L2 V4 02 Datapoints Configuration E 01

Datapoints Configuration

PCL

PCL

PCL

PCL

PACiS

PACiS

PACiS

PACiS Technical

Technical

Technical

Technical Training

Training

Training

Training Level

Level

Level

Level 2

2

2

2

CS&P

CS&P

CS&P

• Content

SPS, DPS, MPS

MV, TPI, Counters

SPC, DPC, SetPoints

Datapoints Quality

• Content

SPS, DPS, MPS

MV, TPI, Counters

SPC, DPC, SetPoints

Datapoints Quality

TYPED DIGITAL INFORMATION

It is an information which is representing a special input regarding the MiCOM C264 inner automations.

Examples :

- Switchgear Position DPS, Locking device status SPS, Bay Local/Remote DPS

• Typed / Generic xPS

GENERIC INFORMATION

It is a standard information which can be configured at any level. Examples :

Mapping SPS

It is an input which is produced by mapping to another DP. Each state of

this DP is mapped and corresponds to a state of the mapping SPS.

• Typed / Generic xPS

Day cyclic SPS

Day cyclic SPS

Day cyclic SPS

Day cyclic SPS

It is a transient SPS which is triggered every day at fixed time. (accuracy of

+/- 1 minute)(8 max per C264).

• Add / Configure a SPS (1)

1) SPS can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy. Some SPS are

System Info

.

Short Name :

SCE Key + appears in C264 local SOE

Detection Mode :

permanent : DI remains ON as far as signal is ON

Time tagging :

done at starting/end of signal filtering

2) SPS attributes

Long Name :

appears in viewers + printers

Persistence filtering :

SPS should remain valid “Set” or “Reset” during the configured timer

Forcing Management :

if FSS enabled, auto/manual force

LHMI display :

• Add / Configure a SPS (2)

3) SPS can be acquired by DIU/CCU

board,

IED. Some SPS are computed by

C264 application (C264 automation, …)

=> Relations under a SPS

Has for IED address :

SPS acquired by IED

Wired on : DI Channel

SPS acquired by DIU/CCU board

V4.7

V4.7

V4.7

V4.7

1) DPS can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy. Some DPS are

System Info

.

Short Name :

SCE Key + appears in C264 local SOE

Time tagging :

done at starting/end of motion

2) DPS attributes

Long Name :

appears in viewers + printers

Motion & Persistence filtering :

Motion : eliminate transients 00 and/or 11 motion states

Persistence : DPS should remain valid “Open” or “Closed” during the configured timer

Forcing Management :

if FSS enabled, auto/manual force

LHMI display :

yes = DPS in state list (MSC)

• Add / Configure a DPS (2)

3) DPS can be acquired by DIU/CCU

board,

IED. Some DPS are computed by

C264 application (C264 automation, …)

=> Relations under a DPS

Has for IED address :

DPS acquired by IED

Wired on :

DPS acquired by 2 channels (“open” and “closed”) on DIU/CCU board

DPS computed from 2 SPS :

DPS acquired using 2 SPS, 1 for “open” and 1 for “closed”

1) MPS can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy. Some MPS are

System Info

.

A MPS can have a maximum 16 valid states.

Short Name :

SCE Key + appears in C264 local SOE

2) MPS attributes

Long Name :

appears in viewers + printers

Motion & Persistence filtering :

Motion : inhibition (cf. next slide)

Persistence : MPS should remain in one valid state during the configured timer

Forcing Management :

if FSS enabled, auto/manual force

LHMI display :

yes = MPS in state list (MSC)

Example :

Change State with Filtering “all DI =0 “

During

change all DI =0

End

of change state

Before

change state

0

1

0

2

0

3

0

4

0

5

0

6

0

7

0

8

0

9

1

0

1

1

1

2

1

3

1

4

1

5

1

6

0

0

0

0

0

0

0

1

0

0

0

0

0

0

0

0

During

change all DI =1

Example :

Change State with Filtering “all DI =1 “

0

1

0

2

0

3

0

4

0

5

0

6

0

7

0

8

0

9

1

0

1

1

1

2

1

3

1

4

1

5

1

6

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

1

0

2

0

3

0

4

0

5

0

6

0

7

0

8

0

9

1

0

1

1

1

2

1

3

1

4

1

5

1

6

0

0

0

0

0

0

0

0

1

0

0

0

0

0

0

0

0

1

0

2

0

3

0

4

0

5

0

6

0

7

0

8

0

9

1

0

1

1

1

2

1

3

1

4

1

5

1

6

0

0

0

0

0

0

0

1

1

0

0

0

0

0

0

0

• Add / Configure a MPS (2)

• Add / Configure a MPS (3)

3) MPS can be acquired by DIU/CCU

board,

IED. Some MPS are computed by

C264 application (C264 automation, …)

=> Relations under a MPS

Has for IED address :

MPS acquired by IED

Wired on :

MPS acquired by a maximum of 16 channels on DIU/CCU boards

• Content

SPS, DPS, MPS

MV, TPI, Counters

SPC, DPC, SetPoints

Datapoints Quality

• Add / Configure a MV (1)

1) MV can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy. Some MV are

System Info

.

Short Name :

SCE Key + appears in C264 local SOE

2) MV attributes in General Tab

Long Name :

appears in viewers + printers

Analogue Type :

Analogue (AI,CT/VT,IED) or Digital Measurement

Forcing Management :

if FSS enabled, automatic force to a given value

LHMI display :

yes = MV in measurements list (MSC)

MV transmission :

• Add / Configure a MV (2)

Minimum / Maximum Value :

scaled values for SCADA and OI display + Full Scale definition

3) MV attributes in Value Features Tab

Thresholds definition :

scaled values for LLL, LL, L, H, HH, HHH thresholds + hysteresis

• Add / Configure a MV (3)

Scaling Low :

Linear / Quadratic

4) MV attributes in Scaling Tab

Minimum / Maximum acquisition values :

- if transducer 0/10 mA : min=0, max=10* - if transducer 4/20 mA :

min=0, max=16*

- if voltage of CT/VT with nominal ph-N = 57.7 V min=0, max=57.7*

- if IED (T103 : min=0, max=1; Modbus : cf. IED documentation)

…

* schedule a max value = 120% of expected max max=12, max=20, max=70 ... (transducers can measure more and display overflow and

undershoot measurements).

Scaling coefficients :

scaled value = A1 x acq. Value + B1

Up to 20 segments

Additional segments :

• Add / Configure a MV (4)

5) MV can be acquired by AIU/TMU/DIU/CCU

board,

IED. Some MV are

computed by C264 application (C264 automation, …)

=> Relations under a MV

Has for IED address :

MV acquired by IED

Wired on DI Channels :

Digital Measurements acquired by a maximum of 64 channels on DIU/CCU boards

Wired on AI Channel :

Computed by CT/VT board :

• Add / Configure a MV (5)

6) AI Board channel configuration

Transducer range :

Scanning acquisition period :

• Add / Configure a TPI (1)

1) TPI can

ONLY

be added under a Tap Changer

object belonging to a

Transformer

module.

=> Add / Configure a Tap Changer

object :

Built-in function :

Tap Changer

Min TAP, Max TAP

Execution timeout :

• Add / Configure a TPI (2)

2) TPI attributes :

2.1) General Tab

TPI type :

- Analogue Tap Position acquired by AIU or IED,

- Coded Digital Measurement (1/N, decimal, gray, BCD) acquired by DIU

Note : Tabs are not the same

- Value Features is common to Analogue and Digital TPI - Scaling & Tap Position for Analogue

• Add / Configure a TPI (3)

2) TPI attributes :

2.2) Value Features Tab

Minimum / Maximum Value :

Should comply with Tap Changer object configuration

Thresholds definition :

scaled values for LLL, LL, L, H, HH, HHH thresholds

• Add / Configure a TPI (4)

2) TPI attributes :

2.3) Scaling Tab (for Analogue

TPI only)

Minimum / Maximum Acquisition Value :

Same as for a MV

2.4) Tap Position Tab

For

Analogue

TPI :

filtering => transient “intertap” filtering

current valid range => gives validity DC input range for each tap

For

Digital

TPI :

filtering => signal validation

• Add / Configure a TPI (5)

3) TPI can be acquired by AIU/DIU/CCU

board,

IED.

=> Relations under a TPI

Has for IED address :

TPI acquired by IED

Wired on DI Channels :

Digital TPI acquired by a maximum of 64 channels on DIU/CCU boards

Wired on AI Channel :

• Add / Configure a Counter (1)

1) Counter can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy.

Short Name :

SCE Key + appears in C264 local SOE

2) Counter attributes in General Tab

Long Name :

appears in viewers + printers

Counter Type :

Standard (standard DI counting) Energy import / Energy export

Counter Acquisition :

validation => min pulse length to be counted invalidity => for double, non complementarity

LHMI display :

yes = Counter in

measurements list (MSC)

Counter Management :

• Add / Configure a Counter (2)

2) Counter attributes in General Tab

Counter cumulative period :

- configure a period at the end of which the counter value is transmitted (SBUS, LHMI)

- possible values : 10mn, 15mn, 30mn, 1h, 2h, 3h, … 24h

-at the end of this period, counter value can be reset (C264 re-start counting from 0)

Counter Total for

IED counters

:

Yes => IED is sending real counter value

No => IED is sending non-scaled value

• Add / Configure a Counter (3)

3) Counter can be acquired by DIU/CCU

board,

IED. Some Counters are

computed by C264 application (C264 automation, …)

=> Relations under a Counter

Has for IED address :

Counter acquired by IED

Wired on :

Single counter => 1 DI Channel Double counter => 2 DI Channels

integrate :

Counter computed by MV integration (example : P) Counter type is not “Standard” but “Energy import” or “Energy export”

Integration of P or Q :

In case the scale and unit is to big (

In case the scale and unit is to big (

In case the scale and unit is to big (

In case the scale and unit is to big (MVarh

MVarh

MVarh

MVarh for ex.), if

for ex.), if

for ex.), if

for ex.), if

energy is changing of less than 1MVarh in 10 minutes,

energy is changing of less than 1MVarh in 10 minutes,

energy is changing of less than 1MVarh in 10 minutes,

energy is changing of less than 1MVarh in 10 minutes,

the value is not sent (counter is integer so 0.2 value is

the value is not sent (counter is integer so 0.2 value is

the value is not sent (counter is integer so 0.2 value is

the value is not sent (counter is integer so 0.2 value is

equal to 0).

equal to 0).

equal to 0).

equal to 0).

• Content

SPS, DPS, MPS

MV, TPI, Counters

SPC, DPC, SetPoints

Datapoints Quality

TYPED CONTROL

It is an information which is representing a special functionality regarding the MiCOM C264 inner automations.

Examples :

- Switch Ctrl DPC, Locking device status SPC, Bay Local/Remote DPC, Sync CB Close

• Typed / Generic xPC

GENERIC CONTROL

It is a standard control which can be configured at any level. Examples :

• Add / Configure a SPC (1)

1) SPC can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy. Some SPC are

System Info

.

Short Name :

SCE Key + appears in C264 local SOE

Activation Mode :

- transient => configure pulse duration - permanent

- permanent until feedback

2) SPC attributes General Tab

Long Name :

appears in viewers + printers

LHMI display :

yes = SPC in control list (MSC)

Inter Control timeout :

no possibility to execute 2 consecutive orders during this timer

• Add / Configure a SPC (2)

3) SPC execution may be dependant on Local/Remote status of

Substation/Bay, on SBMC and/or on control uniqueness

=> SPC attributes Dependencies tab

Substation Local/Remote :

SS Local => control from OI allowed, from SCADA forbidden

Control Uniqueness

Bay Local/Remote :

Bay Local => control from LHMI allowed, from OI & SCADA not allowed

SBMC :

advised not to use SBMC (put No)

if needed, local transfer when SS is in Remote

• Add / Configure a SPC (3)

4) SPC can be executed on DOU/CCU

board,

IED. Some SPC are computed

by C264 application (C264 automation, …)

=> Relations under a SPC

Has for IED address :

Wired on : DO Channel

SPC executed on DOU/CCU board

Interlock SPS :

holds a logic allowing/blocking the control

Associated DO channel status SPS :

for hardwired SPC only

Auto/Manu dependency :

blocks the operator control if an automation is in progress => connect to SPS/DPS giving

automation status

Feedback definition :

for C264 acknowledgement cf. slide “§3.4”

• Add / Configure a DPC (1)

1) DPC can be added at Substation, Voltage Level, Bay, Module, ISaGRAF

automation

level in Electric

hierarchy. Some DPC are

System Info

.

Short Name :

SCE Key + appears in C264 local SOE

Activation Mode :

- transient => configure pulse duration (2 channels “open” / “close”)

- permanent

- permanent until feedback

2) DPC attributes

Long Name :

appears in viewers + printers

LHMI display :

yes = DPC in control list (MSC)

Inter Control timeout :

no possibility to execute 2 consecutive orders during this timer

• Add / Configure a DPC (2)

3) DPC execution is dependant on one hand from Local/Remote status of

Substation/Bay and on the other hand from control uniqueness

=> DPC attributes Dependencies tab

Substation Local/Remote :

SS Local => control from OI allowed, from SCADA forbidden

Control Uniqueness

Bay Local/Remote :

Bay Local => control from LHMI allowed, from OI & SCADA not allowed

SBMC :

advised not to use SBMC (put No)

if needed, local transfer when SS is in Remote

• Add / Configure a DPC (2)

4) DPC can be executed on DOU/CCU

board,

IED. Some DPC are computed

by C264 application (C264 automation, …)

=> Relations under a DPC

Has for IED address :

DPC executed by IED

Wired on : DO Channel

DPC executed on DOU/CCU board

2 Interlock SPS (open/close):

holds a logic allowing/blocking the controls

2 Associated DO channel status SPS :

for hardwired DPC only

Auto/Manu dependency :

blocks the operator control if an automation is in progress => connect to SPS/DPS giving

automation status

Feedback definition :

for C264 acknowledgement cf. slide “§3.4”

• Configure a xPC feedback

1) SPC/DPC can have for feedback a SPS/DPS

=> C264 checks if control success (ex: CB control, feedback CB position)

=> Example given for DPC with DPS feedback

Relation “has for feedback”

with 2 attributes :

- execution timeout : maximum time allowed to get feedback - status check : C264 will check status before performing control

DPC

• Add / Configure a SetPoint (1)

1) SetPoints can be added at Substation, Voltage Level, Bay, Module,

ISaGRAF automation

level in Electric

hierarchy.

Short Name :

SCE Key + appears in C264 local SOE

SetPoint type :

2) SetPoint attributes

Long Name :

appears in viewers + printers

LHMI display :

yes = SetPoint in control list (MSC)

Minimum / Maximum value :

raw values for SetPoint validity

For

Digital

SetPoint :

increment value pulse duration

• Add / Configure a SetPoint (2)

3) SetPoint execution is dependant on one hand from Local/Remote status of

Substation/Bay and on the other hand from control uniqueness

=> SetPoint attributes Dependencies tab

Substation Local/Remote :

SS Local => control from OI allowed, from SCADA forbidden

Control Uniqueness

Bay Local/Remote :

Bay Local => control from LHMI allowed, from OI & SCADA not allowed

SBMC :

advised not to use SBMC (put No)

if needed, local transfer when SS is in Remote

Note : This is internal automation existing and configurable for all Setpoints.

• Add / Configure a SetPoint (3)

4) SetPoints can be executed on DOU/CCU

board,

IED. Some SetPoints are

computed by C264 application (C264 automation, …)

=> Relations under a SetPoints

Has for IED address :

SP executed by IED

DO Channels :

C264 will close DO channels using configured code (BCD, binary, …)

Auto/Manu dependency :

blocks the operator control if an automation is in progress => connect to SPS/DPS giving

automation status

AO Channels :

• Content

SPS, DPS, MPS

MV, TPI, Counters

SPC, DPC, SetPoints

Datapoints Quality

• SPS Status

SPS STATUS

RESET

SET

SELF CHECK FAULTY

MEANING

Electric status 0

Electric status 1

Faulty DI Channel on board

TOGGLING

Toggling filtering has detected behaviour

UNKNOWN

IED acquiring DP is disconnected from C264

FORCED SET *

SPS is Forced Set by C264 (FSS enable)

SUBSTITUTED SET *

SPS is Substituted Set by Oper. (FSS enable)

SUPPRESSED

SPS is Suppressed by Oper. (FSS enable)

* => Same for RESET

• DPS Status

DPS STATUS

OPEN

CLOSED

SELF CHECK FAULTY

MEANING

Electric status 01

Electric status 10

Faulty DI Channel on board

TOGGLING

Toggling filtering has detected behaviour

UNKNOWN

IED acquiring DP is disconnected from C264

FORCED OPEN *

DPS is Forced Open by C264 (FSS enable)

SUBSTITUTED OPEN *

DPS is Substituted Open by Op. (FSS enable)

SUPPRESSED

DPS is Suppressed by Oper. (FSS enable)

* => Same for CLOSED

Quality => gives the nature of invalidity

JAMMED

Electric status 00

• MPS Status

MPS STATUS

STATE 1 -> STATE 16

SELF CHECK FAULTY

MEANING

Only one channel activated

Faulty DI Channel on board

TOGGLING

Toggling filtering has detected behaviour

UNKNOWN

IED acquiring DP is disconnected from C264

FORCED STATE N *

MPS is Forced St. N by C264 (FSS enable)

SUBSTITUTED STATE N *

MPS is Substituted St. N by Op. (FSS enable)

SUPPRESSED

MPS is Suppressed by Oper. (FSS enable)

Quality => gives the nature of invalidity

• MV Status

MV STATUS

VALID

SELF CHECK FAULTY

MEANING

MV in between min/MAX and/or L/H threshold

Faulty DI/AI Channel on board

TOGGLING

Toggling filtering has detected behaviour

UNKNOWN

IED acquiring DP is disconnected from C264

FORCED

MV is Forced C264 (FSS enable)

SUBSTITUTED STATE N *

MV is Substituted by Op. (FSS enable)

SUPPRESSED

MV is Suppressed by Oper. (FSS enable)

Quality => gives the nature of invalidity

UNDEFINED

No DI channel or more than one activated DM

OVERRANGE

Acquisition out of range

OPEN CIRCUIT

No current on AI channel (mA)

OVERSHOOT [1,2,3]

Over H, HH, HHH Threshold