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High Voltage Motor
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Direct Drive Motor |
- Protecting Droop
- High Acceleration or Negative acceleration Operating and Quick Settling Motion
- No gear, no belt and no coupling
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APM-SC06DEK2-DM |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising . |
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APM - SG60M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low-cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class rising |
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APM - SG60G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG75D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG55D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low-cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising |
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APM - SG85G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG44M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SF75G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG44G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SF75D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG35D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF60G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SF55D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG30M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF50A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG30G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF44M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG22D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF44G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG20M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF35D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG20G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF30M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG150G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF30G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG12M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF30A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG110G |
Features
Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF22D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SF20M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SG110D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SF20G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SF12M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE30A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE22D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE22A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE17G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE16D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE15A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE13G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising |
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APM - SE12M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE11D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE09M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE09G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE09A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE06M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE06D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE05G |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SE03M |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-classtemperature rising
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APM - SC10A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SC08A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SC07D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SC06D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SC06A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SC05D |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SC04A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SB04A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SB02A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SB01A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SAR5A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SAR3A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - SA01A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - HB01A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - HB02A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - HB04A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - HE09A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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APM - HE15A |
Features
- Compact size realized by the use of high- performance permanent magnet
- Magnetic circuit design featuring low- cogging characteristics
- Improved control by the use of high-precision encoder
- Motor life extended by the use of F-class insulation against B-class temperature rising
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