Startup procedure – Yaskawa S12051 for GPD 515/G5 User Manual

Flash Software-PID for Trim Control

Option S12051 for GPD 515/G5

Yaskawa Electric America, Inc-www.drives.com

02Y00025-0428 Page 9 of 11

Date: 08/23/01

Startup Procedure

(typical installation - PID + Line Speed Reference):

1. Follow the appropriate startup procedure in Section 2.2 of the GPD515 Technical Manual TM4515 (2.2a for Open

Loop Vector, 2.2b for Flux Vector, 2.2c for V/f, or 2.2d for V/f with PG Feedback).

2. Calibrate the line speed signal. (using terminal 13 as a 0-10V input)

2a. Determine the required drive output frequency for maximum line speed.

Frequency = Motor RPM* Motor Poles / 120

NOTE: if this option is being applied as a winder with dancer control, use the motor speed when the

winder is at its smallest diameter (core).

2b. Determine the maximum amount of positive trim required as a percentage of line speed.

2c. Set E1-04(maximum output frequency) to the value determined by the following formula:

E1-04 = Frequency

(@ max line speed)

+ Frequency

(@ max line speed)

* Max. Trim(%)

100

NOTE: If the value of E1-04 is less than 60Hz, use 60 instead of the calculated value.

2d. Determine what the line speed signal voltage will be when the line is running at the maximum speed.

2e. Input the voltage determined in step 2d into terminal 13 and adjust parameter H3-02(terminal 13 gain) until

the line speed is correct (while running the drive). NOTE: in order for the drive to respond to the line

speed, the REF light on the digital operator needs to be illuminated. The LOCAL/REMOTE switch will turn
this light on and off.

2f. Stop the drive.

3. Program multi-function analog input 1 (terminal 16) to be PID feedback. The feedback signal can be either +10V or 0-

10V:

+10V: set H3-04=1 and set H3-05=b (NOTE: a +15VDC power supply is available on terminals 15 & 33)

0-10V: set H3-04=0 and set H3-05=b (NOTE: a 15VDC power supply is available at terminals 15 & 17)

4. Program the drive to accept a PID setpoint. The setpoint for the PID loop can come from one of two places, either a

digitally entered value (b5-07) or an analog value. If a digital value is desired, set the appropriate voltage value into
b5-07. If an analog value is desired, program multi-function analog input 2 (terminal 14) to be a PID setpoint:

+10V: clip jumper J1(see Section 5.36D), set H3-08=1 and set H3-09=20

0-10V: clip jumper J1(see Section 5.36D), set H3-08=0 and set H3-09=20

4-20mA: set H3-08=2 and set H3-09=20

5. Determine and set PID output polarity.

Program

b5-09 = 0 if an increase in feedback voltage level results in a decrease of motor speed.

Program

b5-09 = 1 if an increase in feedback voltage level results in an increase of motor speed.

6. Set the appropriate PID mode.

Program

b5-01 = 2. When this is programmed, the drive will output a frequency proportional to the algebraic

sum of the line speed signal and the PID algorithm output.

7. Verify all analog signals while the drive is stopped.

7a. Bring up U1-01 on the digital operator and verify that the line speed signal working and correct.

7b. Bring up U1-36 on the digital operator and verify that the feedback voltage is working and correct.

7c. If an analog PID setpoint is being used, bring up U1-42 on the digital operator and verify correct operation.

8. Determine and set the appropriate PID setpoint.

8a. With the drive stopped, bring up U1-36 on the digital operator and then position the feedback device where it

would be while the machine was operating normally. Note the value of U1-36.

8b. If a digital PID setpoint is being used, set the value recorded during step 8a into parameter b5-07. If an

analog PID setpoint is being used, bring up U1-42 on the digital operator and adjust the setpoint until U1-42
matches the value of U1-36 recorded during step 8a.