Baldor MN781W manual IV. Mounting Instructions, Motor Frequency Multiplier Selection

Page 10

fault). To set the control to automatically reset after a fault has been cleared, set Jumper J3 to the "AUTO" position. See Figure 12. (Also see section VIB, on page 9 and Table 4, on page 10.)

WARNING! The motor will automatically

!restart when the AC line is applied, if Jumper J4 is set to the "AUTO" or “MAN” position and the Start/Stop Switch is eliminated with a jumper installed between the RUN and COM terminals.

D.Motor Frequency Selection (J5) – Jumper J5 is facto- ry set to the “60Hz” position, for 60 Hz motors. For 50 Hz motors, set Jumper J5 to the “50Hz” position. See Figure 13.

E.Motor Frequency Multiplier Selection (J6) – Jumper J6 is factory set to the “1X” position, for motor frequency corresponding to the frequency setting of Jumper J5 (50 or 60 Hz). To double the output frequency to the motor, set Jumper J6 to the “2X” position (100 or 120 Hz). See Figure 14.

Note: When doubling the motor frequency, the motor will produce full torque up to its base speed. The torque will be linearly reduced to 50% at the maximum doubled frequency.

F.Boost Mode Selection (J7): Jumper J7 is factory set to the "FIX" position, for fixed boost voltage. For adjustable boost voltage, using the BOOST trimpot, set Jumper J7 to the "ADJ" position. See Figure 15. (See section VIIIG, on page 12).

IV. MOUNTING INSTRUCTIONS

 

 

 

 

 

 

!

WARNING! This motor control is not

designed to

 

be used in an explosion-proof application.

 

 

 

It is recommended that the control be mounted vertically on a flat surface with adequate ventilation. Leave enough room below the control to allow for AC line, motor connections and any other wiring. Although the control is designed for outdoor and wash down use, care should be taken to avoid extreme hazardous locations where physical damage can occur. If the control is mounted in a closed, unventilated location, allow enough room for proper heat dissipation. If operating the control at full rating, a minimum enclosure size of 12”W X 24”H X 12”D is required. See Figure 3, on page 4.

V.RECOMMENDED HIGH VOLTAGE DIELECTRIC WITHSTAND TESTING (HI-POT)

FIGURE 12 – RESTART

MODE SELECTION

J4 Set for Manual

J4 Set for Auto

Reset Mode

Reset Mode

(Factory Setting)

 

 

 

 

 

AUTO

 

 

AUTO

 

 

 

 

J4

 

MAN

J4

 

MAN

 

 

 

 

 

 

 

 

 

 

 

 

FIGURE 13 – MOTOR

FREQUENCY SELECTION

 

J5 Set for

J5 Set for

60 Hz Motors

50 Hz Motors

(Factory Setting)

 

 

 

 

 

60 Hz

 

 

60 Hz

 

 

 

 

 

 

FREQ

 

 

FREQ

J5

 

50 Hz

J5

 

50 Hz

 

 

 

 

 

 

 

 

 

 

 

 

 

 

FIGURE 14

MOTOR FREQUENCY

MULTIPLIER SELECTION

J6 Set for 1X

J6 Set for 2x

Motor Frequency

Motor Frequency

(Factory Setting)

 

 

 

 

 

1X

 

 

1X

 

 

 

 

 

 

MULT

 

 

MULT

J6

 

2X

J6

 

2X

 

 

 

 

 

 

 

 

 

 

 

 

 

 

FIGURE 15

BOOST MODE SELECTION

 

J7 Set for

 

J7 Set for

Fixed Boost

 

Adjustable Boost

(Factory Setting)

 

 

FIX

 

 

FIX

 

 

 

 

 

 

BOOST

 

 

BOOST

J7

 

ADJ

J7

 

ADJ

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Testing agencies such as UL, CSA, VDE, etc., usually require that equipment undergo a hi- pot test. In order to prevent catastrophic damage to the speed control, which has been installed in the equipment, it is recommended that the following procedure be followed. Figure 16, on page 9 shows a typical hi-pot test setup.

Note: All equipment AC line inputs must be disconnected from the AC power.

A.Connect all equipment AC power input lines together and connect them to the H.V. lead of the hi-pot tester. Connect the RETURN lead of the hi-pot tester to the frame on which the control and other auxiliary equipment are mounted.

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Contents Series 5 Inverter Table of Contents IIISimplified Operating Instructions Standard Features IntroductionControl Layout Shown with Optional AUTO/MANUAL and FORWARD-STOP-REVERSE 208.17II. Wiring Instructions General Performance SpecificationsElectrical Ratings Terminal Block Wiring Information Power ConnectionsIII. Setting Selectable Jumpers AC Line Input Voltage SelectionIV. Mounting Instructions Boost Mode SelectionMotor Frequency Multiplier Selection HI-POT Setup VI. Control OperationVII. AC Line Fusing Fault Recovery & Resetting the ControlVIII. Trimpot Adjustments I2t Trip Time vs Motor Current Control Mode and Status LED Indication Optional Accessories XI. Limited Warranty

MN781W specifications

The Baldor MN781W is a versatile and robust motor designed for various industrial applications. Known for its high performance and efficiency, this motor is an integral component in diverse sectors, including manufacturing, agriculture, and energy production. Its design emphasizes durability, reliability, and energy efficiency, making it a preferred choice for many professionals.

One of the main features of the Baldor MN781W is its premium efficiency rating, which ensures reduced energy consumption and lower operational costs. This motor meets or exceeds the efficiency standards set by the National Electrical Manufacturers Association (NEMA), contributing to substantial energy savings over its lifespan. When compared to traditional motors, the MN781W not only helps in cutting energy expenses but also supports environmentally friendly initiatives by minimizing carbon footprints.

The MN781W motor utilizes advanced insulation materials and coating technologies, providing enhanced protection against moisture, dust, and other environmental factors. This ensures optimal performance in challenging conditions while prolonging the motor’s life. The unique design of the motor housing and internal components minimizes heat generation, which is essential for extending operational longevity and preventing breakdowns.

In terms of technological features, the MN781W incorporates state-of-the-art bearing designs that reduce friction and enhance overall efficiency. This enables the motor to operate smoothly under heavy loads, which is particularly beneficial in industrial applications requiring consistent performance. Additionally, the motor is equipped with built-in thermal protection, which automatically shuts down the motor in case of overheating, thereby preventing damage and ensuring safety.

Another significant characteristic of the Baldor MN781W is its ease of installation and maintenance. The motor is designed with user-friendly access points for wiring and inspection, allowing technicians to conduct routine checks and repairs with minimal downtime. Furthermore, its modular design supports a range of mounting options, enabling seamless integration into existing systems.

In conclusion, the Baldor MN781W stands out as a reliable, energy-efficient motor that meets the demands of modern industries. With its premium efficiency rating, advanced protection features, and easy maintenance, it is an excellent choice for any business looking to enhance operational efficiency and reduce costs. Whether used in heavy machinery or process equipment, the MN781W ensures optimal performance and reliability, making it a valuable investment in industrial applications.