So adopting IGBT to realize high power induction heating power is a wise choice.
因此采用IGBT来实现大功率感应加热电源是明智的选择。
In this paper, the basic induction heating power load matching a brief analysis.
本文对感应加热电源的基本负载匹配方法做了简要的分析。
So it is urgent to design and produce a high frequency induction heating power supply.
因此,设计并生产高频全固态感应加热电源变得尤为重要。
A solid state high frequency induction heating power supply using power MOSFETs is studied.
本文研究了使用功率MOSFET的固态高频感应加热电源。
Load matching is intended to make induction heating power to the rated output power, and improve efficiency.
负载阻抗匹配的目的是为了使感应加热电源能够输出额定功率、提高效率。
The model of induction heating power for unit volume of plate-form part with big flakiness ratio was obtained.
研究了电磁成形大宽厚比板状件的感应加热特性,推导了电磁成形大宽厚比板状件单位体积感应加热功率公式。
Through the comparison of the series resonant and parallel resonant induction heating power supply, series resonant is selected.
通过对串联谐振型和并联谐振型感应加热电源的分析与比较,选用了串联谐振。
A novel induction heating power based on current hysteresis band control and SVPWM modulation technology is introduced in this paper.
介绍了一种新颖的基于电流滞环和空间电压矢量调制(SVPWM)技术的电压、电流双闭环感应加热电源。
This paper mainly discusses the design and the application of the IGBT phase lock control circuit controlled by the induction heating power supply.
本文主要介绍IGBT锁相控制电路在感应加热电源控制系统中的设计和应用。
The control system of IGBT induction heating power supply is designed based on DSP (digital signal processor) and CPLD (complex programmable logic device).
用数字信号处理器(dsp)和复杂可编程逻辑器件(CPLD)设计了IGBT感应加热电源控制系统。
After the series resonant type and the parallel type induction heating power supply are analyzed and compared, the series resonant type main circuit is adopted.
通过了对串联谐振式和并联谐振式感应加热电源的分析与比较,选用了串联谐振主电路。
The digital control of induction heating power supply was implemented through this design approach, and the software chart was illustrated as well in this paper.
通过这种设计方案,实现了感应加热电源的数字化控制,并给出了相应的软件框图。
In view of the above questions, the design developing a method based on PC and MCU induction heating power supply power acquisition and energy monitoring system.
针对以上问题,本设计开发了一种基于PC机和单片机的感应加热电源电量采集与能量监控系统。
XGP series of high-frequency induction heating power are designed on the current international advanced electronic technology and is the latest high-tech products.
XGP系列高频感应加热电源是采用目前国际先进的电力电子技术而设计生产的最新高科技产品。
In the second chapter, it has introduced the super-frequency induction heating power supply in detail, including its rectifier, its inverter and its parallel-resonant load.
第二章对超音频感应加热电源做了详细的技术分析,包括它的整流电路、逆变电路和并联谐振槽路。
Considering the load characteristics of the solid-state induction heating power supply, the resonant inverter load matching schemes are compared and analyzed in this paper.
详细分析了固态高频感应加热装置的动态负载匹配方案;阐述了动态匹配的原理;描述了动态匹配的控制电路。
Since the invention of the induction heating power supply, it has been rapidly applied to the every area of national production for its advantages in the industrial heat treatment.
自从感应加热电源问世以来,由于其在工业热处理等方面的各种优点,迅速地应用到了国民生产的各个领域。
Induction heating power has been used widely in industrial areas. The control method for inverter is crucial to determine whether induction heating power can work safely and efficiently.
感应加热电源已在工业生产中得到了广泛的应用,其逆变控制电路是直接影响感应加热电源能否安全、高效运行的关键因素。
Comparing with the other traditional heating equipments, induction heating power supply has tremendous advantage, and has an extremely extensive application in the industrial production now.
相比较传统的加热设备,感应加热电源具有极大的优势,在现在的工业生产中有着极为广泛的应用。
A medium frequency induction heating power source controlled by the microprocessor can not be run normally, in case its synchronous signals are disturbed by the harmonic from common network.
由于同步信号受电网谐波的干扰,常使微机控制的中频感应加热电源不能正常运行。
The hardening case depth and hardness curve can be changed by adjusting heating time, heating power and cooling speed during induction hardening.
在感应淬火中,通过改变加热时间、加热功率和冷却速度可以改变淬硬层深度和硬度梯度。
Induction heating system elements, including induction coil, an AC power source and the workpiece.
感应加热系统的基本组成包括感应线圈、交流电源和工件。
Medium frequency high power induction heating apparatus, for many years has adopted silicon controlled as switching devices.
中频大功率感应加热装置,多年来一直采用可控硅做为开关器件。
Power supply for induction heating is an equipment to heat the workpiece by whirling current and it is applied widely in industry because of its many virtues.
感应加热电源是利用电涡流对工件加热的一种装置,由于具有诸多优点而在工业中得到了广泛的应用。
In some induction heating process, induction coil is connected with power source through connecting power cable.
在某些特殊工艺的感应加热中,感应线圈需要通过延伸电缆与电源连接。
The series resonance circuit is simple, its start easy and resonance-frequency high. It is suitable in small power induction heating supply.
串联谐振电路简单、启动容易、谐振频率高,适应于小功率感应加热电源系统。
On the basis of the study situation of induction heating, the digitization of the rectification control circuits of medium frequency power supply is achieved by using microcomputer in this paper.
基于感应加热研究现状,利用微机对中频电源控制电路实现了数字化。
Electromagnetic induction heating circuit design includes power circuit, control circuit, oscillations and driving circuit modules expounded on the circuit design.
电磁感应加热电路设计包括功率电路、控制电路、振荡和驱动电路等单元,阐述系统的电路设计。
Electromagnetic induction heating circuit design includes power circuit, control circuit, oscillations and driving circuit modules expounded on the circuit design.
电磁感应加热电路设计包括功率电路、控制电路、振荡和驱动电路等单元,阐述系统的电路设计。
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