HPC2300800800
Cytech
Telecom
IP 55
Ground/Rooftop
2000W/6800BTU
19inch
750mm/30inch
42U
Product Description
Many remote base stations face unstable power and high installation costs. The Hybrid Power Cabinet combines mains power, diesel generators, and energy storage to provide reliable and efficient energy. This hybrid energy cabinet ensures stable operation, low maintenance, and long service life while reducing grid dependence and improving power reliability.
This system consists of photovoltaic modules, combiner boxes, rectifier modules, lithium battery packs, inverters, power cabinets, battery cabinets, distribution cabinet systems, and dynamic environmental monitoring units. The solar hybrid power cabinet system integrates these components to ensure stable and efficient energy conversion and management. The schematic diagram of the power cabinet system framework is shown below.
Physical Specification | Details |
Dimensions | Recommended HxWxD in mm = 2100x750x750 19"inch internal width |
Weight | Approx 110Kg |
Installation mode | Ground/Rooftop |
Cabling mode | Bottom of the cabinet 2 entries FL21 cable gland |
Maintenance mode | In Front |
Security Standard | IEC60950 |
Protection level | IP55 |
Noise Level | ≤ 65dBA @1.5m |
Frame Material | Galvanized Steel |
Skin Material | Single layer with thermal insulation |
Paint | Powder Coat paint RAL 7035 Gray |
Battery Space | Battery space of 4 strings |
Operating Temp range | from -40 to +60 |
Bolts | The cabinet should be fixed by bolts to existing concrete foundation with minimum of 4 bolts (Bolts to be provided) |
Door | Door should be latched to a stopper at the bottom to prevent the door from sawing during windy weather |
External Lock | External rings for external lock with dimension (11mm dimeter ) of shackle smart lock |
Hybrid System Rectifier Capacity | 24kW fully equipped |
Rectifier Model capacity | 3000W or 4000W minimum of 96% efficiency (Preferred to be 3000W) |
Hybrid Controller | To be included or part of the rectifier controller |
Hybrid Mode | CDC |
Remote Monitoring solution | The rectifier system should be open to provide all power related information to XXXRMS solution |
System specification | 1- The cabinet should control the DG Turn on and off without the need of af any Aux card or depending on any other out of the cabinet modules (ATS or MDB). 2- The System should provide power on priory basis A-Grid, B-Battery 3-DG. 3- The system should be open to be integrated fully with any 3rd party RMS on both Rectifier and battery. 4- The system should be able to cut of the invertor power in case Grid is available or when the Battery capacity reaches the limit and that the DG didn't start for any reason. 5- The system should support dynamic battery charging current depending on the AC input source, for instance on grid it can be higher than DG. 6- The system should have the ability to limit the power consumption from grid or generator power source. 7- Connections between the cabinet and other equipment (generator, fuel tank, ATS, MDB, etc..) to be by wire connection. 8- The System should have the ability to dynamically change the battery charging current when DG is on and utilize as much power from the DG until 80% of the DG capacity to lower the time of charging. 9- The system should not be connected to any external DC voltage to power on any cabinet Aux card and the cabinet should be self dependent to power any Aux card that is part of the solution. 10- The rectifier controller should be accessed by mean of SW application or web portal over ETH connection with a PC and able to alter and configuration. 11- The system should log all the activities of the rectifier and hybrid system and stored for at least 1 month and be able to extract the log in a readable format. 12- The charging current rate (C) need to be variable during the charging mode with set values and periods (start charging value with set period and stable charging value with period). |
Model | Cytech |
Cooling type | DC |
Cooling capacity | 2000 Watt |
working condition | Auto switch off when cabinet door is open |
Passive Cooling | HEX DC FAN 120W/K (Optional) |
Input mode | Three phase compatibles with single phase |
Input frequency | 45Hz - 65Hz, rated value: 50Hz/60Hz |
Input capacity | 1 × 63A/3P MCB |
Surge Protection Device | Type 2 Surge Arrestor discharge current 40kA 8/20us |
Output Voltage | 43VDC to 58VDC |
Capacity | 24kW, loaded capacity 24kW |
Battery MCB | 4x125A |
LLVD Programmable | 4x125A, 4x63A, |
BVLD Programmable | 4x63A, 2x32A, 2x16A |
Efficiency | > 96% |
Power factor | 0.99 |
Battery cabling | battery cable no less than 35mm |
Input voltage | 85VAC - 300VAC, rated 220VAC |
Signal input | Battery temp (number of sensors should match the installed batteries) and Ambient temp |
I/O | 8 Digital Inputs (the initial state for all the digital outputs should be closed (NC), 6 Dry contacts. |
Alarms | load fuse alarm, door sensor, low battery voltage, high battery voltage, temperature alarm, mains detect alarm, smoke alarm, water alarm, Gen. abnormal work (manual run, fail to start, fail to stop). |
storage capacity | Up to 1000 historical records |
Communication port | RS232, RS485, CAN ,FE |
Networking mode | IP, SNMP traps |
Hybrid | The controller should provide hybrid functionality |
Power limitation | system should have a limitation on the power consumed |
(6) .Others
DC Service light | To be included |
Smoke Sensor | To be included |
Door Sensor | To be included |
Water Sensor | To be included |
Alarm box | 1- one unit alarm box to connect all the external alarms and signals 2- The cabinet Alarm box should be isolated and not to be impacted by any external volage coming from the telecom equipment |
Battery Type | Lithium Ion (LFP) type 600Ah total capacity with minimum of 150Ah per battery |
Cycles | 6000 Cycle |
DC Load AC Load | 8kW |
2kW for Owner | |
Battery backup time | 4 hours |
Inverter | DC-AC inverter 220V (n+1), 3KVA module with smart circuit breaker to be adjusted, can be managed remotely through the RMS |
current Limiter | Automatic changeover and current limiter (ACCL) to be installed and set to (8 Amp.) to limit the inverter output |
By-pass Mode | Inverter should have 2 input sources (A/C, By-pass) and (DC, from batteries) |
Inverter Protection | Overload protection (Inverter to shutdown in case of over load and back to service after set period of time), reverse voltage protection (inverter to protected from any reverse signals may back from the landlord line). |
Inverter Output ports | minimum 2 output ports remotely controlled through smart C.B |
Hybrid power cabinet list | ||||
No | Name | Specification parameter | Qty | Remark |
1 | Hybrid power cabinet | H*W*D=2300*800*800mm | 1 | With DC2000 air conditioner |
2 | Power Supply System | Equipped with monitoring and frame insertion | 1 | |
3 | Environmental monitoring unit | LAN/4G | 1 | SNMP |
4 | Lithium battery | 51.2V/150Ah | 4 | |
5 | Rectifier module | 3000W | 8 | 96% efficiency |
6 | Inverter | 3KW | 2 | |
7 | ATS | Switching switch between mains power and diesel generator, diesel generator dry node automatically starts and closes when connected to the switching power supply | 1 | |
8 | AC&DC input and output | Primary power off, secondary power off, lightning protection, STS, etc | 1 set | |
Note:
(1).Remote monitoring comes with a built-in platform and can also be connected to customer platforms. If the built-in platform is needed, platform service fees and data server fees will be incurred, which will not be included temporarily.
(2).Engineers can be dispatched abroad for debugging, but a separate fee will be charged.
Hybrid power cabinets are engineered to ensure continuous and stable power supply across various fields where reliable energy is critical. Designed for efficiency and flexibility, these intelligent power cabinet systems combine solar, battery, diesel, and grid power to deliver dependable performance in diverse environments.
Typical applications include:
Hybrid power cabinets are widely used in telecom sites to provide stable and backup power for communication equipment, ensuring uninterrupted network operation in remote or off-grid areas.
The industrial hybrid power cabinet supports factories, data centers, and commercial facilities by balancing grid, diesel, and battery power to ensure stable energy supply and lower operational costs.
For remote sites such as oil fields, mining areas, and rural communication stations, the off-grid hybrid power cabinet provides independent, efficient, and low-maintenance power solutions.
In critical scenarios like disaster recovery or grid failure, hybrid power cabinets serve as backup power cabinet systems, ensuring reliable electricity for essential operations.
