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lifestyle:faq_solar_generator [2020/05/20 11:19]
frater_secessus [solar charging]
lifestyle:faq_solar_generator [2024/02/05 18:50] (current)
princess_fluffypants
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 +====== Solar generators ======
 Words of wisdom:  "These aren't aimed at people that know what they are doing." -- [[https://www.reddit.com/r/vandwellers/comments/dr387z/500w_aimtom_rockpals_500_solar_generator_review/f6jc7lz/|LastTreeStar]] Words of wisdom:  "These aren't aimed at people that know what they are doing." -- [[https://www.reddit.com/r/vandwellers/comments/dr387z/500w_aimtom_rockpals_500_solar_generator_review/f6jc7lz/|LastTreeStar]]
  
 +===== TL;DR =====
  
-> The self contained units are overpriced, underperforming "power for dummies" -- Somebodyelse((https://www.promasterforum.com/threads/run-engine-idle-to-charge-house-batteries.90688/post-706125)) 
  
-====== solar generators ======+**These things are //EXTREMELY// expensive for the capacity, however they do offer a lot of convenience.** For those with plenty of money who value ease and speed over capacity and run-time, an argument can be made for these if your power needs are small-to-medium and you are only taking short trips in your vehicle. 
  
 [[https://amzn.to/2MZhjzi|{{ https://images-na.ssl-images-amazon.com/images/I/51ug3IIF-zL._AC_US218_.jpg}}]] [[https://amzn.to/2MZhjzi|{{ https://images-na.ssl-images-amazon.com/images/I/51ug3IIF-zL._AC_US218_.jpg}}]]
-"Solar Generators" ([[https://amzn.to/2E7EG71|power stations]], power packs) are self-contained devices that contain:+"Solar Generators" ([[https://amzn.to/2E7EG71|power stations]], power packs) are not actually generators. They are basically just a self-contained electrical system in a box, containing:
  
-  * battery packoften lithium or AGM +  * A [[electrical:12v:batteries|battery]]usually lithium 
-  * USB outlet[s] +  * USB outlet[s] and 12v outlet[s] 
-  * a pure sine wave [[electrical:inverter|inverter]]+  * An [[electrical:inverter|inverter]] 
 +  * A [[electrical:solar:charge_controller|solar charge controller]]
    
-These devices are packaged for convenience and are usually much more expensive than the components bought separately.  Sometimes manufacturers use non-standard panel connectors to keep customers in an expensive "walled garden", referring to normal, non-proprietary panels as [[https://inergytek.com/pages/support|"off_brand"]].((COUGH [[https://amzn.to/2SpgjbR|inergy]] COUGH)) +These devices are packaged for convenience and are usually much more expensive than the components bought separately.  Sometimes manufacturers use non-standard panel connectors to keep customers in an expensive "walled garden", referring to normal, non-proprietary panels as [[https://inergytek.com/pages/support|"off_brand"]].((COUGH [[https://amzn.to/2SpgjbR|inergy]] COUGH)) 
 + 
 +Less expensive "solar generators" may cut corners by using more basic batteries (AGM vs Lithium), cheaper inverters (Modified sine wave instead of pure sine wave), or less efficient solar charge controllers (PWM instead of MPPT).  These lower-end models tend to have very restricting charging limits not found on DIY systems.  
 + 
 +The overall proposition can be summed up by the title of a Bob Wells video, [[https://www.youtube.com/watch?v=gFOZ6aetIPc|Should you Buy a Jackery Power Station? Super Easy but Super Expensive]].
  
 The terms //solar generator// and //generator alternative// are marketing terms with no real meaning:  the units do not //generate// power. The terms //solar generator// and //generator alternative// are marketing terms with no real meaning:  the units do not //generate// power.
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 Sometimes the term [[https://amzn.to/2WZ9mP5|jump pack]] is used for portable battery packs in general, but it often means packs intended to jump start a vehicle.  [[https://amzn.to/2SvCHT3|Battery pack]] usually means small, pocketable "bricks" for charging phones and other small devices.  Sometimes the term [[https://amzn.to/2WZ9mP5|jump pack]] is used for portable battery packs in general, but it often means packs intended to jump start a vehicle.  [[https://amzn.to/2SvCHT3|Battery pack]] usually means small, pocketable "bricks" for charging phones and other small devices. 
  
-===== best case scenario =====+----
  
-The best use of these "generators" is +===== Best case scenario =====
  
-  * a person who camps on relatively short outings +The best use of these "generators" is someone who: 
-  * who can charge from shore power when away from the camper + 
-  * and who does not need to run devices in the camper when the owner is charging the unit +  Has little technical knowledge of electricity and battery chemistries, and no interest in obtaining any 
-===== specifications =====+  * Is short on time and needs solution very quickly 
 +  * **Has //plenty// of disposable income** 
 +  * Camps on relatively short outings  
 +  * Has small to medium power needs, or does not need long run time. 
 +  * Can charge from shore power when away from the camper 
 +  * May need to bring their power source well outside of their vehicle for recreational or work reasons 
 + 
 +A solar generator may also be useful for people who want to move the battery between different vehicles.  
 +---- 
 + 
 +===== Specifications =====
  
 Specs for these devices are often given in nonstandard or even misleading ways.  The following discussion will use the Yeti shown above, although their product description is better than most.  Specs for these devices are often given in nonstandard or even misleading ways.  The following discussion will use the Yeti shown above, although their product description is better than most. 
  
-Ah are often expressed as mAh.  Which is more impressive, 33Ah or 33,000mAh?  They are the same capacity expressed in different ways. +==== TLDR ====
  
 +We are most interested in 
  
-The 33Ah **capacity** lead-acid battery in the example above is stated as 400Wh.  This is technically correct but mixes units in a way that consumers may not understand.  Consumers may also not realize that lead-acid chemistries are usually only drawn down to 50% [[electrical:depth_of_discharge|depth of discharge]]giving an actual usable capacity of 16.5Ah.  In additionlead-acid battery [[electrical:12v:battery_capacity|capacities]] are measured over 20hrs.  With our example this means a **10w** continuous DC load in this caseor 9w from the built-in inverter.  Loads greater than those will decrease usable capacity due to the [[https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&cad=rja&uact=8&ved=2ahUKEwjNo6ayjbXgAhXJwVQKHZ7xAmAQFjAAegQIChAB&url=https%3A%2F%2Fen.wikipedia.org%2Fwiki%2FPeukert%2527s_law&usg=AOvVaw0guPoMgsy0smO6ISiV1t32|peukert effect]].+  how much capacity the bank has (typically in Watt-hoursWh) 
 +  * charging limits  
 +    * by car adapter (typically ≤120w because of limitations of the ciggy port) 
 +    * by wall adapter (volts and ampssometimes the stock wall charger makes lower power than is otherwise possible) 
 +    * by solar ([[electrical:solar:panels#specifications|Voc]] and input current, which will dictate which panels and how many are suitable) 
 +  DC output (typically 10A at 12v) 
 +  AC output (given as Watts, the biggest AC loads you can run) 
  
-In typical units with lithium batteries, the DC output of the device will be somewhere between 9v-12.6v due to the [[electrical:12v:deep_cycle_battery#non-lifepo4_lithium-ion|voltage of li-ion chemistries]] and their [[electrical:12v:parallel_serial|3S]] internal arrangement.((if LiFePO4 is eventually used in the devices then the voltage will be quite close to lead acid's voltage))  Nefarious marketers sometimes multiply each cell's Ah rating times the number of cells, resulting in a 3x inflation of Ah rating.  \\ 
-On the upside, they have almost no peukert effect and therefore can support heavier loads (at the expense of running time).  Also, higher end units run 4S or higher voltages then downconvert them for a ~13v output much closer to what nominal 12v devices expect. 
  
-You could run run [[electrical:12v:loads|a load]] at the **inverter's 300W normal rating** for ~36 minutes.((including 10% efficiency loss on inversion, but not including peukert effect))  Some manufacturers will list the inverter's peak output (600w in this case) in the title as if it were the amount of power the unit could deliver over time.  New folk sometimes read this as "I can run 600w of appliances off the unit forever!", forgetting this is a //peak// load and that the unit has a finite capacity.+==== capacity ====
  
-===== charging =====+Capacity is most often listed in Wh (watt-hours), which makes comparison quite easy.  Some (especially lead cells) retain Ah ratings.  For lead batts, 12v x the Ah rating Wh.  Sometimes Ah are expressed as mAh, or 1/000th of an Amp.  Which is more impressive, 33Ah or 33,000mAh?  They are the same capacity expressed in different ways.  
 + 
 +Nefarious marketers sometimes multiply each cell's Ah rating times the number of cells, resulting in a 3x inflation of Ah rating. 
 + 
 + 
 +=== usable capacity === 
 + 
 +Most people know that only about 50% of lead batt capacity should be used in order to ensure a long life.  Lithium also has a recommended safety margin, 20%.  This means 80% of the rated capacity can be used and still hit the manufacturer's cycle life claims.  400Wh x 0.8 = 320Wh usable.  
 + 
 +With 320Wh usable we could run the a theoretical 400w inverter at max load for 48minutes.  (320Wh / 400W x 60 minutes) 
 + 
 + 
 +==== cell chemistry ==== 
 + 
 +The cell chemistry is likely 3.6v Li-NMC(("Li-Po" Some are even SLA)) unless LiFePO4 is stated.  The chemistry has significant impact on both battery cycle life and solar charging behavior.((when PWM [[electrical:solar:charge_controller|charge controllers]] are used (see below).)) 
 + 
 +Li-NMC are typically 3.6v cells arranged three in a row (3S) for nominal 10.8v.  Actual voltage will vary from 9v-12.6v.((Some more expensive models use 4S for 12v-14.4v but this is uncommon.))   Li-NMC are rated ~500 cycles to 20% [[electrical:depth_of_discharge|state of charge]].   
 + 
 +LiFePO4 are typically 3.2v cells arranged four in a row (4S) for nominal 12.8v and actually ~12.1v - 14.0v.  LiFePO4 are ~2000-3000 cycles to 20% SoC.   
 + 
 +[[electrical:12v:deep_cycle_battery#vrla_-_valve_regulated_lead_acid|SLA]] (lead) batteries aren't used much anymore, but if present they are nominal 12v and actually ~12.1-14.6v.  SLA as found n SGs are capable of ~500 cycles to 50% SoC.  
 + 
 + 
 + 
 + 
 + 
 + 
 +==== inverter ==== 
 + 
 +The [[electrical:inverter|inverter]] will usually be pure sine wave, but lower-priced units that do not specify may be modified sine wave. See the linked article for information about MSW and electronics.  
 + 
 +Inverters are typically rated on their //continuous// output but unscrupulous marketers may list the //peak// load, which is a temporary overload.  
 + 
 +==== solar input ==== 
 + 
 +If the [[electrical:solar:charge_controller|controller type]] isn't claimed to be MPPT it is likely PWM.   
 + 
 +=== solar charging limits === 
 + 
 +Many smaller units have quite restrictive solar input limits.   
 + 
 +  * **voltage** - 22Voc is a common voltage limit, effectively limiting one to [[electrical:solar:panels#panel_voltage|12v nominal]] panels. 
 +  * **current** limit - 3A is a common input current limit on smaller, less-expensive units.   
 +    * With PWM controllers the max power harvestable will be 3A x [internal battery voltage], which can be as low as 9v.  9v x 3A 27w.   
 +    * MPPT controllers with the same limit might run the panels at 18v, the Vmp:  18v x 3A = 54w((minus DC-DC conversion losses of ~5%)) 
 + 
 + 
 + 
 +==== pass-through charging ==== 
 + 
 + 
 +**Pass-through charging** is an important feature, as it allows you to run DC/USB/AC while charging the unit((some units will pass through DC but not power the inverter for AC.  Check the specs and reviews carefully/))  While passing-through keep an eye on the unit's temperature and discontinue one or the other if it gets too warm. 
 + 
 +A unit with pass-through would maximize charging while driving.  The SG and attached devices would charge. 
 + 
 +    12v ciggy port -> SG -> other devices 
 +     
 +A unit without pass-through could only charge the SG because the power cannot be "passed through" the SG. 
 + 
 +    12v ciggy port -> SG 
 +         
 +The situation with solar would be even worse, because it might take all day to charge from solar and the SG could not power other devices for that day.  
 +==== regulated DC output ==== 
 + 
 +Since many of the devices don't run at 12v-friendly voltages some of the nicer ones have voltage regulation.  This means the output would be a steady 12.8v or 13.4v((whatever they decide)) no matter the voltage level of the internal battery pack.   
 + 
 +Unregulated 3S packs can drop to 9v, causing some devices to misbehave.  
 +===== Charging =====
  
 Using the Yeti above as our example again, the charging requirements are: Using the Yeti above as our example again, the charging requirements are:
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   * Will you have 8hrs of usable solar harvest?  Do check the [[electrical:12v:electrical_notation|Vmax and Imax specs]] for the device if you intend to charge with solar;  the max input voltage is usually quite low.     * Will you have 8hrs of usable solar harvest?  Do check the [[electrical:12v:electrical_notation|Vmax and Imax specs]] for the device if you intend to charge with solar;  the max input voltage is usually quite low.  
  
-==== technical discussion ====+====Charging from solar panels====
  
-**Charging from wall socket** is typically fastest because the manufacturer gets total control over the adapter's voltage and current output.  Note that they might not include a fast charger to reduce cost or heat stress on the battery.((particularly for Li))+Charging these devices from solar panels will probably be [[electrical:solar:output|slower than you might expect]]:
  
-**Charging from car outlet** is typically slow because [[electrical:12v:alternator|alternator]] voltage tends to be fairly low((particularly for charging lead)) and [[electrical:12v:ports#the_cigarette_outlet|ciggy outlet]] current limited to 10A.  Unless one is on a road trip there is probably not enough time spent driving the vehicle to charge the device fully+  in the absence of an [[electrical:solar:charge_controller#mppt|mppt controller]]((sometimes present on higher-end devices)) [[electrical:solar:output#charge_controller_type|panel output will be hamstrung by battery voltage]].  You may see a device listing 60w max input but specifying a 100w panel for use with it, and now you know why.  
 +  * devices with 3S lithium cells will hamstring the panels even worse((3S Li voltage can be as low as 9v, and maxxes around 12.5v.)) 
 +  * long wire runs (as seen with portable panels set outside) result in voltage drops 
 +  * sunlight is limited to a certain number of hours.  Some units require more hours of charging than there are hours of sunlight in a day. 
 +  * it is common for smaller units to have low **input voltage limits**, like 25v or lower.   This restricts the panels you can use for charging
 +  * it is common for smaller units to have low **input current limits** for DC charging (Wall adapter, car adapter, or panel).  This is particularly restrictive on panel input.  Consider these examples using a 3A input limit and 100w panel with 18[[electrical:solar:panels#specifications|Vmp]]
 +    * 100w panel on MPPT controller - 18v x 3A = **54W**((In practice it will be even lower due to [[electrical:solar:output#panel_temperature|cell temperature derating]].  10% derating would put max input around **49w**.)) 
 +    * 100w panel on PWM controller - With typical 3S Li-Po batteries input would typically be limited to something like **36w** (12v x 3A).  Less-common internal AGM batteries would make bit more since voltage is higher, ~39W (13v x 3A).
  
-**Charging from solar panels** is can be problematic because daylight is limited, and because most devices effectively run the straight to the internal battery through the input jack This runs the panel way off its rated power point and **greatly reduces the amount of power harvested by the panel**  You may see a device listing 60w max input but specifying a 100w panel for use with it, and now you know why [[electrical:solar:pwm_tweaking|A similar thing happens with PWM controllers]] only it'probably going to be even worse with low- and medium-range devices that have lithium batteries in them.((3S Li voltage can be as low as 9v, and maxxes around 12.5v.))  Devices that claim to have internal solar controllers (probably mppt) will cost more but will make much better use of panels for charging.((4S or greater Li configurations will also charge better from solar due to higher voltage))  Be //certain// not to exceed the maximum input charging voltage.((typically 20-25v for built-in controllers.  Standalone controllers typically can handle much higher input voltages -- check the specs.))+Poly panels will typically [[http://bdp.mousetrap.net/index.php/2019/11/13/pwm-loves-poly/|make slightly more power]] on normal (non-MPPT) devices due to poly'lower voltage / higher current.  Devices with internal MPPT controllers will use both panels equally well because they decouple battery and panel voltages. 
  
-, resulting in power harvesting  +=== Adding MPPT charging ===
-==== internal AGM batteries ====+
  
-Some units use AGM batteries.  This will greatly reduce cost and provide more normal voltage((compared to 3[[electrical:12v:parallel_serial| ]] lithium))  but requires  [[electrical:12v:charging|diligent charging]] or the batteries will [[electrical:batterycide|fail prematurely]].  All lead-chemistry batteries need to be **fully charged** then **kept charged** as much as possible.+Some of the newer Goal Zeros have MPPT chargers built into them, which does increase their usability.  To older models, it can sometimes be added.
  
 +== goal zero optimizer == 
  
-==== solar charging ====+Goal Zero makes an [[https://www.goalzero.com/shop/yeti-accessories/yeti-lithium-mppt-solar-charging-optimization-module/|optional MPPT controller]] that installs seamlessly into selected models.  Will Prowse damns it with faint praise, noting the 22v solar input voltage limit and relatively modest yield improvements:
  
-Charging these devices from solar panels will probably be [[electrical:solar:output|slower than you might expect]].  +>  It //does// work better than the PWM on the goal zero... it's worth the money but not as good as a DIY system((ie, external charge controller.  See https://www.youtube.com/watch?v=rqXscD69RvM)) (see below)
  
-  Devices that claim to have internal solar controllers (probably mppt) will cost more but will make much better use of panels for charging.((4S or greater Li configurations will also charge better from solar due to higher voltage))  Be //certain// not to exceed the maximum input charging voltage.((typically 20-25v for built-in controllers.  Standalone controllers typically can handle much higher input voltages -- check the specs.))+Although the DIY mppt setup makes somewhat more than the Optimimizer, the sleek install of the GZ Optimizer may result in a better appearance and portability The GZ display will not show the charge rate from external controllers. 
  
  
  
-  * in the absence of an MPPT controller((sometimes present on higher-end devices)) [[electrical:solar:output#charge_controller_type|panel output is hamstrung by battery voltage]].  You may see a device listing 60w max input but specifying a 100w panel for use with it, and now you know why.   +== standalone mppt == 
-  * devices with 3S lithium cells will hamstring the panels even worse((3S Li voltage can be as low as 9v, and maxxes around 12.5v.))+
  
-Poly panels will typically [[http://bdp.mousetrap.net/index.php/2019/11/13/pwm-loves-poly/|make more power]] in this scenario due to their lower voltage / higher current.((mppt-equipped models will charge equally as well from both panel types))+It may be possible to run the output of a standalone MPPT controller into a charging port of the device Remember to configure the controller to put a max voltage in line with what the AC charging adapter puts out 
  
-Note it is possible to [[https://www.youtube.com/watch?v=yXNW-4fNZVk|place a small DC-DC converter between the panel and input port]] to get the panel up near max power.  Doing so will make it even more important to manually disconnect the panel when charging is complete.+See [[https://www.youtube.com/watch?v=rqXscD69RvM|this video]] by Will Prowse. 
 + 
 + 
 + 
 +== buck converter == 
 + 
 + 
 +It is possible to [[https://www.youtube.com/watch?v=yXNW-4fNZVk|place a small DC-DC converter between the panel and input port]] to get the panel up near max power.  Doing so will make it even more important to manually disconnect the panel when charging is complete.
  
 Units that do not mention solar charging in their specs can likely still take solar charging through the DC charging port.  Since there may be no controller, **manually disconnect the panel when battery voltage creeps up too high**.  For lead this would be ~15v, and for lithium ~12.3v((assuming 3S)).  Another rule of thumb is that the cutoff voltage should be no higher than the voltage on the stock DC charger -- read its label.   Units that do not mention solar charging in their specs can likely still take solar charging through the DC charging port.  Since there may be no controller, **manually disconnect the panel when battery voltage creeps up too high**.  For lead this would be ~15v, and for lithium ~12.3v((assuming 3S)).  Another rule of thumb is that the cutoff voltage should be no higher than the voltage on the stock DC charger -- read its label.  
 +Be //certain// not to exceed the maximum input charging voltage.((typically 20-25v for built-in MPPT controllers.  Standalone controllers typically can handle much higher input voltages -- check the specs.))
 +
 Another approach might be to place a [[electrical:solar:shunt_tweaking|shunt charge controller]] between the panel and DC input and limit the voltage automatically that way. This will not work if the DC port does not "show" the controller the battery voltage. Another approach might be to place a [[electrical:solar:shunt_tweaking|shunt charge controller]] between the panel and DC input and limit the voltage automatically that way. This will not work if the DC port does not "show" the controller the battery voltage.
  
 +
 +====Charging from wall socket====
 +Wall charging is typically fastest because the manufacturer gets total control over the adapter's voltage and current output.  Note that they might not include a fast charger to reduce cost or heat stress on the battery.((particularly for Li))
 +
 +====charging from car outlet==== 
 +Car charging is typically slow because [[electrical:12v:alternator|alternator]] voltage tends to be fairly low((particularly for charging lead)) and [[electrical:12v:ports#the_cigarette_outlet|ciggy outlet]] current limited to 10A.  Unless one is on a road trip there is probably not enough time spent driving the vehicle to charge the device fully. 
 +
 +It's not *efficient* in the normal sense, but if ciggy charging is running <100w it might make sense to charge the device with the AC adapter running on an [[electrical:inverter|inverter]] rather than from the car charging adapter. 
 +
 +12v ciggy port -> small inverter -> AC adapter -> device
 +
 +Example:  the [[https://amzn.to/3xkRShV|Bluetti AC50S]] charges about 2x as fast from the inverter than from the car adapter, due to the AC adapter's higher 27.5v output.((https://www.reddit.com/r/overlanding/comments/o8orti/newbie_question_on_jackery_bluetti_portable_power/h42jvr3/?context=3))
 +
 +==== charging from isolator ====
 +
 +If >120w charging is required while mobile, one solution might be to install an isolator as one would when charging an auxilliary battery.  The isolator will pass heavier current into the cabin of the vehicle:
 +
 +[[electrical:12v:alternator|alternator --> isolator]] --> [[electrical:inverter|inverter]] --> SG's high power wall adapter
 +
 +As with the ciggy lighter setup above, it's not particularly efficient but while driving the alternator has power to waste. 
 +
 +    
 +    
 +==== internal AGM batteries ====
 +
 +Some units use AGM batteries.  This will greatly reduce cost and provide more normal voltage((compared to 3[[electrical:12v:parallel_serial| ]] lithium))  but requires  [[electrical:12v:charging|diligent charging]] or the batteries will [[electrical:batterycide|fail prematurely]].  All lead-chemistry batteries need to be **fully charged** then **kept charged** as much as possible.
 +
 +
 +
 +
 +===== manufacturers =====
 +
 +The most common "premium" brands are [[https://amzn.to/318LNad|Jackery]] and [[https://amzn.to/3tx8hh4|Goal Zero (Yeti)]].  [[https://amzn.to/3bVt6g9|Bluetti]] is also gaining traction with a loyal following, and there are less-famous brands like [[https://amzn.to/3cDSGW0|Rockpals]], [[https://amzn.to/3sd001L|ExpertPower]], [[https://amzn.to/3s4j7L9|Aimtom]], [[https://amzn.to/3qZtYET|Nexpow]], etc.((Cheaper units may be high-value rebadged units, or they may be lacking features.  Read and understand [[lifestyle:faq_solar_generator#specifications|the specs]] so you know what you are buying.))  They tend to be named after the watt-hours((Wh)) of battery capacity((at 100% [[electrical:depth_of_discharge|DoD]], unrealistic)), or sometimes by the inverter output rating.  
 +
 +The manufacturers often sell proprietary panels ([[https://amzn.to/3ePyweB|Jackery Solar Saga]], etc) which are needlessly expensive.  Do the homework and find out which [[https://amzn.to/3cKgtnf|normal panels]] can work with your device;((voltage and amps))  most will require [[https://amzn.to/3tzzgbP|an adapter]]. [[https://www.youtube.com/watch?v=8k1URSZZ9uY|Will Prowse recommends devices with MPPT controllers]].
 +
 +Notes:  inverter ratings below are the continuous rating, not peak/startup rating. Lithium packs are typically duty-cycle rated to 80% of capacity.  Inverter runtime estimates are 100% of continuous rating at 80% [[electrical:depth_of_discharge|DoD]] and 10% inversion losses.((Jackery advises 15% inverter losses in the Amazon listings, but 10% is used here for consistency))  Inverters described below are  [[electrical:inverter#pure_sine_wave|pure sine wave]] (PSW) unless described as [[electrical:inverter#modified_sine_wave|electrical:inverter#modified_sine_wave]] (MSW).
 +
 +==== Jackery ====
 +
 +
 +
 +    * [[https://amzn.to/2OKWgpA|Explorer 160]]  - 167Wh.  100w [[electrical:inverter#modified_sine_wave|MSW]] inverter (~72 minutes practical runtime((to 80% DoD)) at full inverter load).  1x AC outlet.  2x USB.  1x USB-C outlet.((discharge only))  6mm DC output jack.((no ciggy port but port-to-ciggy adapter included)).  PWM controller.  14.4v internal.
 +    * [[https://amzn.to/3r5TAjC|Explorer 240]] - 240Wh.  200w inverter (~52 minutes).  1x AC outlet.  2x USB.  Ciggy port.  Some specs mention MPPT controller.((newer model?))
 +    * [[https://amzn.to/3cN7kuo|Explorer 300]] - 293Wh. 300w inverter (~42 minutes).  2x AC outlet.  2x USB.  1x USB-C((charge/discharge)).  Covered ciggy port.  Used by caratank((https://www.reddit.com/r/urbancarliving/comments/m72huv/powerbank_for_laptops/gr9o62s/)).
 +    * Explorer 440 - cannot use Solar Saga panels
 +    * [[https://amzn.to/3txZ4oD|Explorer 500]] - 518Wh. 500w inverter (~45 minutes).   3x USB.  2x DC.  ciggy port.  Original version has a PWM controller; version 2 has MPPT.(("You want the one that states 'Jackery' and underneath 'Explorer 500'." - from an Amazon review))
 +    * [[https://amzn.to/3lwVSai|Explorer 1000]] - 1002Wh @ 21.6v(regulated).  1000w inverter (~43 minutes).  3x AC outlet.  2x USB.  1x USB-C((charge/discharge)).  Covered ciggy port.  DC jack and Anderson((for use with included parallel panel adapter)) inputs. MPPT controller. 1000 charge cycles to 80% DoD.
 +
 +
 +==== Goal Zero (GZ) ====
 +
 +    * [[https://amzn.to/3lFdJMl|Yeti 200x]] - 187Wh @ 14.4v (regulated).  120w inverter (~67 minutes).  1x AC outlet.  Ciggy outlet.  DC jack outlet.  2x USB.  2x USB-C.  MPPT controller.  500 cycles.  
 +    * [[https://amzn.to/3cLOHqz|Yeti 400]] - 428Wh @ 10.8v (regulated to 12v).   300w inverter (~62 minutes).  2x AC outlets. Ciggy outlet.  1x DC outlet port.  3x USB.  
 +    * [[https://amzn.to/30UdJ14|Yeti 500x]] - 505Wh @ 10.8v (regulated).  2x AC outlets.  Ciggy outlet.  1x DC jack outlet.  2x USB.  2x USB-C((one will also charge)).  500 cycles. 
 +    * [[https://amzn.to/3bXyqzC|Yeti 1500x]] - 1516Wh @ 10.8v (regulated).  2000w inverter (~33 minutes).  2x AC outlets.  Ciggy outlet.  2x DC jack outlets.  1x DC Anderson outlet. 2x USB.  2x USB-C.  500 cycles. DC input jack and DC input Anderson jack.
 +    * [[https://amzn.to/3vCJdXO|Yeti 3000x]] - 2982Wh @ 10.8v (regulated).  2000w inverter (~64 minutes).  2x AC outlets.  Ciggy outlet.  2x DC jack outlets.  1x DC Anderson outlet. 2x USB.  2x USB-C.  DC input jack and DC input Anderson jack. 500 cycles.
 +
 +==== Bluetti ====
 +
 + Bluetti provides more information than usual about their specs, outlets, etc. [bravo! -- secessus] 
 +
 +    * [[https://amzn.to/3cJ19rf|Maxoak AC20]] - 200Wh.  120w inverter (~72 minutes).  1x AC outlet.  1x DC jack outlet.  2x USB.  1000 cycles.  MPPT controller.(("Input Voltage must be 14V-40V"))
 +    * [[https://amzn.to/3s1CJj9|Maxoak AC100]] - 1000Wh @ 14.8v (regulated to 13.4v).  600w inverter (~72 minutes). 2x AC outlets.  Ciggy outlet.((9A))  4x usb.  1x USB-C. "Up to" 2500 cycles.  MPPT controller.(("working voltage is >16V,Open circuit voltage(OCV) <45V, the Max. output current is max.10A,Max. 170W")) 
 +    * [[https://amzn.to/3cLXYin|AC200P]] - 2000Wh LiFePO4 @14.8v.  2000w inverter (~43 minutes).   6x AC outlets. Ciggy outlet.  3x DC jack outlets.  2x USB.  1x USB-C.  MPPT controller.(("Open Circuit Voltage between 35V-150V, Max.12A, Max.700W", so at least 24v of nominal panel))
 +    * AC200 Max.  
 + 
 +Note:  check polarity on models with 30A outlet before use;  [[https://diysolarforum.com/threads/bluetti-ac200max-reverse-polarity-on-30a-receptacle.30874/|there are reports]] the outlet may be wired incorrectly. 
 +
 +Note:  check
 +==== Ecoflow ====
 +
 +
 +  * [[https://amzn.to/3luvaPn|Ecoflow River Pro]] - 720Wh.  600w inverter (~52 minutes).  3x AC outlets.  Ciggy outlet.  2x DC jack outlets.  3x USB. 1x USB-C.  Specs do not list MPPT, but [[https://ecoflow.com/products/ecoflow-river-portable-power-station|website]] does.(("You can connect 1 110W solar panel or 2 sets of 110W solar panels in parallel"))
 +
 +Some Ecoflow models have an inverter function they call "X-boost" that appears to drop voltage in order to increase current for heavy loads:
 +
 +> The X-Boost mode is not applicable for all electrical devices. Some devices with a rated power of 600W-1200W that have strict voltage requirements are still not compatible. Please conduct a full test to confirm before usage, so it will not to affect your work. It is recommended to use electrical equipment with heating elements and with a rated power between 600-1200W, such as hair dryers, electric kettles, coffee 
 +
 +Note that the loads mentioned in X-Boost docs are resistance loads (heating coils).  
 +
 +Heads up:  there are at least two issues that may affect the Delta Pro:  [[https://diysolarforum.com/threads/exploding-delta-pros.44387/|"explosive" failure]] and [[https://www.youtube.com/watch?v=RSHQ-y35SmI|reverse polarity]].
 +
 +==== DIY solar generator ====
 +
 +[[https://amzn.to/3LJMITh|{{ https://m.media-amazon.com/images/I/71lFKh8W4AL._AC_UL320_.jpg?125}}]]
 +People who want portability or an all-in-one solution can build their own solar generator out of a [[https://amzn.to/3LJMITh|trolling battery box]] or milk crate.
 +
 +In this approach the battery, inverter, solar charge controller, and DC power ports are installed in or on the carrier. 
 +
 +  * Will  Prowse [[https://www.youtube.com/results?search_query=will+prowse+milk+crate|"milk crate" how-tos]] (YT)
 +===== quirks =====
 +
 +The [[https://amzn.to/37ySwN7|Jackery Explorer 1000]] flashlight appears to [[https://www.reddit.com/r/vandwellers/comments/jz0j7a/feature_or_bug_interesting_quirk_with_jackery/|activate one of the USB ports]] even when the USB panel is switched off. 
 +
 +The [[https://amzn.to/3g7IPcH|Jackery Explorer 500]] solar charge controller is PWM((maybe shunt)) while the 500 version 2 appears to be MPPT and capable of handling up to 30v.((https://www.youtube.com/watch?v=QqMXySbNFyw))  
 +
 +Some units are tightly focused on inverter (AC) output, and don't have big DC outlets.  The [[https://amzn.to/2I7OP8w|Bluetti EB150]], for example, [[https://www.youtube.com/watch?v=1MPW1dqulWw|maxes out at 9A DC]] and that is through the ciggy outlet. 
lifestyle/faq_solar_generator.1589987942.txt.gz · Last modified: 2020/10/11 19:48 (external edit)