Operating information digital display, Table 18 — sensor resistance values – Carrier 50FK User Manual
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Table 18 — Sensor Resistance Values
TEMP
(F)
RESISTANCE
(Ohms)
TEMP
(F)
RESISTANCE
(Ohms)
TEMP
(F)
RESISTANCE
(Ohms)
−60
362,640
45
11,396
150
1,020
−55
297,140
50
9,950
155
929
−50
245,245
55
8,709
160
844
−45
202,841
60
7,642
165
768
−40
168,250
65
6,749
170
699
−35
139,960
70
5,944
175
640
−30
116,820
75
5,249
180
585
−25
98,420
80
4,644
185
535
−20
82,665
85
4,134
190
490
−15
69,685
90
3,671
195
449
−10
58,915
95
3,265
200
414
−5
50,284
100
2,913
205
380
0
42,765
105
2,600
210
350
5
36,475
110
2,336
215
323
10
31,216
115
2,092
220
299
15
26,786
120
1,879
225
276
20
23,164
125
1,689
230
255
25
19,978
130
1,527
235
236
30
17,276
135
1,377
240
219
35
14,980
140
1,244
40
13,085
145
1,126
3. Quick Test Steps 2.4.-3.3. — Output Relay Check
These quick test steps allow microprocessor to check
output signals from relay boards in unit control system. In ad-
dition, operation of all the condenser fans, compres-
sors, and economizer (if equipped) are checked at each step.
Normal display for Steps 2.4. through 2.8. is 1. In Steps
2.9. through 3.2., each compressor and unloader is started
and allowed to run for approximately 10 seconds. At start-
up, a 0 will appear on the display followed by a 1 (Steps
2.9. and 3.2.) in a few seconds. Steps 3.0. and 3.1. will
always be 0 since there are unloaders, and Step 3.3. will
always be zero since it is not used.
At end of the 10-second time period, a 0 will return to the
display board indicating that test step has been success-
fully completed (Steps 2.9. and 3.2.). The 1 indicates that
was tested.
Fan and compressor operating sequence for quick test
Steps 2.4. through 3.3. are shown in Table 17.
If the quick test steps do not operate as described above,
a defect exists in one or more of the following: relay being
tested, electronic control, or unit wiring. Determine problem
and correct.
OPERATING INFORMATION
Digital Display —
The VAV control system uses a 2-digit
LED display located on the display board to display opera-
tional information and diagnostic codes.
CODES 0 THROUGH 8, CAPACITY STEPS — These codes
indicate the number of cooling stages active at the time the
display button is pressed. The highest code indicated on the
display will be 6 for the 034,038 and 048-088 units, 4 for the
044 units, and 8 for the 104 units.
Capacity steps are directly related to pin terminal connec-
tor J6 output. At step zero, the unit has no mechanical cool-
ing on, and the economizer may or may not be operating
(depending on the outdoor air conditions). Once a cooling
load is detected (T1 thermistor reads above the supply-air
set point), the economizer will begin modulating to meet the
load if the outdoor enthalpy is good. As long as the outdoor-
air enthalpy is acceptable, no mechanical cooling will take
place until the economizer dampers are fully open. The rest
of the steps and the operational sequence vary due to the
number of compressors and unloaders. Refer to Operating
Sequence section on page 35 for the unit stages of operation.
CODES 20 THROUGH 30 AND 88, OPERATIONAL STA-
TUS — These codes indicate special operational modes, such
as initialization, morning warm-up, temperature reset, de-
mand limit, or an internal failure of the board. Codes 23-25
and 27-29 are not used on these units.
Initialization — When the control is turned on, the display
20
shows a
for approximately 2 minutes to indicate that the
control is in the initialization mode. During this time, the
economizer dampers open and close to determine the resis-
tance range of the economizer position potentiometer (P2)
for full economizer operation. The processor loads the nec-
essary constants for proper unit operation and checks the ther-
mistors and other potentiometers for their values and valid-
ity. After the initialization period, the display screen goes
blank until the display button is pressed. If the display but-
ton is pressed during the 2-minute initialization period, the
control goes into the Quick Test mode.
Temperature Reset — If the unit is equipped with the ac-
cessory temperature reset package, and DIP switch 2 is in
the ON position, the unit will reset the supply-air tempera-
ture to a calculated value when necessary. When this con-
21
dition is in effect, a
will appear in the display.
Demand Limit — If the unit is equipped with the accessory
demand limit control module or the field-supplied, single-
step demand limit potentiometer, and DIP switch 5 is in the
ON position, the unit will limit the capacity stages to a pre-
22
determined value. When this condition is in effect, a
will
appear in the display.
Morning Warm-Up —If the morning warm-up heat routine
is enabled using DIP switch 4, and conditions of the occu-
pied space warrant, the unit will begin the morning warm-up
26
routine. When this condition is in effect, a
will appear
in the display.
Internal Failure — If the unit detects an internal fault (such
as a time measurement failure), or detects an incorrect volt-
30
age on an input channel, a
will be displayed, and the
unit will shut down.
Quick Test — If the display button is pressed during the
initialization period of the processor, the unit will run its self-
88
diagnostic routine. When this is in effect, an
will appear
in the display screen.
CODES 51 THROUGH 87, DIAGNOSTIC INFORMA-
TION — These codes indicate diagnostic information when
there is a unit problem such as a faulty thermistor, potenti-
ometer, or compressor fault. Refer to Diagnostic Codes sec-
tion on page 45 for more details. Codes 53, 54, 57, 58, 61,
62, 65-69, 73, 74, and 77-80 are not used on these units.
Under normal operation, only the stage number is dis-
played when the display button is pressed. If a status or over-
load code is displayed, the display will rotate every 2 sec-
onds and will display up to 3 codes. Overload information
takes priority over all other codes. The codes are stored in
the microprocessor as long as the board remains energized.
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