常用电源类芯片Altium Designer AD原理图库元件库CSV text has been written to file : 电源类芯片.csvLibrary Component Count : 70Name Description----------------------------------------------------------------------------------------------------78Lxx 线性稳压芯片78Mxx 线性稳压芯片78xx 线性稳压芯片79xx 线性稳压芯片AMC7135 大功率LED恒流芯片AMS1117 三端稳压芯片APW7075 电压转换器AS1015 可调升压芯片CN3703 三节锂电池充电芯片DW01 锂电池过流保护ICFP6716 可调升压芯片GS3525 开关电源管理ICHT71xx LDO线性稳压芯片HY2110 锂电池保护 ICHY2213 电池充电平衡 ICLM2576 DC降压芯片LM2577 DC升压芯片LM2596 DC降压芯片LM2940 5V稳压芯片LM2991S 可调稳压芯片LM317 可调线性稳压芯片LTC4054 锂电池充电芯片LTC4057 锂电池充电管理ICMC34063 DC升降压芯片ME2100 可调升压芯片ME2149-5pin DC升压芯片ME2149-8pin DC升压芯片ME3149 IN:36V,OUT:0.8-33/3A,150MHzME4057 锂电池充电管理ICME6203 低功耗LDOME6209 低功耗LDOME8323X 电源管理ICMP2303 IN:28V,OUT:0.8-25/3A,360MHzMP2359 DC降压芯片PN8370 电源管理ICREF196 3V3基准电压源REF5040 高精度电压基准SD4923E 以太网受电设备控制器SDB628 DC升压芯片SM7033 非隔离AD-DCSX1308 可调升压芯片TL431-ID 可调基准稳压芯片TL431_SMD 可调基准稳压芯片TL432_SMD 可调基准稳压芯片TL494 电源管理ICTP4056 锂电池充电管理TPS3305 DSP电源管理TPS62400 电压转换器TPS63000 电压转换器TPS6735 负电压转换芯片UC3843 电源控制芯片XC6206P332MR 低压差线性稳压芯片XL1410 DC降压芯片XL1507 DC降压芯片XL1509 DC降电压芯片XL1513 DC降压芯片XL1530 DC降压芯片XL1583 DC降压芯片XL4003 DC降压芯片XL4005 DC降压芯片XL4013 DC降压芯片XL4015 DC降压芯片XL4016 DC降压芯片XL6005 LED恒流驱动XL6007 DC升压芯片XL6008 DC升压芯片XL6012 DC升压芯片XL6013 DC升压芯片XL6019 DC升压芯片XL7015E1 DC降压芯片
标签: 电源 Altium Designer
上传时间: 2022-03-13
上传用户:
在半导体制冷技术的工作性能及其优缺点研究的基础上,设计了以单片机为核心控制元件,以TEC1-12706为执行元件的半导体制冷温度控制系统。采用高精度分段式PID控制算法配合PWM输出控制的方法实现温度控制;选择数字传感器DS18B20为温度检测元件,还包含1602液晶显示模块、按键调整输入模块和H桥驱动模块等。实际测试表明,该系统结构简单易行,操作方便,工作性能优良,同时针对该系统专门设计的温控算法,使半导体制冷器能更好地适应不同工况而充分发挥其制冷制热工作特性。Based on the study of the performance and advantages and disadvantages of thermoelectric cooler(TEC)technology,a thermoelectric cooling temperature control system with single-chip microcomputer as the core control element and TEC1-12706 as the executive element was designed. High precision piecewise PID control algorithm combined with PWM output control method is adopted to realize temperature control. The digital sensor DS18B20 is selected as the temperature detection element. It also includes 1602 LCD module,key adjustment input module and H bridge drive module. The actual test shows that the system has simple structure,convenient operation and excellent performance. Meanwhile,the temperature control algorithm specially designed for the system can make the semiconductor cooler better adapt to different working conditions and give full play to its refrigeration and heating characteristics.
上传时间: 2022-03-27
上传用户:
LED 线阵显示装置, 分为 LED 线性旋转显示主机和图文录入器两部分。主机用直流电机带动由红绿 LED 组成的线阵旋转, 同时线阵按照时序依次切换显示状态, 在固定区域利用视觉暂留效果形成 16×16 点阵, 用以显示图文;图文录入器用 HMI 触控屏作为人机交互界面, 实现图文录入和回放功能。主机与图文录入器通过无线通信方式进行信息交互,可由图文录入器控制主机切换不同工作任务, 以及改变线阵显示内容。The LED linear array display device is divided into two parts:the one is the main unit used to display content,and the other one is used to input the contents.The main unit is driven by a DC motor to rotate the linear array composed by red and green light emitting diodes.At the same time,the 16×16 dot matrix that switching the display state according to the time sequence on the main unit displays pictures and texts in the fixed area,by using the visual temporary effect.The HMI touch screen is used as human machine interface to realize the function that input and playback pictures and texts.The two parts of the device communicate with each other through wireless communication.The image and text input controller can control the main unit to switch different tasks and change the content of linear array displayed.
标签: stc12c5a60s2 单片机 led
上传时间: 2022-03-28
上传用户:jiabin
近距电能传输——高效安全近距电能传输一般基于电磁感应原理进行。在此技术基础上,当接收器邻近发射器时才会进行电能传输。电磁感应技术的历史长达百年,多年米一直应用于各类电子产品中—如此普及全因其简单、高效以及安全技术概览以下将为你简要介绍无线电能传输技术。System Overview(Communication)Receiver sends messagesTo provide control information to the transmitterBy load modulation on the power signaTransmitter receives messagesTo receive control information frorn the recelverBy de-modulation of the reflected loadPower Pick Up( Receiver)Secondary coil (L Serial resonance capacitor (C) for efficient power transfer Parallel resonance capacitor(C, )for detection purposes Rectifier: full bridge(diode, or switched)+ capacitor Output switch for(dis)connecting the loadReceiver modulates load by Switching modulation resistor(R,n),or Switching modulation capacitor(Ca)Transmitter de-modulates reflected load by Sensing pnmary coil curent (p)and/o Sensing primary coil voltage (V,
上传时间: 2022-03-31
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该步进电机驱动器又称为EasyDriver,EasyDriver能够为两级步进电机提供大约每相750mA(两极一共1.5A)的驱动。它默认设置为8步细分模式(所以如果你的电机是每圈200步,你使用EasyDriver时默认为每圈1600步),更多细分模式可以通过将MS1或MS2两个接脚接地进行设置。这是一种基于Allegro A3967驱动芯片的细分断路器。对于此设计的完整规格,请查阅A3967的参数表。它的最大每相电流从150mA到750mA。可以采用的最大驱动电压大概是30V,其中包括板载5V的调压器,所以只需要一个电源。质优价廉,这玩意儿只要十几美元,比你自己制作电路板更便宜。步进电机驱动器设计特色:· A3967 Microstepping Driver· MS1 and MS2 pins broken out to change microstepping resolution to full, half, quarter and eighth steps (defaults to eighth)· Compatible with 4, 6, and 8 wire stepper motors of any voltage· Adjustable current control from 150mA/phase to 700mA/phase· Power supply range from 6V to 30V. The higher the voltage, the higher the torque at high speeds
上传时间: 2022-04-27
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STM32 F1系列 MCU ATIUM AD集成库 原理图库 PCB 3D封装库文件,STM32F1XXXXX全系列原理图+PCB封装库文件,共209个器件型号,CSV text has been written to file : STM32 F1.csvLibrary Component Count : 209Name Description----------------------------------------------------------------------------------------------------STM32F100C4T6B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100C4T7B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +105癈 Temperature, 48-Pin LQFP, TraySTM32F100C6T6B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100C6T6BTR STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, Tape and ReelSTM32F100C6T7B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +105癈 Temperature, 48-Pin LQFP, TraySTM32F100C8T6B STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100C8T6BTR STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, Tape and ReelSTM32F100CBT6B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100CBT7B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +105癈 Temperature, 48-Pin LQFP, TraySTM32F100R4H6B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100R4T6B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R4T6BTR STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, Tape and ReelSTM32F100R6H6B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100R6T6 STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R6T6B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R6T6BTR STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, Tape and ReelSTM32F100R8H6B STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100R8T6B STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R8T6BTR STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, Tape and ReelSTM32F100RBH6B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100RBH6BTR STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, Tape and ReelSTM32F100RBT6B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RBT6BTR STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, Tape and ReelSTM32F100RCT6B STM32 ARM-based 32-bit MCU Value Line with 256 kB Flash, 24 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RDT6 STM32 ARM-based 32-bit MCU Value Line with 384 kB Flash, 32 kB Internal RAM, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RDT6B STM32 ARM-based 32-bit MCU Value Line with 384 kB Flash, 32 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RET6 STM32 ARM-based 32-bit MCU Value Line with 512 kB Flash, 32 kB Internal RAM, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RET6B STM32 ARM-based 32-bit MCU Value Line with 512 kB Flash, 32 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-
上传时间: 2022-04-30
上传用户:jiabin
STM32 L1系列 MCU 集成库 原理图库 PCB封装库文件CSV text has been written to file : STM32 L1.csvLibrary Component Count : 27Name Description----------------------------------------------------------------------------------------------------STM32L151C8T6 STM32L ARM-based EnergyLite 32-bit MCU, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 48-pin LQFP, TraySTM32L151C8U6 STM32L ARM-based EnergyLite 32-bit MCU, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 48-pin UFQFPN, TraySTM32L151CBT6 STM32L ARM-based EnergyLite 32-bit MCU, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 48-pin LQFP, TraySTM32L151CBU6 STM32L ARM-based EnergyLite 32-bit MCU, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 48-pin UFQFPN, TraySTM32L151R8H6 STM32L ARM-based EnergyLite 32-bit MCU, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 64-pin TFBGA, TraySTM32L151R8T6 STM32L ARM-based EnergyLite 32-bit MCU, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 64-pin LQFP, TraySTM32L151RBH6 STM32L ARM-based EnergyLite 32-bit MCU, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 64-pin TFBGA, TraySTM32L151RBT6 STM32L ARM-based EnergyLite 32-bit MCU, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 64-pin LQFP, TraySTM32L151V8H6 STM32L ARM-based EnergyLite 32-bit MCU, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 100-pin UFBGA, TraySTM32L151V8T6 STM32L ARM-based EnergyLite 32-bit MCU, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 100-pin LQFP, TraySTM32L151VBH6 STM32L ARM-based EnergyLite 32-bit MCU, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 100-pin UFBGA, TraySTM32L151VBT6 STM32L ARM-based EnergyLite 32-bit MCU, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 100-pin LQFP, TraySTM32L152C8T6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 48-pin LQFP, TraySTM32L152C8U6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 48-pin UFQFPN, TraySTM32L152CBT6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 48-pin LQFP, TraySTM32L152CBU6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 48-pin UFQFPN, TraySTM32L152R8H6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 64-pin TFBGA, TraySTM32L152R8T6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 64-pin LQFP, TraySTM32L152RBH6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 64-pin TFBGA, TraySTM32L152RBT6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 64-pin LQFP, TraySTM32L152V8H6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 100-pin UFBGA, TraySTM32L152V8T6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 64 kB Flash, 10 kB Internal RAM, -40 to +85癈 Temperature, 100-pin LQFP, TraySTM32L152VBH6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 100-pin UFBGA, TraySTM32L152VBH6D STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, 1.65 to 3.6VDD, -40 to +85癈 Temperature, 100-pin UFBGA, TraySTM32L152VBT6 STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 100-pin LQFP, TraySTM32L152VBT6TR STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 100-pin LQFP, Tape and ReelSTM32L152_DB STM32L ARM-based EnergyLite 32-bit MCU, LCD, 128 kB Flash, 16 kB Internal RAM, -40 to +85癈 Temperature, 100-pin LQFP, Tape and Reel
上传时间: 2022-04-30
上传用户:trh505
STM32 F0系列 MCU 集成库 原理图库 PCB封装库文件CSV text has been written to file : STM32 F0.csvLibrary Component Count : 17Name Description----------------------------------------------------------------------------------------------------STM32F050C4T6A ARM Cortex-M0 32-bit RISC core (48 MHz max), 16kB Flash, 4 kB Internal RAM, 39 High Current I/Os, -40 to +85癈, 48-Pin LQFP, TraySTM32F050C6T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 32kB Flash, 4 kB Internal RAM, 39 High Current I/Os, -40 to +85癈, 48-Pin LQFP, TraySTM32F050C6T6A ARM Cortex-M0 32-bit RISC core (48 MHz max), 32kB Flash, 4 kB Internal RAM, 39 High Current I/Os, -40 to +85癈, 48-Pin LQFP, TraySTM32F050K4U6A ARM Cortex-M0 32-bit RISC core (48 MHz max), 16kB Flash, 4 kB Internal RAM, 27 High Current I/Os, -40 to +85癈, 32-Pin UFQFPN, TraySTM32F050K6U6A ARM Cortex-M0 32-bit RISC core (48 MHz max), 32kB Flash, 4 kB Internal RAM, 27 High Current I/Os, -40 to +85癈, 32-Pin UFQFPN, TraySTM32F051C4T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 16kB Flash, 4 kB Internal RAM, 39 High Current I/Os, -40 to +85癈, 48-Pin LQFP, TraySTM32F051C6T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 32kB Flash, 4 kB Internal RAM, 39 High Current I/Os, -40 to +85癈, 48-Pin LQFP, TraySTM32F051C8T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 64kB Flash, 8 kB Internal RAM, 39 High Current I/Os, -40 to +85癈, 48-Pin LQFP, TraySTM32F051K4U6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 16kB Flash, 4 kB Internal RAM, 27 High Current I/Os, -40 to +85癈, 32-Pin UFQFPN, TraySTM32F051K6U6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 32kB Flash, 4 kB Internal RAM, 27 High Current I/Os, -40 to +85癈, 32-Pin UFQFPN, TraySTM32F051K8U6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 64kB Flash, 8 kB Internal RAM, 27 High Current I/Os, -40 to +85癈, 32-Pin UFQFPN, TraySTM32F051R4T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 16kB Flash, 4 kB Internal RAM, 55 High Current I/Os, -40 to +85癈, 64-Pin LQFP, TraySTM32F051R4T6TR ARM Cortex-M0 32-bit RISC core (48 MHz max), 16kB Flash, 4 kB Internal RAM, 55 High Current I/Os, -40 to +85癈, 64-Pin LQFP, Tape and ReelSTM32F051R6T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 32kB Flash, 4 kB Internal RAM, 55 High Current I/Os, -40 to +85癈, 64-Pin LQFP, TraySTM32F051R8T6 ARM Cortex-M0 32-bit RISC core (48 MHz max), 64kB Flash, 8 kB Internal RAM, 55 High Current I/Os, -40 to +85癈, 64-Pin LQFP, TraySTM32F051R8T7 ARM Cortex-M0 32-bit RISC core (48 MHz max), 64kB Flash, 8 kB Internal RAM, 55 High Current I/Os, -40 to +105癈, 64-Pin LQFP, TraySTM32F051R8TR ARM Cortex-M0 32-bit RISC core (48 MHz max), 64kB Flash, 8 kB Internal RAM, 55 High Current I/Os, -40 to +105癈, 64-Pin LQFP, Tape and Reel
上传时间: 2022-04-30
上传用户:
STC系列单片机89C51系列 MCU Altium AD 原理图库 器件库文件,CSV text has been written to file : 2.8 - STC系列单片机.csvLibrary Component Count : 56Name Description----------------------------------------------------------------------------------------------------IAP15F2K61S STC单片机IAP15L2K61S STC单片机IAP15W1K29S STC单片机IAP15W413AS-20pin STC单片机IAP15W413AS-28pin STC单片机IAP15W413S STC单片机IAP15W413S-32pin STC单片机IAP15W413S-44pin STC单片机STC11F02E STC单片机STC12C520xAD-16pin STC带AD单片机STC12C520xAD-18pin STC带AD单片机STC12C520xAD-20pin STC带AD单片机STC12C520xAD-28pin STC带AD单片机STC12C520xAD-32pin STC带AD单片机STC12C5AxxS2-44pin STC单片机STC12Cx052 STC单片机STC12Cx052AD STC带AD单片机STC12LEx052 STC单片机STC12LEx052AD STC带AD单片机STC15F100W STC单片机STC15F101W STC单片机STC15F102W STC单片机STC15F103W STC单片机STC15F104W STC单片机STC15F105W STC单片机STC15F204EA 20pin STC单片机STC15F2K60S2-40pin STC单片机STC15F2K60S2-44pin STC单片机STC15W10x STC单片机STC15W1K08PWM-28pin STC单片机STC15W1K16S STC单片机STC15W20xS-16pin STC单片机STC15W20xS-8pin STC单片机STC15W404S STC单片机STC15W408S STC单片机STC15W40xAS-16pin STC单片机STC15W40xAS-20pin STC单片机STC15W40xAS-28pin STC单片机STC15W40xS-28pin STC单片机STC15W40xS-32pin STC单片机STC15W40xS-44pin STC单片机STC89C516RD+ STC单片机STC89C51RC STC单片机STC89C52RC STC单片机STC89C53RC STC单片机STC89C54RD+ STC单片机STC89C58RD+ STC单片机STC89C5xx STC单片机STC90C51 STC单片机STC90C516RD+ STC单片机STC90C51RC STC单片机STC90C52 STC单片机STC90C52RC STC单片机STC90C53RC STC单片机STC90C54RD+ STC单片机STC90C58RD+ STC单片机
上传时间: 2022-04-30
上传用户:jason_vip1
基于DSP28035的高速永磁无刷直流电机驱动系统,包括论文和软硬设计资料。摘要参赛作品为基于DSP28035的高速永磁无刷直流电机驱动系统。该系统以一台额定转速60 krpm的高速永磁无刷直流电机、交错并联的Buck电路以及全桥电路为硬件平台,以DSP28035为控制核心,实现了调压调速功能和基于坐标变换的无位置传感器新技术。为实现该系统要求,本作品充分利用了DSP28035的资源例如:CLA模块,模拟比较器、HPWM模块以及AD转换模块等。AbstractThis work is the drive system for a high speed permanent magnet burshless dc motor based on DSP28035. The hardware platform consists of a BLDC motor(rated speed is 60000rpm), a Buck circuit and an inverter. Under the control of DSP28035, this system can achieve the goal of adjusting the motor’s speed with voltage and the function of sensorless control based on the coordinate transformation. By making full use of resources of the core, such as CLA, analog comparator, HPWM and AD converters, the whole system can meet the requirements.1 引言高速永磁无刷直流电机驱动系统由于基波频率较高(一般在1kHZ以上),利用逆变桥斩波进行调速的控制方式通常会受到开关管开关频率的限制,因此该系统多采用三相全桥前级加Buck电路进承担调压调速的功能,而三相全桥主要承担逻辑换相的功能。然而,传统Buck电路所需电感的体积较大,增加了系统的体积,降低了系统的功率密度。
上传时间: 2022-05-08
上传用户:bluedrops
