微波EDA网，见证研发工程师的成长！ 2025濠电姷鏁告慨鐑藉极閸涘﹥鍙忛柟缁㈠枟閸庡顭块懜闈涘缂佺嫏鍥х閻庢稒蓱鐏忣厼霉濠婂懎浜惧ǎ鍥э躬婵″爼宕熼鐐差瀴闂備礁鎲￠悷銉ф崲濮椻偓瀵鏁愭径濠勵吅闂佹寧绻傚Λ顓炍涢崟顓犵＜闁绘劦鍓欓崝銈嗙箾绾绡€鐎殿喖顭烽幃銏ゅ川婵犲嫮肖闂備礁鎲￠幐鍡涘川椤旂瓔鍟呯紓鍌氬€搁崐鐑芥嚄閼搁潧鍨旀い鎾卞灩閸ㄥ倿鏌涢锝嗙闁藉啰鍠栭弻鏇熺箾閻愵剚鐝曢梺绋款儏濡繈寮诲☉姘勃闁告挆鈧Σ鍫濐渻閵堝懘鐛滈柟鍑ゆ嫹04闂傚倸鍊搁崐鎼佸磹閹间礁纾归柟闂寸绾惧綊鏌熼梻瀵割槮缁惧墽鎳撻—鍐偓锝庝簼閹癸綁鏌ｉ鐐搭棞闁靛棙甯掗～婵嬫晲閸涱剙顥氬┑掳鍊楁慨鐑藉磻閻愮儤鍋嬮柣妯荤湽閳ь兛绶氬鎾閳╁啯鐝曢梻浣藉Г閿氭い锔诲枤缁辨棃寮撮姀鈾€鎷绘繛杈剧秬濞咃絿鏁☉銏＄厱闁哄啠鍋撴繛鑼枛閻涱噣寮介褎鏅濋梺闈涚墕濞诧絿绮径濠庢富闁靛牆妫涙晶閬嶆煕鐎ｎ剙浠遍柟顕嗙節婵＄兘鍩￠崒婊冨箺闂備礁鎼ú銊╁磻濞戙垹鐒垫い鎺嗗亾婵犫偓闁秴鐒垫い鎺嶈兌閸熸煡鏌熼崙銈嗗13闂傚倸鍊搁崐鎼佸磹閹间礁纾归柟闂寸绾惧綊鏌熼梻瀵割槮缁惧墽鎳撻—鍐偓锝庝簼閹癸綁鏌ｉ鐐搭棞闁靛棙甯掗～婵嬫晲閸涱剙顥氬┑掳鍊楁慨鐑藉磻閻愮儤鍋嬮柣妯荤湽閳ь兛绶氬鎾閳╁啯鐝栭梻渚€鈧偛鑻晶鎵磼椤曞棛鍒伴摶鏍归敐鍫燁仩妞ゆ梹娲熷娲偡閹殿喗鎲奸梺鑽ゅ枂閸庣敻骞冨鈧崺锟犲礃椤忓棴绱查梻浣虹帛閻熴垽宕戦幘缁樼厱闁靛ǹ鍎抽崺锝団偓娈垮枛椤攱淇婇幖浣哥厸闁稿本鐭花浠嬫⒒娴ｅ懙褰掑嫉椤掑倻鐭欓柟杈惧瘜閺佸倿鏌ㄩ悤鍌涘 闂傚倸鍊搁崐鎼佸磹閹间礁纾归柟闂寸绾惧綊鏌熼梻瀵割槮缁惧墽鎳撻—鍐偓锝庝簼閹癸綁鏌ｉ鐐搭棞闁靛棙甯掗～婵嬫晲閸涱剙顥氬┑掳鍊楁慨鐑藉磻閻愮儤鍋嬮柣妯荤湽閳ь兛绶氬鎾閻樻爠鍥ㄧ厱閻忕偛澧介悡顖氼熆鐟欏嫭绀€闁宠鍨块、娆戠磼閹惧墎绐楅梻浣告啞椤棝宕橀敐鍡欌偓娲倵楠炲灝鍔氭繛鑼█瀹曟垿骞橀懜闈涙瀭闂佸憡娲﹂崜娑㈡晬濞戙垺鈷戦柛娑樷看濞堟洖鈹戦悙璇ц含闁诡喕鍗抽、姘跺焵椤掆偓閻ｇ兘宕奸弴銊︽櫌婵犮垼娉涢鍡椻枍鐏炶В鏀介柣妯虹仛閺嗏晛鈹戦鑺ュ唉妤犵偛锕ュ鍕箛椤掑偊绱遍梻浣筋潐瀹曟﹢顢氳閺屻劑濡堕崱鏇犵畾闂侀潧鐗嗙€氼垶宕楀畝鍕厱婵炲棗绻戦ˉ銏℃叏婵犲懏顏犵紒杈ㄥ笒铻ｉ柤濮愬€ゅΣ顒勬⒒娴ｅ懙褰掓晝閵堝拑鑰块梺顒€绉撮悞鍨亜閹哄秷鍏岄柛鐔哥叀閺岀喖宕欓妶鍡楊伓闂傚倸鍊搁崐鎼佸磹閹间礁纾归柟闂寸绾惧綊鏌熼梻瀵割槮缁惧墽鎳撻—鍐偓锝庝簼閹癸綁鏌ｉ鐐搭棞闁靛棙甯掗～婵嬫晲閸涱剙顥氬┑掳鍊楁慨鐑藉磻閻愮儤鍋嬮柣妯荤湽閳ь兛绶氬鎾閳╁啯鐝栭梻渚€鈧偛鑻晶鎵磼椤曞棛鍒伴摶鏍归敐鍫燁仩妞ゆ梹娲熷娲偡閹殿喗鎲奸梺鑽ゅ枂閸庣敻骞冨鈧崺锟犲礃椤忓棴绱查梻浣虹帛閻熴垽宕戦幘缁樼厱闁靛ǹ鍎抽崺锝団偓娈垮枛椤攱淇婇幖浣哥厸闁稿本鐭花浠嬫⒒娴ｅ懙褰掑嫉椤掑倻鐭欓柟杈惧瘜閺佸倿鏌ㄩ悤鍌涘

基于A4936设计的三相无刷DC马达驱动技术

时间：05-28 来源：本站整理点击：

A4936是Allegromicro公司的完整的三相无刷DC（BLDC）马达预驱动器，提供高达28V的输出，直接用来驱动六个功率N-MOSFET的大电流栅极。骑虎难下包括三个霍尔器件输入，用于换相控制的顺序器，PWM电流控制以及同步转子检测。本文介绍了A4936主要特性和优势，功能方框图和典型应用框图。

The A4936 is a complete 3-phase brushless DC motor pre-driver, supplying up to 28 V output for direct, high-current gate drive of an all N-channel power MOSFET 3-phase bridge. The device has three Hall-element inputs, a sequencer for commutation control, fixed off-time pulse width modulation (PWM) current control, and locked-rotor detection.

Output current is scaled by the capability of the external MOSFETs. Locked rotor detection delay is set by an external capacitor on the CLD terminal. The PWM, DIR, and BRAKE and STOP inputs can be used to control motor speed, position, and torque. Motor speed can be determined using the FG output from an FG coil amplifier and comparator.

The external MOSFETS can be PWMed using an external signal on the PWM input, or using the internal PWM current regulator. In either case, the A4936 synchronous rectification feature reduces power dissipation by turning-on the appropriate MOSFETs during current decay.

The Hall elements can be inexpensive types, when used with noise filtering to prevent false commutation signals. The A4936 provides a regulated 7.5 V supply to power the three Hall elements. Internal circuit protection includes thermal shutdown with hysteresis, undervoltage lockout, and dead time protection. Special power-up sequencing is not required. Operating temperature range is –20℃ to 105℃.

The device package is a 32-contact, 5 mm × 5 mm, 0.90 mm nominal overall height QFN, with exposed pad for enhanced thermal dissipation. This small-footprint package is lead (Pb) free, with 100% matte tin leadframe plating.

A4936主要特性和优势：

• Drives 6 N-channel MOSFETs

• Synchronous rectification for low power dissipation

• Internal UVLO and thermal shutdown circuitry

• Hall element inputs

• PWM current limiting

• Dead time protection

• FG outputs

• Standby mode

• Lock detect protection

• Overvoltage protection

闂傚倸鍊搁崐鎼佸磹閹间礁纾归柟闂寸绾惧綊鏌熼梻瀵割槮缁惧墽鎳撻—鍐偓锝庝簼閹癸綁鏌ｉ鐐搭棞闁靛棙甯掗～婵嬫晲閸涱剙顥氬┑掳鍊楁慨鐑藉磻濞戔懞鍥偨缁嬪灝鐎俊銈忕到閸燁偆绮诲☉妯忓綊鏁愰崨顔跨缂備礁顑勯懗鍓佹閹捐纾兼慨姗嗗厴閸嬫捇鎮滈懞銉モ偓鍧楁煥閺囨氨鍔嶉柟鍐茬焸濮婄粯鎷呴崨濠傛殘闂佽崵鍠嗛崕鎶藉箲閵忕媭娼ㄩ柍褜鍓欓锝嗙節濮橆厼浜滅紒鐐妞存悂寮查鍕拺闁圭ǹ娴风粻鎾寸箾鐠囇呭埌閺佸牊淇婇妶鍛櫤闁稿鍓濈换婵囩節閸屾稑娅ｅ銈忕到閵堟悂骞冩禒瀣垫晬婵炴垶蓱鐠囩偤姊虹拠鈥虫灍闁荤噦濡囬幑銏犫攽鐎ｎ亞鍊為梺闈浤涢崘銊ヮ洭濠电姷鏁告慨鐑藉极閹间礁纾规い鏍仜閻掑灚銇勯幒鎴濐仼缁炬儳顭烽弻鐔煎礈瑜忕敮娑㈡煟閹惧娲撮柟顔筋殜閺佹劖鎯旈垾鑼晼濠电姭鎷冮崘顏冪驳闂侀€涚┒閸斿秶鎹㈠┑瀣窛妞ゆ洖鎳嶉崫妤呮⒒娴ｅ憡璐￠柟铏尵閳ь剚姘ㄦ晶妤佺┍婵犲洤绠瑰ù锝堝€介妸鈺傜叆闁哄啠鍋撻柛搴＄－缁辩偤骞掑Δ浣叉嫽闂佺ǹ鏈悷銊╁礂瀹€鍕厵闁惧浚鍋呭畷宀€鈧娲滈弫璇差嚕娴犲鏁囬柣鎰問閸炵敻姊绘担鑺ョ《闁革綇绠撻獮蹇涙晸閿燂拷...

图1。A4936功能方框图

图2。A4936典型应用框图

上一篇：划片机视觉识别系统设计原理分析
下一篇：世界上最快混合动力跑车技术分析

A4936 三相 d 相关文章：

灏勯涓撲笟鍩硅鏁欑▼鎺ㄨ崘

栏目分类