26
WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM
WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM WWW.FIELDPIECE.COM
3.3 Subcooling OUTPUT FORM
Figure 16. Subcooling Test OUTPUT FORM.
Press OUTPUT for the Subcooling OUTPUT FORM.
Target SC
(Subcooling): Indicates what the subcooling
should be from the manufacturer’s specifications. The
HVAC Guide analyzer uses a built in conservative
estimate when manufacturer’s specifications are not
available.
Actual SC
(Subcooling): Displays the subcooling calcu
-
lated from the measured liquid line temperature and
liquid line pressure.
Liquid Sat:
This is the saturation temperature of the re-
frigerant in the condenser coil. It is one of the tem-
peratures from which subcooling is calculated.
The
Actual SC
(subcooling) should be within ±3°F
of the
Target SC
for correct refrigerant charge. Tem-
peratures outside of this range indicate that you need to
make adjustments.
Adding refrigerant increases your
Actual SC
. Re-
covering refrigerant decreases your
Actual SC
. The
amount of refrigerant necessary to add or recover will
vary based on the size of the system and the difference
between the Actual and Target SC.
Because everything is interdependent, changes in one
part of the system affect other parts of the system. For ex-
ample, increasing airflow decreases the subcooling, which
may require adding refrigerant. After modifications, allow
15 minutes for the system to stabilize; and then retest.
If Target SC and Actual SC are more than
3°F apart, as in this example, you need to
make adjustments to the system.
Boiling point is used to calculate Subcooling.
Diagnostic text and sections of manual
with more information about this test.
Superheat and Subcooling FAQ
Part 2 (continued from page 21)
Q: What if my ACTUALS are far different from
my TARGETS, but the system seems to be
running properly?
A:
Many poor performing systems have actual super-
heat/subcooling measurements well outside the tar-
get. The system may be drastically overcharged or un-
dercharged. Comparing actual superheat/subcooling
readings with the manufacturer’s equipment specific
target superheat/subcooling often confirms the sys-
tem’s condition. Sometimes there is something else
wrong.
Make sure the system has been in operation for at least
15 minutes and is stable. Make sure it continues to
operate throughout the test. Take your readings in as
short of a time period as possible. Things can change,
even for a system that appears stable.
Make sure your test equipment is calibrated. Refer to
the manual of the accessory head for calibration in-
structions. Make certain the unit selected corresponds
to the reading you are taking. For superheat on ac-
cessory heads (ASX14, ASX24), make certain the large
switch on the face of the head is switched to super-
heat and small switch is in the “SH” position. Make
certain that you are testing for superheat/subcooling
at the proper location in the system. Test the evapora-
tor/suction line side of the system for superheat. Test
the condenser/high side of the system for subcooling.
If you still get readings that don’t seem right, you can
perform a manual test using your gauges, a wet sock
for wet bulb (ATWB1 wet bulb thermocouple), ther-
mometer, refrigerant chart, and manufacturer’s target
superheat chart. If it still appears your unit is reading
superheat/subcooling incorrectly, call Fieldpiece tech-
nical support.
Q: Where can I find more info on Superheat
and Subcooling?
A:
Visit www.fieldpiece.com
