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JIEYO Stackable Energy Storage Battery

JIEYO Stackable Energy Storage Battery

The JIEYO Stackable Energy Storage Battery is a modular, high-safety LiFePO₄ storage system engineered for residential and light-commercial solar applications. Each 51.2 V module provides approximately 5.12 kWh of usable energy, and modules stack vertically to scale from 5 kWh up to 25 kWh (and beyond in multi-stack arrays). With LFP chemistry, 6000+ cycle life, and CAN/RS485/RS232 communications to mainstream hybrid inverters, it is the practical core of an off-grid, hybrid, or on-grid backup system.

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JIEYO Stackable Energy Storage Battery

JIEYO Stackable Energy Storage Battery — 48 V / 51.2 V LiFePO₄, 5 kWh–25 kWh, CAN/RS485, 6000+ Cycles

The JIEYO Stackable Energy Storage Battery is a modular, high-safety LiFePO₄ storage system engineered for residential and light-commercial solar applications. Each 51.2 V module provides approximately 5.12 kWh of usable energy, and modules stack vertically to scale from 5 kWh up to 25 kWh (and beyond in multi-stack arrays). With LFP chemistry, 6000+ cycle life, and CAN/RS485/RS232 communications to mainstream hybrid inverters, it is the practical core of an off-grid, hybrid, or on-grid backup system.

High-Performance LFP Platform (48 V / 51.2 V)

  • Chemistry: Lithium Iron Phosphate (LiFePO₄ / LFP) for inherently stable thermal behavior and long service life.

  • Nominal module voltage: 51.2 V (16S LFP).

  • Energy per module: ≈ 5.12 kWh; stack 1–5 modules for ≈ 5–25 kWh.

  • Cycle life: 6000+ cycles (typical residential depth-of-discharge), supporting 10+ years of daily use.

  • Round-trip efficiency: high (> 95% typical), reducing system losses and improving PV self-consumption.

  • Low self-discharge: holds charge well during seasonal or emergency standby.

Why LFP for home storage? Compared with NMC and lead-acid, LFP offers superior cycle life, better thermal stability, and flatter voltage curves, which translate into predictable performance and lower lifetime cost per kWh.

True Stackable, Tool-Lite Installation

  • Vertical stack design: modules align and lock mechanically; an upper control/BMS pack manages the whole stack.

  • Floor-standing or cabinet/rack options: fits utility rooms, garages, equipment closets, or inverter walls.

  • Quick electrical interconnects: short, labeled DC busbars/cables minimize wiring time and error.

  • Expandable later: start at 5 kWh and expand to 10/15/20/25 kWh as loads grow—no redesign required.

  • Clean footprint: narrow depth for tight spaces; front service access simplifies maintenance.

Smart BMS & System Communications

  • Pack monitoring: real-time voltage, current, temperature, and state-of-charge with cell balancing.

  • Protections: over/under-voltage, over-current, short-circuit, over/under-temperature, and charge/discharge cutoff.

  • Interfaces: CAN / RS485 / RS232 for closed-loop communication to hybrid inverters and energy gateways.

  • Event logging: aids diagnostics and after-sales service; supports firmware updates (where applicable).

  • Compatibility: suitable for off-grid, hybrid-grid, and on-grid topologies; inverter brand maps available on request.

Grid Connection Modes

  • Off-grid: pair with a compatible hybrid/off-grid inverter for autonomous power where no utility is present.

  • Hybrid grid: self-consumption, peak-shaving, and time-of-use arbitrage; charge from PV by day, discharge at peak.

  • On-grid backup: maintain essential circuits during outages using an ATS/backup output from the inverter (per local code).

Mechanical & Environmental Engineering

  • Protection class: options up to IP54–IP65 (model-dependent), resisting dust and incidental moisture.

  • Cooling: air-cooled thermal path designed for quiet operation and long life.

  • Enclosure: steel or alloy shell with powder-coat finish; corner reinforcement for logistics and on-site handling.

  • Serviceability: modular architecture allows replacement at module level to minimize downtime.

Safety by Design

  • Cell-level LFP safety with ceramic separators and prismatic/EV-grade cells.

  • Pack fusing & contactors with pre-charge circuits to protect busbars and inverter DC link.

  • Isolation & insulation tested to relevant standards; creep distances respected for high-voltage stacks.

  • Compliance documentation: CE / RoHS / MSDS / UN38.3 available for logistics and market entry.

Typical Electrical Characteristics*

(*Values vary by configuration; ask for the exact datasheet for your market.)

  • Nominal voltage: 51.2 V per module; multi-module stacks managed by BMS.

  • Usable energy: ≈ 5.12 kWh per module; 10–25 kWh in 2–5 module stacks.

  • Recommended C-rate: 0.5 C continuous; 1 C peak capability depending on inverter and ambient conditions.

  • DoD window: 90–100% configurable; standard warranty tied to recommended DoD.

  • Round-trip efficiency: > 95% typical with modern hybrids.

  • Temperature: charge 0–45 °C, discharge −10–55 °C (typ.); store at 15–30 °C for best life.

  • Communications: CAN / RS485 / RS232 with vendor-specific protocols selectable via DIP/firmware.

Use Cases

  • Residential PV self-consumption: store daytime solar to cover evening peaks; raise PV utilization.

  • Backup power: keep routers, lighting, computers, security systems, fridges and circulation pumps running during outages.

  • Peak-shaving & TOU: charge off-peak, discharge on-peak to reduce bills.

  • Small C&I micro-grids: stabilize loads in retail, workshops, telecom shelters, and remote cabins.

  • RV/Marine cabins & lodges: stationary stacks can support longer stays with quiet, fuel-free energy.

System Sizing Examples (Illustrative)

  • 5 kWh (1× module): small apartments, routers/IT + lighting + intermittent appliance backup.

  • 10 kWh (2×): typical 3–5 kW hybrid inverter for evening consumption and brief outages.

  • 15 kWh (3×): longer autonomy for fridges, work-from-home setups, and pumps.

  • 20–25 kWh (4–5×): extended backup for larger homes; pairs well with 8–12 kW PV arrays and 8–10 kW hybrids.

For runtime planning, a quick estimate is:
Runtime (h) ≈ Capacity (Wh) × DoD × system efficiency / average load (W).
At 25 kWh with 90% DoD and 92% system efficiency, you have ≈ 20.7 kWh usable—enough for ~20 hours at 1 kW average.

Installation & Commissioning Notes

  1. Inverter pairing: choose an inverter with a supported CAN/RS485 profile; set battery type to LFP and select the JIEYO (or compatible) profile.

  2. DC wiring: observe polarity and torque specs; use appropriately rated DC isolators and fuses per code.

  3. Grounding: bond enclosure and rack per local electrical code.

  4. Ventilation: allow front/side clearance for airflow; avoid sealed cabinets in high-ambient rooms.

  5. Firmware & BMS addressing: when stacking, set DIP addresses in ascending order; verify on the inverter screen/app.

  6. Commissioning: charge to 100% on first run to sync SOC and perform BMS balancing.

Maintenance & Storage

  • Periodic checks: confirm torque on busbars, inspect vent paths, and review BMS logs.

  • Long-term storage: keep at 40–60% SOC; top up every 2–3 months.

  • Firmware: apply updates via approved channels when new inverter profiles or optimizations are released.

  • Owner practice: avoid extreme heat or sustained high-C discharges to maximize life.

What’s in the Stack (Typical)

  • 51.2 V LFP battery modules (quantity per order)

  • Upper BMS/control module with display/indicators

  • Base plate / stacking frame, inter-module busbars & fasteners

  • CAN/RS485 communication cable to inverter, DC power cables (model-dependent)

  • User manual & quick-start guide; installation kit
    (Contents vary by region and selected accessories.)

Certifications & Quality

  • Safety and transport: MSDS & UN38.3

  • Market compliance: CE / RoHS (others available on request)

  • Factory QA: incoming cell screening, cell matching, module aging tests, and full functional tests with BMS logging

OEM / ODM Services

  • Branding & labeling: logo, color accents, nameplates, packaging

  • Electrical options: cable lengths, PV/communication connectors, fuse ratings, shut-down interface

  • Mechanical variants: rack-mount kits, wall-mount brackets, dust-filters for harsher sites

  • Protocol mapping: CAN/RS485 profiles for specific inverter brands; integration guides for installers

Key Attributes (Snapshot)

  • Battery type: LiFePO₄ (LFP)

  • Model family: JY-S5000 / HV stack (regional naming may vary)

  • Place of origin: Guangdong, China

  • Grid connection: Off-grid, Hybrid grid, On-grid (via compatible inverter)

  • Protection class: up to IP54–IP65 (by configuration)

  • Cooling: Air cooling

  • Cycle life: 6000 cycles (typ.)

  • Communication ports: RS485 / CAN / RS232

  • OEM/ODM: Acceptable

  • Usage: Industrial / Commercial / Residential energy storage

Weights and dimensions depend on module count; sample single-module weights are typically in the 40–50 kg range, with total stack mass increasing linearly.

Who It’s For

  • Homeowners wanting quiet, safe solar storage with room to grow

  • Installers standardizing on a 51.2 V stack platform that scales from single homes to small businesses

  • Project buyers needing documented, certifiable LFP storage with CAN/RS485 integration

  • Energy-resilience users seeking peak-shaving, backup, and self-consumption in one system

説明

JIEYO Stackable Energy Storage Battery — 48 V / 51.2 V LiFePO₄, 5 kWh–25 kWh, CAN/RS485, 6000+ Cycles

The JIEYO Stackable Energy Storage Battery is a modular, high-safety LiFePO₄ storage system engineered for residential and light-commercial solar applications. Each 51.2 V module provides approximately 5.12 kWh of usable energy, and modules stack vertically to scale from 5 kWh up to 25 kWh (and beyond in multi-stack arrays). With LFP chemistry, 6000+ cycle life, and CAN/RS485/RS232 communications to mainstream hybrid inverters, it is the practical core of an off-grid, hybrid, or on-grid backup system.

High-Performance LFP Platform (48 V / 51.2 V)

  • Chemistry: Lithium Iron Phosphate (LiFePO₄ / LFP) for inherently stable thermal behavior and long service life.

  • Nominal module voltage: 51.2 V (16S LFP).

  • Energy per module: ≈ 5.12 kWh; stack 1–5 modules for ≈ 5–25 kWh.

  • Cycle life: 6000+ cycles (typical residential depth-of-discharge), supporting 10+ years of daily use.

  • Round-trip efficiency: high (> 95% typical), reducing system losses and improving PV self-consumption.

  • Low self-discharge: holds charge well during seasonal or emergency standby.

Why LFP for home storage? Compared with NMC and lead-acid, LFP offers superior cycle life, better thermal stability, and flatter voltage curves, which translate into predictable performance and lower lifetime cost per kWh.

True Stackable, Tool-Lite Installation

  • Vertical stack design: modules align and lock mechanically; an upper control/BMS pack manages the whole stack.

  • Floor-standing or cabinet/rack options: fits utility rooms, garages, equipment closets, or inverter walls.

  • Quick electrical interconnects: short, labeled DC busbars/cables minimize wiring time and error.

  • Expandable later: start at 5 kWh and expand to 10/15/20/25 kWh as loads grow—no redesign required.

  • Clean footprint: narrow depth for tight spaces; front service access simplifies maintenance.

Smart BMS & System Communications

  • Pack monitoring: real-time voltage, current, temperature, and state-of-charge with cell balancing.

  • Protections: over/under-voltage, over-current, short-circuit, over/under-temperature, and charge/discharge cutoff.

  • Interfaces: CAN / RS485 / RS232 for closed-loop communication to hybrid inverters and energy gateways.

  • Event logging: aids diagnostics and after-sales service; supports firmware updates (where applicable).

  • Compatibility: suitable for off-grid, hybrid-grid, and on-grid topologies; inverter brand maps available on request.

Grid Connection Modes

  • Off-grid: pair with a compatible hybrid/off-grid inverter for autonomous power where no utility is present.

  • Hybrid grid: self-consumption, peak-shaving, and time-of-use arbitrage; charge from PV by day, discharge at peak.

  • On-grid backup: maintain essential circuits during outages using an ATS/backup output from the inverter (per local code).

Mechanical & Environmental Engineering

  • Protection class: options up to IP54–IP65 (model-dependent), resisting dust and incidental moisture.

  • Cooling: air-cooled thermal path designed for quiet operation and long life.

  • Enclosure: steel or alloy shell with powder-coat finish; corner reinforcement for logistics and on-site handling.

  • Serviceability: modular architecture allows replacement at module level to minimize downtime.

Safety by Design

  • Cell-level LFP safety with ceramic separators and prismatic/EV-grade cells.

  • Pack fusing & contactors with pre-charge circuits to protect busbars and inverter DC link.

  • Isolation & insulation tested to relevant standards; creep distances respected for high-voltage stacks.

  • Compliance documentation: CE / RoHS / MSDS / UN38.3 available for logistics and market entry.

Typical Electrical Characteristics*

(*Values vary by configuration; ask for the exact datasheet for your market.)

  • Nominal voltage: 51.2 V per module; multi-module stacks managed by BMS.

  • Usable energy: ≈ 5.12 kWh per module; 10–25 kWh in 2–5 module stacks.

  • Recommended C-rate: 0.5 C continuous; 1 C peak capability depending on inverter and ambient conditions.

  • DoD window: 90–100% configurable; standard warranty tied to recommended DoD.

  • Round-trip efficiency: > 95% typical with modern hybrids.

  • Temperature: charge 0–45 °C, discharge −10–55 °C (typ.); store at 15–30 °C for best life.

  • Communications: CAN / RS485 / RS232 with vendor-specific protocols selectable via DIP/firmware.

Use Cases

  • Residential PV self-consumption: store daytime solar to cover evening peaks; raise PV utilization.

  • Backup power: keep routers, lighting, computers, security systems, fridges and circulation pumps running during outages.

  • Peak-shaving & TOU: charge off-peak, discharge on-peak to reduce bills.

  • Small C&I micro-grids: stabilize loads in retail, workshops, telecom shelters, and remote cabins.

  • RV/Marine cabins & lodges: stationary stacks can support longer stays with quiet, fuel-free energy.

System Sizing Examples (Illustrative)

  • 5 kWh (1× module): small apartments, routers/IT + lighting + intermittent appliance backup.

  • 10 kWh (2×): typical 3–5 kW hybrid inverter for evening consumption and brief outages.

  • 15 kWh (3×): longer autonomy for fridges, work-from-home setups, and pumps.

  • 20–25 kWh (4–5×): extended backup for larger homes; pairs well with 8–12 kW PV arrays and 8–10 kW hybrids.

For runtime planning, a quick estimate is:
Runtime (h) ≈ Capacity (Wh) × DoD × system efficiency / average load (W).
At 25 kWh with 90% DoD and 92% system efficiency, you have ≈ 20.7 kWh usable—enough for ~20 hours at 1 kW average.

Installation & Commissioning Notes

  1. Inverter pairing: choose an inverter with a supported CAN/RS485 profile; set battery type to LFP and select the JIEYO (or compatible) profile.

  2. DC wiring: observe polarity and torque specs; use appropriately rated DC isolators and fuses per code.

  3. Grounding: bond enclosure and rack per local electrical code.

  4. Ventilation: allow front/side clearance for airflow; avoid sealed cabinets in high-ambient rooms.

  5. Firmware & BMS addressing: when stacking, set DIP addresses in ascending order; verify on the inverter screen/app.

  6. Commissioning: charge to 100% on first run to sync SOC and perform BMS balancing.

Maintenance & Storage

  • Periodic checks: confirm torque on busbars, inspect vent paths, and review BMS logs.

  • Long-term storage: keep at 40–60% SOC; top up every 2–3 months.

  • Firmware: apply updates via approved channels when new inverter profiles or optimizations are released.

  • Owner practice: avoid extreme heat or sustained high-C discharges to maximize life.

What’s in the Stack (Typical)

  • 51.2 V LFP battery modules (quantity per order)

  • Upper BMS/control module with display/indicators

  • Base plate / stacking frame, inter-module busbars & fasteners

  • CAN/RS485 communication cable to inverter, DC power cables (model-dependent)

  • User manual & quick-start guide; installation kit
    (Contents vary by region and selected accessories.)

Certifications & Quality

  • Safety and transport: MSDS & UN38.3

  • Market compliance: CE / RoHS (others available on request)

  • Factory QA: incoming cell screening, cell matching, module aging tests, and full functional tests with BMS logging

OEM / ODM Services

  • Branding & labeling: logo, color accents, nameplates, packaging

  • Electrical options: cable lengths, PV/communication connectors, fuse ratings, shut-down interface

  • Mechanical variants: rack-mount kits, wall-mount brackets, dust-filters for harsher sites

  • Protocol mapping: CAN/RS485 profiles for specific inverter brands; integration guides for installers

Key Attributes (Snapshot)

  • Battery type: LiFePO₄ (LFP)

  • Model family: JY-S5000 / HV stack (regional naming may vary)

  • Place of origin: Guangdong, China

  • Grid connection: Off-grid, Hybrid grid, On-grid (via compatible inverter)

  • Protection class: up to IP54–IP65 (by configuration)

  • Cooling: Air cooling

  • Cycle life: 6000 cycles (typ.)

  • Communication ports: RS485 / CAN / RS232

  • OEM/ODM: Acceptable

  • Usage: Industrial / Commercial / Residential energy storage

Weights and dimensions depend on module count; sample single-module weights are typically in the 40–50 kg range, with total stack mass increasing linearly.

Who It’s For

  • Homeowners wanting quiet, safe solar storage with room to grow

  • Installers standardizing on a 51.2 V stack platform that scales from single homes to small businesses

  • Project buyers needing documented, certifiable LFP storage with CAN/RS485 integration

  • Energy-resilience users seeking peak-shaving, backup, and self-consumption in one system

追加情報

Power Source

AC adaptor · Car · Solar panel · Gas generator
バッテリータイプ

LiFePO₄
Inverter Type

Pure sine wave
Model Number

JY1K5376
Brand Name

JIEYO
Place of Origin

Guangdong, China
Controller Type

MPPT
System Voltage

51.2 V
Battery Capacity

5376 Wh
Rated Power

5000 W
AC Output

2×AC outlets · 220V/50Hz or 110V/60Hz · 5000 W
DC Output

2×USB-A QC3.0 (18W) · 2×USB-C PD (36W) · Cigar lighter/RV port
Built-in Inverter

Yes
Cycle Life

6000 cycles
Weight

100 kg
Special Features

Type-C · Cigar lighter · RV port
Certifications

CE · FCC · RoHS · MSDS · UN38.3
申し込み

Home backup · Outdoor · Emergency · Camping
JIEYO

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