Eaton SVX900 Quick Start Manual Download Page 11

Page: 11 / 16

MN04003009E

December 2003

STEP 4 (Continued)

Input Signals — M1

➔

G1.2

Parameter value can only be changed when the SVX9000 is stopped.

Rising edge pulse required.

Output Signals — M1

➔

G1.3

Code Parameter

Min. Max.

Unit Default Cust ID

Note

P1.2.1

Start/Stop logic

300

DIN1

DIN2

0
1
2

4
5

Start fwd
Start/Stop
Start/Stop

Start pulse

Fwd

Start

Stop
Start

Stop

Start rev
Rev/Fwd
Run
enable
Stop
pulse
Rev

Rev

Fwd
Run
enable

P1.2.2

DIN3 function

301

= Not used

= Ext. fault, closing

contact

= Ext. fault, opening

contact

= Run enable

= Acc./Dec. time select

= Force control pt. to

Local

= Force control pt. to

Remote

= Rev (if P1.2.1 = 3)

P1.2.3 Current

reference offset

302

= 0 – 20 mA

= 4 – 20 mA

P1.2.4 Reference

scaling
minimum value

0.00

P1.2.5

0.00

303

Selects the frequency that
corresponds to the min.
reference signal

P1.2.5 Reference

scaling
maximum value

0.00

320.00 Hz

0.00

304

Selects the frequency that
corresponds to the max.
reference signal

0.00

= No scaling

P1.2.6 Reference

inversion

305

= Not inverted

= Inverted

P1.2.7 Reference filter

time

0.00

10.00

0.10

306

0.00

= No filtering

P1.2.8 AI1 signal

selection

AnIN:
0.1

AnIN:
E.10

AnIN:
A.1

377

TTF programming
method used.

P1.2.9 AI2 signal

selection

AnIN:
0.1

AnIN:
E.10

AnIN:
A.2

388

TTF programming
method used.

Code Parameter

Min.

Max.

Unit Default Cust ID

Note

P1.3.1 Analog

output 1
signal
selection

AnOUT:
0.1

AnOUT:
E.10

AnOUT:
A.1

464

TTF programming
method used.

P1.3.2

Analog output
function

307

= Not used

= Output freq.

(0 – f

Max

)

= Freq. reference

(0 – f

Max

)

= Motor speed

(0 – Motor nominal
speed)

= Motor current

(0 – I

nMotor

)

= Motor torque

(0 – T

nMotor

= Motor power

(0 – P

nMotor

)

= Motor voltage

(0 – V

nMotor

)

= DC-Bus volt

(0 – 1000V)

P1.3.3

Analog output
filter time

0.00

10.00

1.00

308

0.00

= No filtering

P1.3.4

Analog output
inversion

309

= Not inverted

= Inverted

P1.3.5

Analog output
minimum

310

= 0 mA

= 4 mA

P1.3.6

Analog output
scale

1000

100

311

100

= No scaling

MN04003009E.fm Page 10 Thursday, February 17, 2005 11:59 AM

Summary of Contents for SVX900

Page 1: ...poration CONTENT STEP 1 Keypad Operation Overview STEP 2 Standard Wiring Diagrams and Connections STEP 3 Start Up Wizard STEP 4 Operating and Programming Menu Navigation STEP 5 Faults and Warning Indi...

Page 2: ...active drive alarm s Fault Indicates that there is one or more active drive fault s I O Terminal Indicates that the I O terminals have been chosen for control Keypad Indicates that the keypad has bee...

Page 3: ...ss disabled by the StopButtonActive parameter used to reset the active faults Reset Resets the active faults Local Remote Switches between LOCAL and REMOTE control for start speed reference and revers...

Page 4: ...e parameters See the SVX9000 Application Manual for identification of these parameters specific to your chosen application Main Menu The data on the control keypad are arranged in menus and submenus T...

Page 5: ...otor Wiring for Large Horsepower Drives 20 250 hp U V W B M 3 L1 L2 L3 L1 L2 L3 B R External RFI Filter Optional BR Optional External Filter Optional BR Power Board 230V 20 30 hp 480V 40 250 hp Contro...

Page 6: ...s etc max 0 1A 7 GND I O ground Ground for reference and controls 8 DIN1 Start forward Contact closed start forward 9 DIN2 Start reverse Contact closed start reverse 10 DIN3 External fault input progr...

Page 7: ...Min Freq 0 00 Hz Max Freq 60 00 Hz Accel Time 3 0 s Decel Time 1 3 0 s Current Limit 3 30 A Motor NP Volt 460 V Motor NP Freq 60 00 Hz Motor NP Speed 1720 rpm Motor NP Current 2 20 A Power Factor 0 8...

Page 8: ...M3 Motor Voltage 255 7 V O7 DC Bus Volt 580 V O8 Unit Temp 32 C O9 Motor Temp 0 1 O10 M5 Programming Press Enter M6 M7 Operate Mode Press Enter M8 Operate Menu Programming System Menu S1 S8 Expander B...

Page 9: ...nds While in the other menus if there is no keypad activity the display will return to the Operate Menu after 30 seconds Code Signal Name Unit Description O 1 Output Frequency Hz Output frequency O 2...

Page 10: ...eplate value P1 11 Start function 0 1 0 505 0 Ramp 1 Flying start P1 12 Stop function 0 3 1 506 0 Coasting 1 Ramp 2 Ramp Run enable coast 3 Coast Run enable ramp P1 13 Local Control Place 1 3 2 171 1...

Page 11: ...frequency that corresponds to the max reference signal 0 00 No scaling P1 2 6 Reference inversion 0 1 0 305 0 Not inverted 1 Inverted P1 2 7 Reference filter time 0 00 10 00 s 0 10 306 0 00 No filter...

Page 12: ...signal selection AnOUT 0 1 AnOUT E 10 AnOUT 0 1 471 TTF programming method used P1 3 13 Analog output 2 function 0 8 4 472 See P1 3 2 P1 3 14 Analog output 2 filter time 0 00 10 00 s 1 00 473 0 00 No...

Page 13: ...normal ramp time Code Parameter Min Max Unit Default Cust ID Note P1 6 1 Motor control mode 0 1 0 600 0 Frequency control 1 Speed control P1 6 2 V Hz optimization 0 1 0 109 0 Not used 1 Automatic torq...

Page 14: ...See P1 7 3 P1 7 14 Stall current 0 1 InMotor x 2 A IL 710 P1 7 15 Stall time limit 1 00 120 00 s 15 00 711 P1 7 16 Stall frequency limit 1 0 P1 1 2 Hz 25 0 712 P1 7 17 Underload protection 0 3 0 713...

Page 15: ...Fault Fault Code Fault 1 Overcurrent 16 Motor overtemperature 40 Device unknown 2 Overvoltage 17 Motor underload 41 IGBT temperature 3 Ground Earth Fault 22 EEPROM checksum fault 42 Brake resistor ove...

Page 16: ...fied and then the up or down arrow keys to select the new item Press the ENTER key to accept the change Code Signal Name Unit Description V7 1 Output Frequency Hz Output frequency V7 2 Frequency refer...

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Eaton SVX900, Quick Start Manual, Page: 11 / 16

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