本设计采用高层分区供热系统。
本设计采用钢筋混凝土现浇框架结构。
This scheme adopts the cast-in-place frame structure of reinforced concrete.
所以,本设计采用了九区域电压无功模糊边界控制策略。
So, improved nine-zone fuzzy boundary control policy is adopted in this design.
为了保持原烟气入口压力为定值,本设计采用PI调节。
In order to keep the pressure of the gas import as a fixed value, the design used a PI-conditioning.
本设计采用有源电极的设计方法有效地提高了信号的质量。
By designing of active electrodes, the quality of the signal is improved effectively.
本设计采用理论和计算相结合的方法讨论高压配电网的设计。
This paper discuss the design of the high voltage distribute network with count and theory.
本设计采用调节池调节水质水量,为UASB的处理打好基础。
The design of a regulation pool water quality regulation, to lay the foundation for the handling of UASB.
由于本设计采用了模块化的设计方法,提高了测量频率的范围。
Because originally design the design method to adopt module, improve the range of measuring frequency.
针对以上的成绩,本设计采用PLC和变频器等对电梯停止控制。
In view of the above problem, this design USES the PLC and inverter of elevator control etc.
本设计采用五端型,具有开关速度快,输入功率小,驱动功率大等特点。
This design adopts five ends the type, and have the switch speed quick, input the power small, drive the big etc.
本设计采用PLC为控制系统地核心,完成了三种液体自动混合的功能。
This design adopts PLC as the core of the control system to realize the automatic mixing function for three liquids.
本设计采用重介选煤工艺,其主要设备是无压给料三产品重介质旋流器。
The design adopt the heavy medium Preparation technique, and its main equipments are three-product dense medium cyclone by unpressurized feeding.
本设计采用单片机控制器,根据种线机的规范,完成种线机输入信号的采集。
This design USES a micro-controller, according to species-ray machine specifications, complete species-ray input signal acquisition.
本设计采用了高性能的VCSEL激光器和激光器驱动电路来满足上述要求。
In this design, a high performance VCSEL laser and a laser driver is used to satisfy above requirements.
另外,本设计采用交流调压调频调速与同规格的传统电梯相比,可节能40%。
In addition, the VVVF elevator is 40% more power saving than the traditional one.
因此,本设计采用双通光栅单色仪加直接驱动直接读取光栅角位置控制的实现方案。
So, this project adopts the realization scheme of double-pass raster monochromator plus direct drive and direct reading of the raster's angle position to control.
本设计采用模块化设计方法,使设计过程简化,并具有设计再利用和优良的可扩展性。
By using module design method, the process of the design is simplified, and all these modules can be reused.
对楼板进行了配筋计算,本设计采用桩基础,对基础承台和桩进行了受力和配筋计算。
On the floor reinforcement calculation, the use of pile foundation design, foundation and pile caps for the force and reinforcement calculation.
区别于现有的微欧仪,本设计采用由电容组成的二阶振荡电路做脉冲电源对开关进行放电。
In this thesis, switchgear test power is supplied by a pulse power, composed of a second order oscillating circuit including a capacitance.
在众多汽车网络标准的主流协议中,本设计采用了高性能、低成本的CAN总线网络协议。
In the design, the protocol of CAN Bus network with high performance and low cost is adopted among many main protocols of automotive network standard.
本设计采用C语言编写程序,采用模块化设计,增强了可读性,实现了电机运动控制功能。
The design using C language programming and modular design, enhance readability, a motor movement control functions.
本设计采用曲柄压力机进行冲压,因为它具有生产率高、设备维修简单、工作环境整洁等特点。
The design used the crank pressure machine for punching, which has high productivity, maintenance simple, clean working environment and so on.
本设计采用模块化的设计思想,整个仪表分成传感器、核心板、扩展板和液晶及按键四个模块。
Based on modular design, the meter is divided into 4 modules: sensors module, main-board module, LCD and key-board module, mini-board.
本设计采用内嵌有CAN控制器的DS80C 390微处理器来实现智能断路器的可通信功能。
In the design, the microprocessor DS80C390 with embedded CAN controller is used to implement the functions of communication between intelligent circuit breakers.
本设计采用8位单片机和16位A/D变换器相组合构成温度采集系统进一步提高系统的性价比。
The temperature collecting system is composed of 8 bit singlechip and 16 bit A/D converter, and it can improve the performance price rate of the system.
在硬件结构上,本设计采用FPGA完成信号的采集和相关处理,采用DSP实现杂波抑制处理。
On hardware, signal acquisition and correlation processing is completed in FPGA, clutter suppression is achieved in DSP.
为了获得高的灵敏度,本设计采用了噪声系数很低的前置放大器,并进行了可靠的接地、屏蔽等处理。
To achieve high sensitivity, the pre-amplifier with very low noise figure is adopted in the design, and reliable grounding and shielding processing are performed.
本设计采用圆筒炉,通过对加热炉总负荷的确定,和燃料油性质的确定,对加热炉进行具体的工艺计算。
The heat tranfering process was optimized as the fuel cosumption of the heating furnace accounts for about 78 percent of the total device comsumption.
本设计采用圆筒炉,通过对加热炉总负荷的确定,和燃料油性质的确定,对加热炉进行具体的工艺计算。
The heat tranfering process was optimized as the fuel cosumption of the heating furnace accounts for about 78 percent of the total device comsumption.
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