assistants:hub1_and_hub2_notes
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| drafts:hub_notes [2015-07-02 15:23] – [2. Use and working of State of Charge (SOC)] mvader | assistants:hub1_and_hub2_notes [2019-01-22 10:16] (current) – external edit 127.0.0.1 | ||
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| - | ====== Hub Assistant notes ====== | + | ====== Hub-1 and Hub-2 Assistant notes ====== |
| ===== 1. Special states ===== | ===== 1. Special states ===== | ||
| Line 23: | Line 23: | ||
| === 1.5 Sustain === | === 1.5 Sustain === | ||
| - | System | + | The purpose of the Sustain Mode is to prevent leaving batteries in a deeply discharged state during several days. The Sustain Mode is entered when during 30 seconds |
| + | - the battery | ||
| + | - the current drawn from the battery is smaller than 1/20th of the battery capacity.\\ **Important**: | ||
| - | If the DC voltage is lower than 12.5V* for 24 hours (only possible if there has not been enough PV power to get out of that situation) then the sustainlevel | + | During Sustain, |
| - | For Litihium batteries | + | |
| - | The sustain | + | Note that, for non-lithium systems, the sustain |
| - | (The latter condition is necessary to prevent sustain from being activated during PowerAssist actions. During PowerAssist the DC voltage can easily drop below the sustain voltage. If the sustain mechanism would then be activated, PowerAssist would stop, the DC voltage would rise again and then PowerAssist would be restarted. This process would repeat itself. Therefore, sustain mode is only activated when the DC voltage is low in combination with a low power drain from the battery.) | + | DC voltages specified |
| - | + | ||
| - | *) DC voltages specified for a 12V system. These voltages should be multiplied by 2 or 4 for a 24V or 48V system. | + | |
| ===== 2. Use and working of State of Charge (SOC) in a Hub2 system ===== | ===== 2. Use and working of State of Charge (SOC) in a Hub2 system ===== | ||
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| - when a Lynx BMS signals 'High voltage/ | - when a Lynx BMS signals 'High voltage/ | ||
| - | ===== 3. FAQ ===== | + | ===== 4. FAQ ===== |
| === Why does my Hub-2 system start charging the first day after setting it up? === | === Why does my Hub-2 system start charging the first day after setting it up? === | ||
| - | This is the maintenance charge. If later on you reconnect VEConfigure and make changed to the Assistant, the same thing will happen: a maintenance charge, using power from the grid (if necessary) to fully charge the batteries. | + | This is the maintenance charge. The moment you switch on a HUB2v3 system the daycounter will be on day [0], the day after [day 1] is the first day the first maintaince will be done. If there is no surplus energy for 24h the system will automaticly go to day [1], so start the charge period from grid. If you later on you reconnect VEConfigure and make changed to the Assistant, the same thing will happen, The day counter will be set to [0] again: a maintenance charge, using power from the grid (if necessary) to fully charge the batteries. |
| === How long does it take for the Hub-2 clock to sync with the grid? === | === How long does it take for the Hub-2 clock to sync with the grid? === | ||
| + | This depends on the surplus of PV power. After switching in the hub system assumes its day. | ||
| + | When surplus power is seen flowing into the grid this is confirmed and when the SOC reset is met the system will go into day/night mode (when selected in the policy tab) after the pv surplus has stopped. | ||
| + | This will not always be at the correct point of the day in the first few days but will get corrected automaticly | ||
| === How does Hub-2 know when it is day or night? === | === How does Hub-2 know when it is day or night? === | ||
| - | It looks at the direction of the current at the AC output of the Multi or Quattro. If there is excess PV , etc. | + | It looks at the direction of the current at the AC output of the Multi or Quattro. If there is excess PV. |
| + | The day/night will be adjusted constantly and has a maximal drift of 7 min a day (season changes). | ||
| - | Note: configure an hub-2 during day time, because (hoe zat dit ook alweer Peter?) | + | Note that because it looks a the power being fed back to the grid, day/night syncing in a hub-2 system only works well if there really is an excess amount of PV available. If not, for example on most days, or during |
| + | Also, when having a grid connected wind turbine or such the day/night switch cannot be used! | ||
| + | === Can I add a small solar charger to a hub-2 installation? | ||
| - | === How does Hub-1 know when it is day or night? === | + | In order to have the SOC calculation work as accurate as possible this should |
| - | It looks at the direction of the current at the AC input of the Multi or Quattro. When there is power being fed back to the grid, it knows that it has to be day time. | + | |
| - | Note that because it looks a the power being fed back to the grid, day/night syncing in a hub-1 system only works well if there really is an excess amount of PV available. If not, for example on most days, or during most part of the day ... | ||
| - | |||
| - | === Can I add a small solar charger or wind turbine to a hub-2 installation? | ||
| - | |||
| - | Yes you can, and it even has certain advantages as well. [johannes, graag uitleggen]. | ||
| - | |||
| - | You might think that the internals of the Hub-2 might get confused. The only thing that might happen is that the battery is a bit more charged than what the Assistant actually thinks, which can't hurt. | ||
| - | |||
| - | During charge, the SOC used for the algorithms is synced at several moments: | ||
| === Input current limiting options === | === Input current limiting options === | ||
| * It is possible to set (and change) the input current limit with a remote control panel, For example the Digital Multi Control or the Color Control GX. | * It is possible to set (and change) the input current limit with a remote control panel, For example the Digital Multi Control or the Color Control GX. | ||
| * This limit will be used when charging the battery during the periodic battery maintenance cycle. During normal operation it will normally not be used. As long as there is enough sun, the Multi will use a lower current than set with the remote control panel. | * This limit will be used when charging the battery during the periodic battery maintenance cycle. During normal operation it will normally not be used. As long as there is enough sun, the Multi will use a lower current than set with the remote control panel. | ||
| + | The level that is used is depending on the model which is used. (the threshold for powerassist is depending on the size of the inverter and the AC input current range of an inverter) | ||
| + | (example for threshold ; 3k/50Amp relay --> 6Amp minimal) | ||
| === Why does my shown SOC jump (VE.Bus SOC, not BMV SOC) === | === Why does my shown SOC jump (VE.Bus SOC, not BMV SOC) === | ||
| The SOC is auto-corrected. For example in a low voltage warning, if the SOC is too high, it will be auto-corrected downwards. | The SOC is auto-corrected. For example in a low voltage warning, if the SOC is too high, it will be auto-corrected downwards. | ||
| + | Mostly when having a charge current higher then 10-15% the rate of charging, the calculated SOC does not match reality. Then the Absorbtion voltage is reached too soon, setting the SOC directly on a certain level (set in the battery monitor page in ve configure) | ||
| + | Same at discharging, | ||
| + | === Why does AES not work when using Hub-1 policy 3? === | ||
| + | Hub1 policy3 is ' | ||
| - | [ elaborate ] | + | With this policy the unit will be in Inverter mode when possible but will stay synchronized to the mains. So it will be able to switch quickly when the Load connect condition becomes active. Therefor AES does not work. |
| - | ===== DISQUS Comments ===== | ||
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| + | ===== DISQUS ===== | ||
| ~~DISQUS~~ | ~~DISQUS~~ | ||
| + | |||
assistants/hub1_and_hub2_notes.1435843399.txt.gz · Last modified: 2015-07-02 15:23 by mvader