hoymiles HMS-1600C-4T Single Phase Microinverter User Manual

hoymiles HMS-1600C-4T Single Phase Microinverter

Product Information

The product is a single-phase microinverter designed for converting direct current (DC) into alternating current (AC) and feeding the power to the public grid. It is composed of a group of microinverters that work independently, ensuring maximum power generation for each PV module. The system allows for direct control of the production of each PV module, providing flexibility and reliability.

Product Usage Instructions

Installation Preparation

• Position and Space Required: Ensure proper positioning and adequate space for installation.
• Connecting Multiple PV Modules to Microinverter: Follow the specified instructions for connecting multiple PV modules to the microinverter.
• Installation Tools: Gather the necessary tools required for installation.
• AC Branch Circuit Capacity: Consider the AC branch circuit capacity for safe and efficient operation.
• Precautions: Familiarize yourself with the precautions mentioned in the user manual before proceeding with the installation.

Microinverter Installation

• Accessories: Ensure you have all the necessary accessories for installation.
• Installation Steps: Follow the step-by-step instructions provided in the user manual for proper microinverter installation.

Troubleshooting

• Troubleshooting List: Refer to the troubleshooting list in the user manual for identifying and resolving common issues.
• LED Indicator Status: Understand the meaning of different LED indicator statuses to diagnose potential problems.
• On-site Inspection (for qualified installers only): Perform on-site inspection as described in the user manual if necessary, ensuring safety precautions are followed.
• Routine Maintenance: Follow the routine maintenance procedures mentioned in the user manual to keep the microinverter in optimal condition.
• Microinverter Replacement: If required, refer to the user manual for instructions on replacing the microinverter.

Decommission

• Decommission: Follow the decommissioning procedures mentioned in the user manual when needed.
• Storage and Transportation: Take necessary precautions for storage and transportation of the microinverter.
• Disposal: Dispose of the microinverter according to the guidelines provided in the user manual.

Please refer to the user manual for detailed technical data, installation maps, and additional information. Visit Hoymile’s official website at www.hoymiles.com for the latest version of the user manual.

About Microinverter
This system is composed of a group of microinverters that convert direct current (DC) into alternating current (AC) and feed the power to the public grid. The system is designed for 4-in-1 microinverters, i.e., one microinverter is connected with four PV modules. Each microinverter works independently so as to guarantee the maximum power generation of each PV module. This setup is highly flexible and reliable as the system enables direct control of the production of each PV module.

About the Manual
This manual contains important instructions for HMS-1600C-4T/HMS-1800C-4T/HMS- 2000C-4T microinverters and users shall read in its entirety before installing or commissioning the equipment. For safety reasons, only qualified technicians who have received training or demonstrated relevant skills can install and maintain this microinverter under the guidance of this document.

Other Information
Product information is subject to change without notice. The user manual will be updated regularly, so please refer to Hoymile’s official website at www.hoymiles.com for the latest version.

Important Notes

Product Range
This manual describes the assembly, installation, commissioning, maintenance and troubleshooting of the
following models of Hoymiles Microinverter:

• HMS-1600C-4T
• HMS-1800C-4T
• HMS-2000C-4T
• Note: “1600” means peak power 1600 W, “1800” means peak power 1800 W, and “2000” means peak power 2000 W.
• Note: HMS-1600C/1800C/2000C-4T is only compatible with Hoymiles gateway DTU-Pro-S and DTU-Lite-S.

Target Group
This manual is only for qualified technicians. For safety purposes, only those who have been trained or demonstrate relevant skills can install and maintain this microinverter under the guidance of this document.

Symbols Used
The safety symbols in this user manual as shown below.

Radio Interference Statement
This microinverter has been tested and complies with the requirements of CE EMC, meaning that it will not be affected by electromagnetic interference. Please note that incorrect installation may cause electromagnetic disturbances.
You can turn the equipment off and on to see if radio or television reception is interfered by this equipment. If this equipment does cause harmful interference to radio or television, please try the following measures to fix the interference:

1. Relocate other apparatus’ antenna.
2. Move the microinverter farther away from the antenna.
3. Separate the microinverter and the antenna with metal/concrete materials or roof.
4. Contact your dealer or an experienced radio/TV technician for help.

About Safety

Important Safety Instructions
The HMS-1600C-4T/HMS-1800C-4T/HMS-2000C-4T microinverter is designed and tested according to international safety requirements. However, certain safety precautions must be taken when installing and operating this inverter. The installer must read and follow all instructions, cautions and warnings in this installation manual.

•       All operations including transportation, installation, start-up and maintenance must be carried out

by qualified, trained personnel.

•       Check the product before installation to make sure there is  no damage caused during transportation because such damage can compromise the insulation integrity and safety clearances. Choose the installation location carefully and adhere to specified cooling requirements. Unauthorized removal of necessary protections, improper use,  incorrect installation  and operation may cause damage to the equipment or incur serious safety and shock hazards.
•       You should get the necessary approvals from the local power operator before connecting the mi- converter to the power grid. This connection must be made only by qualified technical personnel. It is the responsibility of the installer to provide external disconnect switches and  Over  Current Protection Devices (OCPD).
•       Each input of the inverter is connected to one PV module. Do not connect batteries or other sources of power supply. The inverter can be used only if all the technical parameters are observed and applied.
•       Do not install the equipment in a flammable, explosive, corrosive, extremely hot/cold, and humid environment. Do not use the equipment when safety devices in these environments are not working.
•       Personal protective equipment such as gloves and goggles must be used during installation.
•       Inform the manufacturer about non-standard installation conditions.
•       Do not use the equipment if any operating anomalies are found.
•       All repairs must be done with qualified spare parts which must be installed in accordance with their

intended use and by a licensed contractor or authorized Hoymiles service representative.

•       Liabilities arising from components that are not produced by Hoymiles are on the part of their respective manufacturers.
•       Whenever the inverter has been disconnected from the public grid, please be extremely careful

as some components can retain a charge sufficient to create a shock hazard. Before touching any part of the inverter, please ensure the surface and the whole equipment are within the limit of safe temperature and voltage potential.

•       Hoymiles is not liable for any damage caused by incorrect or improper operation.
•       Electrical installation and maintenance shall be conducted by a licensed electrician and shall comply with local wiring rules.

Explanation of Symbols

To comply with European Directive 2002/96/EC on Waste Electrical and Electronic Equipment and its implementation as national law, electrical equipment that has reached the end of its life must be collected separately and returned to an approved recycling facility. Any device no longer needed must be returned to an authorized dealer or approved collection and recycling facility.

|

Caution

Do not come within 8 inches (20 cm) of the microinverter when it is in operation.

|

Danger of high-voltage

High voltage in the microinverter can cause dangers to life.

| Beware of hot surface

The inverter can become hot during operation. Avoid contact with metal surfaces during operation.

|

CE mark

The inverter complies with the Low Voltage Directive for the European Union.

|

FCC mark

The inverter complies with the FCC standards.

| Read manual first

Please read the installation manual first before installation, operation, and maintenance.

About Product

About PV Inverter System
A typical grid-tied PV inverter system includes PV modules, PV inverter, a meter, and a power grid, as shown below. PV inverter converts the DC power generated by PV modules into AC power that meets the requirements of the power grid. The AC power is then fed into the grid via the meter.

About Microinverter
PV Microinverter is a module-level solar inverter that tracks the maximum DC power point of each PV module, which is known as Maximum Power Point Tracking (MPPT). The MPPT circuit is less susceptible to partial shade situations. With dual MPPT, when a PV module fails or is shaded, then the failed or shaded module will affect only one MPPT while the other MPPT can still operate the unshaded string at maximum efficiency point, ensuring the inverter an optimum performance under different partial shading. Hoymiles microinverters feature module-level monitoring. Microinverter can monitor the current, voltage and power of each module to realize module-level data monitoring. Microinverter data are collected by DTU via wireless transmission and are sent to Hoymiles motoring platform S-Miles Cloud. Moreover, the microinverter only carries a few dozen volts of DC voltage, which reduces safety hazards to the greatest extent.

About 4-in-1 Unit
Microinverters can be divided into 1-in-1, 2-in-1, 4-in-1, etc., depending on how many PV modules are connected to them. This means that the microinverter can connect to one module, two modules and four modules respectively, as shown below.

This manual is about Hoymiles 4-in-1 microinverter. With an output power up to 2000 VA, Hoymile’s new HMS-2000C series ranks among the highest for 4-in-1 microinverters. Each microinverter connects to four PV modules at most with dual MPPT and modules-level monitoring, enabling greater energy harvest and easier maintenance

About Sub-1G Technology
HMS-2000C series of microinverters adopts the new Sub-1G wireless solution which enables more stable communication with Hoymiles gateway DTU. Sub-1G technology is particularly useful for PV microinverters and is different from 2.4GHz in that it has a substantially longer range and better interference suppression performance. Range of Sub-1GHz wireless: Unlike Wi-Fi or Zigbee which both operate on the 2.4 GHz band, Sub-1GHz operates on the 868 MHz or the 915 MHz band. Generally speaking, Sub-1GHz wireless transmission covers 1.5 to 2 times longer distances than the 2.4GHz spectrum.  Interference: Sub- 1GHz wireless networking can handle interference better. This is because it operates on a lower frequency, so the communication between the microinverter and the DTU is more stable. As a result, it is especially useful in industrial or commercial PV power plants. Lower Power Consumption: Sub-1GHz wireless communication uses less power than Wi-Fi or Zigbee. Because of the long-range and better interference suppression performance, Sub-1GHz networking is particularly well-suited for rooftop PV power stations.

Highlights

• Maximum output power up to 1600/1800/2000 W
• Peak efficiency 96.70%
• Static MPPT efficiency 99.80%, Dynamic MPPT efficiency 99.76% in overcast weather
• Power factor (adjustable) 0.8 leading … 0.8 lagging
• Sub-1G for stronger communication with DTU
• High reliability: NEMA 6 enclosure, 6000 V surge protection

Terminals Introduction

Dimensions (mm) **

**

Installation Preparation

Position and Space Required
Please install the microinverter and all DC connections under the PV module to avoid direct sunlight, rain exposure, snow buildup, UV etc. The silver side of the microinverter should be up and facing the PV module. Leave a minimum of 2 cm of space around the microinverter enclosure to ensure ventilation and heat dissipation. *Note: In some countries, DTU will be required to meet local grid regulations (e.g. G98/99 for the UK etc.)

Connecting Multiple PV Modules to Microinverter General Guidelines:

1. PV modules should be connected to DC input ports of a microinverter.
2. Use DC extension cable when the original cable is not long enough. Please consult the local power operator to make sure that the DC cable complies with local regulations.

Two typical wiring methods are shown below.

Note: The voltage of modules (considering the effect of local temperature) must not exceed the maximum input voltage of the microinverter. Otherwise, the microinverter may be damaged (refer to the Technical Data section to determine the absolute maximum input voltage).

Installation Tools

Besides the tools recommended below, other auxiliary tools can also be used on-site.

AC Branch Circuit Capacity
Hoymiles HMS-1600C-4T/HMS-1800C-4T/HMS-2000C-4T can be used with 12AWG or 10AWG AC Trunk Cable and the AC Trunk Connector which are provided by Hoymiles. The number of microinverters on each 12AWG or 10AWG AC branch shall not exceed the limit as shown below.

 | HMS-1600C-4T| HMS-1800C-4T| HMS-2000C-4T| Maximum over current protection device (OCPD)
---|---|---|---|---

Maximum number per 12AWG branch

| 2@220 V

2@230 V

2@240 V

| 2@220 V

2@230 V

2@240 V

| 2@220 V

2@230 V

2@240 V

|

20 A

Maximum number per 10AWG branch

| 4@220 V

4@230 V

4@240 V

| 3@220 V

4@230 V

4@240 V

| 3@220 V

3@230 V

3@240 V

|

32 A

Note:

1. The number of microinverters that can be connected to each AC branch is determined by the ampacity (also known as current-carrying capacity) of the cable.
2. 1-in-1, 2-in-1 and 4-in-1 microinverters can be connected to the same AC branch, as long as the total current does not exceed the ampacity specified in local regulations

Precautions
The equipment is installed based on the system design and the location of the installation

•       The installation must be done with the equipment disconnected from the grid (power disconnect switch open) and with the PV modules shaded or isolated.

•       Make sure the environmental conditions fit the microinverter’s requirement (degree of protection, temperature, humidity, altitude, etc.) as specified in the Technical Data section.
•       Avoid direct sunlight to prevent power derating which can be caused by an increase in the internal temperature of the microinverter.
•       Keep the inverter in a well-ventilated place to avoid overheating.
•       Keep the inverter away from gases or flammable substances.
•       Avoid electromagnetic interference because it can compromise the normal operation of electronic equipment.

Installation location shall meet the following conditions:

•       Install only on structures specifically designed for PV modules (supplied by installation technicians).

•       Install a microinverter underneath PV modules to make sure it works in the shadow. Nonobservance may cause the derating of inverter production.

Microinverter Installation

Accessories

*Note: All accessories above are not included in the package and should be purchased separately.

Installation Steps
The order of Step 1 and Step 2 can be reversed according to your planned needs

Step 1. Plan and Install the Microinverter

• A ) Mark the position of each microinverter on the rail according to the PV module layout.
• B ) Fix the screws on the rail.
• C ) Hang the microinverter on the screws, and tighten the screws. The silver cover side of the microinverter should be facing the panel.
• Single-phase Microinverter HMS-1600C/1800C/2000C-4T

The AC cable contains earth wire, so grounding can be done directly with it. For regions that have special requirements, we offer optional grounding brackets that can be used to complete the external grounding.

Route a continuous grounding cable through grounding brackets for each microinverter to the AC grounding electrode that conforms with local regulations. Torque each grounding cleat screw to 2 N·m.

Note:

1. Microinverter installation and DC connections must be done under the PV module to avoid direct sunlight, rain exposure, snow buildup, UV etc.
2. Leave a minimum of 2 cm of space around the microinverter enclosure to ensure ventilation and heat dissipation.
3. The mounting torque of the 8 mm screw is 9 N·m. Do not over-torque.
4. Do not pull or hold the AC cable with your hand. Hold the handle instead

Step 2. Plan and Build the AC Trunk Cable
AC Trunk Cable is used to connect the microinverter to the power distribution box.

• A ) Select the appropriate AC Trunk Cable according to the spacing between microinverters. The connectors of the AC Trunk Cable should be spaced based on the spacing between microinverters to ensure that they can be properly matched. (Hoymiles provides AC Trunk Cable with different AC Trunk Connector spacing.)
• B ) Determine how many microinverters you plan to install on each AC branch and prepare AC Trunk Connectors accordingly.
• C ) Take out segments of the AC Trunk Cable as you need to make an AC branch.

1. Disassemble the AC Trunk Connector and remove the cable.
   • Unlock the connector’s upper cover with the AC Trunk Connector Unlock Tool.
   • Loosen the three screws with the screwdriver. Untighten the cap and remove the cable
2. Install the AC Trunk End Cap at one side of AC Trunk Cable (the end of AC Trunk Cable)
   • Insert the AC Trunk End cap and screw the cap back to the port, then tighten the cap.
   • Plug the upper cover back into the Trunk connector
3. Install the AC end cable on the other side of AC Trunk Cable (connected to the distribution box).
   • Unlock the port upper cover, loosen the screws with the screwdriver, and remove the extra cable. (Skip this step if there is no cable at this side.)
   • Prepare a segment of AC cable of suitable length to connect to the distribution box, with stripping requirements fulfilled.
   • Insert the cable into the cap in a way that the L, N, and PE are in corresponding slots.
   • Tighten the screws, and then tighten the cap back to the port.
   • Plug the upper cover back to the Trunk connector.

Note:

• Tightening torque of the cap: 4.0±0.5 N·m. Please do not over-torque.
• Torque of locking screw: 0.4±0.1 N·m.
• Do not damage the sealing ring in the AC Trunk Connector during disassembly and assembly.
• Wires used in Hoymiles Microinverter:
• Repeat the above steps to make all the AC Trunk Cables you need. Then lay out the cable on the rail as appropriate so that the microinverters can be connected to the Trunk connectors.
• Attach the AC Trunk Cable to the mounting rail and fix the cable with tie wraps.

Step 3. Complete the AC Connection

Note:

1. Make sure that the AC Trunk Connectors are kept away from any drainage channels.
2. In case you need to remove the microinverter AC cable from AC Trunk Connector, insert the

AC Trunk Port Disconnect Tool into the side of the AC Sub Connector to complete the removal.

Step 4. Create an Installation Map

• A) Peel the removable serial number label from each microinverter.
• B) Affix the serial number label to the respective location on the installation map (please refer to the appendix).

Step 5. Connect PV Modules

• A) Mount the PV modules above the microinverter.
• B) Connect the PV modules’ DC cables to the DC input side of the microinverter.

Note:

1. Make sure that the AC Trunk Connectors are kept away from any drainage channels.
2. In case you need to remove the microinverter AC cable from AC Trunk Connector, insert the AC

Trunk Port Disconnect Tool into the side of the AC Sub Connector to complete the removal.

Step 6. Energize the System

• A) Turn on the AC breaker of the branch circuit.
• B) Turn on the main AC breaker of the house. Your system will start to generate power in about two minutes.

Step 7. Set Up Monitoring System
Refer to the “DTU User Manual”, “DTU Quick Installation Guide”, and “Quick Installation Guide for S-Miles Cloud” to install the DTU and set up the monitoring system.

Product information is subject to change without notice. (Please download reference manuals at www.hoymiles.com)

Troubleshooting

Troubleshooting List

Code

| Alarm range| ****

Alarm status

| ****

Handling suggestions

---|---|---|---

121

|  | ****

Over temperature protection

| 1. Check the ventilation and ambient temperature at the microinverter installation location.

2. If the ventilation is poor or the ambient temperature exceeds the limit, please improve the ventilation and heat dissipation.

3. If the problem persists when ventilation and ambient temperature are appropriate, contact your dealer or Hoymiles technical support team.

124

|  | ****

Shut down by remote control

| 1. Check the status of zero export management and whether the microinverters were manually shut down.

2. If the alarm still persists, please contact your dealer or Hoymiles technical support team.

125

|  | ****

Grid configuration

parameter error

| 1. Check if the grid configuration parameter is correct and

upgrade.

2.      If the fault still exists, contact your dealer or Hoymiles technical support team.

127

|  | ****

Firmware error

| 1. Check if the firmware is correct and has been upgraded.

2.     Check the communication between DTU and Hoymiles monitoring system, and between DTU and microinverter. Then try again.

3.      If the fault still exists, contact your dealer or Hoymiles technical support team.

129

|  | ****

Abnormal bias

| 1. If the alarm occurs occasionally and the microinverter can still work normally, no special treatment is required.

2. If the alarm occurs frequently and cannot be recovered, contact your dealer or Hoymiles technical support team.

130

|  | ****

Offline

| 1. Please make sure that the microinverter works normally (check if the DC voltage is within normal range and confirm the status of the LED indicator).

2. Check if the SN on the microinverter label is the same as on the monitoring platform.

3. Check the communication status between the DTU and Hoymiles monitoring system, and between the DTU and the microinverter. If the communication is poor, try to make some improvements.

4.  If the alarm occurs frequently and cannot be recovered, contact your dealer or Hoymiles technical support team.

141

| ****

Grid

| ****

Grid overvoltage

| 1. If the alarm occurs occasionally, the grid voltage may be just abnormal temporarily. The microinverter can automatically recover after grid voltage becomes normal.

2. If the alarm occurs frequently, check whether the grid voltage is within the acceptable range. If not, contact the local power operator or change the grid overvoltage protection limit in the grid profile via the Hoymiles monitoring system with the consent of the local power operator.

142

| ****

Grid

| ****

10 min value grid overvoltage

| 1. If the alarm occurs occasionally, the grid voltage may be just abnormal temporarily. The microinverter can automatically recover after grid voltage becomes normal.

2. If the alarm occurs frequently, check whether the grid voltage is within the acceptable range. If not, contact the local power operator or change the grid overvoltage protection limit via the Hoymiles monitoring system with the consent of the local power operator.

143

| ****

Grid

| ****

Grid Undervoltage

| 1.  If the alarm occurs occasionally, the grid voltage may be just abnormal temporarily. The microinverter can automatically recover after grid voltage becomes normal.

2.   If the alarm occurs frequently, check whether the grid voltage is within the acceptable range. If not, contact the local power operator or change the grid Undervoltage protection limit in the grid profile via the Hoymiles monitoring system with the consent of the local power operator.

3.  If the fault still exists, check the AC switch or AC wiring.

---|---|---|---

144

| ****

Grid

| ****

Grid over frequency

| 1. If the alarm occurs occasionally, the grid frequency may be just abnormal temporarily. The microinverter can automatically recover after grid frequency becomes normal.

2. If the alarm occurs frequently, check whether the grid frequency is within the acceptable range. If not, contact the local power operator or change the grid overfrequency protection limit via the Hoymiles monitoring system with the consent of the local power operator.

145

| ****

Grid

| ****

Grid under frequency

| 1. If the alarm occurs occasionally, the grid frequency may be just abnormal temporarily. The microinverter can automatically recover after grid frequency becomes normal.

2. If the alarm occurs frequently, check whether the grid frequency is within the acceptable range. If not, contact the local power operator or change the grid under frequency protection limit via the Hoymiles monitoring system with the consent of the local power operator.

146

| ****

Grid

| ****

Rapid grid frequency change rate

| 1. If the alarm occurs occasionally, the grid frequency may be just abnormal temporarily. The microinverter can automatically recover after grid frequency becomes normal.

2. If the alarm occurs frequently, check whether the grid frequency change rate is within the acceptable range. If not, contact the local power operator or change the grid frequency change rate limit the grid profile in the grid profile via the Hoymiles monitoring system with the consent of the local power operator.

147

| ****

Grid

| ****

Power grid outage

| Please check whether the AC switch, branch breaker and AC wiring is normal.

148

| ****

Grid

| ****

Grid disconnection

| Please check whether the AC switch, branch breaker, and AC wiring is normal.

149

| ****

Grid

| ****

Island detected

| 1. If the alarm occurs occasionally, the grid frequency may be just abnormal temporarily. The microinverter can automatically recover after the grid voltage becomes normal.

2. If the alarms occur frequently on all the microinverters in your station, contact the local power operator to check whether there is a grid island.

3. If the alarm still exists or happens on only several microinverters, please contact your dealer or Hoymiles technical support.

205

| ****

MPPT-A

| ****

Input overvoltage

| 1. Please make sure that the PV module open-circuit voltage is less than or equal to the maximum input voltage.

2. If the PV module open-circuit voltage is within the normal range, contact your dealer or Hoymiles technical support team.

206

| ****

MPPT-B

| ****

Input overvoltage

| 1. Please make sure that the PV module open-circuit voltage is less than or equal to the maximum input voltage.

2. If the PV module open-circuit voltage is within the normal range, contact your dealer or Hoymiles technical support team.

207

| ****

MPPT-A

| ****

Input Undervoltage

| 1. Please make sure that the PV module open-circuit voltage is not lower than the minimum input voltage.

2. If the PV module open-circuit voltage is within the normal range, contact your dealer or Hoymiles technical support team.

208

| ****

MPPT-B

| ****

Input Undervoltage

| 1. Please make sure that the PV module open-circuit voltage is not lower than the minimum input voltage.

2. If the PV module open-circuit voltage is within the normal range, contact your dealer or Hoymiles technical support team.

---|---|---|---

209

| ****

PV-1

| ****

No input

| 1. Please confirm whether this port is connected to the PV

module.

2.   If the PV module is connected, please check the DC cable connection between this port and the PV module.

210

| ****

PV-2

| ****

No input

| 1. Please confirm whether this port is connected to the PV

module.

2.   If the PV module is connected, please check the DC cable connection between this port and the PV module.

211

| ****

PV-3

| ****

No input

| 1. Please confirm whether this port is connected to the PV

module.

2.   If the PV module is connected, please check the DC cable connection between this port and the PV module.

212

| ****

PV-4

| ****

No input

| 1. Please confirm whether this port is connected to the PV

module;

2.   If the PV module is connected, please check the DC cable connection between this port and the PV module.

213

| ****

MPPT-A

| ****

PV-1 & PV-2 abnormal wiring

| 1. Please check whether the DC connections on ports 1 and 2 are correct.

2. Check if the DC extension cable is made correctly.

214

| ****

MPPT-B

| ****

PV-3 & PV-4 abnormal wiring

| 1. Please check whether the DC connections on ports 3 and 4 are correct.

2. Check if the DC extension cable is made correctly.

215| PV-1| Input overvoltage| Check the input voltage of the PV-1 port.
216| PV-1| Input Undervoltage| Check the input voltage of the PV-1 port.
217| PV-2| Input overvoltage| Check the input voltage of the PV-2 port.
218| PV-2| Input Undervoltage| Check the input voltage of the PV-2 port.
219| PV-3| Input overvoltage| Check the input voltage of the PV-3 port.
220| PV-3| Input Undervoltage| Check the input voltage of the PV-3 port.
221| PV-4| Input overvoltage| Check the input voltage of the PV-4 port.
222| PV-4| Input Undervoltage| Check the input voltage of the PV-4 port.

301

–  314

|  | ****

Device failure

| 1. If the alarm occurs occasionally and the microinverter can still work normally, no special treatment is required.

2. If the alarm occurs frequently and cannot be recovered, contact your dealer or Hoymiles technical support team.

LED Indicator Status
The LED flashes five times at start-up. All green flashes (1s gap) indicate normal start-up.

(1) During Start-up

•       Flashing green five times (0.3s gap): Start-up success
•       Flashing Red five times (0.3s gap): Start-up failure
(2) During Operation
•       Fast green flashes (1s gap): Producing power
•       Slow green flashes (2s gap): Producing power but one input is abnormal
•       Red flashes (0.5s gap): Invalid AC grid or hardware failure. Refer to Hoymiles Monitoring Platform for

more details

•       Red flashes (1s gap): Not producing power due to invalid AC grid
•       Solid red: Hardware failure. Please refer to Hoymiles Monitoring Platform for more details
(3) Other Status
•       Red and Green flashes alternately: Firmware is broken

Note:

1. The microinverter is powered by the DC side. If the LED light is not on, please check the DC side connection. If the connection and input voltage are normal, contact your dealer or Hoymiles technical support team.
2. All the faults are reported to the DTU. Refer to the local DTU app or Hoymiles Monitoring Platform for more information

On-site Inspection (for qualified installers only)
Troubleshoot a malfunctioning microinverter according to the following steps.

1

| Check if the utility voltage and frequency are within the respective range shown in the Technical Data section of this manual.
---|---

2

| Check the connection to the utility grid.

Disconnect the AC and the DC power. Please note that when the inverter is in operation, disconnect

the AC power first to de-energize the inverter, and then disconnect the DC power.

Re-connect the PV modules to the microinverter. The LED will flash red to indicate a normal DC connection. Re-connect the AC power. The LED will flash green for five times to indicate normal DC and AC connection. Never disconnect the DC wires while the microinverter is producing power. Re-connect the  DC module connectors and wait for five short LED flashes.

3

| Check the interconnection between all the microinverters on the AC branch circuit. Confirm that

each inverter is energized by the utility grid as described in the previous step.

4| Make sure that every AC breaker is functioning properly and is closed.
5| Check the DC connection between the microinverter and the PV module.

6

| Make sure that PV modules’ DC voltage is within the allowable range shown in the Technical Data

section of this manual.

7| If the problem persists, please call Hoymiles customer support.
| Do not try to repair the microinverter by yourself. If the troubleshooting fails, please return it to the factory for replacement.

Routine Maintenance

1. Only authorized personnel are allowed to carry out the maintenance operations and are responsible for reporting any anomalies.
2. Always use personal protective equipment provided by the employer during maintenance operations.
3. During normal operation, check the environmental conditions regularly to make sure that the conditions have not changed over time and that the equipment is not exposed to adverse weather conditions and has not been obstructed.
4. DO NOT use the equipment if any problems are detected. Restore its working conditions after the fault is fixed.
5. Conduct annual inspections on various components, and clean the equipment with a vacuum cleaner or special brushes.

Microinverter Replacement

a. How to remove the microinverter

•       De-energize the AC branch circuit breaker.
•       Remove the PV module from the rack, and cover the module.
•       Check the equipment with an electric meter and make sure there is no current flowing in the DC

wires between the module and the microinverter.

•       Remove the DC connectors with the DC disconnect tool.
•       Remove the AC Sub Connector with the AC disconnect tool.
•       Loosen the fixing screws on the top of the microinverter and remove the microinverter from the PV

racking.

b. How to replace the microinverter in the monitoring platform
•       Please note down the new microinverter’s SN.
•       Please make sure the AC branch circuit breaker is off, and install the replacement unit according to

the microinverter installation steps.

•       Go to the monitoring platform (if the customer has already registered this station online),  please access the “Device List” page and find the device that you just replaced. Please click “Device Maintenance” on the right side of the page, and select “Replace Device”. Input the new microinverter’s SN and click “Ok” to complete the station change.

Decommission

Decommission
Disconnect the inverter from DC input and AC output, remove all connection cables from the microinverter, and remove the microinverter from the frame. Please pack the microinverter in the original packaging. If the original packaging is no longer available, you can use a carton box that can hold 5 kg and can be fully closed.

Storage and Transportation
Hoymiles packages are specially designed to protect components so as to facilitate transportation and subsequent handling. Transportation of the equipment, especially by road, must be done in a way that can protect the components (particularly the electronic components) from violent shocks, humidity, vibration, etc. Please dispose of the packaging elements appropriately to avoid unforeseen injury. Please examine the conditions of the components to be transported. Upon receiving the microinverter you should check the container for any external damage and verify the receipt of all items. Please call the carrier immediately if there is any damage or if any parts are missing. In case of any damage caused to the inverter, contact the supplier or authorized distributor to request a repair/return and ask for instructions regarding the process. The storage temperature range of the microinverter is -40 to 85°C.

Disposal

• If the equipment is not used immediately or is stored for a long period of time, make sure that it is properly packed. The equipment must be stored indoors with good ventilation and without any potential damage to the components of the equipment.
• Take a complete inspection when restarting the equipment after it has stopped operation for a long time.
• Please dispose of the microinverters properly in accordance with local regulations after they are scrapped because of potential harm to the environment.

Technical Data

• Be sure to verify the following before installing the Hoymiles Microinverter System.

1. Verify that the voltage and current specifications of the PV module match those of the microinverter.

   • The maximum open circuit voltage rating of the PV module must be within the operating voltage range of the
     microinverter.

   • We recommend that the maximum current rating at MPP should be equal to or less than the maximum input
     DC current.

2. The output DC power of PV module shall not exceed 1.35 times of the output AC power of the microinverter. Refer to “Hoymiles Warranty Terms & Conditions” for more information.

Appendix

Appendix 1

Installation Map

Appendix 2:

WIRING DIAGRAM – 230VAC SINGLE PHASE

• 2023 Hoymiles Power Electronics Inc. All rights reserved.

References

• Open Solar Energy for All | Hoymiles
• Open Energy For All - Hoymiles

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