Application: TKBLQ-I zinc oxide arrester tester is a special instrument used to test the electrical performance of arresters. The instrument is suitable for live or power failure detection of arresters of various voltage levels, so as to timely detect the internal insulation damp and valve aging and other dangerous defects. TKBLQ-I zinc oxide arrester test instrument is easy to operate and easy to use. The whole measuring process is controlled by microcomputer. It can measure the total current, resistive current and its harmonics, power frequency reference voltage and its harmonics, active power and phase difference. The real waveform of voltage and current can be displayed on the large screen. Features: 1. 5.7 "320 Ã?? 240 LCD, high-speed thermal printer; graphic display, intuitive interface, easy to operate and use. 2. It is applicable to live arrester, power failure or laboratory. 3. The current and voltage sensors are completely isolated, safe and reliable. A, B, C three-phase arrester can be stored as a group of test data. 4. The instrument can test continuously, display voltage current curve, and print data and curve quickly. 5. The internal configuration memory can store 200 groups of test data when power down. 6. With RS232 communication interface, the test data can be exported through the upper computer. 7. High speed sampling frequency, advanced digital signal processing technology, strong anti-interference performance, high accuracy of measurement results. 8. It adopts dustproof, waterproof and anticorrosive engineering plastic sealing box, which is small in volume, light in weight and easy to carry.
TKBLQ-II zinc oxide arrester tester is a special instrument used to test the electrical performance of zinc oxide arrester. The instrument is suitable for live or power failure detection of zinc oxide arrester of various voltage levels so as to timely detect the internal insulation damp and valve aging and other dangerous defects. TKBLQ-II zinc oxide arrester tester is easy to operate and easy to use. The whole measuring process is controlled by single chip microcomputer. It can measure the total current resistive current and its harmonics power frequency reference voltage and its harmonics active power and phase difference. The instrument uses digital waveform analysis technology harmonic analysis and digital filtering software anti-interference methods to make the measurement results accurate and stable. 1. This machine adopts large screen LCD display all English menu operation easy to use. 2. High precision sampling and processing circuit and advanced Fourier harmonic analysis technology ensure more reliable data. 3. The instrument adopts high-speed magnetic isolation digital sensor to directly collect the input voltage and current signals which ensures the reliability and safety of the data. 4. Support wireless synchronous voltage sampling mode (type II). 5. The instrument can use electric field induction instead of PT secondary wiring (type I). 6. It has the functions of resistive current fundamental peak output and side phase correction. 7. The instrument is equipped with rechargeable battery calendar clock and micro printer which can store 120 sets of measurement data.
DK-60 power supply series modular surge protective device(SPD) is designed according to IEC61643 standard. It is accordance with the criterion of Low-voltage Surge Protective Devices-Part 1: Surge Protective Devices Performance Requirements and Test Method of Low-voltage Power Distribution System. With good sealing, it is designed as module and 35mm DIN-Rail Mounting. With working indication window, temperature control circuit breaker and built-in over-current protective circuit, the modular SPD can release automatically to avoid fire danger when it breaks down. With remote alarm connector, it is convenient for remote monitoring. The main module and the base are replaceable. The lightning protection modes is L-PE, N-PE (4P) or L-N-PE (3+1).
11KV/33KV/66KV/110KV/220KV Low & High Voltage Composite Polymer Suspension Type Surge Arrester Lightning Arrester Manufacturer Product Description Standards: IEC 60099-4 The ambient air temperature is no higher than +40 C, no lower than-40 C. The altitude above sea level dose not exceed 2000m. AC system frequency is 50Hz or 60Hz. AC voltage brought to bear on arrester for a long time dose not exceed arrester's continuous operating voltage. The maximum wind speed dose not exceed 35m/s. The earthquake intensity dose not exceed 7 degrees.
High voltage surge arresters, also called lightning arresters, are electrical devices designed to protect high voltage systems and equipment from voltage surges or transients caused by lightning strikes, switching operations, or other sources. They are typically installed in power transmission systems, substations, and industrial facilities, where high voltage is used. YF POWER is one of the leading high voltage surge arrester manufacturers, offering a range of high-quality products designed to provide superior protection against electrical surges. YF POWER's high voltage surge arresters feature a robust construction and high energy absorption capabilities, suitable for extra high voltage power systems. The company's products are designed to meet international standards, ensuring the highest level of protection and performance. YF POWER's commitment to innovation and customer satisfaction has made the brand a trusted partner for customers worldwide. Types of High Voltage Surge Arresters 36kV Surge Arrester 66kV Surge Arrester 110kV Surge Arrester 220kV Surge Arrester 330kV Surge Arrester 500kV Surge Arrester 1000kV Surge Arrester Working Principle of High Voltage Surge Arresters The working principle of high voltage surge arresters is based on the principle of providing a low impedance path for transient currents caused by high voltage surges. High voltage surge arresters operate by using non-linear resistance elements made of metal oxide varistors or silicon carbide. These materials provide a high resistance under normal operating conditions but switch to a low resistance state in the presence of high voltage surges. When a surge occurs, the surge arrester conducts the excess energy to the ground, reducing the peak voltage level that the equipment is exposed to, ensuring the equipment is protected from damage. The high voltage surge arresters can also operate with high energy, fast response time, and frequent surge stress, making it a reliable and effective protection solution for high voltage power systems. Proper installation and testing of high voltage surge arresters are essential for effective performance.
66kV Surge Arrester High-quality 66 Kv Lightning Arresters from YF POWER! YF POWER is a leading manufacturer of 66 Kv Lightning Arresters. Renowned for their durable design and long lifespan, our premium 66Kv surge arresters are made from high-grade materials. As one of high voltage surge arresters, our 66Kv surge arrester is the ideal solution for protecting infrastructure, enhancing reliability, and supporting the efficient operation of electrical systems. Discover the superior quality and reliability of our 66Kv surge arresters today! Features of YF POWER 66kV Lightning Surge Arrester Enhanced electrical performance and reliability Ease of installation with lightweight and compact dimensions Resistant to explosions and shattering, less mechanical damage Improved performance in polluted environments Built to resist vandalism Moisture-proof construction Increased safety standards & mechanical strength
Medium voltage surge arrester are electrical devices designed to protect electrical equipment from surges or transients that occur on medium-voltage power systems. These systems typically operate at voltages between 1kV and 36kV, and they are commonly found in various industries, such as manufacturing, oil and gas, and utilities. Medium voltage surge arresters work by detecting and diverting excess voltage away from the equipment and toward the ground. They are typically composed of metal oxide varistors (MOV) or zener diodes, which provide a low resistance path to the ground during transient events. When a surge or transient occurs, the surge arrester conducts the excess energy to the ground, protecting the equipment from damage. MV surge arrester are selected based on the specific application, voltage requirements, and surge current capacity. They are often installed in parallel with the equipment they are protecting, with a short path to the ground. Proper installation and maintenance are important to ensure the effectiveness of the medium voltage surge arrester. Application of Medium Voltage Surge Arresters surge arrester medium voltage are commonly used in a variety of applications, including power distribution systems, industrial facilities, and commercial buildings. They are installed to protect equipment such as transformers, switchgear, motors, and other medium voltage electrical components from voltage surges or transients caused by lightning, switching operations, or other sources. Medium voltage surge arresters are also used for the protection of telecommunication networks, data centers, and other critical electronic equipment. They play a significant role in ensuring the safety and reliability of power systems, protecting equipment from damage, and reducing the risk of operational downtime. Proper selection, installation, and maintenance of medium voltage surge arresters are essential to their effective operation and long-term service life. For more information about medium voltage surge protection and varistor zno, please feel free to contact us!
Product Introduction Sintered metal flame arresters are designed to prevent the propagation of flames in gas or vapor handling systems. They are typically composed of cylindrical housing with a sintered metal element inside. The element is made up of multiple layers of metal powder that are compressed and sintered (heated without melting) to form a porous material with precise pore sizes and distribution. When a flammable gas or vapor mixture passes through the flame arrester, the element acts as a filter, allowing the gas or vapor to flow through while trapping any flames or sparks. The porous material of the element also provides a large surface area for heat dissipation, making it difficult for any trapped flames to ignite the surrounding atmosphere. Product parameters Material: stainless steel 304/316L Pore size: 0.2um, 0.5um, 2um, 5um, 10um, 15um, 20um, 40um, 60um, 90um, 100um Technology: Powder Sintering Temperature range: below 600 C Style: customized according to customer needs Features Effective flame arrestation: The porous material of the sintered metal element acts as a filter, allowing gas or vapor to pass through while trapping any flames or sparks. This helps to prevent the risk of fire or explosion in industrial settings where flammable gases or vapors are present. Precise flow control: The pore size and distribution of the sintered metal element can be tailored to control the velocity and direction of gas or vapor flow. This allows for precise flow control, which is important in many industrial applications. Durable and long-lasting: Sintered metal flame arresters are made from high-quality materials that are designed to withstand harsh industrial environments. They are typically very durable and long-lasting, providing reliable flame arrest for many years. Low maintenance: Sintered metal flame arresters require minimal maintenance, making them a cost-effective solution for many industrial applications. Regular inspections and cleaning can help ensure that the porous element remains free of debris and in good working condition.
Sintered metal flame arresters are designed to prevent the propagation of flames in gas or vapor handling systems. They are typically composed of a cylindrical housing with a sintered metal element inside. The element is made up of multiple layers of metal powder that are compressed and sintered (heated without melting) to form a porous material with precise pore sizes and distribution. Product parameters Material: stainless steel 304/316L Pore size: 0.2um, 0.5um, 2um, 5um, 10um, 15um, 20um, 40um, 60um, 90um, 100um Technology: Powder Sintering Temperature range: below 600 C Style: customized according to customer needs Features Effective flame arrestation: The porous material of the sintered metal element acts as a filter, allowing gas or vapor to pass through while trapping any flames or sparks. This helps to prevent the risk of fire or explosion in industrial settings where flammable gases or vapors are present. Precise flow control: The pore size and distribution of the sintered metal element can be tailored to control the velocity and direction of gas or vapor flow. This allows for precise flow control, which is important in many industrial applications. Durable and long-lasting: Sintered metal flame arresters are made from high-quality materials that are designed to withstand harsh industrial environments. They are typically very durable and long-lasting, providing reliable flame arrestation for many years. Low maintenance: Sintered metal flame arresters require minimal maintenance, making them a cost-effective solution for many industrial applications. Regular inspections and cleaning can help ensure that the porous element remains free of debris and in good working condition. Application Oil storage tanks are commonly used to store crude oil, refined petroleum products, and other flammable liquids. In order to prevent the risk of fire or explosion, flame arresters are often installed on the vents of these tanks. When the tank is filled or emptied, a mixture of air and flammable vapors is released through the vent. If a flame were to ignite this mixture, it could cause a catastrophic explosion. However, by installing a flame arrester on the vent, the flammable vapors are filtered through the sintered metal element, preventing any flames or sparks from passing through. In addition to storage tanks, sintered metal flame arresters are also commonly used in pipelines that transport crude oil, refined petroleum products, and other flammable gases or vapors. They can be installed at various points along the pipeline to prevent the propagation of flames in the event of a fire or explosion.
Lightning Arrester is mainly used to protect distribution transformer, cable connector and electric equipment from being damaged by lightning impulse voltage and operated over-voltage. The varistor used in the arrester is subjected to a series of physical and electrical tests to ensure the protective ability, and the high-level housing verifies the insulating properties. The arrester has been designed and type tested according to IEC standard. Standard.
Ac power arrester surge protector Applications: C/d class surge protective device for ac power system. Sensitive electronic equipment Telecom centers Automatic control centers Intelligent mansions Industrial enterprises Medical institutes Features: Din rail mounting for easy installation Plug connectors for quick and easy connection or rewiring 40ka maximum surge current Thermal disconnect device Status indicators visually verify protection level Surge protection device with n-pe residual current spark gap as 3+1 circuit Specifications about m40b3+n Parameterm40dnpe50 Iec /vde level ii/c ii/c Nominal operating voltage 110/220v ac 500v(n-pe) Max. Continuous operating voltage 275v 61630;/250v Leakage current at 1ma
1. With single or multiple spike air terminal. 2. With self-supporting base support. 3. Copper Pipe length 1200mm, Pipe OD 25mm or other. 4. Tested as per IEC:62561-2 standard. 5. Made in India.
Overview zinc oxide arrester tester is a special instrument used to test the electrical performance of zinc oxide arrester. The instrument is suitable for live or power failure detection of zinc oxide arrester of various voltage levels so as to timely detect the internal insulation damp and valve aging and other dangerous defects. zinc oxide arrester tester is easy to operate and easy to use. The whole measuring process is controlled by single chip microcomputer. It can measure the total current resistive current and its harmonics power frequency reference voltage and its harmonics active power and phase difference. The instrument uses digital waveform analysis technology harmonic analysis and digital filtering software anti-interference methods to make the measurement results accurate and stable. Parameter: 1. Full current measurement range: 0-10mA effective value 50Hz/60Hz accuracy: (reading 5% + 5a) 2. Measurement accuracy of resistive current fundamental wave (secondary method without Interphase Interference): (reading 5% + 5a) 3. Current harmonic accuracy: (reading 10% + 10a) 4. Reference voltage input range: 25V-250V RMS total harmonic content 30% 50Hz/60Hz 5. Reference voltage measurement accuracy: (reading 5% + 0.5V) 6. Voltage harmonic measurement accuracy: (reading 10%) 7. Angle between fundamental current and fundamental voltage: 0-360 8. Working time of battery: 6 hours of main engine charging power supply: 220 V 10% 50Hz/60Hz charging time: 5 hours 9. Host volume: 325 280 140 10. Host weight: 3.5kg (without cable)
Product description The metal oxide arrester tester is used for the measurement and analysis of metal oxide arrester MOA leakage. It is mainly used for measuring the resistive current to analyze the degree of zinc oxide aging and damp. The field charged test shall conform to Electric Power Industry Standard of the People's DL474.5-92 Guide for Insulation Test on Site - Lightning Arrester Tests. The metal oxide arrester tester can be also used for factory and acceptance tests. Zinc oxide arrester tester Technical Indexes Range of reference voltage input peak 10V-200V Measurement range of full leakage current peak 100uA 10mA Measurement range of resistive current peak 100uA 10mA Measurement range of capacitive current peak 100uA 10mA Measurement range of angle 0-90 Power consumption 4W System measurement accuracy reading 5 5 words not more than 2m for harmonic current AC power supply AC 220V 10 50Hz 1 Precautions When measure the reference voltage from PT or the measuring end of the testing transformer, carefully check wiring to avoid the PT secondary or test voltage short circuit. Be careful not to wrongly connect the current and voltage sampling lines in the connecting process. In the laboratory experiment, the high voltage power supply cannot use the series excitation testing transformer.
PPLICATIONS: Designed for antenna coaxial device and receive/transmit system not to be spoiled by lightning over-voltage, induced over-voltage and static discharge. CATV Datacast, IPDC VOD IP Phone BBA Video conference FEATURES: Gas-tube Structure Easily Replaced Gas Tube Element Reliable Performance from DC to 2.7GHz Multi-Strike Capability Bi-Directional Protection DC passed RoHS Compliant Metric or imperial should be marked TECHNICAL PARAMETERï¼? Model R27F70F Electrical Parameter Working frequency 0-2.7GHz Max. continuous operating voltage Uc 70V Max. discharge current Imax 20kA Limiting voltage(8/20µs) 200V Insertion loss 0.2dB VSWR 1.2 Series Impedance per Line/ 75Ω Connector type Type F, bulkhead Female - Male Mechanical characteristics Dimension 50(H)Ã?25(W)Ã?25(L)mm Weight per unit 107g Working conditions Temperature: -40 to 80, Relative humidity: â?¤95ï¼? Standards compliance IEC1000-4-5, RoHS
Key specifications/special features for surge arrester: System nominal voltage(kv): 33 Type code of moa: yh10w-30/90 System highest voltage(kv): 36 Rated voltage of arresters(ur)(kv): 30 Continuous operationg voltage(ur)(kv): 24 Nominal discharge current(in)(kv): 10 High current 4/10 impulse withstand(ka): 100 2ms rectangular current(a): 250 Steep current impulse residual voltage(kv): 99 Lightning impulse residual voltage(kv) 5ka: 85 10ka: 90 20ka: 101 Switching current impulse residual voltage(kv): 69 Lind discharge class: i Pressure relief class: b, 20 Insulation impulse withstand voltage(kv): 170 Power frequency withstand voltage(kv): 95 Max. External riv(v):
1. Tested in internationally recognized laboratories as per NFC17-102 or IEC 62305-2 2. Larger protection radius and Delta T as per NFC17-102 standard. 3. Premium quality, made in India.
This Tester is used to verify the electrical performance of Zinc Oxide Arrester. The instrument is suitable for various kinds of voltage levels zinc oxide arrester de-energized testing or energized testing thus define the risk and inner insulation moisture and valve aging defects. 1. 800 Ã?? 480 color LCD touch screen and high speed thermal printer. 2. Long distance wireless transmission. PT signal wireless transmission distance more than 400 m up to 2000 m; 3. Applicable for arrester de-energized test energized test and lab room test. 4. Three-phase current and three-phase voltage test simultaneously current and voltage sensor is isolated safe and reliable. 5. Two signal sampling methods support no voltage mode software calculation to get voltage reference 6. Built in high energy lithium battery And only weak current inside the instrument voltage is less than 12 volts. 7. Equipped with industrial grade operating system support direct shun-down mode 8. With 4G SD card can store massive testing data 9. With USB interface 10. Advanced data processing system support historical data management data analysis report automatic generation&printing 11. High sampling rate advanced digital signal processing technology high anti-interference performance and high precision. 12. With dust-proof waterproof anti-corrosion engineering seal box package small volume light weight and portable.
Lightning arrester HPXIN SPD385-40A-MH YOYIK knows that innovation is the core driving force of corporate development, so it continues to increase R&D investment and establish an advanced R&D center, focusing on improving product performance and efficiency, reducing energy consumption, and reducing environmental impact. The company has also carried out in-depth cooperation with many scientific research institutions and universities at home and abroad to jointly explore cutting-edge technologies in the power equipment industry and promote technological innovation in the industry. Yoyik can offer many spare parts for power plants as below: #DF-Lightning arrester HPXIN SPD385-40A-MH-DF Liquid level alarm N7-VA Speed sensor CS-1G-D-065-03-02 instrument for measuring liquid pressure YQFN-100/316 Mechanical shutdown electromagnet DJ25A-413000A LVDT Sensor TDZ-1E-13 lvdt encoder TDZ-1E-41 0-52 TRANSMITTER AWT420.A.1.A1.C2.Y0.Y0.E511072 Voltmeter ESS960U Bolt electric heating rod ZJ-22-40 Speed sensor CS-1G-D-100-05-02 Eddy Current Sensor PR6422/003-020 SENSOR TEMPERATURE RTD WZPM2-201Y-X2 lube oil pressure switch PS531SPP10/BB32N3 Vibration sensor SZCB-01-A1-B1-C3 sight glass tank level LS15-S3F560A Pressure Switch 02-139488 LVDT Sensor TD-1GN-100-15 CLOSING/TRIP COIL ZN63(VS1)-12KV VCB OF 2000A, 210 Ohm pressure sensor cost HC0622-24 Drive shaft gland SR-100V DC AUXILIARY RELAY JT3-30/5, 220 VDC Hydrogen Leak Monitor NA1000D speed sensor BRA5S05T90-5 Inlet Oil Temp. Monitoring Controller WP-C901-02-23-N sensor SDJ-SC-2H Flowmeter LZB-10 Photoelectric converter EMC-02 Temperature switch 432246-SG9ZM7 OIL LEVEL INDICATOR YZF2-250(TH) differential gauge MIX7B62B59 hydraulic cylinder proximity sensors CWY-DO-20T08-3/8-24-F1-02-12-05 rtd pt100 cable WZPDA LVDT transmitter XCBSQ-02/50-01-02 A3 Card K82000006 Sacrificial anode flange SR-107V analog differential pressure sensor 3051GP3A2B21AB4M5D1\0~1MPa Lightning arrester HPXIN SPD385-40A-MH MY-DFYL-2024-10-22
Lightning arrester HPXIN SPD385-40A-MH YOYIK knows that innovation is the core driving force of corporate development, so it continues to increase R&D investment and establish an advanced R&D center, focusing on improving product performance and efficiency, reducing energy consumption, and reducing environmental impact. The company has also carried out in-depth cooperation with many scientific research institutions and universities at home and abroad to jointly explore cutting-edge technologies in the power equipment industry and promote technological innovation in the industry. Yoyik can offer many spare parts for power plants as below: #DF-Lightning arrester HPXIN SPD385-40A-MH-DF Liquid level alarm N7-VA Speed sensor CS-1G-D-065-03-02 instrument for measuring liquid pressure YQFN-100/316 Mechanical shutdown electromagnet DJ25A-413000A LVDT Sensor TDZ-1E-13 lvdt encoder TDZ-1E-41 0-52 TRANSMITTER AWT420.A.1.A1.C2.Y0.Y0.E511072 Voltmeter ESS960U Bolt electric heating rod ZJ-22-40 Speed sensor CS-1G-D-100-05-02 Eddy Current Sensor PR6422/003-020 SENSOR TEMPERATURE RTD WZPM2-201Y-X2 lube oil pressure switch PS531SPP10/BB32N3 Vibration sensor SZCB-01-A1-B1-C3 sight glass tank level LS15-S3F560A Pressure Switch 02-139488 LVDT Sensor TD-1GN-100-15 CLOSING/TRIP COIL ZN63(VS1)-12KV VCB OF 2000A, 210 Ohm pressure sensor cost HC0622-24 Drive shaft gland SR-100V DC AUXILIARY RELAY JT3-30/5, 220 VDC Hydrogen Leak Monitor NA1000D speed sensor BRA5S05T90-5 Inlet Oil Temp. Monitoring Controller WP-C901-02-23-N sensor SDJ-SC-2H Flowmeter LZB-10 Photoelectric converter EMC-02 Temperature switch 432246-SG9ZM7 OIL LEVEL INDICATOR YZF2-250(TH) differential gauge MIX7B62B59 hydraulic cylinder proximity sensors CWY-DO-20T08-3/8-24-F1-02-12-05 rtd pt100 cable WZPDA LVDT transmitter XCBSQ-02/50-01-02 A3 Card K82000006 Sacrificial anode flange SR-107V analog differential pressure sensor 3051GP3A2B21AB4M5D1\0~1MPa Lightning arrester HPXIN SPD385-40A-MH MY-DFYL-2024-10-11
