Table of Contents
Advertisement
R4T........................ Thermistor (coil-deicer)
R5T........................ Thermistor (coil-outlet)
R6T........................ Thermistor (liquid-pipe receiver)
R7T........................ Thermistor (oil)
R81T-82T ............... Thermistor (coil gas)
S1NPH................... Pressure sensor (high)
S1NPL ................... Pressure sensor (low)
S1PH,3PH ............. Pressure switch (high)
T1A ........................ Current sensor (A5P,A6P)
T1R........................ Transformer
V1CP ..................... Safety devices input
V1R........................ Power module (A2P,A3P)
X1M ....................... Terminal strip (Power supply)
X1M ....................... Terminal strip (control)(A1P)
Y1E,2E,3E ............. Expansion valve (electronic type)
Y1S........................ Solenoid valve (hotgas bypass)
Y2S........................ Solenoid valve (out-multi)
Y3S........................ Solenoid valve (receiver gas intake)
Y4S........................ Solenoid valve (receiver gas purge)
Y5S........................ Solenoid valve (gas purge)
Y6S........................ Solenoid valve (liquid pipe)
Y7S........................ Solenoid valve (gas pipe)
Y8S........................ Solenoid valve (4 way valve main)
Y9S........................ Solenoid valve (4 way valve sub)
Z1C-7C .................. Noise filter (ferrite core)
Z1F ........................ Noise filter (with surge absorber)
............. Field wiring
L1,L2,L3................. Live
N ............................ Neutral
......................... Connector
........................... Wire clamp
........................ Protective earth (screw)
BLK........................ Black
BLU........................ Blue
BRN ....................... Brown
GRY ....................... Gray
ORG ...................... Orange
PNK ....................... Pink
RED ....................... Red
WHT ...................... White
YLW ....................... Yellow
NOTE
Use copper conductors only.
When using the adaptor for sequential start, refer
to
"7.4. Examples" on page
For
connection
transmission F1-F2, outdoor-indoor transmission
F1-F2, outdoor-multi transmission Q1-Q2, refer to
"7.4. Examples" on page
For connection wiring to the central remote
controller, refer to the installation manual of the
central remote controller.
Use insulated wire for the power cord.
REYQ8~16M8W1B
VRVII System air conditioner
4PW23712-1
13.
wiring
to
outdoor-outdoor
13.
7.2. Power circuit and cable requirements
A power circuit (see table below) must be provided for connection of
the unit. This circuit must be protected with the required safety
devices, i.e. a main switch, a slow blow fuse on each phase and an
earth leak detector.
Phase and
Model
frequency
REYQ8
3N~50 Hz
REYQ10
3N~50 Hz
REYQ12
3N~50 Hz
REYQ14
3N~50 Hz
REYQ16
3N~50 Hz
REYQ18
3N~50 Hz
REYQ20
3N~50 Hz
REYQ22
3N~50 Hz
REYQ24
3N~50 Hz
REYQ26
3N~50 Hz
REYQ28
3N~50 Hz
REYQ30
3N~50 Hz
REYQ32
3N~50 Hz
REYQ34
3N~50 Hz
REYQ36
3N~50 Hz
REYQ38
3N~50 Hz
REYQ40
3N~50 Hz
REYQ42
3N~50 Hz
REYQ44
3N~50 Hz
REYQ46
3N~50 Hz
REYQ48
3N~50 Hz
When using residual current operated circuit breakers, be sure to use
a high-speed type 300 mA rated residual operating current.
Be sure to install a main switch for the complete system.
NOTE
Select the power supply cable in accordance with
relevant local and national regulations.
Wire size must comply with the applicable local
and national code.
Specifications for local wiring power cord and
branch wiring are in compliance with IEC60245.
WIRE TYPE H05VV(*)
*Only in protected pipes (use H07RN-F when
protected pipes are not used).
7.3. General
Up to 3 units can be connected by crossover power source
wiring between outdoor units. However, units of smaller capacity
must be connected downstream. For details, refer to the
equipment design data and technical data.
When connecting several units in VRV+ combination, the power
supply of each outdoor unit can also be connected separately.
Refer to the field wiring on the engineering data book for further
details.
Make sure to connect the power source wire to the power
source terminal block and to clamp it as shown in
chapter "Field line connection".
As this unit is equipped with an inverter, installing a phase
advancing capacitor not only will deteriorate power factor
improvement effect, but also may cause capacitor abnormal
heating accident due to high-frequency waves. Therefore, never
install a phase advancing capacitor.
Keep power imbalance within 2% of the supply rating.
•
Large imbalance will shorten the life of the smoothing capacitor.
•
As a protective measure, the product will stop operating and an
error indication will be made, when power imbalance exceeds 4%
of the supply rating.
Follow the "electrical wiring diagram" when carrying out any
electrical wiring.
Recommended
Transmission
Voltage
fuses
line section
400 V
32 A
0.75~1.25 mm
400 V
32 A
0.75~1.25 mm
400 V
32 A
0.75~1.25 mm
400 V
50 A
0.75~1.25 mm
400 V
50 A
0.75~1.25 mm
400 V
63 A
0.75~1.25 mm
400 V
63 A
0.75~1.25 mm
400 V
63 A
0.75~1.25 mm
400 V
80 A
0.75~1.25 mm
400 V
80 A
0.75~1.25 mm
400 V
80 A
0.75~1.25 mm
400 V
100 A
0.75~1.25 mm
400 V
100 A
0.75~1.25 mm
400 V
100 A
0.75~1.25 mm
400 V
100 A
0.75~1.25 mm
400 V
100 A
0.75~1.25 mm
400 V
125 A
0.75~1.25 mm
400 V
125 A
0.75~1.25 mm
400 V
125 A
0.75~1.25 mm
400 V
125 A
0.75~1.25 mm
400 V
125 A
0.75~1.25 mm
figure
Installation manual
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
14,
12
- Quick Links:
- Technical and Electrical Specifications
Hide quick links:
Advertisement
Table of Contents
