Section 1

General Information

Start-Up Procedure

Power Off Checks

Before you apply power, it is very important to verify the following:

1.Verify the AC line voltage at the source matches the control rated voltage.

2.Inspect all power connections for accuracy, workmanship and tightness.

3.Verify that all wiring conforms to applicable codes.

4.Verify that the control and motor are properly grounded to earth ground.

5.Check all signal wiring for accuracy.

6.Set Keypad DIP switches as desired, Figure 3-15. (Power must be cycled after a DIP switch position change).

Figure 3-15 Keypad Adjustments

DIP Switch

Keypad Operation

1

2

 

Off

Off

Full Keypad Operation

Off

On

No access to Run, ESC, Edit, Copy, Del

On

Off

No access to Run, Edit, Copy, Del

On

On

No access to Edit, Copy, Del

N/C GND Rx Tx +5VDC

ON

1

 

2

 

3

 

4

5

4

3

2

1

Switches 3 and 4 are reserved.

Switch and Potentiometer Settings

The motor current, inductance, and resolution settings must be made before power is applied. The other settings (waveform, standby current, anti–resonance, and phase offset adjustments can be made while the drive is powered and the motor is moving.

Motor Current (can be changed at any time)

Set these switches for the correct values for the motors connected to each axis. The Motor Current range is 0.0–6.0 Amps (peak) per motor phase per axis. Each axis has two, 10–position rotary switches (labeled Amps and Tenths of Amps in Figure 3-4). These switches set the current for each motor. The top switch sets the integer current value, and the bottom switch sets the tenths of amps value.

Motor Resolution (only read at power up, cycle power if changed)

Eight selectable motor resolutions (200, 400, 1,000, 5,000, 10,000, 18,000, 25,000 and 25,400 steps) are available. Rotary switches (“Res” shown in Figure 3-4) set the resolution for each axis motor. Motor Resolution may be selected using these switches or configured with the keypad (or by serial commands). This resolution setting assumes you are using a step motor with 1.8 degree per full step.

Motor Inductance (can be changed at any time)

Motor Inductance is set by a 16–position rotary range switch (Side Panel of Figure 3-4). The inductance switch has settings from 0 to 60 mH, in multiples of 4 mH. For the proper setting, round motor inductance to the nearest multiple of 4 mH.

If the exact inductance of the motor is not known, initially set the inductance to 8mH. The inductance switch is more of an adjustment than a setting. If the setting is too low, the motor will stall. If the setting is too high an audible hum will be heard from the motor, and increase motor heating. Between these two extremes is generally 2 or 3 correct inductance settings.

3-12Receiving & Installation

MN1854

Page 23
Image 23
Baldor mn1854 manual Start-Up Procedure, Power Off Checks, Switch and Potentiometer Settings, Section General Information