Language in which texts will be displayed on the user interface (HMI).

Character to be used as decimal delimiter on the local control panel.

The password to be used for changing settings from the local control panel can be defined here.

The password used to change the setting from “Remote” to “Local” control can be defined here.  (Switching from “Local” to “Remote” control occurs without checking the password.)

This setting defines whether the control site – “Local” or “Remote” – shall be displayed on the bay panel.

This setting defines whether the “Locked” or “Unlocked” status shall be displayed on the bay panel.

This setting defines whether the (electric) key-operated switch switches between remote / local control (L↔R) or between remote+local control / local control (R&L↔L).

Selection of counters and memories that are reset by pressing the RESET key on the local control panel.  (Resetting LED indicators and measured event values is permanently assigned internally, so that they are always reset when the RESET key is pressed.)

Selection of up to 16 functions to be triggered when pressing the read key. Event counters and event recordings are offered for selection. If several functions have been selected then they will be sequentially triggered by repeated pressing of the read key.

Selection of specified functions which will be sequentially displayed by repeated reading of the menu jump list 1 (or 2).

Definition of the values to be displayed on the Measured Value Panel also referred to as the Operation Panel.

Definition of the values to be displayed on the Overload Panel.

Definition of the values to be displayed on the Fault Panel.

Setting for the time period during which a panel is displayed, before switching to the next panel.  This setting is only relevant if more values are selected than can be shown on the LC-Display.

If the user does not press a key on the local control panel during this set time period, the change-enabling function is deactivated.

If the user does not press a key on the local control panel during this set time period, then the selection of a switchgear unit is cancelled.

Bay and device addresses are used to address the device in communication via the PC interface. An identical setting must be selected for both addresses.

Baud rate of the PC interface.

Set the same parity that is set at the interface of the PC connected to the P632.

Enable for the transmission of spontaneous signals via the PC interface.

Selection of spontaneous signals for transmission via the PC interface.

Enable for the cyclic transmission of measured values via the PC interface.

Selection of the measured values that are transmitted in a user-defined telegram via the PC interface.

A measured voltage value is transmitted via the PC interface if it differs by the set delta quantity from the last measured value transmitted.

A measured current value is transmitted via the PC interface if it differs by the set delta quantity from the last measured value transmitted.

IP address of the Ethernet interface of the P632's processor module.

This is the Ethernet interface of the processor module and can be used for special service activities, e.g. for uploading new firmware.

Note:​ In the operating program, the complete IP address is displayed at PC: IP address. The device’s front panel display only displays the IP address distributed to these four data model addresses:

Note:​ This interface can only be used if it has been configured (PC: IP address, PC: Subnet mask, PC: IP address mode) and activated via PC: IP Enable config..

Subnet mask of the Ethernet interface of the processor module.

Note:​ In the operating program, the complete mask is displayed at PC: Subnet mask. The device’s front panel display only displays the mask distributed to these four data model addresses:

Setting of the method how the IP address of the Ethernet interface of the processor module shall be defined.

Activating the Ethernet interface of the processor module.

The measured frequency value is transmitted via the PC interface if it differs by the set delta from the last measured value transmitted.

The telegram is transmitted if a measured value differs by the set delta quantity from the last measured value transmitted.

All measured values are transmitted again via the PC interface after this time period has elapsed – provided that transmission has not been triggered by the other delta conditions.

Cancelling function group COMM1 or including it in the configuration.  If the function group is cancelled from the configuration, then all associated settings and signals are hidden, with the exception of this setting.

Disabling or enabling communication interface 1.

Common settings for enabling all protocols based on IEC 870-5-xxx.

Enabling additional settings that are relevant for the protocol based on IEC 870-5-101.

Enabling additional settings that are relevant for the ILS protocol.

Enabling settings relevant for the MODBUS protocol.

Enabling settings relevant for the DNP 3.0 protocol.

Enabling settings relevant for the COURIER protocol.

Select the communication protocol that shall be used for the communication interface.

The user may select between two variants of the 103 protocol.

Note: This setting is hidden unless the IEC 870-5-xxx protocol is enabled.

The user may select between two variants of the MODBUS protocol.

Note: This setting is hidden unless the MODBUS protocol is enabled.

Setting for the line idle state indication.

Baud rate of the communication interface.

Set the same parity that is set at the interface of the control system connected to the P632.

The P632 monitors telegram transmission to make sure that no excessive pause occurs within a telegram. This monitoring function can be disabled if it is not required.

Note: This setting is only necessary for modem transmission.

The time between two polling calls from the communication master must be less than the time set here.

The communication address and the ASDU address are used to identify the device in communication via the interface. An identical setting must be selected for both addresses.

“ASDU”: Application Service Data Unit

In the DNP 3.0 protocol, a 16-bit address is used to identify devices.  The address that can be set here is the higher-order octet, whereas the address set at COMM1: Octet comm. address  is the lower-order octet of the DNP address.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

The following transmission frame formats are available (according to the standard):

Setting specifying whether data shall be recorded for service activities.

Setting for the name of the manufacturer.

Note:

The communication address and the ASDU address are used to identify the device in communication via the interface. An identical setting must be selected for both addresses.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

“ASDU”: Application Service Data Unit

Enable for the transmission of spontaneous signals via the communication interface.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

Selection of spontaneous signals for transmission via “logical” communication interface 1.

Enabling of cyclic transmission of measured values via the communication interface.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

Selection of the measured values that are transmitted in a user-defined telegram via the communication interface.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

A measured voltage value is transmitted via the communication interface if it differs by the set delta quantity from the last measured value transmitted.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

A measured current value is transmitted via the communication interface if it differs by the set delta quantity from the last measured value transmitted.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

The measured frequency value is transmitted via the communication interface if it differs by the set delta quantity from the last measured value transmitted.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

The telegram is transmitted if a measured value differs by the set delta quantity from the last measured value transmitted.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

All measured values are transmitted again via the communication interface after this time period has elapsed – provided that transmission has not been triggered by the other delta conditions.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

A continuous or background general scan means that the P632 transmits all settings, signals, and monitoring signals through the communication interface during slow periods when there is not much activity. This ensures that there will be data consistency with a connected control system. The time to be set defines the minimum time difference between two telegrams.

Note: This setting is hidden unless an IEC 870-5 protocol is enabled.

Setting for the communication address length.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting for the length of the higher-order communication address.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting for the length of the cause of transmission.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting for the length of the common address for identification of telegram structures.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

“ASDU”: Application Service Data Unit

Setting for the length of the common higher-order address for identification of telegram structures.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

“ASDU”: Application Service Data Unit

Setting for the length of the address for information objects.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting for the length of the higher-order address for information objects.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting specifying whether information numbers and function type shall be reversed in the object address.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting for the time tag length.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting specifying whether telegram structure 1 or 20 shall be converted as a single signal or double signal.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

“ASDU”: Application Service Data Unit

Setting specifying whether telegram structure 2 shall be converted as a single signal or double signal.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

“ASDU”: Application Service Data Unit

Setting specifying whether an initialization signal shall be issued.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting that determines whether communication takes place on a balanced basis (full duplex operation).

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

Setting for the transmission direction.  Normally this value will be set to '1' at the control center and to '0' at the substation.

Note: This setting is hidden unless the IEC 870-5-101 protocol is enabled.

Setting for the maximum time that will elapse until the status signal for the acknowledgment command is issued.

Note: This setting is hidden unless the IEC 870-5-101 protocol is set.

MODBUS registers in the range 00301 to 00400 are assigned to the selected commands. Assignment is made in the order of selection. This means that the first command is given the register no. 00301, the second the register no. 00302, etc.

Note: This setting is hidden unless the MODBUS protocol is enabled.

MODBUS registers in the range 10301 to 10400 are assigned to the selected signals. Assignment is made in the order of selection. This means that the first signal is given the register no. 10301, the second the register no. 10302, etc.

Note: This setting is hidden unless the MODBUS protocol is enabled.

MODBUS registers in the range 30301 to 30400 are assigned to the selected measured values. Assignment is made in the order of selection. This means that the first measured value is given the register no. 30301, the second the register no. 30302, etc.

Note: This setting is hidden unless the MODBUS protocol is enabled.

MODBUS registers in the range 40301 to 40400 are assigned to the selected parameters. Assignment is made in the order of selection. This means that the first parameter is given the register no. 40301, the second the register no. 40302, etc.

Note: This setting is hidden unless the MODBUS protocol is enabled.

All MODBUS registers are transmitted again through the communication interface after this time has elapsed.

Note: This setting is hidden unless the MODBUS protocol is enabled.

Setting specifying whether an event must be confirmed by the master in order for an event to be deleted from the 'event queue'.

Note: This setting is hidden unless the MODBUS protocol is enabled.

Number of bits that must pass between the receipt of the 'request' and the start of sending the 'response'.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Number of bits that may be missing from the telegram before receipt is terminated.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Setting for the acknowledgment mode of the link layer.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Setting for the time period within which the master must acknowledge at the link layer.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Number of repetitions that are carried out on the link layer if errors have occurred during transmission (such as failure to acknowledge).

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Setting for the time period within which the master must acknowledge at the application layer.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Time interval within which the slave requests time synchronization cyclically from the master.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Selection of data points and data classes for object 1 – binary inputs. Assignment of indices is made in the order of selection, beginning with 0.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Selection of data points and data classes for object 10 – binary outputs. Assignment of indices is made in the order of selection, beginning with 0.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Selection of data points and data classes for object 30 – analog inputs. Assignment of indices is made in the order of selection, beginning with 0.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Selection of data points and data classes for object 40 – analog outputs. Assignment of indices is made in the order of selection, beginning with 0.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Initialization value of threshold values for transmission of measured values in object 30. The threshold values can be changed separately by the master for each measured value by writing to object 34, 'analog input reporting deadband'.

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Cycle time for updating DNP object 30 (analog inputs).

Note: This setting is hidden unless the DNP 3.0 protocol is enabled.

Selection of commands to be issued via the COURIER protocol.

Note: This setting is hidden unless the COURIER protocol is enabled.

Selection of signals to be transmitted via the COURIER protocol.

Note: This setting is hidden unless the COURIER protocol is enabled.

Selection of measured values to be transmitted via the Courier protocol.

Note: This setting is hidden unless the Courier protocol is enabled.

Selection of settings to be altered via the Courier protocol.

Note: This setting is hidden unless the Courier protocol is enabled.

Cancelling function group COMM2 or including it in the configuration. If the function group is cancelled from the configuration, then all associated settings and signals are hidden, with the exception of this setting.

Disabling or enabling communication interface 2.

Setting for the line idle state indication.

Baud rate of the communication interface.

Set the same parity that is set at the interface of the control system connected to the P632.

The P632 monitors telegram transmission to make sure that no excessive pause occurs within a telegram. This monitoring function can be disabled if it is not required.

Note: This setting is only necessary for modem transmission.

The time between two polling calls from the communication master must be less than the time set here.

It is possible to set whether or not faults can be acknowledged positively after transmission (and consequently deleted from the fault overview at the COMM2/PC interface).

The communication address and the ASDU address are used to identify the device in communication via the interface. An identical setting must be selected for both addresses.

“ASDU”: Application Service Data Unit

Setting for the name of the manufacturer.

Note: This setting can be changed to ensure compatibility.

The communication address and the ASDU address are used to identify the device in communication via the interface. An identical setting must be selected for both addresses.

“ASDU”: Application Service Data Unit

Enable for the transmission of spontaneous signals via the communication interface.

Selection of spontaneous signals for transmission via communication interface 2.

Enable for the cyclic transmission of measured values via the communication interface.

Selection of the measured values transmitted in a user-defined telegram via the communication interface.

A measured voltage value is transmitted via the communication interface if it differs by the set delta quantity from the last measured value transmitted.

A measured current value is transmitted via the communication interface if it differs by the set delta quantity from the last measured value transmitted.

The measured frequency value is transmitted via the communication interface if it differs by the set delta quantity from the last measured value transmitted.

The telegram is transmitted if a measured value differs by the set delta quantity from the last measured value transmitted.

Cancelling function group IEC or including it in the configuration.  If the function group is cancelled from the configuration, then all associated settings and signals are hidden. 

Important notice:  Some of the parameters in function group IEC are set with the IEC 61850 configuration tool “IED Configurator”, they cannot be modified from the local control panel (HMI) or with the operating program, and therefore these parameters are listed separately.

Enabling and disabling function group IEC.

This parameter can only be sent individually.  Accepting the previously set communication parameters as the active communication settings.

Name of the configuration bank currently valid.

Setting is carried out with the IED Configurator.

Version number of the configuration bank currently valid.

Setting is carried out with the IED Configurator.

Name of the inactive configuration bank.

Setting is carried out with the IED Configurator.

Version number of the inactive configuration bank.

Setting is carried out with the IED Configurator.

Explicitly assigned unit name for the function in the system (IED); is part of the Logical Device Name.

Setting is carried out with the IED Configurator.

Important note: According to the IEC standard the name must consist of only letters (A..Z, a..z), digits (0..9) and underscore characters (_), and neither a digit nor the underscore character must be the first character. Note that a non-standard name causes problems with the IEC 61850 communication.

Assigned IP address of the device for the server function in the system.

Note: This is an information parameter ('read only') and its value is set from the "IED Configurator" with Communications: IP Address.

The subnet mask defines which part of the IP address is addressed by the sub-network and which part by the device that is logged-on to the network.

Note: This is an information parameter ('read only') and its value is set from the "IED Configurator" with Communications: SubNet Mask.

This parameter shows the IPv4 address of the network gateway for communication links to clients outside of the local network.

Note: This is an information parameter ('read only') and its value is set from the "IED Configurator" with Communications: Gateway Address.

IP address of the preferred server used for clock synchronization.

Note: This is an information parameter ('read only') and its value is set from the "IED Configurator".

IP address of the backup server used for clock synchronization.

Note: This is an information parameter ('read only') and its value is set from the "IED Configurator".

Optional signal assignment for a transmission per communication protocol IEC 61850 based on the selection table of the binary inputs (opto coupler inputs).

Time difference between UTC and local time at the devices' substation (IED).

Time difference of the daylight saving time to standard time.

This setting defines whether an automatic switching to daylight saving time is wanted.

These three parameters define the date (e.g. at what day of the year) for switching from standard time over to daylight saving time.  Available for IEC: Dayl.sav.time start are the values First, Second, Third, Fourth, and Last. For IEC: Dayl.sav.time st. d the seven weekdays are available so that for example a setting like “on the last Sunday in March” may be used.

Time period in minutes after midnight when daylight saving time is switched to standard time.  If for example the clock is advanced one hour from 2:00 AM to 3:00 AM the parameter IEC: Dayl.sav.t.st.0:00 + is set to 120 (minutes).

Cancelling function group GOOSE or including it in the configuration.  If the function group is cancelled from the configuration, then all associated settings and signals are hidden.

Parameters included in this function group are only effective when function group IEC is configured and enabled and when the parameters in this function group have been activated by setting the parameter IEC: Switch Config. Bank.

Enabling and disabling function group GOOSE.

Function assignment of a binary logical state signal to the virtual GOOSE outputs. Signals configured here can be included as GosGGIO2.ST.ind1, GosGGIO2.ST.ind2, … in the datasets.

Cancelling function group GSSE or including it in the configuration.  If the function group is cancelled from the configuration, then all associated settings and signals are hidden.  Parameters included in this function group are only effective when function group IEC is configured and enabled and when the parameters in this function group have been activated by setting the parameter IEC: Switch Config. Bank.

Enabling and disabling function group GSSE.

Minimum value for the GSSE repetition cycle time in ms.  The repetition cycle time for a GSSE message is calculated, according to a standard, with this formula:

Repetition cycle time = Min. cycle + (1 + (increment/1000))N-1 [ms]

The repetitions counter N will be restarted at count 1 after each state change of a GSSE bit pair.

Maximum value for the GSSE repetition cycle time in s.  For the formula to calculate the repetition cycle time see GSSE: Min. cycle.  Should the calculated value for the repetition cycle time be equal to or greater than the set max. value then the GSSE message will be sent repeatedly at the set max. value time.

Increment for the GSSE repetition cycle.  For the formula to calculate the repetition cycle time see GSSE: Min. cycle.

In the operating mode Broadcast all GSSE, independent of their MAC address (network hardware characteristic), are always read and processed.  In the operating mode Promiscuous and after all GSSE sending devices have logged-on, only messages with the MAC addresses of IEDs, that have logged-on successfully, are read and processed.

Setting with which GSSE bit pair the configured binary signal of the virtual GSSE outputs is to be transmitted.  A GSSE is always transmitted consisting of a fixed number of 96 bit pairs, of which a maximum of 32 are used by this device (IED) during a send operation.