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| 型号: | 16N78-212E.1001 |
| 厂商: | Portescap |
| 文件页数: | 8/48页 |
| 文件大小: | 0K |
| 描述: | MOTOR BRUSHED DC 4W 12V 8400RPM |
| 标准包装: | 10 |
| 系列: | 16N78, Athlonix |
| 类型: | 有刷直流 |
| 电压 - 额定: | 12VDC |
| RPM: | 8400 RPM |
| 直径 - 主体: | 0.630"(16.00mm) |
| 直径 - 轴: | 0.059"(1.50mm) |
| 长度 - 轴和支架: | 0.295"(7.50mm) |
| 安装孔间距: | 0.394"(10.00mm) |
| 端接类型: | 焊片 |
| 转矩 - 停滞状态 (oz-in / mNm): | 1.76 / 12.4 |
| 齿轮减速比: | 无 |
| 功率(瓦特): | 4W |
| 重量: | 0.053 磅(24.04g) |
| 其它名称: | 403-1042 |
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�
�Brush� DC� Working� Principles�
�through� the� effect� of� the� rotor� current,�
�required� for� obtaining� a� speed� of� rotation� n�
�particularly� in� the� event� of� slow� or� repeated�
�starting.� The� torque� M� d� produced� by� the�
�starting-current� I� d� is� obtained� as� follows:�
�for� a� given� load� torque� M� L� (angular� velocity� ω�
�=� n� x� 2π/60).� By� introducing� equation� (10)� into�
�(6)� we� obtain:�
�Using� equation� (10)� we� first� calculate� the�
�current� which� is� supplied� to� the� motor� under�
�these� conditions:�
�(�
�)�
�M� d� =� I� d� x� k� -� M� f� =� (I� d� -� I� 0� )k�
�(9)�
�U� 0� =� M� L� +I� 0� R� M� +kx� ω�
�k�
�(13)�
�I� =� M� L� +� I� 0� =� 0.008� +� 0.012�
�k� 0.0232�
�By� applying� equation� (1),� we� can� calculate� the�
�angular� velocity� ω� produced� under� a� voltage�
�U� 0� with� a� load� torque� M� i� .� We� first� determine�
�=� 0.357A�
�Practical� examples� of� calculations�
�Please� note� that� the� International� System� of� Equation� (11)� gives� the� angular� velocity� ω:�
�the� current� required� for� obtaining� the� torque�
�M=M� L� +M� f� :�
�I=M� L� +M� f�
�Units� (S.I.)� is� used� throughout.�
�1.� Let� us� suppose� that,� for� a� Portescap� ?�
�ω� =� U� 0� ?� I� x� R� M� =� 9� ?� 0.357� x� 10.2�
�k� 0.0232�
�=� 231� rad/s�
�k�
�Since� M� f� =� I� 0�
�k�
�motor� 23D21-216E,� we� wish� to� calculate� the�
�motor� constant� k,� the� starting� current� I� d� and� and� the� speed� of� rotation� n:�
�the� starting� torque� M� d� at� a� rotor� temperature� n� =� 60� ω� =� 2200� rpm�
�of� 40°C.� With� a� power� supply� voltage� of� 12V,�
�2π�
�we� may� also� write�
�I=M� L� +I� 0�
�(10)� the� no-load� speed� is� n� 0� is� 4900� rpm� (� ω� 0� =� 513�
�rad/s),� the� no-load� current� I� 0� =� 12� mA� and� the� Thus� the� motor� reaches� a� speed� of� 2200� rpm�
�k�
�resistance� R� M0� =� 9.5� Ω� at� 22°C.�
�and� draws� a� current� of� 357� mA.�
�For� the� angular� velocity� ω� ,� we� obtain� the� By� introducing� the� values� ω� 0� ,� I� 0� ,� R� M0� and� U� 0� into�
�3.� Let� us� now� calculate� the� torque� M� at� a�
�relationship�
�ω� =U� 0� ?IxR� M�
�k�
�=� U� 0� ?� R� M� (M� L� +� M� f� )�
�the� equation� (8),� we� obtain� the� motor� constant�
�(11)� k� for� the� motor� 23D21-216E:�
�k� =� 12 ? 0.012 x 9.5� =� 0.0232� Vs�
�15�
�given� speed� of� rotation� n� of� 3000� rpm� (� ω� =� 314�
�rad/s)� and� a� power� supply� voltage� U� 0� of� 15V;�
�equation� (12)� gives� the� value� of� the� current:�
�I=U� 0� ?kx� ω� =I� d� ?k� x� ω�
�k� k�
�2�
�R�
�M�
�R� M�
�Before� calculating� the� starting-current,� we�
�In� which� the� temperature� dependence� of� the� must� calculate� the� rotor� resistance� at� 40°C.�
�rotor� resistance� R� M� must� again� be� considered;� With� ?T� =� 18°C� and� R� M0� =� 9.5Ω,� we� obtain�
�in� other� words,� the� value� of� R� M� at� the� working� R� M� =� (1� +� 0.004� x� 18)� =� 9.5� x� 1.07�
�=� 1.18� ?� 0.0232� x� 314� =� 0.466A�
�10.2�
�and� the� torque� load� M� L� :�
�temperature� of� the� rotor� must� be� calculated.�
�=� 10.2Ω�
�M� L� =� k(I� ?� I� 0� )�
�On� the� other� hand,� with� the� eqation� (6),� we�
�can� calculate� the� current� I� and� the� load� The� starting-current� I� d� at� a� rotor� temperature�
�torque� M� L� for� a� given� angular� velocity� ω� and� a� of� 40°C� becomes�
�=� 0.0232� (0.466� ?� 0.012)�
�=� 0.0105� Nm�
�(M� L� =� 10.5� mNm)�
�given� voltage� U� 0� :�
�I� d� =� U� 0� =� 12� =� 1.18A�
�I=U� 0� ?kx� ω=� I� d� ?k� ω�
�(12)�
�R�
�M�
�10.2�
�4.� Lastly,� let� us� determine� the� power� supply�
�R� M�
�R� M�
�and� the� starting-torque� M� d� ,� according� to�
�voltage� U� 0� required� for� obtaining� a� speed�
�rotation� n� of� 4000� rpm� (� ω� =� 419� rad/s)� with�
�M� =� (I� ?� I� )k� ?� k� ω�
�Andwithequation(10)�
�M� L� =� (I� ?� I� 0� )k�
�We� get� the� value� of� M� L� :�
�2�
�L� 0�
�R� M�
�equation� (9),� is�
�M� d� =� k(I� d� ?� I� 0� )� =� 0.0232� (1.18� ?� 0.012)�
�=� 0.027� Nm�
�2.� Let� us� ask� the� following� question:� what� is�
�the� speed� of� rotation� n� attained� by� the� motor�
�a� load� torque� of� M� L� of� 0.008� Nm,� the� rotor�
�temperature� again� being� 40°C� (R� M� =� 10.2Ω).�
�As� we� have� already� calculated,� the� current� I� .�
�necessary� for� a� torque� of� 0.008� Nm� is� 0.357� A�
�U� 0� =IxR� M� +kx� ω�
�with� a� load� torque� of� 0.008� Nm� and� a� power�
�The� problem� which� most� often� arises� is� that� supply� voltage� of� 9V� at� a� rotor� temperature�
�=� 0.357� x� 10.2� +� 0.0232� x� 419�
�=� 13.4� volt�
�of� determining� the� power� supply� voltage� U�
�0�
�of� 40°C?�
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| 16N78-212P.1001 | 功能描述:MOTOR BRUSHED DC 4W 6V 9300RPM RoHS:是 类别:电机,螺线管 >> 电机 - AC,DC 系列:16N78, Athlonix 标准包装:1 系列:OMNUC G 类型:伺服 AC 电压 - 额定:200VAC RPM:1000 RPM 直径 - 主体:6.93"(176.00mm) 直径 - 轴:1.38"(35.00mm) 长度 - 轴和支架:3.15"(80.00mm) 安装孔间距:7.87"(200.00mm) 特点:绝对式编码器,键 端接类型:连接器 转矩 - 运行(oz-in / mNm):4021.8 / 28400 转矩 - 启动状态 (oz-in / mNm):- 转矩 - 停滞状态 (oz-in / mNm):- 齿轮减速比:无 电压范围:- 功率(瓦特):3kW 重量:55 磅(24.9kg) 其它名称:R88MG3K010TS2 |
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| 16N849 | 制造商:Distributed By MCM 功能描述:8" PLENUM RATED WIRE TIESRED 100/PKG |
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