ABB TK802F SD802F/SD812F power cord

ABB TK802F SD802F/SD812F power cord

Product Overview

The power lines of ABB TK802F and SD802F/SD812F equipment, as key accessories for supplying power to corresponding equipment, shoulder the responsibility of stable transmission of electrical energy. Its design aims to meet the stringent power supply requirements of ABB's professional equipment, ensuring that the equipment can operate continuously and efficiently in various environments. From the appearance, it has an ergonomically designed plug that is easy to plug and unplug; The cable part has good flexibility, which ensures normal power supply function while facilitating users to route according to actual scenarios.

Brand background

ABB is a technology leader in the field of electrical and automation, with over 140 years of outstanding history. It integrates engineering experience and software technology into solutions, which are widely applied in multiple fields such as manufacturing, transportation, energy, and operations. ABB has approximately 105000 employees worldwide, dedicated to driving innovation and accelerating industrial transformation. In China, ABB has comprehensive business activities including research and development, manufacturing, sales, and engineering services. It has 27 local enterprises and 15000 employees spread across more than 130 cities, with online and offline channels covering approximately 700 cities nationwide. With profound technical accumulation and persistent pursuit of quality, ABB has established a high reputation in the field of electrical equipment, and its product quality and reliability are highly recognized.

Specification parameters

Electrical parameters

Rated voltage: commonly 100-240V AC, it can adapt to the standard mains voltage in most regions around the world. This allows the equipment to be connected to the local power grid normally by simply replacing the corresponding plug adapter when used in different countries and regions, greatly improving the versatility of the equipment.

Rated current: Depending on the equipment power, the current carrying capacity is around 2-10A. For example, for SD802F devices with lower power, their power cords may only need to carry 2-4A current; For the high-power TK802F equipment, its power cord needs to have the ability to carry 6-10A current to ensure stable operation of the equipment and avoid performance degradation or even malfunction due to insufficient current.

Physical parameters

Cable material: The conductor part is made of high-purity copper, which has good conductivity and can effectively reduce losses during power transmission, ensuring stable and efficient power supply for the equipment; The outer sheath of cables is often made of flame-retardant and wear-resistant PVC or rubber materials, which can prevent the cables from being worn or scratched during daily use. At the same time, it has a certain degree of flame-retardant ability when encountering dangerous situations such as open flames, reducing the risk of fire and ensuring safe use.

Cable length: Available in various standard lengths such as 1 meter, 1.5 meters, and 2 meters. In scenarios such as office desks where the device is close to the power outlet, a 1-meter-long power cord is sufficient to meet the requirements; In industrial workshops and other environments where the installation location of some devices is far from the socket, users can choose 1.5-meter-long or 2-meter-long power cords to flexibly adapt to different usage scenarios.

Core functions

Electricity transmission: The core function of power lines is to stably and efficiently transmit the electricity from the mains to the equipment, ensuring the normal operation of various components inside the equipment. Its good electrical performance can ensure smooth current flow, avoid damage to electronic components caused by current fluctuations, and provide solid guarantees for the stable operation of equipment.

Electrical isolation: While transmitting electrical energy, the power line also has electrical isolation function. It can effectively block the possible stray currents and electromagnetic interference between the equipment and the mains power, prevent external interference signals from entering the equipment through the power line and affecting the normal operation of the equipment, and also avoid the interference generated inside the equipment from feedback to the mains power network and affecting other electrical equipment.

Working principle

When the power cord plug is inserted into the mains socket, the electrical energy from the mains enters the conductors inside the power cord through the metal pins of the plug. Due to the use of copper material with good conductivity, electrical energy is transmitted in the form of electron flow in the conductor, flowing from one end of the plug to the device end. During cable transmission, the insulation material on the outer layer prevents electrical energy from leaking out, ensuring that electrical energy is only transmitted inside the conductor. After reaching the device end, the electrical energy enters the internal power management module of the device through its power interface. This module further converts and stabilizes the input electrical energy, and then distributes it to various components of the device to drive it to operate normally.

Precautions for use and maintenance

Correct connection: When connecting the power cord, be sure to turn off the device power first to ensure safe operation. Insert correctly according to the device interface identification and power cord interface shape to avoid poor contact, inability to start the device properly, or even damage to the device and power cord due to reverse or improper insertion.

Regular inspection: During use, regularly check whether the power cord is damaged, aged, or overheated. If the outer sheath of the cable is found to be damaged, the power cord should be replaced in a timely manner to prevent leakage and safety accidents; If the power cord generates abnormal heat during use, it may be due to excessive current or poor internal conductor contact. It is necessary to immediately stop using and investigate the cause.

Storage requirements: When the power cord is not in use, it should be neatly arranged to avoid entanglement and knotting, and to prevent damage to the internal conductor due to excessive bending. The storage environment should be kept dry and ventilated, and the power cord should be protected from direct sunlight, high temperatures, or corrosive substances.