ABB PRO-33.0-TL Service Manual

String inverters

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Service menu guide

PRO-33.0-TL string inverters

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Page 1 ABB solar inverters Service menu guide PRO-33.0-TL string inverters...
Page 2 FSCA-01 RS-485 adapter module User's manual 3AUA0000109533 Drive composer Start-up and maintenance PC tool User’s 3AUA0000094606 manual You can find manuals and other product documents in PDF format on the Internet. For manuals not available in the Document library, contact your local ABB representative.
Page 3 Service menu guide PRO-33.0-TL string inverters Table of contents 1. Service menu 2. Program features 3. Parameters 4. Fieldbus interfaces  2017 ABB Oy. All Rights Reserved. 3AXD50000015823 Rev C EFFECTIVE: 2017-06-29...
Page 5: Table Of Contents
Table of contents 1. Service menu Contents of this chapter ..........9 Service menu overview .
Page 6 3. Parameters Contents of this chapter ..........37 Compatibility .
Page 7 Modbus function codes ..........106 Product name and serial number .
Page 9: Service Menu
Service menu 9 Service menu Contents of this chapter This chapter describes the Service menu, when to use it and how to access it. Service menu overview In the basic use of the inverter you do not need the Service menu. However, some of the inverter features are accessible only from the Service menu.
Page 10 10 Service menu 2. Enter the PIN 6988. Use the up, left and right arrows to enter the digits. Press the right soft key to save. 3. Scroll down the menu and enter the Service submenu. The heading Parameters is now shown on the list.
Page 11: Exiting Service Menu
Service menu 11 Exiting Service menu If you do not press any buttons on the inverter for a preset period of time, the screen saver turns on and you exit the Service menu. For instructions on changing the screen saver delay, see chapter Setting screen saver delay on page 11.
Page 12 12 Service menu...
Page 13: Program Features
Program features 13 Program features Contents of this chapter This chapter describes the software features of the PRO-33.0-TL inverter. Each feature is described in detail with a list of parameters and related faults and warnings, wherever applicable. See, • Control and monitoring interfaces (page 14) •...
Page 14: Control And Monitoring Interfaces
14 Program features Control and monitoring interfaces In basic setup the operation of PRO-33.0-TL inverter does not require any user actions. Once the inverter is commissioned, automatic functions start and stop the inverter based on measurements. In some cases the inverter requires monitoring and additional control. You can control and monitor the inverter locally from the control unit and remotely through the fieldbus interface.
Page 15: Dc Voltages And Maximum Power Point Tracking
Program features 15 Available power is less than the inverter’s power limit < P Inverter disabled (parameter 189.01 Inverter operation) OR fault OR grid unstable OR VDC low OR VDC > VDC OR FRT overshoot No monitoring mode (parameter 189.07 Night mode) AND VDC <...
Page 16 16 Program features DC overvoltage monitoring If the DC voltage is over 1000 V, the inverter gives a DC overvoltage warning and grid connection is not allowed. The inverter may be damaged if the input voltage is higher than 1100 V .
Page 17: Country Settings
Program features 17 Country settings Preset country codes  The PRO-33.0-TL inverter has a country code table with preset grid code settings for 37 countries. The installation country is initially set with the First start assistant or with the parameter 188.01 Country code.
Page 18 18 Program features Enable the inverter and save the parameter changes to permanent memory 1. Set parameter 189.01 Inverter operation to Enable. 2. Refresh the settings by setting the parameter 188.05 Refresh. 3. Save parameter values by setting the parameter 196.07 Param save.
Page 19: Grid Monitoring
Program features 19 Grid monitoring The PRO-33.0-TL inverter monitors the grid conditions with internal measurements. The measured values are compared against the limits set in the parameter group 188 Grid monitoring. If the measured value does not stay within the limit for a certain minimum period of time, the inverter declares the grid as unstable.
Page 20: Connection Limits
20 Program features Connection limits  The grid monitoring function of the inverter includes a connection condition checking that is used only in a grid connection. Typically, the connection limits are stricter than the disconnection limits. The connection limits are also referred as "cut-in" conditions. There are connection limits for underfrequency, overfrequency, overvoltage and undervoltage.
Page 21: Combinatory Limit
Program features 21 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 •...
Page 22: Reactive Power Control
22 Program features Settings 188.16 External trip Reactive power control The inverter is capable of generating a selectable amount of reactive power to the grid (positive = capacitive, negative = inductive). A reference value for the reactive power can be given through the control unit or fieldbus interface. The inverter also supports reactive power generation according to predefined curves such as Q(U) and Q(P).
Page 23: Active Power Limitations
Program features 23 Active power limitations External active power limit  Inverter output power can be limited by writing a new value for maximum output power in parameter 130.75 External power limit. The external power limit has ramps 130.98 External limit ramp up 130.99 External limit ramp down.
Page 24: Limitation Based On Grid Frequency
24 Program features Limitation based on grid frequency  Power limitation based on grid frequency can be set to operate in different ways depending on the selected limitation type. This section describes some of the most common limitation types. The P(f) limitation type is selected in parameter 130.62 P(f) limit type.
Page 25 Program features 25 P(f) limitation curve based on Germany LV grid code This is an example of a free running P(f) limitation. When 130.63 P(f) corner frequency is crossed, power is saved and the power limit is calculated in relation to that power. The limit may change freely at the frequencies above the corner frequency.
Page 26 26 Program features P(f) limitation curve based on Italy MV grid code This is an example of an incremental P(f) limitation. When 130.63 P(f) corner frequency is crossed, a timer is started to hold off and keep the P(f) feature inactive for the time set in parameter 130.69 P(f) activation delay.
Page 27: Limitation Based On Grid Voltage
Program features 27 Limitation based on grid voltage  Active power limit as a function of grid voltage is used to counteract the increase in grid voltage due to active power production. When average grid voltage • exceeds 130.77 P(U) trigger level, the power limit is ramped down to 130.79 P(U) limit level.
Page 28: Flat-Top Limit
28 Program features Flat-top limit  Normally, the inverter has a power capability shaped like a semi-circle meaning that the inverter can produce as much active power as it can produce reactive power. Enabling the Flat-top limit in the inverter changes the shape of the power capacity to a semi-circle shape with a flat top instead of the normal curved form.
Page 29: String Monitoring
Program features 29 Settings 130.92 Active power ramping 130.93 Active power ramp 130.94 Shut down ramp 189.01 Inverter operation String monitoring In the -SX inverter model each individual string current is measured. The measurements are is used to detect reverse string current, blown fuses and deviation in the measured string currents.
Page 30: String Current Deviation Detection (-Sx Model)
30 Program features 174.22 Blown fuse detection 174.23 Blown fuse tolerance 174.24 Blown fuse active boundary 174.50 Current: [1] 174.57 Current: [8] String current deviation detection (-SX model)  A faulty string, for example, due to high amount of shadowing or obstacles can be detected if the current in one string deviates significantly from other strings.
Page 31: Autoreset
Program features 31 Autoreset The Autoreset function resets faults automatically without intervention from the user or service staff. However, a fault can be reset automatically only for a predefined number of times before the fault becomes permanent and must be reset manually by the user. Note: A permanent fault always prevents grid connection.
Page 32: Faults With Common Configuration Settings (Category 2 Faults)
32 Program features 132.09 Ground current trials 132.10 Ground current reset delay Diagnostics 132.01 Autoreset counter Warning 57652 Autoreset Faults with common configuration settings (category 2 faults)  These faults have common configuration parameters for maximum number of fault occurrences and adjustable time period between reset attempts. The faults share two parameters: •...
Page 33: Temperature Control
Program features 33 Temperature control The thermal model of the inverter controls the cooling of the inverter as well as protects it. The thermal model controls the operation and speed of the cooling fans and limits the output current, if needed. Overtemperature warning is indicated if the inverter temperature exceeded the limit and current limitation is activated.
Page 34: Fan Service
Resetting fan run time counters  See PRO-33.0-TL Product manual (3AUA0000123261 [English]), for information on how to replace the fans. Note that the inverter must be stopped and disconnected from the grid when the fans are replaced. After replacing the fans, reset the fan run time counters according to the below procedure.
Page 35 Program features 35 5. Press Save to save the selection. 6. Press OK to confirm that you have completed the Fan service assistant and return to the menu. Diagnostics 173.03 Internal fan run time 173.04 External fan 1 run time 173.05 External fan 2 run time 173.06 Internal fan speed 173.07 External fan 1 speed...
Page 36 36 Program features...
Page 37: Parameters
Parameters 37 Parameters Contents of this chapter The chapter describes the inverter parameters. The parameters are either editable or read-only. The parameters can be used to change inverter settings and 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 38: Reading The Parameter Listing Table
38 Parameters Reading the parameter listing table In the parameter listing section, each configuration parameter and its properties are described. The rows and columns of the parameter listing and how to interpret them are explained below in italicized text. Example header of the parameter listing table Name/Value/Range Description Default...
Page 39: Parameter Listing
Parameters 39 Parameter listing Name/Value/Range Description Default FbEq (16b/32b) 101 Actual values 101.01 DC voltage Measured DC link voltage. 0 … 2 000 V 10 = 1 V / 100 = 1 V 101.02 Line current Calculated line current. 0 … 100 A 10 = 1 A / 100 = 1 A 101.03...
Page 40 40 Parameters Name/Value/Range Description Default FbEq (16b/32b) 101.15 Reactive power % Calculated reactive output power in percent of the nominal power. -200 … 200% 1 = 1% / 10 = 1% 101.16 CosPhi Power factor. -1 … 1 100 = 1 101.20 Converter current Measured converter current.
Page 41: Warnings And Faults
Parameters 41 Name/Value/Range Description Default FbEq (16b/32b) 104 Warnings and faults 104.01 Tripping fault Fault which actually caused the inverter to trip, as it arrived at the trip register. 1 = 1 104.02 Active fault 2 2nd active fault in the trip register. 1 = 1 104.03 Active fault 3...
Page 42 42 Parameters Name/Value/Range Description Default FbEq (16b/32b) 104.19 4th latest warning 4th warning in the trip log store. 1 = 1 104.20 5th latest warning 5th warning in the trip log store. 1 = 1...
Page 43: System Info
Parameters 43 Name/Value/Range Description Default FbEq (16b/32b) 107 System info 107.04 Firmware name Shows the inverter firmware name. - / 1 = 1 107.05 Firmware version Shows the inverter firmware version. - / 1 = 1 107.06 Loading package name Shows the inverter loading package name.
Page 44: Extension I/O Module 1
44 Parameters Name/Value/Range Description Default FbEq (16b/32b) 114 Extension I/O module 1 114.01 Option module 1 type Activates and specifies the type of I/O extension None module 1. None None FIO-01 FIO-01 FIO-11 FIO-11 114.03 Option module 1 status Displays the status of I/O extension module 1. No option No option No module detected in the specified slot.
Page 45 Parameters 45 Name/Value/Range Description Default FbEq (16b/32b) Power level 70% Relay output activation when output power level over 70% of rated power. 114.14 DIO2 configuration (Visible only when parameter 114.01 Option Input module 1 type is FIO-01 or FIO-11.) Selects whether DIO2 of the extension module is used as a digital input or output.
Page 46 46 Parameters Name/Value/Range Description Default FbEq (16b/32b) 114.27 AI1 scaled value (Visible only when parameter 114.01 Option module 1 type is FIO-11.) Displays the value of analog input AI1 after scaling. See parameter 114.35 AI1 scaled at AI1 min. This parameter is read-only. 114.29 AI1 HW switch position (Visible only when parameter...
Page 47 Parameters 47 Name/Value/Range Description Default FbEq (16b/32b) 114.35 AI1 scaled at AI1 min (Visible only when parameter 114.01 Option 0.0000 module 1 type is FIO-11.) Defines the real value that corresponds to the minimum analog input AI1 value defined by parameter 114.33 AI1 min.
Page 48 48 Parameters Name/Value/Range Description Default FbEq (16b/32b) 114.45 AI2 unit selection (Visible only when parameter 114.01 Option module 1 type is FIO-11.) Selects the unit for readings and settings related to analog input AI2. Note: This setting must match the corresponding hardware setting on the I/O extension module (see the manual of the I/O extension module).
Page 49 Parameters 49 Name/Value/Range Description Default FbEq (16b/32b) 114.59 AI3 HW switch position (Visible only when parameter 114.01 Option module 1 type is FIO-11.) Shows the position of the hardware current/voltage selector on the I/O extension module. Note: The setting of the current/voltage selector must match the unit selection made in parameter 114.60 AI3 unit selection.
Page 50 50 Parameters Name/Value/Range Description Default FbEq (16b/32b) 114.76 AO1 actual (Visible only when parameter 114.01 Option module 1 type is FIO-11.) Displays the value of AO1 in mA. This parameter is read-only. 0.000 ... 22.000 mA Value of AO1. 1000 = 1 mA 114.77 AO1 source (Visible only when parameter...
Page 51: External Sensors
Parameters 51 Name/Value/Range Description Default FbEq (16b/32b) 117 External sensors 117.01 PT sensor temperature Shows the external temperature measured by PT sensor. -50...100 10=1 ° 117.02 Temperature 2 Shows the external temperature 2. -50...100 10=1 °C 117.05 Irradiation 1 Shows the irradiation 1. 0...1500 1 = 1 W/m^2 117.06...
Page 52: Ref
52 Parameters Name/Value/Range Description Default FbEq (16b/32b) 124 Q ref 124.01 User Qref Writes the reactive reference value. The value unit depends on 124.06 Q power ref type. 1 = 1 / 100 = 1 124.06 Q power ref type Sets the reactive power reference type.
Page 53 Parameters 53 Name/Value/Range Description Default FbEq (16b/32b) 1 = 1 / 10 = 1 124.30 Q(x) curve Selects the input signal used in Q(x) regulation curve. Q(U) Input: Measured grid voltage Output: Reactive power reference Q(P) Input: Actual active power Output: Reactive power reference CosPhi(P) Input: Actual active power...
Page 54: Limits
54 Parameters Name/Value/Range Description Default FbEq (16b/32b) 130 Limits 130.01 Limit word 1 Shows active power limitation status. b0...b1: Reserved Reserved b2: P max Maximum power level b3: P min Minimum power level b4: Reserved Reserved b5: Power gradient Power gradient b6: Stop ramp Stop ramp b7: P(f)
Page 55 Parameters 55 Name/Value/Range Description Default FbEq (16b/32b) 130.66 P(f) release time Sets the waiting time before releasing the power limit. The timer is started after the frequency drops below the release frequency. 0 … 600 s 1 = 1 s 130.67 P(f) release ramp Sets the ramp that is used after releasing the...
Page 56 56 Parameters Name/Value/Range Description Default FbEq (16b/32b) 130.81 P(U) release ramp Sets the ramp up after power limit release. 20%/min 0 … 100%/min 1 = 1%/min 130.90 Flat-top limit Sets the active power limit which cuts the semi- 200% circular operating range to a flat-top range. 0 …...
Page 57: Autoreset
Parameters 57 Name/Value/Range Description Default FbEq (16b/32b) 132 Autoreset 132.01 Autoreset counter Shows the number of autoresets. Can be cleared to allow better monitoring. 1 = 1 132.02 Autoreset boot counter Counts the number of forced reboots. Some faults can be reset / cleared only with a firmware reboot. The counter increments when the Autoreset function orders a reboot.
Page 58: Control Unit Communication
58 Parameters Name/Value/Range Description Default FbEq (16b/32b) 149 Control unit communication 149.01 Control unit node ID Unique node identification in the communication network. 1 … 32 1 = 1 149.03 Control unit baud rate Maximum communication baud rate for the 115.2 kbps inverter.
Page 59 FbEq (16b/32b) Control unit#2 Enables secondary control unit protocol on terminal X2 which can be used for monitoring purposes using the ABB Drive composer tool. Note: Firmware update is not possible using the secondary control unit protocol. 149.23 Control unit#2 note ID (Visible only when parameter 149.21...
Page 60: Fba
60 Parameters Name/Value/Range Description Default FbEq (16b/32b) 150 FBA 150.01 FBA A Enable Enables communication between the inverter and Disable fieldbus adapter A. Disable Communication between inverter and fieldbus adapter A disabled. Option slot 2 Communication between inverter and fieldbus adapter A enabled.
Page 61: Fba Settings
Modbus/TCP: Transparent 16-bit profile MB/TCP T32 M Modbus/TCP: Transparent 32-bit profile MB/UDP ABB C Modbus over UDP: ABB Drives profile - Classic MB/UDP ABB E Modbus over UDP: ABB Drives profile - MB/UDP T16 M Modbus over UDP: Transparent 16-bit profile...
Page 62 62 Parameters Name/Value/Range Description Default FbEq (16b/32b) 151.04 IP configuration (Visible only when parameter 151.01 FBA type Dyn IP DHCP FENA-11/-21.) Sets the method for configuring the IP address, subnet mask and gateway address for the adapter module. Static IP Configuration will be obtained from parameters 05…13.
Page 63 Parameters 63 Name/Value/Range Description Default FbEq (16b/32b) 151.07 Timeout mode (Visible only when parameter 151.01 FBA type None FSCA-01.) Selects the Modbus register access type to reset the timeout counter. See parameter 151.06. None Modbus timeout feature is disabled. Communication status in parameter 151.31 remains in On-line state.
Page 64 64 Parameters Name/Value/Range Description Default FbEq (16b/32b) 255.192.0.0 255.128.0.0 255.0.0.0 254.0.0.0 252.0.0.0 248.0.0.0 240.0.0.0 224.0.0.0 192.0.0.0 128.0.0.0 0.0.0.0 151.09 CRC errors (Visible only when parameter 151.01 FBA type FSCA-01.) Shows the number of cyclic redundancy check (CRC) error messages received by the inverter. 0…65535 Number of CRC error messages.
Page 65 Parameters 65 Name/Value/Range Description Default FbEq (16b/32b) Mode 0 Both 16 bit and 32 bit accesses are possible for parameter groups 101...199, indexes 1...99. RegisterAddress for 16bit access = 100*ParamGroup + ParamIndex. RegisterAddress for 32bit access = 20000 + 200*ParamGroup + 2*ParamIndex. Mode 1 Only 16 bit access is possible, parameter groups 1 ...
Page 66 66 Parameters Name/Value/Range Description Default FbEq (16b/32b) Any message Timeout counter is reset when any Modbus TCP register is accessed. Ctrl write Timeout counter is reset when the control word register or reference register REF1/REF2 are written to. For more information, see FENA-11/21 manual. Auto Auto negotiate 151.22...
Page 67 Parameters 67 Name/Value/Range Description Default FbEq (16b/32b) 151.24 Protocol check (Visible only when parameter 151.01 FBA type FSCA-01.) Indicates whether parameters of the selected communication protocol are loaded correctly. If the value is not equal to the setting in parameter 151.25, refresh settings with parameter 151.27.
Page 68 68 Parameters Name/Value/Range Description Default FbEq (16b/32b) 151.33 FBA appl SW ver Shows the application program revision of the adapter module...
Page 69: Fba A Data In
Parameters 69 Name/Value/Range Description Default FbEq (16b/32b) 152 FBA A data in 152.01 FBA data in1 Selects internal data, i.e. parameter group and None index, to be transferred from the inverter to the fieldbus adapter and forwarded to the Modbus RTU or TCP fieldbus master.
Page 70: Fba A Data Out
70 Parameters Name/Value/Range Description Default FbEq (16b/32b) 153 FBA A data out 153.01 FBA data out1 Selects the destination for data to be transferred None from Modbus RTU or TCP fieldbus master. The fieldbus master writes data using a local register map of the fieldbus adapter (FSCA or FENA).
Page 71: Embedded Fieldbus
Parameters 71 Name/Value/Range Description Default FbEq (16b/32b) 158 Embedded fieldbus 158.01 Protocol enable Shows the status of embedded Modbus RTU Modbus RTU protocol. To change the operational status, see parameter 149.21. This parameter is read-only. None None. Modbus RTU is disabled, see parameter 149.21.
Page 72 72 Parameters Name/Value/Range Description Default FbEq (16b/32b) 158.07 Comm diagnostics Diagnostic parameter for trouble shooting. 1 = indicates an active (fault) condition. 0 = indicates normal operation. b0: Init failed 1 = EFB initialization failed. b1: Addr config err 1 = Device address is beyond the range of the protocol.
Page 73 Parameters 73 Name/Value/Range Description Default FbEq (16b/32b) 158.12 CRC errors Contains the count of CRC error messages received by the device. This is an indicator of noise on the RS485 bus. 0 … 4 294 967 295 - / 1 = 1 158.17 Transmit delay Defines a minimum response delay in addition to...
Page 74: Connection Diagnostics
74 Parameters Name/Value/Range Description Default FbEq (16b/32b) 172 Connection diagnostics 172.01 Connection status Shows the connection status of the inverter. Connected Connected to the grid. Regulatory delay Waiting for a regulatory delay to expire. 1400 Grid synchronization Synchronizing to the grid. 1300 Connection tests Performing connection tests.
Page 75 Parameters 75 Name/Value/Range Description Default FbEq (16b/32b) Min DC voltage MPPT has reached the minimum DC voltage level. System delivers power at the rate necessary to maintain DC input voltage within the operating range. At power System delivers power according to the selected power reference.
Page 76 76 Parameters Name/Value/Range Description Default FbEq (16b/32b) b9: Undervoltage 2 b10...b11: Reserved b12: Overvoltage 1 b13: Overvoltage 2 b14: Overvoltage 3 b15: Sliding overvoltage 172.22 Grid monitoring SW3 Shows the grid monitoring status word 3 (SW3). 0 = Inactive status 1 = Active status, triggered or enabled b0: Combinatory limit b1: Reserved...
Page 77: Inverter Diagnostics
Parameters 77 Name/Value/Range Description Default FbEq (16b/32b) 173 Inverter diagnostics 173.01 Uptime Shows inverter uptime counter. 0 … 4294967295 h - / 1 = 1 h 173.02 Operation time Shows inverter operation time. 0 … 4294967295 h 1 = 1 h 173.03 Internal fan run time Shows run time of internal fan.
Page 78 78 Parameters Name/Value/Range Description Default FbEq (16b/32b) 173.27 Line filter temperature Line filter temperature. -80 … 150 °C 1 = 1 °C 173.30 SPD installed Indicates whether a Surge Protection Device (SPD) is installed. • If a SPD is detected in the system, the parameter is automatically set to Yes.
Page 79: String Monitor
Parameters 79 Name/Value/Range Description Default FbEq (16b/32b) 174 String monitor 174.02 String monitor action Selects how the inverter should react when a Warning deviation is detected in the string currents. Any deviations are ignored. Warning A warning is indicated. Fault A fault event occurs and the inverter trips.
Page 80 80 Parameters Name/Value/Range Description Default FbEq (16b/32b) 174.20 Relative threshold Sets the relative string current threshold value. Below this value the relative difference detection is disabled. 0 … 100 A 1 = 1 A / 10 = 1 A 174.22 Blown fuse detection Enables the blown fuse detection.
Page 81 Parameters 81 Name/Value/Range Description Default FbEq (16b/32b) 174.54 Current: [5] Measured current of string 5. -15 … 15 A 100 = 1 A 174.55 Current: [6] Measured current of string 6. -15 … 15 A 100 = 1 A 174.56 Current: [7] Measured current of string 7.
Page 82: Mppt Settings
82 Parameters Name/Value/Range Description Default FbEq (16b/32b) 178 MPPT settings 178.03 Minimum voltage ref Sets the minimum MPPT voltage reference. 500 V 0 … 1000 V 1 = 1 V 178.04 Maximum voltage ref Sets the maximum MPPT voltage reference. 950 V 0 …...
Page 83: Energy Saving
Parameters 83 Name/Value/Range Description Default FbEq (16b/32b) 179 Energy saving 179.01 CO2 reduction Shows reduction in CO2 emissions when energy is produced by a solar plant instead of a conventional fossil fueled plant. The value is calculated by multiplying produced energy with a conversion factor (CO2 reduction factor).
Page 84: Day Production
84 Parameters Name/Value/Range Description Default FbEq (16b/32b) 180 Day production 180.01 Hour 0 energy Shows energy produced during the first hour of current day. 0 … 655 kWh 1 = 1 kWh / 100 = 1 kWh 180.24 Hour 23 energy Shows energy produced during the last hour of current day.
Page 85: Month Production
Parameters 85 Name/Value/Range Description Default FbEq (16b/32b) 181 Month production 181.01 Day 1 energy Shows energy produced during the first day of current month. 0 … 279000 kWh 1 = 1 kWh / 10 = 1 kWh 181.31 Day 31 energy Shows energy produced during the last day of current month.
Page 86: Year Production
86 Parameters Name/Value/Range Description Default FbEq (16b/32b) 182 Year production 182.01 Month 1 energy Shows energy produced during the first month of current year. 0 … 279000 kWh 1 = 1 kWh 182.12 Month 12 energy Shows energy produced during the last month of current year.
Page 87: 24 Years Production
Parameters 87 Name/Value/Range Description Default FbEq (16b/32b) 183 24 years production 183.01 Year 0 energy Shows energy produced in one year for all of product lifetime after first start-up. 0 … 279000 kWh 1 = 1 kWh 183.24 Year 23 energy See parameter 183.01 Year 0 energy 183.25...
Page 88: Logger Setup
88 Parameters Name/Value/Range Description Default FbEq (16b/32b) 184 Logger setup 184.01 Startup date Sets start-up date. The date should be defined as the starting year of energy logging. Days since 1.1.1980. 0 … 43440 days 1 = 1 day 184.02 Last Boot Time, Days Shows the date saved at power failure to update loggers accordingly in the next power-up.
Page 89: Grid Monitoring
Parameters 89 Name/Value/Range Description Default FbEq (16b/32b) 188 Grid monitoring 188.01 Country code Sets installation country. Changing this value sets the default and/or mandatory values for all other country parameters. This value is initially set by the first start assistant which is run at first startup of the inverter.
Page 90 90 Parameters Name/Value/Range Description Default FbEq (16b/32b) 188.21 Connect underfrequency Sets limit that is used only on connecting to the -2 Hz limit grid. When the inverter is connected, this limit is disabled. See parameter 188.20 Connect underfrequency type. 1 = 1 Hz / 100 = 1 Hz 188.22 Connect overfrequency...
Page 91 Parameters 91 Name/Value/Range Description Default FbEq (16b/32b) 188.32 Underfrequency time 1 Sets trip time for underfrequency protection. 100 ms 0 ... 120 000 ms 1 = 1 ms 188.33 Underfrequency enable 2 Enables underfrequency protection. 0 ... 1 1 = 1 188.34 Underfrequency limit 2 Sets limit for underfrequency protection.
Page 92 92 Parameters Name/Value/Range Description Default FbEq (16b/32b) 188.66 Overvoltage enable 2 Enables overvoltage protection. 0 ... 1 1 = 1 188.67 Overvoltage limit 2 Sets limit for overvoltage protection. 100 ... 200% 1 = 1 188.68 Overvoltage time 2 Sets trip time for overvoltage protection. 0 ms 0 ...
Page 93 Parameters 93 Name/Value/Range Description Default FbEq (16b/32b) 188.111 Rate of change of freq limit Sets rate at which frequency is allowed to 1 Hz change. 0 ... 10 Hz 1 = 1 Hz / 10 = 1 Hz 188.120 1-phase AI Enables single phase anti-islanding.
Page 94: Inverter Control
94 Parameters Name/Value/Range Description Default FbEq (16b/32b) 189 Inverter control 189.01 Inverter operation Enables inverter operation. Inverter connects to grid only when it is enabled. When disabled, inverter disconnects immediately from the AC grid. 0 … 1 0 = Inverter disabled 1 = 1 1 = Inverter enabled 189.07...
Page 95: External Measurements
Parameters 95 Name/Value/Range Description Default FbEq (16b/32b) 190 External measurements 190.01 Phase voltage U1 RMS value of phase voltage U1. 0 … 2 000 V 1 = 1 V / 100 = 1 V 190.02 Phase voltage V1 RMS value of phase voltage V1. 0 …...
Page 96: System
96 Parameters Name/Value/Range Description Default FbEq (16b/32b) 196 System 196.01 Language Selects language. Not selected Language is not selected. English US English (United States) 1033 Deutsch German (Germany) 1031 Italiano Italian (Italy) 1040 Español Spanish (Spain 3082 Français French (France) 1036 196.02 Passcode...
Page 97 Parameters 97 Name/Value/Range Description Default FbEq (16b/32b) 196.26 Time in ms within one Sets the number of milliseconds passed since last 0 ms minute minute. See parameter 196.24 Full days since 1st Jan 1980. 0 ... 59999 ms Number of milliseconds since last minute. 1 = 1 ms 196.29 Time source status...
Page 98: Fan Settings
98 Parameters Name/Value/Range Description Default FbEq (16b/32b) 202 Fan settings 202.01 Reset internal fan run time Resets run time counter of internal fan. 0 … 1 1 = 1 202.02 Reset external fan 1 run Resets run time counter of external fan 1. time 0 …...
Page 99: Misc
Parameters 99 Name/Value/Range Description Default FbEq (16b/32b) 209 Misc 209.06 Minimum ground Sets fault level for ground impedance. 0.20 MOhm impedance 0 ... 10 MOhm Fault level. - / 100 = 1 MOhm 209.10 Ext-IO status word Shows the status of output power. b0: Grid connected True when connected to the grid.
Page 100 100 Parameters...
Page 101: Fieldbus Interfaces
Modbus RTU master. Fieldbus adapter modules The PRO-33.0-TL inverter is equipped with expansion slots for Modbus RTU and TCP fieldbus adapter modules. The inverter firmware supports FSCA-01 and FENA-01/11/21 range of fieldbus adapters which can be installed to add an additional communication link in case the embedded fieldbus interface is reserved for other use.
Page 102: Setting Up Embedded Fieldbus Interface
Terminal Accessing inverter parameters Configuration parameters of the PRO-33.0-TL inverter can be accessed through Modbus holding registers. Holding registers are 16-bit, read/write registers. The table below describes the holding registers of the inverter. Registers 0 through 68 are described in detail in a separate table.
Page 103: Data I/O Registers 3
Fieldbus interfaces 103 Data I/O registers 3 ... 53 programmed for the VSN-700 logger: Holding FbEq (16b/32b), Description Mirrored inverter Config Name register scaling parameter Parameter 16b, 10 = 1 DC voltage 101.01 158.104 Data I/O 4 16b, 10 = 1 Line current 101.02 158.105...
Page 104: Data I/O Registers 54
104 Fieldbus interfaces Holding FbEq (16b/32b), Description Mirrored inverter Config Name register scaling parameter Parameter 32b, 1 = 1 Total energy 183.26 158.147 Data I/O 47 Reserved Data I/O 48 16b, 1 = 1 Phase voltage U1 190.01 158.149 Data I/O 49 16b, 1 = 1 Phase voltage V1 190.02...
Page 105: Error Code Registers, 89-99
Fieldbus interfaces 105 Error code registers, 89-99  The error code registers can be read to find out why a Modbus read/write operation fails with code 0x04. The registers contain additional information on failing query. The internal error register is cleared when a query has finished successfully. Name (all profiles) Description Reset Error Registers...
Page 106: Modbus Function Codes
106 Fieldbus interfaces • Mode 6 - supports both individual 16- and 32-bit parameter read/write operations. Note that only parameter groups up to 199 can be accessed using addressing mode 6. Addressing mode Mode 1 This mode can access the 16-bit value of any parameter in the inverter. (16-bit values, groups 1...255, indexes 1...255) RegisterAddress = 256*ParamGroup + ParamIndex - 1 Mode 6...
Page 107: Product Name And Serial Number
• 0x04 – Request to get one specific identification object (individual access) Supported Object IDs: • 0x00 – Vendor Name – “ABB” +”Serial No” + “Sw Version” + “Modbus Protocol ID” • 0x01 – Product Code – “Serial Number” • 0x02 – Major Minor Revision – ” Firmware Version” + ”...
Page 108: Modbus Rtu Examples
108 Fieldbus interfaces Register Description 3654 Product Name 6 (ASCII) 4char 3656 Product Name 7 (ASCII) 4char 3664 Serial number 1 (ASCII) 4char 3666 Serial number 2 (ASCII) 4char 3668 Serial number 3 (ASCII) 4char 3670 Serial number 4 (ASCII) 4char 3672 Serial number 5 (ASCII) 4char 3674...
Page 109: Example 1. Read Parameter 101.01 Dc Voltage
Fieldbus interfaces 109 Parameter Name Description Default value 158.33 Addressing mode Defines mapping between parameters and holding Mode 7 registers in the upper Modbus register range (101...65536). Note: This mode • supports 32-bit access only. • always requires two holding registers requested in the read/write Modbus command.
Page 110: Example 4. Write Data I/O Register 1
110 Fieldbus interfaces Node address = 01 Function code = 03 Holding register address = 03 Registers to read = 07 Modbus master TX: 01 03 00 03 00 07 F4 08 Modbus master RX: 01 03 0E 19 7A 01 15 13 88 00 C0 00 C0 00 00 00 64 DE 53 Reply: Data I/O 4...
Page 111: Tools
Tools Contents of this chapter This chapter describes the PC tools that can be used with PRO-33.0-TL inverter. These tools may be used in commissioning, troubleshooting and service activities. All the tools require a PC running the Windows operating system.
Page 112 112 Tools...
Page 113: Firmware Update
Firmware update 113 Firmware update Contents of this chapter This chapter describes how to update the inverter firmware as well the firmware of the control unit. For both update tasks a PC computer with the Windows operating system and an USB port is required. See, •...
Page 114: Updating Inverter Firmware
2. Select Service. 3. Edit Inverter operation selection and set the value to Disable and press Save. Connecting PC and inverter Connect the PC and the PRO-33.0-TL-OUTD inverter with an USB cable. The control unit displays the text USB connected.
Page 115: Downloading Firmware
Firmware update 115 Downloading firmware  To download new firmware to the inverter: 1. Start the Drive loader 2 program. 2. Click the Open a Loading Package to download button.
Page 116 The tool opens the package and scans the COM ports of your computer. 4. Verify that correct loading package is opened (file location and firmware version). 5. Select the correct serial port that says PRO-33.0-TL. 6. Click the Download button.
Page 117: Confirming Inverter Operation
Firmware update 117 Confirming inverter operation  Inverter settings are restored and the proper operation of the inverter is confirmed. After downloading the firmware: • Remove the USB cable from the control unit. The control unit will reboot itself. • Select the language and go through the first start assistant.
Page 118 118 Firmware update Case 3 - no devices found If the Drive loader 2 reports no connected devices found error: • Make sure that the USB cable is connected. • Make sure that the inverter is powered. Case 4 - communication fails If the Drive loader 2 reports Serial port login failed the serial port is available but inverter is not able to communicate error: •...
Page 119: Updating Control Unit Firmware
Firmware update 119 Updating control unit firmware This section describes how to update the firmware of the PVS-AP-L control unit. An ordinary (windows) PC can be used for uploading host. Note: • It is possile to update the control unit without mounting it inside the inverter. In standalone mode the control unit is powered from USB and the update process remains the same.
Page 120: Troubleshooting The Control Unit
120 Firmware update Troubleshooting the control unit  If the software update terminates prematurely or shows an error message (the message appears below the progress bar in the DLoaderWin32 window), execute the following recovery and reattempt procedures. Reattempt option 1, restart update procedure 1.
Page 122 Contact us www.abb.com/solarinverters 3AXD50000015823 Rev C (EN) 2017-06-29...

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