Directly from the PLC PID operation to the temperature controller, DT3, as the temperature control core, reduce the PLC computation and improve the control effect of heating key process.
从PLC直接作PID运算提升到温度专用控制器,DT3为温度控制核心,减轻PLC计算量,提高了加热关键工序的控制效果。
This paper presents an Expert PID control strategy to control the temperature of the humidifier.
本文基于专家PID控制策略来控制加湿器的温度。
This paper introduces the traditional control method of Gyro temperature control system, and gives the digital PID control method of the gyro temperature control based on PC/104.
介绍了陀螺温控系统的传统控制方法,并在此基础上提出了基于PC/104的数字PID控制的陀螺温度控制方法。
Since the temperature system of humidifier is a large time-delay nonlinear system, the normal PID control can not achieve the desired performance.
然而加湿器的温度系统是一个大时滞非线性系统,采用常规的PID控制无法实现有效的控制。
Control system: PID temperature adjustment, timing boot regularly shutdown function.
控制系统:PID温度调节,具有定时开机定时关机功能。
The intelligent PID control makes the practical furnace temperature curve well meet with standard ISO834.
采用智能PID控制则使炉膛的实际升温曲线符合ISO 834国际标准升温要求。
Temperature control system based on no touch switch has realized PID control.
温度控制采用无触点的开关控制,并实现了PID调节。
Currently, the superheated steam temperature control system in most power plants still adopts the conventional PID cascade control scheme.
目前,大多数火电厂的过热汽温控制仍然普遍采用传统的PID串级控制方法。
At present, the mainly method used in glass furnace temperature control is PID control.
玻璃窑炉温度系统现有的控制方法主要是传统的PID控制。
Routine PID control was easy to establish linear temperature controlled object model.
常规PID控制易于建立线性温度控制系统被控对象模型。
The temperature control system for macromolecule polymer reaction is designed by the method of Fuzzy_Neural PID control.
应用模糊神经网络PID控制技术,建立了高分子聚合物反应温度控制系统。
Adopted PID control keep temperature precise and stable.
采用PID控制,使温度精确稳定。
Adopted MCU and PID control achieve precise and steady temperature.
同时采用MCU及PID控制,温度更精确,更稳定。
Temperature control holds an important place in industrial production. PID is one of the most widely adapted methods in the current temperature control process.
温度控制在工业生产中占据重要位置,PID控温是目前温度控制过程中应用最广泛的一种控制方法。
On the principle of PID, the control method of fuzzy PID is discussesed in saving electric energy, the effect of dust collecting, wind mixing and spraying for temperature reducing.
在对除尘器风机实行PID变频调速的基础上,为节约电能,提高除尘效果,提出混风降温、喷雾降温的模糊PID控制思想及策略。
The experimental results show that the regulator is safe and more applicable than classical PID regulator for the temperature control and the adjustment of parameter.
实际应用表明:相对于经典的PID控制器,该控制器稳定、可靠,解决了温控难点及现场控制参数调整困难的问题。
As an important temperature control device, the PID temperature controller has been widely used in many industrial processes.
PID温度控制器作为一种重要的温度控制设备,在诸多工业生产过程中得到了广泛的应用。
A fuzzy and PID control method is presented for characteristics of boilers temperature control system.
针对热水锅炉温度控制的特点,采用模糊pid控制策略。
The computer simulation results indicate that the fuzzy PID control system is more robust than the comparable linear PID control system in control of the tissue temperature.
计算机仿真结果表明模糊控制系统在组织温度控制中比对应的线性PID控制系统鲁棒。
An optimized algorithm combining the fuzzy control with the PID control has been put forward, realizing a good control of the temperature system in the high frequency heating equipment.
提出一种模糊控制与PID控制相结合的优化算法,实现了对高频加热设备温度系统的良好控制。
With the use of the auto-tuning optimal PID controller, the optimal control over the air temperature in the greenhouse is realized.
采用参数自整定最优PID控制算法,实现了温室温度的优化控制。
The temperature control strategies was proposed based on the PID active thermal control.
提出基于PID主动热控制的温度控制策略。
This paper gives the digital PID control method of the gyro temperature control and introduces the structure and features of a Gyroscope' s temperature test system .
介绍了陀螺数字PID温度控制方法以及陀螺仪温度试验系统的结构和特点,用该系统进行了某型陀螺仪的温度速率试验与位置试验。
PID control keeps precise and stable temperature.
采用PID控制,使温度精确稳定。
The control system adopted master machine and slave machine architecture, and the temperature controlling used improved PID control algorithm.
控制系统采用上位机、下位机的结构,温度控制算法采用改进的PID控制算法。
The control strategy for developing the intelligent fuzzy integrated PID parameters obviously improves the precision of temperature control.
开发适合真空钎焊炉温度控制特点的智能模糊整定PID参数的控制方案,明显地改善了温度控制的精确性。
Results AND CONCLUSION: The temperature control results showed that improved PID control algorithm could control temperature precisely, with a fast reaction velocity.
结果与结论:通过温度控制实验证明,改进的PID控制算法能精确地控制温度,反应速度快,能很好地应用于该控制模式。
The fuzzy-PID control used in temperature control, with temperature departures and the changes and as its input and fuel flow as output, could satisfy the control demand.
对温度用模糊PID控制,以温度偏差和温度偏差变化为输入,燃料流量为输出,这个模糊控制器能满足控制要求。
Last we apply the neural network PID control method to temperature control system for a water bath, experimental results show that the present method provides an excellent control results.
最后,将神经网络PID控制器取代基本PID控制器用在浴室水箱温度控制中,仿真结果表明这种控制方法有很好的控制效果。
Last we apply the neural network PID control method to temperature control system for a water bath, experimental results show that the present method provides an excellent control results.
最后,将神经网络PID控制器取代基本PID控制器用在浴室水箱温度控制中,仿真结果表明这种控制方法有很好的控制效果。
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