How to Expand Your Black Series Solar & Lithium Power System

Article published at: Jun 21, 2026
Black Series HQ21 Balcony off-road camper with extended solar power system

There's a moment every off-grid traveler hits: you've found the perfect dispersed campsite, miles from the nearest hookup, and you want to stay a few days longer than your batteries will allow. The fix isn't moving — it's a bigger power system.

Your Black Series already arrives ready for off-grid use, but if you're stretching toward week-long boondocking, running bigger loads, or camping through short winter days, expanding your solar and lithium setup buys you real freedom. This guide walks through how to do it — what you start with, how much you actually need, and the step-by-step process — with the safety and warranty notes that keep your trailer protected along the way.

Understand Your Starting Point

Before adding anything, know what you already have. On a Base-trim Black Series, the factory off-grid system is:

  • Solar: 600W on the roof — four 150W panels.
  • Battery: A 100Ah-based bank — 200Ah (2×100Ah) on the HQ12 and the TH19/TH22 toy haulers, and 400Ah (4×100Ah) on the HQ15, HQ17, HQ19, and HQ21.
  • Inverter: A 2,000W Black Series pure sine wave inverter, with 30-amp shore power for hookup sites.

That's a genuinely capable starting point — but it's the Base configuration. The Yellow Stone trim steps up to a complete Victron-powered system with high-capacity lithium batteries and advanced solar (enough to run the trailer, including the A/C, off-grid), and the Rocky Mountain trim adds reinforced systems and full off-grid power. If you're still shopping, our breakdown of Black Series trim levels shows how power capability scales across Base, Yellow Stone, and Rocky Mountain. For the bigger picture on off-grid electrical systems, start with our primer on off-grid power for campers.

Knowing your baseline matters because every upgrade builds on it — your existing charge controller, wiring gauge, and inverter all set limits on how much you can add before those components need upgrading too.

How Much Power Do You Actually Need?

The most common mistake is buying panels and batteries by gut feel. A quick load estimate tells you the real target.

Estimate your daily energy use

List your typical loads and roughly how long each runs per day. A simplified example:

Device Power draw Hours/day Daily energy
12V fridge ~50 W avg 24 ~1,200 Wh
LED lights ~30 W 5 ~150 Wh
Water pump ~50 W 0.5 ~25 Wh
Device charging ~60 W 3 ~180 Wh
Fan / vent ~30 W 8 ~240 Wh
Daily total ~1,800 Wh

Add a rooftop air conditioner, an induction cooktop, or a CPAP and that number climbs fast — sometimes doubling. Your goal is to size battery capacity to store at least a day (ideally two) of that total, and solar to replenish it during available sunlight.

The two halves of the upgrade

  • More battery = longer time between needing sun or a recharge. The buffer for cloudy days and big loads.
  • More solar = faster recharge during the day. The engine that refills the buffer.

Most owners need both, but in different ratios depending on whether they camp in sunny open country (lean solar) or shaded forests and short winter days (lean battery).

Step-by-Step: Adding Solar

Work with the system powered down and disconnected. If you're not comfortable with DC wiring, have this done by a qualified installer or the Black Series service team.

  1. Audit your charge controller's headroom. Your existing controller has a maximum input. Confirm how much additional panel wattage it can accept before you'll need to upgrade or add a second controller.
  2. Choose panels and a mounting approach. Rooftop panels are clean and permanent; portable/folding panels let you park in shade and put panels in the sun. Many owners run a fixed array plus a portable kit via an external port.
  3. Plan the wiring run. Match wire gauge to the added current and keep runs short to minimize loss. Use proper fuses or breakers on every new circuit.
  4. Mount securely and seal. On an off-road trailer, vibration is constant — use rated mounts and seal every roof penetration thoroughly to prevent leaks.
  5. Connect through the charge controller, never directly to the battery. The controller regulates voltage and protects the batteries.
  6. Test under load. Verify charge current in real sunlight and confirm the controller is reading the array correctly.

Step-by-Step: Upgrading to (or Adding) Lithium

Lithium (LiFePO4) batteries store more usable energy, weigh less, and last far longer than lead-acid — but they have specific charging requirements you must respect.

  1. Confirm system compatibility. Lithium needs a charge profile (voltage and absorption) that matches LiFePO4. Your solar charge controller, converter, and any DC-DC charger must support a lithium profile — or be upgraded.
  2. Check the BMS. Quality lithium batteries include a Battery Management System that protects against over-charge, over-discharge, and (critically for cold climates) low-temperature charging. Don't skip this.
  3. Size for your load estimate. Use the daily-energy number from above to choose capacity, allowing for a day or two of buffer.
  4. Address cold-weather charging. LiFePO4 can be damaged if charged below freezing. If you camp in winter, choose batteries with low-temp cutoff or self-heating, and keep them in an insulated/enclosed location.
  5. Match the inverter. If you're adding AC household loads, confirm your inverter can handle them — and that your new battery bank can sustain that draw.
  6. Re-balance and test. After installation, charge fully, then run a realistic load cycle to confirm the whole system — solar in, battery storage, inverter out — works together.

Tools, Parts & Compatible Components

You'll typically need: appropriately-sized solar panels, a compatible charge controller (MPPT recommended), LiFePO4 batteries with a quality BMS, correctly-gauged wiring, fuses/breakers, rated roof mounts, sealant, and basic DC tools (crimpers, multimeter, torque wrench).

Rather than name specific part numbers — compatibility depends on your exact trim and existing components — we recommend confirming your shopping list against your trailer's current system, or letting the service team spec it for you.

Safety & Warranty: Read This First

Electrical modifications carry real risk to both safety and your warranty coverage:

  • Confirm before you modify. Contact the Black Series service team before altering the factory electrical system. Some upgrades are straightforward; others may affect warranty coverage on related components. A quick conversation up front protects you.
  • Respect the limits of factory wiring and components. Adding capacity beyond what your existing charge controller, converter, or wiring can handle isn't just ineffective — it can be dangerous.
  • When in doubt, have it installed professionally. A clean, code-correct install protects your investment and your safety.

This is exactly the kind of upgrade our service team helps owners plan every week — reach out and we'll help you get it right the first time.

FAQ

Can I add lithium batteries to my Black Series?

In most cases yes, but your charge controller, converter, and any DC-DC charger must support a LiFePO4 charge profile, and you should use batteries with a quality BMS. Confirm compatibility with your trim's existing components — and check with the service team first, since some electrical modifications can affect warranty coverage.

How much solar do I need for boondocking?

Start by estimating your daily energy use in watt-hours, then size solar to replenish that during available sunlight and battery to store at least a day or two of it. A modest setup covers a fridge, lights, and charging; running AC or an induction cooktop can double your needs. See our off-grid power guide for a fuller walkthrough.

Will upgrading my power system void my warranty?

It depends on the modification. Some upgrades are routine; others may affect coverage on related electrical components. The safe move is to contact the Black Series service team before you modify the factory system — they'll tell you what's covered and how to do it cleanly.

Can I add solar without upgrading my batteries?

You can, but the two work together — more solar refills your batteries faster, but you're still limited by how much energy those batteries can store. If you're regularly running out of power overnight, you likely need more battery capacity, not just more panels.

Is lithium worth it over the stock battery?

For serious off-grid use, usually yes. Lithium (LiFePO4) provides more usable capacity, much longer lifespan, and lighter weight than lead-acid. The trade-offs are higher upfront cost and specific charging requirements, including cold-weather precautions.

Article published at: Jun 21, 2026

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