General Functions

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Main function	MAIN: Evaluation IN, end a						016 096
	1: Calculated				Fig. 3-47
	MAIN: Evaluation IN, end b						016 097
	1: Calculated				Fig. 3-47
	This setting specifies which current will be used by the P632 as the residual current: either the calculated residual current derived from the sum of the phase currents or the residual current measured at the fourth transformer.
	MAIN: Hold time dyn.param.						018 009
	Blocked	0.00	100.00	s	Fig. 3-57
	Setting for the hold time of the “dynamic parameters”. During this period, the “dynamic” thresholds are active in place of the “normal” thresholds.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Differential protection	DIFF: General enable USER						019 080
	0: No
	Disabling and enabling the differential protection function.
	DIFF: Reference power Sref						019 016
	38.1	0.1	5000.0	MVA	Fig. 3-92
	Setting for the reference power, usually the nominal transformer power.
	DIFF: Ref. curr. Iref,a						019 023
	Not measured	0.000	50.000	kA	Fig. 3-92
	Display of the reference current calculated by the P632 for end a.
	DIFF: Ref. curr. Iref,b						019 024
	Not measured	0.000	50.000	kA	Fig. 3-92
	Display of the reference current calculated by the P632 for end b.
	DIFF: Matching fact. kam,a						004 105
	Not measured	0.000	50.000		Fig. 3-92
	Display of the matching factor calculated by the P632 for end a.
	DIFF: Matching fact. kam,b						004 106
	Not measured	0.000	50.000		Fig. 3-92
	Display of the matching factor calculated by the P632 for end b.
	DIFF: Meas. value rel. Id						011 037
	0.000	0.000	0.200	Iref	Fig. 3-103
	Setting for the minimum differential current that must be exceeded in order for the P632 to display the differential currents as measured operating data.
	DIFF: Meas. value rel. IR						011 038
	0.000	0.000	0.200	Iref	Fig. 3-103
	Setting for the minimum restraining current that must be exceeded in order for the P632 to display the restraining currents as measured operating data.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Ground differential protection	REF_1: General enable USER						019 050
	0: No				Fig. 3-104
	REF_2: General enable USER						019 150
	0: No
	Disabling or enabling the ground fault differential protection.
	REF_1: Select. meas. input						019 100
	0: End a
	REF_2: Select. meas. input						019 101
	1: End b
	Display of the measuring input that provides the measured values evaluated by the ground differential protection function.
	REF_1: Add.meas.inp. end b						019 120
	0: No
	In case of protecting an autotransformer, select whether this end shall be considered by the REF function in addition to the phase currents in end a (T14) and the the neutral-point current.
	REF_1: Reference power Sref						019 031
	38.1	0.1	5000.0	MVA	Fig. 3-105
	REF_2: Reference power Sref						019 032
	38.1	0.1	5000.0	MVA
	Setting for the reference power, usually the nominal transformer power for the relevant transformer end.
	REF_1: Ref. curr. Iref						019 034
	Not measured	0.000	50.000	kA	Fig. 3-105
	REF_2: Ref. curr. Iref						019 035
	Not measured	0.000	50.000	kA
	Display of the reference current calculated by the P632.
	REF_1: Match. fact. kam,N,a						004 160
	Not measured	0.000	50.000		Fig. 3-105
	REF_1: Match. fact. kam,N,b						019 123
	Not measured	0.000	50.000
	Display of the matching factor calculated by the P632.
	REF_1: Matching fact. kam,Y						004 163
	Not measured	0.000	50.000		Fig. 3-105
	REF_2: Matching fact. kam,Y						004 164
	Not measured	0.000	50.000
	Display of the matching factor calculated by the P632 for the neutral-point current.
	REF_1: Meas. value rel. Id						011 039
	0.00	0.00	0.20	Iref	Fig. 3-109
	REF_2: Meas. value rel. Id						011 044
	0.00	0.00	0.20	Iref
	Setting for the minimum differential current that must be exceeded in order for the P632 to display the differential currents as measured operating data.
	REF_1: Meas. value rel. IR						011 040
	0.00	0.00	0.20	Iref	Fig. 3-109
	REF_2: Meas. value rel. IR						011 046
	0.00	0.00	0.20	Iref
	Setting for the minimum restraining current that must be exceeded in order for the P632 to display the restraining currents as measured operating data.

	Parameter			Address
	Default	Min	Max	Unit	Logic Diagram
Ground differential protection	REF_2: Matching fact. kam,N					004 161
	Not measured	0.000	50.000
	Display of the matching factor calculated by the P632 for the vector sum of the phase currents.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Definite-time overcurrent protection	DTOC1: General enable USER						031 135
	0: No				Fig. 3-112
	DTOC2: General enable USER						031 136
	0: No
	Enabling/disabling the definite-time overcurrent protection function.
	DTOC1: Select. meas. input						019 103
	0: End a				Fig. 3-111
	DTOC2: Select. meas. input						019 104
	1: End b
	Selection of the measuring input that provides the measured values monitored by the definite-time overcurrent protection function.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Inverse-time overcurrent protection	IDMT1: General enable USER						031 141
	0: No				Fig. 3-119
	IDMT2: General enable USER						031 142
	0: No
	Disabling and enabling the inverse-time overcurrent protection function.
	IDMT1: Select. meas. input						019 106
	0: End a				Fig. 3-118
	IDMT2: Select. meas. input						019 116
	1: End b
	Selection of the measuring input that provides the measured variables monitored by the inverse-time overcurrent protection function.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Thermal overload protection	THRM1: General enable USER						031 144
	0: No				Fig. 3-131
	Disabling and enabling the thermal overload protection function.
	THRM1: Select. meas. input						019 109
	1: End b				Fig. 3-130
	Selection of the measuring input that provides the measured variables relevant for thermal overload protection.
	THRM1: Operating mode						039 121
	2: Relative replica				Fig. 3-135
	Setting for the operating mode of thermal overload protection. Select between Absolute replica and Relative replica.
	THRM1: O/T f.Iref persist 1						004 152
	Not measured	-40	300	°C
	Display of the difference between the settings for the maximum permissible temperatures of the protected object and the coolant.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Time-voltage protection	V<>: General enable USER						023 030
	0: No				Fig. 3-137
	Disabling or enabling time-voltage protection.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Over-/underfrequency protection	f<>: General enable USER						023 031
	0: No				Fig. 3-140
	Disabling or enabling over-/underfrequency protection.
	f<>: Evaluation time						018 201
	4	3	6	Periods	Fig. 3-141
	Setting for the evaluation time. The operate conditions must be met for the duration of the set evaluation time in order for a signal to be issued.
	f<>: Undervolt. block. V<						018 200
	0.90	0.20	1.00	Vnom	Fig. 3-141
	Setting for the threshold of undervoltage blocking. If the voltage falls below this threshold, the over-/underfrequency protection function will be blocked.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Overfluxing protection	V/f: General enable USER						019 097
	0: No				Fig. 3-144
	Enabling or disabling the Overfluxing protection function.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Current transformer supervision	CTS: General enable USER						031 085
	0: No				Fig. 3-152
	Enabling or disabling the current transformer supervision function.

	Parameter			Address
	Default	Min	Max	Unit	Logic Diagram
Measuring-circuit monitoring	MCM_1: General enable USER					031 146
	0: No
	MCM_2: General enable USER					031 147
	0: No
	Enabling or disabling the measuring-circuit monitoring function.
	MCM_1: Select. meas. input					031 150
	0: End a
	MCM_2: Select. meas. input					031 151
	1: End b
	Assigning measuring-circuit monitoring functions to ends a and b.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Circuit breaker failure protection	CBF_1: General enable USER						022 080
	0: No				Fig. 3-162
	CBF_2: General enable USER						022 214
	0: No
	Disabling or enabling circuit breaker failure protection.
	CBF_1: Select. meas. input						022 156
	0: End a
	CBF_2: Select. meas. input						022 157
	1: End b
	Selection of measuring input – the circuit breaker failure protection is controlled by its current.
	CBF_1: Fct.assign. starting						022 202
	060 000: MAIN: Without function				Fig. 3-166
	CBF_2: Fct.assign. starting						022 216
	060 000: MAIN: Without function
	Select which of the trip commands is to be used as a start criterion for the CBF function.
	CBF_1: Start with man. trip						022 154
	0: No				Fig. 3-166
	CBF_2: Start with man. trip						022 175
	0: No
	Setting that permit a manual trip signal to also be used as a start criterion.
	CBF_1: Fct.assignm. CBAux.						022 159
	060 000: MAIN: Without function				Fig. 3-166
	CBF_2: Fct.assignm. CBAux.						022 217
	060 000: MAIN: Without function
	Selection of trip signals – assigned to Gen. trip command 1 – for which, in addition to current flow monitoring, status signals from CB auxiliary contacts are evaluated.
	CBF_1: I<						022 160
	1.00	0.05	20.00	Inom	Fig. 3-164 Fig. 3-166 Fig. 3-170 Fig. 3-171
	CBF_2: I<						022 215
	1.00	0.05	20.00	Inom
	Setting for the threshold to detect a break in current flow.
	CBF_1: IN<						022 180
	1.00	0.05	20.00	Inom
	CBF_2: IN<						022 181
	1.00	0.05	20.00	Inom
	Setting of the comparator threshold for residual current monitoring function.
	CBF_1: Evaluation IN						022 184
	0: Without				Fig. 3-164
	CBF_2: Evaluation IN						022 185
	0: Without
	Select whether the measured or the calculated residual current shall be used for residual current monitoring function. This choice is only possible when a measuring input for the residual current is available, otherwise the internally derived value of the residual current is always used, regardless of the setting.
	CBF_1: t1 3p						022 165
	0.15	0.00	100.00	s	Fig. 3-167
	CBF_2: t1 3p						022 221
	0.15	0.00	100.00	s
	Setting the 1st CBF timer stage to 3-pole operating mode.
	CBF_1: t2						022 166
	0.25	0.00	100.00	s	Fig. 3-167
	CBF_2: t2						022 222
	0.25	0.00	100.00	s
	Setting for the 2nd CBF timer stage.
	CBF_1: Min.dur. trip cmd.t1						022 167
	0.25	0.10	10.00	s	Fig. 3-168
	CBF_2: Min.dur. trip cmd.t1						022 223
	0.25	0.10	10.00	s
	Setting the 1st timer stage for minimum duration of trip command.
	CBF_1: Min.dur. trip cmd.t2						022 168
	0.25	0.10	10.00	s	Fig. 3-168
	CBF_2: Min.dur. trip cmd.t2						022 224
	0.25	0.10	10.00	s
	Setting the 2nd timer stage for minimum duration of trip command.
	CBF_1: Latching trip cmd.t1						022 169
	0: No				Fig. 3-168
	CBF_2: Latching trip cmd.t1						022 225
	0: No
	The 1st timer stage trip command, set to latch mode, will remain active until reset by operating parameters or through an appropriately configured binary signal input.
	CBF_1: Latching trip cmd.t2						022 170
	0: No				Fig. 3-168
	CBF_2: Latching trip cmd.t2						022 226
	0: No
	The 2nd timer stage trip command, set to latch mode, will remain active until reset by operating parameters or through an appropriately configured binary signal input.
	CBF_1: Delay/starting trig.						022 155
	0.00	0.00	100.00	s	Fig. 3-169
	CBF_2: Delay/starting trig.						022 220
	0.00	0.00	100.00	s
	The signal CBF_1: Trip signal (or CBF_2: Trip signal, . . ., resp.) is issued when this timer stage's time duration has elapsed.
	CBF_1: Delay/fault beh. CB						022 171
	0.12	0.00	100.00	s	Fig. 3-170
	CBF_2: Delay/fault beh. CB						022 227
	0.12	0.00	100.00	s
	If during this delay time period the circuit breaker does not provide a signal from its auxiliary contacts that it is closed, then faults behind the CB are recognized through the current criterion (see section “Fault behind CB protection”).
	CBF_1: Delay/CB sync.superv						022 172
	Blocked	0.00	100.00	s	Fig. 3-171
	CBF_2: Delay/CB sync.superv						022 218
	Blocked	0.00	100.00	s
	Setting for the time delay to bridge circuit breaker operate times during CB synchronization supervision.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Limit value monitoring	LIMIT: General enable USER						014 010
	0: No				Fig. 3-172
	Disabling or enabling limit value monitoring.
	LIMIT: IDC,lin>						014 110
	Blocked	0.100	1.100	IDC,nom	Fig. 3-172
	Setting for the operate value IDC,lin> for monitoring the linearized direct current.
	LIMIT: IDC,lin>>						014 111
	Blocked	0.100	1.100	IDC,nom	Fig. 3-172
	Setting for the operate value IDC,lin>> for monitoring the linearized direct current.
	LIMIT: tIDC,lin>						014 112
	Blocked	0.00	20.00	s	Fig. 3-172
	Setting for the operate delay of overcurrent stage IDC,lin>.
	LIMIT: tIDC,lin>>						014 113
	Blocked	0.00	20.00	s	Fig. 3-172
	Setting for the operate delay of overcurrent stage IDC,lin>>.
	LIMIT: IDC,lin<						014 114
	Blocked	0.100	1.100	IDC,nom	Fig. 3-172
	Setting for the operate value IDC,lin< for monitoring the linearized direct current.
	LIMIT: IDC,lin<<						014 115
	Blocked	0.100	1.100	IDC,nom	Fig. 3-172
	Setting for the operate value IDC,lin<< for monitoring the linearized direct current.
	LIMIT: tIDC,lin<						014 116
	Blocked	0.00	20.00	s	Fig. 3-172
	Setting for the operate delay of undercurrent stage IDC,lin<.
	LIMIT: tIDC,lin<<						014 117
	Blocked	0.00	20.00	s	Fig. 3-172
	Setting for the operate delay of undercurrent stage IDC,lin<<.
	LIMIT: T>						014 100
	200	-20	200	°C	Fig. 3-173
	Setting for the operate value of temperature monitoring T>.
	LIMIT: T>>						014 101
	200	-20	200	°C	Fig. 3-173
	Setting for the operate value of temperature monitoring T>>.
	LIMIT: tT>						014 103
	Blocked	0	1000	s	Fig. 3-173
	Setting for the operate delay of temperature monitoring T>.
	LIMIT: tT>>						014 104
	Blocked	0	1000	s	Fig. 3-173
	Setting for the operate delay of temperature monitoring T>>.
	LIMIT: T<						014 105
	-20	-20	200	°C	Fig. 3-173
	Setting for the operate value of temperature monitoring T<.
	LIMIT: T<<						014 106
	-20	-20	200	°C	Fig. 3-173
	Setting for the operate value of temperature monitoring T<<.
	LIMIT: tT<						014 107
	Blocked	0	1000	s	Fig. 3-173
	Setting for the operate delay of temperature monitoring T<.
	LIMIT: tT<<						014 108
	Blocked	0	1000	s	Fig. 3-173
	Setting for the operate delay of temperature monitoring T<<.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Limit value monitoring	LIM_1: General enable USER						014 014
	0: No				Fig. 3-175
	LIM_2: General enable USER						014 015
	0: No
	Enabling or disabling the limit value monitoring function.
	LIM_1: Select. meas. input						019 111
	0: End a				Fig. 3-174
	LIM_2: Select. meas. input						019 112
	1: End b
	Selecting a measuring input for limit value monitoring of the measured values.
	LIM_1: I>						015 116
	1.20	0.20	4.00	Inom	Fig. 3-175
	LIM_2: I>						016 116
	1.20	0.20	4.00	Inom
	Setting for the operate value of I>.
	LIM_1: I>>						015 117
	Blocked	0.20	4.00	Inom	Fig. 3-175
	LIM_2: I>>						016 117
	Blocked	0.20	4.00	Inom
	Setting for the operate value of I>>.
	LIM_1: tI>						015 120
	5	0	100	s	Fig. 3-175
	LIM_2: tI>						016 120
	5	0	100	s
	Setting for the operate delay of I>.
	LIM_1: tI>>						015 121
	Blocked	0	100	s	Fig. 3-175
	LIM_2: tI>>						016 121
	Blocked	0	100	s
	Setting for the operate delay of I>>.
	LIM_1: I<						015 118
	0.10	0.00	4.00	Inom	Fig. 3-175
	LIM_2: I<						016 118
	0.10	0.00	4.00	Inom
	Setting for the operate value of I<.
	LIM_1: I<<						015 119
	Blocked	0.00	4.00	Inom	Fig. 3-175
	LIM_2: I<<						016 119
	Blocked	0.00	4.00	Inom
	Setting for the operate value of I<<.
	LIM_1: tI<						015 122
	5	0	100	s	Fig. 3-175
	LIM_2: tI<						016 122
	5	0	100	s
	Setting for the operate delay of I<.
	LIM_1: tI<<						015 123
	Blocked	0	100	s	Fig. 3-175
	LIM_2: tI<<						016 123
	Blocked	0	100	s
	Setting for the operate delay of I<<.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Programmable Logic	LOGIC: General enable USER						031 099
	0: No				Fig. 3-177
	Enable/disable the logic function.
	LOGIC: Set 1 USER						034 030
	0: No				Fig. 3-176
	LOGIC: Set 2 USER						034 031
	0: No
	LOGIC: Set 3 USER						034 032
	0: No
	LOGIC: Set 4 USER						034 033
	0: No
	LOGIC: Set 5 USER						034 034
	0: No
	LOGIC: Set 6 USER						034 035
	0: No
	LOGIC: Set 7 USER						034 036
	0: No
	LOGIC: Set 8 USER						034 037
	0: No
	These settings define the static input conditions for the logic function.
	LOGIC: Fct.assignm. outp. 1						030 000
	060 000: MAIN: Without function				Fig. 3-177
	LOGIC: Fct.assignm. outp. 2						030 004
	060 000: MAIN: Without function			s
	LOGIC: Fct.assignm. outp. 3						030 008
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp. 4						030 012
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp. 5						030 016
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp. 6						030 020
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp. 7						030 024
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp. 8						030 028
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp. 9						030 032
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.10						030 036
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.11						030 040
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.12						030 044
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.13						030 048
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.14						030 052
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.15						030 056
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.16						030 060
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.17						030 064
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.18						030 068
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.19						030 072
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.20						030 076
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.21						030 080
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.22						030 084
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.23						030 088
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.24						030 092
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.25						030 096
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.26						031 000
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.27						031 004
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.28						031 008
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.29						031 012
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.30						031 016
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.31						031 020
	060 000: MAIN: Without function
	LOGIC: Fct.assignm. outp.32						031 024
	060 000: MAIN: Without function
	These settings assign functions to the outputs.
	LOGIC: Op. mode t output 1						030 001
	0: Without timer stage				Fig. 3-177
	LOGIC: Op. mode t output 2						030 005
	0: Without timer stage
	LOGIC: Op. mode t output 3						030 009
	0: Without timer stage
	LOGIC: Op. mode t output 4						030 013
	0: Without timer stage
	LOGIC: Op. mode t output 5						030 017
	0: Without timer stage
	LOGIC: Op. mode t output 6						030 021
	0: Without timer stage
	LOGIC: Op. mode t output 7						030 025
	0: Without timer stage
	LOGIC: Op. mode t output 8						030 029
	0: Without timer stage
	LOGIC: Op. mode t output 9						030 033
	0: Without timer stage
	LOGIC: Op. mode t output 10						030 037
	0: Without timer stage
	LOGIC: Op. mode t output 11						030 041
	0: Without timer stage
	LOGIC: Op. mode t output 12						030 045
	0: Without timer stage
	LOGIC: Op. mode t output 13						030 049
	0: Without timer stage
	LOGIC: Op. mode t output 14						030 053
	0: Without timer stage
	LOGIC: Op. mode t output 15						030 057
	0: Without timer stage
	LOGIC: Op. mode t output 16						030 061
	0: Without timer stage
	LOGIC: Op. mode t output 17						030 065
	0: Without timer stage
	LOGIC: Op. mode t output 18						030 069
	0: Without timer stage
	LOGIC: Op. mode t output 19						030 073
	0: Without timer stage
	LOGIC: Op. mode t output 20						030 077
	0: Without timer stage
	LOGIC: Op. mode t output 21						030 081
	0: Without timer stage
	LOGIC: Op. mode t output 22						030 085
	0: Without timer stage
	LOGIC: Op. mode t output 23						030 089
	0: Without timer stage
	LOGIC: Op. mode t output 24						030 093
	0: Without timer stage
	LOGIC: Op. mode t output 25						030 097
	0: Without timer stage
	LOGIC: Op. mode t output 26						031 001
	0: Without timer stage
	LOGIC: Op. mode t output 27						031 005
	0: Without timer stage
	LOGIC: Op. mode t output 28						031 009
	0: Without timer stage
	LOGIC: Op. mode t output 29						031 013
	0: Without timer stage
	LOGIC: Op. mode t output 30						031 017
	0: Without timer stage
	LOGIC: Op. mode t output 31						031 021
	0: Without timer stage
	LOGIC: Op. mode t output 32						031 025
	0: Without timer stage
	These settings define the operating modes for the output timer stages.
	LOGIC: Time t1 output 1						030 002
	0.00	0.00	600.00	s	Fig. 3-177
	LOGIC: Time t1 output 2						030 006
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 3						030 010
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 4						030 014
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 5						030 018
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 6						030 022
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 7						030 026
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 8						030 030
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 9						030 034
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 10						030 038
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 11						030 042
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 12						030 046
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 13						030 050
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 14						030 054
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 15						030 058
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 16						030 062
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 17						030 066
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 18						030 070
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 19						030 074
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 20						030 078
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 21						030 082
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 22						030 086
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 23						030 090
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 24						030 094
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 25						030 098
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 26						031 002
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 27						031 006
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 28						031 010
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 29						031 014
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 30						031 018
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 31						031 022
	0.00	0.00	600.00	s
	LOGIC: Time t1 output 32						031 026
	0.00	0.00	600.00	s
	Settings of timer stage t1 for the respective outputs.
	LOGIC: Time t2 output 1						030 003
	0.00	0.00	600.00	s	Fig. 3-177
	LOGIC: Time t2 output 2						030 007
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 3						030 011
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 4						030 015
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 5						030 019
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 6						030 023
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 7						030 027
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 8						030 031
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 9						030 035
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 10						030 039
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 11						030 043
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 12						030 047
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 13						030 051
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 14						030 055
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 15						030 059
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 16						030 063
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 17						030 067
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 18						030 071
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 19						030 075
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 20						030 079
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 21						030 083
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 22						030 087
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 23						030 091
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 24						030 095
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 25						030 099
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 26						031 003
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 27						031 007
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 28						031 011
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 29						031 015
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 30						031 019
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 31						031 023
	0.00	0.00	600.00	s
	LOGIC: Time t2 output 32						031 027
	0.00	0.00	600.00	s
	Settings for timer stage t2 for the respective outputs. Note: This setting has no effect in the “minimum time” operating mode.
	LOGIC: Sig.assig. outp. 1						044 000
	061 000: MAIN: Without function				Fig. 3-184
	LOGIC: Sig.assig. outp. 2						044 002
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 3						044 004
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 4						044 006
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 5						044 008
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 6						044 010
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 7						044 012
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 8						044 014
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 9						044 016
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 10						044 018
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 11						044 020
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 12						044 022
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 13						044 024
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 14						044 026
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 15						044 028
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 16						044 030
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 17						044 032
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 18						044 034
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 19						044 036
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 20						044 038
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 21						044 040
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 22						044 042
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 23						044 044
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 24						044 046
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 25						044 048
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 26						044 050
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 27						044 052
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 28						044 054
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 29						044 056
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 30						044 058
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 31						044 060
	061 000: MAIN: Without function
	LOGIC: Sig.assig. outp. 32						044 062
	061 000: MAIN: Without function
	These settings assign the function of a binary input signal to the output of the logic equation.
	LOGIC: Sig.assig.outp. 1(t)						044 001
	061 000: MAIN: Without function				Fig. 3-184
	LOGIC: Sig.assig.outp. 2(t)						044 003
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 3(t)						044 005
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 4(t)						044 007
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 5(t)						044 009
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 6(t)						044 011
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 7(t)						044 013
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 8(t)						044 015
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp. 9(t)						044 017
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.10(t)						044 019
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.11(t)						044 021
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.12(t)						044 023
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.13(t)						044 025
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.14(t)						044 027
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.15(t)						044 029
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.16(t)						044 031
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.17(t)						044 033
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.18(t)						044 035
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.19(t)						044 037
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.20(t)						044 039
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.21(t)						044 041
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.22(t)						044 043
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.23(t)						044 045
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.24(t)						044 047
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.25(t)						044 049
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.26(t)						044 051
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.27(t)						044 053
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.28(t)						044 055
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.29(t)						044 057
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.30(t)						044 059
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.31(t)						044 061
	061 000: MAIN: Without function
	LOGIC: Sig.assig.outp.32(t)						044 063
	061 000: MAIN: Without function
	These settings assign the function of a binary input signal to the output of the logic equation.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Programmable Logic	LOG_2: General enable USER						011 137
	0: No				Fig. 3-178
	Enable/disable the function group LOG_2 (Programmable Logic 2).
	LOG_2: Fct.assignm. outp. 1						050 000
	060 000: MAIN: Without function				Fig. 3-178
	LOG_2: Fct.assignm. outp. 2						050 004
	060 000: MAIN: Without function			s
	LOG_2: Fct.assignm. outp. 3						050 008
	060 000: MAIN: Without function
	LOG_2: Fct.assignm. outp. 4						050 012
	060 000: MAIN: Without function
	These settings assign functions to the outputs.
	LOG_2: Op. mode t output 1						050 001
	0: Without timer stage				Fig. 3-178
	LOG_2: Op. mode t output 2						050 005
	0: Without timer stage
	LOG_2: Op. mode t output 3						050 009
	0: Without timer stage
	LOG_2: Op. mode t output 4						050 013
	0: Without timer stage
	These settings define the operating modes for the output timer stages.
	LOG_2: Time t1 output 1						050 002
	0	0	60000	s	Fig. 3-178
	LOG_2: Time t1 output 2						050 006
	0	0	60000	s
	LOG_2: Time t1 output 3						050 010
	0	0	60000	s
	LOG_2: Time t1 output 4						050 014
	0	0	60000	s
	Settings of timer stage t1 for the respective outputs.
	LOG_2: Time t2 output 1						050 003
	0	0	60000	s	Fig. 3-178
	LOG_2: Time t2 output 2						050 007
	0	0	60000	s
	LOG_2: Time t2 output 3						050 011
	0	0	60000	s
	LOG_2: Time t2 output 4						050 015
	0	0	60000	s
	Settings for timer stage t2 for the respective outputs. Note: This setting has no effect in the “minimum time” operating mode.
	LOG_2: Sig.assig. outp. 1						064 000
	061 000: MAIN: Without function
	LOG_2: Sig.assig. outp. 2						064 002
	061 000: MAIN: Without function
	LOG_2: Sig.assig. outp. 3						064 004
	061 000: MAIN: Without function
	LOG_2: Sig.assig. outp. 4						064 006
	061 000: MAIN: Without function
	These settings assign the function of a binary input signal to the output of the logic equation.
	LOG_2: Sig.assig.outp. 1(t)						064 001
	061 000: MAIN: Without function
	LOG_2: Sig.assig.outp. 2(t)						064 003
	061 000: MAIN: Without function
	LOG_2: Sig.assig.outp. 3(t)						064 005
	061 000: MAIN: Without function
	LOG_2: Sig.assig.outp. 4(t)						064 007
	061 000: MAIN: Without function
	These settings assign the function of a binary input signal to the output of the logic equation.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Single-pole commands	CMD_1: Design. command C001						200 000
	1: C001
	CMD_1: Design. command C002						200 005
	2: C002
	CMD_1: Design. command C003						200 010
	3: C003
	CMD_1: Design. command C004						200 015
	4: C004
	CMD_1: Design. command C005						200 020
	5: C005
	CMD_1: Design. command C006						200 025
	6: C006
	CMD_1: Design. command C007						200 030
	7: C007
	CMD_1: Design. command C008						200 035
	8: C008
	CMD_1: Design. command C009						200 040
	9: C009
	CMD_1: Design. command C010						200 045
	10: C010
	CMD_1: Design. command C011						200 050
	11: C011
	CMD_1: Design. command C012						200 055
	12: C012
	Selection of the command designation.
	CMD_1: Oper. mode cmd. C001						200 002
	3: Persistent command				Fig. 3-198
	CMD_1: Oper. mode cmd. C002						200 007
	3: Persistent command
	CMD_1: Oper. mode cmd. C003						200 012
	3: Persistent command
	CMD_1: Oper. mode cmd. C004						200 017
	3: Persistent command
	CMD_1: Oper. mode cmd. C005						200 022
	3: Persistent command
	CMD_1: Oper. mode cmd. C006						200 027
	3: Persistent command
	CMD_1: Oper. mode cmd. C007						200 032
	3: Persistent command
	CMD_1: Oper. mode cmd. C008						200 037
	3: Persistent command
	CMD_1: Oper. mode cmd. C009						200 042
	3: Persistent command
	CMD_1: Oper. mode cmd. C010						200 047
	3: Persistent command
	CMD_1: Oper. mode cmd. C011						200 052
	3: Persistent command
	CMD_1: Oper. mode cmd. C012						200 057
	3: Persistent command
	Selection of the command operating mode.

	Parameter			Address
	Default	Min	Max	Unit		Logic Diagram
Single-pole signals	SIG_1: Designat. sig. S001						226 000
	1: S001
	SIG_1: Designat. sig. S002						226 008
	2: S002
	SIG_1: Designat. sig. S003						226 016
	3: S003
	SIG_1: Designat. sig. S004						226 024
	4: S004
	SIG_1: Designat. sig. S005						226 032
	5: S005
	SIG_1: Designat. sig. S006						226 040
	6: S006
	SIG_1: Designat. sig. S007						226 048
	7: S007
	SIG_1: Designat. sig. S008						226 056
	8: S008
	SIG_1: Designat. sig. S009						226 064
	9: S009
	SIG_1: Designat. sig. S010						226 072
	10: S010
	SIG_1: Designat. sig. S011						226 080
	11: S011
	SIG_1: Designat. sig. S012						226 088
	12: S012
	Selection of the signal designation.
	SIG_1: Oper. mode sig. S001						226 001
	1: Start/end signal				Fig. 3-199
	SIG_1: Oper. mode sig. S002						226 009
	1: Start/end signal
	SIG_1: Oper. mode sig. S003						226 017
	1: Start/end signal
	SIG_1: Oper. mode sig. S004						226 025
	1: Start/end signal
	SIG_1: Oper. mode sig. S005						226 033
	1: Start/end signal
	SIG_1: Oper. mode sig. S006						226 041
	1: Start/end signal
	SIG_1: Oper. mode sig. S007						226 049
	1: Start/end signal
	SIG_1: Oper. mode sig. S008						226 057
	1: Start/end signal
	SIG_1: Oper. mode sig. S009						226 065
	1: Start/end signal
	SIG_1: Oper. mode sig. S010						226 073
	1: Start/end signal
	SIG_1: Oper. mode sig. S011						226 081
	1: Start/end signal
	SIG_1: Oper. mode sig. S012						226 089
	1: Start/end signal
	Selection of the signal operating mode.
	SIG_1: Gr.asg. debounc.S001						226 003
	1: Group 1				Fig. 3-199 Fig. 3-200
	SIG_1: Gr.asg. debounc.S002						226 011
	1: Group 1
	SIG_1: Gr.asg. debounc.S003						226 019
	1: Group 1
	SIG_1: Gr.asg. debounc.S004						226 027
	1: Group 1
	SIG_1: Gr.asg. debounc.S005						226 035
	1: Group 1
	SIG_1: Gr.asg. debounc.S006						226 043
	1: Group 1
	SIG_1: Gr.asg. debounc.S007						226 051
	1: Group 1
	SIG_1: Gr.asg. debounc.S008						226 059
	1: Group 1
	SIG_1: Gr.asg. debounc.S009						226 067
	1: Group 1
	SIG_1: Gr.asg. debounc.S010						226 075
	1: Group 1
	SIG_1: Gr.asg. debounc.S011						226 083
	1: Group 1
	SIG_1: Gr.asg. debounc.S012						226 091
	1: Group 1
	Group assignment for the debouncing time and the chatter suppression.
	SIG_1: Min. sig. dur. S001						226 002
	0	0	254	s	Fig. 3-199
	SIG_1: Min. sig. dur. S002						226 010
	0	0	254	s
	SIG_1: Min. sig. dur. S003						226 018
	0	0	254	s
	SIG_1: Min. sig. dur. S004						226 026
	0	0	254	s
	SIG_1: Min. sig. dur. S005						226 034
	0	0	254	s
	SIG_1: Min. sig. dur. S006						226 042
	0	0	254	s
	SIG_1: Min. sig. dur. S007						226 050
	0	0	254	s
	SIG_1: Min. sig. dur. S008						226 058
	0	0	254	s
	SIG_1: Min. sig. dur. S009						226 066
	0	0	254	s
	SIG_1: Min. sig. dur. S010						226 074
	0	0	254	s
	SIG_1: Min. sig. dur. S011						226 082
	0	0	254	s
	SIG_1: Min. sig. dur. S012						226 090
	0	0	254	s
	The logic “1” signal must be available for this minimum time setting so that a telegram can be sent in the Start/end signal mode.