DDC Electrical Enclosure Intelligent Energy Regulation & Management System
Product Specifications
| Attribute |
Value |
| IP Rating |
IP30 IP40 IP54 IP55 IP65 IP66 |
| Application |
Industrial, commercial, BAS |
| Material |
Mid Carbon Steel / Carbon Steel / Stainless Steel / Aluminum Steel |
| Color |
Silver or Others |
| Customization |
Logo printing, size and color customization available |
| Mounting Type |
Wall mount, pole mount, free standing |
| Usage |
Smart Building, Public Place or Others |
| Certifications |
CE |
| Size |
Various sizes available |
| Locking Mechanism |
Key lock |
| Finish |
Powder coated |
| Shape |
Rectangular |
| Features |
Durable, corrosion-resistant, weatherproof |
Product Description
- Smart Grids: Real-time electricity monitoring (kWh/voltage/THD) in substations, with AMI (Advanced Metering Infrastructure) compliance.
- Water Utilities: Leak detection + consumption analytics for municipal pipelines, supporting LoRaWAN/NB-IoT for rural areas.
- Gas Distribution: Remote gas flow/pressure monitoring (with ATEX-certified variants for hazardous zones).
- Multi-Utility Hubs: Integrated energy/water/gas metering in smart buildings (O&M cost reduced by 40%).
- Renewable Energy: Solar/wind farm production metering + grid feed-in reconciliation.
Available Sizes
| Model |
Size (W×L×D, mm) |
| 1 |
300×400×160 |
| 2 |
300×400×200 |
| 3 |
300×400×250 |
| 4 |
400×500×200 |
| 5 |
400×500×250 |
| 6 |
400×500×300 |
| 7 |
400×600×200 |
| 8 |
400×600×250 |
| 9 |
500×600×200 |
| 10 |
500×600×250 |
| 11 |
500×600×300 |
| 12 |
500×700×200 |
| 13 |
500×700×250 |
| 14 |
600×700×200 |
| 15 |
600×800×200 |
| 16 |
600×800×250 |
| 17 |
600×800×300 |
| 18 |
700×900×200 |
| 19 |
700×900×250 |
| 20 |
800×1000×200 |
| 21 |
800×1000×250 |
| 22 |
800×1000×300 |
| Customize |
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IP Grade Options
IP30 / IP40 / IP54 / IP55 / IP65 / IP66
Customization Recommendations
For DDC energy control systems, key customization recommendations span multiple aspects: in terms of sensor & metering modules, high-energy-consuming equipment should be equipped with high-precision sensors (±0.5%) to monitor power factor and harmonics, while general areas can use economical electric meters (±1%); hazardous areas require explosion-proof types, humid environments need waterproof and anti-corrosion models, and metering interfaces should be reserved when integrating new energy sources. For control logic & algorithms, industrial scenarios should prioritize load balancing and stagger the startup of high-power equipment, commercial buildings can adjust air conditioning based on passenger flow to save 30%-40% energy, data centers should link with temperature control to avoid over-cooling, and constant-parameter systems need optimized PID parameters to shorten response time to load fluctuations. Regarding actuators & loads, frequency converters should be matched to achieve 10%-100% smooth speed regulation, independent protection circuits should be set for mixed loads, and critical facilities should link with UPS or generators to ensure core load operation during power outages. In communication & data, the system should be compatible with standard protocols to connect to upper-level systems, add 5G/LoRa modules for decentralized scenarios, and customize local storage (e.g., 6 months of data) and edge computing functions. For the cabinet & environment, outdoor use requires IP65 cabinets, high-humidity areas need IP54 cabinets with temperature and humidity control, and high-power component areas should have heat dissipation devices to keep temperature below 40°C.
