Baldor BXII installation manual Mechanical installation and location requirements

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3.2 Mechanical installation and location requirements

It is essential that you read and understand this section before beginning the installation.

The safe operation of this equipment depends upon its use in the appropriate environment. The following points must be considered:

HThe NextMove BXII must be installed indoors, permanently fixed and located so that it can only be accessed by service personnel using tools.

HThe maximum suggested operating altitude is 2000m (6562ft).

HThe NextMove BXII must operate in an ambient temperature of 0°C to 40°C (32°F to 104°F).

HThe NextMove BXII must operate in relative humidity levels of less than 80% for temperatures up to 31°C (87°F) decreasing linearly to 50% relative humidity at 40°C (104°F) (non-condensing).

HThe NextMove BXII must be installed where the pollution degree according to IEC664 shall not exceed 2.

HThe external customer supplied 24VDC for the logic supply must be installed so that the 24VDC supplied to the unit is isolated from the AC supply using double or reinforced insulation.

HThe inputs and outputs of the control circuit must be limited to Safety Extra Low Voltage circuits.

HThe atmosphere must not contain flammable gases or vapors.

HThere must not be abnormal levels of nuclear radiation or X-rays.

HThe NextMove BXII must be secured by the slots in the flange, with the protective earth/ground stud bonded to a safety earth/ground by a 25A conductor.

HThe external customer supplied 24VDC logic supply might require a 24V filter.

HEach D-type connector on the front panel of the NextMove BXII is secured using two hexagonal jack screws (sometimes known as “screwlocks”). If a jack screw is removed accidentally or lost it must be replaced with an identical jack screw with an external male threaded section of 5mm (0.2 in).

Jack screws with longer threads might result in loose connections.

HThe two D-type connectors on the top panel of the NextMove BXII are each secured using two hexagonal jack screws (sometimes known as “screwlocks”). If a jack screw is removed accidentally or lost it must be replaced with an identical jack screw with an external male threaded section of 7mm (0.28 in). Jack screws with shorter threads might result in loose connections.

See also page 1-2.

MN1904

Basic Installation 3-3

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Contents NextMove Bxii Motion Controller Page Contents Operation Appendices Iv Contents MN1904 General Information Precautions Safety NoticeNextMove Bxii features Installed Receiving and inspectionIdentifying the catalog number Units and abbreviations PhaseIntroduction MN1904 Power sources IntroductionPC Hardware requirements Tools and miscellaneous hardware Other information needed for installationMechanical installation and location requirements Mounting the NextMove Bxii This completes the basic installationConnector locations top panel X8 Power Connector locations front panelPower Power connectionsAnalog inputs Analog I/OAnalog input circuit, AIN0/AIN1 pair shown Analog output circuit Demand0 shown Analog outputs DemandsDigital I/O Pin Name Mint keyword / description Digital inputsINX.0 Digital input circuit fast interrupts Digital inputs InterruptsDigital output circuit Digital outputsEncoder interfaces X9, X10, X11, X12 Other I/OEncoder input frequency Relay connections Relay and user power4 RS232 RS232 serial port connections Cable wiring if hardware handshaking is not required Connecting Baldor HMI Operator Panels6 RS422 / RS485 RS422 / RS485 connections on a 9-pin male D-type connectorWire RS485 multi-drop connections Typical can network connections Can connectors X16Baldor can CANopenSystem watchdog Reset statesServo amplifier axis Connection summary minimum system wiringMinimum system wiring connections Preliminary checks Connecting the NextMove Bxii to the PCInstalling the software Starting the NextMove BxiiPower on checks Help file WorkBenchStarting WorkBench MN1904 Operation Selecting a scale Configuring an axisSetting the drive enable output Testing the drive enable output Testing the drive command output Testing and tuningSTOP.0 An introduction to closed loop control Summary, the following rules can be used as a guide NextMove Bxii servo loop Selecting servo loop gains Tuning an axis for current controlMN1904 Operation Underdamped response Underdamped responseKprop Overdamped responseCritically damped ideal response Critically damped responseEliminating steady-state errors Calculating Kvelff Tuning an axis for velocity controlKvelff Correct value of Kvelff Click Go Adjusting KpropCorrect value of Kprop Digital input configuration Digital input/output configurationDigital output configuration Toolbox, click the Edit & Debug icon Saving setup informationLoading saved information SupportMet feature Problem diagnosisStatus display NextMove Bxii indicatorsMN1904 Troubleshooting Motor control Symptom CheckCommunication Axis LED is red or Status LED shows a flashing symbolTroubleshooting MN1904 Description Input powerDigital inputs X1 Relay output Encoder interfaces X9Can interfaces X16 10Environmental 11Weights and dimensionsBaldor can nodes Catalog number Description OPT008-501 Encoder Splitter/Buffer boardIndex Index MN1904 MN1904 Index Index MN1904 Comments Comments MN1904 Page LT0158A01

BXII specifications

The Baldor BXII is a robust and versatile industrial motor known for its high performance and reliability in various applications. Designed for use in demanding environments, the BXII series is particularly favored in the food processing, petrochemical, and material handling industries. Its construction and technological features distinctly differentiate it from other motors in the market, enhancing efficiency and durability.

One of the standout features of the Baldor BXII is its premium efficiency rating, which ensures that the motor operates with minimal energy loss. This efficiency is crucial for industries looking to reduce energy costs and lower environmental impact. The BXII motor meets or exceeds NEMA Premium Efficiency standards, making it an eco-friendly choice for operations requiring continuous power.

Another important characteristic of the BXII series is its advanced design, featuring a high-quality aluminum frame that promotes excellent heat dissipation. This construction enhances the lifespan of the motor and reduces the risk of overheating during extended operation. Additionally, the BXII is equipped with an IP55-rated enclosure, ensuring that it is well-protected against dust and moisture, which is vital for reliability in harsh environments.

The Baldor BXII incorporates state-of-the-art technology in its motor design, including an innovative rotor design that offers optimal torque characteristics. This carefully engineered rotor ensures smooth operation and minimal vibration, resulting in increased performance and reduced wear on mechanical components.

Moreover, the BXII series employs a continuous duty service factor, allowing for longer operational hours without overheating or compromising performance. This is particularly beneficial for applications requiring consistent power output over extended periods.

The integration of smart technologies in the BXII line also enhances its usability. Features such as thermal protection and vibration sensors enable proactive monitoring of motor health, leading to preemptive maintenance that reduces downtime and extends the life of the motor.

Overall, the Baldor BXII offers a winning combination of efficiency, durability, and advanced technology, making it a reliable choice for industrial applications. Its commitment to performance and innovation underscores Baldor's reputation as a leader in the manufacturing of high-quality motors, ensuring that businesses can operate with confidence and efficiency. Whether in a food processing facility or a manufacturing plant, the BXII series stands out as an exemplary choice for those seeking dependable motor solutions.
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