参数资料
| 型号: | NSD-2101-ASST |
| 厂商: | ams |
| 文件页数: | 16/23页 |
| 文件大小: | 0K |
| 描述: | IC DRIVER MOTOR SQUIGGLE 16-QFN |
| 产品培训模块: | Miniature Motion Control Overview |
| 标准包装: | 1 |
| 系列: | SQUIGGLE® |
| 应用: | 压电电机驱动器 |
| 评估套件: | 可供 |
| 输出数: | 1 |
| 电源电压: | 2.3 V ~ 5.5 V |
| 工作温度: | -30°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-VQFN 裸露焊盘 |
| 供应商设备封装: | 16-QFN(4x4) |
| 包装: | 标准包装 |
| 其它名称: | NSD-2101-ASSTDKR |
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�NSD-2101�
�Datasheet� -� A� p� p� l� i� c� a� t� i� o� n� I� n� f� o� r� m� a� t� i� o� n�
�8.1� Integration� with� SQL-RV-1.8� SQUIGGLE� Motor�
�Communicating� with� the� NSD-2101.�
�The� address� of� the� NSD-2101� is� 54h� (unless� the� ADR� pin� is� held� high� in� which� case� the� address� would� be� 55h).�
�I2C� supports� 8� data� bits� and� 1� acknowledge� bit� for� a� total� of� 9� bits� or� clock� cycles� per� byte.� When� attempting� to� select� a� device,� the� first� byte�
�transmitted� by� the� master� contains� the� device� address.� This� address� occupies� the� upper� 7� data� bits� with� data� bit� 0� having� a� value� of� zero� which�
�indicates� a� write� operation� (theNSD-2101� does� not� support� a� read� operation).�
�Therefore� when� addressing� the� NSD-2101� the� actual� value� sent� by� the� host� during� the� first� 8� SCL� (clock)� cycles� would� be� A8h� (or� AAh� if� ADR� pin�
�high).� If� the� NSD-2101� is� powered� and� connected� properly� to� the� SDA/SCL� lines� then� on� the� 9th� clock� pulse,� the� NSD-2101� will� hold� the� data� line�
�low� (acknowledge).�
�The� second� byte� transmitted� must� be� the� number� of� the� register� to� be� written.� For� example,� if� attempting� to� send� a� pulse� count,� then� the� register�
�value� would� be� 2.�
�The� third� and� any� subsequent� bytes� are� the� values� to� be� written� to� the� specified� register� and,� if� more� than� three� bytes� are� being� sent,� the�
�following� registers� in� increasing� order.�
�If� the� following� data� were� sent� over� the� I2C� bus:�
�A80277FF�
�Then� registers� 02� and� 03� of� the� NSD-2101� would� receive� values� of� 77h� and� FFh� respectively.�
�Supporting� More� Than� Two� NSD-2101s� on� a� Single� I2C� Bus.�
�To� support� more� than� two� NSD-2101� drivers� on� the� same� I2C� bus,� the� ADR� pin� may� be� used� as� a� chip� select.� That� is,� one� driver� is� held� low� by�
�the� host� and� on� all� others� it� is� held� high.� The� host� then� sends� commands� to� the� driver� with� ADR� held� low.� This� of� course� requires� that� there� be� a�
�separate� chip� select� line� for� each� NSD-2101.�
�How� Motion� is� Generated.�
�Motion� is� initiated� by� directing� the� NSD-2101� to� issue� pulses� to� the� motor.� In� the� case� of� the� SQL-RV-1.8� motor,� to� get� any� motion,� the� interval�
�between� the� start� of� each� pulse� (i.e.� the� period)� must� be� within� some� tolerance� (e.g.� ±2KHz)� of� the� resonant� frequency� of� the� motor� (e.g.� ~172�
�kHz).�
�The� closer� this� period� is� to� the� resonant� frequency� of� the� motor,� the� more� speed/push� force� is� available.� Keep� in� mind� that� this� is� a� friction� drive�
�which� means� the� amount� of� motion� is� dependent� on� supply� voltage,� applied� frequency� vs.� actual� resonant� frequency� and� the� load� on� the� motor.�
�From� an� idle� state,� a� minimum� of� 5� to� 10� pulses� are� required� to� build� up� enough� orbital� motion� (of� the� nut� about� the� screw)� to� advance� the� screw.�
�The� minimum� pulse� count� varies� with� load� (higher� load,� more� pulses)� and� whether� or� not� motion� is� against� or� with� the� load� (more� against,� fewer�
�with).�
�As� shown� in� Figure� 3� ,� the� drive� signal� is� composed� of� two� waveforms� (square� waves)� and� each� waveform� may� be� full� or� half� bridge.� In� the� case�
�of� the� SQL� motor,� these� waveforms� are� 90� degrees� out� of� phase� (in� keeping� with� the� geometry� of� the� nut).� The� phase� that� leads� determines� the�
�direction� of� motion� (direction� is� set� by� the� host� using� a� bit� from� the� pulse� count� register).�
�By� default� the� pulse� width� of� each� waveform� is� 50%� of� the� period� (i.e.� if� register� 04� is� zero;� e.g.� pulse� with� would� be� 2.9� μsec� if� the� period� is� 5.8�
�μsec).� But� you� can� adjust� the� pulse� width� as� one� means� to� regulate� speed.� The� shorter� the� pulse� width� (below� 50%� of� the� period),� the� less� time�
�the� piezo� has� to� change� shape� and� thus� the� amount� of� engagement� between� nut� and� screw� is� reduced.�
�The� default� phase� shift� between� waveforms� is� 25%� of� the� period� (i.e.� if� register� 05� is� zero).� This� can� also� be� adjusted� and� would� be� for� other�
�motor� geometries� but� in� the� case� of� the� SQL-RV-1.8;� 25%� is� recommended.�
�A� second� means� to� adjust� speed� is� to� set� the� ratio� of� full� bridge� pulses� to� half� bridge� pulses� (Hybrid� Speed� Control).� This� effectively� sets� the�
�average� voltage� seen� by� the� motor.� If� the� supply� is� 3V� then� in� full� bridge� the� motor� “sees”� 6V.� But� if� the� hybrid� speed� is� 33%� then,� on� an� average,�
�the� motor� sees� 4V.�
�Note:� Due� to� dissipation� limitations� of� the� driver� chip,� the� maximum� supply� voltage� for� full� bridge� operation� is� 4.5V� (9V� to� the� piezo).� Although�
�the� driver� supports� a� supply� of� up� to� 5.5V,� at� any� level� above� 4.5V,� the� output� needs� to� be� half� bridge.� Within� that� limitation� the� hybrid�
�speed� control� is� more� power� efficient� than� the� pulse� width� control� method� of� the� regulating� speed� since� the� amount� of� switching� into� the�
�capacitive� load� of� the� motor� is� being� reduced.�
��Revision� 0.6�
�15� -� 22�
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| NSD2101-DQFS | 制造商:AMSCO 制造商全称:austriamicrosystems AG 功能描述:Piezo Motor Driver ASIC for SQL-RV Series Reduced Voltage SQUIGGLE RV and UTAF Motors |
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