Japan's PSE certification (Product Safety of Electrical Appliance & Materials) is a mandatory market access system for electrical appliances in Japan and an important element stipulated in Japan's Electrical Appliance Safety Law. It aims to ensure the safety performance of electrical appliances and to protect the rights and safety of consumers.
Rechargeable cables are electrical appliances that must be certified by PSE if they are to be sold on the Japanese market. According to Japan's Electrical Appliance and Material Safety Law, charging cables are categorized as â??Specified Electrical Appliancesâ?? and are required to obtain the diamond-shaped PSE mark before they can be manufactured or imported.The PSE certification standard specifies the electrical safety performance of charging cables in detail, including the requirements for voltage withstand and insulation to ensure that they can effectively isolate the power supply in the event of electrical faults or other abnormal conditions, reducing the probability of safety accidents. abnormal conditions can effectively isolate the power supply and reduce the probability of safety accidents.
In addition, the PSE certification standard focuses on product reliability and durability. The standard requires that charging cables can maintain good safety performance and are not prone to failure or damage during their normal service life. For the certification of charging cables, the PSE standard requires that the insulation of the cable be resistant to abrasion and high temperature to ensure that users are not exposed to safety threats during use. Japan PSE certified charging cables are usually made of high-quality materials, such as high-strength insulating outer layer, stretch-resistant cores, and stable connectors, to ensure that the power transmitted during charging is stable, while avoiding safety hazards such as leakage and overheating. The PSE certification standard also focuses on the environmental performance of the products. The standard requires charging cables to use environmentally friendly materials in the production process, free of hazardous substances, and can effectively save energy, reflecting the importance of sustainable development and environmental protection.
Overall, the Japan PSE certified charging cable is a product that complies with Japan's mandatory safety standards and features high quality, safety, reliability and environmental friendliness, making it a reliable choice for users when purchasing charging equipment.With more than 27 years of development in the field of electric vehicle charging cables, OMG is committed to creating efficient and safe technical solutions for new energy charging applications, and can provide different cable product suggestions according to the actual needs of users.
The development and application of high-power water-cooled charging cables not only improves the charging efficiency but also enhances the safety of the charging process, which is of great significance in promoting the development of the electric vehicle industry. As technology continues to advance, future charging cables are likely to feature more innovations in materials, design and functionality to meet the needs of the growing electric vehicle market.
1. High power power transmission: suitable for fast charging needs, capable of carrying high current and enhancing charging efficiency.Ã?Â
2. water cooling system: adopts high thermal conductivity cooling medium circulating in the pipeline to effectively reduce the temperature and provide higher power transmission capacity.
3. Prevent overheating: quickly take away the heat generated by the cable and keep it at a low temperature to improve the safety and stability of the charging process.
4. Advanced materials and design: make the cable size lighter and more flexible, reduce weight and volume, improve portability and installation flexibility.
5. shielding technology: effectively reduce external electromagnetic interference, improve the stability and reliability of the charging system.
Role in electric vehicle charging system:
- Meet the demand for fast charging and provide an efficient, safe and stable charging experience.
- High power transmission capability, significant cooling effect, lightweight and flexible size and strong anti-interference capability make it an ideal choice.
OMG' is committed to creating advanced, safe and high-quality water-cooled charging cables, its products have obtained the European standard, American standard, in line with RoHS 2.0 & REACH environmental protection standards, with good resistance to acid and alkali, oil and water, dragging and dragging, abrasion resistance, anti-cracking performance; excellent flexibility and sealing performance. With the technological progress and application promotion, the importance of high-power water-cooled charging cable in the field of electric vehicle fast charging will be increasing.
The benefits of OMG' oil-cooled charging cables really do cover a wide range of aspects, from safety and efficiency to environmental suitability and compliance criteria. Here is a brief overview of the benefits of oil-cooled charging cables:
1. Safety guarantee:
  - Liquid-cooling technology lowers the temperature and reduces the risk of overheating.
  - High-strength insulating materials and fireproof materials enhance high temperature resistance and fireproof performance.
2. Efficient charging:
  - Internal cooling oil improves heat dissipation and low temperature operation reduces energy loss.
  - Supports higher power to realize fast charging.
3. Flexibility and wear resistance:
  - Adapt to different charging scenarios, providing flexible and convenient charging methods.
  - Good durability, reducing maintenance and replacement costs.
4. Compliance with international standards:
  - Comply with IEC 62893 and IEC 61851-1 mode 4 standards.
  - Tested and certified to ensure quality and performance.
5. Long service life:
  - Withstand long time high power charging.
OMG' IEC 62893 standard oil-cooled charging cable features:
- Small wire diameter, lightweight, good feel.
- DC+ and DC- conductors are immersed in cooling medium for efficient heat dissipation.
- Performance test proves abrasion and tensile resistance, acid and alkali resistance, anti-cracking, UV resistance, stable color.
- Uses environmentally friendly materials, RoHS 2.0 & REACH compliant.
- Suitable for high power charging scenarios, such as centralized charging stations and large parking lots.
In summary, OMG's oil-cooled charging cables provide a safe, efficient, durable and environmentally friendly charging solution for electric vehicles through the benefits of their design and materials.
I. Excellent electrical conductivity:Â Copper stands out among many metals for its outstanding electrical conductivity. In high-voltage environments, copper-core cables provide efficient energy transfer with low energy loss, which is critical to improving the overall operating efficiency of electric vehicles. The high conductivity means that the cable can transmit the same amount of power in a smaller cross-sectional area, which reduces weight and saves space.
II. Long-lasting durability: The tensile strength and toughness of copper allows copper-core cables to excel when subjected to the mechanical stresses of everyday use. This durability ensures that the cable maintains its integrity even under harsh road conditions, reducing the number of repairs due to cable failures and enhancing the reliability of electric vehicles.
III. Stable performance at high temperatures:Â In the closed environment of an electric vehicle, the temperature may rise rapidly, especially during high load operation. Copper core cables are able to maintain their performance unaffected in high temperature environments, which ensures the stability and safety of power transmission under a variety of driving conditions.
IV, resistance to corrosion: due to its natural corrosion resistance, copper can resist the erosion of a variety of environmental factors, including humidity, salt and certain chemicals. This makes copper-core cables particularly suitable for use in electric vehicles with variable external environments, extending their service life and reducing maintenance costs.
V. Environmentally friendly recyclability:Â Copper is a highly recyclable material that can be reused almost indefinitely without losing its inherent properties. This fits in with today's growing concern for sustainability and environmental protection, making copper core cables the green choice for electric vehicle manufacturers.
VI. Compatibility and Versatility:Â Copper-core cables are easy to integrate with other electrical components, providing design flexibility and versatility. Whether in a small city car or a large commercial vehicle, copper core cables can be customized to meet a variety of electrical and space requirements based on different design needs.
Copper-cored high-voltage cables are more than just a medium for transmitting electricity; they are a key driver in the evolution of electric vehicles towards greater efficiency, performance and environmental friendliness. As technology continues to evolve and the demand for sustainable materials increases, the benefits of copper-cored cables will be further enhanced, paving the way for the future of electric vehicles.
OMG' is committed to providing professional electric vehicle electrical energy conduction solutions. Our products comply with a number of international standards and we can customize cables with different conductor materials according to customer requirements.
In this innovation-driven era, the requirements for charging cables go far beyond the simple transmission of electrical energy. Modern charging cables not only need to have excellent physical properties and environmental adaptability, they also need to meet changing technical standards and user expectations. From slow charging at home to public fast charging stations to wireless charging in the future, every innovation in charging cable technology is a sign that we are one step closer to a greener, smarter future. High-quality charging cables should have the following properties:
Safety: High-quality charging cables should ensure safety during the charging process, and should have excellent insulating properties to isolate high voltage and prevent current leakage and risk of electric shock. They should also have safety features such as overload protection, short circuit protection and temperature control.
Durability: charging cables need to withstand frequent plugging and bending, so they should be made of high-temperature-resistant and abrasion-resistant materials to ensure that they are not easy to break or be damaged after prolonged use.
Transmission efficiency: the transmission efficiency of high quality charging cable is directly related to the charging speed, it should have low resistance and low loss characteristics to improve the efficiency of power transmission, reduce energy loss and realise fast charging.
Compatibility: As different electric vehicles may adopt different charging standards and interfaces, high-quality charging cables should have a wide range of compatibility to adapt to the needs of different vehicles and charging piles.
In addition to the key properties mentioned above, high quality charging cables should also consider the following factors:
Environmental adaptability: the cable should be able to withstand harsh weather conditions, with waterproof, UV and cold resistance to ensure charging safety and reliability.
Environmental friendliness: As environmental awareness increases, charging cables using environmentally friendly materials and manufacturing processes are more popular in the market.
When choosing charging cables, it is important to consider not only their performance, but also the specific charging needs and usage environment of the EV, as well as long-term maintenance costs, in order to make a comprehensive decision.The charging cables supplied by OMG' comply with multi-national certifications and are flexible, oil and water resistant, abrasion and tensile resistant, acid and alkali resistant, UV resistant and flame retardant, guaranteeing an efficient and safe charging process.
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The selection of high-voltage cables for new energy vehicles should take into account factors such as the cable's conductivity, heat resistance, ability to withstand environmental impacts, and safety standards. The following are some specific recommendations:
1. Selection according to the temperature rise curve and conductor characteristics:
- It is necessary to refer to the current-voltage values and consider the rated voltage and peak current.
- Combine with the ambient temperature and the maximum permissible temperature of the insulator to select the appropriate cable cross-section area.
2. Apply the calculation formula:
- Use the formula to calculate the required conductor cross-sectional area to ensure that the temperature rise of the cable does not exceed the permissible range at the rated current.
3. Consider the characteristics of the application occasions of the cable:
- High-voltage cables are used to connect the charging port with the battery, inside the battery, the battery with the engine and other components, so it is necessary to consider the conditions of small wiring space, high current and high voltage, high and low temperature environment.
4. Meet environmental and safety requirements:
- Choose cables that meet environmental and safety standards such as low-smoke halogen-free flame retardant to adapt to the harsh conditions such as salt spray, electromagnetic fields, oil and chemicals that may be encountered in the car driving environment.
5. Refer to commonly used standards:
- Understand and follow the common standards for high voltage cables for new energy vehicles to ensure that the performance of the cables meets industry requirements.
In summary, when selecting high-voltage cables for new energy vehicles, attention should be paid to the performance parameters of the cables to ensure that they can adapt to the complex in-vehicle environment and a variety of working conditions, while complying with the relevant safety and environmental standards.OMG', as an excellent international company, has been deeply engaged in the field of electric vehicle cables for decades and has an experienced team. You can contact our cable experts for detailed product data and professional advice to ensure accurate selection and cable reliability.
These standards ensure the safety and reliability of electric vehicle charging equipment. As a leading company in the field of new energy charging technology, OMG' has many years of experience in the development and production of electric vehicle charging cables, which provides a solid foundation for technological innovation and product reliability.The diversified certifications of OMG's products demonstrate their adaptability and conformity to different markets, including European certification, American certification, Japanese certification and Chinese certification. Emphasis is also placed on the physical and mechanical properties of the products and their resistance to overloads, ensuring durability and reliability in all conditions of use.OMG' offers charging cable solutions tailored to the needs of its customers, reflecting the company's flexibility and customer orientation.
Electric vehicle charging safety is a multi-faceted issue involving the charging environment, equipment condition, cable performance and system maintenance. The following are key points to ensure charging safety:
1. Charging environment:
-Choose a clean and dry place for charging, away from water sources and flammable materials.
-Charging cables should be resistant to water, oil, corrosion, acid and alkali.
2.Equipment Inspection:
-Check the charger and cable for damage before use, such as broken or loose cable.
-Make sure the cable has good mechanical properties, abrasion and drag resistance, and adapt to complex environments.
-The device will heat up when charging, avoid covering objects to cause overheating, and do not touch the battery or plug or unplug the device.
-Use liquid-cooled charging technology to reduce heat accumulation, achieve effective heat dissipation, and support high-current fast charging.
3.System Maintenance:
-Check and maintain the charging system regularly to ensure its good condition.
As a new energy charging technology provider, OMG' focuses on the following aspects:
Technical Innovation:
-Experienced technical team specialising in mechanical and special performance testing of cables.
-We provide customised and standardised solutions based on our R&D philosophy of "Green Innovation".
Product Certification:
-Charging cables meet international and regional standards, including EN, IEC, UL, JCS, PSE, and CQC & DEKRA certifications.
Product Performance:
-High flexibility, bending radius less than 5D.
-Acid and alkali resistance, abrasion and tensile resistance, crush resistance, crack resistance, UV resistance.
-Resistant to bending more than 50,000 times, with good flame retardant properties.
-All materials comply with RoHS 2.0 & REACH environmental standards.
With the development of new energy charging technology, OMG' is committed to improving the safety and reliability of the charging process, promoting electric vehicles as the mainstream transport in the future, and contributing to the construction of a clean and low-carbon society.
The insulating material of high-voltage cables has a decisive influence on the safety and efficiency of power transmission. The following is an analysis of two common insulation materials:
1. Polyvinyl chloride (PVC) insulated power cables:
 Advantages: Good heat and corrosion resistance, suitable for a wide range of environments. The nominal thickness prevents current leakage and improves safety.
 Disadvantages: Easy to deteriorate under high temperature environment, may need to be replaced periodically.
2. Cross-linked polyethylene (XLPE):
 Advantages: Higher heat resistance and voltage resistance, suitable for high voltage power transmission. Stable insulating properties, not easy to age in long-term use.
 Disadvantages: Higher cost compared to PVC.
The following factors need to be considered when selecting insulation materials:
Environmental conditions of power transmission: e.g. temperature, humidity, chemical corrosion, etc.
Operating voltage of the cable: different insulation materials are suitable for different voltage levels.
Economic cost: including material cost, installation cost and maintenance cost.
Long-term performance: including the aging rate and durability of the material.
Choosing the right insulation material is essential to ensure the safety and reliability of power transmission. Therefore, it is important to make a professional selection based on a full understanding of the material properties, taking into account the specific application scenarios and needs.
Electric vehicles need fast and safe charging to meet users' needs. Firstly, from a practical point of view, fast charging can greatly shorten the waiting time of vehicle owners and enhance the experience of use. For example, on long-distance trips, if the charging time is too long, it will not only affect people's travel plans, but also may trigger users' range anxiety. Secondly, safe charging is the basic need of every car owner. After all, frequent charging accidents will greatly reduce people's confidence in EVs and negatively affect their market prospects. Currently, the market achieves high-efficiency charging of trams through liquid-cooled charging technology:
1. Heat dissipation principle:
- Using the heat absorption and conduction characteristics of coolant, the heat generated during charging is exported through circulation.
- It keeps the working temperature of the battery in a suitable range, improves the charging efficiency, and prevents overheating from decreasing the efficiency and shortening the service life.
2. Liquid cooling system composition:
- Including power pump, liquid circulation channel and coolant.
- The power pump drives the coolant circulation, and the liquid circulation channel is located between the cable and the charging gun.
3. Technical Advantages:
- Supports higher current for fast charging.
- Reduce the heat of the cable to avoid overheating, increasing the cross-sectional area of the wire is not a necessary condition.
As an excellent new energy charging application technology provider, OMG' has ploughed deeply into the field of electric vehicle charging cables for many years, focusing on the research and development of high-quality charging cables, and paying attention to the industry certification.OMG' liquid-cooled charging cables have been certified by UL, IEC, TUV, and CQC, and make use of the liquid-cooling technology, which makes it possible for the cable to keep a low and constant temperature during the charging process by cooling down. Charging process to maintain a low constant temperature, to overcome the heat damage to the charging gun, charging cable, charging pile heat, so as to improve the DC charging current of a programme. It can fill up the car battery or quickly replenish the battery in a short time to improve the user experience. Liquid-cooled charging cable is an important development direction of electric vehicle charging technology, OMG' is committed to providing reliable and efficient charging solutions for the popularisation and promotion of electric vehicles.
Excellent quality
Each metre of cable contains OMG''s relentless pursuit of technology and strict control of safety. The use of high-strength insulating materials ensures the safety of the charging process; the well-designed shielded and unshielded structure meets the needs of different occasions; and the small bending radius design makes the operation more flexible and convenient. In addition, OMG' cables have passed the VW-1 level flame retardant performance test and many international certifications, including European, American, Japanese and Chinese standards, allowing them to be used all over the world.
Fair price
We understand that high quality products should not be accompanied by high prices. Therefore, OMG' always insists on reasonable pricing so that every user can enjoy a cost-effective product experience. Our pricing system is transparent and fair, and we insist on providing our customers with high-quality electric vehicle charging solutions at lower prices.
Environmental Commitment
OMG' is not only concerned about the performance of the product, but also a brand responsible for the environment. All materials we use are RoHS 2.0 and REACH compliant, and we are committed to reducing the environmental impact of our production process, while ensuring that every product you use is an environmentally friendly choice.
Customised Service
We understand that every user's needs are unique and therefore offer customised charging cable solutions to meet your specific usage requirements. Whether you need a specific length, a specific interface type or a special performance cable, OMG' has the answer.
Choosing OMG' EV cables is choosing a reliable partner to enjoy a safe, efficient and environmentally friendly charging experience that makes charging easy. Learn more by consulting our cable experts:
OMG's in-vehicle high-voltage cables are manufactured in accordance with the international standard ISO 19642 and are certified by E-MARK, a certification system for vehicle components and system parts issued by the Economic Commission for Europe (ECE), which imposes stringent requirements on safety and environmental protection and applies to the whole world, including non-European Union countries. Products that have passed this certification are recognised by ECE member countries in terms of quality and are more accepted by the European market.
OMG's ISO 19642 high voltage cables are rated between -40 +(125 , 150 ), the insulation material is XLPE, and all the materials used are in accordance with RoHS 2.0 & REACH environmental standards. It is not only soft, abrasion-resistant, oil-resistant, acid and alkali resistant, but also has excellent anti-cracking properties and electrical conductivity, and the temperature rise of the conductor under the rated current in room temperature test does not exceed 30.
In addition, the cable flame retardant grade VW-1, and in -40°C/4H low-temperature winding test, the cable surface does not crack, no cracks, can pass the thermal overload of the cable temperature resistance grade +50 , has a better flame retardant properties and high and low temperature resistance, to achieve the cable to withstand the use of various types of environments in the car.
OMG' has the R&D spirit of "Green Innovation", and has been deeply cultivating in the field of new energy vehicle cables for many years, with experienced and mature team and technology. Our high-voltage cables can be used as the main carrier of electric vehicle power output, providing high-voltage power supply to ensure the performance and safety of the whole vehicle.
OMG' European standard AC charging cables are manufactured with reference to EN 50620:2017 and IEC 62893-3:2017 dual standards, and DC charging cables are manufactured with reference to IEC 62893-4-1:2020 standards, and are certified by DEKRA and TUV. AC charging cables also include spring cable series, providing more choices for charging application scenarios.
The environmental factors in charging cable applications are complex and varied, and it is difficult to avoid frequent stretching, bending or crushing of cables by vehicles during use. This requires charging cables to have special properties such as oil and water resistance, acid and alkali resistance, high and low temperature resistance, UV resistance, etc. and mechanical properties such as resistance to extrusion, bending and dragging, etc. OMG' has strict technical requirements for its products, and the electrical properties, structural dimensions, insulating properties, sheaths, and finished products of the European standard charging cables have gone through a series of well-established tests, to ensure the safety and reliability of the products.
As an outstanding international company, OMG' provides each customer with electric vehicle charging cable solutions that meet their actual needs, thanks to its experienced technical team and its high demand for product quality.
OMG' EV cable features:
1. Conforms to the standards for cables in each region.
2. Technological innovation. Liquid-cooled high-voltage cables and liquid-cooled charging cables can well help electric vehicles realize efficient and safe charging.
3. In addition to regular products and specifications, we can customize EV charging solutions according to customer specific needs.
4. Don't worry about the price. Our price and quality will satisfy you.
We are a professional lithium ion power pack manufacturer from China, we produce compatible and usable custom li ion battery packs with Craftsman, Dongchengi, Milwaukee, Dyson, DeWalt and other international brands. Our products are exported to Europe, America, Southeast Asia, Oceania, Russia and so on.
CE certificated, RoHS compliant.
Automatic Constant Feed Speed Control: Automatic output voltage adjustment in real-time to ensure constant preset feed speed regardless of weight change of the workpieces.
Automatic Frequency Adjustment: Automatic output frequency adjustment in real-time to make sure the load is always working at its resonant frequency.
Automatic Resonant Frequency Search: Search out and output the resonant frequency of the load. other related parameters are also set automatically
Counting: Count the number of the workpieces. The controller will slow down or stop when counting up to the preset value. (available on SDVC34MRJ)
Rs485 Communication: All parameters of the controller can be adjusted via R485.
Automatic Switch Sensor Type Recognition: The controller can recognize and adapt to both PNP and NPN-type switch sensors
Sync Output: Sync the output waveform of the slave controller with that of the master controller to the same frequency and phase to avoid the beat effect
Overvoltage Protection: If the input voltage is too high, the power supply of the controller will be shut down automatically to protect itself.
Digital Overheat Protection: If the internal temperature of the controller gets too high, the controller will stop its output to protect itself.
Overcurrent Protection: If output current exceeds its rated value the controller will stop its output to protect itself and the load.
Restorable Short Circuit Protection: If the output of the controller is short-circuited, the controller will shut down its output to protect itself and the load. But the fuse inside will not be blown. So when there is no short circuit at the output side, the controller will work again after power is on.
Frequency Adjustment: The controller's output frequency can be manually adjusted to the vibratory feeder's resonant frequency to achieve a smooth, quiet, and energy-saving feed effect.
Automatic High Precision Voltage Regulation: The internal digital voltage regulation circuit can eliminate feed speed variation caused by mains voltage fluctuation.
Time Adjustable Soft Start: When powered on, the controller will gently increase output voltage from 0 to the preset value to avoid a sudden shake. The soft start time can be digitally preset.
Switch Sensor ON/OFF Control NPN switch sensor or PLC can be connected to turn the controller on/off.
Photoelectric Sensor ON/OFF Control: The CUH Intelligent Photoelectric Sensor can be connected to turn the controller on/off.
Remote Speed Control: Output Voltage of the controller can be adjusted remotely by an external potentiometer, a PLC, or a 1-5V DC signal.
DC Control Output: The controller can output low voltage DC power associated with the ON/OFF Control of the controller to drive a solenoid or other external devices.
Keypad Lock: Lock all buttons on the keypad to prevent misoperation by pressing the ON/OFF button and holding for 2 seconds.
Digital Overheat Protection: If the internal temperature of the controller gets too high, the controller will stop its output to protect itself.
Overcurrent Protection: If the output current exceeds its rated value, the controller will stop its output to protect itself and the load.
Restorable Short Circuit Protection: If the output of the controller is short-circuited, the controller will shut down its output to protect itself and the load. But the fuse inside will not be blown. So when there is no short circuit at the output side, the controller will work again after power is on.
Max Adjustable Output Voltage: Max Adjustable Output Voltage can be preset to protect the load from damage caused by too high voltage.
Frequency Adjustment: The controller's output frequency can be manually adjusted to the vibratory feeder's resonant frequency to achieve a smooth, quiet, and energy-saving feed effect.
Automatic High Precision Voltage Regulation: The internal digital voltage regulation circuit can eliminate feed speed variation caused by mains voltage fluctuation.
Time Adjustable Soft Start: When powered on, the controller will gently increase output voltage from 0 to the preset value to avoid a sudden shake. The soft start time can be digitally preset.
Switch Sensor ON/OFF Control NPN switch sensor or PLC can be connected to turn the controller on/off.
Photoelectric Sensor ON/OFF Control: The CUH Intelligent Photoelectric Sensor can be connected to turn the controller on/off.
Remote Speed Control: Output Voltage of the controller can be adjusted remotely by an external potentiometer, a PLC, or a 1-5V DC signal.
DC Control Output: The controller can output low voltage DC power associated with the ON/OFF Control of the controller to drive a solenoid or other external devices.
Keypad Lock: Lock all buttons on the keypad to prevent misoperation by pressing the ON/OFF button and holding for 2 seconds.
Digital Overheat Protection: If the internal temperature of the controller gets too high, the controller will stop its output to protect itself.
Overcurrent Protection: If the output current exceeds its rated value, the controller will stop its output to protect itself and the load.
Restorable Short Circuit Protection: If the output of the controller is short-circuited, the controller will shut down its output to protect itself and the load. But the fuse inside will not be blown. So when there is no short circuit at the output side, the controller will work again after power is on.
Max Adjustable Output Voltage: Max Adjustable Output Voltage can be preset to protect the load from damage caused by too high voltage.
Frequency Adjustment: The controller's output frequency can be manually adjusted to the vibratory feeder's resonant frequency to achieve a smooth, quiet, and energy-saving feed effect.
Automatic High Precision Voltage Regulation: The internal digital voltage regulation circuit can eliminate feed speed variation caused by mains voltage fluctuation.
Time Adjustable Soft Start: When powered on, the controller will gently increase output voltage from 0 to the preset value to avoid a sudden shake. The soft start time can be digitally preset.
Switch Sensor ON/OFF Control NPN switch sensor or PLC can be connected to turn the controller on/off.
Photoelectric Sensor ON/OFF Control: The CUH Intelligent Photoelectric Sensor can be connected to turn on/off the controller.
Remote Speed Control: Output Voltage of the controller can be adjusted remotely by an external potentiometer, a PLC, or a 1-5V DC signal.
DC Control Output: The controller can output low voltage DC power associated with the ON/OFF Control of the controller to drive a solenoid or other external devices.
Keypad Lock: Lock all buttons on the keypad to prevent misoperation by pressing the ON/OFF button and holding for 2 seconds.
Digital Overheat Protection: If the internal temperature of the controller gets too high, the controller will stop its output to protect itself.
Overcurrent Protection: If the output current exceeds its rated value, the controller will stop its output to protect itself and the load.
Restorable Short Circuit Protection: If the output of the controller is short-circuited, the controller will shut down its output to protect itself and the load. But the fuse inside will not be blown. So when there is no short circuit at the output side, the controller will work again after power is on.
Max Adjustable Output Voltage: Max Adjustable Output Voltage can be preset to protect the load from damage caused by too high voltage.
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