technology Industrial Development Zone, Hefei, P.R. China Equipment Under Test (EUT):

Product Name:

Model No.:

DataLogger Logger1000 Page 1 of 5 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 2 of 5 Page 2 of 5 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 3 of 5 Page 3 of 5 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 4 of 5 Page 4 of 5 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 5 of 5 End Page 5 of 5

SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 1 of 6 External Photos Applicant:

Address of Applicant:

SUNGROW POWER SUPPLY Co., Ltd No.1699 Xiyou Rd., New & High Technology Industrial Development Zone, Hefei, P.R. China Equipment Under Test (EUT):

Product Name:

Model No.:

DataLogger Logger1000 Page 1 of 6 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 2 of 6 Page 2 of 6 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 3 of 6 Page 3 of 6 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 4 of 6 Page 4 of 6 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 5 of 6 Page 5 of 6 SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch Page: 6 of 6 End Page 6 of 6

Sungrow Power Supply Co., Ltd. Add: No. 1699 Xiyou Road, Hefei, China Tel: +86 551 6532 7834 Email: info@sungrow.cn Website: www.sungrowpower.com WE (Sungrow Power Supply Co., Ltd.) HEREBY DECLARED THAT Declaration Letter about Limited Use Our product Product Description:

Model No:

FCC ID:

IC:

DataLogger Logger1000 2ASN7-LOGGER1000 24895-LOGGER1000 The LTE module integrated in this device has been disabled by software. Any modification will be highlighted on the release letter, and the impact analysis will also have a review. Verification procedure and verification results will be performed based on the release letter and impact analysis report. Wang Kai Standard and Certificate Engineer 4th Jun 2019

SUNGROW POWER SUPPLY Co., Ltd. TO:

Federal Communication Commission Equipment Authorization Branch 7435 Oakland Mills Road Columbia, MID 21046 Date: 2019-5-13 Regarding: FCC ID: 2ASN7-LOGGER1000 To whom it may concern:

We, the undersigned, hereby authorize Parlam Zhan to act on our behalf in all manners relating to application for equipment authorization with respect to the FCC ID above, including signing of all documents relating to these matters. Any and all acts carried out by the agent on our behalf shall have the same effect as acts of our own. We, the undersigned, hereby certify that we are not subject to a denial of federal benefits, that includes FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 853(a). Where our agent signs the application for certification on our behalf, I acknowledge that all responsibility for complying with the terms and conditions for Certification, as specified by SGS North America, Inc., still resides with SUNGROW POWER SUPPLY Co., Ltd. This authorization is valid until further written notice from the applicant. Name (Printed): Wang Kai Signature:

Title: Standard & Certification Engineer On behalf of Company: SUNGROW POWER SUPPLY Co., Ltd. Telephone: +86 551 6532 6866 - 7725

SUNGROW POWER SUPPLY Co.,Ltd To:

SGS North America Inc. 620 Old Peachtree Road SUITE 100 Suwanee, Georgia United States From: SUNGROW POWER SUPPLY Co.,Ltd No.1699 Xiyou Rd., New & High Technology Industrial Development Zone, Hefei, P. R. China., 230088 Regarding:

Confidentiality Request regarding application for FCC ID 2ASN7-LOGGER1000 LONG TERM CONFIDENTIALITY Pursuant to 47 CFR Section 0.459 and 0.457 of the commissions rules, the applicant hereby request confidential treatment of the documents listed below, associated with the certification application referenced above. Schematic(s) Block Diagrams Operational Descriptions Software Security Info The documents above contain proprietary information not released to the public. Public disclosure of this information may prove harmful to the business of the applicant. Sincerely, Wang Kai (GC993858) Standard & Certification Engineer SUNGROW POWER SUPPLY Co.,Ltd