Apakah itu Monitor DGA?

Key Takeaways — DGA Monitor for Transformer

• DGA (Analisis Gas Terlarut) is the most widely accepted early-warning diagnostic method for detecting internal faults in oil-filled power transformers, compliant with IEC 60599 and IEEE C57.104 standards.
• An sistem pemantauan DGA dalam talian operates 24/7 with automated detection cycles as short as 2 jam, eliminating the blind spots and contamination risks associated with manual oil sampling and laboratory analysis.
• The DGA monitor uses gas chromatography technology to detect 7 key fault gases — H₂, CH₄, C₂H₆, C₂H₄, C₂H₂, CO, and CO₂ — each corresponding to specific fault types such as partial discharge, thermal degradation, dan meleka.
• terbina dalam DGA alarm and fault diagnosis functions, including the Three-Ratio Method and Duval Triangle, automatically classify fault types and trigger multi-level alerts to prevent catastrophic transformer failures.
• The system supports MODBUS RTU/TCP, IEC 61850, dan DNP3.0 protokol, membolehkan penyepaduan lancar dengan platform SCADA dan seni bina pemantauan berbilang pengubah terpusat.
• Berlaku di seluruh pencawang utiliti, loji kuasa, kemudahan industri, tapak tenaga boleh diperbaharui, pusat data, dan sistem daya tarikan kereta api — di mana-mana sahaja transformer berisi minyak memerlukan pemantauan keadaan berterusan.
• FJINNO, ditubuhkan di 2011, adalah seorang profesional Pengeluar monitor DGA menawarkan harga borong terus dari kilang, fleksibel OEM/ODM dan Label Peribadi penyesuaian, Pengeluaran yang diperakui ISO, dan pengalaman eksport global yang terbukti.
• Memilih yang betul Konfigurasi monitor DGA — daripada persediaan RS485 7-gas standard kepada penyelesaian IEC61850 tersuai sepenuhnya dengan pengesanan lembapan — bergantung pada kelas voltan pengubah, kritikal, dan keperluan integrasi.

Jadual Kandungan

1. Apakah itu Monitor DGA?
2. Apakah Maksud DGA dalam Transformers?
3. Apakah Peranan DGA dalam Transformers?
4. Ujian BDV vs Ujian DGA — Apakah Perbezaannya?
5. Mengapa Power Transformers Memerlukan Pemantauan DGA Dalam Talian?
6. Bagaimana Monitor DGA Berfungsi?
7. Apakah Gas yang Boleh DGA Dikesan oleh Monitor?
8. DGA Monitor Technical Specifications
9. DGA Monitoring System Components
10. Communication Protocols the Online DGA System Supports
11. Built-In DGA Alarm and Fault Diagnosis Functions
12. Where Is a DGA Monitor Applicable?
13. Is a DGA Monitor Difficult to Install?
14. How Does a DGA Monitor Work with Other Monitoring Devices?
15. How to Choose the Right DGA Monitor Configuration
16. Atas 10 DGA Monitor Manufacturers 2025
17. Why Choose FJINNO as Your DGA Monitor Supplier?
18. Get Your Custom DGA Monitoring Solution Now
19. Soalan Lazim
20. Penafian

1. Apa Itu a DGA Monitor? — DGA Monitor for Transformer Explained

A DGA monitor is a field-deployed instrument that continuously analyzes dissolved gases inside transformer insulating oil. Installed directly on or beside a power transformer, yang DGA monitor for transformer applications automatically extracts oil samples, separates dissolved gases, and measures each gas concentration — all without manual intervention.

Unlike periodic laboratory analysis, a DGA monitor operates 24/7, delivering real-time chemical data on insulation degradation, electrical discharges, and thermal faults. When gas concentrations exceed preset thresholds, the system triggers a DGA alarm, alerting maintenance teams before minor issues escalate into catastrophic failures. Modern units typically detect seven key fault gases using gas chromatography technology and have become essential equipment for utilities, loji kuasa, and industrial facilities managing critical transformer assets.

2. Apakah Maksud DGA dalam Transformers?

In power engineering, DGA stands for Analisis Gas Terlarut. It refers to both the diagnostic methodology and the equipment used to detect, identify, and quantify gases dissolved in transformer insulating oil as a result of internal electrical or thermal stress.

When insulation materials — oil and cellulose paper — break down under abnormal conditions such as overheating, pelepasan separa, atau meleka, they produce characteristic gases. These gases dissolve into the oil at concentrations measurable in parts per million (μL/L). By analyzing which gases are present and at what levels, engineers can determine the type and severity of faults developing inside the transformer, often months before physical damage becomes irreversible.

3. What Is the Role of Dissolved Gas Analysis (DGA) dalam Transformers?

Analisis gas terlarut serves as the most widely accepted early-warning diagnostic method for oil-filled transformers. Its role spans four key areas:

Pengesanan Kerosakan Awal

DGA identifies developing faults at an incipient stage — long before thermal imaging, electrical tests, or vibration analysis can detect abnormalities — giving operators the time needed to plan corrective actions.

Fault Type Identification

Different fault types produce distinct gas signatures. The Sistem pemantauan DGA uses internationally recognized interpretation methods like the Three-Ratio Method (IEC 60599) and Duval Triangle to classify whether the fault is thermal, elektrik, atau gabungan kedua-duanya.

Penyelenggaraan Berasaskan Keadaan

Instead of following fixed maintenance schedules, operators use DGA trending data to make informed decisions — repairing only when actual condition data justifies intervention, thereby optimizing budgets and reducing unnecessary outages.

Lifecycle Extension

Continuous monitoring and timely response to developing issues prevent secondary damage, helping critical transformer assets remain in service beyond their original design life.

4. Ujian BDV vs Ujian DGA — Apakah Perbezaannya?

Both BDV testing and DGA testing evaluate transformer oil condition, but they measure fundamentally different properties:

A BDV (Breakdown Voltage) test measures the dielectric strength of transformer oil — essentially how much voltage the oil can withstand before electrical breakdown occurs. It is a direct indicator of oil insulation quality, primarily affected by moisture content and particulate contamination.

A DGA test measures dissolved gas concentrations in the oil, providing diagnostic information about internal fault conditions within the transformer itself. While BDV tells you about oil quality, DGA tells you about transformer health.

The two tests are complementary. A transformer may pass a BDV test while DGA reveals developing internal faults. For comprehensive asset management, both tests should be part of your maintenance program. A portable DGA tester atau transformer oil DGA test kit serves periodic spot-checks, while an sistem pemantauan DGA dalam talian provides continuous surveillance for critical assets.

5. Mengapa Power Transformers Memerlukan Pemantauan DGA Dalam Talian?

5.1 Hidden Risks of Internal Transformer Faults

Power transformers are sealed units. Internal faults — partial discharges, tempat panas, insulation degradation — develop invisibly. By the time external symptoms appear, damage may already be severe and repair costs enormous.

5.2 Limitations of Offline DGA Testing

Traditional offline oil sampling and laboratory analysis can take days or weeks. This interval creates blind spots where rapidly progressing faults may go undetected. Manual sampling also introduces risks of air contamination and human error.

5.3 Core Benefits of an Online DGA Monitoring System

An sistem pemantauan DGA dalam talian eliminates these limitations by providing continuous automated surveillance with detection cycles as short as 2 jam. Key benefits include real-time fault tracking, reduced unplanned outages, penjadualan penyelenggaraan yang optimum, and compliance with increasingly stringent grid reliability standards. For critical assets in substations, loji kuasa, dan kemudahan industri, online DGA monitoring of power transformers has evolved from an optional upgrade to an essential investment.

6. Bagaimana Monitor DGA Berfungsi?

The DGA monitor executes a fully automated measurement cycle in three main stages:

6.1 Automatic Oil Sampling and Circulation

The system circulates transformer oil through the monitor, ensuring the sample represents current bulk oil conditions rather than stagnant pocket concentrations.

6.2 Oil-Gas Separation and Chromatographic Detection

Oil enters a degassing chamber where advanced vacuum extraction technology releases dissolved gases. The extracted gas mixture then flows into a gas chromatography analyzer, where a carrier gas (high-purity nitrogen ≥99.999%) propels it through a separation column. Different gas molecules travel at different rates, achieving precise temporal separation. High-sensitivity detectors convert each gas component into proportional electrical signals.

6.3 Data Upload, DGA Alarm, dan Diagnosis Kerosakan

Electrical signals undergo analog-to-digital conversion and calibration algorithms that calculate individual gas concentrations. Results transmit via RS485, Ethernet, or IEC61850 to the backend platform for storage, trending, DGA alarm evaluation, and automated fault diagnosis.

7. Apakah Gas yang Boleh DGA Dikesan oleh Monitor?

The DGA monitor for transformer applications detects seven core fault gases specified in IEC 60599 and IEEE C57.104:

Gas	Julat (μL/L)	Petunjuk Kerosakan
Hidrogen (H₂)	2–2000	Pelepasan separa, mahkota, localized overheating
Metana (CH₄)	0.5–1000	Kerosakan haba suhu rendah (<150°C)
Ethane (C₂H₆)	0.5–1000	Kerosakan haba suhu sederhana (150–300°C)
Etilena (C₂H₄)	0.5–1000	Kerosakan haba suhu tinggi (300–700°C)
asetilena (C₂H₂)	0.5–1000	Melengkung, suhu yang sangat tinggi (>700°C)
Karbon Monoksida (CO)	25–5000	Cellulose insulation degradation
Karbon Dioksida (CO₂)	25–15000	Penguraian haba penebat kertas

Pilihan: Kandungan lembapan (H₂O) 1–100 μL/L for comprehensive insulation condition assessment.

8. DGA Monitor Technical Specifications

The following specifications are based on the FJINNO DGA Online Monitoring System product page:

Parameter	Spesifikasi
Detection Gases	H₂, CH₄, C₂H₆, C₂H₄, C₂H₂, CO, CO₂ (7 gas)
Kaedah Pengesanan	Kromatografi Gas (GC)
Ralat Pengukuran	±30% (compliant with IEC 60567 / DL/T 722)
Kebolehulangan	RSD ≤5% over 6 ujian berturut-turut
Min Detection Cycle	≤2 jam (boleh dikonfigurasikan pengguna)
Degassing Method	Pengekstrakan vakum dinamik
Komunikasi	RS485, Ethernet RJ45, Gentian Optik (pilihan)
Protokol	MODBUS RTU/TCP, IEC 61850, DNP3.0
Bekalan Kuasa	AC220V ±15%, 50Hz / DC 110V/220V
Suhu Ambien	-40°C to +65°C
Penilaian Perlindungan	IP55
Storan Data	≥10 years
Gas Pembawa	High-purity N₂ ≥99.999% (generator optional)
Dimensi	650 × 500 × 1300 mm
Berat badan	110 kg

9. DGA Monitoring System Components

9.1 Front-End DGA Monitor

The primary transformer oil dissolved gas online monitoring device mounts on the transformer and includes an oil-gas separation unit, gas chromatography analysis module, high-sensitivity detectors, and onboard microprocessor control electronics.

9.2 Backend Software and Data Management Platform

The centralized software provides real-time dashboards, diagnosis kesalahan automatik (Three-Ratio, Segitiga Duval), trend sejarah, customizable reports, and multi-level alarm management with email, SMS, and SCADA notification.

9.3 Komunikasi dan Integrasi SCADA

Connection infrastructure includes armored RS-485 cables (4-core shielded twisted pair), optional multimode fiber optic Ethernet for IEC61850, specialized copper oil tubing (Φ6×1mm), and inlet/outlet flange valves for transformer interface.

10. Communication Protocols the Online DGA System Supports

The sistem pemantauan DGA dalam talian accommodates diverse substation communication architectures through multiple interfaces: RS485 serial bus (up to 1200m), Ethernet RJ45 (TCP/IP), gentian optik (imuniti elektromagnet), and optional 4G/5G wireless connectivity. Supported protocols include MODBUS RTU/TCP, IEC 61850, DNP3.0, and custom protocols adaptable to proprietary platforms. The system supports N:1 architecture where multiple DGA monitors connect to a single intelligent controller for centralized management.

11. Built-In DGA Alarm and Fault Diagnosis Functions

11.1 Three-Ratio Method Auto Diagnosis

The software automatically calculates C₂H₂/C₂H₄, CH₄/H₂, and C₂H₄/C₂H₆ ratios and identifies fault types according to IEC 60599 — including normal aging, pelepasan separa, low/medium/high thermal faults, and arc discharge.

11.2 Duval Triangle Graphical Display

An interactive Duval Triangle plots gas relationships to visually identify fault zones: pelepasan separa (PD), kerosakan haba (T1, T2, T3), and electrical discharges (D1, D2).

11.3 Multi-Level DGA Alarm Threshold Settings

The system supports customizable three-tier alarms for each gas: Caution Level (increased monitoring), Warning Level (alarm notifications and diagnostic review), dan Danger Level (emergency procedures and shutdown recommendations).

12. Where Is a DGA Monitor Applicable?

The DGA monitor for transformer applications serves a broad range of sectors:

12.1 Utility Substations

Main power transformers at transmission and distribution substations (110kV–500kV+) where grid reliability standards demand continuous monitoring.

12.2 Power Plant Step-Up Transformers

Generator step-up transformers at thermal, hidro, nuklear, and renewable energy plants where unplanned outages directly impact grid stability and revenue.

12.3 Industrial Facilities and Data Centers

Critical process transformers in manufacturing, petrokimia, perlombongan, and data center operations where downtime carries substantial economic consequences.

12.4 Ladang Angin, Tumbuhan Suria, and Remote Sites

Collector and interconnection transformers in renewable energy installations, platform luar pesisir, and mountain substations where manual sampling presents logistical and safety challenges.

12.5 Railway Traction Power Systems

Traction power transformers supplying rail networks where service continuity directly affects passenger safety and transportation schedules.

13. Is a DGA Monitor Difficult to Install?

Not at all. The DGA monitor features a compact modular design (650×500mm footprint) with all functional components housed in a single weatherproof IP55 cabinet. Pre-engineered oil sampling interfaces connect to standard transformer valve ports via copper tubing with flanged couplings. Standard communication cables with industrial connectors enable rapid SCADA integration. Factory pre-calibration and automated startup sequences allow experienced technicians to complete installation within a single work shift. For legacy transformers without pre-installed DGA ports, solutions utilizing existing drain or sampling valves are available.

14. How Does a DGA Monitor Work with Other Transformer Monitoring Devices?

Analisis gas terlarut represents one component of comprehensive transformer health monitoring. For maximum diagnostic confidence, integrate the DGA monitor with complementary technologies: penderia suhu penggulungan gentian optik for direct hot-spot measurement, monitor pelepasan separa (UHF/acoustic) for insulation defect detection, monitor arus pembumian teras, kapasitans sesendal dan monitor delta tan, monitor penukar pili semasa beban, dan monitor suhu/paras/tekanan minyak tiga dalam satu. Peranti ini disepadukan melalui platform data bersatu yang membolehkan pengesahan silang kesalahan dan membimbangkan yang diselaraskan, dengan ketara meningkatkan ketepatan diagnostik berbanding pemantauan parameter tunggal.

15. How to Choose the Right DGA Monitor Configuration

Pemilihan konfigurasi bergantung pada kapasiti pengubah, kelas voltan, persekitaran pemasangan, dan objektif pemantauan. FJINNO menawarkan tiga peringkat penyelesaian:

Standard Configuration

7-pemantauan gas dengan komunikasi RS485/MODBUS — sesuai untuk aplikasi pencawang am dengan keperluan pemantauan sederhana.

Konfigurasi Lanjutan

Menambah pemantauan kelembapan dan protokol IEC61850 — sesuai untuk penilaian penebat komprehensif di pencawang kritikal yang memerlukan integrasi standard utiliti.

Fully Customized Solution

Engineered from single-unit installations to centralized multi-transformer online DGA monitoring systems with integration of complementary pemantauan transformer teknologi. Contact our engineering team for optimized technical solutions tailored to your specific requirements.

16. Atas 10 DGA Monitor Manufacturers 2025 — Global Supplier Guide

Memilih yang betul DGA monitor supplier affects product quality, sokongan selepas jualan, dan jumlah kos pemilikan. Below are 10 recognized manufacturers in the global market:

#1 FJINNO — Fuzhou Innovation Electronic Scie&Tech Co., Ltd. (China)

Ditubuhkan pada 2011, FJINNO is a professional Pengeluar monitor DGA pakar dalam transformer oil chromatography online monitoring systems. The company provides factory-direct wholesale pricing, complete OEM/ODM dan Label Peribadi perkhidmatan penyesuaian, and has established global export networks serving utilities, kemudahan industri, and system integrators worldwide. With independent R&D, ISO-certified manufacturing, and end-to-end service from design through delivery, FJINNO is a cost-effective choice for both standard and customized DGA solutions.

• E-mel: web@fjinno.net
• WhatsApp / WeChat / telefon: +86 13599070393
• QQ: 3408968340
• Alamat: Liandong U Grain Networking Industrial Park, No.12 Xingye West Road, Fuzhou, Fujian, China
• laman web: www.fjinno.net

#2 Vaisala (Finland)

Global leader in environmental and industrial measurement, offering the Vaisala OPT100 multi-gas DGA monitor widely adopted in European and North American utilities.

#3 ENCIK (Kilang mesin Reinhausen) (Jerman)

Renowned for on-load tap changers and transformer monitoring, MR provides integrated DGA solutions within its MSENSE product family.

#4 Qualitrol (USA)

A GE group company specializing in transformer condition monitoring instruments, including DGA monitors for utility and industrial applications.

#5 Serveron (USA)

Pioneers in online DGA technology, offering the TM series multi-gas monitors with extensive global installation base.

#6 Kelman (PRU) (UK)

Known for the TRANSPORT X portable DGA solution and MINITRANS online monitor, widely deployed across European utilities.

#7 Weidman (Switzerland)

Specialists in transformer insulation with integrated DGA monitoring capabilities as part of comprehensive transformer diagnostic solutions.

#8 Penilaian Dinamik (Australia)

Menyediakan sistem pemantauan transformer termasuk fungsi DGA, dengan kehadiran kukuh dalam pasaran Asia-Pasifik.

#9 Gatron / LumaSense (Jerman)

Offers optical DGA monitoring solutions based on photoacoustic spectroscopy technology for multi-gas detection.

#10 Kejuruteraan Doble (USA)

Established provider of transformer diagnostic equipment and services, including portable and online DGA solutions for utilities worldwide.

17. Why Choose FJINNO as Your DGA Monitor Supplier?

FJINNO combines over a decade of manufacturing experience with competitive factory-direct pricing. As an established manufacturer and exporter, we offer in-house R&D ensuring continuous product improvement, quality-controlled production under ISO certification, fleksibel OEM/ODM dan Label Peribadi services tailored to distributor and integrator requirements, multiple configuration options from standard to fully customized solutions, comprehensive technical support from design through commissioning, and proven global export experience with complete international documentation. Whether you need a single unit or a fleet-wide deployment across dozens of transformers, FJINNO delivers reliable Pemantauan DGA solutions on time and within budget.

18. Get Your Custom DGA Monitoring Solution Now

Contact FJINNO to receive complimentary technical consultation and solution design, terus kilang DGA monitor price petikan, product specifications and operation manuals, OEM/ODM customization service details, and exclusive bulk order incentives.

telefon / WhatsApp / WeChat: +86 13599070393
E-mel: web@fjinno.net
QQ: 3408968340
Factory Address: Liandong U Grain Networking Industrial Park, No.12 Xingye West Road, Fuzhou, Fujian, China

19. Soalan Lazim

S1: What does DGA stand for in transformer oil analysis?

DGA stands for Dissolved Gas Analysis — a diagnostic technique that detects and measures fault gases dissolved in transformer insulating oil to assess transformer health and identify developing internal faults according to IEC 60599 and IEEE C57.104 standards.

S2: What is included in a transformer oil DGA test kit?

A portable DGA test kit typically includes a handheld gas detector, oil sampling syringes, and basic analysis software for field use. An sistem pemantauan DGA dalam talian, sebaliknya, provides continuous automated 24/7 surveillance with full gas chromatography analysis, backend software, dan integrasi SCADA.

S3: How much does a DGA monitor cost?

DGA monitor price varies based on configuration (7-gas vs. simplified), keperluan komunikasi (RS485 vs. IEC61850), and customization scope. FJINNO offers competitive factory-direct pricing with volume discounts. Hubungi kami di web@fjinno.net for a customized quotation.

S4: Online DGA monitor vs portable DGA tester — which do I need?

Online DGA monitors provide continuous automated monitoring ideal for critical, high-value, or difficult-to-access transformers. Mudah alih DGA testers suit periodic spot-checks and field surveys. For mission-critical assets, online monitoring is strongly recommended.

S5: Can the DGA monitor detect moisture in transformer oil?

ya. FJINNO DGA monitors offer optional moisture (H₂O) detection with a range of 1–100 μL/L and accuracy of ±1 μL/L or ±15%, providing comprehensive insulation condition assessment.

S6: How often does the DGA monitor run an analysis cycle?

The minimum detection cycle is 2 jam. Users can configure any longer interval (4, 8, 24 jam) based on transformer condition. Newly commissioned or fault-suspected transformers benefit from shorter cycles.

S7: Can one backend system manage multiple DGA monitors?

ya. FJINNO supports N:1 communication architecture where one centralized backend platform manages multiple Pemantauan DGA unit, reducing overall system costs for substations with multiple transformers.

S8: Does FJINNO provide OEM/ODM and Private Label services?

ya. We manufacture under OEM agreements with customizable product appearance, functional parameters, antara muka perisian, and packaging. Complete Private Label solutions are available for distributors and system integrators.

S9: What certifications are available for international export?

FJINNO provides CE, ISO9001, and other international certifications along with complete export documentation (senarai pembungkusan, invois komersial, certificates of origin). Assistance with country-specific certifications (KEMA, UL, dll.) is also available.

S10: How do I get a quotation for bulk orders?

Contact FJINNO directly via email at web@fjinno.net or WhatsApp at +86 13599070393. Provide your transformer specifications, quantity requirements, and desired configuration for a customized bulk quotation with volume discounts and priority production scheduling.

20. Penafian

Spesifikasi teknikal, data prestasi, and product information presented on this page represent typical values based on laboratory testing and field installations under standard operating conditions. Actual performance may vary depending on transformer type, keadaan minyak, persekitaran pemasangan, and operating parameters. FJINNO reserves the right to modify product specifications without prior notice as part of continuous improvement efforts. This content is provided for general reference purposes. For application-specific technical guidance, please contact our engineering team directly. Compliance with local electrical codes, safety regulations, and utility standards remains the responsibility of the end user. Product warranties and support terms are defined in formal purchase agreements and service contracts. Manufacturer rankings in Section 16 are provided for informational purposes based on publicly available market data and do not constitute endorsement or comparative testing results.

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