S C 6801 Automatic Switch Control User Guide
- August 17, 2024
- S C
Table of Contents
6801 Automatic Switch Control
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Product Information
Specifications
Product Name: 6801 E33 Automatic Switch Control
Software Version: SG6801E33Installer-7.6.x
Points Information:
- Status Points: 101
- Analog Input Points: 34
- Control Points: 32
- Analog Output Points: 4
- Counter Points: 15
Product Usage Instructions
Introduction
The 6801 E33 Automatic Switch Control with E33 software is used
in an IntelliTeam SG Automatic Restoration System.
Points List Section
The DNP master station should define the following points:
- Status Points: 101
- Analog Input Points: 34
- Control Points: 32
- Analog Output Points: 4
- Counter Points: 15
Point Descriptions
Each point description begins with a code number. The detailed
definition can be found in the instruction sheet.
Switch Status Points
The switch status points include:
- Switch 1 Open
- Switch 1 Closed
- Switch 1 Disabled
- Automatic Operation Enabled
- Switch 1 Automatic Operation Enabled
- SCADA Control Enabled
FAQ
What are the key points to consider during DNP
implementation?
Ensure the DNP master station defines the correct points for the
6801 control with E33 software as specified in the manual.
How can I find detailed definitions for each point?
Refer to the instruction sheet provided with code numbers for
each point description.
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S&C 6800 Series Automatic Switch Controls with IntelliTeam® SG Automatic Restoration System
DNP Points List and Implementation for the 6801 E33 Automatic Switch Control
Table of Contents
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
6801 Status Points . . . . . . . . . . . . . . . . . . . . . . . . . . 3 6801
Analog Input Points. . . . . . . . . . . . . . . . . . . 11 6801 Control
Points . . . . . . . . . . . . . . . . . . . . . . . . 13 6801 Analog Output
Points . . . . . . . . . . . . . . . . . 16
6801 Counter Points . . . . . . . . . . . . . . . . . . . . . . . 17 6801/2/3 Group O Objects . . . . . . . . . . . . . . . . . . 18 DNP Implementation . . . . . . . . . . . . . . . . . . . . . . . 19
Introduction
This instruction sheet provides Distributed Network Protocol (DNP) points and DNP implementation information for a 6801 Automatic Switch Control with E33 software applied in an IntelliTeam SG Automatic Restoration System.
This “Points List” section is used with SG6801E33Installer-7.6.x. The “x” can indicate any number from 0 to 255. Other related software component version information is found on the Setup>General>Revisions screen.
The DNP master station should define the 6801 control with E33 software with the following Status, Analog Input, Control, Analog Output, and Counter points:
Point
Count
Status
101
Analog Input
34
Control
32
Analog Output
4
Counter
15
March 11, 2024 © S&C Electric Company 2012-2024, all rights reserved
Instruction Sheet 1045-560B
Introduction
The available DNP points are listed in Tables 1 through 5 on pages 2 through
17 in the same order they are presented for selection on the
Setup>Communication>Point Mapping screens. 6801 Status, Analog Input, and
Control points can be assigned to any SCADA DNP point index.
Point descriptions begin with a code number used to find the detailed
definition in this instruction sheet. Refer to the “Communication Setup”
section of S&C Instruction Sheet 1045-530, “6800 Series Automatic Switch
Control: Setup.” The code number for each point description is listed in this
publication and is not the SCADA point index.
For a specific SCADA system, typically all 6801 switch controls operate with
the same DNP point index configuration.
Unless otherwise noted, each point is on if the condition is logically true or
active.
NOTICE
The source address in IntelliLink® Setup Software is now 65432 instead of 1.
NOTICE
When uploading a setpoint or DNP points map file from any version earlier than
7.6.x into a 6801/6802/6803 Automatic Switch Control with 7.6.x firmware, the
Code Description and Class fields for DNP Status Points associated with the
SAT feature (SAT In Progress, SAT Switch Contacts Closed, SAT Switch Contacts
Open, SAT Prohibited Locally and SAT Ignore Open Disconnect) if mapped will
display “End” and “Class 1.” These must be manually converted to “Reserved”
and “No Event” respectively so the SCADA system receives static data for any
points mapped beyond them.
2 S&C Instruction Sheet 1045-560B
6801 Status Points
These 6801 Automatic Switch Control features have multiple status points: · Open or Close: 1-3 · IntelliTeam SG System Operation: 29-45, 55-56 · Netlist Information: 51-54
Table 1 . 6801 Status Points
Code # Name–Definition
1
Switch 1 Open–On when contact status is Open. Otherwise, off.
2
Switch 1 Closed–On when contact status is Closed. Otherwise, off.
3
Switch 1 Disabled–On when switch operation is in the Disabled state. This is a summary point that
reports for any of these conditions: Battery Bad (Status Point 9) is on, Visual Open Contact Status
(Status Point 28) is on, or Hot Line Tag Enabled (Status Point 79) is on. Otherwise, off.
4
Automatic Operation Enabled–On when the Automatic Operation mode is enabled using either the
faceplate switch or a SCADA command. Otherwise, off.
5
Switch 1 Automatic Operation Enabled–On when the Automatic Operation feature is enabled using
either the faceplate switch or a SCADA command. Otherwise, off.
6
SCADA Control Enabled–On when the SCADA CONTROL faceplate switch is set to the Remote position.
Otherwise, off.
7
Overcurrent Fault Detected, Switch 1–On when the fault-detection circuitry registers an Overcurrent
Fault condition. Off when cleared by the Fault Indicator Reset Strategy setting configured on the
Setup> General>Fault Detection screen. Also off when manually cleared with the Clear Faults command
in the LCD menu, the Clear Faults button on the Setup>Site Related screen, the faceplate/screenset
pre-assigned USER COMMAND button, or the Clear Any Outstanding Overcurrent Fault Conditions
Present control point. The Overcurrent Fault condition also clears when the switch control is reinitialized
using IntelliLink Setup Software or a SCADA reset command.
8
Sectionalizer Tripped, Switch 1–On when any Automatic Control function opens the switch. The point
is cleared when the switch is closed for any reason. It is also cleared on reinitialization of the switch control
using the setup software or when the SCADA CONTROL switch state is changed. Otherwise, off.
9
Battery Bad–On when battery replacement is required unless the switch control is operating or has
recently been operating on battery power. Otherwise, off.
10 Maintenance Required–On when some form of maintenance (other than battery replacement) is required. It is set when the battery charger stops functioning because of overvoltage or when the switch open/close contacts are not mutually exclusive. This is a summary point. An inspection of other status points can determine the exact cause. Otherwise, off.
11 Open/Close Indication is Inconsistent, Switch 1–On when both contacts are closed or open. Otherwise, off.
12 Ac Control Power Present–On when ac control power is supplied to the control. Otherwise, off.
13 Failure Override Set–On when a SCADA operator executes the Failure Override Latch-On command to let the switch be operated even if the battery is bad. The point remains on until the override is disabled using the Failure Override Latch-Off command. Also, the point will go off and the Failure Override command will become disabled after a 15-minute timeout if it was not already turned off by the Latch-Off command. Otherwise, off.
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 3
6801 Status Points
Table 1 . 6801 Status Points–Continued Code # Name–Definition
14 Battery System Low–On when battery voltage is low, but the switch will
operate. Otherwise, off. 15 Battery Charger Problem–On when the charging
voltage applied to the battery system was too high and
the charger is turned off. Otherwise, off. 16 Battery Test in Progress–On when
the switch control is automatically testing the batteries at periodic
intervals. Battery voltage fluctuates during the test. Otherwise, off. 17
Cabinet Door Open–On when the enclosure door is open. When the door is closed,
this point is off and
all power to the faceplate LEDs is turned off. Otherwise, off. 18 Temperature
Sensor Bad–On when the temperature sensor is reading out of range.
Temperature-related
correction factors will not be accurate when the sensor is incorrect.
Otherwise, off. 19 Phase A Overcurrent Fault, Switch 1–On when the fault-
detection circuitry registers an Overcurrent
Fault condition. Off when cleared by the Fault Indicator Reset Strategy
setting configured on the Setup> General>Fault Detection screen. Also off when
manually cleared with the Clear Faults command in the LCD menu, the Clear
Faults button on the Setup>Site Related screen, the faceplate/screenset pre-
assigned USER COMMAND button, or the Clear Any Outstanding Overcurrent Fault
Conditions Present control point. The Overcurrent Fault condition also clears
when the switch control is reinitialized using IntelliLink Setup Software or a
SCADA reset command. 20 Phase B Overcurrent Fault, Switch 1–As noted in Status
Point 19, for Phase B, Switch 1. Otherwise, off. 21 Phase C Overcurrent Fault,
Switch 1–As noted in Status Point 19, for Phase C, Switch 1. Otherwise, off.
22 Overcurrent Ground Fault, Switch 1–As noted in Status Point 19, for ground,
Switch 1. Otherwise, off. 23 Loss of Voltage on Voltage Channel 1–On when the
voltage sensor on configured Voltage Channel 1 shows a Loss of Voltage status.
The E33 switch control may be installed with three voltage sensors or six
voltage sensors. Otherwise, off. 24 Loss of Voltage on Voltage Channel 2–On
when the voltage sensor on configured Voltage Channel 2 shows a Loss of
Voltage status. An E33 switch control may be installed with three voltage
sensors or six voltage sensors. Otherwise, off. 25 Phase A Reverse Current,
Switch 1–On when the current on Phase A is flowing in the direction opposite
to the Normal Direction setting configured in the switch control. The switch
control identifies a Reverse Current condition when the voltage-current phase
angle deviates more than 90 degrees from the value set during installation for
the Unity Power Factor setting. Otherwise, off. 26 Phase B Reverse Current,
Switch 1–As noted in Status Point 25, for Phase B, Switch 1. Otherwise, off.
27 Phase C Reverse Current, Switch 1–As noted in Status Point 25, for Phase C,
Switch 1. Otherwise, off. 28 Visible Open Contact Status–For a Scada-Mate®
Switching System, set if all of the following are true: · The visible open
auxiliary contacts are present. · The Switch Visible Disconnect Contacts
setting is set “Present” on the Setup>Sensor Configuration
screen. · The visible disconnect is physically open.
TABLE CONTINUED
4 S&C Instruction Sheet 1045-560B
6801 Status Points
Table 1 . 6801 Status Points–Continued
Code # 29
Name–Definition
Switch Control Not Transfer Ready–Active only for the reporting switch
control. On when a switch operation is not consistent with the expected team
operation (i.e. incomplete or manual switch operation). This point is also on
if any of these status points are on: Switch Disabled (Status Point 3),
Automatic Operation Disabled (Status Point 4), or Switch Position Inconsistent
(Status Point 11). This point is used in conjunction with Not All Teams
Transfer Ready (Status Point 30) to identify the specific team member where a
problem exists. Otherwise, off.
30 Not All Teams Transfer Ready–On when any teams in which this switch control participates are Not Transfer Ready (Status Point 29). This may be because of an individual team member condition, team-wide conditions such as isolating a fault, team configuration or coordination problems, Restoration Prohibited (Status Point 34), or the Team Logic setting is set to “Disabled” on the Team>Setup screen. If Status Point 29 is on in one team member, Status Point 30 is also on in the other team members. Otherwise, off.
Note: Unless otherwise prohibited, team member controls revert to standalone
sectionalizing logic when the Not Transfer Ready state (this status point) is
active in all teams in which that control participates, whether because of
local conditions or conditions at adjacent team members.
31 Automatic Transfer Operation in Progress–On when any team defined in the
control is actively performing an Automatic Transfer operation. Otherwise,
off.
32 Automatic Return to Normal Operation in Progress–On when any team defined
in the control is actively performing a Return to Normal operation. Otherwise,
off.
33 Setup Data Revision–On when the configuration entries for any enabled team
defined in the control are modified. It remains on until the team-setup
parameter on the Setup>Team screen has been toggled from Stopped mode back to
Running mode for any team where the configuration entries have been changed.
Otherwise, off.
34 Restoration Prohibited by SCADA–On when Prohibit Load Restoration Latch On
(Control Point 8) is received, the IntelliTeam SG Restoration feature is
disabled using the IntelliTeam SG>Team Summary screen, or the Automatic
Restoration state is set to Prohibited state on the front panel. When this
point is on, no switch in any team in which this switch control participates
will be allowed to automatically close, preventing automatic load restoration.
This point is off when Prohibit Load Restoration Latch Off (Control Point 8)
is received, the IntelliTeam SG Restoration feature is enabled using the
IntelliTeam SG>Team Summary screen, or the Automatic Restoration mode is set
“Enabled” on the front panel. Otherwise, off.
35 Restoration Prohibited by Team Timer–On when the Team Transfer Process
timer expires in this control resulting in the Prohibit Restoration mode being
enabled for at least one of the teams in which this control participates. Only
the team for which this timer has expired is prohibited from further automatic
load restoration. This point is cleared when the Prohibit Load Restoration
Latch Off command (Control Point 8) is received, the IntelliTeam SG
Restoration mode is enabled using the IntelliTeam SG>Team Summary screen, or
the Automatic Restoration mode is enabled on the front panel. Otherwise, off.
36 Source Loading Data is Active–On when the Real-time Feeder Loading logic is
active and in use. This point does not indicate whether the control is using
actual real-time feeder-loading data received from a DNP master or the Default
Source Segment Loading setting. Otherwise, off.
37 Real-Time Load Data May be Old or Abnormal–On when the received DNP Analog
Output value is less than the real-time three-phase load as sensed by the
switch. It is also set if the real-time feederloading data have not updated
within the configured time interval. Off when new data are received and the
analog value is equal to or greater than the local measured load. Otherwise,
off.
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 5
6801 Status Points
Table 1 . 6801 Status Points–Continued
Code # 38
Name–Definition
Team 1 Ready To Transfer–On when the team is in the Ready to Transfer state.
This point is off if the team is not in use, contains an Error condition, or
the line section represented by the team contains a fault.
39 Team 2 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
40 Team 3 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
41 Team 4 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
42 Team 5 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
43 Team 6 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
44 Team 7 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
45 Team 8 Ready To Transfer–On when the team is in the Ready to Transfer state. This point is off if the team is not in use, contains an Error condition, or the line section represented by the team contains a fault.
46 Loss of Voltage on Any Phase, Switch 1–On when voltage is off on any phase. Otherwise, off.
47 Overcurrent Fault on Any Phase, Switch 1–On when fault current is sensed on
any phase. Otherwise, off.
48 Switch 1 Tripped to Lockout–On when Switch 1 is in the Locked Out state as
the result of an event. The IntelliTeam system may begin the reconfiguration
process. Off when the Close Switch 1 command is given. Otherwise, off.
49 Manual Operation Detected for Switch 1–On when the IntelliTeam system senses that the switch has been operated manually. Otherwise, off.
50 IntelliTeam Switch Status Open Switch 1–This indicates the IntelliTeam system has properly received the switch status. This point should always agree with the Switch 1 Open state (Status Point 1).
51 Netlist Missing Runners–On when the received runner count doesn’t match the expected runner count. The Rapid Self Healing feature is disabled as long as this is the case. Otherwise, off.
52 Netlist Settings Propagation–On when the local control is receiving Netlist records from either a download or through propagation. If this is a Netlist download, the status point remains on until all expected runners arrive with the new Netlist. Otherwise, off.
53 Netlist Settings Accepted–On when a new Netlist has been successfully
validated. Off when a Netlist is being downloaded or propagated. Off if the
user has changed any team settings so they are different from the screenset.
Otherwise, off.
54 Netlist Propagation Enabled–On when the IntelliLink software screenset or
SCADA enables Netlist propagation. Otherwise, off. (Starting with Revision
7.1.x, the Netlist Propagation mode is always in the Enabled state; therefore,
this status point is always on.)
55 IntelliTeam II Mode Active–On when IntelliTeam II system is in use. Otherwise, off.
TABLE CONTINUED
6 S&C Instruction Sheet 1045-560B
6801 Status Points
Table 1 . 6801 Status Points–Continued
Code # 56
57
58 59 60
Name–Definition IntelliTeam Switch 1 Out of Normal Switch State–On when the
switch is not in the Normally Open or Normally Closed state for the
IntelliTeam system. Off when the switch is in the Normally Open or Normally
Closed state for the IntelliTeam system. Otherwise, off.
Switch 1 PLI Open–On when the switch has been opened by the Phase Loss
Isolation (PLI) logic. Otherwise, off.
Ac Power Not Present–On when ac power is not available to the control.
Otherwise, off.
Battery Disconnected–On when the battery is disconnected. Otherwise, off.
Reserved.
61 Reserved.
62 Reserved.
63 Reserved.
64 Reserved.
65 Wi-Fi Is Connected–On when a Wi-Fi connection to the control is
established. Otherwise, off.
66 Wi-Fi Intrusion Alarm–On when the Wi-Fi module reports a replay attack or
improper authentication. Turned off by the user with the Clear Wi-Fi Intrusion
Alarm command (Control Point 15).
67 Wi-Fi Disabled by SCADA–On when the Disable Wi-Fi command (Control Point
12) is received. Off when the Enable Wi-Fi command (Control Point 13) is
received. The Enable/Disable Wi-Fi command (Control Point 10) toggles Wi-Fi
communication on and off; on when Wi-Fi is disabled and off when Wi-Fi is
enabled. Otherwise, off.
68 Warning–On when any warning is active. Otherwise, off.
69 Alarm–On when any alarm is active. Otherwise, off.
70 Error–On when any error is active. Turned off by a user action to clear the
error.
71 Switch 1 Phase A Loss of Voltage–On when Phase A voltage is below the
configured Loss of Voltage Threshold setting. Otherwise, off.
72 Switch 1 Phase B Loss of Voltage–On when Phase B voltage is below the
configured Loss of Voltage Threshold setting. Otherwise, off.
73 Switch 1 Phase C Loss of Voltage–On when Phase C voltage is below the
configured Loss of Voltage Threshold setting. Otherwise, off.
74 Switch 1 Phase D Loss of Voltage–On when Phase D voltage is below the
configured Loss of Voltage Threshold setting. Otherwise, off.
75 Switch 1 Phase E Loss of Voltage–On when Phase E voltage is below the
configured Loss of Voltage Threshold setting. Otherwise, off.
76 Switch 1 Phase F Loss of Voltage–On when Phase F voltage is below the
configured Loss of Voltage Threshold setting. Otherwise, off.
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 7
6801 Status Points
Table 1 . 6801 Status Points–Continued
Code # 77
Name–Definition
Comm System has Poor Quality–On when the Bad Health alarm is active on the
Link Keep Alive Tests screen and/or the Diagnostic Communications Tests
screen. Otherwise, off.
78 Bad Voltage Sensor–On when the Detect Faulty Voltage Sensor feature is set to “Yes” on the Setup>General>Site Related screen, and for a closed switch a single phase indicates a Loss of Voltage condition with greater than 3 amperes present. This can also indicate for an SG6801E33 control that for a closed switch a single-phase cross-hinge comparison of voltage sensor output has a differential greater than 10 V continuous for more than 1 second.
79 Hot Line Tag Active–On when the Hot Line Tag mode is in effect. Off when the Hot Line Tag mode is removed. The Hot Line Tag mode can only be removed by the same method used to set it.
80 IntelliLink Intrusion–On when an IntelliLink software log-in attempt failed three times, after which all users are locked out for 15 minutes. Otherwise, off.
81 IntelliLink Session Active–On when user is presently logged in to the control. Otherwise, off.
82 Not all Teams Xfer Ready for X sec–On when any team in which this control is a member is in the Out of Ready state for a time exceeding the Not All Teams Transfer Ready for X Seconds timer. The status point becomes inactive when a new valid coach arives and the team goes back into the Ready state.
83 Prohibit Restoration Remotely Transmitted–On when the Transfer Trip mode is enabled to allow the local device to send an Initiate Transfer Trip command to all non-zero RTU addresses in the Remote Transfer Trip Transmit List table after an Open and Lockout state because of a protection or automatic sectionalizing event. Status Point = 0x1F02.
84 Enable Restoration Remotely Transmitted–On when the local device sends the
Clear Remote Prohibit Restoration Status command to remote devices in the
Remote Prohibit Restoration Transmit List table. This event can be triggered
by executing a Clear Remote Prohibit Restoration Status command via
IntelliLink software or receiving an IT Clear PR to all Devices command from
SCADA. The status point is cleared when the device receives the Clear Remote
Enable Restoration Status control point. Status Point = 0x1F01.
85 User-Defined Input 1–On when the User-Defined Input at J20-1 has a change
from an Inactive to an Active state or is being held in the Active state
pending an acknowledgement. When configured execute a command such as the
Prohibit Restoration command, the DNP control point or a front panel command
can execute an Enable Restoration command to cancel the Prohibit Restoration
command. A subsequent user-defined input change from an Inactive to an Active
state would then re-execute the Prohibit Restoration command. (Range: Disable
Automatic Operation, Prohibit Restoration, Block Close Operations, Block Open
and Close Operations, and None; Default: None)
86 User-Defined Input 2–On when the user-defined input at J20-2 has a change from an Inactive to an Active state or is being held in the Active state pending an acknowledgement. When configured execute a command such as the Prohibit Restoration command, the DNP control point or a front panel command can execute an Enable Restoration command to cancel the Prohibit Restoration command. A subsequent User-Defined Input change from an Inactive to an Active state would then re-execute the Prohibit Restoration command. (Range: Disable Automatic Operation, Prohibit Restoration, Block Close Operations, Block Open and Close Operations, and None; Default: None)
TABLE CONTINUED
8 S&C Instruction Sheet 1045-560B
6801 Status Points
Table 1 . 6801 Status Points–Continued
Code # 87
Name–Definition
User-Defined Input 3–On when the user-defined input at J20-3 has a change from
an Inactive to an Active state or is being held in the Active state pending an
acknowledgement. When configured execute a command such as the Prohibit
Restoration command, the DNP control point or a front panel command can
execute an Enable Restoration command to cancel the Prohibit Restoration
command. A subsequent user-defined input change from an Inactive to an Active
state would then re-execute the Prohibit Restoration command. (Range: Disable
Automatic Operation, Prohibit Restoration, Block Close Operations, Block Open
and Close Operations, and None; Default: None)
88 Transfer Trip Enabled–On when the Transfer Trip state is enabled to allow
the local device to send an Initiate Transfer Trip command to all non-zero RTU
addresses in the Remote Transfer Trip Transmit List table after an Open and
Lockout state because of a protection or automatic sectionalizing event.
Status Point = 0x1F02.
89 Disregard First Overcurrent Active–On when the Disregard First Overcurrent
setpoint is set to the Yes state on the Setup>Restoration>IntelliTeam SG
screen, or the Enable DIFF control point has been received. Otherwise, off.
90 Direction 1 Current Flow–On when the device is properly configured and
power is flowing through the circuit in direction 1. Status Point = 0x167.
91 Direction 2 Current Flow–On when the device is configured incorrectly or
circuit conditions cause direction 2 current flow, possibly because of
distributed generation on the circuit. Status Point = 0x168.
92 Transfer Trip PR Initiated–On when an Initiate Transfer Trip control point has been received and executed. Off when the Prohibit Restoration mode is no longer active and the control will be allowed to close by an automatic or manual operation. Note: This status point only applies to devices not teamed with a distributed generation source. When teamed with distributed generation, this status point will not get activated, even if a Transfer Trip command is initiated and executed. Status Point = 0x021C.
93 Remote Prohibit Restoration Enabled from Local–On when the Enable Remote Transmit from Local P .R . setting is enabled on the local device. Status Point = 0x1F03.
94 Remote Prohibit Restoration Enabled from SCADA–On when the Enable Remote Transmit from SCADA P .R . setting is enabled on the local device by a SCADA Latch-On command. Status Point = 0x1F04.
95 DG Reconnect Delay Terminated–The DG Reconnect Delay timer is aborted because of an abnormal system condition. The Transfer Trip Prohibit Restoration (TTPR) state remains active on the device and reconnecting the distributed generation source back on the grid must be performed manually.
96 Switch 1 Close Operation Blocked–On when the user-defined input is also set to block operation (block Close or block both Open and Close operations) and they go active. The status will then clear when the User-Defined Input status points go inactive.
97 Switch 1 Open Operation Blocked–On when the user-defined input is also set to block operation (block Close or block both Open and Close operations) and they go active. The status will then clear when the User-Defined Input status points go inactive.
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 9
6801 Status Points
Table 1 . 6801 Status Points–Continued
Code # 98
99
100 101 102 103 104
Name–Definition
Transfer Declined Excess Load–Applies to all active teams configured within a
control. Active when a transfer attempt has been declined because of load
within the team(s) to be restored that exceeds the present capacity of the
alternate source. Otherwise, off if another reason for the declined transfer
occurs at the same control, if the transfer stops because of a Prohibit
Restoration or other error condition at any team member of this team, if the
transfer succeeds at any team member of this team, or 5 minutes passes at this
control with no further transfer declined conditions as a result of excessive
loading.
Transfer Declined Segment Limit–Applies to all active teams configured within
a control. Active when a transfer attempt has been declined because of the
number of teams being requested for restoration exceeding the line segment
limit associated with the alternate source. Otherwise, off if another reason
for the declined transfer occurs at the same control, if the transfer stops
because of a Prohibit Restoration or other error condition at any team member
of this team, if the transfer succeeds at any team member of this team, or 5
minutes passes at this control with no transfer declined conditions as a
result of line segment limit.
System Voltage Unrecognized–Active when the local system voltage is not
recognized as a supported system voltage. It remains active until the issue is
resolved through correct configuration of the system voltage setting.
Xfer Trip PR Initiated (DG POI)–Active when the DG POI device has received a
Transfer Trip message and has initiated Prohibit Restoration state on the POI
IntelliTeam system device. Otherwise, off when the DG POI device is in any
other state.
NET: Missing Runners in Adjacent FeederNet–Active when a missing runner
condition exists in any adjacent FeederNet in an IntelliTeam system.
Otherwise, off if there are no missing runner conditions in any adjacent
FeederNet in an IntelliTeam system.
Transfer Trip Sent–Active when a device sends a Remote Transfer Trip message
via the Remote Transmit list after it has opened and locked out because of a
protection or automatic sectionalizing event. It is cleared when the device is
closed and in the Ready state.
PR Due To Load Shed–On when a Load Shedding event occurs at a team with a Load
Priority setting configured in the do-not-restore range 20 to 25, activating a
Prohibit Restoration state for that team. This point will be off when the
source circuit returns to normal allowing the PR Due To Load Shed status point
to clear, or when the Prohibit Restoration state is cleared by local command
or SCADA command.
105 GPS Not Active Time Source–On when the GPS feature is not the active time source. Otherwise, off.
106 Shots To Lockout Status Switch 1– On when Shots to Lockout feature for switch 1 is active. Otherwise, off.
10 S&C Instruction Sheet 1045-560B
6801 Analog Input Points
Table 2 . 6801 Analog Input Points
Code # 1
Name–Definition 90% Voltage Reference Standard–A constant representing 90% of the full-scale value.
2
0% Voltage Reference Standard–A constant representing the zero value.
3
Neutral Current of Switch 1–Taken as the vector sum of the phase currents on Phases A, B, and C.
Current is measured using true RMS techniques. Each count equals one ampere.
4
Current, Phase A Switch 1–Single-phase true RMS current measured on Phase A. Each count equals
one ampere.
5
Current, Phase B Switch 1–Single-phase true RMS current measured on Phase B. Each count equals
one ampere.
6
Current, Phase C Switch 1–Single-phase true RMS current measured on Phase C. Each count equals
one ampere.
7
Voltage A, Phase A Jaw Side Switch 1–Single-phase voltage measured on Phase A of Switch 1.
Voltage is measured using true RMS techniques and scaled to yield a nominal value of 120 Vac. Configuration
of the switch control at installation provides the scaling factors such as voltage transformer turn ratio, etc.
In cases where loads are connected in a Delta (phase-to-phase) configuration, the switch control sensor
conditioning module is jumpered to yield phase-to-phase voltage readings. Voltage is reported in units of
one sensor count equals 0.1 Vac RMS.
8
Voltage B, Phase B Jaw Side Switch 1–Phase-to-ground or phase-to-phase voltage (depending on
setup) measured on Pole B, Switch 1. Each count equals 0.1 Vac RMS.
9
Voltage C, Phase C Jaw Side Switch 1–Phase-to-ground or phase-to-phase voltage (depending on
setup) measured on Pole C, Switch 1. Each count equals 0.1 Vac RMS.
10 Voltage D, Phase A Hinge Side Switch 1–Phase-to-ground or phase-to-phase voltage (depending on setup) measured on Pole A, Switch 1. Each count equals 0.1 Vac RMS.
11 Voltage E, Phase B Hinge Side Switch 1–Phase-to-ground or phase-to-phase voltage (depending on setup) measured on Pole B, Switch 1. Each count equals 0.1 Vac RMS.
12 Voltage F, Phase C Hinge Side Switch 1–Phase-to-ground or phase-to-phase
voltage (depending on setup) measured on Pole C, Switch 1. Each count equals
0.1 Vac RMS.
13 Phase Angle, on Phase A Switch 1–Each count equals 0.125 degree.
14 Phase Angle, on Phase B Switch 1–Each count equals 0.125 degree.
15 Phase Angle, on Phase C Switch 1–Each count equals 0.125 degree.
16 Single-Phase kvars, Phase A Switch 1–Kvars (volt-amperes, reactive) are calculated from single-phase true RMS voltage and current sensor values and the respective voltage-current phase angle. Each count equals one kvar.
17 Single-Phase kvars, Phase B Switch 1–As noted in Analog Input Point 16. 18 Single-Phase kvars, Phase C Switch 1–As noted in Analog Input Point 16.
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 11
6801 Analog Input Points
Table 2 . 6801 Analog Input Points–Continued Code # Name–Definition
19 Cabinet Temperature–In units of degrees Fahrenheit. 20 Battery
Voltage–Nominally 24 Vdc. If ac power is on, this value is updated only during
battery testing. If
ac power is off, this value is continuously updated. One count equals 0.035
Vdc. 21 Single-Phase kW, Phase A Switch 1–Calculated using instantaneous
voltage and current, and the
respective voltage-current phase angle. Each count equals one kW. 22 Single-
Phase kW, Phase B Switch 1–Calculated using instantaneous voltage and current,
and the
respective voltage-current phase angle. Each count equals one kW. 23 Single-
Phase kW, Phase C Switch 1–Calculated using instantaneous voltage and current,
and the
respective voltage-current phase angle. Each count equals one kW. 24 Single-
Phase kVA Phase A Switch 1–Each count equals one kVA. 25 Single-Phase kVA
Phase B Switch 1–Each count equals one kVA. 26 Single-Phase kVA Phase C Switch
1–Each count equals one kVA. 27 Total kvars Switch 1–Sum of kvar Phase A, kvar
Phase B, and kvar Phase C. Each count equals one
kvar. 28 Total kW Switch 1–Sum of kW Phase A, kW Phase B, and kW Phase C. Each
count equals one kW. 29 Total kVA Switch 1–Sum of kVA Phase A, kVA Phase B,
and kVA Phase C. Each count equals one kVA. 30 Average Three-Phase Current
Switch 1–Average of Phase A Current, Phase B Current, and Phase C
Current. Each count equals one ampere. 31 Fault Magnitude, Pole 1 Switch 1
–Single-phase peak RMS current measured on Phase A that is over
the Phase Fault Detection Current Level setting. 32 Fault Magnitude, Pole 2
Switch 1–Single-phase peak RMS current measured on Phase B that is over
the Phase Fault Detection Current Level setting. 33 Fault Magnitude, Pole 3
Switch 1–Single-phase peak RMS current measured on Phase C that is over
the Phase Fault Detection Current Level setting. 34 Fault Magnitude, Neutral
Switch 1–Taken as the vector sum of the phase currents on Phases A, B, and
C, that is over the Ground Fault Detection Current Level setting.
12 S&C Instruction Sheet 1045-560B
6801 Control Points
The object type must be configured on the Setup>Point Mapping>Controls screen
for each control point when it is mapped. Only the configured object type will
be accepted and acted on for that control point. Some control points will not
work with all object types. The available object types are listed for each
control point:
· Control points related to an Open or Close command:1.
· Control points related to the IntelliTeam SG system: 79.
Table 3 . 6801 Control Points
Code # Name–Definition
1
Open or Close Switch 1–SCADA–This command may be issued using either the Select/Operate
sequence, the Direct Operate function, or the Direct Operate without Ack function. Both Trip and Close
commands are valid for this point.
2
Issue the Shots-to-Lockout command to Switch 1–This command may be issued using either the
Select/Operate sequence, the Direct Operate function, or the Direct Operate without Ack function. Only
a Close command is valid for this point. This command is ignored and returns an error if the switch is not open or
the Automatic Operation mode is not enabled.
Note: (Codes 12): These commands are ignored and return an error if a Bad Battery condition is active and the Failure Override command has not been issued, or the external LOCAL/REMOTE switch in the motor operator cabinet associated with the intended position is set to “Local.” These commands are ignored if the LOCAL/REMOTE switch is not in the Remote position.
3
Clear any outstanding Overcurrent Fault conditions present–This command must be issued using a
Pulse On request. The fault condition otherwise remains active until cleared by the Fault Indicator Reset
Strategy operation selected on the Setup>General>Fault Detection screen.
4
Enable/Disable Failure Override status–This command must be issued using the Latch On/Off request
in the control relay output block. This allows Open and Close commands to be processed even if the
Switch Not Ready condition is active.
5
Enable/Disable Automatic Operation–This command must be issued using the Latch On/Off request
in the control relay output block. In Automatic mode, the switch control automatically opens the switch if a
preconfigured recloser sequence is recognized after a detected fault.
Note: The Automatic Operation mode is not disabled when the faceplate REMOTE/LOCAL switch is set
to Local operation.
6
Enable/Disable Automatic Operation, Switch 1–This command must be issued using the Latch On/Off
request in the control relay output block. As noted in Control Point 5.
7
Clear IntelliTeam Manual Operation status–SCADA–A Pulse-On or Latch-On command is used to
clear a manual operation. This allows the IntelliTeam system to return to the Ready state, provided the
switches are in their IntelliTeam Normally Open or Normally Closed state.
8
IntelliTeam Prohibit Restoration–This command must be issued using the Latch On/Off request in the
control relay output block. When in the Latched state, this command prevents the local switch and any switches
in any team in which this switch control participates from automatically closing to restore load under any
circumstances.
9
Netlist Propagation Enable/Disable–In the Enabled state, allows new Netlist requests and Netlist
transmissions. In the Disabled state, multiple downloads of a Netlist can be sent to a local control. (Starting
with Revision 7.1.x, the Netlist Propagation mode is always in the Enabled state; therefore, this control
point does not operate.)
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 13
6801 Control Points
Table 3 . 6801 Control Points–Continued Code # Name–Definition
10 Enable/Disable Wi-Fi–This command enables or disables local Wi-Fi
communication. 11 Start Battery Test–SCADA–This command may be issued using a
Pulse-On or Latch-On command. If
ac power is available, the battery charger is disconnected for several minutes
during the test. If ac power is not available, a brief impedance test is used
to evaluate the battery condition. 12 Wi-Fi Disable–This command disables
local Wi-Fi communication. 13 Wi-Fi Enable–This command enables local Wi-Fi
communication. 14 Wi-Fi Test–This command activates the Wi-Fi beacon
transmitter for troubleshooting purposes. 15 Clear Wi-Fi Intrusion Alarm–This
command clears an active Wi-Fi Intrusion alarm. 16 Clear Errors–This command
clears all error flags. Alarms and warnings are not affected. 17 Clear
Warnings–This command clears all warning flags. Errors and alarms are not
affected. The Active Warnings function will reassert in approximately one
second. 18 Clear Alarms–This command clears all alarm flags. Errors and
warnings are not affected. The Active Alarms function will reassert in
approximately one second. 19 Enable/Disable Hot Line Tag, SCADA–This command
enables or disables the Hot Line Tag profile. The Enable command may be issued
using a Latch-On or Pulse-On command. The Disable command may be issued using
the Latch-Off or Pulse-Off command. “Latch” is the default object type. The
Hot Line Tag state can only be removed by the same method used to set it. 20
Clear IntelliLink Intrusion–This command clears the IntelliLink Intrusion
state (Status Point 80). 21 Clear Remote Prohibit Restoration Status–This
command clears the Prohibit Restoration Remotely Transmitted state (Status
Point 83). Control point = 0x1F00. 22 Clear Remote Enable Restoration
Status–This command clears the Enable Restoration Remotely Transmitted state
(Status Point 84). Control point = 0x1F01. 23 Remote Transmit Enable
Restoration–When received, the device clears the Prohibit Restoration mode
locally (only if Hot Line Tag, Frequency Trip, or Manual Operation modes are
not active) and then sends a command to Clear Prohibit Restoration to all
devices in the Remote Prohibit Restoration Transmit List table. The Enable
Remote Transmit from SCADA P .R . setting must be enabled to perform this
action. Control point = 0x1F02. 24 Initiate Transfer Trip–This command sets
the Transfer Trip mode on a single device. The device issues a command to Open
the switch in Automatic mode (not a manual operation) and verifies the
operation. If an Open state is confirmed, the device then activates the
Prohibit Restoration state on the team facing the distributed generation
source (unless it’s a distributed generation team) to prevent restoration of
that line segment. For the Prohibit Restoration mode to be set, the receiving
device must be an S&C switch control that is part of an IntelliTeam SG system.
SW1 = 0x202, SW2 = 0x203. 25 Acknowledge User Defined Input 1–When User-
Defined Input 1 has been configured to require a SCADA acknowledgement it will
be held active after the physical input state has gone inactive until this
control point is received.
TABLE CONTINUED
14 S&C Instruction Sheet 1045-560B
6801 Control Points
Table 3 . 6801 Control Points–Continued Code # Name–Definition
26 Acknowledge User Defined Input 2–When User-Defined Input 2 has been
configured to require a SCADA acknowledgement it will be held active after the
physical input state has gone inactive until this control point is received.
27 Acknowledge User Defined Input 3–When User-Defined Input 3 has been
configured to require a SCADA acknowledgement it will be held active after the
physical input state has gone inactive until this control point is received.
28 Enable/Disable Transfer Trip–When enabled, the local device sends an
Initiate Transfer Trip command to all non-zero RTU addresses in the Remote
Transfer Trip Transmit List table following an Open and Lockout state because
of a protection or automatic sectionalizing event. When disabled, no condition
will result in sending an Initiate Transfer Trip command to remote devices.
Control point = 0x1F03.
29 Enable/Disable DIFF–This command enables or disables the Disregard First
Overcurrent function. 30 Enable Remote Prohibit Restoration from Local–When
enabled, a local Prohibit Restoration
command (via the front panel or IntelliLink software screen) will place the
device in a Prohibit Restoration mode and then transmit a Prohibit Restoration
command to all devices in the Remote Prohibit Restoration Transmit list.
Control point = 0x1F04. 31 Enable Remote Prohibit Restoration from SCADA–When
enabled, the device will enter a Prohibit Restoration mode and then transmit a
Prohibit Restoration command to all devices in the Remote Prohibit Restoration
Transmit list if any the following states are active: Hot Line Tag, Frequency
Trip, Manual Operation, or the Prohibit Restoration state is activated from a
SCADA command. Control point = 0x1F05. 32 Clear Manual Operation Any State
Switch 1–When executed, the manual operation on a device is cleared and the
device goes into the Ready state. The device can be in an Abnormal state (i.e.
abnormally open or abnormally closed) or in its Normal state (normally open or
normally closed).
S&C Instruction Sheet 1045-560B 15
6801 Analog Output Points
Table 4 . 6801 Analog Output Points
Code # 1
2
Name–Definition
Application Layer Confirmation Retry Time–Time (100 to 65,535 ms.) that the
switch control will wait for an application layer confirmation to an event
response message before resending the request for confirmation.
Application Layer Confirmation Retry Count–Number of times (0 to 10) the
switch control will send an event response message if a confirmation is not
received. This number includes the initial response. The retry count is only
in effect when the confirmation process is enabled.
3
Control Point Select Time–During a Select-Before-Operate procedure, the time (10 to 1000 tenths of
a second) allowed to elapse between receiving the Select function for a point and receiving the Operate
function for it. If an Operate function is not received within this period, the point is de-selected; another
Select function is required before the point will operate.
4
Real-Time Feeder Loading–Total averaged three-phase feeder loading (10 amperes to maximum source
capacity minus 10 amperes), measured at the source breaker. This value is used to determine whether the
load can be transferred to another source. Each count equals one ampere.
Set and read the Application Layer Confirmation Retry Time setpoint based on the required range:
Application Layer Confirmation Retry Time Range
Set Analog Output Value
Read Analog Output Value
100 to 32,737 ms.
Group 41 variation 2 (16-bit)
Group 40 variation 2 (16-bit with flag)
32,738 to 65,535 ms.
Group 41 variation 1 (32-bit)
Group 40 variation 1 (32-bit with flag)
Note: Class 0 will always report group 40 variation 2 and will report negative value for 32-bit values. Use group 40 variation 1 to read values between 32,738 to 65,535 ms.
16 S&C Instruction Sheet 1045-560B
6801 Counter Points
Table 5 . 6801 Counter Points
Code # 1 2
3
4
Name–Definition
Operation Count Switch 1–This is the number of switch operations. The counter
is incremented on each Close operation. This is a 32-bit counter and will
overflow back to zero at 4,294,967,295.
New Coach Generated on Team–This is the number of coach generations on the
team. The counter is incremented on each coach generation. This is a 32-bit
counter and will overflow back to zero at 4,294,967,295.
Team Communication Problem–This is the number of communication problems. The
counter is incremented on each communication problem. This is a 32-bit counter
and will overflow back to zero at 4,294,967,295.
Unexpected State Change–This is the number of unexpected state changes. The
counter is incremented on each unexpected state change. This is a 32-bit
counter and will overflow back to zero at 4,294,967,295.
5
Rebuilding Coach–This is the number of Coach Rebuild operations. The counter is incremented on
each Coach Rebuild operation. This is a 32-bit counter and will overflow back to zero at 4,294,967,295.
6
Error Putting Coach on the Task List–This is the number of errors entering a coach on the task list. The
counter is incremented on each error. This is a 32-bit counter and will overflow back to zero at 4,294,967,295.
7
Error Putting Communication Entry on Task List–This is the number of errors entering a communication
entry on the task list. The counter is incremented on each error. This is a 32-bit counter and will overflow
back to zero at 4,294,967,295.
8
Error Putting Event on the Task List–This is the number of errors entering an event on the task list. The
counter is incremented on each error. This is a 32-bit counter and will overflow back to zero at 4,294,967,295.
9
Error Putting Member on the Task List–This is the number of errors entering a member on the task
list. The counter is incremented on each error. This is a 32-bit counter and will overflow back to zero at
4,294,967,295.
10 Resynchronize Sequence Number–This is the number of sequence number
resynchronizations. The counter is incremented on each resynchronization
operation. This is a 32-bit counter and will overflow back to zero at
4,294,967,295.
11 Compact Flash Issue–This is the number of flash memory issues. The counter
is incremented on each flash memory issue. This is a 32-bit counter and will
overflow back to zero at 4,294,967,295.
12 Logging Overflow–This is the number of log overflows. The counter is incremented on each log overflow. This is a 32-bit counter and will overflow back to zero at 4,294,967,295.
13 Disk Problem–This is the number of disk problems. The counter is incremented on each disk problem. This is a 32-bit counter and will overflow back to zero at 4,294,967,295.
14 Wi-Fi Intrusion Attempt–This is the number of Wi-Fi intrusion attempts. The
counter is incremented on each Wi-Fi intrusion attempt. This is a 32-bit
counter and will overflow back to zero at 4,294,967,295.
15 IntelliLink Intrusion Attempt–This is the number of IntelliLink software
log-in attempts that failed three times, after which all users are locked out
for 15 minutes.
S&C Instruction Sheet 1045-560B 17
6801/2/3 Group O Objects
Table 6 . 6801/2/3 Group 0 Objects
Variation Variation Name
Definition
204 Device location longitude
This is the longitude of the control provided by GPS in decimal degrees based on the WGS84 reference. A value of zero is returned when a GPS signal is not available. When the GPS module is installed the present position is always returned, even when GPS mode is not selected for the Time Source Synchronization setpoint on the Setup>General>Time screen.
205 Device location latitude
This is the latitude of the control provided by GPS in decimal degrees based on the WGS84 reference. A value of zero is returned when a GPS signal is not available. When the GPS module is installed the present position is always returned, even when GPS mode is not selected for the Time Source Synchronization setpoint on the Setup>General>Time screen.
242 Device
The S&C Electric Company implementation will return a string containing the MCU
manufacturer’s Application and MCU EOS. The following is an example of the string that will be returned:
software
“003.003.004.003 060.001.021.043,” representing MCU Application 3.3.4.3, MCU EOS
version
60.1.21.43.
248 Device serial The S&C Electric Company implementation will return a string containing the 6800 Series
number
control serial number. The following is an example of the string that will be returned:
“6802-0017-000001 62-0017001,” representing a 6802 Automatic Switch Control serial
number.
18 S&C Instruction Sheet 1045-560B
DNP Implementation
This implementation of DNP and this section of documentation conform to the
document “DNP V3.00 Subset Definitions, Version 2.00,” available from the DNP
Users Group.
Table 7 describes compatibility of the S&C implementation of DNP with other
devices.
Table 7 . Device Profile Description
DNP 3 DEVICE PROFILE DOCUMENT
Vendor Name: S&C Electric Company
Device Name: 6800 Series Automatic Switch Control
Highest DNP Level Supported: For Requests – Level 2 For Responses – Level 2
Device Function: _ Master X Slave
Notable objects, functions, and/or qualifiers supported in addition to the
Highest DNP Levels Supported (the complete list is described in the attached
table):
8-Bit Unsigned Integers
Maximum Data Link Frame Size (bytes) Transmitted – 292 Received – 292
Max Application Fragment Size (bytes) Transmitted – 249 Received – 249
Maximum Data link Re-tries: X None
Fixed at Configurable, range 1 to 25
Maximum Application Layer Re-tries: None
Fixed at X Configurable, range 1 to 25
and infinite
Requires Data Link Layer Confirmation:
X Never
Always
Sometimes Configurable
If “Sometimes,” when? If “Configurable,” how?
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 19
DNP Implementation
Table 7 . Device Profile Description–Continued
Requires Application Layer Confirmation:
Never
Always (not recommended)
When reporting Event Data (Slave devices only)
When sending multi-fragment responses (Slave devices only)
Sometimes X Configurable
If “Sometimes,” when? If “Configurable,” how?
Requires Application Layer Confirmation:
Never
Always (not recommended)
When reporting Event Data (Slave devices only)
When sending multi-fragment responses (Slave devices only)
Sometimes X Configurable
If “Sometimes,” when? If “Configurable,” how?
Data Link Confirm
Timeouts while waiting for: X None Fixed Variable Config
Complete Appl. Fragment X None Fixed Variable Config
Application Confirm
None Fixed Variable X Config
Complete Appl. Response X None Fixed Variable Config
Others
Attach explanation if “Variable” or “Configurable” was checked
(see Note 1 for explanation)
Sends/Executes Control Operations:
Write Binary Outputs
X Never Always Sometimes
Select/Operate
Never Always X Sometimes
Direct Operate
Never Always X Sometimes
Direct Operate – NO ACK Never Always X Sometimes
Config Config Config Config
Count > 1 Pulse On Pulse Off Latch On Latch Off
X Never Never X Never Never Never
Always Always Always Always Always
Sometimes X Sometimes Sometimes X Sometimes X Sometimes
Config Config Config Config Config
Queue Clear Queue
X Never Always Sometimes Config X Never Always Sometimes Config
Attach explanation if “Sometimes” or “Configurable” was checked (see Note 2 for explanation)
20 S&C Instruction Sheet 1045-560B
TABLE CONTINUED
DNP Implementation
Table 7 . Device Profile Description–Continued
FILL OUT THE FOLLOWING ITEM FOR MASTER DEVICES ONLY:
Master Expects Binary Input Change Events: Either time-tagged or non-time-
tagged for a single event Both time-tagged and non-time-tagged for a
single event
Configurable (attach explanation)
FILL OUT THE FOLLOWING ITEMS FOR SLAVE DEVICES ONLY:
Reports Binary Input Change Events when no specific variation requested:
Never
Only time-tagged
X Only non-time-tagged Configurable to send both
Reports time-tagged Binary Input Change Events when no specific variation
requested:
Never
X Binary Input Change with Time
Bin In Change Relative Time Configurable (explain)
Sends Unsolicited Responses: Never
X Configurable (explain) Only certain objects Sometimes (explain)
Enable/Disable Unsolicited
Function codes supported (see Note 3)
Sends Static Data in Unsolicited Responses: Never
When device restarts X When status flags change
No other options are permitted.
(see Note 3)
Default Counter Object/Variation: No counters reported Configurable
(explain) X Default object – 20 Default variation – 5
Point-by-point list attached
Counters Roll Over at: No counters reported Configurable (explain)
16 bits X 32 bits Other value Point-by-point
list attached
Sends Multi-Fragment Responses (Slave Only): X Yes No
S&C Instruction Sheet 1045-560B 21
DNP Implementation
Note 1: Timeouts While Waiting for Confirmations For an unsolicited response
when an application layer response confirmation is requested, the switch
control waits before sending another response/confirmation attempt (if the
retry number has not been reached) or stopping the Confirmation process.
Set the Time Delay Between Retries function with the setup software or via
SCADA. See S&C Instruction Sheet 1045-530, “6800 Series Automatic Switch
Controls: Setup,” for more information.
Note 2: Control Operations Executed For all Binary Output Relay (g12)
operations and Analog Output (g41) operations, the supported application layer
function codess are:
· Select (3) · Operate (4) · Direct Operate (5) · Direct Operate No Ack (6)
The control codes supported for Binary Output Command operations are:
Control Code TCC Field Op Type Field
0x01
NUL
PULSE_ON
0x03
NUL
LATCH_ON
0x04
NUL
LATCH_OFF
0x41
CLOSE
PULSE_ON
0x81
TRIP
PULSE_ON
For Binary Output Command operations, set the Count value to “1,” Queue and Clear fields to “0,” and On-Time and Off-Time fields to any valid values. The control will ignore the On-Time and Off-Time fields in the request. For the Select and Operate command sequence, the value of the On-Time and Off-Time fields must match between Select and Operate requests otherwise the command will not be executed.
For a Binary Output Command requests with the Clear field set to “1,” the control will return a status code 4 [NOT_SUPPORTED] in its response and the operation will not be executed.
For more details on Binary Output Command operations, see the “Control Relay Output Block” section in the Object library section of “IEEE std 1815TM-2012.”
Note 3: Unsolicited Responses The switch control returns unsolicited responses
to the configured master station address when a change occurs in any mapped
status point or when the device is restarted. The data returned is Object 2,
Variation 2 (Binary Input Change with Time).
Enable and disable unsolicited responses from the setup software or via SCADA
(Function Fode 20 to enable, Function Code 21 to disable).
22 S&C Instruction Sheet 1045-560B
DNP Implementation
Table 8 describes which objects and requests this implementation accepts and which responses are returned. Object, Variation, and Qualifier codes in the request must exactly match what is expected; otherwise, the switch control flags an error. All application layer responses use the standard response function code 129.
TTaabblele88 . I. mImpplelemmeenntatatitoionn
OBJECT
REQUEST
RESPONSE
Obj Var
Description
Func Code (dec)
Qualifier Codes (hex)
Default Var. (hex)
10
Binary Input – All Variations
1
06
11
Binary Input
00
20
Binary Input Change – All Variations
1
06,07,08
21
Binary Input Change without Time
1
06,07,08
17
2 2 Binary Input Change with Time (see Note 4) 1
06,07,08
17
23
Binary Input Change with Relative Time
1
06,07,08
17
(object parsed but no data to return)
10 0
Binary Output – All Variations
1
06
10 2
Binary Output Status (See Note 5)
00,01,06
00,01
12 1
Control Relay Output Block
3,4, 5,6
17,28
echo of request
20 0
Binary Counter – All Variations
1,7,
06
8,9,10
20 5
32-Bit Binary Counter without Flag
00
21 0
Frozen Counter – All Variations
1
06
21 9
32-Bit Frozen Counter without Flag
00
TABLE CONTINUED
S&C Instruction Sheet 1045-560B 23
DNP Implementation
Table 8 . Implementation–Continued
OBJECT
Obj Var
Description
22 0 22 1 22 5 30 0 30 4 32 0 32 2
32 4 40 0 40 2 41 2
Counter Change Event – All Variations Counter Event – 32-bit with flag (Note
4)
Counter Event – 32-bit Analog Input – All Variations 16-Bit Analog Input
without Flag Analog Change Event – All Variations Analog Input Event – 16-bit
without time
(Note 4) Analog Input Event – 16-bit with time Analog Output Status – All
Variations
16-Bit Analog Output Status 16-Bit Analog Output Block
50 1
Time and Date – Absolute Time
50 3
Time and Date – Absolute time at last recorded time
60 1
Class 0 Data
REQUEST
Func Code (dec)
Qualifier Codes (hex)
1
06,07,08
06,07,08
06,07,08
1
06
1
06,07,08
06,07,08
06,07,08
1
06
3,4, 5,6 2
2
1
17,28
07 limited quantity
= 1
07 limited quantity
= 1
06
RESPONSE Default
Var. (hex)
17 17
00
17 17
00 echo of request
IINs only
IINs only
TABLE CONTINUED
24 S&C Instruction Sheet 1045-560B
DNP Implementation
Table 8 . Implementation–Continued
OBJECT
Obj Var
Description
60 2 60 3 60 4 80 1
102 0 102 1
Class 1 Data Class 2 Data Class 3 Data Internal Indications
8-Bit Unsigned Integer (see Note 6) 8-Bit Unsigned Integer (see Note 6)
No Object No Object No Object
REQUEST
Func Code (dec)
Qualifier Codes (hex)
1
06,07,08
1
06,07,08
1
06,07,08
2
00
index=7
1
04
1,2
03,04,05
13
23
24
RESPONSE Default
Var. (hex)
IINs only
04 04
Note 4: Change Event Objects This is the default object returned in the
unsolicited report by exception (if enabled) and the default object for any
event data request.
Note 5: Binary Output Status In a response to a Binary Output Status request,
the switch control returns a status byte for each control point available. In
this implementation of the Binary Output Status object, only the Online bit is
used. All other bits, including the State bit, should be ignored.
The state of all digital bits (controlled and not controlled) can be inspected
by using the Binary Input object.
Note 6: Polling Class DNP points are assigned to polling classes. S&C
Automatic Switch Controls implement Class 0 for static data, and Classes 1, 2,
and 3 for event data. The Class 0 poll response contains all DNP points that
have been assigned to Classes 0, 1, 2 or 3 and their most recent static value.
The Class 1, 2 or 3 polls return event data, any DNP point whose value has
changed since the last event response message is transmitted. Polling
frequency is an aspect of the user’s SCADA system, and is user selectable.
DNP point mapping is user configurable, and all points do not need to be
mapped. DNP points can be customer assigned to any of the DNP Event Classes 1,
2, and 3.
S&C Instruction Sheet 1045-560B 25