1 Introduction
This chapter introduces the main contents of this manual, the readers, the instructions for the use of the manual, and the symbols used in the manual.How lInterpretation to help users better read the following content.
1.1 Foreword
Dear customer, thank you for using Shanghai Dada Electric Co., Ltd.(Hereinafter referred to as Dada Electric) R&D and produced SCR/SDR-6/8/10/12/14/16/18M photovoltaic array junction box product, we sincerely hope that this product can meet your needs. At the same time, we hope that you can provide more opinions on the performance and function of the product. We will continue to improve and improve the product quality.
1.2 Introduction of the content
This manual is applicable to Shanghai Dada Electric Co., Ltd.Installation, use and maintenance of the developed SCR/SDR series photovoltaic display junction box products (here in after referred to as the junction box):
SCR-6/8/10/12/14/16/18
SDR-6/8/10/12/14/16/18
SDR-6M/8M/10M/12M/14M/16M/18M
SDR-6M/8M/10M/12M/14M/16M/18M
1.3 For readers
This manual is applicable to personnel who operate, maintain and perform other work on the confluence box. Personnel who carry out electrical operation of the confluence box need to have certain electrical knowledge, be familiar with electrical principles and the characteristics of electronic components.
1.4 Manual use
Please read this manual carefully before using this product. Please store this manual and other materials in the product components together, and ensure that the relevant personnel can easily obtain and use it.
The content of the manual and the pictures, logos, symbols, etc. used are Dada Electric All, non-internal personnel of the company shall not publicly reprint all or part of the content without written authorization.
The content of the manual will be constantly updated and revised, but it is inevitable that there will be slight inconsistency or errors with the physical product. Users, please refer to the physical product of the purchased product.
1.5 Other matters
In order to meet the needs of different customers, the company has developed other non-standard confluence boxes (such as 7-way, 11-way, etc.). Its electrical structure and installation method are the same as those of SCR/SDR-6/8/10/12/14/18M. Only the number of DC group string input columns is different.
This document takes SCR-16M as an example for relevant explanations, and other different number of confluence boxes of the same series can also be installed and used with reference to this document. This document will not be repeated.
1.6 Use of symbols
In order to ensure the personal and property safety of users when using this product, or use the relevant information provided in the product manual efficiently and optimally, and use appropriate symbols to highlight it.
The following is a list of this manual and the symbols that may be used on the body. Please read it carefully in order to make better use of this manual.
Icon Name
△Danger "Danger" means that there is a high potential danger, and if it is not avoided, it will lead to death or serious injury.
△Warning "Warning" indicates that there is a moderate potential danger if it fails to avoid a situation that may lead to death or serious injury.
△Be careful "Be careful" means that there is a low degree of potential danger, if Fail to Avoid situations that may cause moderate or minor injury to personnel.
△Be careful "Note" means that there is a potential risk. If you fail to avoid it, the equipment may not work normally or cause property damage.
Explain ULZ 000495 : "Description" is a partial explanation in the process of using the confluence box, which supplements the relevant content to facilitate customers to better read and understand this manual.
"High pressure inside" means that there is high pressure inside the body. Touching it may lead to the danger of electric shock, and only professionals can open it.
"PE end" means that this is the protected grounding (PE) end, which needs Firm Grounding to ensure the safety of operators
2 Safety Notes
This section introduces the general safety rules that need to be paid attention to when operating the SCR/SDR-6/8/10/12/14/16/18M photovoltaic array junction box. For the safety instructions in the specific use and maintenance steps, please participate in the warning instructions in the corresponding chapter.
When installing and using the SCR/SDR-6/8/10/12/14/16/18M confluence box, please read this chapter carefully. If the failure to operate in accordance with the safety matters in this manual causes personnel injury or equipment damage, the company has the right not to bear responsibility and quality assurance.
3 Product description
3.1 Overview
The company's confluence box is divided into four categories: anti-reverse intelligent confluence box, anti-reverse non-intelligent convergence box, non-anti-reverse intelligent confluence box without anti-reverse non-intelligent convergence box. According to the number of input channels, it is divided into 6 channels, 8 channels, 10 channels, 12 channels, 14 channels, 16 channels and 18 channels. The anti-reverse intelligent convergence box is mainly composed of DC circuit breakers,It is composed of lightning protection, anti-reverse diode, cable interface, fuse, sampling board, monitoring board and auxiliary power supply board. The function of anti-reverse diode is to prevent the back filling of current between solar panels caused by local shadows or damaged battery panels, so as to avoid damage to other battery panels. The sampling board mainly samples the current of each branch line in the confluence box. PV busbar voltage sampling and monitoring board can monitor the state of lightning arrestors, circuit breakers, etc., communicate with the upper computer, and send the collected data to the upper computer in real time to monitor the current, voltage and various state quantities, etc.
The convergence box without anti-reverse function does not have anti-reverse diodes. The non-intelligent convergence box does not have the functions of voltage, current, lightning protection status detection, DC circuit breaker status detection, etc.
The diagram of the photovoltaic system containing the photovoltaic junction box is shown in 3-1.
| Name |
Describe |
| A |
Photovoltaic array |
| B. |
Photovoltaic confluence box |
| C |
Grid-inverter |
| D |
Public power grid |
| E |
Environmental detector |
| F |
Data collector |
Table 3-1 Corresponding List of Parts
3.2 Nameplate identification
Users can identify the confluence box through the nameplate of the confluence box. The contents of the nameplate are as follows:
Model: Our company's confluence box is divided into four categories: anti-reverse intelligence, anti-reverse non-intelligence, no anti-reverse intelligence, and no anti-reverse intelligence. According to the number of input channels, it is divided into 6, 8, 10, 12, 14, 16 and 18 inputs.
- Maximum input voltage: the maximum DC voltage allowed by the confluence box.
- The maximum number of DC input channels: the maximum number of channels for the photovoltaic array that is allowed to be input by the junction box.
- Fuse level: choose the reference when replacing the fuse.
- Maximum input current per channel: the maximum current allowed for each photovoltaic group to be input.
- Maximum continuous output current: the maximum current that the confluence box can output for a long time.
- Protection level: waterproof, moisture-proof and dust-proof.
- Ambient temperature: the working environment temperature of the confluence box.
- Protection level: This item is an anti-electric shock level. CLASSI said that it not only has basic insulation measures but also additional safety measures for grounding protection.
-
3.3 Scope of supply
The delivery contents of the confluence box are as follows:
Photovoltaic array junction box
The key to open the chassis
Supporting user manual
Quality assurance card
Certificate of qualification
Factory inspection report
3.4 Model description
The model description of the photovoltaic array junction box is as follows:
SCR-XX M
Intelligent belt monitoring function
Maximum number of bus input channels
No anti-reflex diode
3.5 Instructions for choosing the fuse level
In any power system, fuses are used to protect electronic devices from over current hazards. If not protected, over current may cause electronic devices to fail, overheat and damage or even fire. If the fuse level is too large, it cannot play a protective role. If the fuse level is too small, the circuit will not work normally. . Therefore, when choosing the fuse grade, it should be determined according to the rated grade and relevant standards of the photovoltaic array.
The grade of the fuse can be determined by the short-circuit current lse of the photovoltaic array, due to the short-circuit current of solar panels of different specifications.Large size Sc is also different, so we need to replace different levels of fuses to meet the requirements of our photovoltaic array.
3.6 DC circuit breaker grade selection instructions,The selection of a DC circuit breaker depends on the number of roads input in the junction box and the size of each input current. For example, a 12-way junction box, assuming that the short-circuit current Isc of the photovoltaic array is 10A, and the voltage size is 1000V, the current flowing through the DC circuit breaker is 10X12=120A. Therefore, the DC circuit breaker should be at least higher than the level of 120A/1000V. Please note that the parameter selection of the voltage and current of the circuit breaker should be left with a certain margin.Because the circuit breaker will need to be reduced in capacity with the change of ambient temperature and altitude.
3.7 Performance characteristics
Use photovoltaic-specific DC circuit breakers, lightning protection and fuses.
Anti-reverse diode to prevent the solar panels from being damaged by electric current from each other.
The measurement voltage range is 0-1000V. Detect the status of the lightning and circuit breaker, as well as the temperature of the radiator (or box). ( Non-intelligence does not have this function)
It has RS485 communication interface, and the communication protocol is MODBUS protocol. ( Non-intelligence does not have this function)
The power supply mode is the internal PV power supply mode: DC250-1000V.
The communication address can be selected. By pressing the button, you can check the size of each current, the voltage size of the PV bus, the temperature, the RS485 communication baud rate, the communication address of the box and the type of the box. ( Non-intelligence does not have this function)
3.8 Working environment
Operating ambient temperature: -25*C~+55°
Storage environment temperature: -40°C~+70°C
Relative humidity≤95%, no condensation.
No violent vibration impact, vertical tilting degree≤Five°
4 Basic structure
Photo 4-1
Photo 4-2
Description of the external dimensions of each model's confluence box
| Type |
L |
L1 |
L2 |
W1 |
W2 |
H |
H1 |
| SCR-6/8 |
400 |
433 |
470 |
340 |
400 |
190.70 |
213.70 |
| SCR-6/8M |
430 |
465 |
494 |
440 |
500 |
190 |
213 |
| SDR-6/8 |
420 |
455 |
484 |
410 |
480 |
190.70 |
217.70 |
| SDR-6/8M |
500 |
535 |
567 |
480 |
550 |
190.70 |
225 |
| SCR-10/12 |
500 |
534 |
564 |
340 |
400 |
190 |
214 |
| SCR-10/12M |
480 |
515 |
543 |
440 |
500 |
190.70 |
213.70 |
| SDR-10/12M |
469 |
505 |
536 |
420 |
480 |
190.70 |
223.70 |
| SDR-10/12M |
540 |
570 |
602 |
485 |
550 |
192 |
225 |
| SCR-14/16 |
550 |
589.5 |
620 |
340 |
400 |
190 |
214 |
| SDR-14/16M |
550 |
585 |
615 |
440 |
500 |
190 |
213 |
| SDR-14/16 |
599 |
630 |
662 |
415 |
500 |
190 |
213 |
| SDR-14/16M |
620 |
650 |
682 |
465 |
550 |
186 |
225 |
| SCR-18 |
600 |
639 |
670 |
340 |
400 |
190.70 |
213.70 |
| SCR-18M |
620 |
650 |
681 |
440 |
500 |
190.70 |
213.70 |
| SCR-18 |
629 |
660 |
692 |
415 |
500 |
190.70 |
224.70 |
| SCR-18M |
669 |
700 |
732 |
465 |
550 |
190.70 |
229.70 |
| Unit: mm |
Photo 4-3 Circuit diagram of the internal structure of the bus box
Now take the SCR-16M intelligent confluence box as an example to explain the internal structure of the confluence box. Figure 4-3 is a thumbnail of the internal structure of the whole machine of the 16-way intelligent confluence box. The names of each part are shown in Table 4-2:
| Part number |
Explain : |
| 1 |
Pv positive input insurance and fuse box |
| 2 |
Pv negative input insurance and fuse box |
| 3 |
Sampling board, auxiliary power supply board (non-intelligent without) |
| 4 |
Lightning arrest 5 |
| 5 |
Short - circuiter |
| 6 |
Monitoring board (non-intelligent confluence box is not) 7 |
| 7 |
Power grid ground wire terminal block |
| 8 |
RS485 communication terminal (non-intelligent junction box is not) |
Table 4-2 Names of each part of the confluence box
5 Installation and use
Explanation The content of this chapter is to take SCR-16M as an example. The installation and usage of other routes are similar.
5.1 Basic requirements for installation
Although the waterproof level of all models of the company's confluence box is IP65, it can be installed outdoors, but at the same time, it is also an electronic device, so try not to install it in damp places, and try to install it in well-ventilated, dry and dust-proof places.
Try to be as close to the photovoltaic array and reduce the use of cables for better convergence.
The installation environment of the confluence box is -25°C~+55"C, and the relative humidity is≤95%.
Avoid installing it in direct sunlight, otherwise excessive temperature may reduce the service life of the confluence box.
The confluence box should be installed upright as much as possible.
Inverted installation is prohibited.
5.2 Preparation of installation tools
Electric drill, screwdriver, movable wrench, simple wrench (M9), etc.
5.3 Mechanical installation methods and steps
When the confluence box is wall-mounted on the bracket of the solar panel, it needs to be equipped with hexagonal bolts (R4.5), flat pads (R4.5) and elastic pads (R4.5). Users can also choose suitable bolts according to the specific installation conditions. Let's take the SCR-16M intelligent confluence box as an example to explain the installation steps. The installation steps of other types of confluence boxes are the same, but the size is different, and the specific size. Installation steps:
(1) The bracket for installing the confluence box on the solar panel needs to meet the following dimensions (unit mm),
As shown in Figure 4-1. As shown in Figure 4-2.
(2) Install the confluence box with hexagonal nuts and hexagonal bolts. From front to back, they are bolts, confluence box hanging ears, brackets, flat pads, elastic pads and nuts in order.
(3) Check whether the confluence box is installed correctly and firmly.
(4) Check whether the cables of the junction box are connected Fasten securely, whether the waterproof terminal is fastened
5.4 Electrical installation
If the number of roads of the actual connected photovoltaic array is less than the maximum of the junction box When connecting to the number of lines, the extra terminal blocks can be left empty, and the empty waterproof terminal blocks need to be blocked with waterproof plugs.
Each input is equipped with a special fuse for photo voltaics. As a protective device for the pre-input, it detects whether the voltage between the positive and negative poles of each group is between 0 and 1000V before inserting the fuse, and ensures that each photovoltaic group is fault-free.
5.41 Waterproof terminal and corresponding cable
Photo 5-2 bus box waterproof terminal and coping cable
Figure 5-2 The distribution map of waterproof terminals of 16 intelligent confluence boxes. 14-way, 16-way and 18-way reference table 5 - choose the appropriate cable. ULZ 000374 Terminal Description
| Terminal Description |
Terminal specifications |
Widing recommendation |
| DC positive input (PV + IN) |
PG7 |
4mm2 |
| DC negative input (PV - IN) |
PG7 |
4mm2 |
| DC positive confluence input (PV + ) |
PG 21 |
70mm2 |
| DC negative confluence input (PV - ) |
PG 21 |
70mm2 |
| Grounding terminal |
PG11. |
16mm2 |
| Communication terminal |
PG7 |
1.5mm2 Low resistance shielding double Twist Thread |
Table 5-1 SCR-14/16/18M Intelligent Confluence Box Terminal Specification Correspondence Table
For intelligent and non-intelligent junction boxes with 6, 8, 10 and 12 channels, users should choose suitable wiring cables according to Table 5-2.
| Terminal Description |
Terminal specifications |
Widing recommendation |
| DC positive input (PV+IN) |
PG7 |
4mm2 |
| DC negative input (PV-IN) |
PG7 |
4mm2 |
| DC positive confluence input (PV+) |
PG 21 |
70 mm2 |
| DC negative confluence input (PV - ) |
PG 21 |
70 mm2 |
| Grounding terminal |
PG11. |
16mm2 |
| Communication terminal |
PG7 |
1.5mm2 Low resistance shielding double Twist Thread |
Table 5-2 Corresponding table of 8-way, 10-way, 12-way confluence box terminal specifications
Description: Different cable manufacturers will exist.There is a certain difference. The wire diameter varies according to the PV battery panel, but it should match the wire diameter of the waterproof terminal.
As shown in Figure 5-2, explain the terminal situation:
Marked PV+IN is the photovoltaic array DC positive junction hole, and PV- IN is the photovoltaic array DC negative junction hole.
Marked with PV+ is the DC positive confluence output wiring hole, PV- is the DC negative confluence output wiring hole, and the grounding wiring hole of the power grid grounding symbol.
The one with the RS485 logo is the communication wiring hole, the upper wiring hole, the communication interface of the RS485 connected to the previous junction box, the bottom A wiring hole connects the RS485 communication interface of the next junction box.
5.4.2 Preparation before wiring
All of the company's photovoltaic array lightning protection junction boxes provide keys to close and open the chassis by inserting the key into the lock and screwing it in the direction shown in Figure 5-3. Turn off the case clockwise and open the case counterclockwise. Note that both upper and lower parts must be turned on or off in order to effectively open or close the case.
(1) Turn on the confluence box
(2) Dial the empty space to the "OFF" state, that is, the disconnected state.
(3) Pull out all fuses. If the fuse is not installed before leaving the factory, skip this step.
(4) Use a special electrician clamp to pull out all the fuses, and the insulation voltage of the electrician clamp is greater than 1000V.
5.4.3 DC input and output wiring
Widing steps:
Loosen the anti-loosening cap at the lower end of the confluence box.
Pass the cable with the line number PV1+ through the positive input terminal of the photovoltaic array and connect it to the terminal of the input terminal of the fuse box corresponding to the junction box. Note that the line should be left with margin for fixing.
Use wire stripping pliers to remove the insulation layer and the shielding layer, so that the copper core of the wire is exposed by about 12mm.
Loosen the fastening screw of the terminal with a Phillips screwdriver, insert the wire into the input terminal of the fuse box, and tighten Firm Screws.
Connect the rest of the wires in the same way, and it's best to connect the wires in order - one corresponds to the corresponding fuse box.Enter Terminal blocks, for later maintenance.
It is recommended to wear insulating gloves when wiring. The insulation voltage of the insulating gloves is greater than 1000V.
Note: After the input and output lines of the junction box are connected, please be sure to tighten the waterproof terminal, otherwise water may enter the box. If the waterproof terminal is not tightened due to engineering wiring, our company will not be responsible for all the consequences caused by water inflow.
5.4.4 Communication wiring
At the output wiring, the output wiring of the confluence box positive pole is marked with PV+. These two wires are circuit breakers.Definite Want Pay attention not to When wiring, the screws must be tightened, otherwise it may cause heat and even more serious consequences.
Explain ULZ 000495 ::Non-intelligent There is no step of communication wiring.
5.4.6 Install the fuse after connecting all the wires, use a special insulation with a voltage resistance greater than 1000V.The pliers install the fuse into the fuse box. Note that the fuse must be firmly embedded in the fuse box to avoid poor contact.
5.5 Viewing the Monitoring Data of the Bus Box
Description: Non-intelligent does not have this function.
Figure 5-6 shows the nixie tube
Introduction to the content of digital tube display (differentiated according to different models):
| Project |
Number of pages |
Display content |
6/8 Road
Intelligent convergence with |
1-8 |
PV DC input 1-8 channel current value (unit A) |
| 9-16 |
Show " " |
| 17 |
PV voltage value (unit) |
| 18 |
Temperature in the box (unitºC) (The anti-reverse convergence box defaults to the radiator temperature) |
| 19 |
RS 485 communication address |
| 20 |
Type of confluence box machine |
| Project |
Number of pages |
Display content |
Route 10
Intelligent convergence with |
1 - 10 |
PV DC input 1~10 channel current value (unit A) |
| 11-16 |
Show" " |
| 17 |
PV voltage value (unit V) |
| 18 |
Temperature in the box (unit "C") (the default of the anti-reverse confluence box is the radiator temperature) |
| 19 |
RS485 communication address |
| 20 |
Confluence box machine type display |
| Project |
Number of pages |
Display content |
Route 12
Intelligent confluence box |
1-12 |
PV DC input 1-8 channel current value (unit A) |
| 13 - 16 |
Show "--" |
| 17 |
PV voltage value (unit) |
| 18 |
Temperature in the box (unit "C") (the default of the anti-reverse confluence box is the radiator temperature) |
| 19 |
RS 485 communication address |
| 20 |
Type of confluence box machine |
| Project |
Number of pages |
Display content |
Route 14/16
Intelligent confluence box |
1-16 |
PV DC input 1~16 channel current value (unit A) |
| 17 |
PV voltage value (unit) |
| 18 |
Temperature in the box (unit °C) (the default temperature of the anti-reverse convergence box is the radiator temperature) |
| 19 |
RS485 communication address |
| 20 |
Type of confluence box machine |
| Project |
Number of pages |
Display content |
Route 18
Intelligent confluence box |
1 - 19 |
PV DC input 1~18 channel current value (unit A) |
| 19 |
PV voltage value (unit) |
| 20 |
Temperature in the box (unit "C") (the default of the anti-reverse confluence box is the radiator temperature) |
| 21 |
RS485 communication address |
| 22 |
Type of confluence box machine |
Table 5-4 Corresponding table between pages and display content
As shown in Figure 5-6, there is a 6-bit digital tube. The first 2 digits are used to display the number of pages, and the last 4 digits are used to display the current size, voltage size, temperature, the communication address of the confluence box and the type of the confluence box in turn. As shown in Figure 5-6, there are three buttons. From left to right, they are key 1, key 2 and key 3:
Key 1: Use to turn the page up, Key 2: Use to turn the page down, Key 3: Confirm key.
4 LED lights, from left to right are indicator light 1, indicator light 2, indicator light 3, indicator light 4.
Indicator light 1: is the power indicator light,
Indicator light 2: It is the system operation indicator light. A flash of indicator light 2 (2 times per second) means that the system is running normally.
The indicator light 2 flashes quickly (4 times per second) indicates that there is an alarm or malfunction.
Indicator lights 3 and 4: are RS485 communication indicator lights, which will flash during communication. The display content of the digital tube is listed in Table 5-4.
Description: After the digital tube lights up for more than ten seconds, the display will automatically turn off and be in power-saving mode. To restore the LED display, just press key 1~key 3 to restore the display.
5.6 Setting of communication parameters
Description: Non-intelligence does not have the following functions (5.6.1-5.6.3)
The communication parameters of the confluence box can be set and queried through the buttons on the circuit board, mainly the setting of the communication address and the setting of the communication speed.
5.6.1 Setting of address
This machine provides key query communication parameters, which can be realized through the three keys that are not in Figure 5-6. The address setting method is as follows:
After pressing the button 2 for about 5 seconds, enter the RS485 address setting interface, and the digital tube displays the current address.
Through key 1 and key 2, you can add or subtract the address with a step length of 1, and set the desired address.
The address setting range is 0-255.
Press 3 to confirm the address settings and exit the setting page.
5.6.2 Setting of baud rate
Baud rate refers to the speed of RS485 communication, which can also be achieved through the three keys shown in Figure 5-6. The setting method is as follows:
After pressing the button 1 for about 5 seconds, enter the RS485 baud rate setting interface, and the digital tube displays the current communication baud rate.
Through key 1 and key 2, the communication baud rate can be selected; four baud rate options of 1200/2400/4800/9600bps are provided. Select the appropriate baud rate through key 1 and key 2.
Press 3 to confirm the baud rate setting and exit the setting page ULZ 000612Attention:
:
1. When the communication distance is long, choose a lower baud rate, and the communication will be more stable.
- The baud rate setting of the convergence box must be consistent with the baud rate of the upper computer monitoring software.
5.6.3 Selection of machine type
The company provides a total of seven models of 6-way, 8-way, 10-way, 12-way, 14-way, 16-way and 18-way. Different models must select the corresponding machine type through the dial switch on the monitoring board, and the content displayed by the digital tube will be correct, as shown in Figure 5-7.
Photo 5-7
The machine types corresponding to different dialing methods are shown in the following table. ULZ 000618 Machine type
| Type |
Dial code switch 1 |
Dial code switch Two |
Dial code switch Three |
| 6/8 Road |
1 |
0 |
0 |
| Route 10 |
0 |
1 |
0 |
| Route 12 |
1 |
1 |
0 |
| Route 14/16 |
0 |
0 |
0 |
| Route 18 |
1 |
0 |
1 |
Table 5-5 Correspondence between the selection of different models
In Table 5-5, "1" means to dial up, and "0" means to dial down. For example, for 10-way, you only need to dial down the dial switch 1 and 3, dial up the dial switch 2, and dial to the position of "ON". After selecting the machine type, in order to determine whether your choice is correct, you can turn the page by pressing the key 1 and key 2. The machine type will be displayed on the digital tube. If it is 10 ways 10 will be displayed on it. Generally, when leaving the factory, the machine type will be selected according to the needs of customers.
Say Ming: In addition to the dialing code listed in the table above, the digital tube will display "Err" in other cases, indicating that the machine type is not selected.
5.7 Start-stop confluence box
The confluence box runs automatically after powering on, and automatically shuts down when the power is cut off. The DC confluence output of the confluence box can be turned on and stopped through the DC circuit breaker.
6 Routine maintenance
Due to the influence of ambient temperature, humidity and dust, there may be faults, so the confluence box needs regular maintenance to ensure the normal operation and service life of the confluence box. When maintenance is required, the confluence box must be stopped to ensure that the contact part is not ered.
Special attention: The fuse bears the high pressure of the Mizi battery board and inverter, and must not be touched during normal operation.Before replacing and checking the fuse, the DC circuit breaker must be disconnected, but note that there is still high voltage at both ends of the DC circuit breaker at this time. It must be confirmed that each current is zero before the fuse can be removed for maintenance on the Yang energy battery board or confluence box. It is recommended to wear insulating gloves during maintenance, and the insulation voltage is greater than 10C.Zero V.
6.1 Replacement of fuses
The fuse cannot be restored after it is melted, and the fuse needs to be replaced by the operator of the relevant qualification certificate.
When replacing the fuse, disconnect the circuit breaker first. Do not open and close the fuse box with a load, otherwise the fuse may break.
7 Fault handling
Special attention:
Before troubleshooting, please follow the steps below to ensure safety.
Before operating the confluence box, be sure to disconnect the DC circuit breaker so that the convergence box can be disconnected from the convergence DC output.
Remove all fuses. At this time, there is still high voltage at both ends of the fuse holder.
It is recommended to wear insulating gloves. The insulation ratio of insulating gloves is greater than 100UV.
7.1 Common troubleshooting methods
7.1.1 RS485 communication failure
Steps to hang up the fault:
- Check that the power supply is normal, and the power supply voltage at both ends of the normal R5485 heart piece is about 5V.
If it is not normal, check the auxiliary power output again.
- Check whether the address of the query set by the monitoring software on the upper computer is consistent with the address of the stream box to be viewed.
- Check whether the communication baud rate set by the upper computer monitoring software is consistent with the baud rate of the confluence to be checked.
- Interference of communication lines, check whether the communication bus terminal is connected to a matching resistance of 120Ω.
7.1.2 Lightning arrester failure
Check whether the detection wire of the lightning arr ester is firmly wired. If the contact is good, it means that the lightning arrector has failed.,The lightning arrector should be replaced immediately.
7.1.3 The digital tube is not displayed
Press key 1 (flip-up key) or key 2 (flip-down key). If the digital tube is still not displayed, it means that there is a problem with the digital tube display circuit.
7.1.4 Current sampling problem
If the current sampling display value of a channel is much larger or smaller than other channels, please check the fuse and photovoltaic array.
8 Specification parameters
Parameter
Type |
SCRSDR-6M |
SCRSDR-8 M |
SCRSDR-10M |
SCRSDR-12M |
SCRSDR-14M |
SCRSDR-16M |
SCRSDR-18M |
| The maximum current input for each channel |
9.6A |
9.6A |
9.6A |
9.6A |
9.6A |
9.6A |
9.6A |
| Communication method |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
| PV input maximum voltage |
1000V |
1000V |
1000V |
1000V |
1000V |
1000V |
1000V |
| The maximum number of connectible components |
6 |
8 |
10 |
12 |
14 |
16 |
18 |
| Waterproof level |
IP65 |
IP65 |
IP65 |
IP65 |
IP65 |
IP65 |
IP65 |
| Ambient temperature |
-25°C-55°C |
| Environmental humidity |
0~99% |
| DC total output circuit breaker |
Have |
| Special lightning protection module for photovoltaics Have |
Have |
| Photovoltaic array current monitoring |
Have |
| Lightning arrator failure monitoring |
Have |
| Short-circuit failure monitoring |
Have |
| Communication interface |
RS 485 |
Table 8-1 Intelligent Convergence Box Parameter Table
Parameter
Type |
SCRSDR-6M |
SCRSDR-8 M |
SCRSDR-10M |
SCRSDR-12M |
SCRSDR-14M |
SCRSDR-16M |
SCRSDR-18M |
| The maximum current input for each channel |
9.6A |
9.6A |
9.6A |
9.6A |
9.6A |
9.6A |
9.6A |
| Communication method |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
RS 485 |
| PV input maximum voltage |
1000V |
1000V |
1000V |
1000V |
1000V |
1000V |
1000V |
| The maximum number of connectible components |
6 |
8 |
10 |
12 |
14 |
16 |
18 |
| Waterproof level |
IP65 |
IP65 |
IP65 |
IP65 |
IP65 |
IP65 |
IP65 |
| Ambient temperature |
-25°C-55°C |
| Environmental humidity |
0~99% |
| DC total output circuit breaker |
Not have |
| Special lightning protection module for photovoltaics |
Not have |
| Photovoltaic array current monitoring |
Not have |
| Lightning arrator failure monitoring |
Not have |
| Short-circuit failure monitoring |
Not have |
| Communication interface |
Not have |
Table 8-2 Non-intelligent convergence box parameter table
9 Quality assurance
9.1 Warranty Policy
Warranty period:Shanghai Dada Electric Co., Ltd.Provide JFY series photovoltaic array junction boxes, with 24
The warranty period of the month.
Start of the warranty period: from the date of receiving the goods from our dealer.
Warranty evidence: product serial number and delivery invoice of local dealer
Scope: The occurrence of any damage during the warranty period will be determined by the dealer and Shude's assessment.
Scope and responsibility.
Warranty principle: In order to provide better services to the end users of Shude, all Dada Electric Authorized dealers are required to respond to the end user's warranty request. The authorized dealer during the warranty period will replace
Replace any products and accessories with defects in design and production.
The following situation Shanghai Dada Electric Co., Ltd.The right not to guarantee the quality:
- Product modification or design change or accessory replacement has not been passed Dada Electric The permission of. ULZ 000856 Modify, change or try to repair, the serial number is erased or is not stamped by East German electrical technicians.
- Modification, alteration or attempted repair, serial number rubbed or without the seal of CDADA electrical technician Wrong installation and debugging.
- Non-compliance with appropriate safety regulations (CQC standards, etc.).
- The product has been improperly stored and damaged when stored by the end user.
- Damaged in transportation, scratching the paint surface during transportation and handling. When there is sufficient evidence when unloading, it should be declared to the insurance company as soon as possible.
- Failure to comply with the user manual, installation guidelines and maintenance procedures
- Incorrect use or improper operation
- Inadequate ventilation equipment.
- The related product repair procedure does not follow or implement an acceptable standard.
- Irresistible (such as lightning, over pressure, storm, fire).
9.2 Warranty and Claim Procedures
Claim principle: Claims go beyond the power cited in the principle of warranty, especially for defective equipment.Claim for compensation for damage caused by direct or connected damage, or claim for compensation for losses caused by disassembly and installation or not included in Dada Electric Profit loss within the scope of the warranty, in these cases Dada Electric Not subject to legal liability.
Warranty and claim procedures: please Dada Electric Local dealers use a simple error to describe the defective equipment. If we agree to replace it, we will generally issue an equivalent replacement device according to the model and age. The remaining warranty rights will be transferred to the replacement equipment. In this case, because your power is already in Dada Electric Archive, you will not receive a new certificate. The replacement product will be packed and shipped within 2 working days. The defective equipment is returned to the dealer with this transportation package. If the reinstallation on-site service is necessary, the end user should discuss with the dealer in advance that all warranty services within the warranty period are free of charge.
Contact us
If you have any questions about the product, please contact us. Please remember the following contact information.
Company Name: Shanghai DADA Electric Co., Ltd.
Address: No.171 YEZHUANG ROAD,ZHUANGHANG,FENGXIAN,SHANGHAI,CHINA
Tel: +86-15167477792
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