EMS-RMS
In geographically distributed telecom networks, limited on-site visibility often leads to delayed fault detection, inefficient fuel usage, battery failures, and increased maintenance costs, directly impacting site uptime and operational efficiency. The EMS–RMS (Energy Monitoring & Remote Monitoring System) by Intelux addresses these challenges with an advanced, integrated platform for real-time monitoring, control, and analytics of power, energy, environmental, and infrastructure parameters across telecom sites.
The system provides centralized visibility of rectifiers, DG sets, fuel levels, battery banks, AC/DC energy consumption, temperature, door status, and security alarms, enabling proactive fault management and data-driven decision making. Designed for 24×7 unattended operation at telecom towers, BTS shelters, MSCs, and data centers, EMS–RMS supports remote diagnostics, performance trending, alarm notifications, and energy optimization, helping operators reduce OPEX, improve response time, and enhance network reliability.
Engineered for telecom, utilities, and critical infrastructure, this intelligent monitoring solution ensures improved uptime, efficient energy utilization, and scalable remote site management, making it a core component of modern telecom power and energy systems.
Construction Details:
The EMS-RMS architecture integrates multiple subsystems into a unified monitoring platform:
Core Components
- EMS Controller Unit – Central processing and control module
- 4G IoT Gateway – Secure remote communication with cloud/server
- Energy Measurement Modules – AC/DC energy and power monitoring
- Fuel Monitoring System – Diesel level, consumption, theft detection
- Environmental Sensors – Temperature, humidity, smoke, wind, door sensors
- Asset Monitoring Module – Tracks critical equipment health and movement
- Access Control System – Door access monitoring and security integration
System Design Highlights
- Modular and scalable architecture
- Supports wired and wireless sensor interfaces
- Designed for continuous 24×7 unattended operation
- Seamless integration with EMS, BMS, and NOC platforms
Benefits:
- Comprehensive Energy Monitoring – AC & DC parameters, power, energy, and load trends
- Generator Monitoring – DG voltage, frequency, fuel level, run hours, faults
- Fuel Management – Theft detection, refueling alerts, consumption analytics
- Environmental Monitoring – Temperature, humidity, smoke, and fire detection
- Remote Access & Control – 4G-enabled real-time data access
- Alarm & Event Management – Configurable alerts with historical logging
- Predictive Maintenance Support – Early warning for failures and abnormal behavior
- Scalable Architecture – Supports expansion for multiple sensors and sites
- Real-time visibility of critical site parameters
- Reduced site visits and operational costs
- Early fault detection and predictive maintenance
- Improved uptime and service reliability
- Seamless integration with existing systems
- Scalable architecture for future expansion
| Parameter | Specification |
| Input Supply | 48 V DC (40–60 VDC) |
| AC Measurement | 3-Phase, 4-Wire (Voltage, Current, Power, Energy) |
| DC Monitoring | Battery voltage, charge/discharge current |
| Communication Interfaces | RS232, RS485, Ethernet |
| Wireless Connectivity | 4G LTE (with fallback support) |
| Supported Protocols | MODBUS RTU, TCP/IP, MQTT |
| Environmental Sensors | Temperature, Humidity, Smoke, Wind Speed |
| Fuel Monitoring | Capacitive fuel sensor interface |
| Data Logging | Local & Cloud-based storage |
| Alarm Handling | Configurable thresholds with event logs |
| Operating Temperature | 0°C to 55°C |
| Enclosure Rating | IP55 |
| Mounting | Floor or Wall Mounted |
| Compliance | IEC / IS standards |
Applications:
- Telecom tower and BTS monitoring
- Data centers and network hubs
- Smart energy and power distribution systems
- Utility and substation monitoring
- Industrial plants and manufacturing units
- Renewable energy sites (solar / hybrid systems)
- Smart city and IoT-based infrastructure