FORM 150.24-NM27
YORK INTERNATIONAL
59
If this message is incorrect, see the SELECTION OF
RETURN OR LEAVING CHILLED LIQUID CONTROL
section (Page 50) for instructions to reprogram the Mi-
croprocessor Dip Switch S1, Switch #4.
The display will then scroll to a second message & hold:
This message will display the users Design Leaving
Water temperature (LWT) Setpoint (44.0°F in the sam-
ple above). Even though return water temperature con-
trol is being utilized, the object is to provide constant
design leaving water temperature. It is the Design Leav-
ing Water Temperature Setpoint (LWT) which
must
be
programmed into the microprocessor.
Also included in this message is the CONTROL RANGE
(CR). The CONTROL RANGE is the temperature range
which loading/unloading will take place. The lower limit
of the CONTROL RANGE is always equal to the setpoint
and automatically appears when the setpoint is keyed
in. The upper limit of the CR must be programmed.
In the above sample message, with a CR = 44.0 to 54.0
°F, the chiller will be completely off at a
return
water
temperature of 44.0°F and fully loaded at a
return
water
temperature of 54.0°F. Partial loading will occur in equal
temperature intervals between 44° and 54°. Unloading
will occur as return temperature drops below 54°F with
the chiller cycling completely off at 44°F. These tem-
peratures provide a Control Range differential of 54.0 -
44.0 = 10.0°F.
Once the upper limit of the CR is programmed, the CON-
TROL RANGE (CR) differential
Must Always
equal the
actual water temperature drop (
∆
T) across the evapora-
tor with the chiller completely loaded. Keep this in mind
when programming the high end of the CR. In many cases,
due to improper flows, actual temperature drop occurs
across the evaporator (
∆
T) will not equal design. For
proper operation, adjust flow as needed or program the
CONTROL RANGE as needed. However accomplished,
the CONTROL RANGE differential
Must
equal the evapo-
rator temperature drop when fully loaded or leaving water
temperatures well above or well below the desired
setpoint will result.
To program the Chilled Liquid Setpoints, press the
CHILLED LIQUID TEMP/RANGE key. The display will
first exhibit a message that
RETURN WATER TEMP
CONTROL
is
selected and 3 seconds later automat-
ically scroll to the next display of LWT and CR. The cur-
sor will stop at the first digit of LWT. Key in the Design
Leaving Water Temperature (LWT) that is required in
the system. See the following:
Design Leaving
Water Temperature
After the Design Leaving Water Temperature (LWT) is
keyed in, the lower limit of the CR (Control Range) in the
display message will automatically change to a value
identical to the LWT. See below:
The lower limit of the CR will
always automatically equal LWT.
The cursor will advance to the final entry which is the
upper limit of the CR (Control Range). This value
must
be programmed to equal the design LWT plus the CR
differential (
∆
T across the evaporator fully loaded). In the
above examples it would be 44.0 + 10.0 = 54.0°F.
Key in the upper limit of the CR and press ENTER. Oth-
erwise the new values will not be entered into memory.
After pressing the ENTER key, the display will continue
to show the LWT and Control Range message until an-
other key is pressed.
The micro will accept a range of programmable LWT val-
ues from 10.0 - 70.0°F (See SWITCH 1 , Page 38). It
will also accept a value for the upper limit of the CR of 4
- 20°F above the LWT Setpoint.
If brine or glycol is used in the system, chilled liquid
temperatures below 40°F may be desired. To program
setpoints below 40°F, Dip Switch S1, Switch #1 on the
Microprocessor Board must be properly programmed.
(See Page 37, Fig. 15). If the switch is incorrect, when
setpoints below 40°F are entered as well as when unac-
ceptable values are entered, the following message will
be displayed.
Loading and unloading occurs in defined increments
throughout the Control Range, according to the differ-
ence between return water temperature and the LWT
setpoint. Loading is limited by a 60 second timer, while
unloading is not.
L W T =
4 4 . 0
F
C R =
4 4 . 0
T O
5 4 . 0
F
L W T =
4 4 . 0
F
C R =
4 4 . 0
T O
5 4 . 0
F
L W T =
4 4 . 0
F
C R =
4 4 . 0
T O
5 4 . 0
F
O U T
O F
R A N G E
T R Y
A G A I N !
Summary of Contents for YCWJ45EE0
Page 29: ...FORM 150 24 NM27 YORK INTERNATIONAL 29 CONTROL CIRCUIT With I O Expansion Board LD02106...
Page 30: ...30 YORK INTERNATIONAL FIG 9 SYSTEM WIRING...
Page 31: ...FORM 150 24 NM27 YORK INTERNATIONAL 31 LD02678...
Page 35: ...FORM 150 24 NM27 YORK INTERNATIONAL 35 LD02679...
Page 36: ...36 YORK INTERNATIONAL MICROPANEL CONNECTION DIAGRAM With I O Expansion Board LD02107...
Page 37: ...FORM 150 24 NM27 YORK INTERNATIONAL 37 LD02108...