Mitsubishi EHST20C-VM2C, EHST20C-VM6C, EHST20C-YM9C, EHST20C-TM9C, EHST20C-VM2EC Service Manual
...
SERVICE MANUAL
CONTENTS
1. REFERENCE MANUAL
...................................
2
2. SAFETY PRECAUTION
...................................
3
3. SPECIFICATIONS
............................................
6
4. PART NAMES AND FUNCTIONS
..................
7
5. OUTLINES AND DIMENSIONS
.......................
8
6. WIRING DIAGRAM
........................................
10
7. FIELD WIRING
...............................................
17
8. WATER SYSTEM DIAGRAM
.........................
21
9. CONTROLS
...................................................
25
10. TROUBLESHOOTING
...................................
45
11. DISASSEMBLY PROCEDURE
......................
61
12. SUPPLEMENTARY INFORMATION
.............
84
13. SERVICE AND MAINTENANCE
...................
85
Note:
• This manual describes
only service data of cylinder unit.
• RoHS compliant products
have <G> mark on the
spec name plate.
R410A
PARTS CATALOG (OCB570)
CYLINDER UNIT
December 2014
CYLINDER UNIT
No. OCH570
[Model name]
EHST20C-VM2C
EHST20C-VM6C
EHST20C-YM9C
EHST20C-TM9C
EHST20C-VM2EC
EHST20C-VM6EC
EHST20C-YM9EC
EHST20C-MHCW
EHST20C-MEC
EHST20D-VM2C
EHST20D-MHCW
EHST20D-MEC
EHST20D-MHC
EHPT20X-VM2C
EHPT20X-VM6C
EHPT20X-YM9C
EHPT20X-TM9C
EHPT20X-MHCW
[Service Ref.]
EHST20C-VM2C.UK
EHST20C-VM6C.UK
EHST20C-YM9C.UK
EHST20C-TM9C.UK
EHST20C-VM2EC.UK
EHST20C-VM6EC.UK
EHST20C-YM9EC.UK
EHST20C-MHCW.UK
EHST20C-MEC.UK
EHST20D-VM2C.UK
EHST20D-MHCW.UK
EHST20D-MEC.UK
EHST20D-MHC.UK
EHPT20X-VM2C.UK
EHPT20X-VM6C.UK
EHPT20X-YM9C.UK
EHPT20X-TM9C.UK
EHPT20X-MHCW.UK
MAIN REMOTE
CONTROLLER
2
REFERENCE MANUAL
1
OUTDOOR UNIT'S SERVICE MANUAL
Service Ref. Service Manual No.
PUHZ-W50/85VHA(-BS)
OCH439
PUHZ-W50/85VHAR1(-BS)
PUHZ-W50VHAR2(-BS)
PUHZ-W50VHAR3(-BS)
PUHZ-W85VHA2-BS.UK
OCH465
PUHZ-W85VHA2(R1)-BS.UK
PUHZ-W112VHA(-BS) OCH562
PUHZ-HW112/140YHA(-BS)
OCH439
PUHZ-HW112/140YHA2(-BS)
PUHZ-HW112/140YHA2R1(-BS)
PUHZ-HW112/140YHA2R3(-BS)
PUHZ-HW112/140YHA2R4(-BS)
PUHZ-HW140VHA(-BS)
PUHZ-HW140VHA2(-BS)
PUHZ-HW140VHA2R1(-BS)
PUHZ-HW140VHA2R2-BS
PUHZ-HW140VHA2R3(-BS)
PUHZ-HW140VHA2R4(-BS)
PUHZ-SW40/50VHA(-BS)
OCH525
PUHZ-SW40/50VHAR1(-BS)
PUHZ-SW75/100/120VHA(-BS)
OCH533PUHZ-SW100/120YHA(-BS)
PUHZ-SW100/120YHAR1(-BS)
PUHZ-SHW80/112VHA
OCH526
PUHZ-SHW80/112VHAR2(-BS).UK
PUHZ-SWH112/140YHA(R1)
PUHZ-SWH112/140YHAR2(-BS).UK
PUHZ-FRP71VHA OCH544
SUHZ-SW45VA(H).TH
OCH557
SUHZ-SW45VA(H)R1.TH
OCH570
3
SAFETY PRECAUTION
2
Please read the following safety precautions carefully.
WARNING:
Precautions that must be observed to prevent injuries or death.
CAUTION:
Precautions that must be observed to prevent damage to unit.
This installation manual along with the user manual should be left with the product after installation for future reference.
Mitsubishi Electric is not responsible for the failure of locally-supplied parts.
• Besuretoperformperiodicalmaintenance.
• Besuretofollowyourlocalregulations.
• Besuretofollowtheinstructionsprovidedinthismanual.
WARNING
Mechanical
The cylinder unit and outdoor unit must not be installed, disassembled, relocated, altered or repaired by the user. Ask an authorised installer or technician. If
the unit is installed improperly or modied after installation by the user water leakage, electric shock or re may result.
The outdoor unit should be securely xed to a hard level surface capable of bearing its weight.
The cylinder unit should be positioned on a hard level surface capable of supporting its lled weight to prevent excessive sound or vibration.
Do not position furniture or electrical appliances below the outdoor unit or cylinder unit.
The discharge pipework from the emergency devices of the cylinder unit should be installed according to local law.
Only use accessories and replacement parts authorised by Mitsubishi Electric ask a qualied technician to t the parts.
Electrical
All electrical work should be performed by a qualied technician according to local regulations and the instructions given in this manual.
The units must be powered by a dedicated power supply and the correct voltage and circuit breakers must be used.
Wiring should be in accordance with national wiring regulations. Connections must be made securely and without tension on the terminals.
Earth unit correctly.
General
Keep children and pets away from both the cylinder unit and outdoor unit.
Do not use the hot water produced by the heat pump directly for drinking or cooking. This could cause illness to the user.
Do not stand on the units.
Do not touch switches with wet hands.
Annual maintenance checks on both the cylinder unit and the outdoor unit should be conducted by a qualied person.
Do not place containers with liquids on top of the cylinder unit. If they leak or spill onto the cylinder unit damage to the unit and/or re could occur.
Do not place any heavy items on top of the cylinder unit.
When installing, relocating, or servicing the cylinder unit, use only the specied refrigerant (R410A) to charge the refrigerant lines. Do not mix it with any other
refrigerant and do not allow air to remain in the lines. If air is mixed with the refrigerant, then it can be the cause of abnormal high pressure in the refrigerant
line, and may result in an explosion and other hazards.
The use of any refrigerant other than that specied for the system will cause mechanical failure or system malfunction or unit breakdown. In the worst case, this
could lead to a serious impediment to securing product safety.
In heating mode, to avoid the heat emitters being damaged by excessively hot water, set the target ow temperature to a minimum of 2ºC below the maximum
allowable temperature of all the heat emitters. For Zone2, set the target ow temperature to a minimum of 5ºC below the maximum allowable ow temperature
of all the heat emitters in Zone2 circuit.
CAUTION
Use clean water that meets local quality standards on the primary circuit.
The outdoor unit should be installed in an area with sufcient airow according to the diagrams in the outdoor unit installation manual.
The cylinder unit should be located inside to minimise heat loss.
Water pipe-runs on the primary circuit between outdoor and indoor unit should be kept to a minimum to reduce heat loss.
Ensure condensate from outdoor unit is piped away from the base to avoid puddles of water.
Remove as much air as possible from the primary and DHW circuits.
Refrigerant leakage may cause suffocation. Provide ventilation in accordance with EN378-1.
Be sure to wrap insulation around the piping. Direct contact with the bare piping may result in burns or frostbite.
Never put batteries in your mouth for any reason to avoid accidental ingestion.
Battery ingestion may cause choking and/or poisoning.
Install the unit on a rigid structure to prevent excessive sound or vibration during operation.
Do not transport the cylinder unit with water inside the DHW tank. This could cause damage to the unit.
If power to the cylinder unit is to be turned off (or system switched off) for a long time, the water should be drained.
If unused for a long period, before operation is resumed, DHW tank should be ushed through with potable water.
Preventative measures should be taken against water hammer, such as installing a Water Hammer Arrestor on the primary water circuit, as directed by the man-
ufacturer.
As for the handling of refrigerant, refer to the outdoor unit installation manual.
OCH570
4
WARNING (SPLIT MODELS ONLY)
Do not discharge refrigerant into the atmosphere if refrigerant leaks during installation, ventilate the room.
Use appropriate tools for high pressure refrigerant.
When pumping down refrigerant , stop the compressor before disconnecting the refrigerant pipes.
During installation securely fasten the refrigerant pipes before starting the compressor.
Check that refrigerant gas does not leak after the completion of installation.
Use R410A refrigerant only. Do not allow air to enter the lines. Failure to observe these instructions will cause mechanical failure, system failure or, in the worst
case, serious breach of product safety.
CAUTION (SPLIT MODELS ONLY)
<Using R410A refrigerant heat pumps>
Use C1220 copper phosphorus, for copper and copper alloy seamless pipes, to connect the refrigerant pipes. Make sure the insides of the pipes are clean and
do not contain any harmful contaminants such as sulfuric compounds, oxidants, debris, or dust. Use pipes with the specied thickness. (Refer to section 4.4 in
the installation manual.) Note the following if reusing existing pipes that carried R22 refrigerant.
- Replace the existing are nuts and are the ared sections again.
- Do not use thin pipes. (Refer to section 4.4 in the installation manual.)
Store the pipes to be used during installation indoors and keep both ends of the pipes sealed until just before brazing. (Leave elbow joints, etc. in their packaging.) If dust, debris, or moisture enters the refrigerant lines, oil deterioration or compressor breakdown may result.
Use ester oil, ether oil, alkylbenzene oil (small amount) as the refrigeration oil applied to the ared sections. If mineral oil is mixed in the refrigeration oil, oil dete-
rioration may result.
Do not use refrigerant other than R410A refrigerant. If another refrigerant is used, the chlorine will cause the oil to deteriorate.
Use the following tools specically designed for use with R410A refrigerant. The following tools are necessary to use R410A refrigerant. Contact your nearest
dealer for any questions.
Tools (for R410A)
Gauge manifold Flare tool
Charge hose Size adjustment gauge
Gas leak detector Vacuum pump adapter
Torque wrench Electronic refrigerant charging scale
Be sure to use the correct tools. If dust, debris, or moisture enters the refrigerant lines, refrigeration oil deterioration may result.
Do not use a charging cylinder, a cylindrical measuring container, when charging R410A refrigerant gas. If the refrigerant gas is transferred to a charging cylinder,
the composition of the refrigerant will change and system efciency will be reduced.
OCH570
Gravimeter
Unit
5
[1] Cautions for service
(1) Perform service after recovering the refrigerant left in unit completely.
(2) Do not release refrigerant in the air.
(3) After completing service, charge the cycle with specified amount of refrigerant.
(4) When performing service, install a filter drier simultaneously.
Be sure to use a filter drier for new refrigerant.
[2] Additional refrigerant charge
When charging directly from refrigerant cylinder
· Check that cylinder for R410A on the market is syphon type.
· Charging should be performed with the
refrigerant
cylinder of syphon stood vertically. (Refrigerant is charged from liquid
phase.)
[3] Service tools
Use the service tools below as exclusive tools for R410A refrigerant.
No. Tool name Specifications
1
Gauge manifold
· Only for R410A
· Use the existing fitting
specifications
. (UNF1/2)
· Use high-tension side pressure of 5.3 MPa·G or over.
2
Charge hose
· Only for R410A
· Use pressure performance of 5.09 MPa·G or over.
3
Electronic scale
—
4
Gas leak detector · Use the detector for R134a, R407C or R410A
5
Adaptor for reverse flow check · Attach on vacuum pump.
6
Refrigerant charge base
—
7
Refrigerant cylinder
· Only for R410A ·Top of cylinder (Pink)
· Cylinder with syphon
8
Refrigerant recovery equipment
—
OCH570
6
SPECIFICATIONS
3
Model name
EHST20C-
VM2C
EHST20C-
VM6C
EHST20C-
YM9C
EHST20C-
TM9C
EHST20C-
VM2EC
EHST20C-
VM6EC
EHST20C-
YM9EC
EHST20C-
MEC
EHST20D-
VM2C
EHST20D-
MEC
EHST20D-
MHC
EHPT20X-
VM2C
EHPT20X-
VM6C
EHPT20X-
YM9C
EHPT20X-
TM9C
EHPT20X-
MHCW
EHST20C-
MHCW
EHST20D-
MHCW
Nominal domestic hot water volume 200L
Overall unit dimensions 1600 × 595 × 680 mm (Height × Width × Depth)
Weight (empty) 110 kg 111 kg 112 kg 112 kg 104 kg 105 kg 106 kg 103 kg 103 kg 96 kg 103 kg 98 kg 99 kg 100 kg 100 kg 98 kg 110 kg 103 kg
Weight (full) 320 kg 321 kg 322 kg 322 kg 314 kg 315 kg 316 kg 313 kg 312 kg 305 kg 312 kg 307 kg 308 kg 309 kg 309 kg 307 kg 320 kg 312 kg
Plate heat exchanger (MWA2)
— — — — — — — — —
Plate heat exchanger (MWA1) — — — — — — — —
— — — — — —
Unvented expansion
vessel(Primary heating)
Nominal volume 12 L — — -— — 12 L — 12 L
Charge pressure 1 bar — — — — 1 bar — 1 bar
Safety
device
Water
circuit
(Primary)
Control
thermistor
Heating 1 - 80°C
Pressure relief valve 0.3 MPa (3bar)
Flow sensor Min ow 5.0 L/min
Booster
heater
Manual reset thermostat 90°C — 90°C — — 90°C — — —
Thermal Cut-out (for dry run prevention) 121°C — 121°C — — 121°C — — —
DHW
tank
Control thermistor 40 - 70°C
Temperature and pressure relief valve/
Pressure relief valve
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
1.0 MPa
(10 bar)
90°C/
0.7 MPa
(7 bar)
90°C/
0.7 MPa
(7 bar)
90°C/
0.7 MPa
(7 bar)
Primary circuit circulating Pump Grundfos UPM2 15 70 - 130
Sanitary circuit circulating Pump Grundfos UPSO 15-60 130 CIL2
Connections
Water 28mm compression primary circuit/ 22mm compression DHW circuit
Refrigerant
(R410A)
Liquid 9.52 mm 9.52 mm 9.52 mm 9.52 mm 9.52 mm 9.52 mm 9.52 mm 9.52 mm 6.35 mm 6.35 mm 6.35 mm
— — — — —
9.52 mm 6.35 mm
Gas 15.88 mm 15.88 mm 15.88 mm 15.88 mm 15.88 mm 15.88 mm 15.88 mm 15.88 mm 12.7 mm 12.7 mm 12.7 mm 15.88 mm 12.7 mm
Target tempera-
ture range
Flow tem-
perature
Heating 25 - 60°C
Cooling —
Room tem-
perature
Heating 10 - 30 °C
Cooling —
Guaranteed
operating range
Ambient *1 0 - 35°C (
80 %RH)
Outdoor
temperature
Heating See outdoor unit spec table.
Cooling —
DHW tank
performance
Maximum allowable hot water temperature
70°C *4 70°C *4 70°C
Time to raise DHW tank temp 15 - 65 °C *2
22.75 mins
Time to reheat 70% of DHW tank to 65 °C *2
17.17 mins
Electrical data
Control
board
Power supply
(Phase, voltage, frequency)
~/N, 230 V, 50 Hz
Breaker (*when powered
from independent source)
10A
Booster
heater
Power supply
(Phase, voltage, frequency)
~/N, 230 V,
50 Hz
~/N, 230 V,
50 Hz
3~, 400 V,
50 Hz
3~, 230 V,
50 Hz
~/N, 230 V,
50 Hz
~/N, 230 V,
50 Hz
3~, 400 V,
50 Hz
—
~/N, 230 V,
50 Hz
— —
~/N, 230 V,
50 Hz
~/N, 230 V,
50 Hz
3~, 400 V,
50 Hz
3~, 230 V,
50 Hz
— — —
Capacity 2kW
2kW+
4kW
3kW+
6kW
3kW+
6kW
2kW
2kW+
4kW
3kW+
6kW
— 2kW — — 2kW
2kW+
4kW
3kW+
6kW
3kW+
6kW
—
— —
Current 9 A 26 A 13A 23A 9 A 26 A 13A — 9 A — — 9 A 26 A 13A 23A —
— —
Breaker 16 A 32 A 16A 32A 16 A 32 A 16A — 16 A — — 16 A 32 A 16A 32A —
— —
Immersion
heater*3
Power supply
(Phase, voltage, frequency)
—
~/N, 230 V,
50 Hz
—
~/N, 230 V,
50 Hz
Capacity — 3kW — 3kW
Current — 13A — 13A
Breaker — 16A — 16A
Sound level 28dBA
Optional extras
●
Wireless Remote Controller PAR-WT50R-E
●
Remote Sensor PAC-SE41TS-E *1 The environment must be frost-free.
●
Wireless Receiver PAR-WR51R-E
●
Thermistor PAC-TH011-E *2 Tested under BS7206 conditions.
●
Immersion heater (1Ph 3kW) PAC-IH03V2-E
●
High temperature thermistor PAC-TH011HT-E *3 Do not t immersion heaters without thermal cut-out.
●
EHPT Accessories for UK PAC-WK01UK-E
●
ecodan Wi-Fi Interface PAC-WF010-E *4 For the model without both booster heater and immersion heater, the maximum allowable hot water temperature is [Maximum outlet water of outdoor unit - 3°C]
For the maximum outlet water of outdoor unit, refer to outdoor unit data book.
OCH570
7
PART NAMES AND FUNCTIONS
4
21
B
A
<EH*T20*-MHCW>
(UK split / packaged model system)
7
4
12
<EHPT20X-*M**C*>
(Packaged model system)
<EHST20*-*M**C*>
(Split model system)
<EHST20*-*M**C>
(Split model system)
<Note>
For installation of EHST20*-*M*EC
model, make sure to install a primary side expansion vessel in the field. (See
figure 4.3.1 in the installation manual.)
No. Part name
EHST20C-
VM2C
EHST20C-
*M6/9 C
EHST20C-
*M*EC
EHST20*-
MEC
EHST20D-
VM2C
EHST20D-
MHC
EHPT20X-
VM2C
EHPT20X-
*M6/9 C
EHPT20X-
MHCW
EHST20*-
MHCW
A DHW outlet pipe
B Cold water inlet pipe
C Water pipe (Space heating return connection)
D Water pipe (Space heating ow connection)
E Water pipe (Flow from heat pump connection) — — — — — — —
F Water pipe (Return to heat pump connection) — — — — — —
—
G Refrigerant pipe (Gas)
— — —
H Refrigerant pipe (Liquid) — — —
1 Control and electrical box
2 Main controller
3 Plate heat exchanger (Refrigerant - Water) — — —
4 Booster heater 1,2 — — — —
5 3-way valve
6 Manual air vent
7 Drain cock (Primary circuit)
8 Manometer
9 Pressure relief valve (3bar)
10 Automatic air vent
11 Expansion vessel — —
12 Flow sensor
13 Strainer valve
14 Water circulation pump 1 (Primary circuit)
15 Pump valve
16 DHW tank
17 Plate heat exchanger (Water - Water)
18 Scale trap
19 Water circulation pump (Sanitary circuit)
20 Immersion heater — — — — — — —
21 Temperature and pressure relief valve — — — — — — — —
22 Pressure relief valve (10bar) (DHW Tank) — —
23 Drain cock (DHW tank)
24 Drain cock (Sanitary circuit)
25 Flow water temp. thermistor (THW1)
26 Return water temp. thermistor (THW2)
27 DHW tank water temp. thermistor (THW5)
28 Refrigerant liquid temp. thermistor (TH2) — — —
29 Outdoor unit — — — — — — — — — —
30 Drain pipe (Local supply) — — — — — — — — — —
31 Back ow prevention device (Local supply) — — — — — — — — — —
32 Isolating valve (Local supply) — — — — — — — — — —
33 Magnetic lter (Local supply) (Recommended) — — — — — — — — — —
34 Strainer (Local supply) — — — — — — — — — —
35 Inlet control group *1 — — — — — — — — — —
36
Filling loop (Ball valves, check valves and exible hose) *1
— — — — — — — — — —
37 Potable expansion vessel *1 — — — — — — — — — —
*1 Supplied with UK model ONLY. Please refer to PAC-WK01UK-E Installation Manual for more information on accessories.
<EH*T20*-MHCW>
(UK split/packaged model system)
<EHPT20X-*M**C*>
(Packaged model system)
22
A
B
10
9
11
1
5
6
19
18
12
20
23
17
24
7
15
D
8
2
16
4
13
3
14
C
E/H
F/G
<Table 4-1>
<Figure 4-1>
OCH570
8
OUTLINES AND DIMENSIONS
5
<Unit: mm>
J
A
C
D
B
F/G
E/H
470.7
510.7
0
67.8
522.3
462.3
402.3
342.3
88.3
0
46.7
136.7
114.2
91.7
69.2
0
42.1
552.7
470.7
0
G1/2
83 427
30413
118
680
CPF 15mm
595
100 ± 20
449
1600
595
1600
449
J
A
B
D
C
F/G
E/H
46.7
136.7
114.2
91.7
69.2
0
67.8
522.3
462.3
402.3
342.3
127.8
0
552.7
542
0
470.7
510.7
0
680
100 ± 20
120 ± 20
G1/2
G1/2
118
123
Letter Pipe description Connection size/type
A DHW outlet connection 22 mm/Compression
B Cold water inlet connection 22 mm/Compression
C Space heating return connection 28 mm/Compression
D Space heating ow connection 28 mm/Compression
E Flow from heat pump connection (No plate heat exchanger) 28 mm/Compression
F Return to heat pump connection (No plate heat exchanger) 28 mm/Compression
G
Refrigerant (GAS)
(With plate heat exchanger)
12.7 mm/Flare (EHST20D-*)
15.88 mm/Flare (EHST20C-*)
H
Refrigerant (LIQUID)
(With plate heat exchanger)
6.35 mm/Flare (EHST20D-*)
9.52 mm/Flare (EHST20C-*)
J
Electrical cable inlets
For inlets , and , run low-voltage wires including external input wires and ther-
mistor wires. For inlets
and , run high-voltage wires including power cable, indoor-
outdoor cable, and external output wires.
*For a wireless receiver (option) cable and ecodan Wi-Fi interface (option) cable, use inlet .
<Left side> <Front> <Right side>
<Top>
Air vent
Main controller
Pressure relief valve
(Primary circuit)
Terminal block
Front panel
Temperature and
pressure relief valve
and it's access plate
<EH*T20*-*M**C>
<EH*T20*-MHCW>
Pressure relief valve
(Sanitary circuit)
Pressure relief valve
(Primary circuit)
Main controller
Terminal block
<Left side> <Front>
<Right side>
<Top>
Air vent
Front panel
5-1. Technical Drawings
OCH570
9
a
b b
d
Service access
5-2. Service access diagrams
Service access
Parameter Dimension (mm)
a 300
b 150
c
(distance behind unit not visible
in the right gure)
10
d 500
Sufcient space MUST be left for the provision of discharge pipework as detailed
in National and Local Building Regulations.
The cylinder unit must be located indoors and in a frost-free environment, for
example in a utility room, to minimise heat loss from stored water.
OCH570
1
3
5
7
X6
X7
1
3
1
3
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
NL
S3S2S1
NL
S3S2S1
To outdoor
unit
TB1
ORN
ORN
YLW
YLW
GRN/YLW
To outdoor
unit
Power supply
~/N 230V 50Hz
TB1
ORN
BLU
RED
BLU
RED
YLW
GRN/YLW
1
3
CN3C
(BLU)
BLK
BLK
BLK
BLK
1
3
ORN
BRN
CN3C
(BLU)
ORN
ORN
BRN
YLW
Indoor unit powered
by independent source
Indoor unit powered
via outdoor unit
CIRCUIT
BREAKER
1
3
CN3C
(BLU)
1
3
CNPWM
(WHT)
LED1
LED2
LED3
LED4
TBI.1
TBI.2
1310 12 141174 65 932 811310 12 141174 65 932 811310 12 141174 65 932 81
IN6
IN1
IN2
IN3
IN4
IN5
IN7
THW8
THW7
THW6
THW9
THWB1
THWB2
t°t°t°t°t°t
°
Main
controller
1
+
-+-+-
2
1
2
CN20
(RED)
TH1
t
°
1
3
CN21
(YLW)
TH2
t
°
1
4
THW1
THW2
CNW12
(RED)
t°t
°
1
2
THW5
CNW5
(WHT)
t
°
CN108
5
1
Wireless receiver
(Option)
WiFi adapter
(Option)
5
1
5
1
CNRF
(WHT)
CN105
(RED)
CN22
(BLU)
1
5
Close
Open
N
X15
X12
TBO.3
TBO.2
TBO.1
F1
F2
MXV
M
1
~
MP2
MP1
M
1
~
CNV1
(WHT)
X11
X10
X4
X14
X3
X2
X1
X5B
X5A
1
2
3
4
5
6
7
8
1
2
3
4
5
6
1
2
3
4
5
6
1
1
3
3
3
CNP1
(WHT)
CNP4
(RED)
CNPWM
(WHT)
TBO.1
TBO.2
TBO.3
TBO.4
CNP1
(WHT)
CNP4
(RED)
CNV1
(WHT)
CN22
(BLU)
CNIT
(BLU)
TAB1
CN01
(WHT)
F2 F1
6.3A 250V 10A 250V
SW1
SW2
SW3
SW4
SW5
1
8
1
8
1
1
5
1
3
1
3
8
1
8
1
6
CN01
(WHT)
CN01
(WHT)
2
1
4
6
2
1
1
2
4
6
4
6
CNBH
(WHT)
CNBC
(GRY)
1
1
3
1
2
1
2
1
2
CNBHT
(BLK)
1
3
7
1
3
CNIH
(ORN)
1
4
1
3
CNW5
(WHT)
CN21
(YLW)
CNW12
(RED)
CN20
(RED)
TBI.2
MP3
M
1
~
IN8
IN9
IN10
TBI.3
TBI.3
1
4
CN1A
(WHT)
TBI.1
2WV2b
M
1
~
M
1
~
MP4
M
1
~
1
3
L
(1)N(3)
ORN
RED
BLU
BLU
RED
ORN
IHC
IHT
IH
642
531
A1
A2
A B
2
4
Immersion heater (1Ph3kW)(Option)
Power supply
to Immersion heater
~/N 230V 50Hz
1
2
CNIH
(ORN)
3
3WV
M
1
~
Signal output
(Boiler)
Signal output
(Error)
Signal output
(Defrost)
Signal output
(Comp ON)
ECB2
1
2
4
6
CN01
(WHT)
WHT
WHT
2 2
2
ECB1
L
(1)N(3)
BHCP
BLU
BLU
RED
WHT/No.2
WHT/No.1
RED
VLT
VLT
GRY
GRY
BHC1
BHT
642
531
A1
A2
BH1
BHF
2
4
Power supply
to Booster heater
642
531
A1
A2
CNBH
(WHT)
CNBHT
(BLK)
2
2
2
CNBC
(GRY)
1
1
3
3
1
3
~/N 230V 50Hz
1
2
3
4
5
6
TBO.4
M
2WV2a
1
3
X9
X8
X13
CNIH
(ORN)
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
12 146 108
137 11945321
12 146 108
137 11945321
12 146 108
137 11945321
Tool
Tool
Conductor
Conductor
Outline view Top view
<How to use TBO.1 to 4>
Connect them using either way as shown below.
10
6 WIRING DIAGRAM
1. Symbols used in wiring diagram are, : connector, : terminal
block.
2. Indoor unit and outdoor unit connecting wires have polarities, make sure
to match terminal numbers (S1, S2, S3) for correct wirings,
3. Since the outdoor unit side electric wiring may change, be sure to check
the outdoor unit electric wiring diagram for service.
Table 1 Signal Inputs
Name
Terminal block
Connector
Item OFF (Open) ON (Short)
IN1 TBI.1 13-14 — Room thermostat 1 input Refer to SW2-1 in <6-7. DIP switch setting>.
IN2 TBI.1 11-12 — Flow switch 1 input Refer to SW2-2 in <6-7. DIP switch setting>.
IN3 TBI.1 9-10 — Flow switch 2 input (Zone1) Refer to SW3-2 in <6-7. DIP switch setting>.
IN4 TBI.1 7-8 — Demand control input Normal
Heat source OFF/ Boiler operation *2
IN5 TBI.1 5-6 —
Outdoor thermostat input *1
Standard operation
Heater operation/ Boiler operation *2
IN6 TBI.1 3-4 — Room thermostat 2 input Refer to SW3-1 in <6-7. DIP switch setting>.
IN7 TBI.1 1-2 — Flow switch 3 input (Zone2) Refer to SW3-3 in <6-7. DIP switch setting>.
IN8 TBI.3 1-2 — Electric energy meter 1
Refer to <6-7. DIP switch setting>.IN9 TBI.3 3-4 — Electric energy meter 2
IN10
TBI.3 5-6 — Heat meter
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related
parts may be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen
in the service menu.
Table 2 Outputs
Name
Terminal block
Connector
Item OFF ON
OUT1
TBO.1 1-2 CNP1 Water circulation pump 1 output (Space heating & DHW) OFF ON
OUT2
TBO.1 3-4 — Water circulation pump 2 output (Space heating for Zone1) OFF ON
OUT3
TBO.1 5-6 —
Water circulation pump 3 output (Space heating for Zone2)
*1
OFF ON
2-way valve 2b output *2
OUT4
TBO.2 4-6 CNV1 3-way valve output Heating DHW
OUT5
TBO.2 1-2
— Mixing valve output *1 Stop
Close
TBO.2 2-3 Open
OUT6
—
CNBH 1-3
Booster heater 1 output OFF ON
OUT7
—
CNBH 5-7
Booster heater 2 output OFF ON
OUT9
TBO.4 3-4 CNIH Immersion heater output OFF ON
OUT10
TBO.3 1-2 — Boiler output OFF ON
OUT11
TBO.3 3-4 — Error output Normal Error
OUT12
TBO.3 5-6 — Defrost output Normal Defrost
OUT13
TBO.4 1-2 — 2-way valve 2a output *2 OFF ON
OUT14
— CNP4 Water circulation pump 4 output (DHW) OFF ON
OUT15
TBO.3 7-8 — Comp ON signal OFF ON
Do not connect to the terminals that are indicated as “—” in the “Terminal block” eld.
*1. For 2-zone temperature control.
*2. For 2-zone valve ON/OFF control.
6-1. EHST20C-VM2C, EHST20C-VM2EC, EHST20D-VM2C, EHPT20X-VM2C
Symbol Name
TB1 Terminal block <Power supply, Outdoor unit>
ECB1
Earth leakage circuit breaker for booster heater
ECB2
Earth leakage circuit breaker for immersion heater
MP1
Water circulation pump 1(Space heating & DHW)
MP2
Water circulation pump 2 (Space heating for Zone1)(Local supply)
MP3
Water circulation pump 3 (Space heating for Zone2)(Local supply)
MP4 Water circulation pump 4 (DHW)
3WV 3-way valve
2WV2a 2-way valve (For Zone 1)(Local supply)
2WV2b 2-way valve (For Zone 2)(Local supply)
MXV Mixing valve (Local supply)
BHT Thermostat for booster heater
BHF Thermal fuse for booster heater
BH1 Booster heater 1
BHC1 Contactor for booster heater 1
BHCP Contactor for booster heater protection
IHT Thermostat (xed temp.) for immersion heater
IH Immersion heater
IHC Contactor for immersion heater
Symbol Name
TH1 Thermistor (Room temp.)(Option)
TH2 Thermistor (Ref. liquid temp.)
THW1 Thermistor (Flow water temp.)
THW2 Thermistor (Return water temp.)
THW5 Thermistor (DHW tank water temp.)
THW6 Thermistor (Zone1 ow temp.)(Option)
THW7 Thermistor (Zone1 return temp.)(Option)
THW8 Thermistor (Zone2 ow temp.)(Option)
THW9 Thermistor (Zone2 return temp.)(Option)
THWB1 Thermistor (Boiler ow temp.)(Option)
THWB2 Thermistor (Boiler return temp.)(Option)
IN1 Room thermostat 1 (Local supply)
IN2 Flow switch 1 (Local supply)
IN3 Flow switch 2 (Local supply)
IN4 Demand control (Local supply)
IN5 Outdoor thermostat (Local supply)
IN6 Room thermostat 2 (Local supply)
IN7 Flow switch 3 (Local supply)
IN8 Electric energy meter 1 (Local supply)
IN9 Electric energy meter 2 (Local supply)
IN10 Heat meter (Local supply)
FLOW TEMP. CONTROLLER (FTC5)
TBO.1-4
Terminal block <Outputs>
TBI.1-3 Terminal block <Signal Inputs, Thermistor>
F1 Fuse (T10AL250V)
F2 Fuse (T6.3AL250V)
SW1-5 DIP switch *See 6-7. DIP switch setting.
X1-15 Relay
LED1 Power supply (FTC5)
LED2 Power supply (Main controller)
LED3 Communication (FTC5-Outdoor unit)
LED4 Reading or writing data to SD card
CNPWM
Pump speed control signal for MP1
CN108 SD card connector
OCH570
WHT
WHT
2 2 2
2
ECB1
L
(1)N(3)
BHCP
BLU
BLU
BLU
REDRED
BLU/No.3
WHT/No.2
WHT/No.1
BLU/No.4
RED
VLT
VLT
PNK
PNK
GRY
GRY
BHC2
BHC1
BHT
642
531
A1
A2
642
531
A1
A2
BH1
BHF
BH2
2
4
Power supply
to Booster heater
642
531
A1
A2
CNBH
(WHT)
CNBHT
(BLK)
2
2
2
2
CNBC
(GRY)
1
1
3
5
7
3
1
3
~/N 230V 50Hz
1
3
5
7
X6
X7
1
3
1
3
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
NL
S3S2S1
NL
S3S2S1
To outdoor
unit
TB1
ORN
ORN
YLW
YLW
GRN/YLW
To outdoor
unit
Power supply
~/N 230V 50Hz
TB1
ORN
BLU
RED
BLU
RED
YLW
GRN/YLW
1
3
CN3C
(BLU)
BLK
BLK
BLK
BLK
1
3
ORN
BRN
CN3C
(BLU)
ORN
ORN
BRN
YLW
Indoor unit powered
by independent source
Indoor unit powered
via outdoor unit
CIRCUIT
BREAKER
1
3
CN3C
(BLU)
1
3
CNPWM
(WHT)
LED1
LED2
LED3
LED4
TBI.1
TBI.2
1310 12 141174 65 932 811310 12 141174 65 932 811310 12 141174 65 932 81
IN6
IN1
IN2
IN3
IN4
IN5
IN7
THW8
THW7
THW6
THW9
THWB1
THWB2
t°t°t°t°t°t
°
Main
controller
1
+
-+-+-
2
1
2
CN20
(RED)
TH1
t
°
1
3
CN21
(YLW)
TH2
t
°
1
4
THW1
THW2
CNW12
(RED)
t°t
°
1
2
THW5
CNW5
(WHT)
t
°
CN108
5
1
Wireless receiver
(Option)
WiFi adapter
(Option)
5
1
5
1
CNRF
(WHT)
CN105
(RED)
CN22
(BLU)
1
2
3
4
5
6
1
5
Close
Open
N
TBO.4
TBO.2
TBO.1
F1
F2
M
2WV2a
MXV
M
1
~
MP2
MP1
M
1
~
1
3
CNV1
(WHT)
X9
X8
X13
X4
X14
X3
X2
X1
X5B
X5A
1
2
3
4
5
6
1
2
3
4
5
6
1
1
3
3
3
CNP1
(WHT)
CNP4
(RED)
CNPWM
(WHT)
TBO.1
TBO.2
TBO.3
TBO.4
CNP1
(WHT)
CNP4
(RED)
CNV1
(WHT)
CN22
(BLU)
CNIT
(BLU)
TAB1
CN01
(WHT)
F2 F1
6.3A 250V 10A 250V
SW1
SW2
SW3
SW4
SW5
1
8
1
8
1
1
5
1
3
1
3
8
1
8
1
6
CN01
(WHT)
CN01
(WHT)
2
1
4
6
2
1
1
2
4
6
4
6
CNBH
(WHT)
CNBC
(GRY)
1
1
3
1
2
1
2
1
2
CNBHT
(BLK)
1
3
7
1
3
CNIH
(ORN)
1
4
1
3
CNW5
(WHT)
CN21
(YLW)
CNW12
(RED)
CN20
(RED)
TBI.2
CNIH
(ORN)
MP3
M
1
~
IN8
IN9
IN10
TBI.3
TBI.3
1
4
CN1A
(WHT)
TBI.1
2WV2b
M
1
~
M
1
~
MP4
M
1
~
1
3
L
(1)N(3)
ORN
RED
BLU
BLU
RED
ORN
IHC
IHT
IH
642
531
A1
A2
A B
2
4
Immersion heater (1Ph3kW)(Option)
Power supply
to Immersion heater
~/N 230V 50Hz
1
2
CNIH
(ORN)
3
3WV
M
1
~
ECB2
1
2
4
6
CN01
(WHT)
Tool
Tool
Conductor
Conductor
Outline view Top view
<How to use TBO.1 to 4>
Connect them using either way as shown below.
X15
X12
TBO.3
X11
X10
1
2
3
4
5
6
7
8
Signal output
(Boiler)
Signal output
(Error)
Signal output
(Defrost)
Signal output
(Comp ON)
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
12 146 108
137 11945321
12 146 108
137 11945321
12 146 108
137 11945321
11
6-2. EHST20C-VM6C, EHST20C-VM6EC, EHPT20X-VM6C
Table 1 Signal Inputs
Name
Terminal block
Connector
Item OFF (Open) ON (Short)
IN1 TBI.1 13-14 — Room thermostat 1 input Refer to SW2-1 in <6-7. DIP switch setting>.
IN2 TBI.1 11-12 — Flow switch 1 input Refer to SW2-2 in <6-7. DIP switch setting>.
IN3 TBI.1 9-10 — Flow switch 2 input (Zone1) Refer to SW3-2 in <6-7. DIP switch setting>.
IN4 TBI.1 7-8 — Demand control input Normal
Heat source OFF/ Boiler operation *2
IN5 TBI.1 5-6 — Outdoor thermostat input *1
Standard operation
Heater operation/ Boiler operation *2
IN6 TBI.1 3-4 — Room thermostat 2 input Refer to SW3-1 in <6-7. DIP switch setting>.
IN7 TBI.1 1-2 — Flow switch 3 input (Zone2) Refer to SW3-3 in <6-7. DIP switch setting>.
IN8 TBI.3 1-2 — Electric energy meter 1
Refer to <6-7. DIP switch setting>.IN9 TBI.3 3-4 — Electric energy meter 2
IN10
TBI.3 5-6 — Heat meter
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related parts
may be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen in
the service menu.
Table 2 Outputs
Name
Terminal block
Connector
Item OFF ON
OUT1
TBO.1 1-2 CNP1 Water circulation pump 1 output (Space heating & DHW) OFF ON
OUT2
TBO.1 3-4 — Water circulation pump 2 output (Space heating for Zone1) OFF ON
OUT3
TBO.1 5-6 —
Water circulation pump 3 output (Space heating for Zone2) *1
OFF ON
2-way valve 2b output *2
OUT4
TBO.2 4-6 CNV1 3-way valve output Heating DHW
OUT5
TBO.2 1-2
— Mixing valve output *1 Stop
Close
TBO.2 2-3 Open
OUT6
—
CNBH 1-3
Booster heater 1 output OFF ON
OUT7
—
CNBH 5-7
Booster heater 2 output OFF ON
OUT9
TBO.4 3-4 CNIH Immersion heater output OFF ON
OUT10
TBO.3 1-2 — Boiler output OFF ON
OUT11
TBO.3 3-4 — Error output Normal Error
OUT12
TBO.3 5-6 — Defrost output Normal Defrost
OUT13
TBO.4 1-2 — 2-way valve 2a output *2 OFF ON
OUT14
— CNP4 Water circulation pump 4 output (DHW) OFF ON
OUT15
TBO.3 7-8 — Comp ON signal OFF ON
Do not connect to the terminals that are indicated as “—” in the “Terminal block” eld.
*1. For 2-zone temperature control.
*2. For 2-zone valve ON/OFF control.
1. Symbols used in wiring diagram are, : connector, : terminal
block.
2. Indoor unit and outdoor unit connecting wires have polarities, make sure
to match terminal numbers (S1, S2, S3) for correct wirings,
3. Since the outdoor unit side electric wiring may change, be sure to check
the outdoor unit electric wiring diagram for service.
Symbol Name
TB1 Terminal block <Power supply, Outdoor unit>
ECB1
Earth leakage circuit breaker for booster heater
ECB2
Earth leakage circuit breaker for immersion heater
MP1
Water circulation pump 1(Space heating & DHW)
MP2
Water circulation pump 2 (Space heating for Zone1)(Local supply)
MP3
Water circulation pump 3 (Space heating for Zone2)(Local supply)
MP4 Water circulation pump 4 (DHW)
3WV 3-way valve
2WV2a 2-way valve (For Zone 1)(Local supply)
2WV2b 2-way valve (For Zone 2)(Local supply)
MXV Mixing valve (Local supply)
BHT Thermostat for booster heater
BHF Thermal fuse for booster heater
BH1 Booster heater 1
BH2 Booster heater 2
BHC1 Contactor for booster heater 1
BHC2 Contactor for booster heater 2
BHCP Contactor for booster heater protection
IHT Thermostat (xed temp.) for immersion heater
IH Immersion heater
IHC Contactor for immersion heater
Symbol Name
TH1 Thermistor (Room temp.)(Option)
TH2 Thermistor (Ref. liquid temp.)
THW1 Thermistor (Flow water temp.)
THW2 Thermistor (Return water temp.)
THW5 Thermistor (DHW tank water temp.)
THW6 Thermistor (Zone1 ow temp.)(Option)
THW7 Thermistor (Zone1 return temp.)(Option)
THW8 Thermistor (Zone2 ow temp.)(Option)
THW9 Thermistor (Zone2 return temp.)(Option)
THWB1 Thermistor (Boiler ow temp.)(Option)
THWB2 Thermistor (Boiler return temp.)(Option)
IN1 Room thermostat 1 (Local supply)
IN2 Flow switch 1 (Local supply)
IN3 Flow switch 2 (Local supply)
IN4 Demand control (Local supply)
IN5 Outdoor thermostat (Local supply)
IN6 Room thermostat 2 (Local supply)
IN7 Flow switch 3 (Local supply)
IN8 Electric energy meter 1 (Local supply)
IN9 Electric energy meter 2 (Local supply)
IN10 Heat meter (Local supply)
FLOW TEMP. CONTROLLER (FTC5)
TBO.1-4
Terminal block <Outputs>
TBI.1-3 Terminal block <Signal Inputs, Thermistor>
F1 Fuse (T10AL250V)
F2 Fuse (T6.3AL250V)
SW1-5 DIP switch *See 6-7. DIP switch setting.
X1-15 Relay
LED1 Power supply (FTC5)
LED2 Power supply (Main controller)
LED3 Communication (FTC5-Outdoor unit)
LED4 Reading or writing data to SD card
CNPWM
Pump speed control signal for MP1
CN108 SD card connector
OCH570
NL
S3S2S1
NL
S3S2S1
To outdoor
unit
TB1
ORN
ORN
YLW
YLW
GRN/YLW
To outdoor
unit
Power supply
~/N 230V 50Hz
TB1
ORN
BLU
RED
BLU
RED
YLW
GRN/YLW
1
3
CN3C
(BLU)
BLK
BLK
BLK
BLK
1
3
ORN
BRN
CN3C
(BLU)
ORN
ORN
BRN
YLW
Indoor unit powered
by independent source
Indoor unit powered
via outdoor unit
CIRCUIT
BREAKER
1
3
CN3C
(BLU)
1
3
CNPWM
(WHT)
LED1
LED2
LED3
LED4
CN108
5
1
Wireless receiver
(Option)
WiFi adapter
(Option)
5
1
5
1
CNRF
(WHT)
CN105
(RED)
1
2
3
4
5
6
1
3
5
7
1
5
Close
Open
N
X6
X15
X12
X7
TBO.4
TBO.3
TBO.2
TBO.1
F1
F2
M
2WV2a
MXV
M
1
~
MP2
MP1
M
1
~
1
3
1
3
CNV1
(WHT)
1
3
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
X11
X9
X8
X13
X10
X4
X14
X3
X2
X1
X5B
X5A
1
2
3
4
5
6
7
8
1
2
3
4
5
6
1
2
3
4
5
6
1
1
3
3
3
CNP1
(WHT)
CNP4
(RED)
CNPWM
(WHT)
TBO.1
TBO.2
TBO.3
TBO.4
CNP1
(WHT)
CNP4
(RED)
CNV1
(WHT)
CN22
(BLU)
CNIT
(BLU)
CN01
(WHT)
F2 F1
6.3A 250V 10A 250V
SW1
SW2
SW3
SW4
SW5
1
8
1
8
1
1
5
1
3
1
3
8
1
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
8
1
6
CN01
(WHT)
CN01
(WHT)
2
1
4
6
2
1
1
2
4
6
4
6
CNBH
(WHT)
CNBC
(GRY)
1
1
3
1
2
1
2
1
2
CNBHT
(BLK)
1
3
7
1
3
CNIH
(ORN)
1
4
1
3
CNW5
(WHT)
CN21
(YLW)
CNW12
(RED)
CN20
(RED)
TBI.2
CNIH
(ORN)
MP3
M
1
~
2 2 2
L2
(3)L1(1)L3(5)
BHCP
BLK
BLK
WHT
WHTWHT
BLK
REDRED
BLU/No.4
WHT/No.2
WHT/No.3
WHT/No.1
BLU/No.5
BLU/No.6
RED
VLT
VLT
PNK
PNK
WHT
WHT
GRY
GRY
BHC2
BHC1
BHT
642
531
A1
A2
642
531
A1
A2
BH1
BHF
BH2
2
4 6
Power supply
to Booster heater
642
531
A1
A2
CNBH
(WHT)
CNBHT
(BLK)
2
2
2
2
2
CNBC
(GRY)
1
1
3
5
7
3
1
3
3~ 400V 50Hz
TBI.3
1
4
CN1A
(WHT)
TBI.1
2WV2b
M
1
~
M
1
~
MP4
M
1
~
1
3
L
(1)N(3)
ORN
RED
BLU
BLU
RED
ORN
IHC
IHT
IH
642
531
A1
A2
A B
2
4
Immersion heater (1Ph3kW)(Option)
Power supply
to Immersion heater
~/N 230V 50Hz
1
2
CNIH
(ORN)
3
Signal output
(Boiler)
Signal output
(Error)
Signal output
(Defrost)
Signal output
(Comp ON)
ECB1
ECB2
1
2
4
6
CN01
(WHT)
3WV
M
1
~
12 146 108
137 11945321
12 146 108
137 11945321
12 146 108
137 11945321
TBI.1
TBI.2
1310 12 141174 65 932 811310 12 141174 65 932 811310 12 141174 65 932 81
IN6
IN1
IN2
IN3
IN4
IN5
IN7
THW8
THW7
THW6
THW9
THWB1
THWB2
t°t°t°t°t°t
°
Main
controller
1
+
-+-+-
2
1
2
CN20
(RED)
TH1
t
°
1
3
CN21
(YLW)
TH2
t
°
1
4
THW1
THW2
CNW12
(RED)
t°t
°
1
2
THW5
CNW5
(WHT)
t
°
CN22
(BLU)
TAB1
IN8
IN9
IN10
TBI.3
Tool
Tool
Conductor
Conductor
Outline view Top view
<How to use TBO.1 to 4>
Connect them using either way as shown below.
12
6-3. EHST20C-YM9C, EHST20C-YM9EC, EHPT20X-YM9C
1. Symbols used in wiring diagram are, : connector, : terminal
block.
2. Indoor unit and outdoor unit connecting wires have polarities, make sure
to match terminal numbers (S1, S2, S3) for correct wirings,
3. Since the outdoor unit side electric wiring may change, be sure to check
the outdoor unit electric wiring diagram for service.
Table 1 Signal Inputs
Name
Terminal block
Connector
Item OFF (Open) ON (Short)
IN1 TBI.1 13-14 — Room thermostat 1 input Refer to SW2-1 in <6-7. DIP switch setting>.
IN2 TBI.1 11-12 — Flow switch 1 input Refer to SW2-2 in <6-7. DIP switch setting>.
IN3 TBI.1 9-10 — Flow switch 2 input (Zone1) Refer to SW3-2 in <6-7. DIP switch setting>.
IN4 TBI.1 7-8 — Demand control input Normal
Heat source OFF/ Boiler operation *2
IN5 TBI.1 5-6 — Outdoor thermostat input *1 Standard operation
Heater operation/ Boiler operation *2
IN6 TBI.1 3-4 — Room thermostat 2 input Refer to SW3-1 in <6-7. DIP switch setting>.
IN7 TBI.1 1-2 — Flow switch 3 input (Zone2) Refer to SW3-3 in <6-7. DIP switch setting>.
IN8 TBI.3 1-2 — Electric energy meter 1
Refer to <6-7. DIP switch setting>.IN9 TBI.3 3-4 — Electric energy meter 2
IN10
TBI.3 5-6 — Heat meter
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related parts
may be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen in
the service menu.
Table 2 Outputs
Name
Terminal block
Connector
Item OFF ON
OUT1
TBO.1 1-2 CNP1 Water circulation pump 1 output (Space heating & DHW) OFF ON
OUT2
TBO.1 3-4 — Water circulation pump 2 output (Space heating for Zone1) OFF ON
OUT3
TBO.1 5-6 —
Water circulation pump 3 output (Space heating for Zone2) *1
OFF ON
2-way valve 2b output *2
OUT4
TBO.2 4-6 CNV1 3-way valve output Heating DHW
OUT5
TBO.2 1-2
— Mixing valve output *1 Stop
Close
TBO.2 2-3 Open
OUT6
—
CNBH 1-3
Booster heater 1 output OFF ON
OUT7
—
CNBH 5-7
Booster heater 2 output OFF ON
OUT9
TBO.4 3-4 CNIH Immersion heater output OFF ON
OUT10
TBO.3 1-2 — Boiler output OFF ON
OUT11
TBO.3 3-4 — Error output Normal Error
OUT12
TBO.3 5-6 — Defrost output Normal Defrost
OUT13
TBO.4 1-2 — 2-way valve 2a output *2 OFF ON
OUT14
— CNP4 Water circulation pump 4 output (DHW) OFF ON
OUT15
TBO.3 7-8 — Comp ON signal OFF ON
Do not connect to the terminals that are indicated as “—” in the “Terminal block” eld.
*1. For 2-zone temperature control.
*2. For 2-zone valve ON/OFF control.
Symbol Name
TB1 Terminal block <Power supply, Outdoor unit>
ECB1
Earth leakage circuit breaker for booster heater
ECB2
Earth leakage circuit breaker for immersion heater
MP1
Water circulation pump 1(Space heating & DHW)
MP2
Water circulation pump 2 (Space heating for Zone1)(Local supply)
MP3
Water circulation pump 3 (Space heating for Zone2)(Local supply)
MP4 Water circulation pump 4 (DHW)
3WV 3-way valve
2WV2a 2-way valve (For Zone 1)(Local supply)
2WV2b 2-way valve (For Zone 2)(Local supply)
MXV Mixing valve (Local supply)
BHT Thermostat for booster heater
BHF Thermal fuse for booster heater
BH1 Booster heater 1
BH2 Booster heater 2
BHC1 Contactor for booster heater 1
BHC2 Contactor for booster heater 2
BHCP Contactor for booster heater protection
IHT Thermostat (xed temp.) for immersion heater
IH Immersion heater
IHC Contactor for immersion heater
Symbol Name
TH1 Thermistor (Room temp.)(Option)
TH2 Thermistor (Ref. liquid temp.)
THW1 Thermistor (Flow water temp.)
THW2 Thermistor (Return water temp.)
THW5 Thermistor (DHW tank water temp.)
THW6 Thermistor (Zone1 ow temp.)(Option)
THW7 Thermistor (Zone1 return temp.)(Option)
THW8 Thermistor (Zone2 ow temp.)(Option)
THW9 Thermistor (Zone2 return temp.)(Option)
THWB1 Thermistor (Boiler ow temp.)(Option)
THWB2 Thermistor (Boiler return temp.)(Option)
IN1 Room thermostat 1 (Local supply)
IN2 Flow switch 1 (Local supply)
IN3 Flow switch 2 (Local supply)
IN4 Demand control (Local supply)
IN5 Outdoor thermostat (Local supply)
IN6 Room thermostat 2 (Local supply)
IN7 Flow switch 3 (Local supply)
IN8 Electric energy meter 1 (Local supply)
IN9 Electric energy meter 2 (Local supply)
IN10 Heat meter (Local supply)
FLOW TEMP. CONTROLLER (FTC5)
TBO.1-4
Terminal block <Outputs>
TBI.1-3 Terminal block <Signal Inputs, Thermistor>
F1 Fuse (T10AL250V)
F2 Fuse (T6.3AL250V)
SW1-5 DIP switch *See 6-7. DIP switch setting.
X1-15 Relay
LED1 Power supply (FTC5)
LED2 Power supply (Main controller)
LED3 Communication (FTC5-Outdoor unit)
LED4 Reading or writing data to SD card
CNPWM
Pump speed control signal for MP1
CN108 SD card connector
OCH570
2 2 2
ECB1
L2
(3)L1(1)L3(5)
BHCP
BLK
BLK
WHT
WHTWHT
BLK
REDRED
BLU/No.4
WHT/No.2
WHT/No.3
WHT/No.1
BLU/No.5
BLU/No.6
RED
VLT
VLT
PNK
PNK
GRY
GRY
BHC2
BHC1
BHT
642
531
A1
A2
642
531
A1
A2
BH1
BHF
BH2
2
4
6
Power supply
to Booster heater
642
531
A1
A2
2
2
2
2
2
1
1
3
5
7
3
1
3
3~ 230V 50Hz
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
WHT
WHT
1
3
5
7
X6
X7
1
3
1
3
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
NL
S3S2S1
NL
S3S2S1
To outdoor
unit
TB1
ORN
ORN
YLW
YLW
GRN/YLW
To outdoor
unit
Power supply
~/N 230V 50Hz
TB1
ORN
BLU
RED
BLU
RED
YLW
GRN/YLW
1
3
CN3C
(BLU)
BLK
BLK
BLK
BLK
1
3
ORN
BRN
CN3C
(BLU)
ORN
ORN
BRN
YLW
Indoor unit powered
by independent source
Indoor unit powered
via outdoor unit
CIRCUIT
BREAKER
1
3
CN3C
(BLU)
1
3
CNPWM
(WHT)
LED1
LED2
LED3
LED4
TBI.1
TBI.2
1310 12 141174 65 932 811310 12 141174 65 932 811310 12 141174 65 932 81
IN6
IN1
IN2
IN3
IN4
IN5
IN7
THW8
THW7
THW6
THW9
THWB1
THWB2
t°t°t°t°t°t
°
Main
controller
1
+
-+-+-
2
1
2
CN20
(RED)
TH1
t
°
1
3
CN21
(YLW)
TH2
t
°
1
4
THW1
THW2
CNW12
(RED)
t°t
°
1
2
THW5
CNW5
(WHT)
t
°
CN108
5
1
Wireless receiver
(Option)
WiFi adapter
(Option)
5
1
5
1
CNRF
(WHT)
CN105
(RED)
CN22
(BLU)
1
5
Close
Open
N
TBO.2
TBO.1
F1
F2
MXV
M
1
~
MP2
MP1
M
1
~
CNV1
(WHT)
X4
X14
X3
X2
X1
X5B
X5A
1
2
3
4
5
6
1
2
3
4
5
6
1
1
3
3
3
CNP1
(WHT)
CNP4
(RED)
CNPWM
(WHT)
TBO.1
TBO.2
TBO.3
TBO.4
CNP1
(WHT)
CNP4
(RED)
CNV1
(WHT)
CN22
(BLU)
CNIT
(BLU)
TAB1
CN01
(WHT)
F2 F1
6.3A 250V 10A 250V
SW1
SW2
SW3
SW4
SW5
1
8
1
8
1
1
5
1
3
1
3
8
1
8
1
6
CN01
(WHT)
CN01
(WHT)
2
1
4
6
2
1
1
2
4
6
4
6
CNBH
(WHT)
CNBC
(GRY)
1
1
3
1
2
1
2
1
2
CNBHT
(BLK)
1
3
7
1
3
CNIH
(ORN)
1
4
1
3
CNW5
(WHT)
CN21
(YLW)
CNW12
(RED)
CN20
(RED)
TBI.2
MP3
M
1
~
IN8
IN9
IN10
TBI.3
TBI.3
1
4
CN1A
(WHT)
TBI.1
2WV2b
M
1
~
M
1
~
MP4
M
1
~
1
3
L
(1)N(3)
ORN
RED
BLU
BLU
RED
ORN
IHC
IHT
IH
642
531
A1
A2
A B
2
4
Immersion heater (1Ph3kW)(Option)
Power supply
to Immersion heater
~/N 230V 50Hz
1
2
CNIH
(ORN)
3
3WV
M
1
~
ECB2
1
2
4
6
CN01
(WHT)
Tool
Tool
Conductor
Conductor
Outline view Top view
<How to use TBO.1 to 4>
Connect them using either way as shown below.
X15
X12
TBO.3
X11
X10
1
2
3
4
5
6
7
8
Signal output
(Boiler)
Signal output
(Error)
Signal output
(Defrost)
Signal output
(Comp ON)
1
2
3
4
5
6
TBO.4
M
2WV2a
1
3
X9
X8
X13
CNIH
(ORN)
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
12 146 108
137 11945321
12 146 108
137 11945321
12 146 108
137 11945321
13
6-4. EHST20C-TM9C, EHPT20X-TM9C
Table 1 Signal Inputs
Name
Terminal block
Connector
Item OFF (Open) ON (Short)
IN1 TBI.1 13-14 — Room thermostat 1 input Refer to SW2-1 in <6-7. DIP switch setting>.
IN2 TBI.1 11-12 — Flow switch 1 input Refer to SW2-2 in <6-7. DIP switch setting>.
IN3 TBI.1 9-10 — Flow switch 2 input (Zone1) Refer to SW3-2 in <6-7. DIP switch setting>.
IN4 TBI.1 7-8 — Demand control input Normal Heat source OFF/ Boiler operation *2
IN5 TBI.1 5-6 — Outdoor thermostat input *1 Standard operation Heater operation/ Boiler operation *2
IN6 TBI.1 3-4 — Room thermostat 2 input Refer to SW3-1 in <6-7. DIP switch setting>.
IN7 TBI.1 1-2 — Flow switch 3 input (Zone2) Refer to SW3-3 in <6-7. DIP switch setting>.
IN8 TBI.3 1-2 — Electric energy meter 1
Refer to <6-7. DIP switch setting>.IN9 TBI.3 3-4 — Electric energy meter 2
IN10
TBI.3 5-6 — Heat meter
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related parts may
be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen in the
service menu.
Table 2 Outputs
Name
Terminal block
Connector
Item OFF ON
OUT1
TBO.1 1-2 CNP1 Water circulation pump 1 output (Space heating & DHW) OFF ON
OUT2
TBO.1 3-4 — Water circulation pump 2 output (Space heating for Zone1) OFF ON
OUT3
TBO.1 5-6 —
Water circulation pump 3 output (Space heating for Zone2) *1
OFF ON
2-way valve 2b output *2
OUT4
TBO.2 4-6 CNV1 3-way valve output Heating DHW
OUT5
TBO.2 1-2
— Mixing valve output *1 Stop
Close
TBO.2 2-3 Open
OUT6
—
CNBH 1-3
Booster heater 1 output OFF ON
OUT7
—
CNBH 5-7
Booster heater 2 output OFF ON
OUT9
TBO.4 3-4 CNIH Immersion heater output OFF ON
OUT10
TBO.3 1-2 — Boiler output OFF ON
OUT11
TBO.3 3-4 — Error output Normal Error
OUT12
TBO.3 5-6 — Defrost output Normal Defrost
OUT13
TBO.4 1-2 — 2-way valve 2a output *2 OFF ON
OUT14
— CNP4 Water circulation pump 4 output (DHW) OFF ON
OUT15
TBO.3 7-8 — Comp ON signal OFF ON
Do not connect to the terminals that are indicated as “—” in the “Terminal block” eld.
*1. For 2-zone temperature control.
*2. For 2-zone valve ON/OFF control.
Symbol Name
TB1 Terminal block <Power supply, Outdoor unit>
ECB1
Earth leakage circuit breaker for booster heater
ECB2
Earth leakage circuit breaker for immersion heater
MP1
Water circulation pump 1(Space heating & DHW)
MP2
Water circulation pump 2 (Space heating for Zone1)(Local supply)
MP3
Water circulation pump 3 (Space heating for Zone2)(Local supply)
MP4 Water circulation pump 4 (DHW)
3WV 3-way valve
2WV2a 2-way valve (For Zone 1)(Local supply)
2WV2b 2-way valve (For Zone 2)(Local supply)
MXV Mixing valve (Local supply)
BHT Thermostat for booster heater
BHF Thermal fuse for booster heater
BH1 Booster heater 1
BH2 Booster heater 2
BHC1 Contactor for booster heater 1
BHC2 Contactor for booster heater 2
BHCP Contactor for booster heater protection
IHT Thermostat (xed temp.) for immersion heater
IH Immersion heater
IHC Contactor for immersion heater
Symbol Name
TH1 Thermistor (Room temp.)(Option)
TH2 Thermistor (Ref. liquid temp.)
THW1 Thermistor (Flow water temp.)
THW2 Thermistor (Return water temp.)
THW5 Thermistor (DHW tank water temp.)
THW6 Thermistor (Zone1 ow temp.)(Option)
THW7 Thermistor (Zone1 return temp.)(Option)
THW8 Thermistor (Zone2 ow temp.)(Option)
THW9 Thermistor (Zone2 return temp.)(Option)
THWB1 Thermistor (Boiler ow temp.)(Option)
THWB2 Thermistor (Boiler return temp.)(Option)
IN1 Room thermostat 1 (Local supply)
IN2 Flow switch 1 (Local supply)
IN3 Flow switch 2 (Local supply)
IN4 Demand control (Local supply)
IN5 Outdoor thermostat (Local supply)
IN6 Room thermostat 2 (Local supply)
IN7 Flow switch 3 (Local supply)
IN8 Electric energy meter 1 (Local supply)
IN9 Electric energy meter 2 (Local supply)
IN10 Heat meter (Local supply)
FLOW TEMP. CONTROLLER (FTC5)
TBO.1-4
Terminal block <Outputs>
TBI.1-3 Terminal block <Signal Inputs, Thermistor>
F1 Fuse (T10AL250V)
F2 Fuse (T6.3AL250V)
SW1-5 DIP switch *See 6-7. DIP switch setting.
X1-15 Relay
LED1 Power supply (FTC5)
LED2 Power supply (Main controller)
LED3 Communication (FTC5-Outdoor unit)
LED4 Reading or writing data to SD card
CNPWM
Pump speed control signal for MP1
CN108 SD card connector
1. Symbols used in wiring diagram are, : connector, : terminal
block.
2. Indoor unit and outdoor unit connecting wires have polarities, make
sure to match terminal numbers (S1, S2, S3) for correct wirings,
3. Since the outdoor unit side electric wiring may change, be sure to
check the outdoor unit electric wiring diagram for service.
OCH570
1
3
5
7
X6
X7
1
3
1
3
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
NL
S3S2S1
NL
S3S2S1
To outdoor
unit
TB1
ORN
ORN
YLW
YLW
GRN/YLW
To outdoor
unit
Power supply
~/N 230V 50Hz
TB1
ORN
BLU
RED
BLU
RED
YLW
GRN/YLW
1
3
CN3C
(BLU)
BLK
BLK
BLK
BLK
1
3
ORN
BRN
CN3C
(BLU)
ORN
ORN
BRN
YLW
Indoor unit powered
by independent source
Indoor unit powered
via outdoor unit
CIRCUIT
BREAKER
1
3
CN3C
(BLU)
1
3
CNPWM
(WHT)
LED1
LED2
LED3
LED4
TBI.1
TBI.2
1310 12 141174 65 932 811310 12 141174 65 932 811310 12 141174 65 932 81
IN6
IN1
IN2
IN3
IN4
IN5
IN7
THW8
THW7
THW6
THW9
THWB1
THWB2
t°t°t°t°t°t
°
Main
controller
1
+
-+-+-
2
1
2
CN20
(RED)
TH1
t
°
1
3
CN21
(YLW)
TH2
t
°
1
4
THW1
THW2
CNW12
(RED)
t°t
°
1
2
THW5
CNW5
(WHT)
t
°
CN108
5
1
Wireless receiver
(Option)
WiFi adapter
(Option)
5
1
5
1
CNRF
(WHT)
CN105
(RED)
CN22
(BLU)
1
5
Close
Open
N
TBO.2
TBO.1
F1
F2
MXV
M
1
~
MP2
MP1
M
1
~
CNV1
(WHT)
X4
X14
X3
X2
X1
X5B
X5A
1
2
3
4
5
6
1
2
3
4
5
6
1
1
3
3
3
CNP1
(WHT)
CNP4
(RED)
CNPWM
(WHT)
TBO.1
TBO.2
TBO.3
TBO.4
CNP1
(WHT)
CNP4
(RED)
CNV1
(WHT)
CN22
(BLU)
CNIT
(BLU)
TAB1
CN01
(WHT)
F2 F1
6.3A 250V 10A 250V
SW1
SW2
SW3
SW4
SW5
1
8
1
8
1
1
5
1
3
1
3
8
1
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
8
1
6
CN01
(WHT)
CN01
(WHT)
2
1
4
6
2
1
1
2
4
6
4
6
CNBH
(WHT)
CNBC
(GRY)
1
1
3
1
2
1
2
1
2
CNBHT
(BLK)
1
3
7
1
3
CNIH
(ORN)
1
4
1
3
CNW5
(WHT)
CN21
(YLW)
CNW12
(RED)
CN20
(RED)
TBI.2
12 146 108
137 11945321
12 146 108
137 11945321
12 146 108
137 11945321
MP3
M
1
~
IN8
IN9
IN10
TBI.3
TBI.3
1
4
CN1A
(WHT)
TBI.1
2WV2b
M
1
~
M
1
~
MP4
M
1
~
1
3
L
(1)N(3)
ORN
RED
BLU
BLU
RED
ORN
IHC
IHT
IH
642
531
A1
A2
A B
2
4
Immersion heater (1Ph3kW)(Option)
Power supply
to Immersion heater
~/N 230V 50Hz
1
2
CNIH
(ORN)
3
3WV
M
1
~
ECB2
1
2
4
6
CN01
(WHT)
X15
X12
TBO.3
X11
X10
1
2
3
4
5
6
7
8
Signal output
(Boiler)
Signal output
(Error)
Signal output
(Defrost)
Signal output
(Comp ON)
1
2
3
4
5
6
TBO.4
M
2WV2a
1
3
X9
X8
X13
CNIH
(ORN)
Tool
Tool
Conductor
Conductor
Outline view Top view
<How to use TBO.1 to 4>
Connect them using either way as shown below.
14
6-5. EHST20C-MEC, EHST20D-MEC, EHST20D-MHC
Table 1 Signal Inputs
Name
Terminal block
Connector
Item OFF (Open) ON (Short)
IN1 TBI.1 13-14 — Room thermostat 1 input Refer to SW2-1 in <6-7. DIP switch setting>.
IN2 TBI.1 11-12 — Flow switch 1 input Refer to SW2-2 in <6-7. DIP switch setting>.
IN3 TBI.1 9-10 — Flow switch 2 input (Zone1) Refer to SW3-2 in <6-7. DIP switch setting>.
IN4 TBI.1 7-8 — Demand control input Normal Heat source OFF/ Boiler operation *2
IN5 TBI.1 5-6 — Outdoor thermostat input *1 Standard operation Heater operation/ Boiler operation *2
IN6 TBI.1 3-4 — Room thermostat 2 input Refer to SW3-1 in <6-7. DIP switch setting>.
IN7 TBI.1 1-2 — Flow switch 3 input (Zone2) Refer to SW3-3 in <6-7. DIP switch setting>.
IN8 TBI.3 1-2 — Electric energy meter 1
Refer to <6-7. DIP switch setting>.IN9 TBI.3 3-4 — Electric energy meter 2
IN10
TBI.3 5-6 — Heat meter
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related parts may
be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen in the
service menu.
Table 2 Outputs
Name
Terminal block
Connector
Item OFF ON
OUT1
TBO.1 1-2 CNP1 Water circulation pump 1 output (Space heating & DHW) OFF ON
OUT2
TBO.1 3-4 — Water circulation pump 2 output (Space heating for Zone1) OFF ON
OUT3
TBO.1 5-6 —
Water circulation pump 3 output (Space heating for Zone2) *1
OFF ON
2-way valve 2b output *2
OUT4
TBO.2 4-6 CNV1 3-way valve output Heating DHW
OUT5
TBO.2 1-2
— Mixing valve output *1 Stop
Close
TBO.2 2-3 Open
OUT6
—
CNBH 1-3
Booster heater 1 output OFF ON
OUT7
—
CNBH 5-7
Booster heater 2 output OFF ON
OUT9
TBO.4 3-4 CNIH Immersion heater output OFF ON
OUT10
TBO.3 1-2 — Boiler output OFF ON
OUT11
TBO.3 3-4 — Error output Normal Error
OUT12
TBO.3 5-6 — Defrost output Normal Defrost
OUT13
TBO.4 1-2 — 2-way valve 2a output *2 OFF ON
OUT14
— CNP4 Water circulation pump 4 output (DHW) OFF ON
OUT15
TBO.3 7-8 — Comp ON signal OFF ON
Do not connect to the terminals that are indicated as “—” in the “Terminal block” eld.
*1. For 2-zone temperature control.
*2. For 2-zone valve ON/OFF control.
1. Symbols used in wiring diagram are, : connector,
: terminal block.
2. Indoor unit and outdoor unit connecting wires have polarities,
make sure to match terminal numbers (S1, S2, S3) for
correct wirings,
3. Since the outdoor unit side electric wiring may change, be
sure to check the outdoor unit electric wiring diagram for
service.
Symbol Name
TB1 Terminal block <Power supply, Outdoor unit>
ECB2
Earth leakage circuit breaker for immersion heater
MP1
Water circulation pump 1(Space heating & DHW)
MP2
Water circulation pump 2 (Space heating for Zone1)(Local supply)
MP3
Water circulation pump 3 (Space heating for Zone2)(Local supply)
MP4 Water circulation pump 4 (DHW)
3WV 3-way valve
2WV2a 2-way valve (For Zone 1)(Local supply)
2WV2b 2-way valve (For Zone 2)(Local supply)
MXV Mixing valve (Local supply)
IHT Thermostat (xed temp.) for immersion heater
IH Immersion heater
IHC Contactor for immersion heater
Symbol Name
TH1 Thermistor (Room temp.)(Option)
TH2 Thermistor (Ref. liquid temp.)
THW1 Thermistor (Flow water temp.)
THW2 Thermistor (Return water temp.)
THW5 Thermistor (DHW tank water temp.)
THW6 Thermistor (Zone1 ow temp.)(Option)
THW7 Thermistor (Zone1 return temp.)(Option)
THW8 Thermistor (Zone2 ow temp.)(Option)
THW9 Thermistor (Zone2 return temp.)(Option)
THWB1 Thermistor (Boiler ow temp.)(Option)
THWB2 Thermistor (Boiler return temp.)(Option)
IN1 Room thermostat 1 (Local supply)
IN2 Flow switch 1 (Local supply)
IN3 Flow switch 2 (Local supply)
IN4 Demand control (Local supply)
IN5 Outdoor thermostat (Local supply)
IN6 Room thermostat 2 (Local supply)
IN7 Flow switch 3 (Local supply)
IN8 Electric energy meter 1 (Local supply)
IN9 Electric energy meter 2 (Local supply)
IN10 Heat meter (Local supply)
FLOW TEMP. CONTROLLER (FTC5)
TBO.1-4
Terminal block <Outputs>
TBI.1-3 Terminal block <Signal Inputs, Thermistor>
F1 Fuse (T10AL250V)
F2 Fuse (T6.3AL250V)
SW1-5 DIP switch *See 6-7. DIP switch setting.
X1-15 Relay
LED1 Power supply (FTC5)
LED2 Power supply (Main controller)
LED3 Communication (FTC5-Outdoor unit)
LED4 Reading or writing data to SD card
CNPWM
Pump speed control signal for MP1
CN108 SD card connector
OCH570
Tool
Tool
Conductor
Conductor
Outline view Top view
<How to use TBO.1 to 4>
Connect them using either way as shown below.
NL
S3S2S1
NL
S3S2S1
To outdoor
unit
TB1
ORN
ORN
YLW
YLW
GRN/YLW
To outdoor
unit
Power supply
~/N 230V 50Hz
TB1
ORN
BLU
RED
BLU
RED
YLW
GRN/YLW
1
3
CN3C
(BLU)
BLK
BLK
BLK
BLK
1
3
ORN
BRN
CN3C
(BLU)
ORN
ORN
BRN
YLW
Indoor unit powered
by independent source
Indoor unit powered
via outdoor unit
CIRCUIT
BREAKER
1
3
CN3C
(BLU)
1
3
CNPWM
(WHT)
LED1
LED2
LED3
LED4
TBI.1
TBI.2
1310 12 141174 65 932 811310 12 141174 65 932 811310 12 141174 65 932 81
IN6
IN1
IN2
IN3
IN4
IN5
IN7
THW8
THW7
THW6
THW9
THWB1
THWB2
t°t°t°t°t°t
°
Main
controller
1
+
-+-+-
2
1
2
CN20
(RED)
TH1
t
°
1
3
CN21
(YLW)
TH2
t
°
1
4
THW1
THW2
CNW12
(RED)
t°t
°
1
2
THW5
CNW5
(WHT)
t
°
CN108
5
1
Wireless receiver
(Option)
WiFi adapter
(Option)
5
1
5
1
CNRF
(WHT)
CN105
(RED)
CN22
(BLU)
1
3
5
7
1
5
Close
Open
N
X6
X7
TBO.2
TBO.1
F1
F2
MXV
M
1
~
MP2
MP1
M
1
~
1
3
CNV1
(WHT)
1
3
CNBHT
(BLK)
CNBC
(GRY)
CNBH
(WHT)
X4
X14
X3
X2
X1
X5B
X5A
1
2
3
4
5
6
1
2
3
4
5
6
1
1
3
3
3
CNP1
(WHT)
CNP4
(RED)
CNPWM
(WHT)
TBO.1
TBO.2
TBO.3
TBO.4
CNP1
(WHT)
CNP4
(RED)
CNV1
(WHT)
CN22
(BLU)
CNIT
(BLU)
TAB1
CN01
(WHT)
F2 F1
6.3A 250V 10A 250V
SW1
SW2
SW3
SW4
SW5
1
8
1
8
1
1
5
1
3
1
3
8
1
8
1
6
CN01
(WHT)
CN01
(WHT)
2
1
4
6
2
1
1
2
4
6
4
6
CNBH
(WHT)
CNBC
(GRY)
1
1
3
1
2
1
2
1
2
CNBHT
(BLK)
1
3
7
1
3
CNIH
(ORN)
1
4
1
3
CNW5
(WHT)
CN21
(YLW)
CNW12
(RED)
CN20
(RED)
TBI.2
MP3
M
1
~
IN8
IN9
IN10
TBI.3
TBI.3
1
4
CN1A
(WHT)
TBI.1
2WV2b
M
1
~
M
1
~
MP4
M
1
~
1
3
L
(1)N(3)
ORN
RED
BLU
BLU
RED
ORN
IHC
IHT
IH
642
531
A1
A2
A B
2
4
Immersion heater (1Ph3kW)
Power supply
to Immersion heater
~/N 230V 50Hz
1
2
CNIH
(ORN)
3
3WV
M
1
~
ECB2
1
2
4
6
CN01
(WHT)
X15
X12
TBO.3
X11
X10
1
2
3
4
5
6
7
8
Signal output
(Boiler)
Signal output
(Error)
Signal output
(Defrost)
Signal output
(Comp ON)
1
2
3
4
5
6
TBO.4
M
2WV2a
1
3
X9
X8
X13
CNIH
(ORN)
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
12 146 108
137 11945321
12 146 108
137 11945321
12 146 108
137 11945321
15
6-6.
EHPT20X-MHCW, EHST20C-MHCW, EHST20D-MHCW
1. Symbols used in wiring diagram are, : connector, :
terminal block.
2. Indoor unit and outdoor unit connecting wires have polarities, make
sure to match terminal numbers (S1, S2, S3) for correct wirings,
3. Since the outdoor unit side electric wiring may change, be sure to
check the outdoor unit electric wiring diagram for service.
Table 1 Signal Inputs
Name
Terminal block
Connector
Item OFF (Open) ON (Short)
IN1 TBI.1 13-14 — Room thermostat 1 input Refer to SW2-1 in <6-7. DIP switch setting>.
IN2 TBI.1 11-12 — Flow switch 1 input Refer to SW2-2 in <6-7. DIP switch setting>.
IN3 TBI.1 9-10 — Flow switch 2 input (Zone1) Refer to SW3-2 in <6-7. DIP switch setting>.
IN4 TBI.1 7-8 — Demand control input Normal Heat source OFF/ Boiler operation *2
IN5 TBI.1 5-6 — Outdoor thermostat input *1 Standard operation Heater operation/ Boiler operation *2
IN6 TBI.1 3-4 — Room thermostat 2 input Refer to SW3-1 in <6-7. DIP switch setting>.
IN7 TBI.1 1-2 — Flow switch 3 input (Zone2) Refer to SW3-3 in <6-7. DIP switch setting>.
IN8 TBI.3 1-2 — Electric energy meter 1
Refer to <6-7. DIP switch setting>.IN9 TBI.3 3-4 — Electric energy meter 2
IN10
TBI.3 5-6 — Heat meter
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related parts may
be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen in the
service menu.
Table 2 Outputs
Name
Terminal block
Connector
Item OFF ON
OUT1
TBO.1 1-2 CNP1 Water circulation pump 1 output (Space heating & DHW) OFF ON
OUT2
TBO.1 3-4 — Water circulation pump 2 output (Space heating for Zone1) OFF ON
OUT3
TBO.1 5-6 —
Water circulation pump 3 output (Space heating for Zone2) *1
OFF ON
2-way valve 2b output *2
OUT4
TBO.2 4-6 CNV1 3-way valve output Heating DHW
OUT5
TBO.2 1-2
— Mixing valve output *1 Stop
Close
TBO.2 2-3 Open
OUT6
—
CNBH 1-3
Booster heater 1 output OFF ON
OUT7
—
CNBH 5-7
Booster heater 2 output OFF ON
OUT9
TBO.4 3-4 CNIH Immersion heater output OFF ON
OUT10
TBO.3 1-2 — Boiler output OFF ON
OUT11
TBO.3 3-4 — Error output Normal Error
OUT12
TBO.3 5-6 — Defrost output Normal Defrost
OUT13
TBO.4 1-2 — 2-way valve 2a output *2 OFF ON
OUT14
— CNP4 Water circulation pump 4 output (DHW) OFF ON
OUT15
TBO.3 7-8 — Comp ON signal OFF ON
Do not connect to the terminals that are indicated as “—” in the “Terminal block” eld.
*1. For 2-zone temperature control.
*2. For 2-zone valve ON/OFF control.
Symbol Name
TB1 Terminal block <Power supply, Outdoor unit>
ECB2
Earth leakage circuit breaker for immersion heater
MP1
Water circulation pump 1(Space heating & DHW)
MP2
Water circulation pump 2 (Space heating for Zone1)(Local supply)
MP3
Water circulation pump 3 (Space heating for Zone2)(Local supply)
MP4 Water circulation pump 4 (DHW)
3WV 3-way valve
2WV2a 2-way valve (For Zone 1)(Local supply)
2WV2b 2-way valve (For Zone 2)(Local supply)
MXV Mixing valve (Local supply)
IHT Thermostat (xed temp.) for immersion heater
IH Immersion heater
IHC Contactor for immersion heater
Symbol Name
TH1 Thermistor (Room temp.)(Option)
TH2 Thermistor (Ref. liquid temp.)
THW1 Thermistor (Flow water temp.)
THW2 Thermistor (Return water temp.)
THW5 Thermistor (DHW tank water temp.)
THW6 Thermistor (Zone1 ow temp.)(Option)
THW7 Thermistor (Zone1 return temp.)(Option)
THW8 Thermistor (Zone2 ow temp.)(Option)
THW9 Thermistor (Zone2 return temp.)(Option)
THWB1 Thermistor (Boiler ow temp.)(Option)
THWB2 Thermistor (Boiler return temp.)(Option)
IN1 Room thermostat 1 (Local supply)
IN2 Flow switch 1 (Local supply)
IN3 Flow switch 2 (Local supply)
IN4 Demand control (Local supply)
IN5 Outdoor thermostat (Local supply)
IN6 Room thermostat 2 (Local supply)
IN7 Flow switch 3 (Local supply)
IN8 Electric energy meter 1 (Local supply)
IN9 Electric energy meter 2 (Local supply)
IN10 Heat meter (Local supply)
FLOW TEMP. CONTROLLER (FTC5)
TBO.1-4
Terminal block <Outputs>
TBI.1-3 Terminal block <Signal Inputs, Thermistor>
F1 Fuse (T10AL250V)
F2 Fuse (T6.3AL250V)
SW1-5 DIP switch *See 6-7. DIP switch setting.
X1-15 Relay
LED1 Power supply (FTC5)
LED2 Power supply (Main controller)
LED3 Communication (FTC5-Outdoor unit)
LED4 Reading or writing data to SD card
CNPWM
Pump speed control signal for MP1
CN108 SD card connector
OCH570
16
Automatic switch to backup heat source operation
Back-up heat source operation (*1) will automatically run when the outdoor unit stops abnormally. To enable the function, switch DIP SW 2-5 to ON. During the backup operation, an error code(s) and the contact number will be displayed alternately. External output (OUT11) will be available.
To clear the fault(s), reset the power breakers on the indoor and outdoor units.
<Applicable error codes (*2)>
E6 to E9, ED, P6, P8, U1 to U8, UD, UE, UF, UL, UP
(*1) Prolonged running of the back-up operation may affect the life of the heat source.
(*2) For safety reasons, this function is not available for certain faults. (System operation must be stopped and only pump keeps running.)
6-7. DIP switch setting
Located on the FTC printed circuit board are 4 sets of small white switches
known as DIP switches. The DIP switch number is printed on the circuit board
next to the relevant switches. The word ON is printed on the circuit board and on
the DIP switch block itself. To move the switch you will need to use a pin or the
corner of a thin metal ruler or similar.
DIP switch settings are listed below in the table below.
Before changing any switch settings, ensure power supplies to indoor and outdoor units are isolated/powered off.
DIP switch Function OFF ON
Default settings:
Indoor unit model
SW1
SW1-1 Boiler WITHOUT Boiler WITH Boiler OFF
SW1-2 Heat pump maximum outlet water temperature 55ºC 60ºC ON *1
SW1-3 DHW tank WITHOUT DHW tank WITH DHW tank ON
SW1-4 Immersion heater WITHOUT Immersion heater WITH Immersion heater
OFF:
EH*T20*-*C
ON : EH*T20*-*HC*
SW1-5 Booster heater WITHOUT Booster heater WITH Booster heater
OFF:
EH*T20*-M*C*
ON :
EH*T20*-*M 2/6/9*C
SW1-6 Booster heater function For heating only For heating and DHW
OFF:
EH*T20*-M*C*
ON :
EH*T20*-*M 2/6/9*C
SW1-7 Outdoor unit type Split type Packaged type
OFF: EHST20*-*M**C*
ON :
EHPT20X-*M**C*
SW1-8 Wireless remote controller
WITHOUT Wireless remote controller
WITH Wireless remote controller OFF
SW2
SW2-1 Room thermostat1 input (IN1) logic change
Zone1 operation stop at thermostat short
Zone1 operation stop at thermostat open
OFF
SW2-2 Flow switch1 input (IN2) logic change Failure detection at short Failure detection at open OFF
SW2-3 Booster heater capacity restriction Inactive Active
OFF: Except
EH*T20*-VM2*C
ON : EH*T20*-VM2*C
SW2-4 — — — OFF
SW2-5
Automatic switch to backup heat source operation
(When outdoor unit stops by error)
Inactive Active *2 OFF
SW2-6 Mixing tank WITHOUT Mixing tank WITH Mixing tank OFF
SW2-7 2-zone temperature control Inactive Active *6 OFF
SW2-8 Flow sensor WITHOUT Flow sensor WITH Flow sensor ON
SW3
SW3-1 Room thermostat 2 input (IN6) logic change
Zone2 operation stop at thermostat short
Zone2 operation stop at thermostat open
OFF
SW3-2 Flow switch 2 input (IN3) logic change Failure detection at short Failure detection at open OFF
SW3-3 Flow switch 3 input (IN7) logic change Failure detection at short Failure detection at open OFF
SW3-4 Electric energy meter WITHOUT Electric energy meter WITH Electric energy meter OFF
SW3-5 Heating mode function *3 Inactive Active ON
SW3-6 2-zone valve ON/OFF control Inactive Active OFF
SW3-7 Heat exchanger for DHW Coil in tank External plate HEX ON
SW3-8 Heat meter WITHOUT Heat meter WITH Heat meter OFF
SW4
SW4-1 — — — OFF
SW4-2 — — — OFF
SW4-3 — — — OFF
SW4-4
Indoor unit only operation (during installation work) *4
Inactive Active OFF
SW4-5 Emergency mode (Heater only operation) Normal
Emergency mode (Heater only operation)
OFF *5
SW4-6 Emergency mode (Boiler operation) Normal Emergency mode (Boiler operation) OFF *5
SW5
SW5-1 — — — OFF
SW5-2 — — — OFF
SW5-3
SW5-4
SW5-5
SW5-6
SW5-7
SW5-8 — — — OFF
Note: *1. When the cylinder unit is connected with a PUHZ-RP/SUHZ-SW outdoor unit of which maximum outlet water temperature is 55ºC, DIP SW1-2
must be changed to OFF.
*2. External output (OUT11) will be available. For safety reasons, this function is not available for certain errors. (In that case, system operation
must be stopped and only the water circulation pump keeps running.)
*3. This switch functions only when the cylinder unit is connected with a PUHZ-FRP outdoor unit. When another type of outdoor unit is con-
nected, the heating mode function is active regardless of the fact that this switch is ON or OFF.
*4. Space heating and DHW can be operated only in indoor unit, like an electric boiler. (Refer to "Indoor unit only operation" in page 44. )
*5. If emergency mode is no longer required, return the switch to OFF position.
*6. Active only when DIP SW3-6 is set to OFF.
SW1
SW3
SW4
SW2
SW5
SW5-3 SW5-4 SW5-5 SW5-6 SW5-7
EHST20C-*M*C* ON ON ON ON OFF
EHST20D-*M*C* ON OFF OFF ON OFF
EHPT20X-*M*C* OFF OFF OFF OFF OFF
Capacity code
OCH570
L
N
S1
S2
S3
S1
S2
S3
TB1
L
N
ECB1
L
N
ECB2
L
N
17
FIELD WIRING
7
Breaker abbreviation Meaning
ECB1 Earth leakage circuit breaker for booster heater
ECB2 Earth leakage circuit breaker for immersion heater
TB1 Terminal block 1
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker
or
Isolating
switch
Outdoor unit
Power
supply
~/N
230 V
50 Hz
Power
supply
~/N
230 V
50 Hz
Power
supply
~/N
230 V
50 Hz
Wiring
circuit
breaker or
Isolating
switch
Wiring
circuit
breaker or
Isolating
switch
To control
board
For
booster
heater
(Primary circuit)
For
Immersion
heater
(DHW tank)
Cylinder unit
Option 1: Cylinder unit powered via outdoor unit
<1 phase>
<Figure 7-1>
Electrical connections 1 phase
Description Power supply Capacity Breaker Wiring
Booster heater (Primary circuit) ~/N 230 V 50 Hz 2 kW 16 A *1 2.5 mm²
6 kW 32 A *1 6.0 mm²
Immersion heater (DHW tank) ~/N 230 V 50 Hz 3 kW 16 A *1 2.5 mm²
Wiring
Wiring No.
× size (mm²)
Cylinder unit - Outdoor unit *2 3 × 1.5 (polar)
Cylinder unit - Outdoor unit earth *2 1 × Min. 1.5
Circuit
rating
Cylinder unit - Outdoor unit S1 - S2 *3 230 V AC
Cylinder unit - Outdoor unit S2 - S3 *3 24 V DC
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 45 m
If 2.5 mm² used, Max. 50 m
If 2.5 mm² used and S3 separated, Max. 80 m
*3. The values given in the table above are not always measured against the ground value.
Note: 1. Wiring size must comply with the applicable local and national codes.
2.Indoorunit/outdoorunitconnectingcordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60245IEC57)
Indoorunitpowersupplycordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60227IEC53)
3. Install an earth longer than other cables.
4.Pleasekeepenoughoutputcapacityofpowersupplyforeachheater.Insufcientpowersupplycapacitymightcausechattering.
*1 If the installed earth leakage circuit
breaker does not have an over-current
protection function, install a breaker with
that function along the same power line.
Affix label A that is included with the manuals near each
wiring diagram for cylinder unit and outdoor units.
OCH570
L1
L2
S1
S2
S3
TB1
L2
L3
ECB1
L
N
ECB2
N
L3
L1
S1
S2
S3
L
N
18
Power
supply
3N~
400 V
50 Hz
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker
or
Isolating
switch
Power supply
3~ 400 V 50 Hz (EH*T20*-YM*C)
3~ 230 V 50 Hz (EH*T20*-TM*C)
Power
supply
~/N
230 V
50 Hz
Wiring
circuit
breaker
or
Isolating
switch
Wiring
circuit
breaker
or
Isolating
switch
For
booster
heater
(Primary circuit)
For
Immersion
heater
(DHW tank)
To control
board
Outdoor unit
Cylinder unit
<3 phase>
<Figure 7-2>
Electrical connections 3 phase
Description Power supply Capacity (Indoor unit Ref.) Breaker Wiring
Booster heater (Primary circuit)
3~ 400 V 50 Hz 9 kW 16 A *1 2.5 mm²
3~ 230 V 50 Hz 9 kW 32 A *1 6.0 mm²
Immersion heater (DHW tank) ~/N 230 V 50 Hz 3 kW 16 A *1 2.5 mm²
Wiring
Wiring No.
× size (mm²)
Cylinder unit - Outdoor unit *2 3 × 1.5 (polar)
Cylinder unit - Outdoor unit earth *2 1 × Min. 1.5
Circuit
rating
Cylinder unit - Outdoor unit S1 - S2 *3 230 V AC
Cylinder unit - Outdoor unit S2 - S3 *3 24 V DC
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 45 m
If 2.5 mm² used, Max. 50 m
If 2.5 mm² used and S3 separated, Max. 80 m
*3. The values given in the table above are not always measured against the ground value.
Note: 1. Wiring size must comply with the applicable local and national codes.
2.Indoorunit/outdoorunitconnectingcordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60245IEC57)
Indoorunitpowersupplycordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60227IEC53)
3. Install an earth longer than other cables.
4.Pleasekeepenoughoutputcapacityofpowersupplyforeachheater.Insufcientpowersupplycapacitymightcausechattering.
*1 If the installed earth leakage circuit breaker
does not have an over-current protection
function, install a breaker with that function
along the same power line.
Afx label A that is included with the manuals near each
wiring diagram for cylinder unit and outdoor units.
OCH570
S1
S2
S3
L
N
L
N
CN01
CN01
CN01
CN01
S1
S2
S3
L
N
S1
S2
S3
S1
S2
S3
TB1
L
N
L
N
ECB1
ECB2
L
N
19
Initial settings
(Power supplied by
outdoor unit)
Modied settings
(Separate power
supply to the cylinder
unit)
Cylinder unit
control board
Cylinder unit
control board
White
BLACK
BLACK
YELLOW
BLACK
YELLOW
YELLOW
YELLOW
BLACK
White
Option 2: Cylinder unit powered by independent source.
If the cylinder unit and outdoor unit have separate power supplies, the following
requirements MUST be carried out:
•Changetheinterconnectedwiringin thecontroland electricalboxofthe
cylinder unit (see Figure 7-3).
•TurntheoutdoorunitDIPswitchSW8-3toON.
•TurnontheoutdoorunitBEFOREthecylinderunit.
•Powerbyindependentsourceisnotavailableforparticularmodelsof
outdoor unit model. For more detail, refer to the connecting outdoor unit
Installation Manual.
Wiring
circuit
breaker
or
Isolating
switch
Power
supply
~/N
230 V
50 Hz
Earth
leakage
circuit
breaker
*1
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker
or
Isolating
switch
Power
supply
~/N
230 V
50 Hz
Outdoor unit
Cylinder unit
Power
supply
~/N
230 V
50 Hz
Power
supply
~/N
230 V
50 Hz
Wiring
circuit
breaker
or
Isolating
switch
Wiring
circuit
breaker
or
Isolating
switch
For
booster
heater
(Primary circuit)
For
Immersion
heater
(DHW tank)
To control
board
<1 phase>
<Figure 7-4>
Electrical connections 1 phase
<Figure 7-3>
Description Power supply Capacity Breaker Wiring
Booster heater (Primary circuit) ~/N 230 V 50 Hz 2 kW 16 A *1 2.5 mm²
6 kW 32 A *1 6.0 mm²
Immersion heater (DHW tank) ~/N 230 V 50 Hz 3 kW 16 A *1 2.5 mm²
Cylinder unit power supply ~/N 230 V 50 Hz
Cylinder unit input capacity
Main switch (Breaker)
*1
16 A
Wiring
Wiring No.
× size (mm²)
Cylinder unit power supply 2 × Min. 1.5
Cylinder unit power supply earth 1 × Min. 1.5
Cylinder unit - Outdoor unit *2 2 × Min. 0.3
Cylinder unit - Outdoor unit earth —
Circuit
rating
Cylinder unit L - N *3 230 V AC
Cylinder unit - Outdoor unit S1 - S2 *3 —
Cylinder unit - Outdoor unit S2 - S3 *3 24 V DC
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 120 m
*3. The values given in the table above are not always measured against the ground value.
Note: 1. Wiring size must comply with the applicable local and national codes.
2.Indoorunit/outdoorunitconnectingcordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60245IEC57)
Indoorunitpowersupplycordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60227IEC53)
3. Install an earth longer than other cables.
4.
Please keep enough output capacity of power supply for each heater.
Insufcientpowersupplycapacitymightcausechattering.
*1 If the installed earth leakage circuit breaker
does not have an over-current protection
function, install a breaker with that function
along the same power line.
Affix label B that is included with the manuals near
each wiring diagram for cylinder unit and outdoor units.
OCH570
L1
L2
S1
S2
S3
S1
S2
S3
TB1
L2
L3
ECB1
ECB2
N
L3
L1
L
N
L
N
20
<3 phase>
<Figure 7-5>
Electrical connections 3 phase
Description Power supply Capacity (Indoor unit Ref.) Breaker Wiring
Booster heater (Primary circuit)
3~ 400 V 50 Hz 9 kW 16 A *1 2.5 mm²
3~ 230 V 50 Hz 9 kW 32 A *1 6.0 mm²
Immersion heater (DHW tank) ~/N 230 V 50 Hz 3 kW 16 A *1 2.5 mm²
Cylinder unit power supply ~/N 230 V 50 Hz
Cylinder unit input capacity
Main switch (Breaker)
*1
16 A
Wiring
Wiring No.
× size (mm²)
Cylinder unit power supply 2 × Min. 1.5
Cylinder unit power supply earth 1 × Min. 1.5
Cylinder unit - Outdoor unit *2 2 × Min. 0.3
Cylinder unit - Outdoor unit earth —
Circuit
rating
Cylinder unit L - N *3 230 V AC
Cylinder unit - Outdoor unit S1 - S2 *3 —
Cylinder unit - Outdoor unit S2 - S3 *3 24 V DC
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 120 m
*3. The values given in the table above are not always measured against the ground value.
Note: 1. Wiring size must comply with the applicable local and national codes.
2.Indoorunit/outdoorunitconnectingcordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60245IEC57)
Indoorunitpowersupplycordsshallnotbelighterthanpolychloroprenesheathedexiblecord.(Design60227IEC53)
3. Install an earth longer than other cables.
4.Pleasekeepenoughoutputcapacityofpowersupplyforeachheater.Insufcientpowersupplycapacitymightcausechattering.
For
booster
heater
(Primary circuit)
For
Immersion
heater
(DHW tank)
To control
board
*1 If the installed earth leakage circuit breaker
does not have an over-current protection
function, install a breaker with that function
along the same power line.
Affix label B that is included with the manuals near
each wiring diagram for cylinder unit and outdoor units.
Wiring
circuit
breaker
or
Isolating
switch
Power
supply
3N~
400 V
50 Hz
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker
or
Isolating
switch
Earth
leakage
circuit
breaker
*1
Power
supply
~/N
230 V
50 Hz
Power
supply
~/N
230 V
50 Hz
Outdoor unit
Cylinder unit
Wiring
circuit
breaker
or
Isolating
switch
Wiring
circuit
breaker
or
Isolating
switch
Power supply
3~ 400 V 50 Hz (EH*T20*-YM*C)
3~ 230 V 50 Hz (EH*T20*-TM*C)
OCH570
11
8
27
19
20
18
17
3
4
25
28
7
12
26
5
15
13
29
23
14
6
7
24
Pa
10
9
B
A
30
32
32
33
31
31
30
22
*1
Pa
11
10
8
27
19
9
16
20
B
A
30
*1
32
33
18
17
30
30
35
37
21
3
4
25
28
7
5
15
13
29
23
32
14
6
7
24
36
12
26
21
WATER SYSTEM DIAGRAM
8
• Refer to <Table 4-1> for the part names.
*1 Refer to the following section [Local system].
<EHST20*-*M**C > (Split model system)
<EHST20*-MHCW> (UK Split model system) <Example>
<Figure 8-2>
<Figure 8-1>
Note
• To enable draining of the cylinder unit
an isolating valve should be posi-
tioned on both the inlet and outlet
pipework.
• Be sure to install a strainer on the inlet
pipework to the cylinder unit.
• Suitable drain pipework should be at-
tached to all relief valves in accord-
ance with your country’s regulations.
• A backow prevention device must be
installed on the cold water supply
pipework (IEC 61770)
• When using components made from
different metals or connecting pipes
made of different metals insulate the
joints to prevent any corrosive reaction taking place which may damage
the pipework.
Flare connection
Flare connection
Cylinder unit
Cylinder unit
Drain
Drain
Drain
Drain
Drain
Drain
Cold water
Cold water
DHW
DHW
Local system
Refrigerant pipe
Water pipe
Local system
Flexible hose
(Temporary connection)
Water
supply
Note
•
To enable draining of the cylinder unit
an isolating valve should be positioned
on both the inlet and outlet pipework.
No valve should be tted between the
expansion valve (item 35) and the cyl-
inder unit (safety matter).
• Be sure to install a strainer on the inlet
pipework to the cylinder unit.
• Suitable drain pipework should be at-
tached to all relief valves in accord-
ance with your country’s regulations.
• When using components made from
different metals or connecting pipes
made of different metals insulate the
joints to prevent any corrosive reaction taking place which may damage
any pipework.
• Filling loop’s exible hose must be re-
moved following the lling procedure.
Item provided with unit as loose ac-
cessory.
• Install the inlet control group (item 33)
above the level of the T&P relief valve
(item 19). This will ensure DHW tank
will not require drain-down to service/
maintain the inlet control group.
Refrigerant pipe
Water pipe
OCH570
10
9
30
*1
32
32
33
34
B
30
30
35
A
Pa
11
8
27
19
16
20
18
17
21
37
3
7
13
29
36
32
34
32
4
25
5
23
6
7
24
15
14
7
12
26
1
10
27
9
30
32
32
34
34
32
B
31
A
31
32
33
Pa
11
4
25
8
27
7
19
5
15
13
16
23
20
14
6
7
24
18
17
*1
7
30
22
12
26
22
<EHPT20X-MHCW> (UK Packaged model system) <Example>
Note
• To enable draining of the cylinder unit an
isolating valve should be positioned on
both the inlet and outlet pipework. No
valve should be fitted between the ex-
pansion valve (item 35) and the cylinder
unit (safety matter).
• Be sure to install a strainer on the inlet
pipework to the cylinder unit.
• Suitable drain pipework should be at-
tached to all relief valves in accordance
with your country’s regulations.
• When using components made from different metals or connecting pipes made
of different metals insulate the joints to
prevent any corrosive reaction taking
place which may damage any pipework.
• Filling loop’s flexible hose must be removed following the filling procedure.
Item provided with unit as loose acces-
sory.
• Install the inlet control group (item 33)
above the level of the T&P relief valve
(item 19). This will ensure DHW tank
will not require drain-down to service/
maintain the inlet control group.
Model name EHPT20X-MHCW EHST20C-MHCW EHST20D-MHCW
Maximum supply pressure to the pressure reducing valve 16 bar 16 bar 16 bar
Operating pressure (Potable side) 3.5 bar 3.5 bar 3.5 bar
Expansion vessel charge setting pressure (Potable side) 3.5 bar 3.5 bar 3.5 bar
Expansion valve setting pressure (Potable side) 6.0 bar 6.0 bar 6.0 bar
Immersion heater specication (Potable side) * 3000 W, 230 V 3000 W, 230 V 3000 W, 230 V
DHW tank capacity 200 L 200 L 200 L
Mass of the unit when full 307 kg 320 kg 312 kg
Maximum primary working pressure 2.5 bar 2.5 bar 2.5 bar
* EN60335/Type 3000W single phase 230V 50Hz, length 460 mm.
Use only Mitsubishi Electric service parts as a direct replacement.
<Table 8-1>
<EHPT20X-*M*C> (Packaged model system)
Note
• To enable draining of the cylinder
unit an isolating valve should be po-
sitioned on both the inlet and outlet
pipework.
• Be sure to install a strainer on the inlet
pipework to the cylinder unit.
• Suitable drain pipework should be
attached to all relief valves in accord-
ance with your country’s regulations.
• A backflow prevention device must
be installed on the cold water supply
pipework (IEC 61770)
• When using components made from
different metals or connecting pipes
made of different metals insulate the
joints to prevent any corrosive reaction taking place which may damage
the pipework.)
<Figure 8-3>
<Figure 8-4>
Cylinder unit
Drain
Drain
Drain
Drain
Cold water
DHW
Local system
Main water supply
Flexible hose
(Temporary connection)
Cylinder unit
Drain
Drain
Cold water
DHW
Local system
Water
supply
Water pipe
Water pipe
• Refer to <Table 4-1> for the part names.
*1 Refer to the following section [Local system].
OCH570
1-zone temperature control
2-zone temperature control 1-zone temperature control with boiler
2-zone temperature control with boiler
1-zone temperature control (2-zone valve ON/OFF control)
23
Local system
3
7
5
2
4
6
8
9
11
1
12
10
Zone1
Zone2
1
2
3
5
6
4
Zone1
1
5
4
3
6
2
13
14
15
Zone1
2
13
14
15
7
5
4
3
6
1
8
9
11
12
10
Zone1
Zone2
* Flow switch specications: DC12 V / 1 mA / Both normally-open and normally-closed types can be used. (Set DIP switch 3 to select the logics. Refer to “6-7. DIP
switch setting”.)
1. Zone1 heat emitters (e.g. radiator, fan coil unit) (local supply)
2. Mixing tank (local supply)
3. Zone1 ow water temp. thermistor (THW6)
4. Zone1 return water temp. thermistor (THW7)
5. Zone1 water circulation pump (local supply)
6. Zone1 ow switch (local supply) *
7. Motorized mixing valve (local supply)
8. Zone2 ow water temp. thermistor (THW8)
9. Zone2 return water temp. thermistor (THW9)
Optional part : PAC-TH011-E
Optional part : PAC-TH011-E
10. Zone2 water circulation pump (local supply)
11. Zone2 ow switch (local supply) *
12. Zone2 heat emitters (e.g. underoor heating) (local supply)
13. Boiler ow water temp. thermistor (THWB1)
14. Boiler return water temp. thermistor (THWB2)
15. Boiler (local supply)
16. Zone1 2-way valve (local supply)
17. Zone2 2-way valve (local supply)
18. Bypass valve (local supply)
Optional part : PAC-TH011HT-E
1
Zone1
16
18
Zone1
Zone2
17
12
1
OCH570
24
Filling the cylinder unit (Primary circuit)
Draining the cylinder unit
WARNING: DRAINED WATER MAY BE VERY HOT
1. Before attempting to drain the cylinder unit isolate from the electrical supply to prevent the immersion and booster heaters burning out.
2. Isolate cold water feed to DHW tank.
3. Attach a hose to the DHW tank drain cock (No. 23 and 24 on Figure 4-1). The hose should be able to withstand heat as the draining water could be very hot. The
hose should drain to a place lower than the DHW tank bottom to encourage siphoning.
Open a hot water tap to start draining without a vacuum.
4. When the DHW tank is drained close drain cock and hot tap.
5. Attach hose to water circuit drain cock (No. 7 on Figure 4-1). The hose should be able to withstand heat as the draining water could be very hot. The hose should
drain to a place lower than the booster heater drain cock to encourage siphoning. Open the pump valve and the strainer valve.
6. Water remains in the strainer still after the cylinder unit was drained.
Drain the strainer by removing the strainer cover.
Initial ll procedure:
1. Ensure all pipe joints and ttings are tight and secure.
2. Open the most distant DHW tap/outlet.
3. Slowly/gradually open the mains water supply to begin lling unit and DHW pipework.
4. Allow most distant tap to run free and release/purge residual air from installation.
5. Close tap/outlet to retain fully charged system.
Initial ush procedure:
1. Energise system to heat-up cylinder contents to a temperature of approx. 30 – 40°C.
2. Flush/drain the water contents to remove any residue/impurities resulting from the installation works. Use the cylinder drain cock to safely discharge the warmed
water to drain via a suitable hose.
3. On completion, close drain cock, re-ll system and resume system commissioning.
Filling the cylinder unit (Potable/DHW circuit)
1. Check all connections including factory tted ones are tight.
2. Insulate pipework between cylinder unit and outdoor unit.
3.
Thoroughly clean and ush, system of all debris. (
Refer to 4.2 in the installation manual.)
4. Fill cylinder unit with potable water. Fill primary heating circuit with water and suitable anti-freeze and inhibitor as necessary. Alwaysuseallingloopwith
doublecheckvalvewhenllingtheprimarycircuittoavoidbackowcontaminationofwatersupply.
• Anti-freeze should always be used for packaged model systems. It is the responsibility of the installer to decide if anti-freeze solution should be used in split
model systems depending on each site’s conditions. Corrosion inhibitor should be used in both split model and packaged model systems.
• When connecting metal pipes of different materials insulate the joints to prevent a corrosive reaction taking place which will damage the pipework.
5. Check for leakages. If leakage is found, retighten the nut onto the connections.
6. Pressurise system to 1 bar.
7. Release all trapped air using air vents during and following heating period.
8. Top up with water as necessary. (If pressure is below 1 bar)
OCH570
F1 F2 F3 F4
25
CONTROLS
9
B C D
E
A
Main screen
9-1. Main Controller
<Main controller parts>
Letter
Name Function
A Screen Screen in which all information is displayed
B Menu Access to system settings for initial set up and
modications.
C Back Return to previous menu.
D Conrm Used to select or save. (Enter key)
E Power/Holiday If system is switched off pressing once will turn
system on. Pressing again when system is
switched on will enable Holiday Mode. Holding
the button down for 3 secs will turn the system
off. (*1)
F1-4 Function keys Used to scroll through menu and adjust settings.
Function is determined by the menu screen
visible on screen A.
*1
When the system is switched off or the power supply is disconnected,
the cylinder unit protection functions (e.g. freeze stat. function) will
NOT operate. Please beware that without these safety functions enabled the cylinder unit may potentially become exposed to damage.
<Main screen icons>
Icon Description
1 Legionella
prevention
When this icon is displayed ‘Legionella prevention
mode’ is active.
2 Heat pump
‘Heat pump’ is running.
Defrosting
Emergency heating
3 Electric heater When this icon is displayed the ‘Electric heaters’
(booster or immersion heater) are in use.
4 Target
temperature
Target ow temperature
Target room temperature
Compensation curve
5 OPTION Pressing the function button below this icon will
display the option screen.
6 + Increase desired temperature.
7 - Decrease desired temperature.
8 Z1
Z2 Pressing the function button below this icon
switches between Zone1 and Zone2.
Information Pressing the function button below this icon dis-
plays the information screen.
9 Space heating
mode
Heating mode
Zone1 or Zone2
10 DHW mode Normal or ECO mode
11 Holiday mode
When this icon is displayed ‘Holiday mode’ activated.
12 Timer
Prohibited
Server control
Stand-by
Stand-by (*2)
Stop
Operating
13
Current
temperature
Current room temperature
Current water temperature of DHW tank
14
The Menu button is locked or the switching of the
operation modes between DHW and Heating op-
erations are disabled in the Option screen.(*3)
15
SD memory card is inserted. Normal operation.
SD memory card is inserted. Abnormal operation.
*2 This unit is in Stand-by whilst other indoor unit(s) is in operation
by priority.
*3 To lock or unlock the Menu, press the BACK and CONFIRM keys
simultaneously for 3 seconds.
12 11
1 32
10
9
4
7
6
5
15 14
13
8
OCH570
26
9-2. Setting the Main Controller
After the power has been connected to the outdoor and cylinder units (See chapter 7) the initial system settings can be entered via the main controller.
1. Check all breakers and other safety devices are correctly installed and turn on power to the system.
2. When the main controller switched on for the rst time, the screen automatically goes to Initial settings menu, Language setting screen and Date/Time setting
screen in order.
3. Main controller will automatically start up. Wait approximately 6 minutes whilst the control menus load.
4. When the controller is ready a blank screen with a line running across the top will be displayed.
5. Press button E (Power) (refer to page 25) to turn on the system. Before turning on the system, perform initial settings as instructed below.
General Operation
● To nd the icon that you wish to set, use the F2 and F3 buttons to move between the icons.
● The highlighted icon will appear as a larger version of the center of the screen.
● Press CONFIRM to select and edit the highlighted mode.
●
Follow the <Main Controller Menu Tree> for further setting, using ▼▼ buttons for scrolling or F1 to F4 for selecting.
9-3. Main Settings Menu
The main settings menu can be accessed by pressing the MENU button. To reduce the risk of untrained end users altering the settings accidentally there are
two access levels to the main settings; and the service section menu is password
protected.
User Level – Short press
If the MENU button is pressed once for a short time the main settings will be
displayed but without the edit function. This will enable the user to view current
settings but NOT change the parameters.
Installer Level – Long press
If the MENU button is pressed down for 3 secs the main settings will be displayed
with all functionality available.
The following items can be viewed and/or edited (dependent on access level).
• Domestic Hot water (DHW)
• Heating
• Schedule timer
• Holiday mode
• Initial settings
• Service (Password protected)
Main menu
Long Press
OCH570
27
<Main Controller Menu Tree>
Unrestricted access
Installer only
* Short press for 1 Zone system.
*
Main
menu
Main
menu
Main screen
Initial
Information
Option
F1
F4
Forced DHW
Hot Water (DHW)
<See section>
<See
section>
<See
section>
<See
section>
<See
section>
Menu
Long Press
Short Press
Heating
Holiday
mode
Initial
settings
Schedule timer
(Zone1)
(Zone2)
(
PREVIEW
)
(
EDIT
)
(
EDIT
)
(
EDIT
)
(
EDIT
)
DHW
DHW
Legionella
Legionella
Schedule2 period
preview screen
Schedule2 period setting screen1
Term setting
Schedule1/2 select
F4
Schedule
timer preview
F4
Schedule
timer preview
F4
Schedule timer preview
F4
Schedule timer preview
Zone1
Zone1
Zone2
Curve parameters
Curve parameters
Adjustment
Adjustment
Zone1
Zone2
Zone2
Day
select
Day
select
Day
select
Day
select
Day
select
Day
select
Time select
Time select
Time select
Time select
Time select
Time select
Temp.setting
Temp.setting
Temp.setting
Temp.setting
Schedule1
Schedule2
Heating
Heating
DHW
DHW
ON (
)/OFF
DHW ON (
)/Prohibited ( )/Timer ( )
Heating ON (
)/Prohibited ( )/Timer ( )
Consumed electrical energy
Delivered energy
Normal/Eco
DHW max. temp.
Hot water temp.
Frequency
Start time
Max. operation time
Duration of max. temp.
DHW max. temp. drop
DHW max. operation time
DHW mode restriction
Active/Non active
Room temp.(
) / Flow temp.(
)
/ Compensation curve(
)
Room temp.(
) / Flow temp.(
)
/ Compensation curve(
)
Compensation curve preview
Compensation curve edit
F1
F1
F3
F1
F2
F2
F2
F2 F4
F3
F3
F3
F4
F4
F3
F4
F2
F4
F3
F4
F2
F3
F4
DHW
Date/Time yyyy/mm/dd/hh:mm
EN/FR/DE/SV/ES/IT/DA/NL/FI/NO/PT/BG/PL/CS/RU
OFF/Room/Tank/Room&Tank
OFF/ON
hh:mm/hh:mm AM/AM hh:mm
°C/°F
Room RC zone select
Sensor setting
Zone1
Zone1
Zone2
Holiday mode setting
Heating room temp.
Heating room temp.
Heating ow temp.
Heating ow temp.
Zone2
Sensor setting
Sensor setting
Select Time/Zone
Select Time/Zone
TH1/Main controller/
Room RC1-8/ “Time/
Zone”
TH1/Main controller/
Room RC1-8/ “Time/
Zone”
Time setting
Time setting
Sensor setting
Sensor setting
Language
Summer time
Temp. display
Contact number
Time display
°C/°F
Room sensor settings
Heating
Active/Non active
Active/Non active
Long press
(
EDIT
)
F1 F2
Zone1/2 select
F1 F2
Zone1/2 select
<Continued to next page.>
F1
Zone1/2 select
F1
Zone1/2 select
F1 F2
Zone1/2 select
save
save
save
save
save
save
save
F4
Schedule
timer preview
F4
Schedule
timer preview
OCH570
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