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SiBE12-519
Control Specification
Function and Control
55
For Cooling Only Model
1. Determine command frequency
Command frequency will be determined in the following order of priority.
1.1 Limiting frequency by drooping function
Input current, discharge pipes, freeze prevention, dew prevention, fin thermistor
temperature.
1.2 Indoor frequency command
2. Determine upper limit frequency
Set a minimum value as an upper limit frequency among the frequency upper limits of the
following functions:
Compressor protection, input current, discharge pipes, freeze prevention, dew prevention,
fin thermistor temperature.
3. Determine lower limit frequency
Set a maximum value as an lower limit frequency among the frequency lower limits of the
following functions:
Pressure difference upkeep.
4. Determine prohibited frequency
There is a certain prohibited frequency such as a power supply frequency.
Indoor Frequency Command (
∆
D signal)
The difference between a room temperature and the temperature set by the remote controller
will be taken as the “
∆
D signal” and is used for frequency command.
∗
Th OFF = Thermostat OFF
Indoor Unit Capacity (S value)
The capacity of the indoor unit is a “S” value and is used for frequency command.
Frequency Initial Setting
< Outline >
When starting the compressor, or when conditions are varied due to the change of the operating
room, the frequency must be initialized according to the total of a maximum
∆
D value of each
room and a total value of Q (
Σ
Q) of the operating room (the room in which the thermostat is set
to ON).
Q value: Indoor unit output determined from indoor unit volume, air flow rate and other factors.
PI Control
(Determine Frequency Up/Down by
∆
D Signal)
1. P control
Calculate a total of the
∆
D value in each sampling time (20 seconds), and adjust the
frequency according to its difference from the frequency previously calculated.
2. I control
If the operating frequency is not change more than a certain fixed time, adjust the frequency
up and down according to the
Σ∆
D value, obtaining the fixed
Σ∆
D value.
When the
Σ∆
D value is small...lower the frequency.
When the
Σ∆
D value is large...increase the frequency.
Temperature
difference
∆
D
signal
Temperature
difference
∆
D
signal
Temperature
difference
∆
D
signal
Temperature
difference
∆
D
signal
0
∗
Th
OFF
2.0
4
4.0
8
6.0
C
0.5
1
2.5
5
4.5
9
6.5
D
1.0
2
3.0
6
5.0
A
7.0
E
1.5
3
3.5
7
5.5
B
7.5
F
ex.)
Capacity
S value
2.5 kW
25
3.5 kW
35
Summary of Contents for 2MKS40DVMB
Page 10: ...SiBE12 519 List of Functions 1 Part 1 List of Functions 1 Cooling Only 2 2 Heat Pump 4 ...
Page 15: ...Heat Pump SiBE12 519 6 List of Functions ...
Page 29: ...Heat Pump SiBE12 519 20 Specifications ...
Page 135: ...Instruction SiBE12 519 126 System Configuration ...
Page 211: ...Outdoor Unit SiBE12 519 202 Removal Procedure ...