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 -40â??ï½?+(125â??, 150â??), 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 30â??. 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 â??, 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.
CE: European Union safety mark of conformity. Type 121: Sheath material is EVM-1, suitable for charging mode 1 of IEC 61851-1 (rated voltage 300/500V). Specification range: 3x1.5mm ~3x2.5mm Type 122: Sheath material EVM-2 for charging mode 1 of IEC 61851-1 (rated voltage 300/500V). Specification range: 3x1.5mm�²~3x2.5mm�² Type 123: Sheath material EVM-1, suitable for charging mode 1, 2 and 3 of IEC 61851-1 (rated voltage up to 450V/750V). Specification range: 3x1.5mm~3x35mm, 4x2.5mm ~4x35mm, 5x2.5mm~5x35mm. Type 126: DC charging cable with rated voltage 0.6/1KV AC or 1.5KV DC, sheathed in EVM-1, suitable for charging mode 4 of IEC 61851- 1. Range of sizes: 2x4mm~2x150mm+ earth wire 4mm~95mm. EVI-1 and EVI-2: EVI is the name given to halogen-free insulating compounds in the IEC62893 and EN50620 standards. Only EVI-2 can be used to insulate power lines, while EVI-1 and EVI-2 can be used to insulate control/signal lines.The performance requirements of EVI-1 and EVI-2 are different, for example, the standard requirements are: tensile strength of EVI-15N/mm², elongation at break 300%, while the tensile strength of EVI-2 is 8.0N/mm, and the elongation at break 200%. The key difference is that EVI-1 has a requirement for high temperature pressure testing and EVI-2 has a requirement for thermal extension testing. So EVI-1 needs to be a thermoplastic material (TPE) and EVI-2 needs to be a halogen-free cross-linked material (XLPO). EVM-1 and EVM-2: EVM is the name of halogen-free sheathing compounds for cables in IEC62893 and EN50620 standards.EVM-1 is applied to Z5 of EN50620 and 121 and 123 and 126 of IEC62893, and EVM-2 is applied to Z6 of EN50620 and 122 of IEC62893.The performance requirements of EVM-1 and EVM-2 are different. EVM-2 performance requirements are different, for example, the standard requirements: EVM-1 tensile strength â?¥ 20N/mm �², elongation at break â?¥ 300%, tear resistance â?¥ 40N/mm �²; while EVM-2 tensile strength â?¥ 10N/mm �², elongation at break â?¥ 150%, tear resistance â?¥ 10N/mm �², the aging temperature of the mechanical properties test after aging is different, the most important differences between The key difference is that EVM-1 has the requirement of thermal shock and high temperature pressure test, and EVM-2 has the requirement of thermal extension test. So EVM-1 needs to be a thermoplastic material (TPU) and EVM-2 needs to be a halogen-free cross-linked material. OMG' is committed to become the world's first-class new energy charging technology provider, has many years of R & D and production experience in the field of electric vehicle charging cables, the products have been certified by the European standard, the American standard, the Japanese standard, the Chinese standard and other certificates, with excellent physical and mechanical properties, anti-overload capacity. OMG' customises charging cable solutions according to customers' actual needs to ensure a safe and efficient charging process.
Firstly, the high-voltage cables of new energy vehicles generally match the voltage level of the battery pack. According to the design of the vehicle's electrical system and voltage requirements, the appropriate voltage level is selected, for example, common high-voltage cable voltage levels are 500V, 800V and so on. Secondly, the rated current of the high-voltage cable should be able to meet the charging and driving requirements of the electric vehicle. According to the power and charging requirements of the vehicle, select the high-voltage cable with sufficiently large rated current capacity to ensure charging efficiency and driving performance. The insulation material of the high-voltage cable should have good insulation and high temperature resistance to prevent current leakage and short-circuit accidents. Commonly used insulating materials include polypropylene, polyethylene and cross-linked polyethylene. According to the use environment and temperature requirements of the vehicle, choose the appropriate insulation material. In addition to this, high-voltage cables are subject to friction, extrusion and environmental climate during use. Therefore, high-voltage cables with good abrasion and weather resistance should be selected to extend their service life and reliability. When selecting high-voltage cables, it is important to choose the appropriate length of high-voltage cable according to the design and layout of the vehicle and to ensure that the connection method and connectors meet the requirements of the vehicle system. Suitable lengths and connections simplify the installation process and increase the reliability of the cable. It is important to ensure that the cables comply with relevant safety certification standards and regulations, such as national or regional product certifications, International Electrotechnical Commission (IEC) standards, etc. These certifications guarantee the quality and safety performance of high-voltage cables. OMG' specialises in the field of research and production of cables for electric vehicles, and has passed the ISO 9001:2015 and IATF 16949:2016 system certification.OMG' in-vehicle high-voltage cable products implement ISO6722-1, ISO6722-2, ISO14572, LV216, ISO19642, UL758 (UL3820\UL30088) and other international standards. Conductor materials are available in a variety of conductor types such as bare copper, tinned copper and aluminium alloys, and cable solutions can be tailored to meet specific customer needs.
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.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Pitch: 1.27/1.778/2.0/2.54mm, row: from 1 to 4 rows, insulator material: PPS UL94V-0, outer sleeve material: brass, contact clip: beryllium copper, plastic height: according to your needs, PIN length: as customer's needs, plating: gold plating and tin plating, operating voltage: 60V, package: tube/tray/PE bag/ reel packing.
Contact material: Brass, Insulator material: black polyester UL94V-0, Mounting type: SMT, Pin length: according to your request. Current rating: 1.0Amps/contact max. Contact resistance: 20m©/contact, Insulation resistance: 1000m© at v=100V, withstanding voltage: 300V, Packing: tray packing, Operating temperature: from-55 to 105, Soldering temperature: 260.
Contact material: Brass, Insulator material: black polyester UL94V-0, Mounting type: SMT, Pin length: according to your request. Current rating: 1.0Amps/contact max. Contact resistance: 20m©/contact, Insulation resistance: 1000m© at v=100V, withstanding voltage: 300V, Packing: tray packing, Operating temperature: from-55 to 105, Soldering temperature: 260.
Contact material: Brass, Insulator material: black polyester UL94V-0, Mounting type: SMT, Pin length: according to your request. Current rating: 1.0Amps/contact max. Contact resistance: 20m©/contact, Insulation resistance: 1000m© at v=100V, withstanding voltage: 300V, Packing: tray packing, Operating temperature: from-55 to 105, Soldering temperature: 260.
Contact material: Brass, Insulator material: black polyester UL94V-0, Mounting type: SMT, Pin length: according to your request. Current rating: 1.0Amps/contact max. Contact resistance: 20m©/contact, Insulation resistance: 1000m© at v=100V, withstanding voltage: 300V, Packing: tray packing, Operating temperature: from-55 to 105, Soldering temperature: 260.
Contact material: Brass, Insulator material: black polyester UL94V-0, Mounting type: right angle, Packaging: Tube packing + carton packing, Current rating: 1.0Amps/contact max. Contact resistance: 20m©/contact, Insulation resistance: 1000m© at v=100V, withstanding voltage: 300V, Operating temperature: -55~105, Soldering temperature: 260.
Contact material: Brass, Insulator material: black polyester UL94V-0, Current rating: 1.0Amps/contact max. Contact resistance: 20m©/contact, Insulation resistance: 1000m© at v=100V, withstanding voltage: 300V, Operating temperature: -55~105, Soldering temperature: 260.
Horizontal level sensor are side-mounted through a hermetically sealed hole on the side of a tank. With a doughnut-shaped floats rising and falling with the level of the liquid around stems, actuating reed switches inside the stems. Wires then send an electric signal to the outside of the tank , making these components essential for accurate monitoring. Features of horizontal water level sensor Compact size and easy to install. No power consumed in standby status. Design to work in harsh environment Size, cable length, connect and float are customizable There are many position sensor manufacturers, but we are one of the best choices for you.
