ABB ACS880 Firmware Manual
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ABB ACS880 Firmware Manual

ABB ACS880 Firmware Manual

Diode supply control program
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ABB INDUSTRIAL DRIVES
ACS880 diode supply control program
(YDILX)
Firmware manual

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Summary of Contents for ABB ACS880

  • Page 1 — ABB INDUSTRIAL DRIVES ACS880 diode supply control program (YDILX) Firmware manual...
  • Page 2 — List of related manuals General manuals Code (English) ACS880 multidrives cabinets and modules safety 3AUA0000102301 instructions ACS880 liquid-cooled multidrives cabinets and modules 3AXD50000048633 safety instructions Option manuals ACS-AP-I, -S, -W and ACH-AP-H, -W assistant control 3AUA0000085685 panels user’s manual Drive composer start-up and maintenance PC tool user’s...
  • Page 3 ACS880 diode supply control program (YDILX) Firmware manual Table of contents 2. Start-up 3AXD50001096489 Rev A EFFECTIVE: 2023-12-31...

  • Page 5: Table Of Contents

    Table of contents 1. Introduction to the manual Contents of this chapter ............9 Applicability .
  • Page 6 Communication ............26 Settings .
  • Page 7 119 Operation mode ............90 120 Start/stop .
  • Page 8 8. Fieldbus control through a fieldbus adapter Contents of this chapter ........... 189 System overview .

  • Page 9: Introduction To The Manual

    This chapter describes the contents of the manual. It also contains information on the compatibility, safety and intended audience. Applicability This manual applies to the ACS880 diode supply control program (YDILX v1.1x or later). ACS880-304 +A018 is an air-cooled, half-controlled diode-thyristor module which is equipped with three thyristors in upper legs and three diodes in lower legs of the six pulse bridge.

  • Page 10: Safety Instructions

    Hardware manual of your supply unit and in ACS880 multidrives cabinets and modules safety instructions (3AUA0000102301 [English]) for air-cooled modules, and in ACS880 liquid-cooled multidrives cabinets and modules safety instructions (3AXD50000048633 [English]) for liquid-cooled modules. • Read the software function specific warnings and notes before changing the default settings of the function.

  • Page 11: Terms And Abbreviations

    Relay output; interface for a digital output signal. Implemented with a relay. Safe torque off Type of a control unit used in ACS880 drives that consists of a UCON board built into a metal housing. UCU control unit is used with diode supply modules.

  • Page 12: Cybersecurity Disclaimer

    The secure boot system authenticates all software executables including boot binary, control firmware, and FPGA logic. The system runs executables produced and signed by ABB. A secured boot is accomplished by using the hardware root of a trusted boot mechanism. An access control procedure is applied to software production that involves signing operations.

  • Page 13: Removing Control Tokens From The Drive

    Introduction to the manual 13 Removing control tokens from the drive  To remove all active control tokens from the drive, activate any bit in parameter 107.63 Remove all Control Tokens. The control tokens are removed after rebooting the control unit.
  • Page 14 14 Introduction to the manual...

  • Page 15: Start-Up

    Start-up 15 Start-up In case of DxT diode supply module, the user needs to set the parameter 195.01 Supply voltage before start-up. See the appropriate supply unit hardware manual, or drive hardware manual for the hardware-related tasks to be done at the start-up. If the supply unit consists of more than one DxT diode supply module, set parameter 195.31 Parallel connection rating id.
  • Page 16 16 Start-up...

  • Page 17: Using The Control Panel

    Using the control panel 17 Using the control panel Refer to ACS-AP-I, -S, -W and ACH-AP-H, -W assistant control panels user’s manual (3AUA0000085685 [English]).
  • Page 18 18 Using the control panel...

  • Page 19: Program Features

    Contents of this chapter This chapter describes the features and I/O interface of the diode supply control program. Overview of the control program ACS880 diode supply control program can be used to control DxT supply module (air-cooled module of type ACS880-304 +A018).

  • Page 20: Dxt Module

    20 Program features DxT module  The control program of diode-thyristor module runs on a UCU control unit. The control program controls the main contactor or breaker (if present) and the firing pulses of the thyristors. The control program can control: •...

  • Page 21: Programming Via Parameters

    Program features 21 Programming via parameters Parameters can be set via • the control panel, as described in chapter Using the control panel • the Drive composer PC tool, or • the fieldbus interface, as described in chapter Fieldbus control through a fieldbus adapter.

  • Page 22: Control Locations For Start/Stop

    Control locations for start/stop Local control vs. external control  The ACS880 has two main control locations: external and local. The control location is selected with the Loc/Rem key on the control panel or in the PC tool. External control...

  • Page 23: Run Enable, Start/Stop And Start Enable Control

    WARNING! Do not change the parameter settings related to Run enable, Start/Stop or Start enable unless you are absolutely sure what you are doing. The parameter settings and I/O wirings of the cabinet-installed multidrive, ACS880-307, are done at the factory according to the application requirements. Settings and diagnostics ...

  • Page 24: Application Programming

    24 Program features Application programming Note: This feature is not supported by the current firmware version. The functions of the firmware program can be extended with application programming. (A standard drive delivery does not include an application program.) Application programs can be built out of function blocks based on the IEC-61131 standard.

  • Page 25: Settings

    Program features 25 Settings Parameter group 110 Standard DI, RO (page 53). Programmable I/O extensions  The number of inputs and outputs can be increased by using I/O extension modules. The I/O configuration parameters include the maximum number of DI, DIO, AI, AO and RO that can be in use with different I/O extension module combinations.

  • Page 26: External Controller Interface

     General The diode supply unit can be connected to an external controller (such as the ABB AC 800M) using either fiber optic or twisted-pair cable. The ACS880 is compatible with both the ModuleBus and DriveBus connections. Note that some features of DriveBus (such as BusManager) are not supported.

  • Page 27: Settings

    Program features 27 By default, data sets 32 and 33 are dedicated for the mailbox service, which enables the setting or inquiry of parameter values as follows: Controller ACS880 Parameter write to DSU Transmit address Data set Par. Value Value = 37653* 3 2 .

  • Page 28: Ddcs Communication With Inverter Unit

    (in the inverter unit). For the supply modules, the system integrator can acquire the necessary cables and adapters for the physical link of the DDCS communication from ABB and install and set up the link on his/her own. Consult ABB for more information.

  • Page 29: Programmable Protection Functions

    Program features 29 Programmable protection functions External events (parameters 131.01…131.10)  An external event signal can be connected to a selectable input. When the signal is lost, an external event (fault, warning, or a mere log entry) is generated. Local control loss detection (parameter 149.05) ...

  • Page 30: Additional Settings And Diagnostics For Dxt Modules

    30 Program features Warnings: AE60 Control board temperature Fault: 4E06 Cabinet temperature fault, 4E07 Control board temperature Additional settings and diagnostics for DxT modules  Parameters: 101.31 Ambient temperature, 105.11 Converter temperature % Warnings: AE14 Excess temperature, AE15 Excess temperature difference, AE60 Control board...

  • Page 31: Load Analyzer

    Program features 31 Load analyzer Peak value logger  The user can select a signal to be monitored by a peak value logger. The logger records the peak value of the signal along with the time the peak occurred, as well as line current, DC voltage and power at the time of the peak.

  • Page 32: Default I/O Connection Diagram (Ucu)

    32 Program features Default I/O connection diagram (UCU) Terminal Description XD2D Drive-to-drive link D2D_B D2D_A Drive-to-drive link (not in use by default) BGND SHIELD XD2D TERM Drive-to-drive link termination switch X485 RS485 connection Not in use (not in use by default) BGND SHIELD X485 BIAS...
  • Page 33 Program features 33 Terminal Description Analog outputs Zero 0…20 mA, < 500 ohm AGND Zero 0…20 mA, < 500 ohm AGND XPOW External power input +24V 24 V DC, 2.05 A +24V XFSO Safety functions module connection (not in use in supply units) XETH1 Ethernet ports for fieldbus.

  • Page 34: Charging Of Dxt Supply Unit

    34 Program features Charging of DxT supply unit The main difference between the ordinary diode-diode bridge and the controlled diode-thyristor bridge is the controllability. You cannot control the operation of the diodes but you can control the thyristors: thyristor can be kept blocked or controlled conductive in forward direction.

  • Page 35: Reduced Run Function

    Program features 35 Reduced run function Reduced run function is available for diode supply units consisting of parallel- connected diode supply modules. The function makes it possible to continue operation with limited current even if one (or more) module is out of service, for example, because of maintenance work.

  • Page 36: Activation Of The Reduced Run Function

    Activation of the reduced run function  Note: For cabinet-built drives, the wiring accessories and the air baffle needed during the procedure are available from ABB, and are included in the delivery. WARNING! Follow the safety instructions provided for the diode supply unit in question.

  • Page 37: User Lock

    WARNING! ABB will not be liable for damages or losses caused by the failure to activate the user lock using a new pass code. See Cybersecurity disclaimer (page 12).
  • Page 38 38 Program features...

  • Page 39: Parameters

    Parameters 39 Parameters Contents of this chapter The chapter describes the parameters, including actual signals, of the control program. Terms and abbreviations Term Definition Actual signal Type of parameter that is the result of a measurement or calculation by the supply unit, or contains status information.
  • Page 40 40 Parameters Term Definition Parameter Either an user-adjustable operating instruction for the diode supply unit, or an actual signal. p.u. Per unit...

  • Page 41: Reserved Digital Inputs And Relay Outputs

    Reserved digital inputs and relay outputs Do not change the settings of the reserved digital inputs or relay outputs. For the cabinet-installed multidrive, ACS880-307, digital inputs and relay outputs are typically defined in use and connected to the appropriate control circuits already at the factory.
  • Page 42 42 Parameters Group Contents Page 162 DDCS receive Mapping of data received through the DDCS link. 190 Additional actual values Additional actual values of 6-pulse diode-thyristor bridge or modules connected to first winding of 12-pulse diode supply unit. 192 Additional actual Additional actual values of modules connected to second values 2 winding of 12-pulse diode supply unit.

  • Page 43: Parameter Listing

    Parameters 43 Parameter listing WARNING! Do not change any parameter settings unless you are absolutely sure what you are doing. The parameter settings and I/O wirings of the cabinet-installed multidrive are done at the factory according to the application requirements. Name/Value Description Def/FbEq16...

  • Page 44: Warnings And Faults

    44 Parameters Name/Value Description Def/FbEq16 101.70 Ambient DxT modules only: Ambient temperature of supply unit temperature in percent. 0…100% corresponds to 0…60 °C or 32…140 percent °F. See also 101.31 Ambient temperature. -200.00…200.00% Ambient temperature in percent. 1 = 1% 104 Warnings and faults Information on warnings and faults that occurred last.

  • Page 45: Diagnostics

    Parameters 45 Name/Value Description Def/FbEq16 104.17 2nd latest warning Code of the 2 stored warning. 0000h…FFFFh 1 = 1 stored warning. 104.18 3rd latest warning Code of the 3 stored warning. 0000h…FFFFh 1 = 1 stored warning. 104.19 4th latest warning Code of the 4 stored warning.

  • Page 46: Control And Status Words

    46 Parameters Name/Value Description Def/FbEq16 105.21 MCB closing time Counts the closures of the main circuit breaker (MCB). counter This parameter can be used for maintenance purposes. Depending on application, the maintenance interval of the main circuit breaker may vary. See the maintenance instructions of the main circuit breaker.
  • Page 47 Parameters 47 Name/Value Description Def/FbEq16 106.11 Main status word Main status word of the diode supply unit. Reflects the status of the supply unit irrespective of control source, eg. a fieldbus system, control panel (keypad), PC tool, standard I/O, application program or sequence programming, and irrespective of actual control profile which is used to control the supply unit.
  • Page 48 48 Parameters Name/Value Description Def/FbEq16 106.17 Drive status word Drive status word 2. This parameter is read-only. Name Description Reserved Supply phase order Phase order UVW is detected and the grid is rotating on expected direction. Supply phase order Phase order UWV is detected and the grid is rotating on unexpected direction.
  • Page 49 Parameters 49 Name/Value Description Def/FbEq16 106.25 Drive inhibit status Drive inhibit status word 2. This word specifies the word 2 source of the inhibiting signal that is preventing the unit from starting. See also parameters 106.18 Start inhibit status word, 106.16 Drive status word 1, bit 1.
  • Page 50 50 Parameters Name/Value Description Def/FbEq16 106.50 User status word 1 User status word 1. Name Description User status bit 0 106.60 User status word 1 bit 0 sel. User status bit 1 106.61 User status word 1 bit 1 sel. User status bit 2 106.62 User status word 1 bit 2 sel.
  • Page 51 Parameters 51 Name/Value Description Def/FbEq16 106.66 User status word 1 Selects a binary source whose status is transmitted as False bit 6 sel bit 6 of 106.50 User status word False True Other [bit] A specific bit in another parameter. 106.67 User status word 1 Selects a binary source whose status is transmitted as...

  • Page 52: System Info

    52 Parameters Name/Value Description Def/FbEq16 107 System info Hardware and firmware information. All parameters in this group are read-only. 107.03 Drive rating id DxT modules only: Type of the diode supply unit. 107.04 Firmware name Firmware identification. 107.05 Firmware version Version number of the firmware.

  • Page 53: Standard Di, Ro

    Parameters 53 Name/Value Description Def/FbEq16 107.64 Active control Defines active control tokens on the device. See section tokens 1 Control tokens on page 12. 0000h…FFFFh Active control tokens. 1 = 1 110 Standard DI, RO Configuration of digital inputs and relay outputs. 110.01 DI status Status of digital inputs DIIL and DI6…DI1.
  • Page 54 54 Parameters Name/Value Description Def/FbEq16 110.07 DI2 ON delay Defines the activation delay for digital input DI2. 0.0 s Connected signal status DI status Time 110.07 DI2 ON delay 110.08 DI2 OFF delay 0.0 … 3000.0 s Activation delay for DI2. 10 = 1 s 110.08 DI2 OFF delay...
  • Page 55 Parameters 55 Name/Value Description Def/FbEq16 110.13 DI5 ON delay Defines the activation delay for digital input DI5. 0.0 s Connected signal status DI status Time 110.13 DI5 ON delay 110.14 DI4 OFF delay 0.0 … 3000.0 s Activation delay for DI5. 10 = 1 s 110.14 DI5 OFF delay...
  • Page 56 56 Parameters Name/Value Description Def/FbEq16 Warning Bit 7 of 106.11 Main status word (see page 47). Relay is energized when a warning is active. Fault Bit 3 of 106.11 Main status word (see page 47). Relay is energized when a fault is active. Bit 13 of 106.16 Drive status word 1 (see page 47).

  • Page 57: Standard Dio, Fi, Fo

    Parameters 57 Name/Value Description Def/FbEq16 0.0 … 3000.0 s Deactivation delay for RO2. 10 = 1 s 110.30 RO3 source Selects a signal to be connected to relay output RO3. For the available selections, see parameter 110.24 RO1 source. Note: For the cabinet-installed supply units, check the delivery-specific use from the delivery-specific circuit diagrams.
  • Page 58 58 Parameters Name/Value Description Def/FbEq16 0000h…FFFFh Status of digital input/outputs. 1 = 1 111.02 DIO delayed status Status of digital input/outputs DIO8…DIO1 after activation/deactivation delays. Bit 0 reflects the delayed status of DIO1. 0000h…FFFFh Delayed status of digital input/outputs. 1 = 1 111.05 DIO1 function Selects whether DIO1 is used as a digital output or input.
  • Page 59 Parameters 59 Name/Value Description Def/FbEq16 111.08 DIO1 OFF delay Defines the deactivation delay for digital input/output 0.0 s DIO1 when parameter 111.05 DIO1 function is set to Output. See parameter 111.07 DIO1 ON delay. 0.0 … 3000.0 s Deactivation delay for DIO1 when set as an output. 10 = 1 s 111.09 DIO2 function...

  • Page 60: Standard Ai

    60 Parameters Name/Value Description Def/FbEq16 111.42 Freq in 1 min Defines the minimum input frequency for frequency 0 Hz input 1. The incoming frequency signal (111.38 Freq in 1 actual value) is scaled into an internal signal (111.39 Freq in 1 scaled) by parameters 111.42…111.45 as follows:...
  • Page 61 Parameters 61 Name/Value Description Def/FbEq16 112.04 AI supervision Specifies the analog input limits to be supervised. See 0000b selection parameter 112.03 AI supervision function. Name Description AI1 < MIN 1 = Minimum limit supervision of AI1 active. AI1 > MAX 1 = Maximum limit supervision of AI1 active.
  • Page 62 62 Parameters Name/Value Description Def/FbEq16 112.19 AI1 scaled at AI1 Defines the real value of parameter 112.12 AI1 scaled 0.000 value that that corresponds to the minimum analog input AI1 value defined by parameter 112.17 AI1 min. 112.12 112.20 112.17 112.11 112.18 112.19...

  • Page 63: Standard Ao

    Parameters 63 Name/Value Description Def/FbEq16 112.29 AI2 scaled at AI2 Defines the real value of parameter 112.22 AI2 scaled 0.000 value that corresponds to the minimum analog input AI2 value defined by parameter 112.27 AI2 min. 112.22 scaled 112.30 112.27 112.28 112.21 112.29...
  • Page 64 64 Parameters Name/Value Description Def/FbEq16 113.17 AO1 source min Defines the real value of the signal (selected by parameter 113.12 AO1 source) that corresponds to the minimum AO1 output value (defined by parameter 113.19 AO1 out at AO1 src min). (mA) 113.20 113.19...
  • Page 65 Parameters 65 Name/Value Description Def/FbEq16 113.27 AO2 source min Defines the real value of the signal (selected by parameter 113.22 AO2 source) that corresponds to the minimum AO2 output value (defined by parameter 113.29 AO2 out at AO2 src min). (mA) 113.30 113.29...

  • Page 66: Extension I/O Module 1

    66 Parameters Name/Value Description Def/FbEq16 114 Extension I/O Configuration of I/O extension module 1. module 1 See also section Programmable I/O extensions (page 25). Note: The contents of the parameter group vary according to the selected I/O extension module type. 114.01 Module 1 type Activates (and specifies the type of) I/O extension...
  • Page 67 Parameters 67 Name/Value Description Def/FbEq16 0000b…1111b Status of digital input/outputs. 1 = 1 114.06 DI delayed status (Visible when 114.01 Module 1 type = FDIO-01) Displays the delayed status of the digital inputs on the extension module. The word is updated only after activation/deactivation delays (if any are specified).
  • Page 68 68 Parameters Name/Value Description Def/FbEq16 Fault (-1) Inverted bit 3 of 106.11 Main status word. Output is energized when a fault is not active. Bit 13 of 106.16 Drive status word 1 (see page 47). Output is energized when MCB closing command is given.
  • Page 69 Parameters 69 Name/Value Description Def/FbEq16 114.16 DIO2 output (Visible when 114.01 Module 1 type FIO-01 or FIO-11) source energized Selects a signal to be connected to digital input/output DIO2 when parameter 114.14 DIO2 configuration is set to Output. For the available selections, see parameter 114.11 DIO1 output source.
  • Page 70 70 Parameters Name/Value Description Def/FbEq16 114.20 AI supervision (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) 0000h selection Specifies the analog input limits to be supervised. See parameter 114.19 AI supervision function. Name Description AI1 < MIN 1 = Minimum limit supervision of AI1 active. AI1 >...
  • Page 71 Parameters 71 Name/Value Description Def/FbEq16 00000000h … Forced values selector for analog inputs. 1 = 1 FFFFFFFFh 114.23 DI3 OFF delay (Visible when 114.01 Module 1 type = FDIO-01) 0.00 s Defines the deactivation delay for digital input DI3. See parameter 114.12 DI1 ON delay.
  • Page 72 72 Parameters Name/Value Description Def/FbEq16 114.28 AI1 force data (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) Forced value that can be used instead of the true reading of the input. See parameter 114.22 AI force sel. -22.000 … 22.000 Forced value of analog input AI1.
  • Page 73 Parameters 73 Name/Value Description Def/FbEq16 114.32 AI1 filter time (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) 0.040 s Defines the filter time constant for analog input AI1. Unfiltered signal Filtered signal O = I × (1 - e I = filter input (step) O = filter output = time...
  • Page 74 74 Parameters Name/Value Description Def/FbEq16 114.35 AI1 scaled at AI1 (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) 0.000 Defines the real value that corresponds to the minimum analog input AI1 value defined by parameter 114.33 AI1 min. (114.27) scaled 114.36 (114.26)
  • Page 75 Parameters 75 Name/Value Description Def/FbEq16 114.41 AI2 actual value (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) Displays the value of analog input AI2 in mA or V (depending on whether the input is set to current or voltage). This parameter is read-only.
  • Page 76 76 Parameters Name/Value Description Def/FbEq16 114.47 AI2 filter time (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) 0.100 s Defines the filter time constant for analog input AI2. Unfiltered signal Filtered signal O = I × (1 - e I = filter input (step) O = filter output = time...
  • Page 77 Parameters 77 Name/Value Description Def/FbEq16 114.56 AI3 actual value (Visible when 114.01 Module 1 type = FIO-11) Displays the value of analog input AI3 in mA or V (depending on whether the input is set to current or voltage). This parameter is read-only. -22.000 …...
  • Page 78 78 Parameters Name/Value Description Def/FbEq16 114.62 AI3 filter time (Visible when 114.01 Module 1 type = FIO-11) 0.100 s Defines the filter time constant for analog input AI3. Unfiltered signal Filtered signal O = I × (1 - e I = filter input (step) O = filter output = time T = filter time constant...
  • Page 79 Parameters 79 Name/Value Description Def/FbEq16 114.71 AO force selection (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) 00000000h The value of the analog output can be overridden for eg. testing purposes. A forced value parameter (114.78 AO1 force data) is provided for the analog output, and its value is applied whenever the corresponding bit in this parameter is 1.
  • Page 80 80 Parameters Name/Value Description Def/FbEq16 114.80 AO1 source min (Visible when 114.01 Module 1 type FIO-11 or FAIO-01) Defines the real value of the signal (selected by parameter 114.77 AO1 source) that corresponds to the minimum AO1 output value (defined by parameter 114.82 AO1 out at AO1 src min).
  • Page 81 Parameters 81 Name/Value Description Def/FbEq16 114.87 AO2 source (Visible when 114.01 Module 1 type = FAIO-01) Zero Selects a signal to be connected to analog output AO2. Alternatively, sets the output to excitation mode to feed a constant current to a temperature sensor. For the selections, see parameter 114.77 AO1 source.

  • Page 82: Extension I/O Module 2

    82 Parameters Name/Value Description Def/FbEq16 114.90 AO2 source min (Visible when 114.01 Module 1 type = FAIO-01) Defines the real value of the signal (selected by parameter 114.87 AO2 source) that corresponds to the minimum AO2 output value (defined by parameter 114.92 AO2 out at AO2 src min).
  • Page 83 Parameters 83 Name/Value Description Def/FbEq16 115.03 Module 2 status See parameter 114.03 Module 1 status. No option 115.05 DI status (Visible when 115.01 Module 2 type = FDIO-01) See parameter 114.05 DI status. 115.05 DIO status (Visible when 115.01 Module 2 type FIO-01 or FIO-11) See parameter...
  • Page 84 84 Parameters Name/Value Description Def/FbEq16 115.23 DI3 OFF delay (Visible when 115.01 Module 2 type = FDIO-01) 0.00 s See parameter 114.23 DI3 OFF delay. 115.23 DIO3 OFF delay (Visible when 115.01 Module 2 type = FIO-01) 0.0 s See parameter 114.23 DIO3 OFF delay.
  • Page 85 Parameters 85 Name/Value Description Def/FbEq16 115.43 AI2 force data (Visible when 115.01 Module 2 type FIO-11 or FAIO-01) 0.000 mA See parameter 114.43 AI2 force data. 115.44 AI2 HW switch pos (Visible when 115.01 Module 2 type FIO-11 or FAIO-01) See parameter 114.44 AI2 HW switch pos.

  • Page 86: Extension I/O Module 3

    86 Parameters Name/Value Description Def/FbEq16 115.81 AO1 source max (Visible when 115.01 Module 2 type FIO-11 or FAIO-01) 1500.0 See parameter 114.81 AO1 source max. 115.82 AO1 out at AO1 src (Visible when 115.01 Module 2 type FIO-11 or FAIO-01) 0.000 mA See parameter 114.82 AO1 out at AO1 src...
  • Page 87 Parameters 87 Name/Value Description Def/FbEq16 116.13 DIO1 OFF delay (Visible when 116.01 Module 3 type FIO-01 or FIO-11) 0.0 s See parameter 114.13 DIO1 OFF delay. 116.14 DIO2 configuration (Visible when 116.01 Module 3 type FIO-01 or FIO-11) Input See parameter 114.14 DIO2 configuration.
  • Page 88 88 Parameters Name/Value Description Def/FbEq16 116.31 RO status (Visible when 116.01 Module 3 type FIO-01 or FDIO-01) See parameter 114.31 RO status. 116.31 AI1 filter gain (Visible when 116.01 Module 3 type FIO-11 or FAIO-01) No filtering See parameter 114.31 AI1 filter gain.
  • Page 89 Parameters 89 Name/Value Description Def/FbEq16 116.58 AI3 force data (Visible when 116.01 Module 3 type = FIO-11) 0.000 mA See parameter 114.58 AI3 force data. 116.59 AI3 HW switch pos (Visible when 116.01 Module 3 type = FIO-11) See parameter 114.59 AI3 HW switch pos.

  • Page 90: Operation Mode

    90 Parameters Name/Value Description Def/FbEq16 119 Operation mode Selection of external control location sources and operating modes. 119.11 Ext1/Ext2 sel Selects the external control location EXT1/EXT2. EXT1 EXT1 EXT1 selected. EXT2 EXT2 selected. FBA A MCW bit 11 106.01 Main control word, bit 11 received through fieldbus interface A.
  • Page 91 Parameters 91 Name/Value Description Def/FbEq16 In1P Start; In2 Stop The sources of the start and stop commands are selected by parameters 120.03 Ext1 in1 120.04 Ext1 in2. The state transitions of the source bits are interpreted as follows: State of source 1 State of source 2 Command (120.03)
  • Page 92 92 Parameters Name/Value Description Def/FbEq16 120.04 Ext1 in2 Selects source 2 for external control location EXT1. See parameter 120.01 Ext1 commands. For the available selections, see parameter 120.03 Ext1 in1. 120.06 Ext2 commands Selects the source of start and stop commands for Not sel external control location 2 (EXT2).
  • Page 93 Parameters 93 Name/Value Description Def/FbEq16 Digital input DI1 (as indicated by 110.02 DI delayed status, bit 0). Note: DI1 is reserved for temperature fault in the control program. Do not select it for any other use. Digital input DI2 (as indicated by 110.02 DI delayed status, bit 1).
  • Page 94 94 Parameters Name/Value Description Def/FbEq16 DIO2 Digital input/output DIO2 (as indicated by 111.02 DIO delayed status, bit 1). DIIL DIIL input (110.02 DI delayed status, bit 15). Other [bit] Source selection (see Terms and abbreviations on page 39). 120.21 Delay for MCB DI3 Start and stop delay for supervision of main circuit 1.00 s supervision...

  • Page 95: Start/Stop Mode

    0 = Emergency stop active 1 = Normal operation Note: This parameter cannot be changed while the supply unit is running. If a cabinet-installed multidrive, ACS880-307, has an emergency stop option (+Q951/+Q952/+Q963/+Q964), this parameter has been set to DIIL at the factory. Active (false)

  • Page 96: Fault Functions

    96 Parameters Name/Value Description Def/FbEq16 131 Fault functions Settings that define the behavior of the supply unit upon fault situations. 131.01 External event 1 Defines the source of external event 1. See also Inactive source parameter 131.02 External event 1 type.
  • Page 97 Parameters 97 Name/Value Description Def/FbEq16 131.06 External event 3 Selects the type of external event 3. Fault type Fault The external event generates a fault. Warning The external event generates a warning. Warning/Fault If the diode supply unit is running, the external event generates a fault.
  • Page 98 98 Parameters Name/Value Description Def/FbEq16 Digital input DI6 (as indicated by 110.02 DI delayed status bit 5). DIO1 Digital input/output DIO1 (as indicated by 111.02 DIO delayed status, bit 0). DIO2 Digital input/output DIO2 (as indicated by 111.02 DIO delayed status, bit 1).
  • Page 99 Parameters 99 Name/Value Description Def/FbEq16 131.15 Total trials time Defines the time for the automatic reset function. See parameter 131.14 Number of trials. 1.0 … 600.0 s Time for automatic resets. 10 = 1 s 131.16 Delay time Defines the time that the supply unit will wait after a 0.0 s fault before attempting an automatic reset.
  • Page 100 100 Parameters Name/Value Description Def/FbEq16 Digital input DI1 (as indicated by 110.02 DI delayed status, bit 0). Note: DI1 is reserved for temperature fault in the control program. Do not select it for any other use. Digital input DI2 (as indicated by 110.02 DI delayed status, bit 1).
  • Page 101 Parameters 101 Name/Value Description Def/FbEq16 Other [bit] Source selection (see Terms and abbreviations on page 39). 131.34 Cabinet Selects whether there is a delay in monitoring the When temperature parameter 131.33 Cabinet temperature fault source. If modulating supervision this parameter is set to When modulating, the monitoring is started after the modulation has started.
  • Page 102 102 Parameters Name/Value Description Def/FbEq16 Active (false) Monitoring function is active. Inactive (true) Monitoring function is inactive. DIIL Monitoring function is active and it reads the status indication through DIIL (110.02 DI delayed status, bit 15). Monitoring function is active and it reads the status indication through DI1 (110.02 DI delayed status, bit 0).

  • Page 103: Generic Timer & Counter

    Parameters 103 Name/Value Description Def/FbEq16 133 Generic timer & Configuration of maintenance timers/counters. counter See also section Maintenance timers and counters (page 30). 133.01 Counter status Displays the maintenance timer/counter status word, indicating which maintenance timers/counters have exceeded their limits. This parameter is read-only.
  • Page 104 104 Parameters Name/Value Description Def/FbEq16 Cabinet fan AE4D Cabinet fan warning. DC-capacitor AE4C DC capacitor warning. 133.20 On-time 2 act Reading of on-time timer 2. Can be reset from the Drive composer PC tool, or from the control panel by keeping Reset depressed for over 3 seconds.
  • Page 105 Parameters 105 Name/Value Description Def/FbEq16 133.32 Edge count 1 func Configures signal edge counter 1. This counter is 0000b incremented every time the signal selected by parameter 133.33 Edge count 1 src switches on or off (or either, depending on the setting of this parameter). A divisor may be applied to the count (see 133.34 Edge count 1...
  • Page 106 106 Parameters Name/Value Description Def/FbEq16 133.42 Edge count 2 func Configures signal edge counter 2. This counter is 0000b incremented every time the signal selected by parameter 133.43 Edge count 2 src switches on or off (or either, depending on the setting of this parameter). A divisor may be applied to the count (see 133.44 Edge count 2...
  • Page 107 Parameters 107 Name/Value Description Def/FbEq16 133.51 Value count 1 limit Sets the warning limit for value counter 1. -2147483008 … Warning limit for value counter 1. 1 = 1 2147483008 133.52 Value count 1 func Configures value counter 1. The counter calculates its 0000b actual value (133.53) by integrating the monitored value (133.xx) with respect to time.

  • Page 108: Load Analyzer

    108 Parameters Name/Value Description Def/FbEq16 133.62 Value count 2 func Configures value counter 2. he counter calculates its 0000b actual value (133.63) by integrating the monitored value (133.xx) with respect to time. A divisor may be applied to the count (see 133.64 Value count 2 div).
  • Page 109 Parameters 109 Name/Value Description Def/FbEq16 Power % DxT modules only: Power %, 101.13 Power % Converter DxT modules only: Converter temperature %, 105.11 temperature % Converter temperature % Ambient DxT modules only: 101.70 Ambient temperature percent temperature (page 44). Other [bit] Source selection (see Terms and abbreviations on page...
  • Page 110 110 Parameters Name/Value Description Def/FbEq16 136.17 PVL reset time The time at which the peak value logger was last reset. Last reset time of the peak value logger. 136.20 AL1 below 10% Percentage of samples recorded by amplitude logger 1 0.00% that fall between 0 and 10%.

  • Page 111: Data Storage

    Parameters 111 Name/Value Description Def/FbEq16 136.46 AL2 60 to 70% Percentage of samples recorded by amplitude logger 2 0.00% that fall between 60 and 70%. 0.00 … 100.00% Amplitude logger 2 samples between 60 and 70%. 1 = 1% 136.47 AL2 70 to 80% Percentage of samples recorded by amplitude logger 2 0.00%...
  • Page 112 112 Parameters Name/Value Description Def/FbEq16 147.11 Data storage 1 Data storage parameter 9. int32 -2147483648… 32-bit data. 2147483647 147.12 Data storage 2 Data storage parameter 10. int32 -2147483648… 32-bit data. 2147483647 147.13 Data storage 3 Data storage parameter 11. int32 -2147483648…...

  • Page 113: Panel Port Communication

    Parameters 113 Name/Value Description Def/FbEq16 147.28 Data storage 8 Data storage parameter 24. int16 -32768…32767 16-bit data. 1 = 1 149 Panel port Communication settings for the control panel port on the supply unit. communication 149.01 Node ID number Defines the node ID of the supply unit. All devices connected to the same panel bus/link must have a dedicated node ID.
  • Page 114 114 Parameters Name/Value Description Def/FbEq16 Option slot 3 Communication between supply unit and fieldbus adapter A enabled. The adapter is in slot 3. 150.02 FBA A comm loss Selects how the supply unit reacts upon a fieldbus No action func communication break.
  • Page 115 Parameters 115 Name/Value Description Def/FbEq16 150.13 FBA A control word Displays the control word received from fieldbus adapter A. For the commands assigned to each bit, see chapter Fieldbus control through a fieldbus adapter. 00000000h … Control word received from fieldbus adapter A. 1 = 1 FFFFFFFFh 150.16...
  • Page 116 116 Parameters Name/Value Description Def/FbEq16 No action Communication break detection disabled. Fault Communication break detection active. Upon a communication break, the diode supply unit trips on a communication fault. Fault always The supply unit trips on a communication fault even though no control is expected from the fieldbus.

  • Page 117: Fba A Settings

    Parameters 117 Name/Value Description Def/FbEq16 150.43 FBA B control word Displays the control word received from fieldbus adapter B. For the commands assigned to each bit, see chapter Fieldbus control through a fieldbus adapter. 00000000h … Control word received from fieldbus adapter B. 1 = 1 FFFFFFFFh 150.46...
  • Page 118 118 Parameters Name/Value Description Def/FbEq16 0…65535 Fieldbus adapter configuration parameter. 1 = 1 … … … … 151.26 FBA A Par26 See parameter 151.02 FBA A Par2. 0…65535 Fieldbus adapter configuration parameter. 1 = 1 151.27 FBA A par refresh Validates any changed fieldbus adapter module Done configuration settings.

  • Page 119: Fba A Data In

    Parameters 119 Name/Value Description Def/FbEq16 152 FBA A data in Selection of data to be transferred from supply unit to fieldbus controller through fieldbus adapter A. Note: 32-bit values require two consecutive parameters. Whenever a 32-bit value is selected in a data parameter, the next parameter is automatically reserved.
  • Page 120 120 Parameters Name/Value Description Def/FbEq16 154.26 FBA B Par26 See parameter 154.26 FBA B Par2. 0…65535 Fieldbus adapter configuration parameter. 1 = 1 154.27 FBA B par refresh Validates any changed fieldbus adapter module Done configuration settings. After refreshing, the value reverts automatically to Done.

  • Page 121: Fba B Data In

    Parameters 121 Name/Value Description Def/FbEq16 155 FBA B data in Selection of data to be transferred from the diode supply unit to fieldbus controller through fieldbus adapter B. Note: 32-bit values require two consecutive parameters. Whenever a 32-bit value is selected in a data parameter, the next parameter is automatically reserved.
  • Page 122 160.51 DDCS controller Selects the DDCS channel used for connecting an No connect comm port external controller (such as an AC 800M or ACS880 inverter). No connect None (communication disabled). Slot 1A Channel A on FDCO module in slot 1.

  • Page 123: Ddcs Transmit

    Parameters 123 Name/Value Description Def/FbEq16 160.64 Mailbox dataset Selects dataset pair to be used in mailbox Dataset selection communication. 32/33 Dataset 32/33 Dataset 32 is used for query and dataset 33 for response. Dataset 24/25 Dataset 24 is used for query and dataset 25 for response 1 161 DDCS transmit Defines the data sent to the DDCS link.
  • Page 124 124 Parameters Name/Value Description Def/FbEq16 161.62 Data set 17 data 3 Selects the location where the value of data set 17 data None selection word 3 is read from. For the selections, see parameter 161.51 Data set 11 data 1 selection.
  • Page 125 Parameters 125 Name/Value Description Def/FbEq16 161.101 Data set 11 data 1 Defines the raw data to be transmitted in data set 11 value data word 1. 0…65535 Raw data to be transmitted in data set 11 data word 1. 1 = 1 161.102 Data set 11 data 2 Defines the raw data to be transmitted in data set 11...

  • Page 126: Ddcs Receive

    126 Parameters Name/Value Description Def/FbEq16 161.118 Data set 21 data 3 Defines the raw data to be transmitted in data set 21 value data word 3. 0…65535 Raw data to be transmitted in data set 21 data word 3. 1 = 1 161.119 Data set 23 data 1 Defines the raw data to be transmitted in data set 23...
  • Page 127 Parameters 127 Name/Value Description Def/FbEq16 162.55 Data set 12 data 2 Selects the location into which the value of data set 12 None selection data word 2 is written. For the selections, see parameter 162.54 Data set 12 data 1 selection.
  • Page 128 128 Parameters Name/Value Description Def/FbEq16 162.68 Data set 20 data 3 Selects the location into which the value of data set 20 None selection data word 3 is written. For the selections, see parameter 162.54 Data set 12 data 1 selection.

  • Page 129: Additional Actual Values

    Parameters 129 Name/Value Description Def/FbEq16 0…65535 Raw data to be received in data set 14 data word 3. 1 = 1 162.110 Data set 16 data 1 Defines the raw data to be received in data set 16 data value word 1.
  • Page 130 130 Parameters Name/Value Description Def/FbEq16 190.07 Main voltage V1- DxT modules only: Main voltage V1-W1 [V]. 0.00…2000.00 V Main voltage V1-W1. 1 = 1 V 190.08 Main voltage W1- DxT modules only: Main voltage W1-U1 [V]. 0.00…2000.00 V Main voltage W1-U1. 1 = 1 V 190.40 Phase current U1...

  • Page 131: Additional Actual Values 2

    Parameters 131 Name/Value Description Def/FbEq16 192 Additional actual Additional actual values of modules connected to second winding of 12-pulse diode supply unit. values 2 192.06 Main voltage U2-V2 DxT modules only: Main voltage U2-V2 [V]. 0.00…2000.00 V Main voltage U2-V2. 1 = 1 V 192.07 Main voltage V2-...

  • Page 132: Hw Configuration

    195.01 Supply voltage DxT modules: Selects the supply voltage range. This Not given parameter is used by the ACS880 to determine the nominal voltage of the supply network. Not given No voltage defined. DC link voltage monitoring function is not active.
  • Page 133 Name Information 0…10 Reserved Reserved INU-DSU Enables DDCS communication with ACS880 inverter. Selects communication DDCS controller as the control source, enables the communication and configures required dataset parameters. Sets parameter: • 119.11 Ext1/Ext2 sel to EXT1, •...

  • Page 134: System

    Note: You must change the default user pass code to maintain a high level of cybersecurity. Store the code in a safe place – the protection cannot be disabled even by ABB if the code is lost. See also section User lock (page 37).
  • Page 135 Parameters 135 Name/Value Description Def/FbEq16 Clear all All parameter values are restored to default values, including fieldbus adapter configuration data. PC tool communication is interrupted during the restoring. The supply unit CPU is re-booted after the restoring is completed. 196.07 Parameter save Saves the valid parameter values to permanent memory.
  • Page 136 136 Parameters Name/Value Description Def/FbEq16 196.29 Time sync source Time source status word. status This parameter is read-only. Name Description Time tick received 1 = 1st priority tick received: Tick has been received from 1st priority source. Aux Time tick 1 = 2nd priority tick received: Tick has been received from received 2nd priority source.
  • Page 137 Parameters 137 Name/Value Description Def/FbEq16 196.63 User data logger Triggers, or selects a source that triggers, the user data trigger logger. Other Source selection (see Terms and abbreviations on page 39). 196.64 User data logger Starts, or selects a source that starts, the user data start logger.

  • Page 138: O Bus Configuration

    Note: We recommend you select all the actions and functionalities unless otherwise required by the application. Name Information Disable ABB 1 = ABB access levels (service, advanced programmer, etc.; access levels see 196.03) disabled Freeze parameter 1 = Changing the parameter lock state prevented, ie. pass lock state...

  • Page 139: Contents Of This Chapter

    Additional parameter data 139 Additional parameter data Contents of this chapter This chapter lists the parameters with some additional data. For parameter descriptions, see chapter Parameters (page 39). Terms and abbreviations Term Definition Actual signal Signal measured or calculated by the supply unit. Usually can only be monitored but not adjusted;...

  • Page 140: Fieldbus Addresses

    140 Additional parameter data Packed boolean. Real 16-bit value 16-bit value (31 bits + sign) = integer value = fractional value Type Data type. See Analog src, Binary src, List, PB, Real. Fieldbus addresses Refer to the user’s manual of the fieldbus adapter.

  • Page 141: Parameter Groups 101

    Additional parameter data 141 Parameter groups 101…107 Name Type Range Unit FbEq32 101 Actual values 101.01 DC voltage Real 0.00 … 2000.00 100 = 1 V 101.02 Line current Real 0.00…30000.00 100 = 1 A 101.03 Line current % Real 0.0…1000.0 10 = 1% 101.08...
  • Page 142 142 Additional parameter data Name Type Range Unit FbEq32 105.11 Converter temperature % Real -40.0…160.0 10 = 1% 105.18 Control board humidity Real 0…100 1 = 1% 105.21 MCB closing time counter Real 0…4294967295 1 = 1 106 Control and status words 106.01 Main control word 0000h…FFFFh...
  • Page 143 Additional parameter data 143 Name Type Range Unit FbEq32 107.15 FPGA logic version number Data 1 = 1 107.30 Adaptive program status Data 0000h…FFFFh 1 = 1 107.60 Device DNA bits [95..64] Data 0000h…FFFFh 1 = 1 107.61 Device DNA bits [63..32] Data 0000h…FFFFh 1 = 1...

  • Page 144: Parameter Groups 110

    144 Additional parameter data Parameter groups 110…209 Name Type Range Unit FbEq32 110 Standard DI, RO 110.01 DI status 0000h…FFFFh 1 = 1 110.02 DI delayed status 0000h…FFFFh 1 = 1 110.03 DI force selection 0000h…FFFFh 1 = 1 110.04 DI force data 0000h…FFFFh 1 = 1...
  • Page 145 Additional parameter data 145 Name Type Range Unit FbEq32 112 Standard AI 112.03 AI supervision function List 0…2 1 = 1 112.04 AI supervision selection 0000h…FFFFh 1 = 1 112.11 AI1 actual value Real -22.000 … 22.000 mA or mA or V 1000 = 1 mA -11.000 …...
  • Page 146 146 Additional parameter data Name Type Range Unit FbEq32 114.12 DI1 ON delay Real 0.00 … 3000.00 100 = 1 s 114.13 DI1 OFF delay Real 0.00 … 3000.00 100 = 1 s 114.17 DI2 ON delay Real 0.00 … 3000.00 100 = 1 s 114.18 DI2 OFF delay...
  • Page 147 Additional parameter data 147 Name Type Range Unit FbEq32 114.33 AI1 min Real -22.000 … 22.000 mA or V 1000 = 1 mA or V 114.34 AI1 max Real -22.000 … 22.000 mA or V 1000 = 1 mA or V 114.35 AI1 scaled at AI1 min Real...
  • Page 148 148 Additional parameter data Name Type Range Unit FbEq32 114.91 AO2 source max Real -32768.0 … 32767.0 10 = 1 114.92 AO2 out at AO2 src min Real 0.000 … 22.000 1000 = 1 mA 114.93 AO2 out at AO2 src max Real 0.000 …...
  • Page 149 Additional parameter data 149 Name Type Range Unit FbEq32 115.20 AI supervision selection 0000h…FFFFh 1 = 1 115.22 AI force sel 00000000h…FFFFFFFFh 1 = 1 AI1/AI2 (115.01 Module 2 type FIO-11 or FAIO-01) 115.26 AI1 actual value Real -22.000 … 22.000 mA or V 1000 = 1 unit 115.27 AI1 scaled value...
  • Page 150 150 Additional parameter data Name Type Range Unit FbEq32 115.80 AO1 source min Real -32768.0 … 32767.0 10 = 1 115.81 AO1 source max Real -32768.0 … 32767.0 10 = 1 115.82 AO1 out at AO1 src min Real 0.000 … 22.000 1000 = 1 mA 115.83 AO1 out at AO1 src max...
  • Page 151 Additional parameter data 151 Name Type Range Unit FbEq32 RO1/RO2 (116.01 Module 3 type FIO-01 or FDIO-01) 116.31 RO status 0000h…FFFFh 1 = 1 116.34 RO1 source Binary src 1 = 1 116.35 RO1 ON delay Real 0.0 … 3000.0 10 = 1 s 116.36 RO1 OFF delay...

  • Page 152: Ao1 Filter Time

    152 Additional parameter data Name Type Range Unit FbEq32 116.64 AI3 max Real -22.000 … 22.000 mA or V 1000 = 1 mA or V 116.65 AI3 scaled at AI3 min Real -32768.000 … 32767.000 1000 = 1 116.66 AI3 scaled at AI3 max Real -32768.000 …...

  • Page 153: Real 0.000

    Additional parameter data 153 Name Type Range Unit FbEq32 120.60 DC voltage external Real 0.00…65535.00 100 = 1 unscaled 120.61 External DC voltage scale Real -100.00…100.00 100 = 1 121 Start/stop mode 121.04 Emergency stop mode List 0…2 1 = 1 121.05 Emergency stop source Binary src...

  • Page 154: Real 0.00

    154 Additional parameter data Name Type Range Unit FbEq32 133.31 Edge count 1 limit Real 0…4294967295 1 = 1 133.32 Edge count 1 func 0000h…FFFFh 1 = 1 133.33 Edge count 1 src Binary src 1 = 1 133.34 Edge count 1 div Real 1…4294967295 1 = 1...
  • Page 155 Additional parameter data 155 Name Type Range Unit FbEq32 136.42 AL2 20 to 30% Real 0.00 … 100.00 100 = 1% 136.43 AL2 30 to 40% Real 0.00 … 100.00 100 = 1% 136.44 AL2 40 to 50% Real 0.00 … 100.00 100 = 1% 136.45 AL2 50 to 60%...
  • Page 156 156 Additional parameter data Name Type Range Unit FbEq32 150.11 FBA A act2 transparent Analog src 1 = 1 source 150.12 FBA A debug mode List 0…1 1 = 1 150.13 FBA A control word Data 00000000h …FFFFFFFFh 1 = 1 150.16 FBA A status word Data...
  • Page 157 Additional parameter data 157 Name Type Range Unit FbEq32 154.26 FBA B Par26 Real 0…65535 1 = 1 154.27 FBA B par refresh List 0…1 1 = 1 154.28 FBA B par table ver Data 1 = 1 154.29 FBA B drive type code Real 0…65535 1 = 1...
  • Page 158 158 Additional parameter data Name Type Range Unit FbEq32 161.68 Data set 21 data 3 selection List 161.69 Data set 23 data 1 selection List 161.70 Data set 23 data 2 selection List 161.71 Data set 23 data 3 selection List 161.72 Data set 25 data 1 selection...
  • Page 159 Additional parameter data 159 Name Type Range Unit FbEq32 162.68 Data set 20 data 3 selection List 162.69 Data set 22 data 1 selection List 162.70 Data set 22 data 2 selection List 162.71 Data set 22 data 3 selection List 162.72 Data set 24 data 1 selection...
  • Page 160 160 Additional parameter data Name Type Range Unit FbEq32 192.41 Phase current V2 Real 0.00…30000.00 100 = 1 A 192.42 Phase current W2 Real 0.00…30000.00 100 = 1 A 192.70 DC current 2 Real 0.00…30000.00 100 = 1 A 192.71 DC current 2 peak Real 0.00…30000.00...
  • Page 161 Additional parameter data 161 Name Type Range Unit FbEq32 206 I/O bus configuration 207 I/O bus service 208 I/O bus diagnostics 209 I/O bus fan identification (Groups only visible with a UCU control unit) These groups contain parameters related to the distributed I/O bus, which is used with some drives for monitoring the cooling fans of the cabinet system.
  • Page 162 162 Additional parameter data...

  • Page 163: Fault Tracing

    The chapter lists the warning and fault messages including possible causes and corrective actions. The causes of most warnings and faults can be identified and corrected using the information in this chapter. If not, an ABB service representative should be contacted.

  • Page 164: Indications

    164 Fault tracing Indications Warnings and faults  Warnings and faults indicate an abnormal status. The codes and names of active warnings/faults are displayed on the control panel as well as the Drive composer PC tool. Only the codes of warnings/faults are available over fieldbus. Warnings do not need to be reset;...

  • Page 165: Other Data Loggers

    The UCU control unit contains a data logger that collects data from the diode supply modules to help fault tracing and analysis. The data is stored onto the microSDHC memory card inserted into the UMU memory unit and can be analyzed by ABB service personnel.

  • Page 166: Warning Messages

    166 Fault tracing Warning messages Code Warning Cause What to do (hex) AE14 Excess temperature Supply module heat sink Check module cooling air flow and fan temperature is excessive due operation. to eg. module overload or fan Check ambient temperature. If it failure.
  • Page 167 INT board, 6: Brake chopper, 7: Air inlet (sensor connected to INT board X10), 8: du/dt filter, FAh: Ambient temperature. AE1A PU board powerfail Power unit power supply Contact your local ABB representative. failure. AE1B PU communication Communication errors Check the connections between the internal detected between the control unit and the power unit.
  • Page 168 168 Fault tracing Code Warning Cause What to do (hex) AE27 AI parametrization The current/voltage jumper Check the auxiliary code. The code setting of an analog input identifies the analog input whose does not correspond to settings are in conflict. parameter settings.
  • Page 169 Fault tracing 169 Code Warning Cause What to do (hex) AE31 FB B communication Cyclical communication Check status of fieldbus between diode supply unit communication. See user Programmable and fieldbus adapter module documentation of fieldbus interface. warning: 150.32 FBA B or between PLC and B comm loss func Check settings of parameter groups fieldbus adapter module B is...
  • Page 170 170 Fault tracing Code Warning Cause What to do (hex) AE49 Value counter 1 Warning generated by value Check the source of the warning counter 1. (parameter 133.53 Value count 1 src). (Editable message text) Programmable warning: 133.55 Value count 1 warn sel AE4A Value counter 2...
  • Page 171 Check the auxiliary code. See actions temperature excessive. for each code below. (none) Temperature above warning Check ambient conditions. limit Check air flow and fan operation. Check heatsink fins for dust pick-up. 1 Thermistor broken Contact an ABB service representative for control unit replacement.
  • Page 172 172 Fault tracing Code Warning Cause What to do (hex) AE61 Overvoltage Short-time overvoltage in Check grid voltage for possible grid. transient cause. Check the auxiliary code to identify the diode supply unit (15: single diode supply unit or the first parallel- connected diode supply unit, 16: the second parallel-connected diode supply unit).
  • Page 173 (27% of nominal by connections in DC busbar. default). Check that the inductances of the windings are equal. Contact your local ABB representative if the limit needs to be changed. AE75 SD card Error related to SD card used Check the auxiliary code.
  • Page 174 Check there are no power factor correction capacitors or surge absorbers in supply cable. If no earth fault can be detected, contact your local ABB representative. AE88 Parameter map Too much data in parameter See Drive customizer PC tool user’s...
  • Page 175 Fault tracing 175 Code Warning Cause What to do (hex) BE02 MCB maintenance Main circuit breaker has Maintain the main circuit breaker. notice worked too many times and it should be maintained according to the maintenance plan. BE0B SW internal Software is gathering Informative event.

  • Page 176: Fault Messages

    Check converter(s). modules. Check inverter(s). Power off all boards. If the fault persists, contact your local ABB representative. Check the auxiliary code (format XXXYYYZZ). “XXX” specifies the source of the first error (see “YYY”). “YYY” specifies the module through which...
  • Page 177 (40% of connections in DC busbar. nominal by default). Check that the inductances of the windings are equal. Contact your local ABB representative if the limit needs to be changed. 3E04 DC link overvoltage Excessive intermediate Check that parameter 195.01 Supply...
  • Page 178 (15: single diode supply unit or the first parallel- connected diode supply unit, 16: the second parallel-connected diode supply unit). If the fault persists, contact your local ABB representative. 4E03 Excess temperature Supply module heat sink AE14 Excess temperature (page temperature is excessive due 166).
  • Page 179 Fault tracing 179 Code Fault Cause What to do (hex) 4E04 Excess temperature High temperature difference AE15 Excess temperature difference between the semiconductors difference (page 166). of different phases. The amount of available temperatures depends on the frame size. 4E06 Cabinet temperature A measurement device Check parameter...
  • Page 180 (using parameter 196.08 Control board boot) or by cycling its power. If the problem persists, contact your local ABB representative. 5E05 Rating ID mismatch The hardware of the supply Cycle the power to the supply unit.
  • Page 181 Check the connection between the control unit and the power control unit and the power unit. unit is lost. 5E09 PU communication Internal communication Contact your local ABB representative. internal error. 5E0A Measurement circuit Measurement circuit fault. Contact your local ABB representative, quoting the auxiliary code.
  • Page 182 195.13 is set to 0 (reduced run function disabled). 5E0F PU state feedback State feedback from output Contact your local ABB representative, phases does not match quoting the auxiliary code. control signals. 5E10 Charging feedback Charging feedback signal Check the feedback signal coming missing.
  • Page 183 Reboot the control unit (using parameter 196.08 Control board boot) Note: This fault cannot be or by cycling power. If the problem reset. persists, contact your local ABB representative. 6E05 Internal file load File read error. Reboot the control unit (using parameter 196.08 Control board...
  • Page 184 Fault Cause What to do (hex) 6E15 Text data overflow Internal fault. Reset the fault. Contact your local ABB representative if the fault persists. 6E16 Text 32-bit table Internal fault. Reset the fault. Contact your local ABB overflow representative if the fault persists.
  • Page 185 002A Too many blocks. Edit the program to reduce the number of blocks. Other – Contact your local ABB representative, quoting the auxiliary code. 7E00 Option module Communication between the Check that the option modules are comm loss diode supply unit and an properly seated in their slots.
  • Page 186 186 Fault tracing Code Fault Cause What to do (hex) 00 0002 Module not found. Check the type and location settings of the modules (parameters 00 0003 Configuration of module 114.01/114.02, 115.01/115.02 failed. 116.01/116.02). 00 0004 Configuration of module Check that the module is properly failed.
  • Page 187 Fault tracing 187 Code Fault Cause What to do (hex) 9E02 External fault 2 Fault in external device 2. Check the external device. (Editable message Check setting of parameter 131.03 text) External event 2 source. Programmable fault: 131.03 External event 2 source 131.04 External event 2 type...
  • Page 188 188 Fault tracing...

  • Page 189: Fieldbus Control Through A Fieldbus Adapter

    Fieldbus control through a fieldbus adapter 189 Fieldbus control through a fieldbus adapter Contents of this chapter This chapter describes how the supply unit can be controlled by external devices over a communication network (fieldbus) through an optional fieldbus adapter module.

  • Page 190: System Overview

    The fieldbus adapter can be installed into any free slot on the control unit. Fieldbus controller Fieldbus ACS880 Other devices Type Fxxx fieldbus adapter installed on the control unit...

  • Page 191: Basics Of The Fieldbus Control Interface

    150.31…150.51 and parameter groups 154…156. Normally, use the fieldbus adapter module as fieldbus adapter A. See Ethernet tool network for ACS880 drives application guide (3AUA0000125635 [English]), and FENA-01/-11 Ethernet adapter module user’s manual (3AUA0000093568 [English]). Basics of the fieldbus control interface The cyclic communication between a fieldbus system and the diode supply unit consists of 16/32-bit input and output data words.

  • Page 192: Contents Of The Fieldbus Control Word

    192 Fieldbus control through a fieldbus adapter Contents of the fieldbus Control word  Name Value Description On/Off DxT modules: If either ON/OFF (bit 0) or Start (bit 3) is 1: 1. Close the main contactor/breaker and charge the DC busbar. 2.

  • Page 193: Contents Of The Fieldbus Status Word

    Fieldbus control through a fieldbus adapter 193 Contents of the fieldbus Status word  Name Value Description Ready to Ready to switch ON switch ON Note: If the supply unit is switched off, the Start enable must be on for Ready to switch ON = 1. If the supply unit is switched on, Ready to switch ON = 1 regardless of the Start enable.

  • Page 194: The State Diagram

    194 Fieldbus control through a fieldbus adapter The state diagram  POWER ON SWITCH-ON INHIBITED FAULT RESET run enable = 1 from any state FAULT READY TO SWITCH ON FAULT run enable = 0 CW = x111 or 111x CW = 0xx0 Notation: OPERATION ENABLED...

  • Page 195: Setting Up The Diode Supply Unit For Fieldbus Control

    Fieldbus control through a fieldbus adapter 195 Setting up the diode supply unit for fieldbus control Before configuring the diode supply unit for fieldbus control, the adapter module must be mechanically and electrically installed according to the instructions given in the user’s manual of the appropriate fieldbus adapter module.

  • Page 196: Setting Up The Communication Between Dsu And Inverter Unit

    SW 16bit 162.51 Data set 10 data 1 selection CW 16bit In ACS880-07 drives, setting the INU parameter 95.20 HW options word 1 bit 11 to Yes automatically sets the following INU parameters to their right values: Inverter unit parameter Setting 60.71 INU-LSU communication port...

  • Page 197: Drive-To-Drive Link

    Drive-to-drive link 197 Drive-to-drive link This feature is not supported by the current firmware version.
  • Page 198 198 Drive-to-drive link...

  • Page 199: Further Information

    Product and service inquiries Address any inquiries about the product to your local ABB representative, quoting the type designation and serial number of the unit in question. A listing of ABB sales, support and service contacts can be found by navigating to new.abb.com/contact-centers.
  • Page 200 © Copyright 2023 ABB. All rights reserved. Specifications subject to change without notice.

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