DNP3 device profile REC615 - Grid automation - DNP3 Device Profile - REC615 Grid Automation - Relion Product Family - PCL1 - IEC, ANSI

DNP3 Device Profile Based on DNP XML Schema version 2.10.00

Document Name: REC615, Product Connectivity Level 1 (PCL1)

Document Description: REC615, Product Connectivity Level 1 (PCL1)

Revision History

Date	Time	Version	Reason for change	Edited by
2024-12-20		1	REC615, Product Connectivity Level 1 (PCL1)

Reference Device:    

1    Device Properties

This document is intended to be used for several purposes, including:

- Identifying the capabilities of a DNP3 device (Master Station or Outstation)

- Recording the settings of a specific instance of a device (parameter settings for a specific instance of the device in the user's total DNP3 estate)

- Matching user requirements to product capabilities when procuring a DNP3 device

The document is therefore structured to show, for each technical feature, the capabilities of the device (or capabilities required by the device when procuring).

It is also structured to show the current value (or setting) of each of the parameters that describe a specific instance of the device. This "current value" may also show a functional limitation of the device. For example when implementing secure authentication it is not required that all DNP3 devices accept aggressive mode requests during critical exchanges (see Device Profile 1.12.4), in which case a vendor would mark this current value as "No - does not accept aggressive mode requests".

Additionally, the current value may sometimes be used to show a value that a device can achieve because of hardware or software dependencies. An example of this is in section 1.6.8 of the Device Profile (Maximum error in the time that the Master issues freeze requests) where the value may well depend upon tolerances of hardware components and interactions between software tasks. When the Device Profile current value is used in this way the corresponding entry in the capabilities column is grayed-out. Users should note that if an entry in the capabilities column of the Device Profile is grayed-out then there may be information in the current value column that is pertinent to the device's capabilities.

Unless otherwise noted, multiple boxes in the second column below are selected for each parameter to indicate all capabilities supported or required. Parameters without checkboxes in the second column do not have capabilities and are included so that the current value may be shown in the third column.

The items listed in the capabilities column below may be configurable to any of the options selected, or set to a fixed value when the device was designed. Item 1.1.10 contains a list of abbreviations for the possible ways in which the configurable parameters may be set. Since some parameters may not be accessible by each of these methods supported, an abbreviation for the configuration method supported by each parameter is shown in the fourth column of the tables below.

If this document is used to show the current values, the third column should be filled in even if a fixed parameter is selected in the capabilities section ("NA" may be entered for parameters that are Not Applicable).

If the document is used to show the current values of parameters, then column 3 applies to a single connection between a master and an outstation.

1.1    Device Identification	Capabilities	Current Value	If configurable list methods
1.1.1    Device Function: Masters send DNP requests, while Outstations send DNP responses. If a single physical device can perform both functions, a separate Device Profile Document must be provided for each function.	Master Outstation	Master Outstation	Proprietary File via Other Mechanism ----------------
1.1.2    Vendor Name: The name of the organization producing the device. Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 252.		ABB
1.1.3    Device Name: The model and name of the device, sufficient to distinguish it from any other device from the same organization. Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 250.		REC615
1.1.4    Device manufacturer's hardware version string: Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 243.		N/A
1.1.5    Device manufacturer's software version string: Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 242.		PCL1
1.1.6    Device Profile Document Version Number: Version of the Device Profile Document is indicated by a whole number incremented with each new release. This should match the latest version shown in the Revision History at the beginning of this document.		1
1.1.7    DNP Levels Supported for: Indicate each DNP3 Level to which the device conforms fully. For Masters, requests and responses can be indicated independently.	Outstations Only Requests and Responses None Level 1 Level 2 Level 3 Level 4	Level 1 Level 2
1.1.8    Supported Function Blocks:	Self Address Support Data Sets File Transfer Virtual Terminal Mapping to IEC 61850 Object Models defined in a DNP3 XML file Function code 31, activate configuration Secure Authentication (if checked then see 1.12)	Self Address Secure Authentication	Proprietary File via Other Mechanism ---------------- direct ----------------
1.1.9    Notable Additions: A brief description intended to quickly identify (for the reader) the most obvious features the device supports in addition to the Highest DNP Level Supported. The complete list of features is described in the Implementation Table.
1.1.10    Methods to set Configurable Parameters:	XML - Loaded via DNP3 File Transfer XML - Loaded via other transport mechanism Terminal - ASCII Terminal Command Line Software - Vendor software named Proprietary file loaded via DNP3 File Transfer Proprietary file loaded via other transport mechanism Direct - Keypad on device front panel Factory - Specified when device is ordered Protocol - Set via DNP3 (e.g. assign class) Other - explain:	XML via other Direct
1.1.11    DNP3 XML files available On-line: XML configuration file names that can be read or written through DNP3 File Transfer to a device. A device's currently running configuration is returned by DNP3 on-line XML file read from the device. DNP3 on-line XML file write to a device will update the device's configuration when the Activate Configuration (function code 31) is received.	Rd Wr Filename Description of Contents dnpDP.xml Complete Device Profile dnpDPCap.xml Device Profile Capabilities dnpDPCfg.xml Device Profile config values	Rd Wr Filename dnpDP.xml dnpDPCap.xml dnpDPCfg.xml
1.1.12    External DNP3 XML files available Off-line: XML configuration file names that can be read or written from an external system, typically from a system that maintains the outstation configuration. External off-line XML file read permits an XML definition of a new configuration to be supplied from off-line configuration tools. External off-line XML file write permits an XML definition of a new configuration to be supplied to off-line configuration tools.	Rd Wr Filename Description of Contents dnpDP.xml Complete Device Profile dnpDPCap.xml Device Profile Capabilities dnpDPCfg.xml Device Profile config values	Rd Wr Filename dnpDP.xml dnpDPCap.xml dnpDPCfg.xml
1.1.13    Connections Supported:	Serial (complete section 1.2) IP Networking (complete section 1.3) Other, explain	Serial IP Networking	Proprietary File via Other Mechanism ---------------- direct ----------------
1.1.14    Conformance Testing: Where conformance testing has been completed for the outstation or master station, specify the version of the published DNP3 test procedures that was successfully passed. If independently tested, identify the organization that performed the test.	Self-tested, version Independently tested, version

1.2    Serial Connections	Capabilities	Current Value	If configurable list methods
1.2.1    Port Name: Name used to reference the communications port defined in this section.		COM1/COM2
1.2.2    Serial Connection Parameters:	Asynchronous - 8 Data Bits, 1 Start Bit, 1 Stop Bit, No Parity Other, explain Note: Implemented in Target Layer	Asynchronous
1.2.3    Baud Rate:	Fixed at Configurable, range 9600 to 115200 Configurable, selectable from Configurable, other, describe Note: Implemented in Target Layer	9600	Proprietary File via Other Mechanism ---------------- direct ----------------
1.2.4    Hardware Flow Control (Handshaking): Describe hardware signaling requirements of the interface. Where a transmitter or receiver is inhibited until a given control signal is asserted, it is considered to require that signal prior to sending or receiving characters. Where a signal is asserted prior to transmitting, that signal will be maintained active until after the end of transmission. Where a signal is asserted to enable reception, any data sent to the device when the signal is not active could be discarded.	None RS-232 / V.24 / V.28 Options: Asserts: RTS Before Tx DTR Before Tx RTS Before Rx DTR Before Rx Always RTS Always DTR Requires Before Tx: CTS Asserted Deasserted DCD Asserted Deasserted DSR Asserted Deasserted RI Asserted Deasserted Requires Rx Inactive before Tx Requires Before Rx: CTS Asserted Deasserted DCD Asserted Deasserted DSR Asserted Deasserted RI Asserted Deasserted Always Ignores: CTS DCD DSR RI Other, explain   RS-422 / V.11 Options: Requires Indication before Rx Asserts Control before Tx Other, explain   RS-485 Options: Requires Rx inactive before Tx Other, explain 2-wire mode half-duplex, 4-wire full duplex   Other, explain Optical ST	RS-232 / V.24 / V.28 Options: RS-422 / V.11 Options: RS-485Options: Other, 2-wire mode half-duplex, 4-wire full duplex
1.2.5    Interval to Request Link Status: Indicates how often to send Data Link Layer status requests on a serial connection. This parameter is separate from the TCP Keep-alive timer.	Not Supported Fixed at seconds Configurable, range 0 to 65535seconds Configurable, selectable from seconds Configurable, other, describe	0 seconds	Proprietary File via Other Mechanism ---------------- direct ----------------
1.2.6    Supports DNP3 Collision Avoidance: Indicates whether an Outstation uses a collision avoidance algorithm. Collision avoidance may be implemented by a back-off timer with two parameters that define the back-off time range or by some other vendor-specific mechanism. The recommended back-off time is specified as being a fixed minimum delay plus a random delay, where the random delay has a maximum value specified. This defines a range of delay times that are randomly distributed between the minimum value and the minimum plus the maximum of the random value. If a back-off timer is implemented with only a fixed or only a random value, select the Back-off time method and set the parameter that is not supported to "Fixed at 0 ms".	No Yes, using Back-off time = (Min + Random) method Other, explain	No
1.2.7    Receiver Inter-character Timeout: When serial interfaces with asynchronous character framing are used, this parameter indicates if the receiver makes a check for gaps between characters. (i.e. extensions of the stop bit time of one character prior to the start bit of the following character within a message). If the receiver performs this check and the timeout is exceeded then the receiver discards the current data link frame. A receiver that does not discard data link frames on the basis of inter-character gaps is considered not to perform this check. Where no asynchronous serial interface is fitted this parameter is not applicable. In this case none of the options shall be selected.	Not Checked No gap permitted Fixed at 4bit times Fixed at ms Configurable, range to bit times Configurable, range to ms Configurable, selectable from bit times Configurable, selectable from ms Configurable, other, describe Variable, explain	4 bit times	Proprietary File via Other Mechanism ---------------- direct ----------------
1.2.8    Inter-character gaps in transmission: When serial interfaces with asynchronous character framing are used, this parameter indicates whether extra delay is ever introduced between characters in the message, and if so, the maximum width of the gap. Where no asynchronous serial interface is fitted this parameter is not applicable. In this case none of the options shall be selected.	None (always transmits with no inter-character gap) Maximumbit times Maximumms	None

1.3    IP Networking	Capabilities	Current Value	If configurable list methods
1.3.1    Port Name: Name used to reference the communications port defined in this section.		20000
1.3.2    Type of End Point:	TCP Initiating (Master Only) TCP Listening (Outstation Only) TCP Dual (required for Masters) UDP Datagram (required)	TCP Listening UDP Datagram
1.3.3    IP Address of this Device:		192.168.2.10	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.4    Subnet Mask:		255.255.255.0	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.5    Gateway IP Address:		192.168.2.1	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.6    Accepts TCP Connections or UDP Datagrams from:	Allows all (show as *.*.*.* in 1.3.7) Limits based on IP address Limits based on list of IP addresses Limits based on a wildcard IP address Limits based on list of wildcard IP addresses Other, explain	Allows all	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.7    IP Address(es) from which TCP Connections or UDP Datagrams are accepted:		*.*.*.* 0.0.0.0	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.8    TCP Listen Port Number: If Outstation or dual end point Master, port number on which to listen for incoming TCP connect requests. Required to be configureable for Masters and recommended to be configurable for Outstations.	Not Applicable (Master w/o dual end point) Fixed at 20,000 Configurable, range 20000 to 65535 Configurable, selectable from Configurable, other, describe	20000	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.9    TCP Listen Port Number of remote device: If Master or dual end point Outstation, port number on remote device with which to initiate connection. Required to be configurable for Masters and recommended to be configurable for Outstations.	Not Applicable (Outstation w/o dual end point) Fixed at 20,000 Configurable, range to Configurable, selectable from Configurable, other, describe	Not Applicable
1.3.10    TCP Keep-alive timer: The time period for the keep-alive timer on active TCP connections.	Fixed at ms Configurable, range 0 to 1000000000ms Configurable, selectable from ms Configurable, other, describe	0 ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.11    Local UDP port: Local UDP port for sending and/or receiving UDP datagrams. Masters may let system choose an available port. Outstations must use one that is known by the Master.	Fixed at 20,000 Configurable, range 20000 to 65535 Configurable, selectable from Configurable, other, describe Let system choose (Master only)	20000	Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.12    Destination UDP port for DNP3 Requests (Masters Only):	Fixed at 20,000 Configurable, range 0 to 65535 Configurable, selectable from Configurable, other, describe	0	XML via Other Mechanism ---------------- direct ----------------
1.3.13    Destination UDP port for initial unsolicited null responses (UDP only Outstations): The destination UDP port for sending initial unsolicited Null response.	None Fixed at 20,000 Configurable, range 0 to 65535 Configurable, selectable from Configurable, other, describe	0	XML via Other Mechanism ---------------- direct ----------------
1.3.14    Destination UDP port for responses (UDP only Outstations): The destination UDP port for sending all responses other than the initial unsolicited Null response.	None Fixed at 20,000 Configurable, range to Configurable, selectable from Configurable, other, describe Use source port number	None
1.3.15    Multiple outstation connections (Masters only): Indicates whether multiple outstation connections are supported.	Supports multiple outstations (Masters only)
1.3.16    Multiple master connections (Outstations only): Indicates whether multiple master connections are supported and the method that can be used to establish connections.	Supports multiple masters (Outstations only) If supported, the following methods may be used: Method 1 (based on IP address) - required Method 2 (based on IP port number) - recommended Method 3 (browsing for static data) - optional	IP address IP port number	XML via Other Mechanism ---------------- Proprietary File via Other Mechanism ---------------- direct ----------------
1.3.17    Time synchronization support:	DNP3 LAN procedure (function code 24) DNP3 Write Time (not recommended over LAN) Other, explain Not Supported	LAN procedure Write Time

1.4    Link Layer	Capabilities	Current Value	If configurable list methods
1.4.1    Data Link Address: Indicates if the link address is configurable over the entire valid range of 0 to 65,519. Data link addresses 0xFFF0 through 0xFFFF are reserved for broadcast or other special purposes.	Fixed at Configurable, range 1 to 65519 Configurable, selectable from Configurable, other, describe	1	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.2    DNP3 Source Address Validation: Indicates whether the Outstation will filter out requests not from a specific source address.	Never Always, one address allowed (shown in 1.4.3) Always, any one of multiple addresses allowed (each selectable as shown in 1.4.3) Sometimes, explain	Never	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.3    DNP3 Source Address(es) expected when Validation is Enabled: Selects the allowed source address(es)	Configurable to any 16 bit DNP Data Link Address value Configurable, range 0 to 65519 Configurable, selectable from Configurable, other, describe	3	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.4    Self Address Support using address 0xFFFC: If an Outstation receives a message with a destination address of 0xFFFC it shall respond normally with its own source address. It must be possible to diasble this feature if supported.	Yes (only allowed if configurable) No	Yes	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.5    Sends Confirmed User Data Frames: A list of conditions under which the device transmits confirmed link layer services (TEST_LINK_STATES, RESET_LINK_STATES, CONFIRMED_USER_DATA).	Never Always Sometimes, explainonly for multiframe message fragments	Never	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.6    Data Link Layer Confirmation Timeout: This timeout applies to any secondary data link message that requires a confirm or response (link reset, link status, user data, etc).	None Fixed at ms Configurable, range 100 to 65535ms Configurable, selectable from ms Configurable, other, describe Variable, explain	3000ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.7    Maximum Data Link Retries: The number of times the device will retransmit a frame that requests Link Layer confirmation.	None Fixed at Configurable, range 0 to 65535 Configurable, selectable from Configurable, other, describe	3	Proprietary File via Other Mechanism ---------------- direct ----------------
1.4.8    Maximum number of octets Transmitted in a Data Link Frame: This number includes the CRCs. With a length field of 255, the maximum size would be 292.	Fixed at 292 Configurable, range to Configurable, selectable from Configurable, other, describe	292
1.4.9    Maximum number of octets that can be Received in a Data Link Frame: This number includes the CRCs. With a field length of 255, the maximum size would be 292. The device must be able to receive 292 octets to be compliant.	Fixed at 292 Configurable, range to Configurable, selectable from Configurable, other, describe	292

1.5    Application Layer	Capabilities	Current Value	If configurable list methods
1.5.1    Maximum number of octets Transmitted in an Application Layer Fragment other than File Transfer: This size does not include any transport or frame octets. - Masters must provide a setting less than or equal to 249 to be compliant. - Outstations must provide a setting less than or equal to 2048 to be compliant. Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 240.	Fixed at Configurable, range 256 to 2048 Configurable, selectable from Configurable, other, describe	2048	Proprietary File via Other Mechanism ---------------- direct ----------------
1.5.2    Maximum number of octets Transmitted in an Application Layer Fragment containing File Transfer:	Fixed at 0 Configurable, range to Configurable, selectable from Configurable, other, describe	0
1.5.3    Maximum number of octets that can be received in an Application Layer Fragment: This size does not include any transport or frame octets. - Masters must provide a setting greater than or equal to 2048 to be compliant. - Outstations must provide a setting greater than or equal to 249 to be compliant. Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 241.	Fixed at 2048 Configurable, range to Configurable, selectable from Configurable, other, describe	2048
1.5.4    Timeout waiting for Complete Application Layer Fragment: Timeout if all frames of a message fragment are not received in the specified time. Measured from time first frame of a fragment is received until the last frame is received.	None Fixed at ms Configurable, range 100 to 65535ms Configurable, selectable from ms Configurable, other, describe Variable, explain	5000ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.5.5    Maximum number of objects allowed in a single control request for CROB (Group 12): Note: The current value of this outstation parameter is available remotely using protocol object Group 0 Variation 216.	Fixed at 10(enter 0 if controls are not supported for CROB) Configurable, range to Configurable, selectable from Configurable, other, describe Variable, explain	10
1.5.6    Maximum number of objects allowed in a single control request for Analog Outputs (Group 41):	Fixed at 10(enter 0 if controls are not supported for Analog Outputs) Configurable, range to Configurable, selectable from Configurable, other, describe Variable, explain	10
1.5.7    Maximum number of objects allowed in a single control request for Data Sets (Groups 85, 86, 87):	Fixed at (enter 0 if controls are not supported for Data Sets) Configurable, range to Configurable, selectable from Configurable, other, describe Variable, explain	0
1.5.8    Supports mixed object groups (AOBs, CROBs and Data Sets) in the same control request:	Not applicable - controls are not supported Yes No	No
1.5.9    Control Status Codes Supported: Indicates which control status codes are supported by the device: - Masters must indicate which control status codes they accept in outstation responses. - Outstations must indicate which control status codes they generate in responses. Control status code 0 (success) must be supported by Masters and Outstations.	1 - TIMEOUT 2 - NO_SELECT 3 - FORMAT_ERROR 4 - NOT_SUPPORTED 5 - ALREADY_ACTIVE 6 - HARDWARE_ERROR 7 - LOCAL 8 - TOO_MANY_OBJS 9 - NOT_AUTHORIZED 10 - AUTOMATION_INHIBIT 11 - PROCESSING_LIMITED 12 - OUT_OF_RANGE 13 - DOWNSTREAM_LOCAL 14 - ALREADY_COMPLETE 15 - BLOCKED 16 - CANCELLED 17 - BLOCKED_OTHER_MASTER 18 - DOWNSTREAM_FAIL 126 - RESERVED 127 - UNDEFINED

1.7    Fill Out The Following Items For Outstations Only	Capabilities	Current Value	If configurable list methods
1.7.1    Timeout waiting for Application Confirm of solicited response message:	None Fixed at ms Configurable, range 100 to 65535ms Configurable, selectable from ms Configurable, other, describe Variable, explain	5000ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.7.2    How often is time synchronization required from the master: Details of when the master needs to perform a time synchronization to ensure that the outstation clock does not drift outside of an acceptable tolerance. If the option to relate this to IIN1.4 is used then details of when IIN1.4 is asserted are in section 1.10.2.	Never needs time Within seconds after IIN1.4 is set Periodically, fixed at seconds Periodically, between 0 and 65535000 seconds	Never	Proprietary File via Other Mechanism ---------------- direct ----------------
1.7.3    Device Trouble Bit IIN1.6: If IIN1.6 device trouble bit is set under certain conditions, explain the possible causes.	Never used Reason for settingdevice internal fault	Used as described
1.7.4    File Handle Timeout: If there is no activity referencing a file handle for a configurable length of time, the outstation must do an automatic close on the file. The timeout value must be configurable up to 1 hour. When this condition occurs the outstation will send a File Transport Status Object (obj grp 70 var 6) using a status code value of handle expired (0x02).	Not applicable, files not supported Fixed at ms Configurable, range to ms Configurable, selectable from ms Configurable, other, describe Variable, explain	Not applicable
1.7.5    Event Buffer Overflow Behavior:	Discard the oldest event Discard the newest event Other, explain	Discard newest	Proprietary File via Other Mechanism ----------------
1.7.6    Event Buffer Organization: Explain how event buffers are arranged (per Object Group, per Class, single buffer, etc) and specify the number of events that can be buffered.	Per Object Group (see part 3) Per Class Class 1: Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe Class 2: Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe Class 3: Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe Single Buffer Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe Other, describe	Per object group
1.7.7    Sends Multi-Fragment Responses: Indicates whether an Outstation sends multi-fragment responses (Masters do not send multi-fragment requests).	Yes No	Yes
1.7.8    Last Fragment Confirmation: Indicates whether the Outstation requests confirmation of the last fragment of a multi-fragment response.	Always Sometimes, explainOnly when it contains events Never	Sometimes	Proprietary File via Other Mechanism ---------------- direct ----------------
1.7.9    DNP Command Settings preserved through a device restart: If any of these settings are written through the DNP protocol and they are not preserved through a restart of the Outstation, the Master will have to write them again after it receives a response in which the Restart IIN bit is set.	Assign Class Analog Deadbands Data Set Prototypes Data Set Descriptors Function Code 31 Activate Configuration	Assign Class Analog Deadbands	XML via Other Mechanism ----------------
1.7.10    Supports configuration signature: Indicates whether an Outstation supports the Group 0 device attribute "Configuration signature" (variation 200). If yes, list the vendor-defined name(s) of the algorithm(s) available to calculate the signature. Note: The algorithm used for calculating the signature is identified by name in a string that can be determined remotely using protocol object Group 0 Variation 201. If only a single algorithm is available, identifying that algorithm in this object is optional.	Configuration signature supported If configuration signature is supported, then the following algorithm(s) are available for calculating the signature:	Not Supported
1.7.11    Requests Application Confirmation: Indicate if application confirmation is requested: - when responding with events - when sending non-final fragments of multi-fragment responses Note: to be compliant both must be selected as "yes".	For event responses: Yes No Configurable For non-final fragments: Yes No Configurable	Event responses: Yes Non-final fragments: No

1.8    Outstation Unsolicited Response Support	Capabilities	Current Value	If configurable list methods
1.8.1    Supports Unsolicited Reporting: When the unsolicited response mode is configured "off", the device is to behave exactly like an equivalent device that has no support for unsolicited responses. If set to "on", the Outstation will send a null Unsolicited Response after it restarts, then wait for an Enable Unsolicited Response command from the master before sending additional Unsolicited Responses containing event data.	Yes No Configurable, selectable from On and Off	Off	Proprietary File via Other Mechanism ---------------- direct ----------------
1.8.2    Master Data Link Address: The destination address of the master device where the unsolicited responses will be sent.	Fixed at Configurable, range 0 to 65519 Configurable, selectable from Configurable, other, describe	3	Proprietary File via Other Mechanism ---------------- direct ----------------
1.8.3    Unsolicited Response Confirmation Timeout: This is the amount of time that the outstation will wait for an Application Layer confirmation back from the master indicating that the master received the unsolicited response message. As a minimum, the range of configurable values must include times from one second to one minute. This parameter may be the same one that is used for normal, solicited, application confirmation timeouts, or it may be a separate parameter.	Fixed at ms Configurable, range 0 to 65535ms Configurable, selectable from ms Configurable, other, describe Variable, explain	5000 ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.8.4    Number of Unsolicited Retries: This is the number of retries that an outstation transmits in each unsolicited response series if it does not receive confirmation back from the master. The configured value includes identical and regenerated retry messages. One of the choices must provide for an indefinite (and potentially infinite) number of transmissions.	None Fixed at Configurable, range 0 to 65535 Configurable, selectable from Configurable, other, describe Always infinite, never gives up	3	Proprietary File via Other Mechanism ---------------- direct ----------------

1.9    Outstation Unsolicited Response Trigger Conditions	Capabilities	Current Value	If configurable list methods
1.9.1    Number of class 1 events:	Class 1 not used to trigger Unsolicited Responses Fixed at Configurable, range 0 to 999 Configurable, selectable from Configurable, other, describe	2	Proprietary File via Other Mechanism ---------------- direct ----------------
1.9.2    Number of class 2 events:	Class 2 not used to trigger Unsolicited Responses Fixed at Configurable, range 0 to 999 Configurable, selectable from Configurable, other, describe	2	Proprietary File via Other Mechanism ---------------- direct ----------------
1.9.3    Number of class 3 events:	Class 3 not used to trigger Unsolicited Responses Fixed at Configurable, range 0 to 999 Configurable, selectable from Configurable, other, describe	2	Proprietary File via Other Mechanism ---------------- direct ----------------
1.9.4    Total number of events from any class:	Total Number of Events not used to trigger Unsolicited Responses Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe
1.9.5    Hold time after class 1 event: A configurable value of 0 indicates that responses are not delayed due to this parameter.	Class 1 not used to trigger Unsolicited Responses Fixed at ms Configurable, range 0 to 65535ms Configurable, selectable from ms Configurable, other, describe	50 ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.9.6    Hold time after class 2 event: A configurable value of 0 indicates that responses are not delayed due to this parameter.	Class 2 not used to trigger Unsolicited Responses Fixed at ms Configurable, range 0 to 65535ms Configurable, selectable from ms Configurable, other, describe	50 ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.9.7    Hold time after class 3 event: A configurable value of 0 indicates that responses are not delayed due to this parameter.	Class 3 not used to trigger Unsolicited Responses Fixed at ms Configurable, range 0 to 65535ms Configurable, selectable from ms Configurable, other, describe	50 ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.9.8    Hold time after event assigned to any class: A configurable value of 0 indicates that responses are not delayed due to this parameter.	Class events not used to trigger Unsolicited Responses Fixed at ms Configurable, range to ms Configurable, selectable from ms Configurable, other, describe		Proprietary File via Other Mechanism ----------------
1.9.9    Retrigger Hold Time: The hold-time timer may be retriggered for each new event detected (increased possibility of capturing all the changes in a single response) or not retriggered (giving the master a guaranteed update time).	Hold-time timer will be retriggered for each new event detected (may get more changes in next response) Hold-time timer will not be retriggered for each new event detected (guaranteed update time)	Not retriggered
1.9.10    Other Unsolicited Response Trigger Conditions:

1.10    Outstation Performance	Capabilities	Current Value	If configurable list methods
1.10.1    Maximum Time Base Drift (milliseconds per minute): If the device is synchronized by DNP, what is the clock drift rate over the full operating temperature range.	Fixed at ms Range 0,001 to 0,35ms Selectable from ms Other, describe
1.10.2    When does outstation set IIN1.4: When does the outstation set the internal indication IIN1.4 NEED_TIME	Never Asserted at startup until first Time Synchronization request received Periodically every seconds Periodically, range 0 to 65535 seconds Periodically, selectable from seconds seconds after last time sync Range to seconds after last time sync Selectable from seconds after last time sync When time error may have drifted by ms When time error may have drifted by range to ms When time error may have drifted by selectable from ms		XML via Other Mechanism ---------------- direct ----------------
1.10.3    Maximum Internal Time Reference Error when set via DNP (ms): The difference between the time set in DNP Write Time message, and the time actually set in the outstation.	Fixed at ms Range to ms Selectable from ms Other, describe
1.10.4    Maximum Delay Measurement Error (ms): The difference between the time reported in the delay measurement response and the actual time between receipt of the delay measurement request and issuing the delay measurement reply.	Fixed at ms Range to ms Selectable from ms Other, describe
1.10.5    Maximum Response Time (ms): The amount of time an outstation will take to respond upon receipt of a valid request. This does not include the message transmission time.	Fixed at ms Range to ms Selectable from ms Other, describe
1.10.6    Maximum time from start-up to IIN 1.4 assertion (ms):	Fixed at ms Range 0 to 65535000ms Selectable from ms Other, describe	30000 ms
1.10.7    Maximum Event Time-tag error for local Binary and Double Bit I/O (ms): The error between the time-tag reported and the absolute time of the physical event. This error includes the Internal Time Reference Error. Note: The current value of this parameter is available remotely using protocol object Group 0 Variation 217.	Fixed at ms Range to ms Selectable from ms Other, describe
1.10.8    Maximum Event Time-tag error for local I/O other than Binary and Double Bit data types (ms):	Fixed at ms Range to ms Selectable from ms Other, describe

1.11    Individual Field Outstation Parameters	Value of Current Setting	If configurable list methods
1.11.1    User-assigned location name or code string (same as g0v245):
1.11.2    User-assigned ID code/number string (same as g0v246):
1.11.3    User-assigned name string for the outstation (same as g0v247):
1.11.4    Device Serial Number string (same as g0v248):

1.12    Security Parameters	Capabilities	Current Value	If configurable list methods
1.12.1    DNP3 device support for secure authentication: The support for secure authentication is optional in DNP3 devices. Indicate here if the device supports secure authentication. If the device does not support secure authentication then ignore the rest of this section. If the device does support secure authentication then specify the version(s) that are supported in the device. The version number is an integer value defined in the DNP3 Specification. The Secure Authentication procedure defined in IEEE 1815-2010 is version 2. The Secure Authentication procedure defined in IEEE 1815-2012 is version 5.	Secure Authentication not supported If Secure Authentication is supported, what Version(s) are supported: Fixed at 5 Configurable, selectable from	Supports security Version: 5
1.12.2    Maximum number of users: The secure authentication algorithm provides support for multiple users. The device must support details for each user (update keys, session keys, etc). A user is identified by a 16-bit user number, allowing a maximum of 65535 users. Devices are not mandated to support this number of potential users. Indicate here the actual limit to the number of simultaneous users that can be supported.	Maximum nunber of users supported: 50	Maximum number of users supported: 50
1.12.3    Security message response timeout: Authentication of critical messages may involve additional message exchanges (challenges and responses) which can require an extension to the normal DNP3 message response timeout. This timeout specifies an additional time to be used when the extra security transactions are involved. The maximum allowable timeout extension should not exceed 120 seconds.	Fixed at ms Configurable, range 100 to 120000ms Configurable, selectable from ms Configurable, other, describe	2000 ms	Proprietary File via Other Mechanism ---------------- direct ----------------
1.12.4    Aggressive mode of operation (receive): DNP3 devices may (optionally) accept "aggressive" mode requests, where challenge data used for authentication is appended to a critical message rather than needing to be solicited via a separate message exchange.		Yes, accepts aggressive mode requests No, does not accept aggressive mode requests	Proprietary File via Other Mechanism ---------------- direct ----------------
1.12.5    Aggressive mode of operation (issuing): DNP3 devices must support the issuing of "aggressive" mode of operation, where challenge data used for authentication is appended to a critical message rather than needing to be solicited via a separate message exchange. Specific instances of devices may have the use of aggressive mode switched off.		Yes, issues aggressive mode requests No, does not issue aggressive mode requests
1.12.6    Session key change interval: To counter an attack that compromises the session key, the session key is changed at regular intervals. The maximum interval is 2 hours. Outstation devices invalidate the current set of session keys if they have not been changed by the master station after a period of twice this configured value. To accommodate systems with infrequent communications, this change interval can be disabled and just the session key change message count used (see 1.12.7)	Can be disabled When enabled Configurable, range 0 to 14400seconds	Enabled 1800 seconds	Proprietary File via Other Mechanism ---------------- direct ----------------
1.12.7    Session key change message count: In addition to changing the session key at regular intervals, the key shall also be changed after a specified number of messages have been exchanged. The maximum allowable value for this message count is 10,000	Configurable, range 2 to 10000000	4000	Proprietary File via Other Mechanism ---------------- direct ----------------
1.12.8    Maximum error count: To assist in countering denial of service attacks, a DNP3 device shall stop replying with error codes after a number of successive authentication failures. This error count has a maximum value of 10. Setting the error count to zero inhibits all error messages.	Configurable, range 1 to 65535	10	Proprietary File via Other Mechanism ---------------- direct ----------------
1.12.9    MAC algorithm requested in a challenge exchange: Part of the authentication message is hashed using an MAC algorithm. Secure Authentication version 2 specifies that DNP3 devices must support SHA-1 and may optionally support SHA-256 for this hashing process. Secure Authentication version 5 specifies that SHA-256 is the default. The output of the MAC algorithm is truncated (the resulting length dependant on the media being used).	SHA-1 (truncated to the leftmost 4 octets) SHA-1 (truncated to the leftmost 8 octets) SHA-1 (truncated to the leftmost 10 octets) SHA-256 (truncated to the leftmost 8 octets) SHA-256 (truncated to the leftmost 16 octets) AES-GMAC Other, explain:	SHA-256 (16)	XML via Other Mechanism ---------------- Proprietary File via Other Mechanism ---------------- direct ----------------
1.12.10    Key-wrap algorithm to encrypt session keys: During the update of a session key, the key is encrypted using AES-128 or optionally using other algorithms.	AES-128 AES-256 Other, explain:	AES-256	XML via Other Mechanism ----------------
1.12.11    Cipher Suites used with DNP implementations using TLS: When TLS is supported, DNP3 Secure Authentication mandates the support of TLS_RSA_WITH_AES_128_SHA. The specification has a number of recommended cipher suite combinations. Indicate the supported Cipher Suites for implementations using TLS.	Not relevant - TLS is not used TLS_RSA encrypted with AES128 TLS_RSA encrypted with RC4_128 TLS_RSA encrypted with 3DES_EDE_CBC TLS_DH, signed with DSS, encrypted with 3DES_EDE_CBC TLS_DH, signed with RSA, encrypted with 3DES_EDE_CBC TLS_DHE, signed with DSS, encrypted with 3DES_EDE_CBC TLS_DHE, signed with RSA, encrypted with 3DES_EDE_CBC TLS_DH, signed with DSS, encrypted with AES128 TLS_DH, signed with DSS, encrypted with AES256 TLS_DH encrypted with AES128 TLS_DH encrypted with AES256 Other, explain:	TLS_RSA Encrypted 3DES
1.12.12    Change cipher request timeout: Implementations using TLS shall terminate the connection if a response to a change cipher request is not seen within this timeout period.	Not relevant - TLS is not used Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe	Value
1.12.13    Number of Certificate Authorities supported: Implementations using TLS shall support at least 4 Certificate Authorities. Indicate the number supported.		1
1.12.14    Certificate Revocation check time: Implementations using TLS shall evaluate Certificate Revocation Lists on a periodic basis, terminating a connection if a certificate is revoked.	Not relevant - TLS is not used Fixed at hours Configurable, range 0 to 4294967295hours Configurable, selectable from hours Configurable, other, describeDefined in Public key certificate		XML via Other Mechanism ----------------
1.12.15    Additional critical function codes: The DNP3 specification defines those messages with specific function codes that are critical and must be used as part of a secure authentication message exchange. Messages with other function codes are optional and changes to this list should be noted here. Note: Secure Authentication version 5 defines additional functions as critical that were not considered critical in version 2. These are shown in the next column annotated with "V2 only".	Additional function codes that are to be considered as "critical": 0 (Confirm) 1 (Read) 7 (Immediate freeze) 8 (Immediate freeze - no ack) 9 (Freeze-and-clear) 10 (Freeze-and-clear - no ack) 11 (Freeze-at-time) 12 (Freeze-at-time - no ack) 22 (Assign Class) 23 (Delay Measurement) 25 (Open File) - V2 only 26 (Close File) - V2 only 27 (Delete File) - V2 only 28 (Get File Info) - V2 only 30 (Abort File) - V2 only 129 (Response) 130 (Unsolicited Response)
1.12.16    Other critical fragments: Other critical transactions can be defined and should be detailed here. Examples could be based on time (for example: the first transaction after a communications session is established). Other examples could be based on specific data objects (for example: the reading of specific data points).
1.12.17    Support for remote update key changes: Devices implementing secure authentication version 5 or later have the option to support remote update key changes. If remote update key change is supported then the procedure using symmetric cryptography is mandatory. Additional support for the procedure using asymmetric (public key) cryptography is optional.	Remote update key change by symmetric cryptography Supported key change methods: AES-128 key wrap with SHA-1-HMAC AES-256 key wrap with SHA-256-HMAC AES-256 key wrap with AES-GMAC Remote update key change by asymmetric cryptography Supported key change methods: RSAES-OAEP-1024/SHA-1 with DSA SHA-1 and SHA-1-HMAC RSAES-OAEP-2048/SHA-256 with DSA SHA-256 and SHA-256-HMAC RSAES-OAEP-3072/SHA-256 with DSA SHA-256 and SHA-256-HMAC RSAES-OAEP-2048/SHA-256 with DSA SHA-256 and AES-GMAC RSAES-OAEP-3072/SHA-256 with DSA SHA-256 and AES-GMAC	Using symmetric cryptography: AES-256 key wrap with SHA-256-HMAC	XML via Other Mechanism ----------------
1.12.18    "Default" user credentials are permitted to expire:	Yes No	No

1.13    Broadcast Functionality	Capabilities	Current Value	If configurable list methods
This section indicates which functions are supported by the device when using broadcast addresses. Note that this section shows only entries that may have a meaningful purpose when used with broadcast requests.
1.13.1    Support for broadcast functionality:	Disabled Enabled Configurable	Disabled	Proprietary File via Other Mechanism ---------------- direct ----------------
1.13.2    Write functions (FC = 2) supported with broadcast requests:	Write clock (g50v1 with qualifier code 07) Disabled Enabled Configurable, other (described elsewhere) Write last recorded time (g50v3 with qualifier code 07) Disabled Enabled Configurable, other (described elsewhere) Clear restart (g80v1 with qualifier code 00 and index = 7, value = 0) Disabled Enabled Configurable, other (described elsewhere) Write to any other group / variation / qualifier code Disabled Enabled Configurable, other (described elsewhere)	Write clock: Disabled   Write last recorded time: Disabled   Clear restart: Disabled   Write any other: Disabled	Clock: Proprietary File via Other Mechanism ----------------   Time: Proprietary File via Other Mechanism ----------------   Restart: Proprietary File via Other Mechanism ---------------- direct ----------------   Other: Proprietary File via Other Mechanism ----------------
1.13.3    Direct operate functions (FC = 5) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.4    Direct operate, no acknowledgement functions (FC = 6) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.5    Immediate freeze functions (FC = 7) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.6    Immediate freeze, no acknowledgement functions (FC = 8) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.7    Freeze and clear functions (FC = 9) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.8    Freeze and clear, no acknowledgement functions (FC = 10) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.9    Freeze at time functions (FC = 11) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.10    Freeze at time, no acknowledgement functions (FC = 12) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.11    Cold restart functions (FC = 13) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.12    Warm restart functions (FC = 14) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled	Proprietary File via Other Mechanism ----------------
1.13.13    Initialize data functions (FC = 15) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.14    Initialize application functions (FC = 16) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.15    Start application functions (FC = 17) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.16    Stop application functions (FC = 18) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.17    Save configuration functions (FC = 19) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.18    Enable unsolicited functions (FC = 20) supported with broadcast requests:	Enable unsolicited by event Class (g60v2, g60v3 and g60v4 with qualifier code 06) Disabled Enabled Configurable, other (described elsewhere) Enable unsolicited for any other group / variation / qualifier code Disabled Enabled Configurable, other (described elsewhere)	By event class: Disabled   By any other: Disabled	Class: Proprietary File via Other Mechanism ----------------   Other:
1.13.19    Disable unsolicited functions (FC = 21) supported with broadcast requests:	Disable unsolicited by event Class (g60v2, g60v3 and g60v4 with qualifier code 06) Disabled Enabled Configurable, other (described elsewhere) Disable unsolicited for any other group / variation / qualifier code Disabled Enabled Configurable, other (described elsewhere)	By event class: Disabled   By any other: Disabled	Class: Proprietary File via Other Mechanism ----------------   Other: Proprietary File via Other Mechanism ----------------
1.13.20    Assign class functions (FC = 22) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.21    Record current time functions (FC = 24) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled
1.13.22    Activate configuration functions (FC = 31) supported with broadcast requests:	Disabled Enabled Configurable, other (described elsewhere)	Disabled

2    Mapping between DNP3 and IEC 61850 Objects

This optional section allows each configuration parameter or point in the DNP Data map to be tied to an attribute in the IEC 61850 object models (and vice-versa).

Earlier versions of this section (up to version 2.07) used mappings based on an "access point" (section 2.1.1 and then a series of XPath references (section 2.1.2). Section 2.1.2 has been superseded in version 2.08 onwards with mappings defined using either predefined rules (section 2.1.3) or specified as an equation (section 2.1.4). The list of pre-defined rules is found in the IEEE 1815-1 document.

The following display has been selected to be in a tabular form.

Mapping between DNP3 and IEC 61850 Objects

3    Capabilities and Current Settings for Device Database (Outstation only)

The following tables identify the capabilities and current settings for each DNP3 data type. Details defining the data points available in the device are shown in part 5 of this Device Profile.

3.1   Binary Inputs Static (Steady-State) Object Number: 1 Event Object Number: 2
.	Capabilities (leave tick-boxes blank if this data type is not supported)	Current Value	If configurable list methods
3.1.1    Static Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - packed format Variation 2 - with flag Based on point index (add column to table in part 5)	One	Proprietary File via Other Mechanism ---------------- direct ----------------
3.1.2    Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for binary input events can be determined remotely using protocol object Group 0 Variation 237.	Variation 1 - without time Variation 2 - with absolute time Variation 3 - with relative time Based on point index (add column to table in part 5)	Two	Proprietary File via Other Mechanism ---------------- direct ----------------
3.1.3    Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event. "All events" must be checked to be compliant.	Only most recent All events Based on point index (add column to table in part 5)	All events
3.1.4    Binary Inputs included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.1.5    Binary Inputs Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Binary Inputs. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 200 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 200

3.2   Double-bit Binary Inputs Static (Steady-State) Object Number: 3 Event Object Number: 4
.	Capabilities (leave tick-boxes blank if this data type is not supported)	Current Value	If configurable list methods
3.2.1    Static Variation reported when variation 0 requested or in response to Class polls: Note: The support for double-bit inputs can be determined remotely using protocol object Group 0 Variation 234.	Variation 1 - packed format Variation 2 - with flag Based on point index (add column to table in part 5)	One	Proprietary File via Other Mechanism ---------------- direct ----------------
3.2.2    Event Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - without time Variation 2 - with absolute time Variation 3 - with relative time Based on point index (add column to table in part 5)	Two	Proprietary File via Other Mechanism ---------------- direct ----------------
3.2.3    Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event. "All events" must be checked to be compliant.	Only most recent All events Based on point index (add column to table in part 5)	All events
3.2.4    Double-bit Binary Inputs included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.2.5    Double-bit Binary Inputs Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Double-bit Binary Inputs. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 100 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 100

3.3   Binary Output Status and Control Relay Output Block Binary Output Status Object Number: 10 Binary Output Event Object Number: 11 CROB Object Number: 12 Binary Output Command Event Object Number: 13
.	Capabilities (leave tick-boxes blank if this data type is not supported)	Current Value	If configurable list methods
3.3.1    Minimum pulse time allowed with Trip, Close and Pulse On commands:	Fixed at 0 ms (hardware may limit this further) Based on point index (add column to table in part 5)	Fixed at 0 ms
3.3.2    Maximum pulse time allowed with Trip, Close and Pulse On commands:	Fixed at 2147483647 ms (hardware may limit this further Based on point index (add column to table in part 5)	Fixed at 2147483647 ms
3.3.3    Binary Output Status included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Always
3.3.4    Reports Output Command Event Objects:	Never Only upon a successful Control Upon all control attempts	Never
3.3.5    Static Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - packed format Variation 2 - output status with flags Based on point index (add column to table in part 5)	Two
3.3.6    Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for binary output events can be determined remotely using protocol object Group 0 Variation 222.	Variation 1 - status without time Variation 2 - status with time Based on point index (add column to table in part 5)		Proprietary File via Other Mechanism ----------------
3.3.7    Command Event Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - command status without time Variation 2 - command status with time Based on point index (add column to table in part 5)
3.3.8    Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event.	Only most recent All events
3.3.9    Command Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event.	Only most recent All events
3.3.10    Maximum Time between Select and Operate:	Not Applicable Fixed at seconds Configurable, range 1 to 65535seconds Configurable, selectable from seconds Configurable, other, describe Variable, explain Based on point index (add column to table in part 5)	10 seconds	Proprietary File via Other Mechanism ---------------- direct ----------------
3.3.11    Binary Outputs Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Binary Outputs. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 0 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 0
3.3.12    Binary Output Commands Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Binary Output Commands. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 0 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 0

3.4   Counters / Frozen Counters Counter Group Number: 20 Frozen Counter Group Number: 21 Counter Event Group Number: 22 Frozen Counter Event Group Number: 23
.	Capabilities (leave tick-boxes blank if this data type is not supported)	Current Value	If configurable list methods
3.4.1    Static Counter Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 5 - 32-bit without flag Variation 6 - 16-bit without flag Based on point index (add column to table in part 5)	Two	Proprietary File via Other Mechanism ---------------- direct ----------------
3.4.2    Counter Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for counter events can be determined remotely using protocol object Group 0 Variation 227.	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 5 - 32-bit with flag and time Variation 6 - 16-bit with flag and time Based on point index (add column to table in part 5)	Six	Proprietary File via Other Mechanism ---------------- direct ----------------
3.4.3    Counters included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.4.4    Counter Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event. Only the most recent event is typically reported for Counters. When reporting only the most recent event the counter value returned in the response may be either the value at the time that the event is queued or it may be the value at the time of the response.	A: Only most recent (value at time of event) B: Only most recent (value at time of response) C: All events Based on point index (add column to table in part 5)	All events
3.4.5    Static Frozen Counter Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 5 - 32-bit with flag and time Variation 6 - 16-bit with flag and time Variation 9 - 32-bit without flag Variation 10 - 16-bit without flag Based on point index (add column to table in part 5)	Six	Proprietary File via Other Mechanism ---------------- direct ----------------
3.4.6    Frozen Counter Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for frozen counter events can be determined remotely using protocol object Group 0 Variation 225.	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 5 - 32-bit without flag Variation 6 - 16-bit without flag Based on point index (add column to table in part 5)	Six	Proprietary File via Other Mechanism ---------------- direct ----------------
3.4.7    Frozen Counters included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.4.8    Frozen Counter Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event. All events are typically reported for Frozen Counters	Only most recent frozen value All frozen values Based on point index (add column to table in part 5)	All events
3.4.9    Counters Roll Over at:	16 Bits (65,535) 32 Bits (4,294,967,295) Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe Based on point index (add column to table in part 5)	Based on point index
3.4.10    Counters frozen by means of:	Master Request Freezes itself without concern for time of day Freezes itself and requires time of day Other, explain:	Master Request
3.4.11    Counters Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Counters. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 30 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 30
3.4.12    Frozen Counters Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Frozen Counters. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 30 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 30
3.4.13    Reports counter events for change of value: Indicate if counter events are created when the counter value changes.	Yes for all counters No for all counters Based on point index (add column to table in part 5)	Based on point index

3.5   Analog Inputs Static (Steady-State) Object Number: 30 Event Object Number: 32 Deadband Object Number: 34
.	Capabilities (leave tick-boxes blank if this data type is not supported)	Current Value	If configurable list methods
3.5.1    Static Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 3 - 32-bit without flag Variation 4 - 16-bit without flag Variation 5 - single-precision floating point with flag Variation 6 - double-precision floating point with flag Based on point index (add column to table in part 5)	Five	Proprietary File via Other Mechanism ---------------- direct ----------------
3.5.2    Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for analog input events can be determined remotely using protocol object Group 0 Variation 231.	Variation 1 - 32-bit without time Variation 2 - 16-bit without time Variation 3 - 32-bit with time Variation 4 - 16-bit with time Variation 5 - single-precision floating point w/o time Variation 6 - double-precision floating point w/o time Variation 7 - single-precision floating point with time Variation 8 - double-precision floating point with time Based on point index (add column to table in part 5)	Seven	Proprietary File via Other Mechanism ---------------- direct ----------------
3.5.3    Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event. Only the most recent event is typically reported for Analog Inputs. When reporting only the most recent event the analog value returned in the response may be either the value at the time that the event is queued or it may be the value at the time of the response.	A: Only most recent (value at time of event) B: Only most recent (value at time of response) C: All events Based on point index (add column to table in part 5)	All events
3.5.4    Analog Inputs included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.5.5    How Deadbands are set:	A. Global Fixed B. Configurable through DNP C. Configurable via other means D. Other, explain: Based on point index - column in part 5 specifies which of the options applies, B, C, or D	Based on point index	XML via Other Mechanism ----------------
3.5.6    Analog Deadband Algorithm: simple- just compares the difference from the previous reported value integrating- keeps track of the accumulated change other- indicating another algorithm	Simple Integrating Other, explain: Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.5.7    Static Frozen Analog Input Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 3 - 32-bit with time-of-freeze Variation 4 - 16-bit with time-of-freeze Variation 5 - 32-bit without flag Variation 6 - 16-bit without flag Variation 7 - single-precision floating point with flag Variation 8 - double-precision floating point with flag Based on point index (add column to table in part 5)
3.5.8    Frozen Analog Input Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for frozen analog input events can be determined remotely using protocol object Group 0 Variation 230.	Variation 1 - 32-bit without time Variation 2 - 16-bit without time Variation 3 - 32-bit with time Variation 4 - 16-bit with time Variation 5 - single-precision floating point w/o time Variation 6 - double-precision floating point w/o time Variation 7 - single-precision floating point with time Variation 8 - double-precision floating point with time Based on point index (add column to table in part 5)
3.5.9    Frozen Analog Inputs included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)
3.5.10    Frozen Analog Input Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event. All events are typically reported for Frozen Analog Inputs.	Only most recent frozen value All frozen values Based on point index (add column to table in part 5)
3.5.11    Analog Inputs Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Analog Inputs. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 150 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 150
3.5.12    Frozen Analog Inputs Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Frozen Analog Inputs. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 0 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 0

3.6   Analog Outputs and Analog Output Commands Analog Output Status Group Number: 40 Analog Outputs Group Number: 41 Analog Output Events Group Number: 42 Analog Output Command Events Group Number: 43
.	Capabilities (leave tick-boxes blank if this data type is not supported)	Current Value	If configurable list methods
3.6.1    Static Analog Output Status Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - 32-bit with flag Variation 2 - 16-bit with flag Variation 3 - single-precision floating point with flag Variation 4 - double-precision floating point with flag Based on point index (add column to table in part 5)	Two	Proprietary File via Other Mechanism ---------------- direct ----------------
3.6.2    Analog Output Status included in Class 0 response:	Always Never Only if point is assigned to a class Based on point index (add column to table in part 5)	Based on point index	XML via Other Mechanism ----------------
3.6.3    Reports Output Command Event Objects:	Never Only upon a successful Control Upon all control attempts	Never
3.6.4    Event Variation reported when variation 0 requested or in response to Class polls: Note: The support for analog output events can be determined remotely using protocol object Group 0 Variation 219.	Variation 1 - 32-bit without time Variation 2 - 16-bit without time Variation 3 - 32-bit with time Variation 4 - 16-bit with time Variation 5 - single-precision floating point w/o time Variation 6 - double-precision floating point w/o time Variation 7 - single-precision floating point with time Variation 8 - double-precision floating point with time Based on point index (add column to table in part 5)	Four	Proprietary File via Other Mechanism ---------------- direct ----------------
3.6.5    Command Event Variation reported when variation 0 requested or in response to Class polls:	Variation 1 - 32-bit without time Variation 2 - 16-bit without time Variation 3 - 32-bit with time Variation 4 - 16-bit with time Variation 5 - single-precision floating point w/o time Variation 6 - double-precision floating point w/o time Variation 7 - single-precision floating point with time Variation 8 - double-precision floating point with time Based on point index (add column to table in part 5)
3.6.6    Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event.	Only most recent All events	All events
3.6.7    Command Event reporting mode: When responding with event data and more than one event has occurred for a data point, an Outstation may include all events or only the most recent event.	Only most recent All events
3.6.8    Maximum Time between Select and Operate:	Not Applicable Fixed at seconds Configurable, range to seconds Configurable, selectable from seconds Configurable, other, describe Variable, explain Based on point index (add column to table in part 5)	Not Applicable
3.6.9    Analog Outputs Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Analog Outputs. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 0 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 0
3.6.10    Analog Output Commands Event Buffer Organization: When event buffers are allocated per object group (see part 1.7.6), indicate the number of events that can be buffered for Analog Output Commands. If event buffers are not allocated per object group then set "Fixed at 0".	Fixed at 0 Configurable, range to Configurable, selectable from Configurable, other, describe	Number of events = 0

3.7   File Control Object Number: 70
.	Capabilities	Current Value	If configurable list methods
3.7.1    File Transfer Supported:	Yes No (set 3.7.6 to "Fixed at 0" and do not complete other entries in section 3.7)	No
3.7.2    File Authentication: Indicates whether a valid authentication key must be obtained prior to open and delete requests.	Always Sometimes, explain Never	Never
3.7.3    File Append Mode: Indicates if a file can be opened and appended to versus just overwritten.	Always Sometimes, explain Never	Never
3.7.4    Permissions Support: Indicates the device is capable of using the indicated permissions.	Owner Read Allowed: 0x0100 Owner Write Allowed: 0x0080 Owner Execute Allowed: 0x0040 Group Read Allowed: 0x0020 Group Write Allowed: 0x0010 Group Execute Allowed: 0x0008 World Read Allowed: 0x0004 World Write Allowed: 0x0002 World Execute Allowed: 0x0001
3.7.5    Multiple Blocks in a Fragment: File data is transferred in a series of blocks of a maximum specified size. This indicates whether only a single block or multiple blocks will be sent in fragment.	Yes No	No
3.7.6    Max number of Files Open at one time:	Fixed at Configurable, range to Configurable, selectable from Configurable, other, describe

3.10   Data Set Prototype Object Number: 85 Variation Number: 1
.	Capabilities	Current Value	If configurable list methods

This version of the Device Profile has no requirement for describing Data Set Prototype capabilities and current settings. This page is intentionally left blank, existing as placeholder for future use.

3.11   Data Set Descriptor Contents and Characteristics Object Number: 86 Variation Numbers: 1 and 2

This version of the Device Profile has no requirement for describing Data Set Descriptor capabilities and current settings. This page is intentionally left blank, existing as placeholder for future use.

4    Implementation Table

The following implementation table identifies which object groups and variations, function codes and qualifiers the device supports in both requests and responses. The Request columns identify all requests that may be sent by a Master, or all requests that must be parsed by an Outstation. The Response columns identify all responses that must be parsed by a Master, or all responses that may be sent by an Outstation.

DNP OBJECT GROUP & VARIATION			REQUEST Master may issue Outstation must parse		RESPONSE Master must parse Outstation may issue
Object Group Number	Variation Number	Description	Function Codes (dec)	Qualifier Codes (hex)	Function Codes (dec)	Qualifier Codes (hex)
1	0	Binary Input - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)
1	1	Binary Input - Single-bit packed	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
1	2	Binary Input - Single-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
2	0	Binary Input Change Event - any variation	1(read)	06 (no range, or all),  07, 08 (limited qty)
2	1	Binary Input Change Event - without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
2	1	Binary Input Change Event - without time			130 (Unsol. Resp.)	17, 28 (index)
2	2	Binary Input Change Event - with absolute time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
2	2	Binary Input Change Event - with absolute time			130 (Unsol. Resp.)	17, 28 (index)
3	0	Double-bit Input - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)
3	1	Double-bit Input - Double-bit packed	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
3	2	Double-bit Input - with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
4	0	Double-bit Input Change Event - any variation	1(read)	06 (no range, or all),  07, 08 (limited qty)
4	1	Double-bit Input Change Event - without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
4	1	Double-bit Input Change Event - without time			130 (Unsol. Resp.)	17, 28 (index)
4	2	Double-bit Input Change Event - with absolute time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
4	2	Double-bit Input Change Event - with absolute time			130 (Unsol. Resp.)	17, 28 (index)
10	0	Binary Output - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 28 (index)
10	1	Binary Output - packed format	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
10	1	Binary Output - packed format	2(write)	00, 01 (start-stop)
10	2	Continuous Control - output status with flags	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
12	1	Binary Output Command (CROB) - control relay output block	3(select)	17, 27,  28 (index)	129 (Response)	echo of request
12	1	Binary Output Command (CROB) - control relay output block	4(operate)	17, 27,  28 (index)	129 (Response)	echo of request
12	1	Binary Output Command (CROB) - control relay output block	5(direct op.)	17, 27,  28 (index)	129 (Response)	echo of request
12	1	Binary Output Command (CROB) - control relay output block	6(direct op, no ack)	17, 27,  28 (index)	129 (Response)	echo of request
20	0	Counter - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)
20	0	Counter - any variation	7(freeze)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty)
20	0	Counter - any variation	8(freeze, no ack)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty)
20	0	Counter - any variation	9(freeze & clear )	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty)
20	0	Counter - any variation	10(frz & clr, no ack)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty)
20	1	Counter - 32-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
20	2	Counter - 16-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
20	5	Counter - 32-bit without flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
20	6	Counter - 16-bit without flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
21	0	Frozen Counter - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)
21	1	Frozen Counter - 32-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
21	2	Frozen Counter - 16-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
21	5	Frozen Counter - 32-bit with flag and time	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
21	6	Frozen Counter - 16-bit with flag and time	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
21	9	Frozen Counter - 32-bit without flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
21	10	Frozen Counter - 16-bit without flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
22	0	Counter Change Event - any variation	1(read)	06 (no range, or all),  07, 08 (limited qty)
22	1	Counter Change Event - 32-bit with flag	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
22	1	Counter Change Event - 32-bit with flag			130 (Unsol. Resp.)	17, 28 (index)
22	2	Counter Change Event - 16-bit with flag	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
22	2	Counter Change Event - 16-bit with flag			130 (Unsol. Resp.)	17, 28 (index)
22	5	Counter Change Event - 32-bit with flag and time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
22	5	Counter Change Event - 32-bit with flag and time			130 (Unsol. Resp.)	17, 28 (index)
22	6	Counter Change Event - 16-bit with flag and time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
22	6	Counter Change Event - 16-bit with flag and time			130 (Unsol. Resp.)	17, 28 (index)
23	0	Frozen Counter Change Event - any variation	1(read)	06 (no range, or all),  07, 08 (limited qty)
23	1	Frozen Counter Change Event - 32-bit with flag	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
23	1	Frozen Counter Change Event - 32-bit with flag			130 (Unsol. Resp.)	17, 28 (index)
23	2	Frozen Counter Change Event - 16-bit with flag	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
23	2	Frozen Counter Change Event - 16-bit with flag			130 (Unsol. Resp.)	17, 28 (index)
23	5	Frozen Counter Change Event - 32-bit with flag and time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
23	5	Frozen Counter Change Event - 32-bit with flag and time			130 (Unsol. Resp.)	17, 28 (index)
23	6	Frozen Counter Change Event - 16-bit with flag and time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
23	6	Frozen Counter Change Event - 16-bit with flag and time			130 (Unsol. Resp.)	17, 28 (index)
30	0	Analog Input - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all)
30	1	Analog Input - 32-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
30	2	Analog Input - 16-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
30	3	Analog Input - 32-bit without flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
30	4	Analog Input - 16-bit without flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
30	5	Analog Input - single-precision, floating-point with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
30	6	Analog Input - double-precision, floating-point with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
32	0	Analog Input Change Event - any variation	1(read)	06 (no range, or all),  07, 08 (limited qty)
32	1	Analog Input Change Event - 32-bit without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	1	Analog Input Event – 32-bit without time			130 (Unsol. Resp.)	17, 28 (index)
32	2	Analog Input Change Event - 16-bit without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	2	Analog Input Change Event - 16-bit without time			130 (Unsol. Resp.)	17, 28 (index)
32	3	Analog Input Change Event - 32-bit with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	3	Analog Input Change Event - 32-bit with time			130 (Unsol. Resp.)	17, 28 (index)
32	4	Analog Input Change Event - 16-bit with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	4	Analog Input Change Event - 16-bit with time			130 (Unsol. Resp.)	17, 28 (index)
32	5	Analog Input Change Event - single-precision, floating-point without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	5	Analog Input Change Event - single-precision, floating-point without time			130 (Unsol. Resp.)	17, 28 (index)
32	6	Analog Input Change Event - double-precision, floating-point without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	6	Analog Input Change Event - double-precision, floating-point without time			130 (Unsol. Resp.)	17, 28 (index)
32	7	Analog Input Change Event - single-precision, floating-point with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	7	Analog Input Change Event - single-precision, floating-point with time			130 (Unsol. Resp.)	17, 28 (index)
32	8	Analog Input Change Event - double-precision, floating-point with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
32	8	Analog Input Change Event - double-precision, floating-point with time			130 (Unsol. Resp.)	17, 28 (index)
40	0	Analog Output Status - any variation	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)
40	1	Analog Output Status - 32-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
40	2	Analog Output Status - 16-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
40	3	Analog Output Status - single-precision, floating-point with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
40	4	Analog Output Status - double-precision, floating-point with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  07, 08 (limited qty),  17, 27,  28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
41	1	Analog Output Block - 32-bit	3(select)	17, 27,  28 (index)	129 (Response)	echo of request
41	1	Analog Output Block - 32-bit	4(operate)	17, 27,  28 (index)	129 (Response)	echo of request
41	1	Analog Output Block - 32-bit	5(direct op.)	17, 27,  28 (index)	129 (Response)	echo of request
41	1	Analog Output Block - 32-bit	6(direct op, no ack)	17, 27,  28 (index)	129 (Response)	echo of request
41	2	Analog Output Block - 16-bit	3(select)	17, 27,  28 (index)	129 (Response)	echo of request
41	2	Analog Output Block - 16-bit	4(operate)	17, 27,  28 (index)	129 (Response)	echo of request
41	2	Analog Output Block - 16-bit	5(direct op.)	17, 27,  28 (index)	129 (Response)	echo of request
41	2	Analog Output Block - 16-bit	6(direct op, no ack)	17, 27,  28 (index)	129 (Response)	echo of request
41	3	Analog Output Block - single-precision, floating-point	3(select)	17, 27,  28 (index)	129 (Response)	echo of request
41	3	Analog Output Block - single-precision, floating-point	4(operate)	17, 27,  28 (index)	129 (Response)	echo of request
41	3	Analog Output Block - single-precision, floating-point	5(direct op.)	17, 27,  28 (index)	129 (Response)	echo of request
41	3	Analog Output Block - single-precision, floating-point	6(direct op, no ack)	17, 27,  28 (index)	129 (Response)	echo of request
41	4	Analog Output Block - double-precision, floating-point	3(select)	17, 27,  28 (index)	129 (Response)	echo of request
41	4	Analog Output Block - double-precision, floating-point	4(operate)	17, 27,  28 (index)	129 (Response)	echo of request
41	4	Analog Output Block - double-precision, floating-point	5(direct op.)	17, 27,  28 (index)	129 (Response)	echo of request
41	4	Analog Output Block - double-precision, floating-point	6(direct op, no ack)	17, 27,  28 (index)	129 (Response)	echo of request
42	0	Analog Output Change Event - any variation	1(read)	06 (no range, or all),  07, 08 (limited qty)
42	1	Analog Output Change Event - 32-bit without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	1	Analog Output Change Event - 32-bit without time			130 (Unsol. Resp.)	17, 28 (index)
42	2	Analog Output Change Event - 16-bit without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	2	Analog Output Change Event - 16-bit without time			130 (Unsol. Resp.)	17, 28 (index)
42	3	Analog Output Change Event - 32-bit with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	3	Analog Output Change Event - 32-bit with time			130 (Unsol. Resp.)	17, 28 (index)
42	4	Analog Output Change Event - 16-bit with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	4	Analog Output Change Event - 16-bit with time			130 (Unsol. Resp.)	17, 28 (index)
42	5	Analog Output Change Event - single-precision, floating-point without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	5	Analog Output Change Event - single-precision, floating-point without time			130 (Unsol. Resp.)	17, 28 (index)
42	6	Analog Output Change Event - double-precision, floating-point without time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	6	Analog Output Change Event - double-precision, floating-point without time			130 (Unsol. Resp.)	17, 28 (index)
42	7	Analog Output Change Event - single-precision, floating-point with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	7	Analog Output Change Event - single-precision, floating-point with time			130 (Unsol. Resp.)	17, 28 (index)
42	8	Analog Output Change Event - double-precision, floating-point with time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
42	8	Analog Output Change Event - double-precision, floating-point with time			130 (Unsol. Resp.)	17, 28 (index)
50	1	Time and Date - absolute time	1(read)	07 (limited qty = 1)	129 (Response)	07 (limited qty = 1)
50	1	Time and Date - absolute time	2(write)	07 (limited qty = 1)
50	3	Time and Date - absolute time at last recorded time	2(write)	07 (limited qty = 1)
52	2	Time Delay - fine			129 (Response)	07 (limited qty = 1)
60	1	Class Objects - class 0 data	1(read)	06 (no range, or all)
60	2	Class Objects - class 1 data	1(read)	06 (no range, or all),  07, 08 (limited qty)
60	2	Class Objects - class 1 data	20(enable unsol.)	06 (no range, or all)
60	2	Class Objects - class 1 data	21(disable unsol.)	06 (no range, or all)
60	3	Class Objects - class 2 data	1(read)	06 (no range, or all),  07, 08 (limited qty)
60	3	Class Objects - class 2 data	20(enable unsol.)	06 (no range, or all)
60	3	Class Objects - class 2 data	21(disable unsol.)	06 (no range, or all)
60	4	Class Objects - class 3 data	1(read)	06 (no range, or all),  07, 08 (limited qty)
60	4	Class Objects - class 3 data	20(enable unsol.)	06 (no range, or all)
60	4	Class Objects - class 3 data	21(disable unsol.)	06 (no range, or all)
80	1	Internal Indications - packed format	1(read)	00, 01 (start-stop)	129 (Response)	00, 01 (start-stop)
80	1	Internal Indications - packed format	2(write)	00 (start-stop)
120	1	Authentication - Challenge	32(auth req)	5B (free format)	131 (Auth. Resp.)	5B (free format)
120	2	Authentication - Reply	32(auth req)	5B (free format)	131 (Auth. Resp.)	5B (free format)
120	3	Authentication - Aggressive Mode	any	07 (limited qty = 1)	129 (Response)	07 (limited qty = 1)
120	3	Authentication - Aggressive Mode			130 (Unsol. Resp.)	07 (limited qty = 1)
120	4	Authentication - Session Key Status Request	32(auth req)	07 (limited qty = 1)
120	5	Authentication - Session Key Status			131 (Auth. Resp.)	5B (free format)
120	6	Authentication - Session Key Change	32(auth req)	5B (free format)
120	7	Authentication - Error	33(auth req, no ack)	5B (free format)	131 (Auth. Resp.)	5B (free format)
120	9	Authentication - MAC	any	5B (free format)	129 (Response)	5B (free format)
120	9	Authentication - MAC			130 (Unsol. Resp.)	5B (free format)
120	10	Authentication - User Status Change	32(auth req)	5B (free format)
120	11	Authentication - Update Key Change Request	32(auth req)	5B (free format)
120	12	Authentication - Update Key Change Reply			131 (Auth. Resp.)	5B (free format)
120	13	Authentication - Update Key Change	32(auth req)	5B (free format)
120	14	Authentication - Update Key Change Signature	32(auth req)	5B (free format)
120	15	Authentication - Update Key Change Confirmation	32(auth req)	5B (free format)	131 (Auth. Resp.)	5B (free format)
121	0	Security Statistic	1(read)	00, 01 (start-stop),  06 (no range, or all),  17, 28 (index)
121	1	Security Statistic	1(read)	00, 01 (start-stop),  06 (no range, or all),  17, 28 (index)	129 (Response)	00, 01 (start-stop),  17, 28 (index)
122	0	Security Statistic Event - 32-bit with flag	1(read)	00, 01 (start-stop),  06 (no range, or all),  17, 28 (index)
122	1	Security Statistic Event - 32-bit with flag	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
122	1	Security Statistic Event - 32-bit with flag and time			130 (Unsol. Resp.)	17, 28 (index)
122	2	Security Statistic Event - 32-bit with flag and time	1(read)	06 (no range, or all),  07, 08 (limited qty)	129 (Response)	17, 28 (index)
122	2	Security Statistic Event - 32-bit with flag and time			130 (Unsol. Resp.)	17, 28 (index)

5    Data Points List (outstation only)

This part of the Device Profile shows, for each data type, a table defining the data points available in the device or a description of how this information can be obtained if the database is configurable.

5.1    Definition of Binary Input Point List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table. Note: the number of binary inputs present in the device, and the maximum binary input index, are available remotely using object Group 0 Variations 239 and 238.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Binary Input points list:

Point Index

Name

Event Class Assigned (1, 2, 3 or none)

Name for State when value is 0

Name for State when value is 1

Description

Included in Class 0 response (Always, Never, Class 1/2/3)

5.2    Definition of Double-bit Input Point List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table. Note: the number of double-bit inputs present in the device, and the maximum double-bit input index, are available remotely using object Group 0 Variations 236 and 235.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Double-bit Input points list:

Point Index

Name

Event Class Assigned (1, 2, 3 or none)

Name for State when value is 0 (intermediate)

Name for State when value is 1 (off)

Name for State when value is 2 (on)

Name for State when value is 3 (indeterminate)

Description

Included in Class 0 response (Always, Never, Class 1/2/3)

5.3    Definition of Binary Output Status / Control Relay Output Block Points List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table. Note: the number of binary outputs present in the device, and the maximum binary output index, are available remotely using object Group 0 Variations 224 and 223.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Binary Output Status and CROB points list:

Supported Control Operations

Event Class Assigned (1,2,3 or none)

Point Index

Name

Select/Operate

Direct Operate

Direct Operate - No Ack

Pulse On

Pulse Off

Latch On

Latch Off

Trip

Close

Count > 1

Cancel Currently Running Operation

Name for State when value is 0

Name for State when value is 1

Change

Command

Description

5.4    Definition of Counter / Frozen Counter Point List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table. Note: the number of counters present in the device, and the maximum counter index, are available remotely using object Group 0 Variations 229 and 228.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Counter / Frozen Counter points list:

Point Index

Name

Event Class Assigned to Counter Events (1, 2, 3 or none)

Frozen Counter Exists (Yes or No)

Event Class Assigned to Frozen Counter Events (1, 2, 3 or none)

Description

Conter included in Class 0 response (Always, Never, Class 1/2/3)

Frozen counter included in Class 0 response (Always, Never, Class 1/2/3)

Counter rollover at

5.5    Definition of Analog Input Point List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table. Note: the number of analog inputs present in the device, and the maximum analog input index, are available remotely using object Group 0 Variations 233 and 232.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Analog Input points list:

.			Transmitted Value		Scaling		.
Point Index	Name	Event Class Assigned (1, 2, 3 or none)	Min int / flt	Max int / flt	Multiplier	Offset	Units	Resolution	Description	Deadband Assignment (B, C or D : see 3.5.5.)	Deadband Algorithm (Simple, Integrating, Other)

5.6    Definition of Analog Output Status / Analog Output Block Point List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table. Note: the number of analog outputs present in the device, and the maximum analog output index, are available remotely using object Group 0 Variations 221 and 220.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Analog Output points list:

.

Supported Control Operations

Transmitted Value

Scaling

.

Event Class Assigned (1, 2, 3 or none)

.

Point Index

Name

Select/Operate

Direct Operate

Direct Operate - No Ack

Min

Max

Min

Max

Units

Resolution

Change

Command

Description

Included in Class 0 response (Always, Never, Class 1/2/3)

5.7    Definition of File Names that may be read or written:

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Sequential Files list:

.		Authentication Required for:			.
File Name	Event Class Assigned (1, 2, 3 or none)	Read	Write	Delete	Description

5.8    Definition of Octet String and Extended Octet String Point List: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Octet String and Extended Octet String points list:

Point Index

Name

Event Class Assigned (1, 2, 3 or none)

Group Number used to transport the object

Description

5.9    Definition of Virtual Terminal Port Numbers: List of addressable points. Points that do not exist (for example, because an option is not installed) are omitted from the table.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

Ports list:

Virtual Port Number (Point Index)

Name

Event Class Assigned (1, 2, 3 or none)

Description

5.10    Definition of Data Set Prototypes: List of all data set prototypes. The following table is repeated for each Data Set Prototype defined. Note: the number of data set prototypes known to the device are available remotely using object Group 0 Variations 212 and 213.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

5.11    Definition of Data Set Descriptors: List of all data set descriptors. The following table is repeated for each Data Set Descriptor defined. Note: the number of data sets known to the device are available remotely using object Group 0 Variations 214 and 215.

Fixed, list shown in table below Configurable (current list may be shown in table below) Other, explain:

5.12    Data Set Descriptors - Point Index Attributes The following table is optional and correlates data set elements to point indexes of standard DNP3 Data Objects. The element number below refers to the position in the present value object (object 87) or event (object 88) data set and will not match the element number in the data set descriptor or data set prototype tables above.

---------- End of Device Profile for Reference Device ----------

------------------------------- End of Complete Device Profile -------------------------------