Instrava curated instruments introduce a next-generation Smart Busbar Monitoring System designed to deliver real-time power visibility, thermal safety, and intelligent energy management for modern electrical infrastructures.
Разработано для data centers, industrial workshops, and critical power environments, this system combines busbar temperature monitoring, power quality analysis, and dual redundancy architecture to eliminate risks and ensure uninterrupted operation.
With advanced sensing and analytics, it enables real-time busbar monitoring system with RS485 Modbus communication, helping operators detect anomalies instantly, prevent failures, and optimize energy usage across complex power distribution networks.
Instrava doesn’t just monitor power — we enable a transition toward predictive, data-driven, and AI-ready energy systems.
Описание мониторинга и управления питанием
Real-Time Power & Thermal Monitoring for Predictive Safety
The system delivers comprehensive monitoring across electrical and thermal parameters, enabling proactive risk management.
Поддерживает smart busbar power monitoring system for industrial energy management.
Идеально подходит для busbar temperature monitoring system for data centers.
Обеспечивает real-time fault detection in busbar trunking systems.
Dual Redundancy & Intelligent Design for Mission-Critical Applications
Built for environments where downtime is not acceptable, this system introduces reliability and efficiency at every level.
Идеально подходит для high-reliability busbar monitoring system for data centers.
Оптимизировано для fast deployment busbar monitoring solutions.
Улучшает maintenance efficiency in smart busway systems.
Supports complex architectures:
Предназначен для data center busbar monitoring with redundancy architecture.
Поддерживает ISO 50001 energy management compliance и industrial audit requirements.
Включает smart energy monitoring system for busbar distribution networks.
Поддерживает data-driven load optimization and peak demand analysis.
Улучшает traceability and system diagnostics.
Идеально подходит для Modbus-enabled smart busbar monitoring systems.
Мониторинг и контроль параметров питания
| Параметр | Описание |
|---|---|
| Тип мониторинга | Power + Temperature Monitoring |
| Voltage Input | Three-phase voltage |
| Current Input | Three-phase current |
| Измеренные параметры | Power, energy, PF, frequency, harmonics (1–63) |
| Диапазон температур | -20°C to 200°C |
| Alarm Function | Two-level threshold alarms with delay |
| Event Storage | 10,000 records |
| Сохранение данных | ≥100 days (alarm), ≥1 year (energy data) |
| Общение | Dual RS485 (Modbus RTU), ring network |
| Baud Rate | 1200–115200 bps |
| Redundancy | Dual power supply + dual communication |
| Установка | Busway / tap-off box integration |
| Energy Metering | Quadrant, multi-rate, long-term statistics |
| Demand Analysis | Sliding demand, max/min tracking |
| Custom Data | 750-character user-defined area |
| Приложение | Data centers, industrial plants, critical facilities |
System Component | Model Number | Key Specifications | Функция | |
Local Monitoring HMI | INYD1031Kt | 10.1-inch TFT LCD (1024*600); 3 RS485 ports | Real-time curve display + alarm notification + data export | |
Main Inlet Box Module | INYBM200M-AC-Q1 | 3×220V/380V; Current accuracy: 0.2 class | Power input monitoring + communication ring network establishment | |
Tap-off Box Module | INYBM200C-AC-Q1 | 3×100mA; Leakage current range: 0~1A | Branch busbar temperature/power monitoring | |
Power Supply Module | INYBM200B-AC-P12 | AC100~265V; Output: DC24V; Ripple <80mV | Stable power supply for all sub-modules | |
Busbar Joint Temperature Device | INYDT200-C2 | 4 channels; -20~200℃ (±2℃ error) | Real-time temperature detection of busbar joints | |
Условия окружающей среды
Modules | ||||
Working temperature | -20℃~60℃ | Storage temperature | -25℃~75℃ | |
Относительная влажность | 5~95% without condensation | Working altitude | less than 2000 meters | |
Атмосферное давление | 70kPa~106kPa | |||
HMI | ||||
Working temperature | 0~45℃ | Storage temperature | -10~60℃ | |
Относительная влажность | 5~90% without condensation | Working altitude | less than 2000 meters | |
Атмосферное давление | 70kPa~106kPa | |||
Auxiliary power supply | AC100V~265V(50/60Hz) | AC100V~265V(50/60Hz) | ||
Мощность | ≤12W or 12VA | ≤5W or 5VA | ||
Ripple | Less than 80 mV | Less than 40 mV | ||
Выход | DC24V output | DC24V output | ||
Module | Local monitoring system HMI (INYD1031Kt) | |||
Panel type | 10.1 inch TFT LCD | Color display | 24-bit color | |
Resolution ratio | 1024*600 | Brightness | 300 cd/m2 | |
Touch screen | Four-wire resistance type | Process monitor | 4 core 800MHz CORTEX-A7 | |
Потребляемая мощность | 5W | Общение | COM1(RS232),COM2(RS485), COM3(RS485) | |
Ethermet | 1*10/100M self adaptive | Event record | 10000 lists | |
Electromagnetic compatibility | Industrial 3rd class | |||
Module | Main Inlet Box/Tap-off Box Monitoring Module | |||
Capacity | ||||
Voltage overload capacity | 1.2 times the rated current, continuous operation | |||
Current overload capacity | Starting box monitoring module: 0.51W; Junction box monitoring module: 0.34W | |||
Потребляемая мощность | Less than 400ms | |||
Measurement data refresh time Indicator light | Operation, communication, alarm, light flashes for 0.1 seconds | |||
Точность | ||||
Параметр | Точность | Диапазон | ||
Текущий | 0.2 class | AC0~100mA; | ||
Pahse voltage | 0.2 class | AC20~380V | ||
Wire voltage | 0.2 class | AC30~537V | ||
Leakage current | 1 class | AC0~1A | ||
Частота | 0.1 class | 45~65Hz | ||
Активная мощность | 0.5 class | 0~±1×109 | ||
Power factor | 0.5 class | 0~±1.0 | ||
Active energy | 0.5 class | 0~±1×1010 | ||
Harmonic | A class | 0~100% | ||
Built-in RTC | The daily timing error is ≤ 0.5 seconds per day. The clock does not lose data even when power is lost. It also has temperature compensation. | |||
Module | Switch & Temperature Module (INYBM200B-0-T) | |||
Switch input | 4 input terminals for passive nodes, built-in DC12V power supply in the instrument, with optical isolation | |||
Релейный выход | 2-way relay output (can be set as either automatic control or remote control), contact capacity: 5A/250VAC or 5A/30VDC | |||
Температура | 8-channel NTC probe input, -20 to 200℃, error: ±2℃ (at 25℃) | |||
Потребляемая мощность | 0.6W, without controlling relay 0.32W | |||
Communication Module
3-channel RS485 | ||||
Connection method | RJ45 interface | Communication rate | 1200bps, 2400bps, 4800bps, 9600bps, 19200bps, 38400bps, 115200bps | |
Work method | Half-duplex | Check bit | None, Odd, Even | |
Протокол связи | Modbus-RTU,YD/T1363 | Потребляемая мощность | 0.10W | |
Module | Power Meter (INYBM200B-AC-D) | |||
Panel type | 128*128 dot single-color TFT LCD | |||
Потребляемая мощность | 0.5W | |||
Module | Busbar Joint Temperature Device (INYDT200-C2) | |||
Температура | 4 channels,-20~200℃, tolerance error:±2℃ | |||
Потребляемая мощность | <1W | |||
Электропитание | AC176~265V(self supply) | |||
Общение | RS485,Modbus-RTU | |||
Instrava OEM/ODM
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Компания Instrava ориентирована на предоставление надежных промышленных решений благодаря тщательно подобранным продуктам, оптимизации, ориентированной на конкретное применение, и гибкой настройке. Мы выбираем проверенные приборы от надежных производителей, чтобы гарантировать неизменное качество, оптимизируем решения на основе реальных условий работы для решения практических задач и предоставляем индивидуальные конфигурации для удовлетворения конкретных потребностей приложений.
Сочетая опыт выбора с пониманием специфики применения, компания Instrava помогает клиентам снизить риски, повысить эффективность и добиться надежных результатов в сложных промышленных условиях.
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Рекомендации по сопутствующим товарам
What is a busbar temperature monitoring system and why is it critical in data centers?
A busbar temperature monitoring system is an integrated solution that continuously measures temperature, current, voltage, and energy parameters within busway power distribution systems.
In data centers, where downtime is unacceptable, it provides real-time multi-point monitoring and early detection of overheating risks caused by loose connections or overload conditions. This ensures safe, stable, and uninterrupted power delivery to critical IT infrastructure.
How does a dual redundancy architecture improve system reliability?
A dual redundancy architecture combines dual power supply and dual communication ring network design to eliminate single points of failure.
Even if one power source or communication path fails, the system continues operating without interruption. This makes it ideal for high-availability environments such as AI data centers, where continuous monitoring is essential for operational reliability.
How does the system support fast deployment and scalability?
The system features automatic addressing for tap-off boxes, eliminating the need for manual configuration. This reduces installation time by up to 50% and simplifies commissioning.
Its plug-and-play design allows easy expansion, making it highly suitable for scalable data center environments and evolving power distribution architectures.
Can the system operate without interrupting power during maintenance?
Yes. The system is designed for maintenance-friendly operation, allowing tap-off box replacement without shutting down the power supply.
This ensures continuous monitoring and uninterrupted system operation, significantly improving maintenance efficiency and minimizing operational risk in critical facilities.
What data monitoring and energy management capabilities does the system provide?
The system offers comprehensive monitoring and analytics, including:
These features support ISO 50001 energy management compliance and enable data-driven optimization of power usage.
How does the system integrate with SCADA or DCIM platforms?
The system supports dual RS485 communication with Modbus RTU protocol and ring network topology, ensuring reliable data transmission.
It also provides customizable data fields and event logging (up to 10,000 records), allowing seamless integration with SCADA, BMS, and DCIM platforms for centralized monitoring, diagnostics, and long-term analysis.
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