Process Operating Mode The process control mode provides an auxiliary closed loop general purpose PID set point control. The process control loop may be configured in various ways and detailed descriptions of the process mode are given in MN707 “Introduction to Process Control”. The opto inputs can be switches as shown in Figure 3-34 or logic signals from another device.

Figure 3-34 Process Mode Connection Diagram

J4-8 CLOSED allows normal control operation.

OPEN disables the control & motor coasts to a stop.

J4-9 CLOSED operates the motor in the Forward direction (with J4-10 open). OPEN motor decels to stop (depending on Keypad Stop mode).

J4-10 CLOSED operates the motor in the Reverse direction (with J4-9 open). OPEN motor decels to stop (depending on Keypad Stop mode).

J4-11 CLOSED, selects Accel/Decel group 2 parameters.

OPEN, selects Accel/Decel group 1 parameters.

J4-12 CLOSED causes the control to JOG in the reverse direction.

J4-13 CLOSED to enable the Process Mode.

J4-14 CLOSED causes the control to JOG in the forward direction.

J4-15 CLOSED to reset a fault condition.

OPEN to run.

J4-16 If J4-16 is connected, you must set Level 2 Protection block, External Trip to “ON” to activate the opto input.

CLOSED allows normal control operation.

OPEN causes an external trip fault. The control will disable and the motor coasts to a stop. An external trip fault is displayed (also logged in the fault log).

 

Analog GND

Command Pot or

Analog Input 1

0-10VDC

 

Pot Reference

5KW

Analog Input +2

 

 

 

 

Analog Input -2

 

 

Analog Out 1

 

 

Analog Out 2

 

 

Enable

 

 

Forward Enable

 

 

Reverse Enable

 

 

Ramp Select

 

 

Jog Reverse

 

Process Mode Enable

 

 

Jog Forward

 

 

Fault Reset

 

 

External Trip

 

 

Opto In Common

Refer to Figure 3-35.

J4

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

See recommended terminal tightening torques in Section 6.

Table 3-15 Process Mode Input Signal Compatibility

 

Setpoint or

 

 

 

 

Feedback

 

 

 

 

 

J4-1 & 2

J4-4 & 5

5V EXB

10V EXB

4-20mA

3-15 PSI

DC

 

Feedforward

 

 

 

 

 

 

 

 

EXB

EXB

Tach EXB

J4-1

& 2

 

 

 

 

 

 

 

 

J4-4

& 5

 

 

 

 

 

 

 

 

5V EXB

 

 

 

 

 

 

 

 

10V EXB

 

 

 

 

 

 

 

 

4-20mA EXB

 

 

 

 

 

 

 

 

3-15

PSI EXB

 

 

 

 

 

 

 

 

DC Tach EXB

 

 

 

 

 

 

 

 

EXB PULSE FOL 



 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Serial  

 

 

 

 

 

 

 

 

Requires expansion board EXB007A01 (High Resolution Analog I/O EXB).

Requires expansion board EXB004A01 (4 Output Relays/3-15 PSI Pneumatic Interface EXB).

Requires expansion board EXB006A01 (DC Tachometer Interface EXB).

Requires expansion board EXB005A01 (Master Pulse Reference/Isolated Pulse Follower EXB).

Used for Feedforward only. Must not be used for Setpoint Source or Feedback.

Requires expansion board EXB001A01 (RS232 Serial Communication EXB). or

Requires expansion board EXB002A01 (RS422/RS485 High Speed Serial Communication EXB).

Conflicting inputs. Do not use same input signal multiple times.

Conflicting level 1 or 2 expansion boards. Do not use!

3-34 Receiving & Installation

MN715

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Image 45
Baldor Inverter Control, 15H manual Process Mode Input Signal Compatibility
Page 44 Page 46

Inverter Control, 15H specifications

The Baldor 15H Inverter Control stands out as a leading solution in the realm of variable frequency drives (VFDs), specifically designed for enhancing motor efficiency and performance in industrial applications. This control unit is engineered to provide robust and reliable performance while ensuring seamless integration with various motor types.

One of the main features of the Baldor 15H is its advanced control algorithms, which facilitate precise motor control. This technology allows for smooth acceleration and deceleration, reducing mechanical stress on the system and extending the lifespan of both the motor and connected equipment. The inverter control is adept at handling both synchronous and asynchronous motors, making it highly versatile for different operational needs.

The Baldor 15H incorporates a user-friendly interface that provides operators with real-time data and diagnostics. This feature allows for easy monitoring and troubleshooting, helping to minimize downtime and maintenance costs. The intuitive control panel simplifies parameter adjustments, enabling quick customization for specific application requirements.

Safety is paramount in industrial environments, and the Baldor 15H includes several safety features designed to protect both the equipment and personnel. These features include overload protection, overvoltage protection, and short-circuit protection, ensuring reliable operation even under demanding conditions.

Energy efficiency is another critical aspect of the Baldor 15H. By utilizing pulse-width modulation (PWM) technology, it optimizes power usage, which translates to lower energy costs and reduced environmental impact. This makes it an excellent choice for companies aiming to improve their sustainability practices.

Moreover, the Baldor 15H supports a variety of communication protocols, allowing for easy integration into existing automation systems. This capability ensures that operators can utilize the inverter control within modern industrial networks, enhancing overall system efficiency.

In terms of physical characteristics, the Baldor 15H is designed for durability and reliability. It comes with a robust enclosure that protects against dust, moisture, and other environmental factors commonly found in industrial settings. Its compact design also allows for easy installation in limited spaces.

Overall, the Baldor 15H Inverter Control is a comprehensive solution that combines advanced technology, safety features, and energy efficiency, making it a preferred choice for industries looking to optimize their motor control systems. Its adaptability to different motor types and integration capabilities further solidify its position as a leader in VFD technology.
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