ABB PVS980-58 Firmware Manual
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ABB PVS980-58 Firmware Manual

Central, from 1818 to 2091 kva
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Central inverter
PVS980-58
Firmware manual
From 1818 to 2091 kVA

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  • Page 1 Central inverter PVS980-58 Firmware manual From 1818 to 2091 kVA...
  • Page 2 Related documents Hardware manuals and guides PVS980-58 (1818 to 2091 kVA) central inverters hardware manual 3AXD50000026013 PVS980-58 (1818 to 2091 kVA) central inverters commissioning and maintenance manual 3AXD50000046782 Firmware manuals and guides PVS980 central inverters firmware manual 3AXD50000026271 Option manuals and guides ACS-AP-x Assistant control panels user’s manual 3AUA0000085685...
  • Page 3 Firmware manual PVS980-58 central inverter (from 1818 to 2091 kVA) 3AXD50000026271 Rev D EFFECTIVE: 2020-06-11  2020 FIMER. All Rights Reserved.

  • Page 5: Table Of Contents

    Table of contents 1. Introduction Applicability ............7 Safety instructions .
  • Page 6 cos phi (U) control curve ..........30 Power prioritization .
  • Page 7 124 Reactive power reference ......... . 66 125 FRT support curve .
  • Page 8 6. Reduced run 7. Communication interfaces System overview ........... . . 181 Connecting inverter to communication or fieldbus network .

  • Page 9: Introduction

    Target audience This manual is intended for people who commission, adjust the parameters of, or operate, monitor or troubleshoot PVS980-58 central inverters. The reader is expected to know the standard electrical wiring practices, electronic components, and electrical schematic symbols.

  • Page 10: Related Documents

    Related documents Refer to the inside of the front cover. Contents of the manual The manual includes the following chapters. • (this chapter). Introduction • (page 11) gives instructions for using the control panel. Using the control panel • (page 13) describes the firmware features of the inverter. Program features •...

  • Page 11: Terms And Abbreviations

    Terms and abbreviations Term/Abbreviation Explanation AC500 ABB programmable logic controller (PLC) series ACS-AP-I Control panel type Aux. Auxiliary BAMU Auxiliary measuring unit Control unit Branching unit Central processing unit Control section DC input Connection point from solar array to inverter. One input consists of one positive and one negative terminal.
  • Page 12 10 Introduction...

  • Page 13: Using The Control Panel

    Using the control panel Refer to ACX-AP-x assistant control panels user’s manual (3AUA0000085685 [English]). Using the control panel 11...
  • Page 14 12 Using the control panel...

  • Page 15: Program Features

    Product overview The PVS980-58 is a central inverter that converts, adjusts and conveys power that is generated by a solar generator to the electrical power system. See the descriptions of features listed in...

  • Page 16: Operational Description

    Operational description PVS980-58 inverter operation uses the following machine states. Standby – inverter is not enabled. Initialize – inverter initializes the internal systems and performs self-tests. Disconnected – inverter waits for permission to connect to the grid. Connecting – inverter performs DC voltage and grid stability tests.

  • Page 17: Inverter Start/Stop

    Inverter start/stop Inverter operation  The parameter can be used to shut down the inverter in a 189.01 Inverter operation controlled way and to disable autonomous operation. In addition to shut down, inverter operation also sets the main state machine to the initial state and also affects grid monitoring delays.

  • Page 18: Grid Code Settings

    Grid code settings Preset grid codes  The inverter has preset grid code settings for numerous countries. The installation grid is set with parameter135.01 Grid code. Note: The inverter will not operate without a valid grid code setting. When a grid code is selected, all the necessary parameter settings are set to match the grid requirements.

  • Page 19: Grid Monitoring

    Grid monitoring The inverter monitors grid conditions with internal measurements. The measured frequency and voltages are compared against the limits set in parameter group135 Grid monitoring. If the measured values do not stay within the limit for a certain minimum period of time, the inverter declares the grid as unstable and disconnects from the grid and inhibits grid connection.

  • Page 20: Connection Limits

    Connection limits  The grid monitoring function of the inverter includes a connection condition check that is active when the inverter is attempting to connect to the grid. Typically, grid connection limits are more stringent than grid disconnection limits. Connection limits may also be referred to as "cut-in"...

  • Page 21: Sliding Overvoltage

    Sliding overvoltage  Sliding overvoltage implements monitoring for a slowly rising AC voltage. A ten minute average value is calculated and compared against the limit. Each phase/main voltage is independently monitored. The duration for the tolerated overvoltage situation can be set with parameter135.77 Sliding overvoltage time.

  • Page 22: Combinatory Limit

    Combinatory limit  Combinatory limit monitors grid voltage and frequency simultaneously. There are limits for the positive sequence and the negative sequence of grid voltage, and limits for underfrequency and overfrequency. The grid is declared as unstable, if • the negative sequence voltage and the frequency are outside their limits, or •...

  • Page 23: External Grid Monitoring Relay

    External grid monitoring relay  Depending on the installation, an external third party-certified grid monitoring relay may be used. If an external relay is used, loose limits for grid monitoring should be set. The recommended setting for the overvoltage monitoring limit is 130%. The limit for undervoltage monitoring should be set as less than the external relay setting.
  • Page 24 After the LVRT event, the MPPT of the inverter starts generating power according to the voltage level present. A fast recovery function can be enabled with parameter 178.03 Fast recovery. This enables a rapid recovery of the DC link voltage from the open circuit voltage to the voltage that was present before the LVRT.

  • Page 25: Grid Support

    The voltage comparisons are defined using parameters 126.04 Hv Rt symm sig sig. The asymmetric limit can be set with parameter 126.05 Hv Rt asymm 126.06 Asymm/symm limit. Settings See parameter group:126 FRT tripping curve Grid support Grid support allows injecting capacitive or inductive current to the grid. This function supports grid voltage during voltage peak or dip.

  • Page 26: Support Modes

    mode, the reference voltage is shown as a dotted Grid support current curve - K factor vertical line. The actual voltage is compared against this reference line. The mapping of voltage difference depends on the selected support mode. • Grid support is active as long as the selected voltage stays outside the dead band, or the voltage returns within the dead band for less than the time defined by parameter 125.36 Gs after dip time.
  • Page 27 for low voltage and high voltage grid support. With P1, an offset can be added to the grid support current. delta Low voltage grid support High voltage grid support Capacitive 125.05 Lv Gs K-factor Inductive 125.19 Hv Gs K-factor 125.51 Gs reference voltage Dead band Figure 6.
  • Page 28 Curve points – This mode can be used when a piecewise linear grid support current is needed. See mode. The mode uses five points on the Grid support current - curve points low voltage side and three points on the high voltage side to map the voltage to grid support current references.

  • Page 29: Reactive Power Control

    Reactive power control The inverter is capable of generating reactive power to the grid. • With a positive reactive power reference, the inverter injects reactive power to the grid. This is also called as capacitive reactive power or over-excited operation. •...

  • Page 30: Q(U) Control Curve

    The reactive power control curve activates when the lock-in condition set by parameter is exceeded and deactivates when lock-out condition set by 124.31 Lock-in level parameter124.32 Lock-out level is deceeded. In curve, the conditions are Q(U) control percent of active power. In other curves the conditions are percent of nominal voltage. The lock-in condition can be set so that the curves are always active (set to zero (power >...

  • Page 31: Q(P) Control Curve

    Q(P) control curve  In Q(P) control curve mode, the reactive power generated by the inverter depends on the active power as described in the example curve. Grid voltage in percent is Q(P) control used as a lock-in and lock-out conditions. Q(P) is selected when: Input = actual power Output = reactive power reference...

  • Page 32: Cos Phi (P) Control Curve

    cos phi (P) control curve  In cos phi (P) control curve mode, the reactive power generated by the inverter depends on the active power. Grid voltage is used as a lock-in condition. When setting this curve, crossing cos phi level one must be defined using two different points for the same point. For example, input level 2 = 0,5;...

  • Page 33: Power Prioritization

    The delay time for activating the cos phi (U) regulation curve can be set in parameter = 100 ms. The minimum and maximum activation levels can 124.45 Q(U) activation delay be set with parameters124.46 Q(U) activation level low = 99% and124.47 Q(U) activation = 101%.

  • Page 34: Night Q Production

    Night Q production During normal inverter operation, the inverter enters sleep mode when the sun goes down since there is no active power available from the solar panels. This ends both active and reactive power production. However, reactive power production during the night may be of use to the solar plant by eliminating the need for extra reactive power compensation at sites where it would otherwise be required.
  • Page 35 • If the absolute value of the reactive power reference decreases 213.52 Night Q low for a duration of delay, the inverter disconnects from the AC power 213.53 Night Q side and proceeds to normal Sleep mode. • A separate reactive power reference can be set for Night Q production with parameter reference.

  • Page 36: Active Power Limitations

    Active power limitations External active power limit  Inverter output power can be limited by defining the maximum output power value using parameter limit. The external power limit has ramps defined using 130.75 External power parameters 130.98 External limit ramp up 130.99 External limit ramp down.

  • Page 37: Limitation Based On Grid Voltage

    Limitation based on grid voltage  Active power limitation as a function of grid voltage can be used to reduce grid voltage rise. The characteristics of this function can be set through parameter 130.76 P(U) limiter. The limiter can be configured as Disabled, Constant limit, or Droop limit. Constant P(U) limitation When average grid voltage exceeds the value in parameter level, the...
  • Page 38 Droop P(U) limitation curve When average grid voltage exceeds the value in parameter 130.77 P(U) trigger level, droop limitation is activated. The power limitation gradient is calculated based on the grid voltage and values in parameters level, and 130.77 P(U) trigger level, 130.79 P(U) limit 130.82 P(U) end...

  • Page 39: Limitation Based On Grid Frequency

    Limitation based on grid frequency  Power limitation based on grid frequency can be set to operate in either incremental P(f) or free-running P(f) mode. The P(f) limitation type can be selected with parameter 130.62 P(f) limit type. Incremental P(f) limitation curve The frequency that starts power limitation is defined by parameter 130.63 P(f) corner frequency.

  • Page 40: Power Gradient

    Power gradient  The power gradient functionality limits the rise rate of active power to a predefined value. This can help to stabilize the grid as power is not changed too rapidly. The power gradient functionality can be enabled with parameter and the rise rate 130.92 Active power ramping can be set with parameter...

  • Page 41: Dc Input Monitor

    DC input monitor DC input monitor supervises DC input voltage and DC input current. • The DC input voltage is the voltage measured on the panel side of the DC contactor. DC input voltage and power can be monitored with parameters 208.01 Input voltage 208.03 Input power.

  • Page 42: Dc Input Specific Current Monitoring (Available With G417 Option)

    DC input specific current monitoring (available with G417 option) With the G417 option each DC input current is measured. This information is used for detecting DC input overcurrent, reverse DC input current, current deviations between DC inputs, and for detecting blown DC input fuses. DC inputs used in monitoring are configured using parameters for M1 and M2 connected DC inputs.

  • Page 43: Blown Fuse Detection

    activated after a delay defined in parameter delay. The 174.15 Current deviation configuration limits contain additional parameters. See the following description. The inverter can be configured to use either a relative or absolute comparison between DC input currents by setting parameter to the desired manner.

  • Page 44: Temperature Control

    Temperature control Temperature measurements  The inverter measures several system temperatures for temperature control and other diagnostic purposes. The amount of actual measurements depends on the number of power sections in the inverter configuration. Note: Currently, only power modules M1 and M2 are used. The ambient temperature is measured from the main air channel intake and can be read in parameter 211.01 Main air channel...

  • Page 45: Temperature Based Active Power Limitation

    Temperature based active power limitation  The inverter may limit the active power to limit the input DC current from the PV arrays. The limit for the DC current is dependent on the measured temperatures. If the active power is limited by the temperature based limitation, a status bit is set in the limitation status parameter 1.
  • Page 46 Note: • Only one failure status bit exists for each power section indicating that at least one fan in a power section, AC, and/or DC cabinet has failed. • Individual failure status of the AC and DC cabinet fans is not available. Settings See parameters 202.46...202.72.

  • Page 47: Grounding And Insulation Resistance Monitoring

    Grounding and insulation resistance monitoring Insulation resistance  According to standard IEC62109-2, the insulation resistance of the PV panel array should be measured before grid connection. The standard does not state that insulation resistance shall be measured while the inverter is running. In addition to IEC62109-2 standard, local country grid codes might put forward additional requirements on insulation measurements.

  • Page 48: Grounding

    Grounding  As default, the MGND-01 board is configured for DC- grounding but this can be changed during commissioning of the inverter. Option code F282 selects DC+ grounding instead of DC- grounding. Option code F314 selects Floating DC (no grounding). For details of the MGND-01 board, refer to the Hardware manual.

  • Page 49: Settings

    Sudden change in grounding current When the grounding feature is enabled, the MGND-01 unit constantly measures the current flowing through the grounding circuit and obtains the rms current value and the pure resistive current of that value. The resistive current (i.e. residual current) value is monitored for sudden changes and if certain limits (defined by standards) are exceeded, the inverter triggers a warning or a fault.

  • Page 50: Status Information

    Status information Typically, the inverter operates autonomously by starting and stopping until internal operating conditions are satisfied. The inverter can be remotely controlled to connect or disconnect from the grid. When a request for re-connection to the grid is sent, several internal conditions are checked before connection can take place.

  • Page 51: Disconnection Status

    Disconnection status  When the inverter is disconnected from the grid, parameter 173.12 Disconnect trigger shows the status and reason for disconnection. After the inverter is reconnected, the parameter is reset to the Connected status. 173.12 Settings Parameters 173.12 Disconnect trigger Program features 49...

  • Page 52: Customer I/O

    Customer I/O MV station monitoring and control  Medium voltage station monitoring and control feature can be configured to protect the transformer and to control the medium voltage switchgear. The software features to IOs can be configured with parameters in group Station.
  • Page 53 Parameter type Selection list 0X20 terminal Limit Current limit. This limit defines the maximum output current for the inverter when the input is active. Logic Active low [0] Active high [1] Tabel 2: Customer interface digital inputs configuration To activate a certain MV station protection feature, select the correct source and settings. For example, if the MV transformer overpressure signal is connected to the digital input X20.x connector, configure the following parameters: Parameter type...
  • Page 54 The inverter output current limitation curve is based on the temperature. T (°c) Figure 21. Inverter output current limitation curve Both the analog inputs software feature has the following set of parameters: Parameter type Selection list 0X20 terminal Source Zero [0] Analog input X20.9 - 10 Analog input X20.11 - 12 Spare AI3...

  • Page 55: Customer External Faults

    Tabel 5: Example of customer interface analog inputs configuration Settings 177.51 Transformer temperature 1 source...177.73 Transformer temperature 2, current limit current 2 Digital output The only digital output for the MV station is the MV switchgear breaker opening signal. This signal is controlled by different features of the MV transformer or by user control. The MV breaker opening signal can be routed from the software to the physical IO by setting the parameter 176.11 Relay output x20.8 source...
  • Page 56 Tabel 6: Customer external faults configuration To configure a customer fault signal, select the correct source and settings. For example, if a customer fault signal is connected to the digital input X20.x connector, configure the following parameters: Action type Set parameter... Source for external fault 1 signal = Digital input X20.3 [4] 176.21 External fault 1 source...

  • Page 57: User Lock

    User lock For better cybersecurity, it is highly recommended that you set a master pass code to prevent, for example, the changing of parameter values and/or the loading of firmware and other files. WARNING! FIMER will not be liable for damages or losses caused by the failure to activate the user lock using a new pass code.
  • Page 58 56 Program features...

  • Page 59: Parameters

    Parameters This chapter describes the parameters of the inverter. The parameters are either editable or read-only. The editable parameters can be used to change the inverter settings and they are saved periodically to permanent memory. The read-only parameters (actual values) can be used to view the inverter status. An actual value is the result of a measurement or calculation by the inverter, or it contains status information.
  • Page 60 Term Definition Other [bit] The value is taken from a specific bit in another parameter. The source is selected from a parameter list. Packed Boolean (bit list). Real Real number. Type Parameter type. 58 Parameters...

  • Page 61: Summary Of Parameter Groups

    Summary of parameter groups Group Contents Page 101 Actual values Basic signals for monitoring the inverter. 104 Warnings and faults Information on warnings and faults. 107 System info Inverter hardware and firmware information. 110 Standard DI, RO Configuration of digital inputs and relay outputs. 111 Standard DIO, FI, FO Configuration of digital input/outputs and frequency input/outputs.
  • Page 62 Group Contents Page 184 Energy metering Energy metering parameters. 185 Health monitoring Health monitoring inhibits starting. 189 Inverter control Inverter control settings. 190 Grid measurements Settings for grid voltage measurements of the inverter. 195 HW configuration Various hardware-related settings. 196 System Systems settings: Language selection, parameter save and restore, control unit reboot.

  • Page 63: Parameter Listing

    Parameter listing Name/Value Description Def/ FbEq16/32 101 Actual values Basic signals for monitoring the inverter. All parameters in this group are read-only unless otherwise noted. 101.01 DC voltage Measured intermediate circuit voltage. Real 0.00 … 2000.00 V Intermediate circuit voltage. 1 = 1 V/ 100 = 1 V 101.02...

  • Page 64: Warnings And Faults

    Name/Value Description Def/ FbEq16/32 101.14 Reactive power Calculated output reactive power. Real -30000.00 … Output reactive power. 1 = 1 kVAr/ 30000.00 kVAr 100 = 1 kVAr 101.15 Reactive power % Calculated output reactive power in percentage of Real nominal value. -1000.0 …...

  • Page 65: System Info

    Name/Value Description Def/ FbEq16/32 104.19 4th latest warning Event code of the fourth previously cleared warning. /Data 104.20 5th latest warning Event code of the fifth previously cleared warning. /Data 107 System info Inverter hardware and firmware information. All parameters in this group are read-only. 107.03 Rating id Shows inverter rating ID.

  • Page 66: Standard Ai

    Name/Value Description Def/ FbEq16/32 112 Standard AI Configuration of standard analog inputs. 112.11 AI1 actual value Shows value of analog input AI1 in V or mA. Real This parameter is read-only. -22.000... Value of analog input AI1. 1000 = 1 mA 22.000 mA or V or V 112.21...

  • Page 67: Extension I/O Module 2

    Name/Value Description Def/ FbEq16/32 115 Extension I/O Configuration of I/O extension module 2. See also section Programmable I/O extensions. module 2 Note: Contents of this parameter group vary according to the selected I/O extension module type. 115.01 Module 2 type Selects option module 2 type.

  • Page 68: Reactive Power Reference

    Name/Value Description Def/ FbEq16/32 124 Reactive power Settings for reactive power reference selection, limitation and ramping. reference 124.01 User Qref Writes reactive power reference value. The unit is Real selected with parameter 124.06 Q power ref type. Reactive power reference value 1 = 1%/ 100 = 1% 124.02...
  • Page 69 Name/Value Description Def/ FbEq16/32 124.08 Ireact ref Shows reactive current reference in Amperes. Real This parameter is read-only. Reactive current reference. 1 = 1 A/ 100 = 1 A 124.09 Q power ref % Shows reactive power reference in percent of the Real nominal power.
  • Page 70 Name/Value Description Def/ FbEq16/32 124.20 AC voltage control gain Defines relative gain of the AC voltage controller used in 10.0 / Real the reactive power reference chain. 0.0 … 100.0 Relative gain of the AC voltage controller. 10 = 1 124.21 AC voltage control integ Defines integration time of the AC voltage controller...
  • Page 71 Name/Value Description Def/ FbEq16/32 124.31 Lock-in level Defines lock-in level above which the Q(x) regulation 20.0%/ Real curve is activated. 0.0 … 200.0% Lock-in level. 1 = 1%/ 10 = 1% 124.32 Lock-out level Defines lock-out level. If the signal goes below the lock- 5.0%/ Real out level, the reactive power reference is reset to zero...

  • Page 72: Frt Support Curve

    Name/Value Description Def/ FbEq16/32 124.43 Q(x) output level 5 Defines fifth reference output value for the Q(x) 0.0% / Real regulation curve. Fifth reference output value for the Q(x) regulation 1 = 1% / curve. 100 = 1% 124.44 Q(x) output level 6 Defines sixth reference output value for the Q(x) 0.0% / Real...
  • Page 73 Name/Value Description Def/ FbEq16/32 125.04 Lv Gs trig U % Defines low voltage grid support trigger level. 90%/ Real 0 … 100% Low voltage grid support trigger level. 1 = 1% 125.05 Lv Gs K-factor Defines low voltage grid support gain for capacitive 1.00 /Real reactive current.
  • Page 74 Name/Value Description Def/ FbEq16/32 Min LL rms voltage Minimum rms value of line-to-line voltage. Max phase rms voltage Maximum rms value of phase voltage. Min phase rms voltage Minimum rms value of phase voltage. Pos seq voltage Positive sequence component of voltage. Same as Gs LV (page 70).

  • Page 75: Frt Tripping Curve

    Name/Value Description Def/ FbEq16/32 125.34 Frt Ipow ref % Shows FRT active current reference. Real This parameter is read-only. -200.0 … 200.0% FRT active current reference. 1 = 1%/ 10 = 1% 125.35 Frt Ipow ref out % Shows ramped FRT active current reference. Real This parameter is read-only.
  • Page 76 Name/Value Description Def/ FbEq16/32 Min phase rms voltage Minimum rms value of phase voltage. Pos seq voltage Positive sequence component of voltage. 126.03 Lv Rt asymm sig Selects voltage signal of low voltage asymmetric dip. Pos seq voltage/ List Max LL rms voltage Maximum rms value of line-to-line voltage.
  • Page 77 Name/Value Description Def/ FbEq16/32 126.15 Lv Rt sec 4 time Defines duration of low voltage tripping curve (Lv Rt) 600 ms/ Real section 4. If duration is greater than zero, the Lv Rt section is enabled. 0 … 300000 ms Low voltage tripping curve section 4 duration.

  • Page 78: Limits

    Name/Value Description Def/ FbEq16/32 126.33 Hv Rt sec 2 time Defines duration of high voltage tripping curve (Hv Rt) 400 ms/ Real section 2. If duration is greater than zero, the low voltage tripping curve (Lv Rt) section is enabled. 0 …...
  • Page 79 Name/Value Description Def/ FbEq16/32 b10: External P limit b11: FRT recovery ramp b12: P(U) b13: Flat-top b14: Input current b15: Grid current 130.02 Limit word 2 Shows reactive power limitation status. 0x0000/ Bit list This parameter is read-only. b0: Q ref max Reactive power reference limited by parameter 124.11 Ireact ref max %.
  • Page 80 Name/Value Description Def/ FbEq16/32 130.06 Limit word 6 Shows temperature based grid current limitation status. 0x0000/ Bit list This parameter is read-only. b0: Iout CS temperature b1: Iout PS temperature b2: Iout IGBT temperature b3: Iout LCL temperature b4: Iout ambient temperature b5...b15: Reserved 130.11...
  • Page 81 Name/Value Description Def/ FbEq16/32 130.65 P(f) release frequency Defines frequency above the nominal frequency when 0.20 Hz/ Real limitation is released and ramping limit up is started. 0.00...30.00 Hz Release frequency 100 = 1 Hz 130.66 P(f) release time Defines delay time after frequency dropped below 0 s/ Real release frequency before ramping limit up is started.
  • Page 82 Name/Value Description Def/ FbEq16/32 130.79 P(U) limit level Defines P(U) active power limit level. 20.0%/ Real 0.0...100.0 % P(U) limit level. 10 = 1 % 130.80 P(U) limit ramp Defines P(U) limit ramp. 50%/min/ Real 5...100 % P(U) limit ramp. 1 = 1 %/min 130.81 P(U) release ramp...

  • Page 83: Grid Monitoring

    Name/Value Description Def/ FbEq16/32 130.101 Priority Defines priority of active current or reactive current Active when current must be limited. current/ List Active current Reactive current 135 Grid monitoring Settings for grid monitoring. 135.01 Grid code Selects grid code. Changing this value sets default Not selected/ and/or mandatory values for all other grid parameters.
  • Page 84 Name/Value Description Def/ FbEq16/32 135.19 Zero cross monitor Enables zero cross detection in grid monitoring. Real enable 0...1 Zero cross detection in grid monitoring 1 = 1 135.20 Connect Selects type for under frequency protection limit during Disconnecte underfrequency type startup.
  • Page 85 Name/Value Description Def/ FbEq16/32 Enabled Overvoltage protection is enabled. Connection to grid is allowed only when grid voltage is below the limit defined in parameter 135.27 Connect overvoltage limit. 135.27 Connect overvoltage Defines overvoltage limit used only when the inverter is 110 %/ Real limit...
  • Page 86 Name/Value Description Def/ FbEq16/32 135.52 Undervoltage time 1 Defines tripping time for undervoltage condition 1. 200 ms/ Real 100...600000 ms Undervoltage condition 1 trip time. 1 = 1 ms 135.53 Undervoltage enable 2 Enables undervoltage condition 2. Real 0...1 0 - Undervoltage condition 2 is disabled. 1 = 1 1 - Undervoltage condition 2 is enabled.
  • Page 87 Name/Value Description Def/ FbEq16/32 135.72 Overvoltage enable 4 Enables overvoltage protection 4. Real 0...1 0 - Overvoltage protection 4 disabled. 1 = 1 1 - Overvoltage protection 4 enabled. 135.73 Overvoltage limit 4 Defines limit for overvoltage protection 4. 130 %/ Real 100...200 % Overvoltage protection 4 limit.
  • Page 88 Name/Value Description Def/ FbEq16/32 135.103 AI overfrequency enable Enables anti-islanding overfrequency protection. Real 0...1 0 - Anti-islanding overfrequency protection disabled. 1 = 1 1 - Anti-islanding overfrequency protection enabled. 135.104 AI overfrequency limit Defines limit for anti-islanding overfrequency protection. 5.0 Hz/ Real 0.0...30.0 Hz Anti-islanding overfrequency protection limit.
  • Page 89 Name/Value Description Def/ FbEq16/32 135.138 Underfrequency limit 3 Defines limit for underfrequency protection 3. -1.0 Hz/ Real -30.0...0.0 Hz Underfrequency protection 3 limit. 1 = 1 Hz/ 10 = 1 Hz 135.139 Underfrequency time 3 Defines time for underfrequency protection 3. 100 ms/ Real 100...600000 ms...

  • Page 90: Fba

    Name/Value Description Def/ FbEq16/32 b2: Connect Connect undervoltage is not within limit. undervoltage b3: Connect overvoltage Connect overvoltage is not within limit. b4: Underfrequency 1 Underfrequency 1 is not within limit. b5: Underfrequency 2 Underfrequency 2 is not within limit. b6: Overfrequency 1 Overfrequency 1 is not within limit.
  • Page 91 Name/Value Description Def/ FbEq16/32 Option slot 2 Communication between inverter and fieldbus adapter A enabled. The adapter is in slot 2. Option slot 3 Communication between inverter and fieldbus adapter A enabled. The adapter is in slot 3. 150.02 FBA A comm loss func Selects how the inverter should react when fieldbus No action/ communication breaks.
  • Page 92 Name/Value Description Def/ FbEq16/32 Transparent No scaling is applied. General Generic reference without a specific unit. DC voltage Active power Reserved. Reactive power 150.08 FBA A act2 type Selects type and scaling of actual value 2 transmitted to Voltage or the fieldbus network through fieldbus adapter A.
  • Page 93 Name/Value Description Def/ FbEq16/32 150.16 FBA A Status Word Shows status word sent by fieldbus adapter A to the Data master (PLC). This parameter is read-only. 150.17 FBA A Actual value 1 Shows raw actual value ACT1 sent by fieldbus adapter Real A to the master (PLC).
  • Page 94 Name/Value Description Def/ FbEq16/32 Warning Inverter generates only warning, no other actions are taken due to comm loss. 150.33 FBA B comm loss t out Defines time delay before the action defined by 0.3 s/ Real parameter 50.02 Comm loss func is taken. Time count starts when the link fails to update the message.
  • Page 95 Name/Value Description Def/ FbEq16/32 DC voltage Active power Reserved. Reactive power 150.39 FBA B SW tr src Selects source of fieldbus status word when parameter Not selected/ is set to Transparent. 150.36 FBA B SW sel List Not selected No source selected. Other Terms and abbreviations on page 57.

  • Page 96: Fba A Settings

    Name/Value Description Def/ FbEq16/32 150.47 FBA B Actual value 1 Shows raw (unmodified) actual value ACT1 sent by Real fieldbus adapter B to the master (PLC) if debugging is enabled by parameter 150.42 FBA B debug mode. This parameter is read-only. -2147483648...
  • Page 97 Name/Value Description Def/ FbEq16/32 CCLink RS-485 comm Modbus/TCP Ethernet/IP 2222 BACnet/IP 47808 Macro 61441 J1939 61456 Fieldbus 61696 SERCOS 62944 Sercos III 62947 151.02 FBA Par2 Parameters 151.02…151.26 are adapter module- Real specific. For more information, see the documentation of the fieldbus adapter module.
  • Page 98 Name/Value Description Def/ FbEq16/32 151.17 FBA Par17 See parameter 151.02 FBA Par2. Real 0...65535 1 = 1 151.18 FBA Par18 See parameter 151.02 FBA Par2. Real 0...65535 1 = 1 151.19 FBA Par19 See parameter 151.02 FBA Par2. Real 0...65535 1 = 1 151.20 FBA Par20...

  • Page 99: Fba A Data In

    Name/Value Description Def/ FbEq16/32 Conf.err Adapter configuration error: The major or minor revision code of the common program revision in the fieldbus adapter module is not the revision required by the module (see parameter ver) or 151.32 FBA comm SW mapping file upload has failed more than three times.

  • Page 100: Fba A Data Out

    Name/Value Description Def/ FbEq16/32 153 FBA A data out Selection of data to be transferred from fieldbus controller to inverter 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 101 Name/Value Description Def/ FbEq16/32 BACnet/IP 47808 Ethernet/IP 2222 Modbus/TCP 154.02 FBA Par2 Parameters are adapter module- 154.02…154.26 Real specific. For more information, see the documentation of fieldbus adapter module. Note that not all of these parameters are necessarily in use. 0...65535 1 = 1 …...

  • Page 102: Fba B Data In

    Name/Value Description Def/ FbEq16/32 154.32 FBA comm SW ver Shows common program revision of the adapter module Data in format axyz, where a = major revision number, xy = minor revision numbers. z = correction letter. Example: 190A = revision 1.90A. 154.33 FBA appl SW ver Shows application program revision of the adapter...

  • Page 103: Scada Configuration

    Monitoring only 164.02 SCADA profile Defines how SCADA input/output data is mapped to Profile 1/ List SCADA parameters. Profile 1 PVS980-58 Profile 2 PVS800-57B Profile 3 PVS980-58BC (energy storage) Reserved 164.04 Power scale SCADA scales active power limit according to this value. 2000.0 kW/ Real 0.0...5000.0 kW...

  • Page 104: Scada Data In

    Name/Value Description Def/ FbEq16/32 165 SCADA data in Inverter SCADA data in. 165.01 Data in 1 Inverter SCADA interface data in. Real 165.15 Data in 15 0...65535 1 = 1 165.50 Data in 50 Inverter SCADA interface data in. Real 165.56 Data in 56 0...65535...
  • Page 105 Name/Value Description Def/ FbEq16/32 173.03 MPPT unit state Shows the state of MPPT unit. Ready on/ List Disabled Run or start disabled. Ready on MPPT unit is ready to start. No active faults. Ready run MPPT unit is ready to start modulating. DC voltage is up. 2 Starting Grid current controller is starting.
  • Page 106 Name/Value Description Def/ FbEq16/32 173.06 Internal inverter Indicates the internal conditions that are inhibiting the 0b0000/ inhibitors 2 inverter from connecting to grid. Bit list b0...b1: Reserved b2: Open door b3...b15: Reserved 173.07 Internal inverter Indicates the internal conditions that are inhibiting the 0b0000/ inhibitors 3 inverter from connecting to grid.
  • Page 107 Name/Value Description Def/ FbEq16/32 173.21 Start logic ready in Shows remaining time before connection is allowed by Real start and wake-up monitor. 0 … 10000 s Grid monitoring ready time. 1 = 1 s 173.23 PU ready in Shows remaining time before connection is allowed by Real power unit.

  • Page 108: Dc Input Current Monitor

    Name/Value Description Def/ FbEq16/32 174 DC input current DC input current monitor. Parameter 174.31...174.104 are read-only. monitor Note: Variant dependent. Information may not be available in all variants. Available with option G417 DC input current measurement. 174.01 M1 connected DC Connection setup for each DC input in module 1.
  • Page 109 Name/Value Description Def/ FbEq16/32 174.05 Overcurrent detection Enables DC input overcurrent detection. Enabled/ List Disabled Enabled 174.06 Overcurrent instant limit Defines instant DC input overcurrent limit that causes a 200.0 A/ Real fault. 0.0 … 2000.0 A DC input overcurrent limit. 1 = 1 A/ 10 = 1 A 174.07...
  • Page 110 Name/Value Description Def/ FbEq16/32 174.18 Global reference Enables the use of global reference with all existing Enable/d List modules. Comparison is done using all existing input currents. See also (page 40). Current deviation detection Disabled Enabled 174.19 Relative current limit Sets the relative DC input current limit: maximum 30%/ Real...
  • Page 111 Name/Value Description Def/ FbEq16/32 174.27 M1 DC input current Sets DC input current measurement range. 0b0000/ range selection Bit list 0 = 200 A 1 = User selection (default is 400 A) b0: M1S1 Input current range b1: M1S2 Input current range b2: M1S3 Input current range...
  • Page 112 Name/Value Description Def/ FbEq16/32 b10: M2S11 Input current range b11: M2S12 Input current range b12...b15: Reserved 174.31 M1 DC input 1 current Shows DC input 1 current for module 1. Real -200.0 … 500.0 A 1 = 1 A/ 10 = 1 A 174.32 M1 DC input 2 current Shows DC input 2 current for module 1.
  • Page 113 Name/Value Description Def/ FbEq16/32 174.53 M2 DC input 3 current Shows DC input 3 current for module 2. Real -200.0 … 500.0 A 1 = 1 A/ 10 = 1 A 174.54 M2 DC input 4 current Shows DC input 4 current for module 2. Real -200.0 …...

  • Page 114: Customer Ios

    Name/Value Description Def/ FbEq16/32 b7: M1 DC input 8 measurement status b8: M1 DC input 9 measurement status b9: M1 DC input 10 measurement status b10: M1 DC input 11 measurement status b11: M1 DC input 12 measurement status b12...b15: Reserved 174.102 M2 DC input current Shows if measurement is faulty for each DC input...
  • Page 115 Name/Value Description Def/ FbEq16/32 Insulation resistance status MV breaker status Contactor control duplication on page 57. Other Terms and abbreviations 176.12 Spare RO2 source Selects source for setting the state of spare relay output 2. connected/ List Not connected Connected Grounding status Insulation resistance status...
  • Page 116 Name/Value Description Def/ FbEq16/32 176.24 External fault 1 failure Selects customer IO external fault 1 failure logic as Active High/ logic active high or active low. List Active Low Active High 176.26 External fault 2 source Selects source for customer IO external fault 2 signal. Off/ List See also...

  • Page 117: Mv Station

    Name/Value Description Def/ FbEq16/32 Spare DI8 Spare DI9 Spare DI10 Spare DI11 Spare DI12 Other Terms and abbreviations on page 57. 176.32 External fault 3 action Selects action type in the event of customer IO external No action/ fault 3. List No action Delayed warning...
  • Page 118 Name/Value Description Def/ FbEq16/32 Warning and delayed fault Delayed fault Fault and delayed MV breaker opening 177.13 Transformer Defines delay time for medium voltage transformer Real temperature alarm delay overtemperature alarm action. 0...3600 s Delay time 1 = 1 s 177.14 Transformer Defines current limit for medium voltage transformer...
  • Page 119 Name/Value Description Def/ FbEq16/32 177.18 Transformer Defines delay time for medium voltage transformer 0 s/ Real temperature fault delay overtemperature fault action. 0...3600 s Delay time 1 = 1 s 177.19 Transformer Defines current limit for medium voltage transformer 10000 A/ temperature fault overtemperature fault.
  • Page 120 Name/Value Description Def/ FbEq16/32 177.25 Transformer low oil level Selects failure logic for medium voltage transformer low Active High/ failure logic oil level. The alarm is active high or active low. List Active Low Active High 177.26 MV overpressure Selects source for medium voltage transformer Off/ List source...
  • Page 121 Name/Value Description Def/ FbEq16/32 Digital input X20.1 Digital input X20.2 Digital input X20.3 Digital input X20.4 Digital input X20.5 Digital input X20.6 Digital input X20.7 Spare DI8 Spare DI9 Spare DI10 Spare DI11 Spare DI12 on page 57. Other Terms and abbreviations 177.32 Transformer vacuum Defines medium voltage transformer vacuum failure...
  • Page 122 Name/Value Description Def/ FbEq16/32 Spare DI8 Spare DI9 Spare DI10 Spare DI11 Spare DI12 Other Terms and abbreviations on page 57. 177.37 Transformer gas Selects medium voltage transformer gas discharge No action/ discharge action action. List No action Delayed warning Warning and delayed fault Delayed fault...
  • Page 123 Name/Value Description Def/ FbEq16/32 177.42 MV breaker feedback Selects medium voltage breaker opening signal action. No action/ action List No action Delayed warning Warning and delayed fault Delayed fault Fault and delayed MV breaker opening 177.43 MV breaker feedback Defines delay time for medium voltage breaker opening 0 s/ Real action delay...
  • Page 124 Name/Value Description Def/ FbEq16/32 177.48 MV phase loss Defines delay time for medium voltage side phase lost 0 s/ Real detection action delay action. 0...3600 s Phase lost action delay time. 1 = 1 s 177.49 MV phase loss Defines limit for medium voltage side phase lost power. 1000 A/ Real detection power limit...
  • Page 125 Name/Value Description Def/ FbEq16/32 177.59 Transformer Defines temperature 3 of the medium voltage 100 °C/ Real temperature 1, current transformer coil temperature related current limitation limit temperature 3 curve. At this temperature current is limited to 0%. Also a fault is triggered. 0...200 °C Temperature 3.

  • Page 126: Mppt Settings

    Name/Value Description Def/ FbEq16/32 177.70 Transformer Defines temperature 2 value of the medium voltage 95 °C/ Real temperature 2, current transformer oil temperature related current limitation limit temperature 2 curve. At this temperature current is limited to point 2 value. 0...200 °C Temperature 2 value.

  • Page 127: Health Monitoring

    Name/Value Description Def/ FbEq16/32 0...65535 W Total energy (W) produced 1 = 1 W 184.09 Total kVAh supplied Shows total kVAh supplied. Real This parameter is read-only. 0...4294967295 kVAh Total kVAh supplied. -/ 1 = 1 kVAh 184.10 Total kVAh supplied Shows total kVAh supplied.

  • Page 128: Inverter Control

    Name/Value Description Def/ FbEq16/32 b2 … b15: Reserved 185.05 24 V buffer status Shows 24 V buffer status. 0b0000/ Bit list b0: 24 V buffer 24 V buffer status. b1 … b15: Reserved 185.06 Aux protection devices Shows the status of auxiliary protection devices, which 0b0000/ status include circuit breakers and surge protectors.
  • Page 129 Name/Value Description Def/ FbEq16/32 189.03 IO transfer trip source Selects source for IO transfer trip. Off/ List See also on page 50. Digital inputs Digital input X20.1 Digital input X20.2 Digital input X20.3 Digital input X20.4 Digital input X20.5 Digital input X20.6 Digital input X20.7 Spare DI8 Spare DI9...

  • Page 130: Grid Measurements

    Name/Value Description Def/ FbEq16/32 189.07 SCADA shutdown Shows SCADA ramped shut down status. Inactive/ List Inactive SCADA ramped shut down not active. Active SCADA ramped shut down activated. 189.08 Shutdown event Sets event for ramped shut down. No action/ List No action Warning Fault...

  • Page 131: Hw Configuration

    Name/Value Description Def/ FbEq16/32 190.12 Phase voltage neg seq Shows negative sequence value of phase voltage. Real 0.00 … 2000.00 V Negative sequence of phase voltage. 1 = 1 V/ 100 = 1 V 190.13 Main voltage pos seq Shows positive sequence value of line-to-line voltage. Real 0.00 …...

  • Page 132: System

    Name/Value Description Def/ FbEq16/32 196 System Systems settings: Language selection, parameter save and restore, control unit reboot. 196.01 Language Selects language of the parameter interface and other Not selected/ displayed information. List Not selected Default value of the parameter and means that language has not been selected.
  • Page 133 Name/Value Description Def/ FbEq16/32 User set 2 User set 2 is loaded. User set 3 User set 3 is loaded. User set 4 User set 4 is loaded. User set 5 User set 5 is loaded. User set 6 User set 6 is loaded. User set 7 User set 7 is loaded.
  • Page 134 Name/Value Description Def/ FbEq16/32 b4: Master/Follower 1 = Tick received: Tick is received through the master/follower link. b5: Reserved b6: D2D 1 = Tick received: Tick is received through the inverter- to-inverter link. b7: FbusA 1 = Tick received: Tick is received through fieldbus interface A.

  • Page 135: Plc Diagnostics

    Name/Value Description Def/ FbEq16/32 Factory data logger runs at 2ms time level. Data is captured approximately for a the set time period. 10ms Factory data logger runs at 10ms time level. Data is captured approximately for the set time period. 196.100 Change user passcode Defines recent user passcode.

  • Page 136: Fan Control

    Name/Value Description Def/ FbEq16/32 0...65535 1 = 1 199.32 PLC error component 3 Shows PLC error component 3. Real 0...65535 1 = 1 199.33 PLC error device 3 Shows PLC error device 3. Real 0...65535 1 = 1 199.34 PLC error module 3 Shows PLC error module 3.

  • Page 137: Plc Extension Inputs

    Name/Value Description Def/ FbEq16/32 0 … 20000 rpm 1 = 1 rpm 202.70 Main fans fail status Shows main air channel fans fail status. 0b0000/ This parameter is read-only. Bit list b0 M1 Fan 1 Failed status of main air channel fan 1, module 1. b1 M1 Fan 2 Failed status of main air channel fan 2, module 1.
  • Page 138 Name/Value Description Def/ FbEq16/32 204.04 PLC digital inputs 2 PLC I/O unit DX571 # 1 digital inputs 0x0000/ Bit list b0: M1 DC switch status b1: M1 AC switch feedback b2: M1 LCL overheating status b3: M1 AC contactor status b4: M1 DC contactor status b5: M1 48 Vdc status...
  • Page 139 Name/Value Description Def/ FbEq16/32 b13: Spare DI8 b14: Spare DI9 b15: Spare DI10 204.06 PLC watchdog read PLC reads this parameter and copies the value to PLC Real watchdog write parameter. This parameter also has the reboot/error return acknowledgement signal in bit 8. It means that PLC has noticed the reboot or the error acknowledgement signal.
  • Page 140 Name/Value Description Def/ FbEq16/32 0...65535 1 = 1 204.115 Spare AI1 Defines spare analog input AI1 of the PLC. Real 0...65535 1 = 1 204.116 Spare AI2 Defines spare analog input AI2 of the PLC. Real 0...65535 1 = 1 204.117 M1 DC input current 1 Defines DC input 1, current measurement for power...
  • Page 141 Name/Value Description Def/ FbEq16/32 204.131 M2 DC input current 7 Defines DC input 7, current measurement for power Real module 2. 0...65535 1 = 1 204.132 M2 DC input current 8 Defines DC input 8, current measurement for power Real module 2.
  • Page 142 Name/Value Description Def/ FbEq16/32 204.145 PLC error channel Defines module specific PLC error fault channel. Real See AC500 documentation. 0...65535 1 = 1 204.146 PLC error identifier Defines PLC error identifier. See AC500 documentation. -/ Real 0...65535 1 = 1 204.147 PLC error state Defines output status of PLC read error.

  • Page 143: Plc Extension Outputs

    Name/Value Description Def/ FbEq16/32 205 PLC Extension PLC output signals. Outputs 205.01 Spare AO1 PLC CPU module PM564 analog voltage output of Real power module 3 cabinet fan control signal. 0...65535 1 = 1 205.02 PLC Relay Outputs 1 PLC CPU unit PM564 relay outputs 1. 0x0000/ Bit list b0: Green status lamp...

  • Page 144: System Configurator

    Name/Value Description Def/ FbEq16/32 b15: Spare RO3 205.04 PLC watchdog write Shows the value that PLC reads and copies from the Real “PLC watchdog read” parameter. This parameter is read-only. 0...65535 1 = 1 205.05 PLC diagnostics counter Defines PLC diagnostics counter. Real 0...1024 1 = 1...

  • Page 145: Dc Input Monitor

    Name/Value Description Def/ FbEq16/32 24 DC inputs Not selected Selected Not selected Selected Not selected Selected Not selected Selected Not selected Selected Not selected Selected Not selected Selected Not selected Selected Not selected Selected Not selected Selected Old (1xD0573) New (2xD0571) 208 DC input monitor DC input voltage monitoring related parameter group.

  • Page 146: Misc

    Name/Value Description Def/ FbEq16/32 209 Misc Miscellaneous functions. 209.01 PLC manual test mode Enables PLC manual test mode. Disabled/ List Disabled When test mode is disabled, outputs are controlled by software. Enabled When test mode is enabled, PLC output controls can be modified manually from the parameter.
  • Page 147 Name/Value Description Def/ FbEq16/32 210.04 Ignore insulation Ignores insulation resistance measurement before Disabled/ List resistance grounding. This action allows grounding when the insulation resistance is low, e.g., during high moisture mornings. In all cases, grounding is opened (removed), if there is a high grounding voltage or current.
  • Page 148 Name/Value Description Def/ FbEq16/32 Fault Triggers 37125 Residual current fault code in the event of residual current failure. 210.17 Grounding current time Defines disconnection time for residual current fault. 0.160 s/ Real limit 0.000...2.000 s Grounding current time limit. 1 = 1 s/ 1000 = 1 s 210.18 Sudden change current...

  • Page 149: Temperature Monitoring

    Name/Value Description Def/ FbEq16/32 b0: Grounding contactor command b1: Insulation measurement disable command b2...15: Reserved 210.37 Pre-grounding Shows the last measured insulation resistance before Real insulation resistance grounding. This parameter is read-only. 0..Ohm 1 = 1 Ohm 211 Temperature Temperature monitoring related parameters.
  • Page 150 Name/Value Description Def/ FbEq16/32 -100.0 … 200.0 °C 10 = 1 °C 211.29 M1 IGBT T5 Shows module 1 IGBT module temperature 5. Real temperature -100.0 … 200.0 °C 10 = 1 °C 211.30 M1 IGBT T6 Shows module 1 IGBT module temperature 6. Real temperature -100.0 …...

  • Page 151: Wake-Up Monitor

    Name/Value Description Def/ FbEq16/32 211.71 Sensor fail status Shows temperature sensor fail status of the following 0b0000/ measurements: Bit list • control cabinet • main air channel • LCL cabinet • AC cabinet. b0: Control cabinet Sensor failure status of the control cabinet temperature measurement.
  • Page 152 Name/Value Description Def/ FbEq16/32 213.04 Max daily connect Defines limit for daily connection attempts. When the Real attempts limit exceeds, a timer (parameter 213.15 Timeout for exceeding daily connections) waits for multiple hours before the next attempt. 0 … 20 Daily connection attempts limit.

  • Page 153: Switch Control

    Name/Value Description Def/ FbEq16/32 213.18 Evening cool down Defines the time limit for which connecting the inverter is 40 min/ Real delay not tried again after sleep mode is completed. 0 … 2000 min Time limit for cool down. 1 = 1 min 213.19 Fault time limit Defines the duration for which the wake-up state...
  • Page 154 Name/Value Description Def/ FbEq16/32 214.05 DC contactor 1 Shows number of counts that contactor is switched on. Real switchings 0...4294967295 DC contactor 1 switching counts. 1 = 1 214.06 DC contactor 2 Shows number of counts that contactor is switched on. Real switchings 0...4294967295...

  • Page 155: Troubleshooting

    Troubleshooting The chapter lists fault, warning, and event messages including possible causes and corrective actions. Fault, warning, and event codes The fault and warning code is displayed on the control panel, as well as on the Drive composer PC tool. A fault and warning message indicates an abnormal status. Most fault and warning causes can be identified and corrected using the information in this chapter.

  • Page 156: Reset A Fault

    Reset a fault After the cause of a fault is corrected, the active fault can be reset from control panel, Drive composer PC tool, I/O interface, or fieldbus. When fault is removed, the inverter can be restarted. Some faults may be restarted by an autoreset feature. Autoreset is indicated in event logs.

  • Page 157: Fault Messages Generated By The Inverter

    Fault messages generated by the inverter If there is an active fault message, reset the inverter using any of these methods: • Press the “Reset” button on the control unit, • Issue a reset through parameter faults, or 189.11 Reset active •...
  • Page 158 Code in Fault Cause What to do (Hex) 15877 DC link undervoltage Intermediate circuit DC voltage is Contact your local FIMER not sufficient. representative. (0x3e05) 15878 BU DC link difference Difference in DC voltages Contact your local FIMER between parallel-connected representative.
  • Page 159 Code in Fault Cause What to do (Hex) 19975 Control board Control board (BCU-12) Check temperature temperature is too high. (0x4e07) • control board temperature in Aux. code 1 = indicates sensor is parameter 211.05 Control faulty board temperature. • control cabinet air flow. If sensor is faulty, change the control board.
  • Page 160 Code in Fault Cause What to do (Hex) 28187 Backup/Restore Parameter backup/Restore Check panel / PC-tool Timeout timeout error detected. connection and retry (0x6e1b) Backup/Restore, if problem persists contact your local FIMER representative. 28188 Fast power off Inverter has received a fast 1.
  • Page 161 Code in Fault Cause What to do (Hex) 36352 Overvoltage fault Inverter tripped due to grid • Check aux. code. overvoltage monitoring limits. (0x8e00) • Check limits in parameter Aux code: group 135 Grid monitoring. 1 = Overvoltage1 (U1ab) • Reset fault. 2 = Overvoltage1 (U1bc) 3 = Overvoltage1 (U1ca) 4 = Overvoltage2 (U1ab)
  • Page 162 Code in Fault Cause What to do (Hex) 37123 Excess humidity The relative humidity of cabinet Check that doors and coolers are has exceeded the fault level closed properly. if problem (0x9103) regardless of humidity control persists contact your local attempt.
  • Page 163 Code in Fault Cause What to do (Hex) 37145 Fan status feedback A fan failure is detected from Contact your local FIMER shared fan status feedback representative. (0x9119) signal of module 1 (M1). At least one of the fans connected to shared feedback signal has failed.
  • Page 164 Code in Fault Cause What to do (Hex) 37163 MV transformer Medium voltage transformer Check MV transformer. overpressure fault overpressure fault occurred. (0x912b) 37164 MV breaker opened Medium voltage breaker is Check MV transformer. fault opened. (0x912c) 37165 MV transformer Medium voltage transformer Check MV transformer.
  • Page 165 Code in Fault Cause What to do (Hex) 37173 Aux circuit breaker Auxiliary circuit breaker failed. See aux. code for module information. (0x9135) Check • parameter 185.06 Aux protection devices status know the failed module • wiring of auxiliary circuit breaker.
  • Page 166 Code in Fault Cause What to do (Hex) 37181 AC switch closed AC switch is closed in the • Check aux. code to identify module that is not operational. switch. (0x913d) • Open the AC switch. 37184 AC breaker tripped AC breaker tripped.
  • Page 167 Code in Fault Cause What to do (Hex) 37204 DC input current One or more DC input current • Check DC input connections measurement faulty measurement failed. and sensor. (0x9154) Aux. code (format XYZ) indicates • Check aux. code. the failed power module. If X = 1, measurement failed due to calibration function If X = 0, measurement is out of...

  • Page 168: Warning Messages Generated By The Inverter

    Warning messages generated by the inverter Warnings do not prevent inverter power feed to grid, but output power may be limited. Code Warning Cause What to do 44544 Current calibration Current calibration is about to be performed. (0xae0 Current offset and gain measurement calibration will be performed at next start.
  • Page 169 Code Warning Cause What to do 44567 PU communication Communication error detected Check that communication between control unit and power cables are correctly fixed in the (0xae1 unit. communication unit. If warning persists, contact your local FIMER representative. 44569 Measurement circuit Problem with internal temperature Contact your local FIMER temperature...
  • Page 170 Code Warning Cause What to do 44640 Control board Control board temperature is too Check temperature high. (0xae6 • control board temperature with parameter 211.05 Control board temperature. • control cabinet air flow. If sensor is faulty (aux. code = 1), change control board.
  • Page 171 Code Warning Cause What to do 57601 Over temperature Over temperature warning level Check aux. code. exceeded. Nominal output current (0xe10 Contact your local FIMER may not be available. representative. Aux. code: 1 = indicates temperature exceeded warning limit in control section 2 = indicates temperature exceeded warning limit in power...
  • Page 172 Code Warning Cause What to do 57613 Module 2 LCL fan fail A fan failure is detected in at least Contact your local FIMER one of the LCL fans in module 2 representative. (0xe10 (M2). 57616 Fan status feedback Module 1 internal cabinet fan Contact your local FIMER failure.
  • Page 173 Code Warning Cause What to do 57629 PLC link fault Internal PLC communication Reboot aux. power from the failure, inverter twice. If problem (0xe11 persists, contact your local inverter is stopped. FIMER representative. 57630 DC input reverse Negative voltage detected in DC Check connection of DC connected input.
  • Page 174 Code Warning Cause What to do 57642 MV breaker opened Medium voltage breaker is Check parameter group 177 MV warning opened. Station. (0xe12 57643 MV transformer Medium voltage transformer Check parameter group 177 MV temperature warning temperature is too high. Station.
  • Page 175 Code Warning Cause What to do 57655 24 V buffer 24 buffer failed. See aux. code for Check module information. (0xe13 • parameter 185.05 24 V buffer 185.05 to know the status failed module • 24V buffer and wiring. 57656 Aux circuit breaker Auxiliary circuit breaker failed.
  • Page 176 Code Warning Cause What to do 57668 Disabling all modules All modules are requested to be Enable at least one module for requested disabled. operating system. (0xe14 57669 Disabling non-existing A module not existing in Check module disable forcing module configuration is requested to be parameters.
  • Page 177 Code Warning Cause What to do 57685 DC input current DC input current measurement is • Check aux. code. measurement out of range. (0xe15 • Check DC input connections Connection is lost or sensor is and sensor. broken. • Check wiring and sensor. One or more DC input current measurement has/have failed.
  • Page 178 Code Warning Cause What to do 58151 AC fuse monitor Grid is unstable, or grid phases Check grid status, AC warning are missing over a predefined connections and AC fuses of (0xe32 time. the modules. 176 Troubleshooting...

  • Page 179: Pure Events Generated By The Inverter

    Pure events generated by the inverter Pure events are recorded in the event logs of the drive. Code in Pure event Cause What to do (Hex) 48649 SSW internal System SW diagnostics has Check aux. code and contact diagnostics recorded an exceptional event your local FIMER (0xbe09) during normal execution of system...
  • Page 180 Code in Pure event Cause What to do (Hex) 58130 Grid external monitor Grid external monitor trip. Inverter automatically starts trip operation when normal (0xe312) conditions are achieved. 58144 Transfer trip Transfer trip command received. Remove command. (0xe320) 58145 Shutdown Shut down command received Remove command.

  • Page 181: Reduced Run

    Reduced run Refer to the Commissioning and maintenance manual. Reduced run 179...
  • Page 182 180 Reduced run...

  • Page 183: Communication Interfaces

    Important: This inverter is not allowed to be connected to a public network. See Terms on page and Cybersecurity for ABB drives Technical guide and abbreviations [3AXD10000492137 (English)]. The inverter can be connected to an external control system through an optional fieldbus adapter that is mounted on the inverter control unit.

  • Page 184: Connecting Inverter To Communication Or Fieldbus Network

    Fieldbus adapters are available for various communication systems and protocols, e.g.,: • CANopen (FCAN-01 adapter) • ControlNet (FCNA-01 adapter) • DeviceNet (FDNA-01 adapter) • EtherCAT® (FECA-01 adapter) • EtherNet/IP (FENA-11 or FENA-21 adapter) • Modbus/RTU (FSCA-01 adapter) • Modbus/TCP (FENA-11 or FENA-21 adapter) •...

  • Page 185: Setting Up The Inverter For Fieldbus Control

    Setting up the inverter for fieldbus control 1. Install the fieldbus adapter module mechanically and electrically according to the instructions given in the User's manual of the module. 2. Power up the inverter. 3. Enable communication between the inverter and the fieldbus adapter module with parameter 150.31 FBA B Enable.
  • Page 186 184 Communication interfaces...

  • Page 187: Tools

    Drive composer entry is a basic startup and maintenance tool. With this tool, it is possible to adjust and monitor parameters with a single inverter through a point-to-point connection. Drive composer entry can be downloaded for free from the ABB website. Drive composer pro Drive composer pro is an enhanced version of the Drive composer entry tool.
  • Page 188 186 Tools...

  • Page 189: Using The Psl2 Data Logger

    Using the PSL2 data logger Contents of this chapter This chapter describes how to upload the PSL2 data logger files and view the data with Drive composer Pro PC tool. It also includes the list of PSL2 trigger faults. For more information, see topics •...
  • Page 190 1. In Drive composer Pro PC tool, go to Tools  PSL2 data logger. 2. Move the PSU data logger file(s) that you want to upload to the right side box. Use the right arrow (>>) or the left arrow (<<) button. 3.

  • Page 191: Using The Psl2 Data Viewer (Pro)

    Using the PSL2 data viewer (pro) You can open and view contents of the uploaded PSL2 data logger files in the PC local hard drive. The files contain real time data from the converter modules that help in fault tracing and analysis. Viewing PSL2 data logger files ...

  • Page 192: Psl2 Triggered Faults

    Action Instruction Setting minimum and maximum Set required minimum and maximum values in the below fields and values of X-axis and Y-axis. click on Update axis button. • Y-axis min • Y-axis max • X-axis min • X-axis max Note: The min/max values of X-axis and Y-axis are equal in all visi- ble plots.
  • Page 193 Code in Fault Cause What to do Dec (Hex) 11778 Short circuit Short-circuit in output. Check: (This fault cannot be (0x2e02) This fault requires a reboot of • there are no power factor reset.) control unit either by switching correction capacitors in output the power off and on, or using •...
  • Page 194 192 Using the PSL2 data logger...
  • Page 195 Further information For more information on FIMER products and services for solar applications, visit fimer.com...
  • Page 196 For more information We reserve the right to make technical changes or We reserve all rights in this document and in the subject modify the contents of this document without prior matter and illustrations contained therein. Any please contact notice. With regard to purchase orders, the agreed reproduction, disclosure to third parties or utilization of your local FIMER particulars shall prevail.

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