rack-off

PLC多种液体自动混合

采用的PLC是西门子S7-200系列，仿真编程软件为STEP7-Micro。在初始状态，容器是空的，各阀门皆关闭，Y1、Y2、Y3灯皆暗和M搅拌机均为OFF，液面传感器L1、L2、L3为关，加热器H为关。若要启动操作，按下启动按钮(I0.0)，开始下列操作：（1）Y1、Y2为ON，液体A和B同时注入容器，当液面达到L2时，L2为ON，使Y1、Y2为OFF，Y3为ON，即关闭Y1、Y2阀门，打开液体C的阀门Y3。（2）液面达到L1时，Y3为OFF，M为ON，即关闭阀门Y3，电动机起动开始搅拌。（3）经10S搅匀后，M为OFF，停止搅拌，H为ON，加热器开始加热。 4、当混合液体温度达到某一指定值时，T为ON，H为OFF，停止加热，使电磁阀Y4为ON，开始放出混合液体。（4）当液体高度降为L3后，L3从ON到OFF，再经5S，容器放空，Y4为OFF，开始下一周期。当按下停止按钮后，在当前的混合操作处理完毕后，停止操作，停在初始状态。

标签： plc 多种液体自动混合西门子 S7-200

上传时间： 2021-12-31

上传用户：XuVshu
DDR4标准 JESD79_4

1. Scope ......................................................................................................................................................................... 12. DDR4 SDRAM Package Pinout and Addressing ....................................................................................................... 22.1 DDR4 SDRAM Row for X4,X8 and X16 ................................................................................................................22.2 DDR4 SDRAM Ball Pitch........................................................................................................................................22.3 DDR4 SDRAM Columns for X4,X8 and X16 ..........................................................................................................22.4 DDR4 SDRAM X4/8 Ballout using MO-207......................................................................................................... 22.5 DDR4 SDRAM X16 Ballout using MO-207.............................................................................................................32.6 Pinout Description ..................................................................................................................................................52.7 DDR4 SDRAM Addressing.....................................................................................................................................73. Functional Description ...............................................................................................................................................83.1 Simplified State Diagram ....................................................................................................................................83.2 Basic Functionality..................................................................................................................................................93.3 RESET and Initialization Procedure .....................................................................................................................103.3.1 Power-up Initialization Sequence .............................................................................................................103.3.2 Reset Initialization with Stable Power ......................................................................................................113.4 Register Definition ................................................................................................................................................123.4.1 Programming the mode registers .............................................................................................................123.5 Mode Register ......................................................................................................................................................134. DDR4 SDRAM Command Description and Operation ............................................................................................. 244.1 Command Truth Table ..........................................................................................................................................244.2 CKE Truth Table ...................................................................................................................................................254.3 Burst Length, Type and Order ..............................................................................................................................264.3.1 BL8 Burst order with CRC Enabled .........................................................................................................264.4 DLL-off Mode & DLL on/off Switching procedure ................................................................................................274.4.1 DLL on/off switching procedure ...............................................................................................................274.4.2 DLL “on” to DLL “off” Procedure ..............................................................................................................274.4.3 DLL “off” to DLL “on” Procedure ..............................................................................................................284.5 DLL-off Mode........................................................................................................................................................294.6 Input Clock Frequency Change ............................................................................................................................304.7 Write Leveling.......................................................................................................................................................314.7.1 DRAM setting for write leveling & DRAM termination function in that mode ............................................324.7.2 Procedure Description .............................................................................................................................334.7.3 Write Leveling Mode Exit .........................................................................................................................34

标签： DDR4

上传时间： 2022-01-09

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PW2601_2.0.pdf规格书下载

The PW2601 is a charger front-end integrated circuit designed to provide protection to Li-ionbatteries from failures of charging circuitry. The device monitors the input voltage, battery voltageand the charging current to make sure all three parameters are operated in normal range. Thedevice will switch off internal MOSFET to disconnect IN to OUT to protect load when any of inputvoltage, output current exceeds the threshold. The Over temperature protection (OTP) functionmonitors chip temperature to protect the device. The PW2601 also can protect the system’sbattery from being over charged by monitors the battery voltage continuously. The deviceoperates like a linear regulator, maintaining a 5.1V output with input voltages up to the input overvoltage threshold.The PW2601 is available in DFN-2x2-8L package. Standard products are Pb-free and Halogenfree

标签： pw2601

上传时间： 2022-02-11

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ST7789V IC规格书

Single chip TFT-LCD Controller/Driver with On-chip Frame Memory (FM) Display Resolution: 240*RGB (H) *320(V) Frame Memory Size: 240 x 320 x 18-bit = 1,382,400 bits LCD Driver Output Circuits- Source Outputs: 240 RGB Channels- Gate Outputs: 320 Channels- Common Electrode Output Display Colors (Color Mode)- Full Color: 262K, RGB=(666) max., Idle Mode Off- Color Reduce: 8-color, RGB=(111), Idle Mode On Programmable Pixel Color Format (Color Depth) for Various Display Data input Format- 12-bit/pixel: RGB=(444)- 16-bit/pixel: RGB=(565)- 18-bit/pixel: RGB=(666) MCU Interface- Parallel 8080-series MCU Interface (8-bit, 9-bit, 16-bit & 18-bit)- 6/16/18 RGB Interface(VSYNC, HSYNC, DOTCLK, ENABLE, DB[17:0])- Serial Peripheral Interface(SPI Interface)- VSYNC Interface

标签： st7789v LCD

上传时间： 2022-03-04

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多功能电子药箱的设计与实现

基于药物治疗在临床治疗中的重要性,分析目前服药提醒装置存在的不足,以STM32F103VET6单片机为控制核心,设计了一种多功能电子药箱。该系统包括显示模块、语音模块和数据存储模块。显示模块通过触摸屏电路和LED指示灯电路,与语音模块相配合,实现了服药提醒及指导的功能;数据存储模块通过EEPROM存储电路,能够实现掉电时服药信息不丢失的功能。并且为了实现电子药箱的智能化控制,开发了手机APP,两者之间可通过WIFI进行数据通信。经测试,该药箱能够有效地帮助慢性病患者按时、定量、正确服用药物,适合在家庭中推广使用,具有较高的应用价值和实践意义。Based on the importance of drug therapy in clinical treatment, this paper analyzes the shortcomings of current drug reminder devices, and designs a multi-function electronic medicine box with STM32 F103 VET6 microcontroller as the control core. The system includes a display module, a voice module, and a data storage module. The display module cooperates with the voice module through the touch screen circuit and the LED indicator circuit to realize the function of reminding and guiding the medicine;the data storage module can realize the function of not losing the medication information when the power is off through the EEPROM storage circuit.After testing, the medicine box can effectively help chronic diseases patients to take drugs on time, in a quantitative and correct manner,and is suitable for popularization in the family, and has high application value and practical significance.

标签： 电子药箱

上传时间： 2022-03-27

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基于MSP430单片机及FPGA的简易数字示波器

数字示波器功能强大,使用方便,但是价格相对昂贵。本文以Ti的MSP430F5529为主控器,以Altera公司的EP2C5T144C8 FPGA器件为逻辑控制部件设计数字示波器。模拟信号经程控放大、整形电路后形成方波信号送至FPGA测频,根据频率值选择采用片上及片外高速AD分段采样。FPGA控制片外AD采样并将数据输入到FIFO模块中缓存,由单片机进行频谱分析。测试表明:简易示波器可以实现自动选档、多采样率采样、高精度测频及频谱分析等功能。Digital oscilloscope is powerful and easy to use, but also expensive. The research group designed a low-cost digital oscilloscope, the chip of MSP430F5529 of TI is chosen as the main controller and the device of EP2C5T144C8 of Altera company is used as the logic control unit. Analog signal enter the programmable amplifier circuit, shaping circuit and other pre-processing circuit. The shaped rectangular wave signal is sent to FPGA for measure the frequency. According to the frequency value to select AD on-chip or off-chip high-speed AD for sampling. FPGA controls the off-chip AD sampling and buffers AD data by FIFO module. The single chip microcomputer receives the data, and do FFT for spectrum analysis. The test shows that the simple oscilloscope can realize automatic gain selection, sampling at different sampling rates, high precision frequency measurement and spectrum analysis.

标签： msp430 单片机 fpga 数字示波器

上传时间： 2022-03-27

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中文UCC2895相移全桥控制设计

IC-Ucc28950改进的相移全桥控制设计UcC28950是T公司进一步改进的相移全桥控制C，它比原有标准型UCC2895主要改进为Zvs能力范围加宽，对二次侧同步整流直接控制，提高了轻载空载转换效率，而且此时可以ON/OFF控制同步整流成为绿色产品。既可以作电流型控制，也可以作电压型控制。增加了闭环软启动及使能功能。低启动电流，逐个周期式限流过流保护，开关频率可达1MHz UCC28950基本应用电路如图1所示，内部等效方框电路如图2所示。*启动中的保护逻辑UCC28950启动前应该首先满足下列条件：*VDD电压要超过UvLo阈值，73V*5V基准电压已经实现*芯片结温低于140℃。*软启动电容上的电压不低于0.55V。如果满足上述条件，一个内部使能信号EN将产生出来，开始软启动过程。软启动期间的占空比，由Ss端电压定义，且不会低于由Twm设置的占空比，或由逐个周期电流限制电路决定的负载条件电压基准精确的（±1.5%5V基准电压，具有短路保护，支持内部电路，并能提供20mA外部输出电流，其用于设置DCDC变换器参数，放置一个低ESR，ESL瓷介电容（1uF-2.2uF旁路去耦，从此端接到GND，并紧靠端子，以获得最佳性能。唯一的关断特性发生在C的VDD进入UVLo状态。*误差放大器（EA+EA，COMP）误差放大器有两个未提交的输入端，EA+和EA-。它具有3MHz带宽具有柔性的闭环反馈环。EA+为同相端，EA-为反向端。COMP为输出端输入电压共模范围保证在0.5V-3.6V。误差放大器的输出在内部接到pWM比较器的同相输入端，误差放大器的输出范围为0.25V4.25V，远超出PwM比较器输入上斜信号范围，其从0.8v-2.8V。软启动信号作为附加的放大器的同相输入，当误差放大器的两个同相输入为低，是支配性的输入，而且设置的占空比是误差放大器输出信号与内部斜波相比较后放在PWM比较器的输入处。

标签： ucc2895

上传时间： 2022-03-31

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MOSFET开关过程的研究及米勒平台振荡的抑制

设计功率MOSFET驱动电路时需重点考虑寄生参数对电路的影响。米勒电容作为MOSFET器件的一项重要参数,在驱动电路的设计时需要重点关注。重点观察了MOSFET的开通和关断过程中栅极电压、漏源极电压和漏源极电流的变化过程,并分析了米勒电容、寄生电感等寄生参数对漏源极电压和漏源极电流的影响。分析了栅极电压在米勒平台附近产生振荡的原因,并提出了抑制措施,对功率MOSFET的驱动设计具有一定的指导意义。When designing the drive circuit of power MOSFET,the influence of parasitic parameters on the circuit should be concerned.As an important parameter of MOSFET device,Miller capacitance should be considered in the design of drive circuit.The variation of gate voltage,drain source voltage and drain source current during the turn-on and turn-off of MOSFET were observed.The influences of parasitic parameters such as Miller capacitance and parasitic inductance on drain source voltage and drain source current were analyzed.The reasons of gate voltage oscillation nearby Miller plateau were analyzed,and the restraining measures were put forward.This research was instructive for the drive design of power MOSFET.

标签： mosfet

上传时间： 2022-04-02

上传用户：默默
(网盘)开关电源资料合集

电源设计资料现代逆变技术及其应用.pdf - 6.63MB现代高频感应加热电源工程设计与应用.pdf - 23.81MB现代电源设计大全.pdf - 7.16MB仙童开关电源设计软件Off-lineSMPSDesignTools1.6.zip - 5.32MB特种集成电源最新应用技术.pdf - 7.60MB实用电池充电器与保护器电路集锦.pdf - 6.56MB刘坚强电源维修视频.zip - 2.19GB开源力量新版在线学习网站开通啦！.txt - 5.72KB开关稳压电源--原理、设计与实用电路.pdf - 7.40MB开关电源知识.rar - 478.56KB开关电源原理与设计.pdf - 4.05MB开关电源原理与设计-经典.pdf - 682.32KB开关电源抑制噪声技术.pdf - 283.13KB

标签： 开关电源

上传时间： 2022-06-05

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高通蓝牙芯片qcc5127详细规格书datasheet.pdf

高通蓝牙芯片qcc5127详细规格书datasheet.pdf英文版，共97页详细说明:1 Package information(pin allocations, pios terminal functions)2 Bluetooth subsystem 3 Cystal oscillator4 System powerstates (Idel,Active,Sleep, Off)5 Host Interface subsystem6 Applications subsystem ( QSPI Flash controller)7 Audio subsystem(Dual core Kalimba, ROM, RAM and caches, Data, engine)8 Audio interfaces ( Analog, Digital, Simultaneous audio routing)9 Peripheral interfaces (PIOs, LED, USB, SPI, UART)10 Boot manager11 System manager12 example application schematic13 Electrical characteristics14 Audio performance15 Bluetooth performance16 Power consumption

标签： 蓝牙 qcc5127

上传时间： 2022-06-12

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