Description
BAC Series
High-Frequency Isolation · Bidirectional Power Flow
Three-level technology & soft-switching resonant topology · Up to 98% efficiency ·
Dual-DSP digital control · CAN/RS485 · Ideal for energy storage, V2G, battery formation & DC aging
📋 Module Overview
🔧 Technical Architecture
The bidirectional isolated AC/DC module employs three-level technology for seamless AC/DC conversion.
The DC/DC stage uses high-frequency isolated bidirectional conversion with soft-switching resonant technology,
enabling efficient bidirectional energy flow with automatic charge/discharge switching.
Dual-DSP architecture ensures stable performance, supports module paralleling (up to 12 units),
and features CAN & RS485 communication for easy integration with third-party systems.
🎯 Application Positioning
Widely used in energy storage systems, battery formation & grading, emergency power supplies,
and DC aging test systems. The preferred choice for industries requiring bidirectional energy flow.
⭐ Product Advantages
🛡️ Safer & More Reliable
- ▸ Full high-frequency isolation ensures battery-grid/load safety
- ▸ DSP+CPLD full digital control with multi-level hardware/software protection
- ▸ Reliable parallel operation, up to 12 modules
- ▸ Strong grid adaptability
⚡ Higher Efficiency
- ▸ High-frequency isolation eliminates bulky transformers, efficiency >95%
- ▸ AC/DC three-level technology, peak efficiency 98%
- ▸ DC/DC soft-switching resonant, peak efficiency 98%
🧠 Smart & User-Friendly
- ▸ Grid-tied and off-grid modes (V2G, V2L)
- ▸ Wide battery voltage: 100V–750Vdc
- ▸ Wide grid range & 50/60Hz auto-adaptation
🔧 Flexible Configuration
- ▸ 19-inch standard rack mount, compact design
- ▸ Hot-swappable modules for flexible configuration
- ▸ Ideal for energy storage, formation, and aging feedback systems
📊 Technical Specifications
BAC Series Module Technical Parameters
| Model | BAC80040 | BAC75040II | BAC300100II |
|---|---|---|---|
| 🔋 Charging Section | |||
| Rated Grid Voltage | 400Vac (380/400/415Vac configurable) | ||
| Grid Voltage Range | 304Vac–485Vac | ||
| Grid Frequency | 50/60±5% (auto-adaptive) | ||
| Configuration | 3-phase 4-wire (3W+PE) | ||
| Input Current | ≤38A | ||
| ⚡ AC Side Parameters | |||
| Power Factor | ≥0.99, full load | ||
| Current THD | <3%, full load | ||
| Output Voltage | 150–800VDC | 200–750VDC | 100–300VDC |
| Rated Voltage | 500VDC | 500VDC | 150VDC |
| Output Current | 40A MAX | 40A MAX | 100A MAX |
| Rated Power | 20kW | 20kW | 15kW |
| Power Derating | Linear at 304–323Vac input; full at 323–485Vac | ||
| Charging Efficiency | 95% Max (SiC), 94% (Si) | ||
| 🔋 Battery Side (Charging) | |||
| Voltage Regulation | ±0.5% | ||
| Current Accuracy | ±1% | ||
| Ripple Coefficient | <1% Vo | ||
| 🔋 Discharging Section | |||
| Battery Voltage Range | 150–800VDC | 200–750VDC | 100–300VDC |
| Discharge Current | 40A Max | 40A Max | 100A Max |
| 🚗 V2G (Grid-Tied Discharging) | |||
| Grid Voltage Range | 304Vac–485Vac | ||
| Grid Frequency | 50/60±5% (auto-adaptive) | ||
| Output Power | 20KVA Max | 20KVA Max | 15KVA Max |
| Derating | Linear at 304–323Vac; full at 323–485Vac | ||
| Efficiency | 95% Max (SiC), 94% (Si) | ||
| 🏠 V2L (Bidirectional Discharging) | |||
| Load Voltage | 400Vac (380/400/415Vac configurable) | ||
| Load Frequency | 50/60Hz±1% | 50/60Hz±1% | 50/60Hz±1% |
| Voltage Drop | <3% | <3% | <3% |
| Output Power | 20KVA 3-phase 6.6KVA 1-phase |
20KVA 3-phase 6.6KVA 1-phase |
15KVA 3-phase 5KVA 1-phase |
| 🛡️ Protection & Environment | |||
| Overvoltage Protection | Yes | ||
| Overcurrent Protection | Yes | ||
| Short-Circuit Protection | Yes | ||
| Overtemperature Protection | Yes | ||
| Operating Temp. | -30~65 ℃ (derating above 55℃) | ||
| Storage Temp. | -40~75 ℃ | ||
| Noise | <60dB | ||
| Dimensions (W×D×H) | 442×575×86mm | ||
| Weight | 19Kg | 19Kg | 15Kg |
| Ingress Protection | IP20 (single module) | ||
| Cooling | Intelligent speed control, forced air | ||
| Communication | CAN 2.0B / RS485 | ||
| Safety Standards |
GB/T 34120-2017 · GB/T 34133-2017 NB/T 33001-2018 · NB/T 33008-2018 |
||
| EMC | Class A per NB/T 33001-2018 & NB/T 33008-2018 | ||
🌍 Application Areas
🚗 V2G (Vehicle-to-Grid)
With the growing EV fleet (forecast 80 million by 2030), EVs serve as flexible loads and distributed energy resources.
V2G bidirectional DC charging stations (up to 250kW) enable bidirectional energy flow between EVs and the grid:
charge during off-peak, discharge during peak for price arbitrage, enhance load flexibility,
reduce grid infrastructure investment, and boost renewable integration.
♻️ Battery Second-Life
Modular PCS ideal for retired EV battery second-life applications, covering 15kW–250kW for C&I parks.
Flexible embedded PCS with isolated bidirectional AC/DC for enhanced safety, efficiency, and compact size.
Grid-tied/off-grid integrated design supports microgrids (islands, remote villages). Wide voltage range perfectly suits
retired automotive battery repurposing. Configurable as mobile energy storage for critical temporary power.
🔋 Battery Formation & Grading
Two revolutionary advancements: (1) Energy feedback replaces resistive load banks, saving energy and reducing heat;
(2) High-frequency isolation replaces line-frequency transformers, improving efficiency, lowering cost, and reducing footprint.
The bidirectional high-frequency isolated power supply for formation & grading connects battery packs directly to modules,
eliminating bulky transformers with higher efficiency and smaller size.
⚙️ DC Aging Test Systems
During production aging of DC power supplies (charging piles, telecom power, etc.), traditional resistive or electronic loads waste enormous energy.
By integrating the AC/DC module into the aging process, energy is fed back to the grid, saving at least 95% of electricity costs.
⚡ Electrical Topology & Operating Modes
Discharging (Battery → Grid/Load)
High-Frequency Isolation
Operating Modes: Grid-Tied Charging (AC→DC) ·
Grid-Tied Inverting (DC→AC) ·
Off-Grid Inverting (DC→AC, seamless transition)
Source: IMAXPWR Official Technical Specifications
🛡️ Protection & Safety
Full high-frequency isolation · DSP+CPLD digital control · Multi-level hardware/software protection
🔧 Module Maintenance & Replacement
📋 Routine Maintenance
- 1. Check operating conditions: temperature, humidity, I/O voltage, frequency, LED indicators, alarms
- 2. Check for abnormal noise; inspect fans and bidirectional modules
- 3. Inspect AC/DC terminals for tightness, cables for integrity; guard against rodents
- 4. Verify system monitoring panel: all units normal, no faults or alarms
- 5. Clean dust from equipment as needed
- 6. Record ambient temperature and humidity
- 7. Verify module parameter configuration
🔄 Replacement Procedure
- Remove the faulty module (caution: high internal temperature or residual voltage)
- Confirm the new module is intact
- Shut down all running modules in the system
- Open AC/DC breakers of the faulty module; loosen fixing screws
- Grasp the handle and slowly pull out; when two-thirds out, have two people lift it out
- Align the new module with the slot and push it in slowly until firmly seated
- Secure with two fixing screws
- Close AC/DC breakers
- Verify the monitoring panel recognizes the new module, communication is normal, and current sharing is balanced
❓ Frequently Asked Questions
🔗 Related Products
Bidirectional inverter module with integrated MPPT · pure sine wave · high-efficiency soft-switching · CAN/RS485
15kW bidirectional AC/DC module · 40–300Vdc · three-level + soft-switching · dual-DSP · up to 12 parallel
15kW bidirectional high-frequency isolated AC-DC · 40–300Vdc / 120A · grid-tied/off-grid · 32 parallel
DC200–1000V · three-level topology · >98.5% efficiency · <10ms switching · multi-machine parallel to 2MW
15kW bidirectional high-frequency isolated DC-DC · 40–300Vdc / 350–850Vdc · 32 parallel · CAN/RS485
180–250kW modular PCS · V2G high-frequency isolation · STS seamless grid/off-grid switching · 100–750Vdc
🤝 Business & Services
ImaxPWR (Imax Power Technology Co., Ltd.) is a
national high-tech enterprise specializing in new energy.
As an original equipment manufacturer, we provide integrated energy storage products and system solutions,
covering bidirectional PCS, DC/DC, MPPT, hybrid inverters, AC integrated cabinets,
and microgrid systems for islands, mines, oilfields, and regions across Asia, Africa, Latin America, Europe, and Australia.
We are a national high-tech enterprise integrating R&D, production, and sales,
with extensive experience in overseas wind-solar-diesel-storage hybrid microgrid projects.
Driven by technology R&D and quality control, we support grid, microgrid, and charging station scenarios
in their low-carbon transition, offering customized, reliable, and safe energy system solutions worldwide.
+86-13760212825
(WhatsApp / WeChat: COCO)
Imax Power Technology Co., Ltd.
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