Baldor ID101F50-E manual Motor Connections

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Motor Connections

Connect the three phase power leads of the AC motor to terminals M1, M2, and M3 of the inverter power terminal strip. The motor ground lead or case ground should be connected to the inverter chassis ground screw. The motor should be connected to the inverter at all times during inverter operation.

If additional motor overload protection is required, the use of suitably sized motor overload relays are recommended. Motor overload relays should be connected between the motor and inverter with the relay trip indicator circuit connected into the external inverter control circuitry to power down or trip the inverter in the event of motor overloading.

Caution: Overload relays with an automatic reset feature are not recommended in applications where an automatic restart of the motor could cause personal injury or harm. If manual reset relays are not available, then the automatic reset feature should be defeated.

If the motor is equipped with a normally closed thermostat, the thermostat should be connected at terminals MOL and CM of the control terminal strip. The inverter will also need to be programmed to trip if this thermostat circuit opens indicating a motor overload condition. The inverter will need to be programmed by adjusting parameter 77-External Trip Select and placing the proper jumper position on jumper terminals J19.

If during initial motor start up the motor rotation is opposite to that desired, disconnect the input power from the inverter and wait at least 5 minutes for the bus voltage to bleed off.

Interchange any two of the three motor leads at the inverter power terminal strip M1, M2, and M3 to change the shaft rotation of the motor.

2-8 Installation

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Contents MN710 Series Inverter Control Installation and Operating ManualTable of Contents Level One Parameter Adjustments Min Output Frequency Appendix a Section General Information Limited WarrantySafety Notice General Information Nema SpecificationsElectronic Potentiometer Operator Keypad Fault ConditionsAnalog Outputs Relay OutputsRatings Catalog No Input OutputAmps Volts General Information Location and Mounting Section InstallationTerminal Access Cover Removal Terminal and Jumper Locations Wiring ConsiderationsInstallation Wire Size and Protection Devices Breaker Fast Time AWG Cu Acting DelayRated Input Input Fuses Catalog No Main Circuit Wiring AC Power Connections Motor Connections Typical Connections for M-Contactor ContactorAnalog Command Inputs Logic WiringAnalog Output Opto Isolated InputsExternal Trip Connection Jumper J19 Selections Jumper J19 Input SelectionSelection Of Operation Mode And Connection Diagrams Wire Run/Stop Connections Speed SelectFunction Ramp Select PS2 PS1Parameter 21 Operating Mode = 4 or Parameter 21 Operating Mode = Wire Run/Stop, Electronic Potentiometer ConnectionsMOL Terminal Connections 77-External Trip Select Analog MeterRelay Output Installation Pre-Operation Checks Check of Electrical ItemsCheck of Motors/Couplings Pre-Operation Check List Temporary Application of PowerInstallation Keypad Key Functions Section OperationOperation Status Indication Operating Condition Keypad Status IndicatorDescription of Keypad Displays Symbol Description Stop ModeRun Mode Control Operation Adjustment Program ModeSecurity Access/Lockout Level One Parameter Adjustments Start Control Type of Control Parameter 21-Operating Mode ValueCommand Control Terminals Description FWD REV PS1 PS2 Operation Operation Parameter 71-ANALOG Output Select Parameter 75-RELAY Output Select Value Description Level Two Parameter AdjustmentsOperation Operation Parameter 41-ACCEL/DECEL/COAST Select Value Description Operation Parameter 41-Parameter 47-DC Brake Time Braking Action / Function DC Braking DisabledLinear Volts/Hertz Profiles50% Square LawOperation Operation Description / Function Parameter 77-External Trip SelectParameter 81-Factory Settings Value Description Parameter 82-Start Options Value Description Command is given at the Control Terminal Strip Operation Diagnostic Displays Section TroubleshootingFault Codes Fault Code Description Troubleshooting MaintenanceIndication Possible Cause Corrective Action Motor overloadedAdjusted SpeedsOverload Input voltage too high Troubleshooting Illustrations Illustrations HP Nema 230 & 460VAC Illustrations Parameter List Appendix a ParametersParameter List ± Param Parameter Description Adj Factory User Range SettingBox Fort Smith, AR 72902±2400 501 646±4711 Fax 501 648±5792 Form 1099A Baldor Electric Company MN710 98 C&J2500

ID101F50-E specifications

The Baldor ID101F50-E is an advanced industrial electric motor designed for a variety of heavy-duty applications. Known for its robust construction and high efficiency, this motor is a preferred choice in manufacturing, conveyor systems, and automated machinery where reliability and performance are critical.

One of the primary features of the ID101F50-E is its outstanding efficiency rating. With high efficiency levels, it helps reduce energy consumption, which not only lowers operating costs but also aligns with modern demands for sustainability in industrial practices. The motor's efficiency contributes to a reduced carbon footprint, making it a more environmentally friendly option.

Another significant characteristic of the Baldor ID101F50-E is its high power output. This motor can deliver substantial torque, making it suitable for applications requiring heavy lifting and durable operation. Its design allows for continuous operation at high loads without overheating, which is essential for industries that rely on uninterrupted functionality.

In terms of construction, the ID101F50-E is built with high-quality materials that ensure durability and longevity. The robust housing and premium internal components assist in protecting the motor from harsh environmental conditions, making it well-suited for demanding industrial environments. Its rugged construction means it can withstand vibration, extreme temperatures, and exposure to contaminants.

The motor also incorporates advanced technologies that enhance its performance. For instance, it employs precision engineering techniques in its rotor and stator designs, which minimize losses during operation. This contributes to its overall high performance and reliability. Additionally, the ID101F50-E features advanced cooling mechanisms to maintain optimal operating temperatures, ensuring stability and longevity.

Further enhancing its usability, the Baldor ID101F50-E is designed for easy installation and maintenance. Its standard mounting configurations allow for straightforward integration into existing systems. Maintenance access is simplified, which reduces downtime and helps keep production schedules on track.

In conclusion, the Baldor ID101F50-E is a powerful electric motor that strikes an excellent balance between performance, efficiency, and durability. Its high efficiency, significant power output, robust construction, and advanced technologies make it an ideal choice for various industrial applications, standing as a testament to Baldor's commitment to innovation and quality in electric motor design.
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