stm32的介绍 STM32F407的介绍是什么?
STM32\u7684\u4f18\u52bf\u4e3b\u8981\u6709\u54ea\u4e9b\uff1f\u4ee5\u4e0b\u662fSTM32\u7684\u4f18\u52bf\u4ecb\u7ecd\uff0c\u4f9b\u53c2\u8003
1.\u9664\u65b0\u589e\u7684\u529f\u80fd\u5f3a\u5316\u578b\u5916\u8bbe\u63a5\u53e3\u5916\uff0cSTM32\u4e92\u8fde\u7cfb\u5217\u8fd8\u63d0\u4f9b\u4e0e\u5176\u5b83STM32\u5fae\u63a7\u5236\u5668\u76f8\u540c\u7684\u6807\u51c6\u63a5\u53e3\uff0c\u8fd9\u79cd\u5916\u8bbe\u5171\u7528\u6027\u63d0\u5347\u4e86\u6574\u4e2a\u4ea7\u54c1\u5bb6\u65cf\u7684\u5e94\u7528\u7075\u6d3b\u6027\uff0c\u4f7f\u5f00\u53d1\u4eba\u5458\u53ef\u4ee5\u5728\u591a\u4e2a\u8bbe\u8ba1\u4e2d\u91cd\u590d\u4f7f\u7528\u540c\u4e00\u4e2a\u8f6f\u4ef6\u3002\u65b0STM32\u7684\u6807\u51c6\u5916\u8bbe\u5305\u62ec10\u4e2a\u5b9a\u65f6\u5668\u3001\u4e24\u4e2a12\u4f4d1-Msample/s \u6a21\u6570\u8f6c\u6362\u5668\u3001\u4e24\u4e2a12\u4f4d\u6570\u6a21\u8f6c\u6362\u5668\u3001\u4e24\u4e2aI2C\u63a5\u53e3\u3001\u4e94\u4e2aUSART\u63a5\u53e3\u548c\u4e09\u4e2aSPI\u7aef\u53e3\u3002\u65b0\u4ea7\u54c1\u5916\u8bbe\u5171\u670912\u6761DMA\u901a\u9053\uff0c\u8fd8\u6709\u4e00\u4e2aCRC\u8ba1\u7b97\u5355\u5143\uff0c\u50cf\u5176\u5b83STM32\u5fae\u63a7\u5236\u5668\u4e00\u6837\uff0c\u652f\u630196\u4f4d\u552f\u4e00\u6807\u8bc6\u7801\u3002
2.\u65b0\u7cfb\u5217\u5fae\u63a7\u5236\u5668\u8fd8\u6cbf\u7eed\u4e86STM32\u4ea7\u54c1\u5bb6\u65cf\u7684\u4f4e\u7535\u538b\u548c\u8282\u80fd\u4e24\u5927\u4f18\u70b9\u30022.0V\u52303.6V\u7684\u5de5\u4f5c\u7535\u538b\u8303\u56f4\u517c\u5bb9\u4e3b\u6d41\u7684\u7535\u6c60\u6280\u672f\uff0c\u5982\u9502\u7535\u6c60\u548c\u954d\u6c22\u7535\u6c60\uff0c\u5c01\u88c5\u8fd8\u8bbe\u6709\u4e00\u4e2a\u7535\u6c60\u5de5\u4f5c\u6a21\u5f0f\u4e13\u7528\u5f15\u811aVbat\u3002\u4ee572MHz\u9891\u7387\u4ece\u95ea\u5b58\u6267\u884c\u4ee3\u7801\uff0c\u4ec5\u6d88\u8017 27mA\u7535\u6d41\u3002\u4f4e\u529f\u8017\u6a21\u5f0f\u5171\u6709\u56db\u79cd\uff0c\u53ef\u5c06\u7535\u6d41\u6d88\u8017\u964d\u81f3\u4e24\u5fae\u5b89\u3002\u4ece\u4f4e\u529f\u8017\u6a21\u5f0f\u5feb\u901f\u542f\u52a8\u4e5f\u540c\u6837\u8282\u7701\u7535\u80fd\uff1b\u542f\u52a8\u7535\u8def\u4f7f\u7528STM32\u5185\u90e8\u751f\u6210\u76848MHz\u4fe1\u53f7\uff0c\u5c06\u5fae\u63a7\u5236\u5668\u4ece\u505c\u6b62\u6a21\u5f0f\u5524\u9192\u7528\u65f6\u5c0f\u4e8e6\u5fae\u79d2\u3002
\u53c2\u8003\u8d44\u6599
STM32\u7684\u4f18\u52bf\u4e3b\u8981\u6709\u54ea\u4e9b.\u767e\u5ea6[\u5f15\u7528\u65f6\u95f42018-1-9]
STM32F4\u662f\u7531ST(\u610f\u6cd5\u534a\u5bfc\u4f53)\u5f00\u53d1\u7684\u4e00\u79cd\u9ad8\u6027\u80fd\u5fae\u63a7\u5236\u5668\u3002\u5176\u91c7\u7528\u4e8690 \u7eb3\u7c73\u7684NVM \u5de5\u827a\u548cART(\u81ea\u9002\u5e94\u5b9e\u65f6\u5b58\u50a8\u5668\u52a0\u901f\u5668\uff0cAdaptive Real-Time MemoryAccelerator™)\u3002
\u7b80\u4ecb\uff1a
ST(\u610f\u6cd5\u534a\u5bfc\u4f53)\u63a8\u51fa\u4e86\u4ee5\u57fa\u4e8eARM® Cortex™-M4\u4e3a\u5185\u6838\u7684STM32F4\u7cfb\u5217\u9ad8\u6027\u80fd\u5fae\u63a7\u5236\u5668\uff0c\u5176\u91c7\u7528\u4e8690 \u7eb3\u7c73\u7684NVM \u5de5\u827a\u548cART(\u81ea\u9002\u5e94\u5b9e\u65f6\u5b58\u50a8\u5668\u52a0\u901f\u5668\uff0cAdaptive Real-Time MemoryAccelerator™)\u3002
ART\u6280\u672f\u4f7f\u5f97\u7a0b\u5e8f\u96f6\u7b49\u5f85\u6267\u884c\uff0c\u63d0\u5347\u4e86\u7a0b\u5e8f\u6267\u884c\u7684\u6548\u7387\uff0c\u5c06Cortext-M4\u7684\u6027\u80fd\u53d1\u6325\u5230\u4e86\u6781\u81f4\uff0c
\u4f7f\u5f97STM32 F4\u7cfb\u5217\u53ef\u8fbe\u5230210DMIPS@168MHz\u3002
\u81ea\u9002\u5e94\u5b9e\u65f6\u52a0\u901f\u5668\u80fd\u591f\u5b8c\u5168\u91ca\u653eCortex-M4 \u5185\u6838\u7684\u6027\u80fd;\u5f53CPU \u5de5\u4f5c\u4e8e\u6240\u6709\u5141\u8bb8\u7684\u9891\u7387(\u2264168MHz)\u65f6\uff0c\u5728\u95ea\u5b58\u4e2d\u8fd0\u884c\u7684\u7a0b\u5e8f\uff0c\u53ef\u4ee5\u8fbe\u5230\u76f8\u5f53\u4e8e\u96f6\u7b49\u5f85\u5468\u671f\u7684\u6027\u80fd\u3002
STM32F4\u7cfb\u5217\u5fae\u63a7\u5236\u5668\u96c6\u6210\u4e86\u5355\u5468\u671fDSP\u6307\u4ee4\u548cFPU(floating point unit\uff0c\u6d6e\u70b9\u5355\u5143)\uff0c\u63d0\u5347
\u4e86\u8ba1\u7b97\u80fd\u529b\uff0c\u53ef\u4ee5\u8fdb\u884c\u4e00\u4e9b\u590d\u6742\u7684\u8ba1\u7b97\u548c\u63a7\u5236\u3002
STM32 F4\u7cfb\u5217\u5f15\u811a\u548c\u8f6f\u4ef6\u517c\u5bb9\u4e8e\u5f53\u524d\u7684STM32 F2\u7cfb\u5217\u4ea7\u54c1\u3002
\u4f18\u70b9
\u203b\u517c\u5bb9\u4e8eSTM32F2\u7cfb\u5217\u4ea7\u54c1\uff0c\u4fbf\u4e8eST\u7684\u7528\u6237\u6269\u5c55\u6216\u5347\u7ea7\u4ea7\u54c1\uff0c\u800c\u4fdd\u6301\u786c\u4ef6\u7684\u517c\u5bb9\u80fd\u529b\u3002
\u203b\u96c6\u6210\u4e86\u65b0\u7684DSP\u548cFPU\u6307\u4ee4\uff0c168MHz\u7684\u9ad8\u901f\u6027\u80fd\u4f7f\u5f97\u6570\u5b57\u4fe1\u53f7\u63a7\u5236\u5668\u5e94\u7528\u548c\u5feb\u901f\u7684\u4ea7\u54c1\u5f00\u53d1\u8fbe\u5230\u4e86\u65b0\u7684\u6c34\u5e73\u3002\u63d0\u5347\u63a7\u5236\u7b97\u6cd5\u7684\u6267\u884c\u901f\u5ea6\u548c\u4ee3\u7801\u6548\u7387\u3002
\u203b\u5148\u8fdb\u6280\u672f\u548c\u5de5\u827a
- \u5b58\u50a8\u5668\u52a0\u901f\u5668:\u81ea\u9002\u5e94\u5b9e\u65f6\u52a0\u901f\u5668(ART Accelerator™ )
- \u591a\u91cdAHB\u603b\u7ebf\u77e9\u9635\u548c\u591a\u901a\u9053DMA:\u652f\u6301\u7a0b\u5e8f\u6267\u884c\u548c\u6570\u636e\u4f20\u8f93\u5e76\u884c\u5904\u7406\uff0c\u6570\u636e\u4f20\u8f93\u901f\u7387\u975e\u5e38\u5feb
- 90nm\u5de5\u827a
\u203b\u9ad8\u6027\u80fd
- 210DMIPS@168MHz
- \u7531\u4e8e\u91c7\u7528\u4e86ST\u7684ART\u52a0\u901f\u5668\uff0c\u7a0b\u5e8f\u4eceFLASH\u8fd0\u884c\u76f8\u5f53\u4e8e0\u7b49\u5f85\u66f4\u591a\u7684\u5b58\u50a8\u5668
- \u591a\u8fbe1MB FLASH (\u5c06\u6765ST\u8ba1\u5212\u63a8\u51fa2MB FLASH\u7684STM32F4)
- 192Kb SRAM:128KB \u5728\u603b\u7ebf\u77e9\u9635\u4e0a\uff0c64KB\u5728\u4e13\u4e3aCPU\u4f7f\u7528\u7684\u6570\u636e\u603b\u7ebf\u4e0a\u9ad8\u7ea7\u5916\u8bbe\u4e0eSTM32F2\u517c\u5bb9
- USB OTG\u9ad8\u901f 480Mbit/s
- IEEE1588\uff0c \u4ee5\u592a\u7f51 MAC 10/100
- PWM\u9ad8\u901f\u5b9a\u65f6\u5668:168MHz\u6700\u5927\u9891\u7387
- \u52a0\u5bc6/\u54c8\u5e0c\u786c\u4ef6\u5904\u7406\u5668:32\u4f4d\u968f\u673a\u6570\u53d1\u751f\u5668(RNG)
- \u5e26\u6709\u65e5\u5386\u529f\u80fd\u768432\u4f4dRTC:<1 \u03bcA\u7684\u5b9e\u65f6\u65f6\u949f\uff0c1\u79d2\u7cbe\u5ea6
\u203b\u66f4\u591a\u7684\u63d0\u5347
- \u4f4e\u7535\u538b:1.8V\u52303.6V VDD\uff0c\u5728\u67d0\u4e9b\u5c01\u88c5\u4e0a\uff0c\u53ef\u964d\u4f4e\u81f31.7V
- \u5168\u53cc\u5de5I2S
- 12\u4f4d ADC:0.41us\u8f6c\u6362/2.4Msps(7.2Msps\u5728\u4ea4\u66ff\u6a21\u5f0f)
- \u9ad8\u901fUSART\uff0c\u53ef\u8fbe10.5Mbits/s
- \u9ad8\u901fSPI\uff0c\u53ef\u8fbe37.5Mbits/s
- Camera\u63a5\u53e3\uff0c\u53ef\u8fbe54M\u5b57\u8282/s
STM32系列基于专为要求高性能、低成本、低功耗的嵌入式应用专门设计的ARM Cortex-M3内核(ST's product portfolio contains a comprehensive range of microcontrollers, from robust, low-cost 8-bit MCUs up to 32-bit ARM-based Cortex®-M0 and M0+, Cortex®-M3, Cortex®-M4 Flash microcontrollers with a great choice of peripherals. ST has also extended this range to include an ultra-low-power MCU platform)1。按内核架构分为不同产品:其中STM32F1系列有:STM32F103“增强型”系列STM32F101“基本型”系列STM32F105、STM32F107“互联型”系列增强型系列时钟频率达到72MHz,是同类产品中性能最高的产品;基本型时钟频率为36MHz,以16位产品的价格得到比16位产品大幅提升的性能,是32位产品用户的最佳选择。两个系列都内置32K到128K的闪存,不同的是SRAM的最大容量和外设接口的组合。时钟频率72MHz时,从闪存执行代码,STM32功耗36mA,是32位市场上功耗最低的产品,相当于0.5mA/MHz。
绛旓細STM32鏄竴娆剧敱鎰忔硶鍗婂浣撴帹鍑虹殑楂樻ц兘寰帶鍒跺櫒绯诲垪锛屽畠鍦⊿TM32F105鍜孲TM32F107绯诲垪涔嬪墠宸茬粡鍖呭惈浜嗗熀鏈瀷銆佸寮哄瀷銆乁SB鍩烘湰鍨嬪拰澧炲己鍨嬬瓑澶氫釜鍨嬪彿銆傛柊鎺ㄥ嚭鐨勭郴鍒楀欢缁簡澧炲己鍨嬬郴鍒楃殑72MHz澶勭悊棰戠巼锛屽唴瀛橀厤缃寖鍥翠粠64KB鍒256KB鐨勯棯瀛樺拰20KB鍒64KB鐨勫祵鍏ュ紡SRAM銆STM32浜у搧绾块噰鐢ㄤ簡LQFP64銆丩QFP100鍜孡FBGA100涓夌...
绛旓細STM32绯诲垪鍩轰簬涓撲负瑕佹眰楂樻ц兘銆佷綆鎴愭湰銆佷綆鍔熻楃殑宓屽叆寮忓簲鐢ㄤ笓闂ㄨ璁$殑ARM Cortex-M3鍐呮牳锛圫T's product portfolio contains a comprehensive range of microcontrollers, from robust, low-cost 8-bit MCUs up to 32-bit ARM-based Cortex®-M0 and M0+, Cortex®-M3, Cortex®-M4...
绛旓細STM32C0116-DK Discovery濂椾欢锛屼綔涓篠T鐨勬澃浣滐紝涓撲负寮鍙慡TM32C0绯诲垪鐨刄FQFPN20灏佽寰帶鍒跺櫒閲忚韩鎵撻銆傝繖娆惧浠跺寘鍚竴涓熀浜嶢rm Cortex-M0+鍐呮牳鐨凷TM32C011F6寰帶鍒跺櫒锛屾嫢鏈32 KB闂瓨鍜6 KB RAM锛屼负楂樻晥寮鍙戞彁渚涘己澶ф敮鎸併傚叾璁捐绮捐壇锛岄厤澶囩敤鎴稬ED锛屽浣嶆寜閽紝浠ュ強涓娆5鍚戞父鎴忔潌锛屼粎闇鍗曚釜ADC杈撳叆寮曡剼鍗冲彲...
绛旓細STM32鍗曠墖鏈洪噰鐢⊿WD妯″紡涓嬭浇绋嬪簭鏃讹紝鍗犵敤鍗曠墖鏈虹殑swclk鍜宻wdio寮曡剼鍏朵腑锛宻wclk鏄悓姝ユ椂閽熶俊鍙凤紝swdio鏄弻鍚戞暟鎹俊鍙枫傚浜庝笉鍚岀殑stm32鍗曠墖鏈猴紝杩欎袱涓紩鑴氱殑浣嶇疆鍚勬湁涓嶅悓銆傞櫎浜嗕笂杩颁袱涓紩鑴氫箣澶栵紝swd绔彛杩橀渶瑕佷笌鍗曠墖鏈哄叡鍦般傝嚦浜庡崟鐗囨満鐩爣鏉挎槸鍚﹀悜swd涓嬭浇宸ュ叿鎻愪緵3.3鈪ょ數婧愶紝瑕佺湅涓嬭浇妯″潡鐨勫叿浣撳瀷鍙枫
绛旓細STM32鐨勪粙缁嶏細鍦⊿TM32F105鍜孲TM32F107浜掕繛鍨嬬郴鍒楀井鎺у埗鍣ㄤ箣鍓嶏紝鎰忔硶鍗婂浣撳凡缁忔帹鍑篠TM32鍩烘湰鍨嬬郴鍒椼佸寮哄瀷绯诲垪銆乁SB鍩烘湰鍨嬬郴鍒椼佷簰琛ュ瀷绯诲垪锛涙柊绯诲垪浜у搧娌跨敤澧炲己鍨嬬郴鍒楃殑72MHz澶勭悊棰戠巼銆傚唴瀛樺寘鎷64KB鍒256KB闂瓨鍜20KB鍒64KB宓屽叆寮廠RAM銆傛柊绯诲垪閲囩敤LQFP64銆丩QFP100鍜孡FBGA100涓夌灏佽锛屼笉鍚岀殑灏佽淇濇寔寮曡剼...
绛旓細STM32寰帶鍒跺櫒鐨凣PIO鐩稿叧瀵勫瓨鍣ㄥ寘鎷珿PIOx_MODER銆丟PIOx_OTYPER銆丟PIOx_OSPEEDR銆丟PIOx_PUPDR銆丟PIOx_IDR銆丟PIOx_ODR銆丟PIOx_BSRR銆丟PIOx_LCKR绛夈傝缁嗚В閲婏細1. GPIOx_MODER瀵勫瓨鍣細杩欎釜瀵勫瓨鍣ㄧ敤浜庤缃瓽PIO绔彛鐨勫伐浣滄ā寮忋傛瘡涓狦PIO寮曡剼鍙互鐙珛閰嶇疆涓鸿緭鍏ユā寮忥紙INPUT锛夋垨杈撳嚭妯″紡锛圤UTPUT锛夈傚湪杈撳嚭妯″紡涓...
绛旓細浠ヤ笅鏄STM32鐨浼樺娍浠嬬粛锛屼緵鍙傝 1.闄ゆ柊澧炵殑鍔熻兘寮哄寲鍨嬪璁炬帴鍙e锛孲TM32浜掕繛绯诲垪杩樻彁渚涗笌鍏跺畠STM32寰帶鍒跺櫒鐩稿悓鐨勬爣鍑嗘帴鍙o紝杩欑澶栬鍏辩敤鎬ф彁鍗囦簡鏁翠釜浜у搧瀹舵棌鐨勫簲鐢ㄧ伒娲绘э紝浣垮紑鍙戜汉鍛樺彲浠ュ湪澶氫釜璁捐涓噸澶嶄娇鐢ㄥ悓涓涓蒋浠躲傛柊STM32鐨勬爣鍑嗗璁惧寘鎷10涓畾鏃跺櫒銆佷袱涓12浣1-Msample/s 妯℃暟杞崲鍣ㄣ佷袱涓12...
绛旓細鏃堕挓寮曡剼(娣¢粍鑹)锛歑TAL1(PB6)XTAL2(PB7)-鏅朵綋闇囪崱鐢佃矾鍙嶅悜杈撳叆绔拰杈撳嚭绔紝鏅舵尟鐨勪綔鐢ㄦ槸涓哄崟鐗囨満鎻愪緵涓涓熀鏈渿鑽℃簮锛屾帶鍒跺紩鑴(榛勮壊)锛歊ESET(PC6)-澶嶄綅淇″彿杈撳叆绔紝鐢ㄤ簬閲嶅惎鍗曠墖鏈猴紝鍗曠墖鏈轰篃浼氬拰鐢佃剳涓鏍峰嚭鐜版鏈虹殑鎯呭喌锛岃繖鏃跺氨闇瑕佷娇鐢ㄨ繖涓紩鑴氭潵閲嶅惎I/O寮曡剼(娣¢粍鑹)涔熸槸寮曡剼鏁伴噺鏈澶氱殑锛氳緭鍏ヨ緭鍑哄彛...
绛旓細STM32F105VCT6 璇︽儏浠嬬粛锛歋TM32F105VCT6灞炰簬鍗曠墖鏈猴細鍗曠墖鏈猴紙Microcontrollers锛夋槸涓绉 闆嗘垚鐢佃矾 鑺墖 锛屾槸閲囩敤 瓒呭ぇ瑙勬ā闆嗘垚鐢佃矾 鎶鏈妸鍏锋湁鏁版嵁澶勭悊鑳藉姏鐨 涓ぎ澶勭悊鍣 CPU銆 闅忔満瀛樺偍鍣 RAM銆 鍙瀛樺偍鍣≧OM 銆佸绉岻/O鍙e拰 涓柇绯荤粺 銆 瀹氭椂鍣 /璁℃暟鍣ㄧ瓑鍔熻兘锛堝彲鑳借繕鍖呮嫭鏄剧ず椹卞姩鐢佃矾銆 鑴夊璋冨埗 ...
绛旓細鏄噹鐏stm32纭欢浠嬬粛锛歴tm32涔熷彲浠ョ畝绉STM32鑺墖锛64寮曡剼锛256KB闂瓨锛孮FP灏佽锛岄珮鎬ц兘锛屽伐浣滄俯搴︿负-40鈩冨埌85鈩冿紝鎴愭湰浣庯紝stm32涓昏浠h〃鏈堿RM Cortex™-M0 寰帶鍒跺櫒鍜孉RM Cortex™-M3 寰帶鍒跺櫒鏈鍏风壒鑹诧紝浠ユ渶灏忕殑纭欢鍙樺寲鏉ユ弧瓒充釜鎬у寲鐨勫簲鐢ㄩ渶姹傘俿tm32纭欢璁捐涓昏浼氱敤鍒伴潰鍖呮澘銆佹礊娲炴澘...
