Wuhan GDZX Power Equipment Co., Ltd Company News

The PDF-3000B DC System Ground Fault Tester is an advanced diagnostic tool designed to address grounding faults in DC power systems across substations, power plants, and industrial facilities. Combining portability with online monitoring-grade performance, the device integrates phase lead processing technology and data transfer algorithms to deliver high sensitivity, anti-interference capability, and operational safety. It enables non-invasive fault detection and precise localization without disconnecting power sources, making it indispensable for maintaining grid reliability.  Key Features  1.Dual-Mode Operation Analyzer: Directly powered by the DC bus (30–280V range), eliminating external AC/battery dependencies. Locator: Battery-powered (12V Li-ion) for field portability. 2.Comprehensive Fault DetectionDetects and locates all grounding types: High-resistance, virtual, direct, or capacitive grounding. AC interference (0–280V), diode-isolated circuits, and mixed AC/DC faults. Battery bank grounding and busbar capacitance (1–200μF). 3.Intelligent Signal Processing Directional Leakage Current Analysis: Measures phase and amplitude (0–100mA range, ±0.1mA resolution) to identify fault direction. Ripple Analysis & Digital Oscilloscope: Filters noise via spectral analysis and visualizes waveforms. 4.Safety & Compatibility Low output power (

As power grids evolve toward higher complexity and intelligence, the demand for advanced diagnostic tools grows. The TAG-8000 Wireless High-Voltage Phase Comparator emerges as a cutting-edge device designed to address challenges in grid synchronization, phase verification, and safety compliance. Tailored for 6kV–500kV AC transmission lines, this instrument integrates wireless technology, real-time analytics, and user-centric features, positioning itself as a critical tool for technicians in 2025’s dynamic power industry.  Key Features and Innovations 1.Wireless Remote Phase ComparisonThe TAG-8000 eliminates the risks associated with traditional wired systems by employing robust wireless transmission with a line-of-sight range of 100 meters, enabling safe operation in high-voltage environments. Its upgradable firmware supports remote nuclear phase verification, aligning with the industry’s shift toward digitalized grid management. 2.Intelligent Human-Machine Interface A 320×240 color LCD displays phase difference, frequency, vector diagrams, and phase alignment results. Voice prompts guide technicians through workflows, reducing operational errors and enhancing efficiency. An auto-shutdown function (1-hour inactivity) conserves battery life, critical for field operations. 3.High-Precision Measurement Phase accuracy: ≤5° error, ensuring reliable synchronization for grid interconnection. Frequency accuracy: ±0.1Hz, critical for stable power quality monitoring. Leakage current during high-voltage testing remains 

The LBQ-III Earth Leakage Circuit Breaker (ELCB) Tester is a handheld diagnostic instrument designed for evaluating the performance of residual current devices (RCDs) in electrical systems. It enables precise measurement of critical parameters, including trip current thresholds, non-trip current limits, and response times, ensuring compliance with safety standards. With its compact design, multi-range testing capabilities, and high-resolution display, the LBQ-III serves as an essential tool for field technicians and electrical engineers. Key Features 1.Portable DesignCompact dimensions (195×101×42mm) and lightweight construction facilitate on-site testing in confined spaces or remote locations. 2.Multi-System CompatibilitySupports testing of single-phase (AC220V) and three-phase (AC380V) RCDs, covering residential, commercial, and industrial applications. 3.Automated Current DetectionAutomatically identifies the exact trip current threshold across ten selectable ranges (30–1000mA), eliminating manual guesswork. 4.Direct Time MeasurementAccurately records RCD response times from 0 to 799ms with 0.5%±2-digit precision, critical for verifying time-sensitive protection mechanisms. 5.Enhanced VisibilityFeatures a 16-character blue backlit LCD for clear data readability in low-light environments. Technical Specifications 1.Input Voltage: AC220V/380V ±10% 2.Test Voltage Tolerance: ≤AC250V 3.Trip Current Ranges: 30, 50, 75, 100, 150, 200, 250, 300, 500, 1000mA (Class 1 accuracy) 4.Response Time Range: 0–799ms (±0.5% +2 digits) 5.Operating Conditions: Temperature: 0°C to 40°C Humidity:

The ZXYTM-Ⅱ Insulating Gloves/Boots Withstand Voltage Test System, developed to comply with international standards for insulating protective equipment testing, addresses the inefficiencies and safety risks of traditional testing methods. Designed for reliability and precision, this system ensures accurate evaluation of critical parameters such as leakage current, insulation aging, and power frequency withstand voltage, thereby safeguarding personnel during high-voltage electrical operations. Its modular design and advanced features make it indispensable for modern electrical safety testing. Key Performance Features 1.Efficiency and Scalability 1)Simultaneously tests 6 units (3 pairs) of insulating gloves or boots, significantly reducing testing time compared to single-unit methods. 2)Integrated multi-channel leakage current monitoring enables real-time, individual assessment of each specimen, ensuring precise identification of defective equipment. 2.Enhanced Safety Protocols 1)Automatically terminates tests upon detecting abnormal leakage currents or insulation failures, preventing catastrophic equipment damage. 2)Reinforced insulation barriers and fail-safe circuitry protect operators from accidental exposure to high voltages. 3.Mobility and Robust Construction 1)Equipped with heavy-duty casters and a compact footprint (test bench weight: 70 kg for glove testing, 45 kg for withstand voltage platform), allowing flexible deployment across laboratories or field sites. 2)Corrosion-resistant stainless steel framework ensures durability in harsh environments. 4.Customizable Testing Parameters Adjustable output voltage (0–100 kV) and capacity (0–50 kVA) accommodate diverse international standards (e.g., IEC 60903, ASTM F496). Technical Specifications Parameter Value/Range Input Voltage 220 V AC, 50 Hz Output Voltage 0–100 kV (customizable) Rated Capacity 0–50 kVA (customizable) Maximum Test Specimens 6 units per cycle Leakage Current Accuracy ±1% FS Weight 70 kg (glove test bench) 45 kg (withstand platform) Application in Electrical Safety ManagementThe ZXYTM-Ⅱ system is critical for preventive maintenance programs in substations, power plants, and industrial facilities. By rigorously validating the dielectric integrity of insulating gloves/boots, it mitigates risks associated with arc flashes, electrical shocks, and equipment failures. Its compliance with OSHA, NFPA 70E, and other regulatory frameworks ensures alignment with global safety practices. Advantages Over Conventional Methods 1)Data Logging & Reporting: Built-in RS-485/Bluetooth interfaces enable automated data recording for compliance audits. 2)Energy Efficiency: High-efficiency resonant circuit design reduces power consumption by 30% compared to linear test systems. 3)User-Centric Interface: Touchscreen controls with pre-programmed test profiles (e.g., IEC, IEEE) simplify operation for technicians.The ZXYTM-Ⅱ Insulating Gloves/Boots Withstand Voltage Test System redefines electrical safety testing through its combination of precision, adaptability, and operator protection. By streamlining compliance with international standards and enhancing testing throughput, it serves as a cornerstone for organizations prioritizing personnel safety and operational reliability in high-voltage environments. Future iterations may integrate AI-driven predictive analytics to further advance insulation lifecycle management. GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357.Website: https://www.highvoltage-testequipment.com/

As the year draws to a close, all departments of State Grid GDZX are bustling with activity, with shipments coming in one after another. Recently, State Grid GDZX custom-built a batch of high-voltage equipment for the Thai National Grid, including the ZXJF-150/250 Partial Discharge Test System and the ZXJF-2010 Partial Discharge Tester. The equipment ordered by the client was packed and ready for shipment to Thailand on December 24, 2024. Before shipment, the relevant technical personnel of State Grid GDZX conducted on-site inspections and tests to ensure the normal operation of the equipment and instruments. After the tests were completed, the equipment was secured and packaged in a large testing workshop using specialized instruments to ensure that the equipment would not be damaged during long-distance transportation. In cooperation with HMM International Container Company, the equipment was loaded into large containers for ocean shipping.  The equipment will be transported to a mainland port and then shipped by sea to the client in Thailand. "Practical work is the fundamental principle." State Grid GDZX pays attention to every detail of its products, ensuring quality as the top priority. For every shipment, all staff strictly follow standard procedures for production, testing, debugging, and loading to ensure smooth delivery. As a professional manufacturer of power equipment, State Grid GDZX offers high-quality products, a full range of models, reliable services, and a broad customer base both domestically and internationally. We welcome cooperation and exchange with users and industry friends. For cooperation inquiries, please call: 4000-828-027. GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357.Website: https://www.highvoltage-testequipment.com/

In the realm of electrical power systems, accurate measurement of contact resistance in high-voltage switching equipment is critical for ensuring operational reliability and safety. The ZXHL-200A Loop Resistance Tester emerges as a sophisticated solution designed to address the challenges of micro-ohm-level measurements under high-current conditions. Compliant with the DL/T845.4-2004 standard, this instrument integrates high-frequency switching power technology and advanced digital signal processing to deliver precision, stability, and adaptability for field and industrial applications. Core Design Philosophy The ZXHL-200A distinguishes itself through its dual-range DC output capability (100A and 200A), aligning with IEC and national standards for contact resistance testing. Unlike conventional impulse current methods that risk incomplete oxidation layer penetration, its continuous DC output ensures sustained current flow, effectively breaking through oxide films on switch contacts. This design minimizes measurement uncertainty caused by transient effects, offering a true reflection of contact resistance under operational loads. Key innovations include: 1.High-Frequency Switching Power Supply: Enables stable, ripple-free DC output (50A–200A) with minimal thermal drift. 2.Digital Noise Suppression: A proprietary algorithm filters electromagnetic interference (EMI) from high-voltage environments, achieving a ±1 LSD (Least Significant Digit) stability on the 3½-digit LCD. 3.Temperature-Compensated Precision Resistors: High-precision shunt resistors (0.01% tolerance) combined with thermal management ensure ±0.5% accuracy across -10°C to 40°C. Measurement Performance and Specifications 1. Metrological Capabilities Range: 1–1999 μΩ (1 μΩ resolution) Accuracy: ±(0.5% rdg + 2 μΩ) Current Output: 50A/100A/150A/200A (fixed modes) 2. Comparative Advantages Oxide Layer Penetration: Sustained DC current eliminates the "false low-resistance" phenomenon observed in pulse-driven testers, which often fail to disrupt insulating surface layers. Repeatability: Tests on oxidized Cu-Cu contacts (200A, 60s) show ≤1.5% variation, outperforming pulsed systems by a factor of 3. 3. Environmental Resilience Operates at 80% RH non-condensing and subzero temperatures, critical for outdoor substation diagnostics. IP52-rated enclosure protects against particulate ingress. Operational Features for Field Technicians 1.Ergonomic Design Compact footprint (380×350×260 mm³) and 5kg weight enable single-operator portability. Direct-read LCD with analog-style bargraph simplifies data interpretation in low-light conditions. 2.Safety and Durability Gold-plated Kelvin clamps reduce contact resistance and withstand 10,000 mating cycles. Reinforced input protection (AC 220V ±10%, 50Hz) with surge suppression. 3.Application Versatility Beyond HV circuit breakers, the ZXHL-200A serves busbar joints, transformer tap changers, and rail bonding systems. Case studies in 500kV GIS substations demonstrate a 40% reduction in diagnostic time compared to traditional bridge methods. Case Study: Addressing Transient Resistance in SF6 Breakers In a 2023 field trial at a coastal substation, the ZXHL-200A identified intermittent resistance spikes (1,200–1,550 μΩ) in 145kV SF6 breaker contacts under 200A load. Conventional 100A testing had reported "passing" values (≤800 μΩ), but prolonged 200A testing exposed arcing-induced carbon deposits—validating the necessity of higher test currents for aged equipment. The ZXHL-200A redefines micro-ohmmeter standards by merging high-current robustness with metrological precision. Its ability to deliver repeatable, interference-free measurements in harsh environments positions it as an indispensable tool for predictive maintenance programs. As grid infrastructure ages, such technologies will play a pivotal role in minimizing unplanned outages and extending asset lifecycles. GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357. Website: https://www.highvoltage-testequipment.com/

The DDG Series High-Current Generator is a specialized electrical testing apparatus designed for power utilities and industrial facilities to perform critical current load tests, thermal rise evaluations, and calibration of protective devices. Engineered to deliver precise and stable high-current outputs, this equipment supports applications such as primary busbar protection, current transformer (CT) ratio verification, and relay/breaker setting validations. With modular designs ranging from compact integrated units to split configurations for high-capacity requirements, the DDG series addresses diverse testing needs while prioritizing operational safety and reliability. Key Design Features 1.Dual-Range Current MonitoringEquipped with two independent ammeters, the system enables simultaneous monitoring of both primary and secondary current values. This dual-range capability ensures accurate measurement across varying load conditions, from low-current precision tests to high-current stress evaluations. 2.Autotransformer-Based Current ControlA finely adjustable autotransformer provides smooth, stepless current regulation (0–rated current). This design eliminates abrupt load transitions, reducing electromagnetic stress on test objects and enhancing measurement repeatability. 3.Intuitive Human-Machine Interface (HMI)Simplified operator interaction is achieved through status indicator lights and tactile push-button controls. The interface supports rapid configuration changes while maintaining compliance with IEC safety standards for high-current environments. 4.Modular Structural Design Integrated Units (≤3000A): Compact monoblock architecture minimizes footprint for field deployments. Split Systems (>3000A): Segregated transformer and control modules reduce weight per component (e.g., 180kg total for 8000A model) while improving thermal management and transport flexibility.  Technical Specifications & Performance Parameters Model Rated Current (A) Capacity (kVA) Input Voltage (V) Input Current (A) Output Voltage (V) Dimensions (L×W×H, mm) Weight (kg) Configuration DDG-500 500 3 200 15 6 430×338×550 48 Integrated DDG-1000 1000 6 200 30 6 500×380×600 80 Integrated DDG-2000 2000 12 220 50 6 550×420×700 65/45 Integrated/Split DDG-2500 2500 15 380 39.5 6 600×430×790 85/65 Integrated/Split DDG-3000 3000 18 380 55 6 620×440×800 160 Integrated/Split DDG-4000 4000 24 380 63 6 640×450×820 105/85 Integrated/Split DDG-5000 5000 30 380 79 6 600×430×900 145/135 Split DDG-10000 10000 60 380 158 6 800×600×1100 200 Split DDG-20000 20000 60 380 158 6 800×600×1100 240 Split Notes: 1.Duty Cycle: Designed for 5-minute short-term operation. For intermittent use, limit ON-time to ≤2.5 minutes with ≥10-minute cooling intervals. 2.Output Voltage: Fixed 6V secondary voltage optimizes compatibility with standard test object impedances (e.g., switchgear, CTs). 3.High-Efficiency Design: 20000A model achieves 200% current scaling vs. 10000A variant at identical 60kVA capacity through advanced magnetic circuit optimization. Typical Applications 1.Protective Relay TestingValidate instantaneous/timed tripping characteristics of overcurrent relays (e.g., IDMT curves) up to 20kA fault simulations. 2.CT Ratio/Polarity VerificationInject secondary currents up to 10000A for accuracy class assessments per IEEE C57.13. 3.Circuit Breaker Thermal Withstand TestsSimulate continuous rated currents (e.g., 4000A for 2.5 minutes) to evaluate contact resistance and insulation degradation. 4.Busbar Joint Resistance MeasurementApply 500–2000A currents to detect micro-ohm level resistance variations in substation connections. Operational Guidelines 1.Pre-Test Preparation: Verify input voltage compatibility (200V/220V/380V variants) and ensure adequate cooling for split configurations. 2.Safety Protocols: Use IR-certified gloves and face shields during high-current (>3000A) tests due to intense magnetic fields. 3.Maintenance: Perform annual insulation resistance tests (≥100MΩ at 2500V DC) and autotransformer contact inspections. The DDG Series High-Current Generator combines precision engineering with rugged field adaptability, making it indispensable for modern power system commissioning and maintenance. Its scalable architecture—from 500A integrated units to 20kA split systems—ensures cost-effective solutions for utilities, OEMs, and industrial testing teams. Future iterations are expected to integrate IoT-enabled load profiling and adaptive thermal derating algorithms for enhanced operational intelligence. GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357.Website: https://www.highvoltage-testequipment.com/

Zinc Oxide Surge Arresters (MOA) are critical components in modern power systems, protecting equipment from transient overvoltages. Ensuring their operational integrity requires precise evaluation of key parameters, including DC reference voltage (U₁mA) and leakage current at 0.75U₁mA. The ZX-MOA DC Parameter Tester addresses these needs with an integrated, automated solution designed for field and factory applications. Key Features 1.Fully Automated MeasurementThe ZX-MOA employs closed-loop control and microprocessor technology to autonomously execute tests. Operators initiate measurements with a single button, and the system completes both U₁mA and 0.75U₁mA leakage current evaluations within 15 seconds. This rapid cycle enhances efficiency for batch testing scenarios. 2.Compact All-in-One DesignIntegrating a DC high-voltage generator (0–30 kV), precision measurement circuits, and control logic into a portable chassis (≤15 kg), the instrument eliminates the need for external power supplies or auxiliary equipment. Its lightweight construction facilitates deployment in substations, power plants, and manufacturing facilities. 3.Engineered for Field Reliability High-voltage components utilize military-grade insulation materials to ensure stability under harsh environments (humidity ≤85% at 25°C). Simplified two-terminal Kelvin sensing minimizes wiring errors during on-site testing. Transient suppression circuitry protects against electrostatic interference during high-voltage switching. Technical Specifications Parameter Specification Voltage Range 0–30 kV (±1% accuracy) Current Range 0–1000 μA Temperature Range 0–+40°C (operational) Altitude Tolerance 5% drift indicates failure risk). 2.Production Quality ControlValidate consistency of U₁mA thresholds during arrester manufacturing, ensuring compliance with IEEE C62.11 standards. 3.Post-Fault AnalysisPerform diagnostic tests on arresters exposed to lightning strikes or switching surges to confirm post-event insulation recovery. The ZX-MOA DC Parameter Tester redefines efficiency in surge arrester diagnostics through intelligent automation and rugged portability. By delivering laboratory-grade accuracy in field conditions, it serves as an indispensable tool for power utilities and OEMs committed to maintaining grid reliability. Technical teams can leverage its rapid testing capability to optimize maintenance schedules and mitigate unplanned outages caused by arrester failures.  GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357. Website: https://www.highvoltage-testequipment.com/

     The ZXSBF Series Inductive Withstand Voltage Test System represents a critical advancement in high-voltage insulation testing for power systems. Designed in strict compliance with China's GB311-61 standard and the 1985 Preventive Test Regulations for Electrical Equipment issued by the former Ministry of Water Resources and Electric Power, this system addresses the rigorous demands of insulation evaluation for 35–220 kV cascaded voltage transformers (VTs). Beyond its primary application, it extends functionality to motor windings, small transformers, and short-duration 150 Hz power supply scenarios. This article delves into the technical architecture, operational superiority, and field applicability of the ZXSBF system for power industry professionals. Core Technical Specifications 1.Input/Output Characteristics 1)Input: 3-phase 380 V, 50 Hz sinusoidal supply. 2)Output: Configurable AC voltage (0–300 V/500 V/1,000 V) at 150 Hz, tailored to user requirements. 3)Waveform Distortion: ≤5%, ensuring compliance with IEC 60060-1 for high-precision testing. 4)Capacity Range: Scalable design (0–375 kVA) to accommodate diverse test objects. 2.Operational Constraints 1)No-load Duration: ≤5 minutes (prevents core saturation in test devices). 2)Loaded Operation: 40–60 seconds (optimized for thermal limits and insulation stress). Engineering Design Philosophy 1. Frequency Tripling Technology The ZXSBF employs a magnetic frequency multiplier to generate a 150 Hz output from a 50 Hz supply. This tripling mechanism replicates the harmonic stress encountered in real-world grid conditions, enabling accurate assessment of inter-turn and layer insulation integrity in VTs. The non-sinusoidal voltage stress simulation is critical for detecting latent defects in epoxy-resin-insulated windings. 2. Adaptive Voltage Control A multi-tap reactor system allows precise voltage regulation across the 0–1,000 V range. This flexibility accommodates testing of both high-voltage primary windings (e.g., 220 kV VTs) and low-voltage secondary circuits, eliminating the need for external booster transformers. 3. Dynamic Load Management The system integrates real-time thermal monitoring and duty cycle control, automatically terminating tests upon exceeding 60 seconds under load. This safeguards against winding overheating—a common failure mode during prolonged induced voltage tests. Field Applications & Advantages Over Conventional Methods 1. VT Insulation AssessmentTraditional power-frequency (50 Hz) tests fail to adequately stress cascaded VT designs due to magnetic flux limitations. The ZXSBF's 150 Hz output elevates induced voltages without driving cores into saturation, enabling: 1)Detection of inter-layer insulation weaknesses in epoxy-cast VTs. 2)Validation of insulation coordination between primary and secondary windings. 2. Motor Winding TestingWhen evaluating form-wound motor stator windings, the system's variable frequency output allows users to perform turn-to-turn withstand tests at 2× rated voltage + 1 kV (per IEEE 522-2004), simulating switching surge conditions. 3. Operational EfficiencyCompared to resonant test systems, the ZXSBF reduces deployment time by 60% due to its compact reactor design and eliminates the need for complex frequency tuning. Field data from State Grid Corporation trials show a 92% first-pass rate in identifying defective 110 kV VTs during routine maintenance. Critical Implementation Considerations 1.Waveform IntegrityThe ≤5% THD specification ensures the absence of triplen harmonics that could artificially inflate dielectric stress. Users must validate waveform purity annually using IEC 61000-4-7 compliant analyzers. 2.Grounding PracticesWhen testing unearthed VT secondaries, ensure the test system's neutral point is solidly grounded to prevent floating potentials exceeding 10% of test voltage—a common cause of false failure indications. 3.Transient SuppressionIntegrate RC snubber circuits (e.g., 100 Ω + 0.1 μF) at the output terminals when testing gas-insulated substation (GIS) VTs to mitigate high-frequency oscillations from SF6 bushing capacitances.      The ZXSBF Series redefines efficiency in high-voltage insulation diagnostics by merging precision frequency control with rugged field adaptability. Its ability to simulate realistic harmonic stress profiles positions it as an indispensable tool for utilities transitioning to smart grid architectures with increased power electronics penetration. As IEC 61869-11 places stricter demands on VT transient response, this system provides a future-proof platform for validating next-generation instrument transformer designs.      GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357. Website:https://www.highvoltage-testequipment.com/

     The WL-V SF6 High-Precision Micro-Water Analyzer represents a breakthrough in moisture measurement technology, specifically engineered for the rigorous demands of power systems and industrial gas analysis. This intelligent instrument integrates European-standard calibration methodologies with cutting-edge automation, delivering unparalleled accuracy and efficiency in detecting trace moisture levels in SF6 gas and other non-corrosive media. Designed for technicians and engineers in utilities, petrochemicals, and environmental sectors, this device redefines reliability in critical gas quality monitoring. Technical Specifications 1.Measurement Range & Accuracy 1)Dew Point Range: -80℃ to +20℃ (0.04 ppm to 23,700 ppm). 2)Precision: ±1.0℃ (-60℃ to +20℃); ±2.0℃ (-80℃ to -60℃). 3)Response Time:63% in 5 sec / 90% in 45 sec (for -60℃ to +20℃)；63% in 10 sec / 90% in 240 sec (for +20℃ to -60℃)； 2.Environmental Tolerance 1)Operating Temperature: -40℃ to +60℃. 2)Storage Temperature: -40℃ to +80℃. 3)Humidity Tolerance: 0–100% RH.  3.Power & Portability 1)Built-in 4Ah Li-ion battery (10+ hours runtime; 4-hour recharge). 2)Compact Dimensions: 250×100×300 mm; 5 kg. 4.Data Management 1)Storage Capacity: 250 datasets. 2)Connectivity: RS232 interface for PC data transfer. 3)Output: Integrated micro-thermal printer for instant reporting. Key Performance Features 1.Auto-Calibration TechnologyThe WL-V employs a self-correcting sensor that autonomously eliminates zero-drift errors, ensuring sustained accuracy without annual recalibration. This feature minimizes downtime and operational costs in long-term deployments. 2.Rapid Measurement CycleOptimized for SF6 gas compartments, the analyzer completes moisture detection within 2 minutes per test cycle. High-speed response algorithms enable real-time monitoring, critical for substation maintenance and leak detection. 3.Industrial-Grade Hardware Design 1)German-Imported Self-Locking Connectors: Ensures leak-free gas sampling under high-pressure conditions. 2)4.3-inch Color Touchscreen: Displays dew point curves, ambient parameters (temperature/humidity), and historical data trends. 4. Robust Field AdaptabilityThe IP-rated chassis withstands extreme temperatures (-40℃ to +60℃), making it ideal for outdoor substations and harsh industrial environments. Applications in Power Systems 1.SF6 Gas MonitoringThe WL-V excels in detecting moisture in SF6-insulated switchgear, circuit breakers, and GIS systems. Excess humidity in SF6 accelerates arc-byproduct formation, risking equipment failure. Precise ppm-level detection safeguards dielectric strength and operational safety. 2.Preventive MaintenanceBy tracking dew point trends, technicians predict insulation degradation and schedule dry-air purging, extending asset lifecycle. Stored data supports compliance with IEEE C37.122 and IEC 60480 standards. 3.Cross-Industry VersatilityCompatible with N2, inert gases, and compressed air systems, the analyzer serves transformer oil drying, pipeline drying validation, and industrial gas quality control.     GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357. Website: http://mao.ecer.com/test/highvoltage-testequipment.com/ Operational Workflow  1.Sampling Protocol 1)Connect the self-locking probe to the gas compartment. 2)Initiate auto-zero calibration via the touchscreen interface. 2.Real-Time AnalysisMonitor live dew point curves and ppm values. The color LCD highlights thresholds (e.g., IEC-recommended 500 ppm for SF6). 3.Post-Measurement Actions 1)Save or print results with timestamps. 2)Export datasets via RS232 for trend analysis in SCADA or asset management software.      The WL-V SF6 Micro-Water Analyzer combines laboratory-grade precision with rugged field readiness, addressing the evolving needs of smart grid diagnostics and industrial gas analysis. Its auto-calibration, rapid sampling, and data-logging capabilities empower technicians to optimize maintenance schedules, reduce unplanned outages, and ensure regulatory compliance. As power systems increasingly adopt SF6 alternatives, this instrument’s adaptability positions it as a future-proof investment for next-generation energy infrastructure. GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357.Website: https://www.highvoltage-testequipment.com/

    In the power industry, precise measurement of contact resistance in high-voltage (HV) and low-voltage (LV) switches, as well as critical components like HV cables, is essential to ensure operational safety and efficiency. Traditional resistance testing methods often struggle to balance speed, accuracy, and portability. The next-generation DC Resistance Tester addresses these challenges with cutting-edge technology, offering unparalleled performance for modern electrical infrastructure diagnostics. Key Innovations 1.High-Current Precision TestingEquipped with a configurable output current of up to 200A, this tester enables rapid and accurate micro-ohm-level measurements (resolution: 0.1µΩ) across a wide range of applications. Multi-stage current selection (200A, 150A, 100A, 50A) ensures adaptability to diverse scenarios, from substation circuit breakers to distribution panel contacts. The extended measurement range (up to 10mΩ at 50A) accommodates both low-resistance components and degraded systems requiring detailed analysis. 2.Enhanced Field EfficiencyPowered by a high-capacity lithium battery, the device supports 500+ consecutive tests on a single charge, eliminating dependency on external power sources. Its compact design (220×168×65mm, 1.6kg) and rugged construction make it ideal for field technicians. The 4.3-inch industrial-grade LCD remains visible even under direct sunlight, ensuring reliable data interpretation in harsh environments. 3.Intelligent Safety and Data ManagementIntegrated safety mechanisms, including open-circuit protection and thermal overload safeguards, prioritize user and equipment protection during high-current operations. For data documentation, the tester supports dual storage modes—local memory and USB drives—alongside seamless compatibility with external printers. This feature streamlines compliance reporting and historical trend analysis for maintenance teams. 4.Customizable Testing ProtocolsUsers can select measurement durations from "Fast" mode to 60-second cycles, optimizing workflows for preventive maintenance or fault diagnostics. The auto-shutdown function conserves energy after 5 minutes of inactivity, extending operational readiness. Technical Superiority 1)Accuracy: ±(0.5% of reading +1µΩ) ensures compliance with IEEE and IEC standards for electrical testing. 2)Versatility: Covers applications from HV switchgear contact degradation assessment to LV busbar joint inspections. 3)Eco-Friendly Design: The 12.6V lithium battery reduces carbon footprint compared to conventional diesel-generator-powered systems. Industry Impact    By minimizing downtime through rapid testing and enabling predictive maintenance strategies, this instrument enhances grid reliability. For example, a 200A test on a 800µΩ circuit breaker contact can detect resistance deviations as low as 4.1µΩ (within 0.5% error margin), identifying early-stage oxidation or loosening before catastrophic failures occur.    As power networks evolve toward higher capacities and smarter infrastructure, the demand for precision diagnostic tools grows exponentially. This DC Resistance Tester sets a new benchmark by combining laboratory-grade accuracy with field-portable robustness, empowering utilities to achieve safer, more efficient asset management in the era of renewable energy integration and grid digitalization.   GDZX is a manufacturer of power testing equipment, offering a wide range of product categories with comprehensive models and providing professional technical support. Contact: +86-17396104357.Website: https://www.highvoltage-testequipment.com/

   The ZXZH-IK SF6 Comprehensive Analyzer represents a state-of-the-art solution for critical gas analysis in high-voltage power equipment. Designed for technicians and engineers in the electrical industry, this instrument integrates cutting-edge sensor technologies, robust data processing capabilities, and user-centric design to deliver precise measurements of SF6 gas properties and decomposition byproducts. Its multi-parameter detection system addresses the growing demand for reliable insulation monitoring and fault diagnosis in GIS (Gas-Insulated Switchgear) and transformer applications. Core Technological Features 1.Multi-Sensor Fusion Architecture 1)Utilizes VAISALA's humidity sensor (measuring range: -80℃ to +20℃ dew/frost point) with ±0.5℃ accuracy and ALPHA's thermal conductivity sensors for purity detection (0-99.99% range, ±0.1% accuracy). 2)Incorporates electrochemical sensors for detecting critical decomposition gases: A.SO₂/H₂S: 0-100 μL/L (±0.5 μL/L sensitivity) B.CO: 0-500 μL/L (±1 μL/L) C.HF: 0-10 μL/L (0.1 μL/L resolution) 2.Enhanced Measurement Performance 1)Rapid response times: Achieves 63% response in 5s for +20→-20℃ dew point transitions 2)Temperature-compensated calculations: Automatic conversion to 20℃ standard moisture values 3)Anti-interference design: Stainless steel sintered filter (0.8-1.0 L/min flow control) ensures longevity in harsh environments 3.Intelligent Data Management 1)ARM-based processing system enables real-time curve display and 1,000-data-point storage 2)Supports multiple units (ppm, μL/L, %vol) with 0.1℃/0.1ppm resolution 3)Industrial-grade operation: Functions at -35℃ to +60℃ with 0-20bar pressure tolerance 4.Ergonomic Field Operation 1)6.5kg compact design (340×200×120mm) with dual power supply (220VAC/24V Li-battery) 2)7" color touchscreen with intuitive GUI for parameter visualization 3)IP67-rated protection and battery status monitoring Technical Superiority in Applications 1)Fault Gas Analysis: Simultaneous detection of SO₂/H₂S/CO/HF enables early identification of partial discharge and overheating faults. 2)Purity Verification: Thermal conductivity sensor maintains ±0.1% accuracy across 90-99.99% SF6 concentration range. 3)Moisture Control: Patented dew-point algorithm prevents condensation interference during measurement. 4)Environmental Adaptability: Maintains measurement stability across 40kPa pressure variations (±10% flow fluctuation tolerance). Performance ValidationLaboratory tests demonstrate: 1)Repeatability: ±0.2℃ dew point variation across 100-cycle tests 2)Long-term drift: