The Inductor Coil Manufacturer Briefly Describes the Performance Indicators of the Inductor Coil for You
The performance index of the inductor coil is mainly the size of the inductance. In addition, the wire that winds the inductor coil generally has a certain resistance, usually this resistance is very small and can be ignored. But when the current flowing in some circuits is very large, the small resistance of the coil cannot be ignored, because a large current will consume power on the coil, causing the coil to heat up or even burn out, so sometimes it must be considered. The electric power that the coil can withstand.
Inductance
The inductance L represents the inherent characteristics of the coil itself and has nothing to do with the magnitude of the current. Except for special inductance coils (color code inductance), the inductance is generally not specifically marked on the coil, but marked with a specific name. Inductance is also called self-inductance, which is a physical quantity that represents the self-inductance of inductors. The size of the inductance of the inductor mainly depends on the number of turns (number of turns) of the coil, the winding method, the presence or absence of the magnetic core and the material of the magnetic core, and so on. Generally, the more coil turns and the denser the coils, the greater the inductance. A coil with a magnetic core has a greater inductance than a coil without a magnetic core; the greater the permeability of the magnetic core, the greater the inductance.
The basic unit of inductance is Henry (Henry for short), which is represented by the letter "H". Commonly used units are millihenry (mH) and microhenry (μH).
sensory resistance
The hindering effect of the inductance coil on the alternating current is called the inductive reactance XL, the unit is ohm, and the symbol is Ω. Its relationship with inductance L and alternating current frequency f is XL=2π quality factor
Quality factor Q is a physical quantity that represents the quality of the coil. Q is the ratio of the inductive reactance XL to its equivalent resistance, namely: Q=XL/R. It refers to the ratio of the inductive reactance presented by the inductor to its equivalent loss resistance when it works under a certain frequency of AC voltage. The higher the Q value of the inductor, the smaller its loss and the higher the efficiency. The Q value of the coil is related to the DC resistance of the wire, the dielectric loss of the frame, the loss caused by the shield or the iron core, and the influence of the high-frequency skin effect. The Q value of the coil is usually tens to hundreds. The quality factor of an inductor is related to the DC resistance of the coil wire, the dielectric loss of the coil frame, and the loss caused by the core and shield.
Distributed capacitance
A certain amount of capacitance exists in any inductive coil between turns, between layers, between the coil and the reference ground, between the coil and the magnetic shield, etc. These capacitances are called the distributed capacitance of the inductance coil. If these distributed capacitances are integrated together, it becomes an equivalent capacitance C connected in parallel with the inductance coil. The existence of distributed capacitance reduces the Q value of the coil and the stability becomes worse. Therefore, the smaller the distributed capacitance of the coil, the better.
rated current
Rated current refers to the maximum current value that the inductor is allowed to pass during normal operation. If the working current exceeds the rated current, the inductor will change its performance parameters due to heat, and even burn out due to overcurrent.
- |
- +1 赞 0
- 收藏
- 评论 0
本文由梨花落风转载自Fine Official Website,原文标题为:The inductor coil manufacturer briefly describes the performance indicators of the inductor coil for you,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关研发服务和供应服务
相关推荐
Inductor Coil Structure and Characteristics
The inductance coil is generally composed of a magnetic core or iron core, a skeleton, a winding group, a shielding cover, and packaging materials.
The Role of Inductance Coil
Resistance, capacitance and inductance, they all present a certain resistance to the flow of electrical signals in the circuit. This resistance is called “impedance“. The impedance presented by the inductor to the current signal uses the self-inductance of the coil.
What are the Classifications of Commonly Used Inductance Coils?
Inductance coils, devices utilizing electromagnetic induction, are classified into various types. Based on inductance form, they are fixed and variable. By magnetic conductor, they are air core, ferrite, iron core, and copper core. By function, they include antenna, oscillating, choke, trap, and deflection coils. By winding structure, they are single-layer, multi-layer, honeycomb, etc.
无线充电发射线圈定制
可定制TX线圈的尺寸/形状/特性参数,Q的最小值为90,最大值为120,符合WPC和Qi标准。电感的最小值、典型值、最大值依次为21.6μH、24.0μH、26.4μH,偏差为10%.DCR(最大值)为75mΩ。
服务提供商 - 泛亚 进入
The World‘s Top Strong Magnetic Field Is Built in China: the Coil Life Is Nearly Doubled, and the Power Supply Is Cheap and Powerful
This website is about Sino-Fine Chemical Co., Ltd., a company specializing in the production of food additives and pharmaceutical intermediates. It introduces the company‘s history, production capacity, and quality management system. Highlights include advanced production equipment, a complete quality assurance system, and compliance with international standards. The company aims to provide high-quality products and services to customers worldwide.
Inductor and Transformer Testing Methods and Experience
This passage introduces methods for detecting color code inductors, mid-circle transformers, and power transformers. For color code inductors, use a multimeter to check resistance and identify faults. For mid-circle transformers, check winding connections and insulation. For power transformers, visually inspect, test insulation, check winding connections, identify primary and secondary coils, measure no-load current, detect no-load voltage, and identify short-circuit faults.
What Is the Wireless Charging Coil Receiving Ring
The wireless charging coil uses a transmitting coil to send electric energy through electromagnetic fields to a receiving coil, which stores the current. This technology boasts a higher conversion rate and lower loss than wired charging. The core chip controls precise radiation range, magnetic field frequency, etc. The magnetic field is safe for humans. With advancements in electronic technology, mobile phone wireless charging will become widespread. The technology uses magnetic resonance and can be applied in various fields.
Understanding Inductance Coils: Principles, Types and Selection
Inductance coil is a device that uses the principle of electromagnetic induction to work. When a current flows through a wire, a certain electromagnetic field will be generated around the wire, and the wire of this electromagnetic field will induce the wire within the range of this electromagnetic field.
A Brief Introduction to the Principle of Use of Inductance Coils
Inductance is the ratio of magnetic flux to current in a wire with AC. When AC passes through a coil, the magnetic field lines change over time, generating an induced electric potential, equivalent to a new power source. This prevents current changes in AC circuits, similar to inertia in mechanics. Inductance is related to coil turns, size, shape, and medium, and measures the inertia of the inductor.
Inductor coil manufacturers tell you the role of inductance coils
Choke effect: The self-induced electromotive force in the inductance coil always counteracts the current change in the coil. The inductance coil has an obstructive effect on the alternating current, and the size of the obstructive effect is called the inductive reactance xl, and the unit is ohm. Its relationship with inductance l and alternating current frequency f is xl=2πfl, and inductors can be mainly divided into high-frequency choke coils and low-frequency choke coils. Tuning and frequency selection: The inductance coil and the capacitor are connected in parallel to form an lc tuning circuit. That is, the natural oscillation frequency f0 of the circuit is equal to the frequency f of the non-AC signal, and the inductance and capacitive reactance of the loop are also equal, so the electromagnetic energy oscillates back and forth between the inductance and the capacitance, which is the resonance phenomenon of the lc loop. At resonance, the inductive reactance and capacitive reactance of the circuit are reversed. The inductive reactance of the total loop current is the smallest and the current is the largest (referring to the AC signal of f="f0"). The lc resonance circuit has the function of selecting the frequency and can An AC signal of frequency f is selected.
电子商城
现货市场
服务
可定制TX线圈的尺寸/形状/特性参数,Q的最小值为90,最大值为120,符合WPC和Qi标准。电感的最小值、典型值、最大值依次为21.6μH、24.0μH、26.4μH,偏差为10%.DCR(最大值)为75mΩ。
最小起订量: 1000 提交需求>
朗能泛亚提供是德(Keysight),罗德(R&S)等品牌的测试测量仪器维修服务,包括网络分析仪、无线通讯综测仪、信号发生器、频谱分析仪、信号分析仪、电源等仪器维修,支持一台仪器即可维修。
提交需求>
登录 | 立即注册
提交评论