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Invertek Drives eco OPTIDRIVE, Advanced User'S Manual

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Optidrive Eco Advanced User Guide Revision 1.00 

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1.4.3.

 

Data Source Selection Parameters 

Data Source selection parameters define the signal source for analog signals used within the drive, or example speed and torque setpoints. 
These parameters can be linked to analog values within the drive. 
 
Parameters defined as Data Sources have the following range of possible settings:- 
Programmable Logic Source Selection Options 

No. 

Drive LED 

Display 

Drive OLED 

Display 

Setting 

Reference Source 



Analog Input 1 

Analog Input 1 

Analog Input 1 Signal Level (P0-01) 



Analog Input 2 

Analog Input 2 

Analog Input 2 Signal Level (P0-02) 



Preset Speed 

Preset Speed 

Selected Preset Speed 



Keypad Speed 

Keypad (Motorised Pot) 

Keypad Speed Reference (P0-06) 



PID Speed 

PID Controller Output 

PID Controller Output (P0-10) 



Master Speed 

Master Speed Reference 

Master Speed Reference (Master / Slave Operation) 



Fieldbus Speed 

Fieldbus Speed Reference 

Fieldbus Speed Reference PDI2 



User Speed Ref 

User Defined Speed Reference 

User Defined Speed Reference ( Function Block Program) 



Frequency Input 

Frequency Input 

Pulse Frequency Input Reference 



Preset Speed 1 

Preset Speed 1 

Preset Speed 1 P2-01 

10 



Preset Speed 2 

Preset Speed 2 

Preset Speed 2 P2-02 

11 



Preset Speed 3 

Preset Speed 3 

Preset Speed 3 P2-03 

12 



Preset Speed 4 

Preset Speed 4 

Preset Speed 4 P2-04 

13 



Preset Speed 5 

Preset Speed 5 

Preset Speed 5 P2-05 

14 



Preset Speed 6 

Preset Speed 6 

Preset Speed 6 P2-06 

15 



Preset Speed 7 

Preset Speed 7 

Preset Speed 7 P2-07 

16 



Preset Speed 8 

Preset Speed 8 

Preset Speed 8 P2-08 

1.4.4.

 

Parameter Group 9 Descriptions 

Par. 

Name 

Minimum 

Maximum 

Default 

Units 

P9-01 

Enable Input Logic Source 
Defines the source of the Drive Enable function. This function must be provided by hardware, and is normally assigned to Digital Input 
1, and allows a hardware enable signal to be utilised in situations where for example the Run Forward or Run Reverse commands are 
applied from external sources, e.g. Fieldbus control signals or a Function Block Program. 
Logic 1 : Drive operation is allowed 
Logic 0 : Drive stops using deceleration ramp time selected by P9-26 & P9-27 

P9-02 

Fast Stop Input Logic Source 
Defines the Source of the Fast Stop Input. In response to a Fast Stop command, the drive stops using the deceleration time set in P2-
25. 
Logic 1 : Drive operation is allowed 
Logic 0 : Drive stops using the deceleration ramp time set in P2-25 

P9-03 

Run Forward Input Logic Source 
Defines the source of the Run Forward command. 
Logic 1 : Drive runs the motor in the forward direction of rotation 
Logic 0 : Drive stops using deceleration ramp time selected by P9-26 & P9-27 

P9-04 

Run Reverse Input Logic Source 
Defines the source of the Run Reverse command. 
Logic 1 : Drive runs the motor in the reverse direction of rotation 
Logic 0 : Drive stops using deceleration ramp time selected by P9-26 & P9-27 

Note 

When both the Run Forward and Run Reverse commands are applied to the drive simultaneously, the drive executes a Fast Stop. 

P9-05 

Latch Function Enable Logic Source 

0 : Disabled 
1 : Enabled. Enables the latching function of the digital inputs. 
The latching function allows momentary start signals to be used to start and stop the drive in either direction. In this case, the Enable 
Input Source (P9-01) must be linked to a normally closed / open to stop control source. This control source must be Logic ‘1’ to allow 
the drive to start. The drive will then respond to momentary or pulse start and stop signals as defined in parameters P9-03 and P9-04. 

P9-06 

Reverse Input Logic Source 
Defines the source of the Reverse command, which reverses the direction of motor rotation. 

Note 

The Reverse input only takes effect when the drive is operating in a Forward direction. Therefore 

 

Applying Run Forward & Reverse inputs simultaneously = Motor Runs Reverse 

 

Applying Run Reverse and Reverse inputs simultaneously = Motor Runs Reverse 

P9-07 

Reset Input Logic Source 
Defines the source of the Reset command. 
Logic 1 : Faults are reset on a rising edge of the Reset command. 
Logic 0 : No effect 
 
 

Summary of Contents for eco OPTIDRIVE

Page 1: ...Optidrive Eco Advanced User Guide Revision 1 00 Optidrive Eco Parameter Set Overview 1 AC Variable Speed Drive 0 75kW 250kW 1HP 350HP 200 480 Volt 1 3 Phase Advanced User Guide Revision 1 00...

Page 2: ...e time of release This user guide must be read in conjunction with the Optidrive Eco User Guide included with each product and in particular all relevant safety information and warnings The informatio...

Page 3: ...5 Parameter Group 0 Monitoring Parameters Read Only 25 1 6 P6 28 Value Selection 29 2 Diagnostic and Fault Messages 30 3 Immunity Tests 31 3 1 Electrostatic Discharge ESD 31 3 2 Electrical Fast Trans...

Page 4: ...c Read Write Group 2 P2 01 to P2 40 Extended Parameters Extended Read Write Group 3 P3 01 to P3 18 PID Controller Extended Read Write Group 4 P4 01 to P4 14 Motor Control Extended Read Write Group 5 P...

Page 5: ...d nameplate voltage of the motor Volts The factory default setting of this parameter is drive model dependent as follows All kW HP models intended for 200 240 volt operation e g ODV 3 x2xxx xxF1x xN F...

Page 6: ...from the fieldbus option module interface 5 Slave Mode The drive acts as a Slave to a connected Optidrive operating in Master Mode 6 BACnet MSTP Control Control via BACnet bus connected to the RJ45 s...

Page 7: ...requency reference applied to the drive is within the band the Optidrive output frequency will remain at the upper or lower limit of the band P2 11 Analog Output 1 Terminal 8 Function Select 0 12 8 Di...

Page 8: ...ve and no fault exists 2 At Target Frequency Speed Logic 1 when the output frequency matches the setpoint frequency Hysterisis is applied defined by P6 04 3 Output Frequency 0 0 Hz Logic 1 when the dr...

Page 9: ...rror Limit Logic 1 when the PID Error exceeds the adjustable threshold 15 High or Low load detected Logic 1 when the output current falls outside of the load monitoring profile See P8 06 to P8 08 P2 1...

Page 10: ...e signal level falls below 3mA 4 to 20mA Signal In the event that the signal falls below 3mA the Optidrive will ramp operate at Preset Speed 4 20 to 4mA Signal the Optidrive will trip and show the fau...

Page 11: ...Speed 4 P2 04 4 Minimum Speed Terminal Start Following a stop and restart the drive will always initially run at the minimum speed P1 02 The drive starting is controlled from the digital inputs based...

Page 12: ...applied to the Analog Input 1 P3 10 PID Feedback Signal Source Select 0 5 0 0 Analog Input 2 1 Analog Input 1 2 Motor Current The feedback value is scaled such that 100 0 P1 08 3 DC bus voltage The fe...

Page 13: ...gain value for the speed controller when operating in Vector Speed or Vector Torque motor control modes P4 01 0 or 1 Higher values provide better output frequency regulation and response Too high a va...

Page 14: ...put 1 status bit 1 indicates digital input 2 status etc 3 Analog Input 2 Signal Level 0 to 1000 0 to 100 0 4 Drive Heatsink Temperature 0 to 100 0 to 100 C 5 User Register 1 6 User Register 2 7 P0 80...

Page 15: ...s option to be used P9 38 must be set to 1 and the PID User setpoint must not be utilised within any Function Block Code 2 User register 3 The value received by the drive in PDI 3 is transferred to Us...

Page 16: ...d into the drive to operate When set to 0 the Function Block Program will be disabled P6 11 Speed Holding Time on Enable 0 250 0 s Defines a time period for which the drive will run at Preset Speed 7...

Page 17: ...A higher value may cause a significant distortion in the motor current which may cause an aggressive rough motor behaviour P7 10 System Inertia Constant 0 600 10 System Load Inertia to Motor Inertia...

Page 18: ...arameter enables the Load Profile Monitoring Function load current monitoring which can be used to detect belt failure in belt driven fan applications or Dry Pump Pump Blockage or broken impeller in P...

Page 19: ...mber of assist pumps P8 14 1 or network slave drives P8 14 2 that are available in the Pump Staging application Setting the value to 0 disables Pump Staging P8 16 Pump Duty Switch Over Time 0 1000 0 H...

Page 20: ...ng on their state Parameters defined as logic sources have the following range of possible settings No Drive LED Display Drive OLED Display Function 0 Off Safe Function permanently disabled or where a...

Page 21: ...n Forward or Run Reverse commands are applied from external sources e g Fieldbus control signals or a Function Block Program Logic 1 Drive operation is allowed Logic 0 Drive stops using deceleration r...

Page 22: ...d restart P9 18 Speed Reference Select Bit 0 Logic Source P9 19 Speed Reference Select Bit 1 Logic Source P9 20 Speed Reference Select Bit 2 Logic Source Note The active speed setpoint source can be s...

Page 23: ...n Module Drive Tripped Relay 5 Cascade Option Module Drive Running 1 Relay Output 1 Function set by User Defined Source P9 42 Clean Trigger Input Edge Trigger 0 25 0 This parameter defines the source...

Page 24: ...for various internal protection and monitoring functions P0 17 Stator Resistance Rs Ohms Displays the measured motor stator resistance providing an auto tune has been successfully completed P0 19 Casc...

Page 25: ...ay shows user resettable time reset with P6 22 Second display shows none resettable time This is used for scheduled maintenance information P0 36 DC Bus Voltage Log 256ms Volts Diagnostic log for DC b...

Page 26: ...alue in use for output relay settings that use hysteresis defined by P6 04 P0 62 Fire Mode Total Acitvation Counter Specifies the total number of times that Fire Mode has been activated on the drive P...

Page 27: ...ltage Volts Displays the supply voltage measured between L2 and L3 terminals for indication to the user P0 76 L3 L1 Input Voltage Volts Displays the supply voltage measured between L3 and L1 terminals...

Page 28: ...a 123 Function Block Program Cycle Time R Data 32 User analog output 1 RW Data 124 Function Block Program ID R Data 33 User analog output 2 RW Data Reserved R 34 Reserved RW Data 130 kWh meter user re...

Page 29: ...s trip P LOSS 14 Input phase loss trip SC F05 54 BACnet comms loss trip h O I 15 Instantaneous over current on drive output SC F06 55 Reserved th Flt 16 Faulty thermistor on heatsink SC F07 56 Reserve...

Page 30: ...e as defined in EN 61000 4 4 2004 Test points Test Method Level Control Terminals Capacitive clamp 1kV at 5kHz Motor Power Terminals Capacitive clamp 2kV at 5kHz 1 PH Supply Power Terminals Coupling D...

Page 31: ...Time Four individual deceleration ramps 0 600 seconds 0 01s resolution Frame 2 3 0 6000 seconds 0 1s resolution Frame 4 above 4 1 3 Overload Capacity Overload Capacity 110 of rated current for 60 seco...

Page 32: ...5 Maximum non condensing 4 3 4 Vibration Levels Bump Test Testing in each of three mutually perpendicular axes in turn Reference standard IEC 60068 2 29 Severity 18g 6ms half sine No of bumps 600 100...

Page 33: ...Current P1 08 The accumulator value reduces towards zero The time required depends on the actual load current as explained further below Motor Current 100 P1 08 The accumulator value remains static M...

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