24V 48V Solar Battery Manufacturer | LiFePO4 25.6V & 51.2V Packs

Q: Is a 24V 48V solar battery one switchable battery or two voltage configurations?

It means two separate configurations. EVANBattery supplies both 25.6V and 51.2V pack designs, not a single battery that switches between voltages. Each configuration has its own cell arrangement, BMS firmware, charge profile, and enclosure design. Standard wholesale and distribution programs order 24V models and 48V models as separate SKUs.

Q: When should a distributor stock both 24V and 48V solar batteries?

A distributor should stock both when the market spans multiple system sizes or when the catalog needs an upgrade path. 24V fits buyers installing 1-5 kW systems such as solar home kits, small backup systems, and DC equipment. 48V fits 5-15 kW installations such as residential hybrid systems, light commercial projects, and rack-mounted storage. Sourcing both from one supplier also simplifies logistics and documentation.

Q: What charger settings are needed for 25.6V and 51.2V LiFePO4 batteries?

For 25.6V 24V LiFePO4 batteries, use a 29.2V charge voltage with a CC/CV profile and select LiFePO4 or lithium mode. For 51.2V 48V LiFePO4 batteries, use a 58.4V charge voltage with the same CC/CV profile and lithium mode. Lead-acid or gel charge settings should not be used because they under-charge lithium packs and can cause progressive capacity loss.

Q: What BMS features matter most for 24V and 48V solar battery packs?

The important BMS features are cell balancing, over-current protection matched to inverter peak draw, temperature protection calibrated to the deployment climate, communication protocol compatibility such as RS485, CAN, or Bluetooth, and short-circuit response under 500 microseconds. EVANBattery designs BMS in-house so these parameters can be programmed per project.

Q: What documents are needed to import lithium solar batteries?

Minimum documents include a UN38.3 test summary for lithium battery transport classification, MSDS for customs and warehouse handling, and a commercial invoice with the correct HS code and battery specifications. European import also requires a CE declaration of conformity and IEC 62133 test report. Some markets may require additional local certification, and EVANBattery supports applications with test samples and technical data packages.

Q: What is the MOQ for EVANBattery standard and OEM/ODM models?

The MOQ is 100 units per model for standard 24V or 48V configurations with branding changes such as logo, label, carton, and manual. Custom capacity, BMS firmware, communication protocol, or enclosure changes scale by complexity. Minor BMS parameter adjustment is listed at 100-200 units, while fully custom cell configurations require higher volume and validation testing.

24V 48V Solar Battery Supply for Voltage-Ladder Programs

When you carry both 24V and 48V solar batteries, you're covering the two voltage tiers that account for the majority of residential-to-light-commercial storage demand. The question isn't whether you need both — it's whether you can source them without doubling your supplier management overhead.

We manufacture 24V 48V solar battery configurations — LiFePO4 25.6V and 51.2V packs, plus lead-acid 24V and 48V banks — on the same production floor in Zhongshan, Guangdong. Six production lines, 9,900 m² of factory space, 150 employees, and 13 years of solar battery manufacturing since 2012. As a 24V 48V solar battery manufacturer, we run both voltage classes through identical QC sequences: automated cell sorting, in-house BMS integration, full charge/discharge testing, and temperature cycling. Your 24V and 48V SKUs arrive with the same documentation format, the same packing standard, and the same batch traceability system.

Automated QC testing line processing both 24V and 48V battery packs

What "Dual Voltage" Means Here

"Dual voltage" here means supply capability — we produce both 24V and 48V configurations to your specification. It does not mean a single battery that switches between voltages. Each configuration is a distinct pack design with its own cell arrangement, BMS programming, and charge profile. If your project requires a specific switchable design, that's an engineering conversation we handle during RFQ.

Ready to Quote?

Send your voltage, capacity, chemistry, inverter model, quantity, and destination market — we'll return a model recommendation with MOQ and lead time for each voltage tier.

Request Factory Quote

Choose 24V, 48V, or Both Before You Set MOQ

This is the decision that shapes your entire catalog structure, so it's worth getting right before you commit volume. We've shipped both tiers across Europe, Africa, Southeast Asia, South America, and the Middle East since 2012, and the commercial logic breaks down cleanly.

24V Configuration

25.6V LiFePO4 / 24V Lead-Acid

Fits systems in the 1–5 kW inverter range. Lower component cost, simpler installation, and a retail price point that works in price-sensitive markets. The current draw is manageable with standard cable cross-sections and BMS ratings up to about 200A continuous.

Best Commercial Fit

Solar home kits
Weak-grid backup systems
DC-powered agricultural equipment
Budget to mid-range 24V inverters

Commercial value: Volume anchor SKU, price-competitive, fast reorder cycles

48V Configuration

51.2V LiFePO4 / 48V Lead-Acid

Fits systems above 5 kW — residential hybrid inverters, light commercial installations, rack-mounted storage, and telecom infrastructure. Higher voltage means lower current at the same power, so cable cost drops on larger systems and inverter efficiency improves.

Best Commercial Fit

Residential hybrid 5–15 kW
Light commercial installations
Rack-mount storage systems
Telecom infrastructure

Commercial value: Higher margin per unit, premium positioning, project-scale orders

Both Tiers Together: The Voltage Ladder

Both tiers together give you a voltage ladder: 24V as the entry/mid-range product and 48V as the premium or commercial product. Distributors who stock both capture a wider market without sending buyers to a competitor for the tier they don't carry. Sourcing both from one dual voltage solar battery supplier means your BMS firmware style, documentation format, packing standards, and account management stay unified.

Observed pattern: We've seen distributors try to source 24V from one factory and 48V from another — within a year, the documentation inconsistency and QC variation between suppliers creates more overhead than the perceived cost savings.

Factor	24V Configuration	48V Configuration
Best commercial fit	Solar home kits 1–5 kW, weak-grid backup, DC pumps, telecom	Residential hybrid 5–15 kW, light commercial, rack-mount, infrastructure
Inverter ecosystem	Budget to mid-range 24V inverters, widely available	Mid-range to premium 48V hybrid inverters
Current at 3 kW load	~117A (requires heavier cables, higher BMS rating)	~58A (standard cables, lower BMS stress)
Buyer risk if misapplied	Undersized for loads above 5 kW; current stress on cables and BMS	Overkill cost for small residential; fewer budget inverter options
Quote inputs needed	Chemistry, Ah, inverter model, charge profile, destination	Chemistry, kWh target, inverter brand/model, rack or standalone, destination
Commercial value	Volume anchor SKU, price-competitive, fast reorder	Higher margin per unit, premium positioning, project-scale orders

48V trade-off: 48V inverters and charge controllers cost more, which pushes your retail price point up. This tier works when your buyer's end customer values capacity and performance over upfront cost.

Send Specifications for Both Voltage Tiers 24V-Only Programs 48V-Only Programs

RFQ Planning Reference

Procurement Specs for 24V 48V Solar Battery Quotes

The table below covers typical specification parameters for both voltage tiers. These are planning values for your RFQ — actual specifications lock during quotation based on your chemistry, capacity, BMS requirements, and enclosure selection.

Parameter	24V LiFePO4 (25.6V)	48V LiFePO4 (51.2V)	Notes
Cell configuration	8S (8 cells series)	16S (16 cells series)	Parallel strings added for higher Ah
Nominal voltage	25.6V	51.2V	—
Capacity range	50Ah – 200Ah+	50Ah – 280Ah+	Custom Ah available via OEM
Energy range	1.28 – 5.12+ kWh	2.56 – 14.3+ kWh	Usable at 90–95% DoD
Max continuous discharge	50A – 200A	50A – 200A	BMS-dependent; confirm with inverter peak
Charge voltage (CC/CV)	29.2V	58.4V	Standard LiFePO4 profile
Discharge cut-off	20.0V	40.0V	BMS-programmed; adjustable
BMS protections	OVP, UVP, OCP, SCP, OTP, cell balancing	OVP, UVP, OCP, SCP, OTP, cell balancing	In-house BMS design
Communication options	RS485, CAN, Bluetooth	RS485, CAN, Bluetooth	Protocol matched to inverter brand
Enclosure options	Metal case, ABS plastic, IP65	Metal case, ABS, 19" rack-mount, IP65	Custom form factor available
Terminals	M8 bolt, Anderson, custom	M8 bolt, Anderson, busbar, custom	Confirm with system wiring
Operating temp (discharge)	-20°C to 55°C	-20°C to 55°C	—
Operating temp (charge)	0°C to 45°C	0°C to 45°C	Low-temp cutoff programmable
Cycle life (planning)	3,000 – 6,000 at 80% DoD	3,000 – 6,000 at 80% DoD	Cell grade dependent
Certifications	CE, IEC 62133, UN38.3, MSDS	CE, IEC 62133, UN38.3, MSDS	View certification details

Note: Actual dimensions, weight, BMS current limits, parallel/series rules, and detailed datasheets are confirmed during RFQ based on your inverter model, installation environment, and order quantity. Send your 24V 48V battery specification for exact values.

Lead-Acid 24V & 48V Bank Configurations

For lead-acid (gel/AGM) 24V and 48V bank configurations, we supply standard deep-cycle batteries that can be series-connected to reach the target voltage. These are configurable supply paths rather than integrated BMS packs — contact us with your bank architecture and we'll confirm model availability.

Deeper Technical Coverage

LiFePO4 Solar Battery — chemistry-level specifications
48V LiFePO4 Solar Battery — voltage-specific technical detail

Warranty Cost Control

Cell Matching, BMS Settings, and Charger Fit Reduce Field Returns

The most expensive battery in your catalog is the one that generates a warranty claim. After 13 years of shipping 24V and 48V packs across five export regions, we've mapped the failure modes that actually drive field returns — and almost none of them are cell failures. They're system integration failures.

Automated cell sorting and BMS integration process for 24V 48V solar battery packs

Charge Profile Mismatch — Top Cause of Returns

Field failure #1

A 51.2V LiFePO4 pack connected to an inverter still set to "lead-acid 48V" mode charges at 56.4V instead of 58.4V. The pack never reaches full capacity, the BMS never triggers balancing, and within months the cells drift apart. The buyer's customer sees declining runtime and files a warranty claim.

Our prevention: We confirm your inverter or charger model during RFQ and program BMS charge parameters to match. If your system uses a Growatt, Deye, Victron, or any other specific inverter brand, tell us — we'll verify protocol compatibility and charge curve alignment before production starts.

Cell Sorting Precision

Cell sorting precision determines whether your 500-unit batch performs uniformly or develops scattered failures at month 8. We sort every cell through automated equipment that groups by actual measured voltage (within 20mV) and internal resistance (within 5mΩ).

On a 16S 48V pack, that's 16 cells that need to age together — if one cell is weaker, it hits the BMS under-voltage cutoff first and the entire pack shuts down prematurely.

±20mV voltage match ±5mΩ IR match Predictable degradation curves

Tight sorting at the front end means predictable degradation curves across your entire shipment, which means your warranty cost stays calculable rather than random.

BMS Protection Thresholds

BMS protection thresholds need to match deployment conditions, not just cell chemistry. A 24V pack going into a rooftop cabinet in Lagos needs a higher temperature cutoff than one installed in a German basement. A 48V pack feeding a 10 kW inverter needs a higher over-current threshold than one paired with a 5 kW unit.

We design and manufacture BMS boards in-house — protection parameters are programmed per-project, not pulled from a generic module datasheet. This is the difference between a BMS that protects your cells and one that either nuisance-trips (annoying end users) or fails to protect (destroying cells).

The in-house BMS capability is also why we can offer communication protocol matching — RS485, CAN, or Bluetooth — to specific inverter monitoring platforms. Generic third-party BMS boards rarely support this without firmware modification.

QC Sequence for Both Voltage Tiers

Every batch carries traceable data. If a field issue surfaces, we trace it to the cell lot and BMS firmware version within hours.

01 Incoming cell inspection

02 Automated sorting & matching

03 Pack assembly

04 BMS integration & function test

05 OC/OD/SC protection verification

06 Capacity test

07 Charge/discharge cycling

08 55°C high-temperature soak

09 -20°C low-temperature discharge

10 Safety testing

11 Final inspection

12 Packing

For buyers building complete battery-and-charger packages, our 24V Solar Battery Charger page covers charger pairing, MPPT controller matching, and kit assembly options.

Market Intelligence

Market Segments Where 24V and 48V SKUs Sell Together

The commercial case for carrying both voltage tiers isn't theoretical — these are the segments where existing buyers reorder both 24V and 48V configurations on a regular cycle.

Distributor Voltage Ladder Programs

You stock 24V as your entry-to-mid product (solar home kits, small backup systems, DC-powered equipment) and 48V as your premium/commercial product (residential hybrid storage, rack-mounted systems, higher-power installations).

Your sales team offers an upgrade path within your own catalog instead of losing the customer to a competitor who carries the higher tier.

Sourcing advantage: One quality standard, one set of compliance documents, and one logistics coordination point when both voltage tiers come from a single 24V 48V solar battery wholesale supplier.

Off-Grid and Weak-Grid Dealers with Upgrade Paths

Your initial sale is a 24V kit for a household or small business. When that customer's load grows — they add a refrigerator, a workshop tool, or a second building — they need more capacity or a voltage upgrade.

If you carry 48V, you capture the upgrade sale. If you don't, they go elsewhere.

Key markets: This pattern is heavily observed in African and Southeast Asian markets where electrification is incremental.

Telecom and Light Infrastructure Contractors

Project specifications vary by site. A rural cell tower might spec 24V DC bus (legacy equipment), while a newer urban site specs 48V.

Contractors who bid on mixed-site programs need a supplier who can deliver both voltage classes with consistent quality and documentation.

Bid competitiveness: Your bid improves when you can guarantee supply for both specs from one source.

Agricultural and Small Commercial System Integrators

Pump controllers, cold storage, greenhouse automation, and workshop power. Some installations fit 24V (single pump, lighting, monitoring), others need 48V (multiple loads, higher-power inverter, expansion headroom).

Your project pipeline includes both — sourcing both from one factory simplifies your bill of materials and reduces the risk of voltage-mismatched deliveries.

Regional Distributors Entering New Market Tiers

If you've been selling 24V into residential and want to expand into light commercial (schools, clinics, small offices), 48V is the natural next product.

We help you spec the 48V configuration that complements your existing 24V line — same enclosure family, same documentation style, same BMS communication platform — so your downstream customers see a coherent product range.

Regional distributor expanding from 24V residential to 48V light commercial solar battery product range

Ready to build your voltage-ladder catalog?

Send your volume split and target segments — we'll recommend a SKU mix that covers your market without over-stocking.

Get SKU Recommendation

OEM/ODM Engineering

OEM/ODM Scope for 24V 48V Solar Battery Programs

When you source both voltage tiers as OEM/ODM, the engineering efficiency compounds. Your 24V and 48V products can share enclosure tooling, BMS hardware platforms, documentation templates, and packing formats — reducing your per-SKU development cost compared to sourcing each tier from a different factory.

Your private-label catalog gains a coherent 24V-to-48V product family from one OEM/ODM solar battery engineering partner. Fewer supplier handoffs, consistent quality across tiers, and better charger/inverter compatibility control because one BMS team manages both voltage classes.

OEM/ODM engineering for 24V and 48V solar battery programs sharing enclosure tooling and BMS platforms

What's Configurable Across Both Voltage Tiers

Voltage & Capacity

Any practical cell arrangement — 8S for 25.6V, 16S for 51.2V, with parallel strings scaled to your Ah target. Non-standard configurations (e.g., 25.6V 150Ah or 51.2V 280Ah) are production-validated before first shipment.

BMS Current & Protection

Continuous discharge rating matched to your inverter's peak demand. Over-voltage, under-voltage, over-current, short-circuit, and temperature thresholds programmed per-model.

Communication Protocol

RS485, CAN bus, or Bluetooth — matched to your inverter brand's monitoring platform. Modbus RTU, custom register maps, or proprietary protocols supported with sufficient technical documentation from the inverter manufacturer.

Enclosure & Form Factor

Shared enclosure family across 24V and 48V (same external dimensions, different internal cell arrangement) or distinct designs per tier. Metal, ABS, IP65, wall-mount, floor-stand, or 19" rack-insert.

Terminals & Connectors

M8 bolt, Anderson, MC4-style, busbar, or custom connector to match your system wiring standard.

Branding

Logo, color, model number, serial number format, carton design, user manual, warranty card, and QC sticker — applied to both voltage tiers under your brand identity.

Carton & Pallet Labeling

Destination-market language, barcode format, handling marks, and UN dangerous goods labels per your import requirements.

MOQ Structure

1

Standard Configurations + Branding

100 units per model. Branding-only changes are simpler and faster than custom pack layouts or new BMS firmware.

2

Custom Cell Arrangements or BMS Firmware

Higher volume required — we quote the exact threshold during RFQ so you can plan your initial order against landed cost targets.

3

Market Testing Strategy

Start with a standard model under your label and move to full custom once volume justifies it.

The Commercial Value

Coherent 24V-to-48V product family from one engineering partner
Fewer supplier handoffs across voltage tiers
Consistent quality across 24V and 48V configurations
Better charger/inverter compatibility — one BMS team manages both voltage classes

Start Your OEM/ODM Specification

Tell us your monthly volume per tier, target retail segment, branding scope, inverter models, and documentation needs. We'll return feasibility, MOQ per model, development timeline, and a sample plan.

Send OEM/ODM Spec

Export Documents, Packing, and Landed-Cost Planning

Lithium batteries are classified dangerous goods for transport. Missing or incorrect documentation doesn't just delay your shipment — it can result in port rejection, re-routing charges, or warehouse refusal at destination. We treat compliance documentation as part of production, not as paperwork you chase after the container is sealed.

Documents Provided With Every Shipment

For OEM/ODM models, we generate model-specific UN38.3 and MSDS during the development phase so documentation ships with your first production order.

UN38.3 Test Summary Lithium battery transport classification — required by IATA and IMDG

MSDS Material safety data for customs declaration and warehouse handling

CE Declaration of Conformity European market compliance declaration

IEC 62133 Test Report Battery safety certification

ISO 9001:2015 Certificate Manufacturing system quality management

View our certification details

OEM/ODM note: Model-specific UN38.3 and MSDS are generated during the development phase, so documentation ships with your first production order — no delays waiting for paperwork after production completes.

Battery Packing Standards

Terminal Insulation Caps On every unit — short-circuit prevention during transit

Reinforced Double-Wall Cartons Rated for actual gross weight

Foam Dividers / Molded Inserts Between units for impact protection

Individual Poly-Bag Wrapping Moisture protection for each unit

Palletization Stretch wrap and corner protectors

Carton Marks UN number, proper shipping name, net quantity, handling orientation

We test carton drop performance at 1.2m to simulate handling during port transfer. After one early shipment where a buyer's freight forwarder stacked pallets three-high without our knowledge, we switched to reinforced corner protectors as standard — the cost is negligible compared to a damage claim.

Why We Don't Publish Fixed Container Quantities

A 24V 100Ah LiFePO4 in an ABS case weighs and measures differently than a 48V 200Ah in a metal rack-mount enclosure. Mixed-voltage shipments (24V and 48V in the same container) require careful weight distribution and loading sequence planning.

Once your order spec is confirmed, we provide:

Gross weight per carton
Carton dimensions
CBM per unit
Recommended pallet layout
Container loading plan for 20GP or 40HQ

This lets you calculate freight cost per unit and compare FOB vs. CIF options accurately.

Container loading plan for mixed 24V and 48V solar battery shipments

Export Markets

Europe, Southeast Asia, Africa, South America, and the Middle East. Each region has labeling preferences, documentation formats, and packing expectations we've refined through repeat shipments.

Europe Southeast Asia Africa South America Middle East

Learn About Shipping & Delivery Request Quote With Packing Estimate

Related Voltage Pages if Your System Spec Is Still Moving

If you landed on this page but your voltage decision isn't final — or your project requires a different configuration than what's covered here — these pages carry deeper detail on specific tiers:

24V Solar Battery

The parent category for all 24V sourcing. Covers the full 24V specification range, chemistry comparison (LiFePO4 vs. gel vs. AGM), market segment analysis, and OEM/ODM scope for 24V-only programs. Start here if you're committed to 24V and want the complete sourcing picture.

Category Page

24V Solar Battery Charger

For buyers building complete 24V kits that include chargers, MPPT controllers, or inverter-charger combos. Covers charge profile matching, charger compatibility, and single-SKU kit assembly. If you're bundling battery + charger under one model number, this page has the pairing logic.

Product Page

48V Solar Battery

The category page for 48V-only programs. Covers commercial storage, rack-mounted systems, and higher-power residential hybrid installations. If your program is exclusively 48V and you don't need the 24V tier, start there.

Category Page

48V LiFePO4 Solar Battery

Product-level detail on 51.2V lithium packs specifically. Deeper technical coverage of 16S cell configurations, rack-mount form factors, and commercial-grade BMS features. For buyers who've already decided on 48V lithium and need specification-level information.

Product Page

Each page fits a different procurement decision. If you're still comparing, send us your project parameters and we'll recommend the right voltage tier based on your inverter, load profile, and target market.

Send Project Parameters

Sourcing FAQ

FAQ for 24V 48V Solar Battery Sourcing

Common technical and commercial questions from distributors evaluating dual-voltage LiFePO4 programs.

What is the difference between a 24V and 48V solar battery system?

The core difference is DC bus voltage, which determines inverter compatibility, current draw, and cable sizing. A 24V system (25.6V LiFePO4) pairs with 24V inverters in the 1–5 kW range and draws higher current at a given power output. A 48V system (51.2V LiFePO4) pairs with 48V inverters typically 5–15 kW and draws half the current at the same power, reducing cable cost and BMS stress.

24V Configuration

25.6V nominal (8S LiFePO4)
1–5 kW inverter range
Price-sensitive residential & small off-grid

48V Configuration

51.2V nominal (16S LiFePO4)
5–15 kW inverter range
Premium residential & light commercial

For your catalog, 24V targets price-sensitive residential and small off-grid markets; 48V targets premium residential and light commercial. The cell chemistry is identical — the difference is series count (8S vs. 16S) and BMS programming.

Is a 24V 48V solar battery one switchable battery or two voltage configurations?

Two separate configurations. When we say "24V 48V solar battery," we mean our factory supplies both 25.6V and 51.2V pack designs — not a single battery that switches between voltages. Each configuration has its own cell arrangement, BMS firmware, charge profile, and enclosure design.

If you need a specific switchable architecture (some exist for niche applications), describe the requirement in your RFQ and our engineering team will assess feasibility.

For standard wholesale and distribution programs, you order 24V models and 48V models as separate SKUs.

When should a distributor stock both 24V and 48V solar batteries?

When your market spans multiple system sizes or you want an upgrade path within your own catalog. Stock 24V if your buyers install 1–5 kW systems (solar home kits, small backup, DC equipment). Add 48V when your buyers also serve 5–15 kW installations (residential hybrid, light commercial, rack-mounted storage).

The voltage ladder lets your sales team upsell within your brand instead of losing the customer to a competitor. Sourcing both from one dual voltage solar battery supplier also simplifies your logistics — one container can carry both tiers with unified documentation.

Single supplier logistics

In-brand upsell path

Unified documentation

What charger settings are needed for 25.6V and 51.2V LiFePO4 batteries?

25.6V (24V LiFePO4)

Charge voltage 29.2V, CC/CV profile. Set charger or inverter to "LiFePO4" or "lithium" mode.

51.2V (48V LiFePO4)

Charge voltage 58.4V, same CC/CV profile and lithium mode selection.

Never use lead-acid or gel charge settings

These under-charge lithium packs and cause progressive capacity loss over cycling.

Our BMS is programmed to match specific inverter charge curves. Include your inverter model in your RFQ and we'll confirm compatibility or flag settings that need adjustment.

For complete charger pairing guidance, see our 24V Solar Battery Charger page.

What BMS features matter most for 24V and 48V solar battery packs?

Five features separate a reliable BMS from a liability:

1 Cell Balancing

Active or passive balancing that keeps all cells within 50mV during cycling, preventing premature capacity loss.

2 Over-Current Protection

Matched to your inverter's peak draw — set too low and you get nuisance shutdowns; too high and you risk cell damage.

3 Temperature Protection

Calibrated to deployment climate — tropical installations need different thresholds than temperate ones.

4 Communication Protocol

Compatible with your inverter's monitoring system — RS485, CAN, or Bluetooth with correct register mapping.

5 Short-Circuit Response

Response time under 500μs to prevent thermal events.

We design BMS in-house, so all five parameters are programmed per-project rather than defaulting to generic values.

What documents are needed to import lithium solar batteries?

Minimum required: UN38.3 test summary (transport classification for lithium batteries), MSDS (material safety data sheet for customs and warehouse handling), commercial invoice with correct HS code and battery specifications.

For European import: add CE declaration of conformity and IEC 62133 test report. Some markets require additional local certification (e.g., BIS for India, SASO for Saudi Arabia) — we support applications with test samples and technical data packages.

All standard models ship with current certification documents. OEM/ODM models receive model-specific reports during development so documentation is ready for your first production shipment.

What is the MOQ for EVANBattery standard and OEM/ODM models?

100 units per model for standard 24V or 48V configurations with branding changes (logo, label, carton, manual). This applies to existing cell arrangements with no engineering modifications.

For custom capacity, BMS firmware, communication protocol, or enclosure changes, MOQ scales with complexity:

Minor BMS parameter adjustment

100–200 units

Fully custom cell configuration

Higher volume (new validation testing required)

We quote exact MOQ during the RFQ process so you can calculate landed cost per unit before committing.

Typical path: Most buyers start with a standard model under their brand at 100 units, validate with their market, then move to full custom on the second or third order.

Final Step: Submit Your RFQ

Send Voltage, Capacity, and Inverter Data for a Factory Quote

You've seen the specification range, the QC process, and the OEM scope. Now send us the details and we'll respond with a technical recommendation, model match, MOQ confirmation, and quotation for each voltage tier.