Two-point operation
with two relays
This mode of operation is achieved by setting the hysteresis of the two relays (operating
on the same channel) such that:
•
minimum level/ hysteresis = maximum level/volume
•
maximum level/volume - hysteresis = minimum level/volume
Relay 1 is set for maximum and relay 2 for minimum fail-safe mode in the same channel.
•
When the level drops below the minimum relay 2 de-energises, relay 1
energises
•
When the level rises above the maximum relay 1 de-energises, relay 2
energises.
Step Matrix Entry Significance
1
V5H4
1
Assign relay 2 to output 1
2
-
»E«
Register entry
3
V1H0
e.g. 1800 Switch point, relay 1 = 1800
4
-
»E«
Register entry
5
V1H1
1
Maximum fail-safe mode
6
-
»E«
Register entry
7
V1H2
e.g. 1600
Hysteresis = 1600, the relay energises again at 200
8
-
»E«
Register entry
9
V5H0
e.g. 200
Switch point, relay 2 = 200
10
-
»E«
Register entry
11
V5H1
0
Minimum fail-safe mode
12
-
»E«
Register entry
13
V5H2
e.g. 1600
Hysteresis = 1600, the relay energises again at 1800
14
-
»E«
Register entry
Switch point 1
e.g. 1800
Hysteresis
e.g. 1600
Switch point 2
e.g. 200
Relay 1
Maximum fail-safe
energised
de-energised
energised
Relay 2
Minimum fail-safe
de-energised
de-energised
Relay 1 =
max. fail-safe
Relay 2 =
min fail safe
BA053E37
z22 d24 z24
z22 d24 z24
z22 d24 z24
energised
z18 d20 z20
z18 d20 z20
z18 d20 z20
Fig. 7.3:
Pump control with two pumps
Silometer FMC 672 Z/677 Z
Chapter 7: Limit Switches
40
Содержание Silometer FMC 672 Z
Страница 6: ...Silometer FMC 672 Z 677 Z Notes on Safety 4...
Страница 59: ...Silometer FMC 672 Z 677 Z Operating matrix...
Страница 62: ...Silometer FMC 672 Z 677 Z Operating matrix...
Страница 63: ...Silometer FMC 672 Z 677 Z Operating matrix...
