FAN7383和 FAN7384采用14-SOP封装,FAN73832采用8-DIP、8-SOP封装, 这些器件有关断、停滞时间控制 (dead-time control) 和短路保护等特性。能达到甚至超越IPC/JEDEC的J-STD-020C标准要求,并符合现已生效的欧盟标准。
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Dead time control 可编程的死区控制
no-dead-time control 无死区控制
no dead-time control 无死区控制
non-dead-time control 无死区控制
Dead time control circuit 死区电路
dynamic dead time control 动态死区时间控制
adaptive dead-time control 自适应死区时间控制
The latter takes PWM (Pulse-Width Modulation) control and ZVS control as its target, synchronizes with clock to realized its driven waveform. In addition, adaptive dead-time control is analyzed.
由程序综合的控制电路以PW M控制和ZVS控制为目标,并由时钟同步,实现了对驱动波形的控制。
For the situation with dead time and constraints, a control strategy of increment model algorithm was developed using goal programming as optimal strategy.
针对纯时延和有约束的情况,应用目标规划作为优化策略,提出了一种增量型模型算法控制策略。
During a modulation period, several dead voltage vectors were synthesized. Using the control software, the reference voltage space vector could be corrected. Thus the dead-time effect was eliminated.
在一个调制周期内,可预先求出几个死区电压矢量的合成矢量,用控制软件的方法实现对参考空间电压矢量的校正,从而消除死区效应。
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