Mitsubishi Electric PURY-(E)P-YLM-A (-BS), Installation Manual

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GB-54
WT07282X01
11-2. Function setting
Make function settings by setting the dipswitches SW4, SW6, and SWP1 on the main board.
Write down the switch settings on the electrical wiring diagram label on the front control box panel for future reference
when the control box needs to be replaced.
・
Take the following steps to make temperature unit (ºC or ºF) settings.
① Set the 10th bit of SW6 to ON.
② Set SW4 as shown in the table below to select the setting item No.921. (The setting item No. will be displayed
on LED1.)
③ Press SWP1 for two seconds or longer to change the settings. (The settings can be checked on LED3.)
Setting item
No.
SW4 0: OFF, 1: ON *
1
Setting (LED3 display) *
2
1 2 3 4 5 6 7 8 9 10 Unlit Lit
Temperature
unit setting
921 1 0 0 1 1 0 0 1 1 1 ºC ºF
*1 Make the SW4 setting after the unit is energized.
*2 This will blink while the system is starting up.
・ Make various function settings by setting SW6, referring to the table below.
Setting content
Setting
Switch setting timing
OFF ON
SW6-1 – – – –
SW6-2 – – – –
SW6-3 – – – –
SW6-4 Static pressure setting Standard static pressure High static pressure Before being energized
SW6-5 High static pressure setting 60 Pa 30 Pa Before being energized
SW6-6 – – – –
SW6-7 Low-noise mode selection Performance priority Low-noise priority Any time after being energized
SW6-8 Selection of Low-noise or Demand Low-noise (Night) Demand Before being energized
SW6-9 – – – –
SW6-10
Selection of Diagnostic display or
Function detail setting
Diagnostic display Function detail setting Any time after being energized
* Do not change the factory settings of SW5-3 through SW5-8.
* Unless otherwise specified, leave the switch to OFF where indicated by "–," which may be set to OFF for a reason.
11-3. Operation characteristics in relation to the refrigerant charge
It is important to have a clear understanding of the characteristics of refrigerant and the operation characteristics of air
conditioners before attempting to adjust the refrigerant charge in a given system.
・ During cooling operation, the amount of refrigerant in the accumulator is the smallest when all indoor units are in
operation.
・ During heating operation, the amount of refrigerant in the accumulator is the largest when all indoor units are in
operation.
・ Refrigerant undercharge creates a tendency for the discharge temperature to rise.
・ Changing the amount of refrigerant in the system while there is refrigerant in the accumulator has little effect on the
discharge temperature.
・ The higher the high pressure level, the more likely it is for the discharge temperature to rise.
・ The lower the low pressure level, the more likely it is for the discharge temperature to rise.
・ When the amount of refrigerant in the system is adequate, the compressor shell temperature is 10 to 60ºC (50 to
140ºF) higher than the low-pressure saturation temperature. If the temperature difference between the compressor
shell temperature and low-pressure saturation temperature is 5ºC (41ºF) or less, refrigerant overcharge is
suspected.