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Head Pressure Control
-
The microprocessor con-
trols the condenser fans in order to maintain the lowest con-
densing temperature possible, thus the highest unit efficiency.
Instead of using the conventional head pressure control meth-
ods, the fans are controlled by the position of the EXV and
suction superheat.
As the condensing temperature drops, the EXV opens to
maintain the proper suction superheat. Once the EXV is
fully open, if the condensing temperature continues to drop,
the suction superheat begins to rise. Once the suction super-
heat is greater than 40 F (22.2 C), a fan stage is removed
after 2 minutes,
As the condensing temperature rises, the EXV closes to
maintain the proper suction superheat. Once the EXV has
closed to 39.5% open (300 steps open), a fan stage is added
after 2 minutes.
During start-up, all the condenser fans are started when
the condensing temperature reaches 95 F (35 C) to prevent
excessive discharge pressure during pulldown. See Table 5
for condenser fan sequence of operation.
Table 5
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Condenser Fan Sequence
FAN ARRANGEMENT FAN NUMBER(S)
FAN CONTACTOR
WI
CONTROLLED BY
30GN040-050
I I
1
FC-Al
2
FC-Bi
3
FC-A2
Compressor Al
Compressor Bl
First Stage
Microprocessor
4
FGB2
I
Second Stage
MicrODrOceSSOr
30GN060,070
I
FC-Al
I
Compressor Al
Compressor Bi
First Stage
Microprocessor
5
6
FGB2
Second Stage
Microprocessor
30GN080,090
FC-Al
Compressor Al
Compressor Bi
30GNl00,110 (and associated modular units)
1
FC-Al
Compressor Al
2 FC-81
Compressor Bl
3 FC-A2
First Stage
4
F&B2 Microprocessor
5,
7,
6, 8
FC-AS, FGB3
Second Stage
Compressor
30GN130-170
(and associated modular units)
WWER
3, 4, 5, 6, 7, a FC-A2,
FC-A3
,
Third Stage
FGB2, FC-B3 Microprocessor
5 7
FC-Al Compressor Al
6,
8
FC-Bl Compressor Bl
.
-_----
FC-A2, FC-A3
30GN190,210
(and associated modular units)
5,
7 I
FC-Al
I
Compressor Al
I
6. 8
I
FC-Bi
I
Comwessor Bl
3,
9
FC-A2
Frist Stage
4,
10
FC-B2
Microprocessor
1,
3, 9, 11 FC-A2,
FGA3
Second Stage
2, 4, 10, 12
FGB2,
FC-B3
Microprocessor
*Control box.
26