In this paper, rapid induction heating of 0.

采用感应快速加热设备对0。

This paper presents an induction heating control system based on fuzzy logic.

提出了一种基于模糊控制的感应加热控制系统。

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。

The steel sample is molten by radio freguency induction heating in pure nitrogen flow.

试样在高纯氮气流中用高频感应加热熔融。

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。

To melt the charge radio frequency induction heating or resistance heating have been used.

为了熔化进料，可用射频感应加热或电阻加热法。

To melt the charge, radio frequency(induction heating)or resistance heating have been used .

为了熔化进料，可用射频（感应加热）或电阻加热法。

The induction heating equipment and heat treatment process of thick-wall pipe were reconstructed.

对厚壁管感应加热设备及热处理工艺进行了重新设计改造。

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。

Induction heating roller device, heating roller, photographic fixing equipment and imaging device.

感应加热辊装置，加热辊，定影设备和成像设备。

This thesis introduces a kind of current supply of the induction heating equipment and its design scheme.

本文针对中频感应加热装置的需要设计了一种感应加热电源。

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。

Induction heating are accompanied by the automotive industry and the birth of the industrial tractors started.

感应加热是伴随着汽车工业和拖拉机工业的诞生而起步的。

The pure quartz lump becomes quartz tube via untouched technology of intermediate frequency induction heating.

采用中频感应加热无接触技术，将石英净坨拉制成为石英管。

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 principle of high frequency electromagnetic induction heating and its application in cork drum heating were introduced.

论述了高频电磁感应加热原理以及该技术在接装纸鼓轮加热中的实现。

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。

OBJECTIVE: Study the feasibility of using an alternating magnetic field from induction heating furnace to heat the NITI stent.

目的：应用工业用电磁炉间接加热niti合金支架，探讨加热支架的可行性。

In this paper a PLC controlled induction heating system is presented base on the analysis of medium frequency parallel converter.

本论文在对中频感应加热及相关技术作出研究的基础上，探讨了PLC控制感应加热成套系统的控制和相关技术。

Result of research shows that proper technology of induction heating satisfies the technologic request in semi-solid metal forming.

研究结果表明，适当的感应加热工艺能满足金属半固态成形技术中的二次加热的技术要求。

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。

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。

A new starting method for SCR induction heating inverter with series parallel resonant load, named as magnetizing to the load, is developed.

提出与研究了具有串并联谐振负载的晶闸管中频电源的一种新启动方法——负载充磁启动。

The induction heating process of cylinder workpiece was analyzed, and the temperature distribution and its variation with time were obtained.

分析了圆柱工件的感应透热过程，得到了坯料内的温度分布状况以及温度随时间的变化规律。

This technology has important value to discover the rule of induction heating process, optimize process parameters and drive technology progress.

该技术对揭示铸坯感应加热过程的规律、优化工艺参数、推动技术进步具有重要的应用价值。

Magnetic levitation melting and copper mold blow-casting of bulk metallic glasses were realized with ordinary high-frequency induction heating equipment.

采用普通高频感应加热装置实现了大块非晶合金的磁悬浮熔炼和铜模吹铸法制备。

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 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。

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。