Parker Variable Speed Drive AC30 series. User’s Manual (2017)

D-82

Parameter Reference

Flycatching

Parameters::Motor Control::Flycatching

Only available if IM MOTOR selected in

Control Mode

This feature performs a directional speed search. It allows the Drive to seamlessly catch a spinning motor before controlling the motor to the desired
setpoint. This is especially useful for large inertia fan loads, where drafts in building air ducts can cause a fan to `windmill’.

Parameter Name

No.

Path

Default

Range

Units

Writable

VHz Flying Start Enable

0310

Parameters::Motor Control::Flycatching

FALSE

ALWAYS

Enable flycatching in V/Hz control mode when TRUE

VC Flying Start Enable

0311

Parameters::Motor Control::Flycatching

FALSE

ALWAYS

Enable flycatching in Vector control mode when TRUE

Flying Start Mode

0312

Parameters::Motor Control::Flycatching

0:ALWAYS
1:TRIP OR POWER UP
2:TRIP

ALWAYS

Mode of operation - V/Hz control

Search Mode

0313

Parameters::Motor Control::Flycatching

0:BIDIRECTIONAL
1:UNIDIRECTION

ALWAYS

The type of speed search carried out by the flycatching sequence.

Search Volts

0314

Parameters::Motor Control::Flycatching

9.0

0.0 to 100.0

ALWAYS

Only under VHz control

The percentage level of the search volts applied to the motor during the speed search phase of the flycatching sequence. Increasing
this parameter improves the accuracy of the discovered motor speed but increases the braking influence of the speed search on the
rotating motor.

Search Boost

0315

Parameters::Motor Control::Flycatching

40.0

0.0 to 50.0

ALWAYS

Only under VHz control

Parameter Reference

D-83

Parameter Name

No.

Path

Default

Range

Units

Writable

The level of search boost applied to the motor during the speed search phase of the flycatching sequence.

Search Time

0316

Parameters::Motor Control::Flycatching

3.000

0.100 to 60.000

ALWAYS

Only under VHz Control

The search rate during the speed search phase of the flycatching sequence. Performing the flycatching speed search too quickly can
cause the drive to inaccurately identify the motor speed. Refluxing at an inaccurate motor speed can cause the drive to trip on
overvoltage. If this occurs, increasing this parameter will reduce the risk of tripping.

Min Search Speed

0317

Parameters::Motor Control::Flycatching

0 to 500

ALWAYS

Only under VHz Control

The lowest search speed before the speed search phase of the flycatching sequence is considered to have failed.

Flying Reflux Time

0318

Parameters::Motor Control::Flycatching

2.000

0.100 to 10.000

ALWAYS

Only under VHz Control

The rate of rise of volts from the search level to the working level after a successful speed search. Refluxing the motor too quickly can
cause the Drive to trip on either overvoltage or overcurrent. In either case, increasing this parameter will reduce the risk of tripping.

Functional Description

The flycatching function enables the drive to be restarted smoothly into a spinning motor. It applies small search voltages to the motor whilst ramping
the Drive frequency from maximum speed to zero. When the motor load goes from motoring to regenerating, the speed search has succeeded and
is terminated. If the search frequency falls below the minimum search speed, the speed search has failed and the Drive will ramp to the speed
setpoint from zero.
The flycatching sequence can be triggered by different starting conditions:

ALWAYS:

All starts (after controlled or uncontrolled stop, or after a power-up)

TRIP or POWER-UP:

After uncontrolled stop, i.e. trip or coast, or after a power-up

TRIP:

After uncontrolled stop, i.e. trip or coast

The type of speed sequence may be Bi-directional or Unidirectional:

Bi-directional

Initially, the search is performed in the direction of the speed setpoint. If the drive fails to identify the motor speed in this direction, a second speed
search is performed in the reverse direction.

Unidirectional

The search is performed only in the direction of the speed setpoint.

D-84

Parameter Reference

General Purpose IO

Monitor::Inputs and Outputs
Parameters::Option IO::General Purpose IO

The General Purpose IO parameters configure the use of the four IO Options. This group of parameters is only visible when an IO Option is selected.

Parameter Name

No.

Path

Default

Range

Units

Writable

Anin 11 Value

1181

Monitor::Inputs and Outputs
Parameters::Option IO::General Purpose
IO

x.xx

-100.00 to 100.00

NEVER

(Terminal X21.2) - The input value expressed as a percentage of range, (+/- 100%), following Offset and Scale.

Anin 12 Value

1182

Same as PNO 1181

x.xx

-100.00 to 100.00

NEVER

(Terminal X21.3) - The input value expressed as a percentage of range, (+/- 100%), following Offset and Scale.

Anin 13 Value

1183

Same as PNO 1181

x.xx

-100.00 to 100.00

NEVER

(Terminal X21.4) - The input value expressed as a percentage of range, (+/- 100%), following Offset and Scale.

Anin 11 Offset

1461

Setup::Inputs and Outputs::Option
Parameters::Option IO::General Purpose
IO

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range. For example an offset of 10% is equivalent to 1V on the input.

The offset is added to the measured value.

Anin 11 Scale

1462

Same as PNO 1461

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor. The input voltage is converted to a percentage value.

1461 Anin 11 Offset

is added and the

result is multiplied by Scale. The result is presented in parameter

1181 Anin 11 Value

Anin 12 Offset

1463

Same as PNO 1461

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range. For example an offset of 10% is equivalent to 1V on the input.

The offset is added to the measured value.

Parameter Reference

D-85

Parameter Name

No.

Path

Default

Range

Units

Writable

Anin 12 Scale

1464

Same as PNO 1461

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor. The input voltage is converted to a percentage value.

1463 Anin 12 Offset

is added and the

result is multiplied by Scale. The result is presented in parameter

1182 Anin 12 Value

Anin 13 Offset

1465

Same as PNO 1461

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range. For example an offset of 10% is equivalent to 1V on the input.

The offset is added to the measured value.

Anin 13 Scale

1466

Same as PNO 1461

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor. The input voltage is converted to a percentage value.

1465 Anin 13 Offset

is added and the

result is multiplied by Scale. The result is presented in parameter

1183 Anin 13 Value

RTC Trim

1187

Parameters::Option IO::General Purpose
IO

-40 to 40

ALWAYS

A trim value that may be used to speed up or slow down the Real Time Clock on the IO option. A positive trim value will cause the RTC
to run faster, an negative value causes the RTC to run slower. Refer to the AC30V General Purpose I/O Option manual for more
details.

Once programmed, the RTC trim affects the operation of the RTC both in battery backed up mode and normal running mode.

Analog input Scale and Offset

The input signal is converted to a percentage of the hardware range, that is -10V…10V is represented as -100 to 100%. The Offset is then added to
this input and the result of this is multiplied by the Scale factor. The result is presented in the Value parameter.

Offset %

Input

-100...100%

Scale

Value

D-86

Parameter Reference

Graphical Keypad

Setup::Environment
Parameters::Keypad::Graphical Keypad

Parameter Name

No.

Path

Default

Range

Units

Writable

View Level

1141

Parameters::Keypad::Graphical Keypad

Same as PNO 945

ALWAYS

The view level may be used as a convenient method to hide menus and parameters not currently required. The view levels are:

0.  Operator – only the “Control Screen”, “Favourites”, “Setup” and “Monitor” menus are visible.
1.  Technician – additional menus are visible in the “Setup” and “Monitor” menus
2.  Engineer – the “Parameters” menu is visible in addition to the above.

Startup Page

0982

Setup::Environment
Parameters::Keypad::Graphical Keypad

0:DEFAULT
1:CONTROL SCREEN
2:FAVOURITES
3:MONITOR

ALWAYS

On power-up the GKP briefly displays the drive name, rating and software version. After a short timeout the display automatically
changes to the menu defined here

0.  Default
1.  Control Screen
2.  Favourites
3.  Monitor

When Startup Page is set to “Default” the first menu will be:

The “Control Screen” menu if the drive is in local sequencing mode, otherwise

The “Favourites” menu if the Favourites menu is not empty, otherwise

The “Monitor” menu.

Display Timeout

0983

Same as PNO 982

0.000

0.000 to 86400.000

ALWAYS

When the GKP is idle, (no keys pressed), for a period longer than the Display Timeout, the display will automatically revert to the
menu defined in the Startup Page parameter.

Setting the Display Timeout to zero defeats this feature.

Parameter Reference

D-87

Parameter Name

No.

Path

Default

Range

Units

Writable

GKP Password

1142

Setup::Environment
Parameters::Keypad::Graphical Keypad

0000

ALWAYS

Defines the password to be entered to allow modification to parameters using the GKP. This password does not affect access via the
web page. A value of 0000, (the default value), inhibits the password feature. Entering a value other than 0000 causes the GKP to
prompt for the password before proceeding to the parameter edit mode.

Once a password has been entered the GKP remains unlocked. To re-lock the password return to the top of the menu tree then press
Soft Key 1.

Password in Favourite

1097

Parameters::Keypad::Graphical Keypad

FALSE

ALWAYS

When the GKP Password is active this parameter may be used to selectively defeat the password feature in the Favourites menu. By
default this parameter is FALSE, meaning that the password is ignored when modifying Favourites parameters.

Password in Local

1098

Parameters::Keypad::Graphical Keypad

FALSE

ALWAYS

When the GKP Password is active this parameter may be used to selectively defeat the password feature in the Control Screen menu.
By default this parameter is FALSE, meaning that the password is ignored when modifying the Local Setpoint and other related
parameters.

Technician Password

1099

Parameters::Keypad::Graphical Keypad

0000

ALWAYS

The password required to change from Operator View level to Technician View Level. If this is zero then no password is required.

Engineer Password

1637

Parameters::Keypad::Graphical Keypad

0000

ALWAYS

The password required to change from Operator or Technician View level to Engineer View Level. If this is zero then no password is
required.

Version

1143

Parameters::Keypad::Graphical Keypad

NEVER

Indicates the firmware version of the attached GKP.

D-88

Parameter Reference

Parameter Name

No.

Path

Default

Range

Units

Writable

Soft Key 2 Mode

1794

Parameters::Keypad::Graphical Keypad

0:LOCAL / REMOTE
1:FORWARD / REVERSE
2:CUSTOM

ALWAYS

Configures the use of Soft Key 2 when the GKP is being used to navigate through menus or parameters. When the GKP is being used
to edit a parameter, or is showing the Welcome page the use of Soft Key 2 is pre-defined, as detailed in section 7.

•

LOCAL / REMOTE:

The key may be used to change the sequencing mode of the drive. When 1253 Local/Rem Key Active is

FALSE this feature is disabled.

•

FORWARD / REVERSE: The key may be used to change the direction of rotation of the drive. The icon shown above the icon
indicates the direction that will be selected on pressing the key. This setting only applies in Local sequencing mode and when 1255
Local Dir Key Active is TRUE.

•

CUSTOM:

The key may be used to toggle 1795 Soft Key 2 Value. The icon shown above the soft key indicates the

present state of this parameter.

Soft Key 2 Value

1795

Parameters::Keypad::Graphical Keypad

FALSE

ALWAYS

A parameter that is driven by Soft Key 2 when 1794 Soft Key 2 Mode is set to CUSTOM. This may be used within the configuration to
allow keypad driven functionality.

Parameter Reference

D-89

Induction Motor Data

Setup::Motor Control::Induction Motor Data
Parameters::Motor Control::Induction Motor Data

Only available if IM MOTOR selected in

Control Mode

Parameter Name

No.

Path

Default

Range

Units

Writable

Magnetising Current

0568

Parameters::Motor Control::Induction
Motor Data

1.00

0.00 to 10000.00

ALWAYS

The no load current of the induction motor, defined as rotor flux / magnetising inductance, usually given the title "imr".

Rotor Time Constant

0569

Parameters::Motor Control::Induction
Motor Data

0.100

0.005 to 100.000

ALWAYS

Induction Motor rotor time constant.

Leakage Inductance

0570

Parameters::Motor Control::Induction
Motor Data

1.000

0.000 to 1000.000

ALWAYS

Induction motor leakage inductance. Displayed as star or delta equivalent value according to "Per Phase Parameters" setting.

Stator Resistance

0571

Parameters::Motor Control::Induction
Motor Data

0.0000

0.0000 to 100.0000

Ohm

ALWAYS

Induction motor stator resistance. Displayed as star or delta equivalent value according to "Per Phase Parameters" setting.

Mutual Inductance

0572

Parameters::Motor Control::Induction
Motor Data

100.00

0.00 to 10000.00

ALWAYS

Induction motor mutual inductance. Displayed as star or delta equivalent value according to "Per Phase Parameters" setting.

D-90

Parameter Reference

Inj Braking

Parameters::Motor Control::Inj Braking

Designed for VOLTS/Hz Motor Control Mode.

The injection braking feature provides a method of stopping spinning induction motors without returning the kinetic energy of the motor and load
back in to the dc link of the Drive. This is achieved by running the motor highly inefficiently so that all the energy stored in the load is dissipated in the
motor. Thus, high inertia loads can be stopped without the need for an external dynamic braking resistor.

Parameter Name

No.

Path

Default

Range

Units

Writable

DC Inj Deflux Time

0324

Parameters::Motor Control::Inj Braking

0.500

0.100 to 20.000

ALWAYS

Motor defluxed duration before starting injection braking

DC Inj Frequency

0325

Parameters::Motor Control::Inj Braking

1 to 500

ALWAYS

Max frequency applied to the motor

DC Inj Current Limit

0326

Parameters::Motor Control::Inj Braking

100.0

50.0 to 150.0

ALWAYS

Motor current value

DC Pulse Time

0327

Parameters::Motor Control::Inj Braking

2.000

0.000 to 100.000

ALWAYS

Duration of dc pulse for motor speed below 20% of base speed

Final DC Pulse Time

0328

Parameters::Motor Control::Inj Braking

1.000

0.000 to 10.000

ALWAYS

Duration of the final dc holding pulse

DC Current Level

0329

Parameters::Motor Control::Inj Braking

3.0

0.0 to 25.0

ALWAYS

Level of dc pulse applied

Parameter Reference

D-91

Parameter Name

No.

Path

Default

Range

Units

Writable

DC Inj Timeout

0330

Parameters::Motor Control::Inj Braking

90.000

0.000 to 600.000

ALWAYS

Maximum time in the low frequency injection braking state

DC Inj Base Volts

0331

Parameters::Motor Control::Inj Braking

100.00

0.00 to 115.47

ALWAYS

Maximum volts applied at base speed

Note: DC injection braking procedure has higher percentage of successful stoppages for the lower power range (frames D-G), than at higher power
range (frames H-K).

D-92

Parameter Reference

IO Configure

Setup::Inputs and Outputs
Parameters::Inputs And Outputs::IO Configure

These parameters are used to configure the input signal processing.

Parameter Name

No.

Path

Default

Range

Units

Writable

Anin 01 Type

0001

Setup::Inputs and Outputs::Base IO
Parameters::Inputs And Outputs::IO
Configure

0:-10..10 V
1:0..10 V
2:0..20 mA
3:4..20 mA

ALWAYS

Analog input 1 is associated with terminal X11.1

The signal processing electronics for analog input 1 supports four input ranges.

Anin 01 Offset

0957

Setup::Inputs and Outputs::Base IO
Parameters::Inputs And Outputs::IO
Configure

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range selected by

0001 Anin 01 Type

. For example, with the 4..20mA range

an offset of 10% is equivalent to 1.6mA on the input.

The offset is added to the measured value.

Anin 01 Scale

0958

Same as PNO 957

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor. The input voltage or current is converted to a percentage value.

0957 Anin 01 Offset

added and the result is multiplied by

0958 Anin 01 Scale

. The result is presented in parameter

0039 Anin 01 Value

Anin 02 Type

0002

Same as PNO 1

0:-10..10 V
1:0..10 V

ALWAYS

Analog input 2 is associated with terminal X11.2

The signal processing electronics for analog input 2 supports two input ranges.

Parameter Reference

D-93

Parameter Name

No.

Path

Default

Range

Units

Writable

Anin 02 Offset

0959

Same as PNO 957

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range selected by

0002 Anin 02 Type

. For example, with the -10..10V range

an offset of 10% is equivalent to 1v on the input.

The offset is added to the measured value.

Anin 02 Scale

0960

Same as PNO 957

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor. The input voltage is converted to a percentage value.

0959 Anin 02 Offset

is added and the

result is multiplied by

0960 Anin 02 Scale

. The result is presented in parameter

0041 Anin 02 Value

Anout 01 Type

0003

Same as PNO 1

Same as PNO 2

ALWAYS

Analog output 1 is associated with terminal X11.3

The signal processing electronics for analog output 1 supports two output ranges:

-10..10V

0..10V

Anout 01 Scale

0686

Setup::Inputs and Outputs::Base IO
Parameters::Inputs And Outputs::IO
Configure

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor applied to

0042 Anout 01 Value

Anout 01 Offset

1108

Setup::Inputs and Outputs::Base IO
Parameters::Inputs And Outputs::IO
Configure

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range selected by

0003 Anout 01 Type

. For example, with the -10..10V

range an offset of 10% is equivalent to 1v on the output.

The demand value

0042 Anout 01 Value

is multiplied by

0686 Anout 01 Scale

then added to the Offset. The resultant value is then

limited to -100 to 100%, (for the -10..10V type) or 0..100%, (for the 0..10V range).

D-94

Parameter Reference

Parameter Name

No.

Path

Default

Range

Units

Writable

Anout 01 ABS

1441

Setup::Inputs and Outputs::Base IO
Parameters::Inputs And Outputs::IO
Configure

FALSE

ALWAYS

When ABS is set TRUE, the absolute value of the result of combining

0042 Anout 01 Value

0686 Anout 01 Scale

and

1108 Anout 01 Offset

is used to drive the output electronics.

Anout 02 Type

0004

Same as PNO 1

1:0..10 V
2:0..20 mA
3:4..20 mA

ALWAYS

Analog output 1 is associated with terminal X11.4

The signal processing electronics for analog output 2 supports the three output ranges

Anout 02 Scale

1460

Same as PNO 1441

1.0000

Min to Max

ALWAYS

The scale is a simple multiplication factor applied to

0043 Anout 02 Value

Anout 02 Offset

1467

Same as PNO 1441

0.00

Min to Max

ALWAYS

The offset is expressed as a percentage of the hardware range selected by

0004 Anout 02 Type

. For example, with the 4..20mA

range an offset of 10% is equivalent to 1.6mA on the output.

The demand value

0043 Anout 02 Value

is multiplied by

1460 Anout 02 Scale

then added to the Offset. The resultant value is then

limited to 0..100%.

Anout 02 ABS

1468

Same as PNO 1441

FALSE

ALWAYS

When ABS is set TRUE, the absolute value of the result of combining

0043 Anout 02 Value

1460 Anout 02 Scale

and

1467 Anout 02 Offset

is used to drive the output electronics.

Parameter Reference

D-95

Functional Description

The values associated with each terminal are shown in the

IO Values

parameter (D-61).

Analog input

The input signal is converted to a percentage of the selected hardware range. For the -10V…10V range the input is represented as -100 to 100%, for
all other ranges the input is represented as 0 to 100%. The Offset value is then added to this input and the result of this is multiplied by the scale
factor. The result is presented in the Value parameter.

Offset %

Input

0...100%

-100...100%

Scale

Value

Analog output

The output demand value is multiplied by Scale before being added to the Offset. If ABS is TRUE the absolute value of this result is used. The
output demand value is expressed as a percentage of the selected range.

Scale

Value %

Offset

ABS

Demand

0...100%

-100...100%

Result

D-96

Parameter Reference

IO Option Common

Parameters::Option IO:: Option IO

Parameter Name

No.

Path

Default

Range

Units

Writable

Option IO Required

1178

Setup::Inputs and Outputs::Option
Parameters::Option IO::Option IO

0:NONE
1:GENERAL PURPOSE
2:THERMISTOR
3:RTC AND THERMISTOR
4:PULSE ENCODER

5:RESOLVER AND THERMIST

CONFIG

Defines the type of IO option required by the configuration.

Option IO Fitted

1179

Parameters::Option IO::Option IO

0:NONE
1:GENERAL

PURPOSE

2:THERMISTOR

3:RTC AND THERMISTOR

4:PULSE ENCODER

5:RESOLVER AND THERMIST

NEVER

Indicates the type of IO option that is currently fitted

Option IO Diagnostic

1180

Parameters::Option IO::Option IO

0:OK
1:OPTION NOT FITTED
2:TYPE MISMATCH
3:TYPE UNKNOWN
4:HARDWARE FAULT

NEVER

Indicates the status of the IO option

Parker Variable Speed Drive AC30 series. User’s Manual (2017) - page 24