HOW TO CHANGE THE MAX SELL POWER TO LESS THAN 500W ON THE DEYE INVERTER

If you are using a DEYE hybrid inverter and you have opened the app to adjust export settings, there is a good chance you have noticed something slightly frustrating straight away. Inside the normal settings area, the max sell power field appears to have a lower limit of 500 watts, which means if you want to reduce export to something much lower, such as 100 watts or 50 watts, the standard input screen does not seem to let you do it. On the surface, it looks like the inverter simply does not support values under 500 watts, but that is not actually the full story. There is another route inside the DEYE mobile app that allows you to send a more specific command directly, and that is where this becomes useful for anyone trying to fine tune how much solar power gets pushed back to the grid.

This is the kind of setting that sounds small until you actually need it. Maybe you are testing your solar setup and want tighter control over export behaviour. Maybe your local arrangement makes you more comfortable keeping grid export to a very low level. Maybe you are troubleshooting energy flow and want to see how the inverter behaves under different limits. Whatever the reason, understanding where the normal menu stops and where the deeper command menu takes over is helpful, because once you know the path, the task is straightforward and repeatable.

What makes this worth writing about in detail is that the app interface can give the impression that the limit is fixed, when in reality the batch command view and the single command view behave differently. That distinction is the key. If you stay only in the usual settings screen, you will hit the 500 watt minimum and assume that is the end of it. If you move into the correct command section, you can send a lower value directly and then confirm the inverter accepted it. That is the practical workflow, and once you understand it, the whole process feels much simpler.

WHY SOME PEOPLE WANT TO REDUCE MAX SELL POWER BELOW 500W

Before going into the exact steps, it helps to understand why someone would even want to set max sell power below 500 watts. In many home solar setups, export control is not just about saving energy or earning credit from excess generation. It can also be about compliance, preference, testing, or limiting unwanted behaviour in a mixed energy environment where batteries, loads, and grid interaction all need to be balanced carefully. A low export cap gives you another layer of control, especially if you are still learning how your inverter responds throughout the day.

For example, if your household load changes often and you want the inverter to prioritise local consumption while only allowing a very small amount of excess to leave the property, then a lower max sell power setting can be useful. If you are experimenting during commissioning or trying to verify whether the inverter respects a low grid export threshold, then being able to enter values like 100 watts is more practical than being forced to choose 500 watts. Even in cases where 500 watts might be acceptable, having the freedom to use lower values gives you more precision, and precision is often what makes troubleshooting faster.

There is also a mindset aspect here that fits well with a simple entrepreneur approach to technology. A lot of devices include advanced options, but they hide them behind a layer that casual users never touch. The DEYE system is a good example of that. The visible menu keeps things safe and standard for most users, but there are more direct control options available if you know where to look. Learning these small details saves time, prevents confusion, and gives you more confidence when managing your own setup.

WHAT THE STANDARD SETTING SCREEN SHOWS

When you open the relevant area in the DEYE mobile app, the max sell power option appears with a defined range. In the interface shown in the transcript, that range is 500 to 20,000 watts. This is the first important detail, because it explains why typing in a lower value through the normal setting screen does not work. The interface validation prevents it. In other words, the app is not letting you submit the number, not because the inverter can never use a lower value, but because that specific screen has a built in minimum threshold.

That is the sort of thing that catches people out. You see the field, you try to type 100, and the app rejects it. Naturally, most people would assume the system has a hard lower limit of 500 watts. That would be a reasonable assumption based on what the interface shows. However, app interfaces often reflect default user constraints rather than the full capability of the underlying device commands. This is why direct command tools exist in so many control platforms. They provide a way to send a parameter outside the simplified front end form, as long as the inverter itself supports it.

So if you are sitting in that batch style settings screen wondering why the lower number will not save, the answer is simple. You are in the wrong place for that particular adjustment. The value range on that page is capped with a minimum of 500 watts, and trying to force a smaller number there will not succeed. The solution is not to keep trying the same field. The solution is to move into the single command section and use the more direct control path.

THE KEY DIFFERENCE BETWEEN BATCH COMMAND AND SINGLE COMMAND

This is really the heart of the whole process. The DEYE app includes more than one way to interact with inverter settings, and the distinction matters. The batch command area is where you typically see standard configurable values presented in a more user friendly way. It is designed for common adjustments and broad setup tasks. The single command area, by contrast, is more specific. It allows you to choose a particular parameter and send a command directly, often with a broader or more flexible value range than what appears in the standard batch form.

In the case of max sell power, that difference is exactly what allows you to go below 500 watts. In the batch command view, the lower limit blocks you. In the single command view, when you choose the correct command, the minimum value can go as low as zero. That means values such as 100 watts, 50 watts, or other low thresholds become possible. This is not a workaround in the sense of doing something unsupported or hidden in a dangerous engineering menu. It is simply using the more direct command path that the app already provides.

This is an important pattern to remember for future inverter settings as well. If you ever run into a situation where the standard screen seems too restrictive, it is worth checking whether the app offers a direct command option for the same parameter. Manufacturers often simplify front end menus to reduce user error, but the device itself may accept a wider command set. As long as you know exactly what parameter you are changing and why, that extra level of access can be very useful.

HOW TO SET MAX SELL POWER BELOW 500W IN THE DEYE APP

The practical method is quite simple once you know where to go. Start in the DEYE mobile app and locate the area where inverter settings can be changed. If you have already been looking at the max sell power value in the standard settings screen, you are already close. Instead of trying to enter a low number there, look for the option at the top that takes you into the single command section. This is the area mentioned in the transcript as the correct route for sending a lower export power value.

Once you enter single command, you will see a list of parameters or command names. The one you need to choose is set max sell power. Selecting the exact parameter matters, because the single command area may contain many options and only one of them controls this export limit. After selecting set max sell power, you should be presented with a value input field that allows a wider range than the standard batch screen. In the example from the transcript, the lowest value shown here is zero, which is what opens the door to entering values below 500 watts.

At that point, you can type the number you actually want. If your goal is to limit export to 100 watts, enter 100. If you want an even smaller threshold such as 50 watts, enter 50. The exact number depends on your own setup, testing objective, and comfort level. The key point is that the app should now accept the value because you are no longer constrained by the batch form minimum. After entering the number, make sure you press send command. This step matters, because entering the value without actually sending the command will not change anything on the inverter.

After the command is sent, check the command history or status area near the bottom of the screen. The transcript mentions that the last command record should say succeeded. That status is your confirmation that the inverter accepted the instruction. Without that confirmation, it would be risky to assume the setting changed. If the command succeeds, you can then go back to the batch command view and verify that the max sell power value has updated accordingly. That final check is useful because it gives you visual confirmation from the more familiar settings screen.

STEP BY STEP WALKTHROUGH IN A MORE PRACTICAL WAY

If you prefer a clear sequence that you can follow while holding your phone, this is the easiest way to think about it. Open the inverter settings in the DEYE app. Find the current max sell power value and recognise that the standard screen only allows a minimum of 500 watts. Do not waste time trying to force 100 watts into that field because it will not go through. Instead, switch to the single command area. In the command list, choose set max sell power. Enter the lower value you want, such as 100 watts. Press send command. Then wait for the status message to confirm the command succeeded. Finally, return to the normal settings screen and verify the value now reflects the lower number.

• Open the DEYE mobile app and go to inverter settings
• Locate the current max sell power setting
• Note that the standard screen only allows 500 to 20,000 watts
• Go to the single command section at the top
• Select set max sell power from the command list
• Enter your desired value, such as 100 watts or 50 watts
• Press send command
• Check the last command record for a succeeded status
• Return to the batch command screen to confirm the value changed

That is the entire flow, but as with most device settings, what makes it feel difficult is not the number of steps. It is the fact that the option is not where most people expect it to be. Once you know the location, the process is not complicated. The challenge is simply knowing that the standard screen is limited while the single command screen is more flexible.

WHY THE APP ALLOWS IT IN ONE PLACE BUT NOT ANOTHER

This is one of those design choices that can seem inconsistent until you think about how device control software is usually built. Manufacturers often create a safer, simplified interface for mainstream users and then expose more direct configuration options in another layer. The batch command screen is likely designed to keep most users within a conventional and supported range, which reduces accidental misconfiguration. A minimum of 500 watts may have been chosen because it fits common scenarios or because it matches a default implementation for general use.

The single command area, on the other hand, is more like a direct parameter tool. It does not necessarily hold your hand in the same way. Instead, it gives you access to the raw setting itself, within the limits the inverter firmware permits. That is why the lower bound can be zero there even though the user friendly settings page says 500. The inverter can accept the lower value, but the standard page does not want to offer that flexibility by default.

Understanding this helps reduce uncertainty when managing technical gear. A lot of frustration comes from treating every visible input box as if it represents the full truth of the system. Often it does not. It represents a curated version of the system. If you are comfortable working carefully and you verify results properly, the direct command route can unlock more precise control without needing anything especially advanced.

THINGS TO CHECK IF THE COMMAND DOES NOT WORK

Even though the transcript presents a clean and successful example, it is still worth thinking about what to check if your result is different. The first thing is whether you selected the exact correct command name. In menus with lots of options, it is easy to choose something that sounds similar but controls a different behaviour. The second thing is whether you actually pressed send command after entering the value. It sounds obvious, but missing that final action is common when moving quickly through settings.

Another thing to check is whether the app reports the last command as succeeded. If it does not, then the change should not be assumed to have taken effect. There may be a temporary communication issue between the mobile app and the inverter, or the system may require a moment to update. It is also sensible to go back and re read the value after sending the command rather than relying only on memory. Verification is part of the process, especially with settings that affect power export behaviour.

You should also make sure you are connected to the correct device or account context if your DEYE setup is linked through the cloud portal or if you manage more than one inverter. Sometimes a failed change is not really a technical issue at all. It is simply a case of looking at one device and sending commands to another, or working in the wrong section of the app. Keeping a calm, methodical approach usually solves these problems faster than repeatedly tapping around at random.

THE CLOUD PORTAL SHOULD FOLLOW THE SAME IDEA

The transcript mentions that the same thing can be done on the cloud portal, which is useful if you prefer managing settings from a larger screen. The exact layout may differ slightly from the mobile app, but the principle should be the same. If the standard settings page limits max sell power to a minimum of 500 watts, look for a direct command or single command style interface within the portal. That is likely where the lower value can be entered and sent to the inverter.

Using the cloud portal can actually make this sort of task easier for some people because the menus are often easier to browse on a desktop screen and command logs can be clearer to read. If you are documenting changes, comparing settings, or doing more detailed testing over time, working from the portal may also fit better into your routine. Still, whether you use the app or the portal, the core logic does not change. The normal range limited screen is one thing, and the direct command interface is another.

This is worth remembering because many support style questions come down to interface assumptions. Someone says the inverter cannot do something because the visible form blocks it, while someone else has already discovered the direct parameter route. Once you understand both layers, your confidence with the platform improves quite a lot. You stop reacting to the first limitation you see and start asking whether there is a more direct setting path available.

WHEN A LOWER EXPORT LIMIT MAKES SENSE IN REAL WORLD USE

In practical day to day use, lower export values can be helpful in a few different situations. One common case is when someone wants to minimise accidental export while still leaving a tiny amount of tolerance in the system. Instead of allowing 500 watts, which may feel more generous than necessary, they might prefer something like 100 watts. That gives the inverter a little room without opening the door too wide. Another case is system observation. If you are trying to understand exactly how your battery, load demand, and solar generation interact, very small export caps make it easier to observe transitions and edge cases.

There is also a practical mindset benefit to this. The more precisely you can control your system, the more confidently you can test it. You can make one small change, watch what happens, and learn from the result. That is a much better approach than making broad changes and hoping for the best. Inverters are often treated like appliances that should simply run in the background, but for owners who like understanding their tools, these settings become part of a bigger picture of energy management, self reliance, and practical optimisation.

And that is really where this topic becomes more interesting than it first appears. It is not only about changing one number in one menu. It is about understanding how the device is structured, where simplified settings end, and where direct control begins. Once you see that pattern, working with the DEYE inverter feels less mysterious and more manageable, especially if you are the kind of person who likes to learn by doing and verify each step properly before moving on.

WHAT HAPPENS AFTER YOU SET A LOWER MAX SELL POWER

Once you have used the single command method to push the max sell power below 500W, the next thing that matters is not simply whether the app accepted the number, but whether the inverter actually behaves the way you expect under real operating conditions. This is where a lot of people get confused, because entering a lower limit such as 100W does not always mean you will instantly see a perfectly steady export line holding exactly at that figure every second of the day. In practice, inverter behaviour depends on household load changes, solar generation, battery status, meter feedback, CT calibration, communication timing, and the general speed at which the control loop responds to changing conditions.

That is why it helps to think of max sell power as a control target rather than a magic lock. The lower you set it, the tighter the export restriction becomes, but the system still has to react to real world conditions. If a kettle switches on, if clouds pass over the panels, or if the battery transitions between charging and discharging behaviour, the inverter may briefly adjust around those changes. What you are really looking for is whether the system trends toward your chosen export ceiling and whether it consistently avoids excessive export over time.

A good way to test this is to choose a calm period during daylight when your solar production is reasonably stable and your house loads are not changing too aggressively. Set a lower max sell power value, wait a few minutes for the command to apply, then watch the inverter data and meter readings. If you have a smart meter, export reading, or monitoring dashboard, compare what the inverter claims it is doing against what the external metering shows. In many cases this tells you very quickly whether the setting has been applied properly or whether something else in the system is preventing accurate control.

• Check whether export remains below the number you selected most of the time.
• Watch for short spikes rather than expecting perfect flat line behaviour.
• Compare inverter data with external meter readings if possible.
• Observe behaviour over several minutes rather than a few seconds.
• Repeat the test at different values such as 300W, 100W, and 50W.

If the inverter accepts 100W but your export still jumps well above that repeatedly, the issue may not be the max sell power setting itself. It can be related to metering position, delayed feedback, incorrect CT orientation, or another operating mode that has priority over export limiting. This is exactly why a proper test matters, because changing the number is only half the job. The other half is confirming that the whole control chain is working as intended.

WHY YOU MIGHT WANT LESS THAN 500W IN THE REAL WORLD

At first glance, reducing sell power to below 500W might sound unnecessary, especially if many users are happy simply stopping large exports back to the grid. But when you look at how home solar systems are actually used, smaller caps become far more practical than they seem. Some people are trying to get very close to zero export because of local grid rules, while others are running batteries and want to prioritise self consumption with more precision. There are also cases where users are diagnosing unusual inverter behaviour and need to temporarily restrict export to a very small amount so they can isolate what the system is doing.

For example, if you are trying to tune a setup where your battery should absorb excess solar and your house should only send a minimal trickle to the grid, having the ability to set 100W or even 50W can be useful. It gives you a smaller test window and allows you to see whether the inverter is overshooting, drifting, or following the meter correctly. If the minimum allowed value were always fixed at 500W, that can be too blunt for finer adjustments, especially in smaller residential systems where 500W is already a noticeable amount of export.

There is also a practical side for users in locations where feed in arrangements are limited, restricted, or simply not worth much financially. In those situations, every extra watt exported may be something you would rather keep in the battery or consume on site. A lower sell power cap gives you more control over that balance, and while it may not eliminate every brief export event, it does improve the system’s ability to stay close to your preferred operating style.

Another overlooked use case is commissioning and troubleshooting. When you are setting up a system, validating CT direction, or checking that energy flow logic makes sense, a very low sell power cap becomes a controlled testing tool. It lets you intentionally narrow the system behaviour and observe how the inverter responds. In technical work, limits like that are not just operational settings. They are diagnostic tools.

WHEN THE VALUE SHOWS CORRECTLY BUT THE RESULTS STILL LOOK WRONG

One of the most frustrating situations is when the app appears to accept the lower number, the command status looks successful, and yet your export behaviour still does not line up with what you expected. This can make it seem as though the inverter ignored the setting, but often the explanation is more subtle. In many installations, the inverter only controls export accurately if the meter or CT is reading grid flow properly and feeding that information back in a timely way. If that feedback is delayed, reversed, noisy, or misconfigured, export limiting can become inconsistent even though the max sell power value itself is technically set.

The first thing to check is whether your CT clamp or external meter is installed correctly. If the clamp is facing the wrong direction, or if the inverter is reading import and export backwards, the system can make poor decisions. It may believe it is reducing export when in reality it is increasing it, or it may fail to react quickly because the data does not reflect actual grid flow. This becomes especially obvious when you try to run very low export limits, because the control margin is much tighter.

The second thing to think about is update delay. Some systems do not refresh instantly, and some cloud views lag behind what the inverter is doing locally. If you are changing a setting and then immediately checking a remote app screen, you may be looking at old information. This is why local observation, command history, and waiting a short period before judging the result are all important. A setting can be applied correctly while the monitoring still displays stale values for a short time.

You should also review whether another operating mode is interfering with your expectation. Depending on how your DEYE system is configured, there may be battery charge priorities, time of use behaviour, zero export settings, or energy management rules that affect how power flows. Max sell power does not exist in isolation. It is one limit among several parts of the overall system logic. If one of those other settings has stronger influence in a particular scenario, the resulting power flow may not look exactly like a simple export cap test.

• Confirm CT clamp direction and placement.
• Check whether an external meter is communicating correctly.
• Allow time for cloud data and app data to refresh.
• Review battery operating mode and time schedules.
• Look for zero export settings or other active grid control options.

If you work through those points and the inverter still behaves unpredictably, it is worth repeating the test in a simpler state. Choose a period with stable sun, disable unnecessary scheduled complexity if possible, and test one variable at a time. Technical troubleshooting becomes much easier when you remove moving parts rather than trying to diagnose everything at once.

UNDERSTANDING THE DIFFERENCE BETWEEN SETTING A LIMIT AND ENFORCING A RESULT

This distinction is one of the most useful things to understand when working with inverters, because it explains why two people can set the same max sell power and get different experiences. A parameter inside the inverter is a limit that the control system tries to respect, but real world enforcement depends on the surrounding hardware and operating conditions. The inverter can only react based on the information it receives and the speed at which it can change output. If the system is well configured, a lower max sell power works very well. If the system has poor feedback or conflicting settings, the same parameter may appear less effective.

Think of it like cruise control in a car. Setting a target speed is one thing, but holding that speed perfectly depends on road conditions, hills, traction, and response time. In the same way, setting a 100W export cap is not a promise that export will never momentarily move above 100W. It is a command to the inverter control logic to manage power in that region as closely as possible. This is why looking at trends, averages, and repeated behaviour is more meaningful than reacting to every short fluctuation.

For many home users, the practical test is simple. If reducing the cap from 500W to 100W noticeably reduces export and keeps it tightly constrained most of the time, then the setting is doing its job. Chasing absolute perfection can become misleading, particularly when measurement refresh intervals and small load changes are always happening in the background. What matters is whether your system is materially closer to the behaviour you want.

HOW TO VERIFY THE CHANGE PROPERLY OVER TIME

After confirming the command succeeded, it is worth doing a longer verification rather than relying on a single quick glance. A proper check over several different times of day will give you much more confidence that the lower max sell power value is really in place and working. Midday solar surplus is one scenario, but early morning, late afternoon, battery full conditions, and variable household consumption can all reveal different behaviour.

A sensible approach is to log a few simple observations. Note the value you set, the approximate solar generation at the time, whether the battery was charging or full, and what the export looked like. If your inverter or portal provides graphs, compare before and after periods using the same rough conditions. This helps you move from guesswork into evidence. Even a short handwritten note or spreadsheet can make troubleshooting far easier if you need to revisit the configuration later.

You may find that 100W works well in one part of the day but that 50W becomes too aggressive or leads to more visible correction swings when conditions are rapidly changing. That does not necessarily mean 50W is unsupported. It may simply mean that your particular installation, meter position, and household load profile respond better to a slightly higher margin. In practice, some users choose a small but realistic export cap rather than the lowest theoretical number, because the operational result is smoother.

Another useful habit is to verify the setting again after app updates, firmware changes, or account changes. Sometimes user interfaces are revised, menus are reorganised, or values are displayed differently after updates. If you know that single command is the route that allows lower values, you can quickly recheck your configuration and make sure nothing has drifted back to a default state. This becomes particularly important if you are managing more than one inverter or helping someone else with their setup.

• Test during stable sunshine and during variable conditions.
• Check behaviour with battery charging and with battery full.
• Compare app readings with meter or grid readings where possible.
• Keep simple notes of values and observed export behaviour.
• Recheck after software or firmware updates.

COMMON REASONS A LOWER VALUE MAY FAIL TO APPLY

If the system refuses to hold a lower number, there are a few likely explanations. The first is that the wrong command was chosen in the single command area. It sounds obvious, but inverter menus often contain similarly named options, and it is easy to select something adjacent rather than the exact max sell power command. The second is that the command was entered but not actually sent, or it was sent but never succeeded. A pending or failed status is not the same as an applied setting.

Another issue can be account or device mismatch. If you manage multiple sites, multiple inverters, or have both local and cloud access, make sure you are changing the intended device. People sometimes edit one inverter while watching data from another, which creates the illusion that the command does nothing. Closely related to this is the possibility that the app view you return to still uses a restricted field validation rule even though the inverter has accepted the lower number in the background. In that case, the settings page may be a poor reflection of actual device capability.

Firmware differences may also play a role. While the principle of using direct commands often works, not every inverter model, firmware version, or regional variant behaves identically. Some systems may support very low values cleanly, while others may have a practical floor, delayed application, or different naming conventions. This does not invalidate the method, but it does mean you should test and verify rather than assuming every screen behaves the same on every installation.

There is also the possibility of installer level restrictions or permissions. Some advanced settings are limited depending on account role or platform permissions. If a command exists but your account cannot execute it fully, the app may show partial access without delivering the final change. When in doubt, check command results carefully rather than assuming that entering the number was enough.

WHY DIRECT COMMAND PATHS OFTEN REVEAL MORE THAN NORMAL MENUS

This DEYE example is actually part of a wider pattern you see across many technical devices. Manufacturers often build two layers into their interfaces. The first layer is designed for broad use and is intended to keep people inside safer, simpler ranges. The second layer is more direct and exposes lower level controls that map more closely to the device firmware itself. That does not mean the direct path is dangerous by default, but it does mean it expects the user to understand what they are doing.

For normal users, a simplified menu reduces support issues and discourages accidental misconfiguration. For experienced users, installers, or anyone troubleshooting a specific scenario, that same simplification can become a limitation. The app might say the minimum is 500W not because the inverter cannot do less, but because the normal screen has been intentionally narrowed. Once you realise that, a lot of confusing behaviour in energy devices starts to make more sense.

This is also a reminder not to assume that a front end form field defines the full technical capability of the hardware. The real capability often sits one layer deeper, where commands interact more directly with the inverter’s internal parameters. That is why learning how to use command history, direct parameter tools, and proper verification methods can save a lot of wasted time. Instead of fighting the visible menu, you work with the device in the way it actually expects advanced changes to be made.

A PRACTICAL CHECKLIST BEFORE YOU LEAVE THE SETTING IN PLACE

If you have successfully changed the max sell power to less than 500W, it is worth doing one final pass through a practical checklist before treating the job as finished. Small settings changes can have wider operational effects, especially in systems with batteries, automation, and multiple priorities. Spending a few extra minutes checking the bigger picture can help you avoid confusion later on.

• Confirm the single command status shows success.
• Return to the standard settings area and see whether the value reflects there.
• Observe export behaviour under genuine solar surplus conditions.
• Compare inverter data against your smart meter or external meter if available.
• Check battery charging behaviour is still consistent with your goals.
• Note the setting somewhere so you can reapply it if needed later.
• Review the result again after any software or firmware update.

This final check matters because the point is not merely to prove that a hidden command exists. The real goal is to make the inverter behave in a way that suits your household, your battery strategy, and your local export situation. Once the lower cap is applied and verified, you have effectively moved from the app’s default assumptions into a more deliberate configuration that matches your actual use case.

THE BIGGER LESSON FROM THIS DEYE SETTING

What makes this issue interesting is that it highlights a very common gap between what a user interface suggests and what a device can really do. On the surface, the DEYE app makes it look as though max sell power cannot go below 500W. In reality, the restriction sits in the normal settings screen rather than necessarily in the inverter itself. Once you know where to look, the problem becomes much less mysterious and much more manageable.

That is useful beyond this one setting. It encourages a more confident approach to technical systems in general. If a value appears artificially limited in a standard menu, it is worth checking whether there is a direct command path, installer menu, advanced panel, or cloud control method that exposes the fuller parameter range. Of course that should be done carefully and with proper verification, but it often reveals that the hardware is more flexible than the simplified interface suggests.

In practical terms, if you want to change the DEYE inverter max sell power to less than 500W, the route is clear. Use the single command method, select the correct max sell power command, enter the lower value you want, send it, verify that the command succeeded, and then test the inverter under real operating conditions to confirm the result. Once you understand that workflow, the 500W limit stops being a dead end and starts looking more like what it probably was all along, which is simply an app level guardrail rather than the true boundary of the inverter’s capability.

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