Rack-154 is the high-capacity flagship of the PBH rack battery series, delivering a massive 153.6 kWh of energy storage within a triple-wide 19-inch rack format. Designed for utility-scale density in indoor environments, this system utilizes a 768V high-voltage architecture and high-capacity 200Ah prismatic LFP cells to provide a 2C continuous discharge capability. By paralleling up to 7 units, facility managers can achieve over 1 MWh (1,075 kWh) of storage, effectively bridging the gap between traditional commercial racks and large-scale outdoor containerized systems.
Utility Density, Indoor Footprint: At 153.6 kWh per unit, this unit doubles the energy density of the standard 768100 model. This allows for megawatt-hour class storage without the permitting hurdles, site preparation, or specialized concrete pads required for outdoor containerized BESS.
Capital Protection (Non-FEOC): In accordance with the One Big Beautiful Bill Act (OBBBA) of 2025, the PBH-768200 is verified non-FEOC compliant. For projects beginning construction in 2026, this status is critical to meeting the 55% non-FEOC content threshold required to qualify for the Section 48E Investment Tax Credit (ITC) and avoid the 10-year recapture penalties.
High-Performance 2C Discharge: The 200Ah cell architecture supports rapid energy delivery, making it ideal for aggressive peak shaving, heavy industrial load leveling, and mission-critical “Black Start” applications where high power-to-energy ratios are required.
Engineered with a multi-layered safety and thermal management architecture specifically designed for the massive energy density (153.6 kWh) of a triple-wide indoor rack. At this scale, maintaining a stable temperature is critical; for every 8°C increase above the optimal 25°C, battery life can be reduced by up to 50%. To combat this, the PBH-768200 utilizes active fan cooling and a proactive Battery Management System (BMS) to ensure the 1.6-ton system remains safe and efficient throughout its ≥4,000 cycle life.
Rack-154 is a sophisticated high-voltage energy storage platform designed to bridge the gap between indoor rack systems and utility-scale performance. Its triple-wide 50U cabinet architecture is specifically engineered to support the 1.6-ton weight of its 200Ah prismatic cells, providing a high-density footprint for facilities where space is at a premium.
The intelligence of the PBH-768200 is centered on a high-speed CAN bus communication protocol, ensuring the low-latency data exchange required for high-voltage (768V) safety and synchronization.
Integrated Scalability: The system supports up to 7 parallel units, enabling a total centralized energy bank of over 1 MWh (1,075 kWh). The CAN bus architecture ensures that as units are added, the Master BMS coordinates load sharing and balancing across the entire array.
Remote Management Ecosystem: Integrated remote monitoring provides real-time visibility into cell-level health, while remote configuration capabilities allow for over-the-air (OTA) firmware updates and parameter tuning. This ensures the system stays optimized for changing utility rate structures or demand-response programs without on-site intervention.
Utilizing a reinforced 19-inch rack-mount profile, the PBH-768200 is built for heavy-duty industrial environments, offering high altitude and humidity tolerances.
| Specification | Details | Strategic Value |
| Form Factor | 50U Triple-Wide Cabinet | Standard rack-mount height for easy facility integration. |
| Dimensions (WxDxH) | 1887 x 610 x 2258 mm | High-density footprint; replaces multiple smaller units. |
| Weight | 1,600 ± 30 kg | Robust 1.6-ton build; requires reinforced concrete slab. |
| Humidity Tolerance | 5% – 85% RH (Non-condensing) | Ideal for climate-controlled indoor utility rooms. |
| Operating Altitude | Up to 3,000m | Reliable performance in high-altitude mining or telecom sites. |
Supported by a 10-year comprehensive warranty, providing a critical financial hedge for high-capacity industrial investments. This performance guarantee ensures the system maintains a minimum 70% State of Health (SOH) throughout the warranty term, protecting against excessive capacity degradation and manufacturing defects. By aligning this 10-year coverage with the ≥4,000 cycle life of its 200Ah prismatic cells, Pomega provides the bankability required for large-scale projects where long-term uptime and revenue consistency are paramount.
153.6 kWh High-Voltage Rack Battery | 768V | 200Ah Cells | Scale to 1+ MWh | 10-Year Warranty
The Pomega PBH-768200 is the flagship of the PBH series, delivering an industry-leading 153.6 kWh per unit at 768V nominal. This triple-wide 19-inch rack system provides utility-scale energy density in an indoor format—connect up to 7 units for 1.07 MWh of total storage. Featuring 200Ah high-capacity LFP cells, 2C continuous discharge, and a 10-year warranty, the PBH-768200 bridges the gap between commercial rack systems and containerized utility-scale BESS.
| Basic Features | PBH-768200 |
| Battery Type | LiFePO4 – Prismatic |
| Nominal Voltage | 768V |
| Nominal Capacity | 200mAh |
| Nominal Energy Capacity | 153.6kWh |
| Operating Voltage Range | 660V-852V |
| Maximum Charge Voltage | 852V |
| Standard Charge/Discharge Current | 100A / 100A |
| Maximum Continuous Charge/Discharge Current | 200A / 200A |
| Limited Charge Current | 10A |
| Cycle Life (*) | ≥4000 cycles |
| Normal Operating Temperature | 25℃ |
| Charge Temperature | 0~50℃ |
| Discharge Temperature (**) | -15~50℃ |
| Storage Temperature | -10~60℃ |
| Capacity Retention Loss | ≤4%/month (25℃ ± 2C) |
| Warranty | 10 Years |
| Functional Features | |
| Communication Interfaces | CAN |
| Scalability | Max. 7 Parallel Units |
| Cooling | Fan |
| BMS Protections | UV, OV, OC, UT, OT, SC |
| LED Indicators | Alarm, Run, SOC |
| Circuit Breaker | Integrated Master BMS |
| Mechanical Features | |
| Protection Level | IP20 |
| Humidity | 5% – 85% RH (non-condensing) |
| Altitude | <3000 m |
| Dimensions (WxDxH) | 1887x610x2258mm |
| Without Connectors and Handles | (19 Inches – 50U) |
| Weight | 1600 ±30 kg |
(*) Test Conditions: 25℃
(**) Performance may vary under different conditions
