19
3.5 Pulse processing
All impulses or analogues values at the inputs will be counted after de-
bouncing and then processed according the table below.
current last MP1
current last MP1
Energy
Input 1..16
Energy registers cumulative
total
The following registers {REG} are used for results : (see Appendix B)
For register addresses the following sub-addresses are possible:
ee = 01..16 Inputs 1..16
pp = 01..04 Total forwards 1..4 (positive)
nn = 01..04 Total backwards 1..4 (negative)
REG{100-ee} = IE
ee
×
××
× REG{30000-ee} ⁄
⁄⁄
⁄ REG{30100-ee}
Pulse inputs
Pulses
Momentary
value
100-ee 190-ee
current last MP1
Energy registers for current
250-ee 220-ee
current last MP1
REG{250-ee} = IE
ee
×
××
× REG{30000-ee} ⁄
⁄⁄
⁄ REG{30100-ee}
132-ee 162-ee
current last MP2
REG{132-ee} = {DIFF
MP2
} REG{100-ee} ×
××
× 60 ⁄
⁄⁄
⁄ MP2 for demand
REG{132-ee} = {DIFF
MP2
} REG{100-ee} for increment
+1
0
-1
+1
0
-1
Balance: 31000-04
142-pp 172-pp
current last MP2
152-nn 182-nn
current last MP2
REG{142-pp} = (
((
(
Σ
ΣΣ
Σ±
REG{132-ee} )
))
)
REG{152-nn} = (
((
(
Σ
ΣΣ
Σ±
REG{132-ee} )
))
)
Hysteresis: 29300-pp
Energy total
+1
0
-1
+1
0
-1
REG{120-nn} = (
((
(
Σ
ΣΣ
Σ±
REG{100-ee} )
))
) cum.
REG{270-nn} = (
((
(
Σ
ΣΣ
Σ±
REG{100-ee} )
))
) curr.
Backward
120-nn 210-nn
current last MP1
REG{110-pp} = (
((
(
Σ
ΣΣ
Σ±
REG{100-ee} )
))
) cumulative
REG{260-pp} = (
((
(
Σ
ΣΣ
Σ±
REG{100-ee} )
))
) current
110-pp 200-pp
current last MP1
260-pp 230-pp
current last MP1
IA
-
Pulses
Momentary
value
rate 2
rate 3
rate 4
rate 1 211-nn
121-nn
214-nn
212-nn
213-nn
124-nn
122-nn
123-nn
current last MP1
IA
+
Pulse output
Pulses
Momentary
value
current last MP1
Forward
rate 2
rate 3
rate 4
rate 1
204-pp
201-pp
202-pp
203-pp
114-pp
111-pp
112-pp
113-pp
current last MP1
rate 2
rate 3
rate 4
rate 1
234-pp
231-pp
232-pp
233-pp
264-pp
261-pp
262-pp
263-pp
270-nn 240-nn
current last MP1
current last MP1
rate 2
rate 3
rate 4
rate 1
244-pp
241-pp
242-pp
243-pp
274-pp
271-pp
272-pp
273-pp
+1
0
-1
+1
0
-1
REG{151-nn} = (
((
(
Σ
ΣΣ
Σ±
REG{131-ee} )
))
)
Balance: 31000-04
314-pp
311-pp
312-pp
313-pp
Total
rate 1
rate 2
rate 3
rate 4
Value + Time
REG{141-pp} = (
((
(
Σ
ΣΣ
Σ±
REG{131-ee} )
))
)
Forward
141-pp 171-pp
current last MP1
Backward
151-nn 181-nn
current last MP1
324-nn
321-nn
322-nn
323-nn
Maxima
Value + Time
Registration period MP2
Maxima
310-pp
320-nn
Total
rate 1
rate 2
rate 3
rate 4
Demand /
Increment
Input 1..16
Registration period MP1
131-ee 161-ee
current last MP1
REG{131-ee} = {DIFF
MP1
} REG{100-ee} ×
××
× 60 ⁄
⁄⁄
⁄ MP1 for demand
REG{131-ee} = {DIFF
MP1
} REG{100-ee} for increment
Demand /
Increment
Total 1..4
304-ee
301-ee
302-ee
303-ee
Maximum demand
Value + Time
300-ee
Total
rate 1
rate 2
rate 3
rate 4
AT
MT
AT
AT
AT
AT
AT
MT
MT
Figure 6, Block circuit diagram of impulse processing
A calculation of values for registration period Tm2/MP2 only takes
place if the parameter is set under the menu item „Registration pe-
riod“ in DLXPARA.
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