REMKO HTS Series, HTS 110, HTS 130, HTS 80, HTS 200 Instruction

Electrical wiring

REMKO HTS series

ArtStyle heat pumps
Air/water system for heating and cooling

HTS 80, HTS 90, HTS 110, HTS 130, HTS 200, HTS 260

Instructions for the Technician

0160-2019-01 Edition 2, en_GB

Read the instructions prior to performing any task!

Read these operating instructions carefully before commis­sioning / using this device!

These instructions are an integral part of the system and must
always be kept near or on the device.

Subject to modifications; No liability accepted for errors or mis­prints!

Translation of the original

Table of contents

1 Safety and usage instructions............................................................................................................. 4

1.1 General safety notes....................................................................................................................... 4

1.2 Identification of notes...................................................................................................................... 4

1.3 Personnel qualifications.................................................................................................................. 4

1.4 Dangers of failure to observe the safety notes................................................................................ 4

1.5 Safety-conscious working............................................................................................................... 4

1.6 Safety notes for the operator........................................................................................................... 5

1.7 Safety notes for installation, maintenance and inspection.............................................................. 5

1.8 Unauthorised modification and changes......................................................................................... 5

1.9 Intended use................................................................................................................................... 5

1.10 Warranty........................................................................................................................................ 5

1.11 Transport and packaging............................................................................................................... 6

1.12 Environmental protection and recycling........................................................................................ 6

2 Electrical wiring - General.................................................................................................................... 7

2.1 System layout.................................................................................................................................. 7

2.2 General notes.................................................................................................................................. 9

2.3 Electrical connection - indoor module........................................................................................... 10

2.4 Electrical connection - outdoor module ........................................................................................ 11

2.5 Electrical configuration - I/O module............................................................................................. 13

2.6 Terminal block / key....................................................................................................................... 14

3 Electrical wiring HTS 80..................................................................................................................... 16

3.1 Overview of electrical connection cables...................................................................................... 16

3.2 Overview of terminal assignment.................................................................................................. 17

4 Electrical wiring HTS 90..................................................................................................................... 19

4.1 Overview of electrical connection cables...................................................................................... 19

4.2 Overview of terminal assignment.................................................................................................. 20

5 Electrical wiring HTS 110.................................................................................................................... 22

5.1 Overview of electrical connection cables...................................................................................... 22

5.2 Overview of terminal assignment.................................................................................................. 23

6 Electrical wiring HTS 130................................................................................................................... 25

6.1 Overview of electrical connection cables...................................................................................... 25

6.2 Overview of terminal assignment.................................................................................................. 26

7 Electrical wiring HTS 200................................................................................................................... 28

7.1 Overview of electrical connection cables...................................................................................... 28

7.2 Overview of terminal assignment.................................................................................................. 29

8 Electrical wiring HTS 260................................................................................................................... 32

8.1 Overview of electrical connection cables...................................................................................... 32

8.2 Overview of terminal assignment.................................................................................................. 33

9 Circuit diagrams.................................................................................................................................. 36

10

Index..................................................................................................................................................... 51

3

REMKO HTS series

1 Safety and

usage instructions

1.1 General safety notes

Carefully read the operating manual before com­missioning the units for the first time. It contains
useful tips and notes such as hazard warnings to
prevent personal injury and material damage.
Failure to follow the directions in this manual not
only presents a danger to people, the environment
and the system itself, but will void any claims for

.

liability

Keep this operating manual and the refrigerant
data sheet near to the units.

1.2 Identification of notes

This section provides an overview of all important
safety aspects for proper protection of people and
safe and fault-free operation.The instructions and
safety notes contained within this manual must be
observed in order to prevent accidents, personal
injury and material damage.

Notes attached directly to the units must be
observed in their entirety and be kept in a fully
legible condition.

Safety notes in this manual are indicated by sym­bols. Safety notes are introduced with signal words
which help to highlight the magnitude of the danger
in question.

DANGER!

CAUTION!

This combination of symbol and signal word
warns of a potentially hazardous situation,
which if not avoided may cause injury or mate­rial and environmental damage.

NOTICE!

This combination of symbol and signal word
warns of a potentially hazardous situation,
which if not avoided may cause material and
environmental damage.

This symbol highlights useful tips and recom­mendations as well as information for efficient
and fault-free operation.

1.3 Personnel qualifications

Personnel responsible for commissioning, opera­tion, maintenance, inspection and installation must
be able to demonstrate that they hold a qualifica­tion which proves their ability to undertake the
work.

Contact with live parts poses an immediate
danger of death due to electric shock. Damage
to the insulation or individual components may
pose a danger of death.

DANGER!

This combination of symbol and signal word
warns of a situation in which there is immediate
danger
cause serious injury.

This combination of symbol and signal word
warns of a potentially hazardous situation,
which if not avoided may be fatal or cause
serious injury

, which if not avoided may be fatal or

WARNING!

.

1.4

Dangers of failure to observe the safety notes

Failure to observe the safety notes may pose a risk
to people, the environment and the units. Failure to
observe the safety notes may void any claims for
damages.

In particular, failure to observe the safety notes
may pose the following risks:

n The failure of important unit functions.
n The failure of prescribed methods of mainte-

nance and repair

n Danger to people on account of electrical and

mechanical effects.

.

1.5 Safety-conscious working

The safety notes contained in this manual, the
existing national regulations concerning accident
prevention as well as any internal company
working, operating and safety regulations must be
observed.

4

1.6 Safety notes for the operator

The operational safety of the units and compo­nents is only assured providing they are used as
intended and in a fully assembled state.

n The units and components may only be set up,

installed and maintained by qualified per­sonnel.

n Protective covers (grille) over moving parts

must not be removed from units that are in
operation.

n Do not operate units or components with

obvious defects or signs of damage.

n Contact with certain unit parts or components

may lead to burns or injury

n The units and components must not be

exposed to any mechanical load, extreme
levels of humidity or extreme temperature.

n Spaces in which refrigerant can leak sufficient

to load and vent. Otherwise there is danger of
suffocation.

n All housing parts and device openings, e.g. air

inlets and outlets, must be free from foreign
objects, fluids or gases.

n The units must be inspected by a service tech-

nician at least once annually. Visual inspec­tions and cleaning may be performed by the
operator when the units are disconnected from
the mains.

.

1.7 Safety notes for installation, maintenance and inspection

n The units and components must be kept at an

adequate distance from flammable, explosive,
combustible, abrasive and dirty areas or
atmospheres.

n Safety devices must not be altered or

bypassed.

Unauthorised modification

1.8
and changes

Modifications or changes to units and components
are not permitted and may cause malfunctions.
Safety devices may not be modified or bypassed.
Original replacement parts and accessories
authorised by the manufactured ensure safety
use of other parts may invalidate liability for
resulting consequences.

. The

1.9 Intended use

Depending on the model, the equipment and the
additional fittings with which it is equipped is only
intended to be used as an air-conditioner for the
purpose of cooling or heating the air in an
enclosed room.

Any different or additional use shall be classed as
non-intended use. The manufacturer/supplier
assumes no liability for damages arising from such
use. The user bears the sole risk in such cases.
Intended use also includes working in accordance
with the operating and installation instructions and
complying with the maintenance requirements.

n Appropriate hazard prevention measures must

be taken to prevent risks to people when per­forming installation, repair
cleaning work on the units.

n The setup, connection and operation of the

units and its components must be undertaken
in accordance with the usage and operating
conditions stipulated in this manual and comply
with all applicable regional regulations.

n Local regulations and laws such as Water

Ecology Act must be observed.

n The power supply should be adapted to the

requirements of the units.

n Units may only be mounted at the points pro-

vided for this purpose at the factory. The units
may only be secured or mounted on stable
structures, walls or floors.

n Mobile units must be set up securely on suit-

able surfaces and in an upright position. Sta­tionary units must be permanently installed for
operation.

n The units and components should not be oper-

ated in areas where there is a heightened risk
of damage. Observe the minimum clearances.

, maintenance or

Under no circumstances should the threshold
values specified in the technical data be exceeded.

1.10 Warranty

For warranty claims to be considered, it is essential
that the ordering party or its representative com­plete and return the "certificate of warranty" to
REMKO GmbH & Co. KG at the time when the
units are purchased and commissioned.

The warranty conditions are detailed in the "Gen­eral business and delivery conditions". Further­more, only the parties to a contract can conclude
special agreements beyond these conditions. In
this case, contact your contractual partner in the
first instance.

5

REMKO HTS series

1.11 Transport and packaging

The devices are supplied in a sturdy shipping con-

. Please check the equipment immediately

tainer
upon delivery and note any damage or missing
parts on the delivery and inform the shipper and
your contractual partner. For later complaints can
not be guaranteed.

WARNING!

Plastic films and bags etc. are dangerous
toys for children!

Why:

- Leave packaging material are not around.

- Packaging material may not be accessible to
children!

1.12 Environmental protection and recycling

Disposal of packaging

All products are packed for transport in environ­mentally friendly materials. Make a valuable contri­bution to reducing waste and sustaining raw mate­rials. Only dispose of packaging at approved
collection points.

Disposal of equipment and components

Only recyclable materials are used in the manufac­ture of the devices and components. Help protect
the environment by ensuring that the devices or
components (for example batteries) are not dis­posed in household waste, but only in accordance
with local regulations and in an environmentally
safe manner
cling specialists or at collection points.

, e.g. using certified firms and recy-

6

2 Electrical wiring - General

A

B

D

C

1

2

3

4

5

6

8

7

2.1 System layout

Fig. 1: System layout HTS 80/90/110/130

A: Outdoor area
B: Indoor area
C: Outdoor unit
D: Indoor unit
1: Fan / air outlet
2: Condensate drainage, outdoor unit

(must be designed to be frost proof!)

3: Lines between indoor and outdoor modules:

Control line outdoor module 0-10V (sheathed) /
sensor cable (sheathed), e.g. 5 x 1,0 mm
Power supply coming from the outdoor unit /
Condensate drainage heating 5x1.5 mm2,

4:

Refrigerant lines 3/8" and 5/8“

2

5: Inlet
6: Return flow
7: Power supply line to indoor module:

HTS 90=230V/1~/ 50Hz,16A
(e.g. 3x2.5 mm2)
HTS 80/110/130=400V/3~/ 50Hz, 3x16A
(e.g. 5x2.5 mm2)
Control voltage regulation =
230V/1~/50Hz, 16A (e.g. 3x1.5 mm2)

8: Mains supply line, electrical auxiliary heater =

400V / 3~ / 50Hz, 16A (e.g. 5x2.5 mm2)

7

A

B

D

1

2

3

5

6

8

7

C

1

C

2

1

2

4 4

3

9

REMKO HTS series

Fig. 2: System layout HTS 200/260

A: Outdoor area
B: Indoor area
C1: Outdoor unit 1
C2: Outdoor unit 2
D: Indoor unit
1: Fan
2: Condensate drain, external module

(must contain anti-freeze!)

3: Lines between indoor and outdoor modules:

Control line outdoor module (sheathed) / sensor
cable (sheathed), e.g. 5 x 1,0 mm
Power supply from the outdoor unit /
condensate drainage heating 5 x 1.5 mm

The indoor and outdoor modules have to be con­nected with refrigerant lines of dimensions (outer
diameter) 3/8"(=9.52 mm) and 5/8"(=15.88 mm).

2

2

4:

Refrigerant lines 3/8" and 5/8“

5: Inlet
6: Return flow
7: Power supply, indoor unit =

400V / 3~ / 50Hz,16A (e.g. 5 x 2.5 mm2)
Control voltage regulation =
230V / 1~ / 50Hz, 16A (e.g. 3 x 1.5 mm2)

8: Mains supply line, electrical auxiliary heater =

400V / 3~ / 50Hz, 16A (e.g. 5 x 2.5 mm2)

9: Refrigerant line 1/2" and 3/4"

WARNING!

All electric lines are in accordance VDE regula­tions to dimension and to lay

.

8

2.2 General notes

n It is necessary to lay multiple power supply

lines from the distribution system to the indoor
unit, depending on the version. See "Electrical
wiring" chapter

n The electrical connection between outdoor and

indoor units is made using a sheathed control
line (see "Overview of electrical connecting
lines" chapter).

n A connection schematic along with corre-

sponding circuit diagrams can be found in the
"Connection diagram" chapter of this manual.

n If an auxiliary heater is required in the indoor

unit, another three-phase 400 V / 3~/50 Hz
power supply shall be provided to the indoor
unit for an auxiliary heater.

n Power to the smart control may not be discon-

nected by the power company when fitted with
an off-period circuit (anti-freeze protection).

n The Smart-Control needs to know whether a

power-company release or off-period is in
effect (contact S16). A potential-free switch
must be installed by the customer for this pur­pose. (contact closed signifies release, while
contact open signifies an off-period).

n Special rates for heat pumps may be offered

by the power-company (utility).

n Ask your local power company about the

details of any rates that might be available.

.

WARNING!

All cable sizes are to be selected according to
VDE 0100. Special attention should be given to
cable lengths, cable type and the kind of instal­lation. The information in the connection dia­gram and in the system overview are to be
seen as an acceptable installation possibility
only in a standard case!

NOTICE!

The electrical connection for the units must be
made at a separate feedpoint with a residual
current device in accordance with local regula­tions and should be laid out by an electrician.

Check all plugged and clamped terminals to
verify that they are seated correctly and make
permanent contact. Tighten as required.

DANGER!

All electrical installation work must be done by
an electrician.

WARNING!

Always note the currently applicable VDE
guidelines and the notes in TAB 2007. The size
and type of the fuse are to be taken from the
technical data.

9

REMKO HTS series

2.3 Electrical connection - indoor

module

The following instructions describe the electrical
connection of the inner module.

1. Remove the cover from the indoor module by

pressing it upwards and pulling it forwards
out of the rear groove.

2. Guide the supply cable to the indoor module

through the cable openings, and also route
the control cable between indoor and outdoor
modules and the cables for external devices
and sensors into the indoor module. Note
that the cable openings are located at the
top.

3. Connect the mains power supply line and the

control line of the indoor module to the termi­nals (see chapter "Electrical wiring").

4. Connect all secondary consumers

(HGM,HGU, changeover valves etc.) to the
I/O module.

NOTICE!

It is necessary to provide a separate RCD 100
mA, type B (universal current-sensitive) with a
contact load of 40 A for the heat pump.

NOTICE!

Attach cables in accordance with the connec­tion schematic and/or the circuit diagram in the
control box.

NOTICE!

Ensure correct polarity when connecting the
electrical leads, especially the control cable.

The number of lines and the sensors is
dependent on the configuration of the heating
system and the components.

At the site, avoid adding cable inlets.

10

2

1

2

2.4 Electrical connection - outdoor module

o connect up the electrics, remove the whole

n T

basket.

Fig. 3: Remove the basket

Contact sensor

Contact sensors can be mounted on the pipes, to
measure the heating-circuit temperatures, for
example.

n The contact sensors are fastened to a pipe

with the accessories provided.

n Clean the appropriate point. Subsequently a

thermal compound (A) is applied and the
sensor is fixed in position.

n Electrical protection for the system is imple-

mented in accordance with the information in
the T

echnical Data. Observe the required con-

ductor cross-sections!

n All cables must be connected with the correct

polarity and strain relief.

n Follow the connection schematic and the circuit

Ä

diagrams (
on page 14).

n When connecting the control cable, make sure

that polarity is correct.

n If the outdoor module is installed on a roof, it

and the supporting structure must be earthed
separately (connection to lightning conductors
or foundation earth/ground feature).

Temperature sensors

n The number of sensors required can vary with

the type of system.

n Observe the pertinent notes for the sensor

position found in the hydraulic schematic.

n The standard scope of delivery includes the

outdoor sensors (S10), an immersion sensor
(provided for use as a domestic hot water
sensor - (S08).

n When connecting up a solar system, use a

-1000 sensor (S01) as a collector sensor

PT
and a PT-1000 sensor (S02) as the lower
storage tank sensor.

n All sensors are to be connected to the indoor

module switch cabinet in accordance with the
terminal assignment diagram.

Chapter 2.6 ‘Terminal block / key’

Fig. 4: Securing the inductive sensor (figure sim­ilar)

If the sensor cables are too short, they can be
extended up to a maximum of 100m with wire
having a cross-section of 1.5 mm².

11

REMKO HTS series

Outdoor sensor

The connection of an outdoor sensor is always
required for Smart Control.

n Mount the outdoor sensor pointing skyward, in

a north-easterly direction, about 2.5 metres
above the ground. It may not be subjected to
direct sunlight and is to be protected against
excessive wind. Installation above windows or
air ducts is to be avoided.

n In order to carry out the installation, remove the

cover and secure the sensor with the screw
provided.

n A cable with wire cross-sections of min. 0.5

mm2 is recommended for connecting the

.

sensor

Fig. 5: Outdoor sensor (figure similar)

12

2.5 Electrical configuration - I/O module

4

5

5

4

8

3L

N

1

01

10

9
6

7

8

3L

3L

1L

1L

2L

2L

N

N

EP

EP

2

3

3

2

7

10

01

7

10

6

9

6

9

1X kcolb lanimreT

Power supply
Internal module

5x2.5mm²
Depending on device type 3 phase or 1 phase

Control line (0-10V)
external module

Power supply internal
to external module A
e.g.3 x 1.5 mm2

EP-1

L-2

N-3

Sensor wire,
exterior module

Switch output
exterior module A
(electrical heating)

EP

N-4

L-5

9

01

V01-0-6

DNG-7

ybdnats-8 ria .

assigned

41

51

51

41

81

3L

N

11

01

10

9
6

7

81

21

31

31

21

71

02

01

71

20

6

1

91

61

91

Control wire (0-10V)
external module B
3x1.0 mm2

Power supply internal
to external module B
e.g.3x1.5 mm2

1 EP-1

N-21

L-31

Sensor wire
exterior module B
2x1.0 mm2

EP

N-41

L-51

91

02

V01-0-61

DNG-71

ybdnats-81 ria .

Switch output
exterior module B
(electrical heating) 3 x 1.5 mm2

L N EP

`L N EP

`L N EP

N EP `L 01A

N

EP 1A `L 1

N EP

`L 21A

N EP

`L 31A

N EP `L 41A

N EP 10A

N EP
20A

N EP 30A

N EP 40A

N EP 02A 12A

N EP 22A 32A

N EP 42A 52A

Power

Actuator Outputs

Actuator Supply

Actuator Outputs

Actuator Outputs

S
ensor Inputs

DNG V5+ 52S

DNG V5+ 62S

DNG V5+ 72S

DNG V5+ 82S

DNG V5+ 92S

Actuator S

ignal

DNG 04A

DNG 14A

DNG 24A

DNG 34A

DNG 44A

DNG 54A

DNG 64A

DNG SSn

KLC OM IM

KNX - TP

1T0 1T0

2T0 2T0

CR

2B 2A

2B 3A

1B V21+ DNG 1A

DNG R

14S 04S DNG V5+ 02S

34S 24S DNG V5+ 12S

54S 44S DNG V5+ 22S

74S 64S DNG V5+ 32S

94S 84S DNG V5+ 42S

DNG 10S

DNG 20S

DNG 30S

DNG 40S

DNG 50S

DNG 60S

DNG 70S

DNG 80S

stupnI rosneS

stupnI rosneS

stupnI rosneS

stupnI rosneS

DNG 90S

DNG 01S
1S DNG 1

DNG 21S

DNG 31S

DNG 41S

DNG 51S

DNG 61S

stuptuO

eerF laitneto

P

03A 03A

13A

23A

33A

43A

SD

Fuse

RJ 45

Power supply,
primary pump - IM

Energy supplier contact

closed = release

Power supply
I/O module

Potential-free

S0 PV power supply
(min. 500 impulses/kWh)

S0 PV yield
(min. 500 imp./kWh)

S0 household
counter
(min. 500 imp./kWh)

S0 WP current
counter
(min. 500 imp./kWh)

S29

S28

S26

S25

External probe

S10

S16

Changeover valve,
drinking water

M

01A

Pump HK approx.
230V optional

A03

Pump circulation
230 V

A04

M

Closed

Open

Mixer HGM 1
(HK 1 floor)

A20/21

NOTE: without EVU connection,
a bridge must be installed

Hot water tank

S08

Optional

egatlov sniaM

EP/N/~3/V004

Wk9 lioc gnitaeh cirtcelE

morf remotsuc eht yb dedivorp noitcennoc egatlov sniaM

!noitubirtsid-bus

1L

2L
3L
N

eP

1 2 3 4 Pe

lioc gnitaeh eht no gulP

e.g. 5x 2.5 mm²

2.mix. Heating circuit RF

S14

S12

1.mix. Heating
circuit inlet

S11

1. mix. Heating circuit RF

Storage tank, centre

S09

Acquisition of the
stored energy

0-10V pump

HGM 2

A46

S06

2. mix. Heating

circuit inlet

S05

Drinking water
circulation

S04

RL Solar WMZ

VL Solar WMZ

S03

S02

Storage tank,
bottom

S01

Solar/solar
collector

M

Changeover valve
2nd heat generator

Mixer HGM 2
(HK 2 floor)

M

Closed

Open

52/42A

0-10V pump
A40 solar
0-10V pump
A41 HGM 1
0-10V pump

A42 HGU

Pump 1 acc. to 230V
optional

A02

Pump 2 acc. to 230V
optional

A13

Pump Solar approx.
230V optional

A01

S

2

3

internally assigned

S15

internally assigned

S13

internally assigned

internally assigned

internally assigned

RC

internally assigned

BUS2

BM internally assigned

A32 release 2 WE

M

Closed

Open

M

Closed

Open

Changeover
valve, cooling

A14

Cooling pump

A11

S27

Air volume flow
warm water
(pulse)

General alarm
signal

A34

Use wire gauge corresponding with the connection cable supplied!
Lay load lines separately to measuring lines!

13

REMKO HTS series

2.6 Terminal block / key

Terminal configuration

Designation Input Output Signal Description

PW X Power supply I/O 230V

PP X Power supply primary pump IM

S01 X Solar probe collector

S02 X Solar probe storage tank, bottom

S03 X Solar probe inlet HM solar

S04 X Solar probe RF HM solar

S05 X Circulation RF temp./impulse

S06 X 2nd mixed heating cycle inlet sensor

S07 X Not connected

S08 X Drinking water storage tank at top

S09 X Buffer storage tank, centre

S10 X External probe

S11 X 1st mixed heating circuit RF

S12 X 1st mixed heating circuit INL

S13 X Heat pump inlet

S14 X 2nd mixed heating circuit RF

S15 X Heat pump RF

S16 X

S20 X Not connected

S21 X Not connected

S22 X Not connected

S23 X Ultrasonic flow rate meter solar, impulse rate

S24 X Ultrasonic flow rate meter HP, impulse rate

S25 X HP electricity meter S0

EVU contact (NC) / dewpoint monitoring external
(open = locked, closed = release)

S26 X Household electricity S0

S27 X Probe flow volume

S28 X PV yield electricity meter S0

S29 X PV in-feed electricity meter S0

A01 X Solar pump unregulated (230 V)

A02 X 1st mixed heating cycle pump (230 V) switched

A03 X Pump unmixed Heating circuit HK (230 V) switched

A04 X Circulation pump (230V) switched

A10 X Changeover valve, drinking water

14

Designation Input Output Signal Description

A11 X Changeover valve 2WE

A12 X Not connected

A13 X Pump 2nd mixed heating circuit (230 V) switched

A14 X Changeover valve / pump cooling (230 V) switched

A20 X 1st mixed heating circuit 'Open'

A21 X 1st mixed heating circuit 'Closed'

A22 X Bypass mixer 'Open'

A23 X Bypass mixer 'Closed'

A24 X 2nd mixed heating circuit 'Open'

A25 X 2nd mixed heating circuit 'Closed'

A30 X Not connected

A31 X Not connected

A32 X Enable 2nd WE booster heating or boiler

A33 X Not connected

A34 X General fault, external

A40 X Speed setting solar pump PWM

A41 X Speed specification, 1st mixed heating circ. (0-10V)

A42 X Speed specification unmixed heating circuit (0-10V)

A43 X PWM

A44 X Not connected

A45 X Not connected

A46 X Speed specification 2nd mixed heating circ. (0-10V)

MI

MO

CLK

nSS

GND

Not connected

OT 1 (2x) Not connected

OT 2 (2x) Not connected

B1, A1

+12 V

olt,

GND

B2 / A2 Bus 2 communication

B3 / A2 Not connected

R RC code resistance HTS 90/130/200/260

15

Operating module 1 - Bus 1 communication

B

C

4

6

A

2

D

5

3

7

1

REMKO HTS series

3 Electrical wiring HTS 80

3.1 Overview of electrical connection cables

Fig. 6: Overview of electrical connection HTS 80

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
1: Power supply, indoor unit, 400V / 3~ / 50Hz,

16A, e.g. 5 x 1.5 mm

2: Power supply, auxiliary heating, 400V /3~/ 50Hz,

16A, e.g. 5 x 2.5 mm

3: Power supply from indoor to outdoor unit / con-

densate drainage heating, 230V / 1~ / 50Hz,
10A, e.g. 5 x 1.5 mm

WARNING!

2

2

2

The configuration of the core cross sections can

be defined by an installation specialist!

only

All cable insertions to the indoor module are
made from above!

All cable insertions to the outdoor module are
made from below!

4: Control line, outdoor unit 0-10V (sheathed) /

sensor line (sheathed), e.g. 5 x 1.0 mm

5:

Sensor cable on external probe, e.g. 2 x 1.0 mm

6: Power supply, controller (Smart-Control)

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

7: Potential-free electrical power supply company

signal for Smart-Control S16,

NOTICE!

For an existing block the heat pump by the
utility (utility switching) must be used the control
contact S 16 of the Smart-Control.

e.g. 2 x 1.0 mm

2

2

2

2

16

3.2 Overview of terminal assignment

B

C

A

E

D

2

3 4

1

5

Fig. 7: Terminal configuration HTS 80

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
E: Electrical heating coil
1: Power supply, indoor unit,

400V / 3~ / 50Hz, 16A, e.g. 3 x 2.5 mm

Electrical connections between indoor and outdoor unit

Indoor unit Outdoor unit

Terminal Description Terminal

1 Power supply PE 1

2 Power supply L 2

3 Power supply N 3

4 Power supply, auxiliary heating L 4

5 Power supply, auxiliary heating N 5

6 Signal cable 0-10V 6

7 GND 7

2

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 1.5 mm
3: Terminals in indoor unit
4: Terminals on electrical heating coil
5: Power supply, Smart-Control controller (I/O

module)

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

2

2

8 Response signal 8

9 Temperature sensor 9

10 GND 10

17

REMKO HTS series

Electrical connections between distribution and indoor unit

Distribution Indoor unit

Terminal Description Terminal

L1

L2 L2

L3 L3

N N

Pe Pe

L

N N

Pe Pe

L1

L2 L2

L3 L3

N N

Pe Pe

Power supply, indoor unit 400V/ 3~/ 50Hz

Power supply, Smart-Control 230V/1~/ 50Hz

Power supply, Smart-Serv 400V/3~/ 50Hz 9kW

L1

L

L1

18

4 Electrical wiring HTS 90

B

C

4

6

A

2

D

5

3

7

1

4.1 Overview of electrical connection cables

Fig. 8: Overview of electrical connection HTS 90

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
1: Power supply, indoor unit, 230V / 1~ / 50Hz,

16A, e.g. 3 x 2.5 mm

2: Power supply, auxiliary heating, 400V /3~/ 50Hz,

16A, e.g. 5 x 2.5 mm

3: Power supply from indoor to outdoor unit / con-

densate drainage heating, 230V / 1~ / 50Hz,
10A, e.g. 5 x 1.5 mm

2

2

2

WARNING!

The configuration of the core cross sections can

be defined by an installation specialist!

only

All cable insertions to the indoor module are
made from above!

All cable insertions to the outdoor module are
made from below!

4: Control line, outdoor unit 0-10V (sheathed) /

sensor line (sheathed), e.g. 5 x 1.0 mm
5:

Sensor cable on external probe, e.g. 2 x 1.0 mm
6: Power supply, Smart-Control controller (I/O

module)
7: Potential-free electrical power supply company

signal for Smart-Control S16,

For an existing block the heat pump by the
utility (utility switching) must be used the control
contact S 16 of the Smart-Control.

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

e.g. 2 x 1.0 mm

NOTICE!

2

2

2

2

19

B

C

A

E

D

2

3 4

1

5

REMKO HTS series

4.2 Overview of terminal assignment

Fig. 9: Terminal configuration HTS 90

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
E: Electrical heating coil
1: Power supply, indoor unit,

230V / 1~ / 50Hz, 16A, e.g. 3 x 2.5 mm

Electrical connections between indoor and outdoor unit

Indoor unit Outdoor unit

Terminal Description Terminal

1 Power supply PE 1

2 Power supply L 2

3 Power supply N 3

4 Power supply, auxiliary heating L 4

5 Power supply, auxiliary heating N 5

6 Signal cable 0-10V 6

7 GND 7

2

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm
3: Terminals in indoor unit
4: Terminals on electrical heating coil
5: Power supply, controller (I/O module)

230V / 1~ / 50Hz, e.g. 3 x 1.5 mm

2

2

8 Response signal 8

9 Temperature sensor 9

10 GND 10

20

Electrical connections between distribution and indoor unit

Distribution Indoor unit

Terminal Description Terminal

L1

N N

Pe Pe

L

N N

Pe Pe

L1

L2 L2

L3 L3

N N

Pe Pe

Power supply, indoor unit 230V/ 1~/ 50Hz

Power supply, Smart-Control 230V/1~/ 50Hz

Power supply, Smart-Serv 400V/3~/ 50Hz 9kW

L1

L

L1

21

B

C

4

6

A

2

D

5

3

7

1

REMKO HTS series

5 Electrical wiring HTS 110

5.1 Overview of electrical connection cables

Fig. 10: Overview of electrical connection HTS 110

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
1: Power supply, indoor unit, 400V / 3~ / 50Hz,

16A, e.g. 5 x 2.5 mm

2: Power supply, auxiliary heating, 400V /3~/ 50Hz,

16A, e.g. 5 x 2.5 mm

3: Power supply from indoor to outdoor unit / con-

densate drainage heating, 230V / 1~ / 50Hz,
10A, e.g. 5 x 1.5 mm

WARNING!

2

2

2

The configuration of the core cross sections can

be defined by an installation specialist!

only

All cable insertions to the indoor module are
made from above!

All cable insertions to the outdoor module are
made from below!

4: Control line, outdoor unit 0-10V (sheathed) /

sensor line (sheathed), e.g. 5 x 1.0 mm
5:

Sensor cable on external probe, e.g. 2 x 1.0 mm
6: Power supply, Smart-Control controller (I/O

module)
7: Potential-free electrical power supply company

signal for Smart-Control S16,

For an existing block the heat pump by the
utility (utility switching) must be used the control
contact S 16 of the Smart-Control.

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

e.g. 2 x 1.0 mm

NOTICE!

2

2

2

2

22

5.2 Overview of terminal assignment

B

C

A

E

D

2

3 4

1

5

Fig. 11: Terminal configuration HTS 110

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
E: Electrical heating coil
1: Power supply, indoor unit,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm

Electrical connections between indoor and outdoor unit

Indoor unit Outdoor unit

Terminal Description Terminal

1 Power supply PE 1

2 Power supply L 2

3 Power supply N 3

4 Power supply, auxiliary heating L 4

5 Power supply, auxiliary heating N 5

6 Signal cable 0-10V 6

7 GND 7

2

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm
3: Terminals in indoor unit
4: Terminals on electrical heating coil
5: Power supply, control unit (I/O module)

400V / 3~ / 50Hz, e.g. 3 x 1.5 mm

2

2

8 Response signal 8

9 Temperature sensor 9

10 GND 10

23

REMKO HTS series

Electrical connections between distribution and indoor unit

Distribution Indoor unit

Terminal Description Terminal

L1

L2 L2

L3 L3

N N

Pe Pe

L

N N

Pe Pe

L1

L2 L2

L3 L3

N N

Pe Pe

Power supply, indoor unit 400V/ 3~/ 50Hz

Power supply, Smart-Control 230V/1~/ 50Hz

Power supply, Smart-Serv 400V/3~/ 50Hz 9kW

L1

L

L1

24

6 Electrical wiring HTS 130

B

C

4

6

A

2

D

5

3

7

1

6.1 Overview of electrical connection cables

Fig. 12: Overview of electrical connection HTS 130

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
1: Power supply, indoor unit, 400V / 3~ / 50Hz,

16A, e.g. 5 x 2.5 mm

2: Power supply, auxiliary heating, 400V /3~/ 50Hz,

16A, e.g. 5 x 2.5 mm

3: Power supply from indoor to outdoor unit / con-

densate drainage heating, 230V / 1~ / 50Hz,
10A, e.g. 5 x 1.5 mm

2

2

2

WARNING!

The configuration of the core cross sections can

be defined by an installation specialist!

only

All cable insertions to the indoor module are
made from above!

All cable insertions to the outdoor module are
made from below!

4: Control line, outdoor unit 0-10V (sheathed) /

sensor line (sheathed), e.g. 5 x 1.0 mm
5:

Sensor cable on external probe, e.g. 2 x 1.0 mm
6: Power supply, controller (I/O module)

230V / 1~ / 50Hz, e.g. 3 x 1.5 mm
7: Electrical power supply company signal for

Smart-Control S16, e.g. 2 x 1.0 mm

NOTICE!

For an existing block the heat pump by the
utility (utility switching) must be used the control
contact S 16 of the Smart-Control.

2

2

2

2

25

B

C

A

E

D

2

3 4

1

5

REMKO HTS series

6.2 Overview of terminal assignment

Fig. 13: Terminal configuration HTS 130

A: Outdoor unit
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
E: Electrical heating coil
1: Power supply, indoor unit,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm

Electrical connections between indoor and outdoor unit

Indoor unit Outdoor unit

Terminal Description Terminal

1 Power supply PE 1

2 Power supply L 2

3 Power supply N 3

4 Power supply, auxiliary heating L 4

5 Power supply, auxiliary heating N 5

6 Signal cable 0-10V 6

7 GND 7

2

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm
3: Terminals in indoor unit
4: Terminals on electrical heating coil
5: Power supply, control unit (I/O module)

230V / 1~ / 50Hz, e.g. 3 x 1.5 mm

2

2

8 Response signal 8

9 Temperature sensor 9

10 GND 10

26

Electrical connections between distribution and indoor unit

Distribution Indoor unit

Terminal Description Terminal

L1

L2 L2

L3 L3

N N

Pe Pe

L

N N

Pe Pe

L1

L2 L2

L3 L3

N N

Pe Pe

Power supply, indoor unit 400V/ 3~/ 50Hz

Power supply, Smart-Control 230V/1~/ 50Hz

Power supply, Smart-Serv 400V/3~/ 50Hz 9kW

L1

L

L1

27

D

B

C

3

4

5

A

1

A

2

2

1

7

6

8

9

REMKO HTS series

7 Electrical wiring HTS 200

7.1 Overview of electrical connection cables

Fig. 14: Connection cables HTS 200

A1: Outdoor unit 1
A2: Outdoor unit 2
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
1: Power supply, indoor unit,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm

3: Power supply from IM to AM 1 /

condensate drain heating,
230V /1~/ 50Hz, 10A, e.g. 5 x 1.5 mm

2

4: Power supply from IM to AM 2 /

condensate drain heating,

WARNING!

The configuration of the core cross sections can
only be defined by an installation specialist!

230V /1~/ 50Hz, 10A, e.g. 5 x 1.5 mm

2

5: Control line, outdoor unit 1 (sheathed) / sensor

line (sheathed), e.g. 5 x 1.0 mm

2

6: Control line, outdoor unit 2, (sheathed),

e.g. 3 x 1.0 mm

2

2

7: Sensor cable on external probe, e.g. 2 x 1.0

2

mm

8: Power supply, Smart-Control controller (I/O

module)

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

2

2

9: Potential-free electrical power supply company

signal for Smart-Control S16, e.g. 2 x 1.0 mm

2

All cable insertions to the indoor module are
made from above!

All cable insertions to the outdoor module are
made from below!

NOTICE!

For an existing block the heat pump by the
utility (utility switching) must be used the control
contact S 16 of the Smart-Control.

28

7.2 Overview of terminal assignment

E

D

3 4

A1

A2

B

C

1

2

5

Fig. 15: Terminal configuration HTS 200

A1: Outdoor unit 1
A2: Outdoor unit 2
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
E: Electrical heating coil
1: Power supply, indoor unit,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm
3: Terminals in indoor unit
4: Terminals on electrical heating coil
5: Power supply, Smart-Control controller (I/O

module)

2

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

2

2

29

REMKO HTS series

Electrical connections between indoor and outdoor unit 1

Indoor unit Outdoor unit 1

Terminal Description Terminal

1 Power supply PE 1

2 Power supply L 2

3 Power supply N 3

4 Power supply, auxiliary heating L 4

5 Power supply, auxiliary heating N 5

6 Signal cable 0-10V 6

7 GND 7

8 Response signal 8

9 Temperature sensor 9

10 GND 10

Electrical connections between indoor module and outdoor unit 2

Indoor unit Outdoor unit 2

Terminal Description Terminal

11 Power supply PE 1

12 Power supply L 2

13 Power supply N 3

14 Power supply, auxiliary heating L 4

15 Power supply, auxiliary heating N 5

16 Signal cable 0-10V 6

17 GND 7

18 Response signal 8

19 Not connected 9

20 Not connected 10

30

Electrical connections between distribution and indoor unit

Distribution Indoor unit

Terminal Description Terminal

L1

L2 L2

L3 L3

N N

Pe Pe

L

N N

Pe Pe

L1

L2 L2

L3 L3

N N

Pe Pe

Power supply, indoor unit 400V/ 3~/ 50Hz

Power supply, Smart-Control 230V/1~/ 50Hz

Power supply, Smart-Serv 400V/3~/ 50Hz 9kW

L1

L

L1

31

D

B

C

3

4

5

A

1

A

2

2

1

7

6

8

9

REMKO HTS series

8 Electrical wiring HTS 260

8.1 Overview of electrical connection cables

Fig. 16: Connection cables HTS 260

A1: Outdoor unit 1
A2: Outdoor unit 2
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
1: Power supply, indoor unit,

400V/3~/50Hz, 20A, e.g. 5 x 2.5 mm

2

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm

3: Power supply from IM to AM 1 /

condensate drain heating,
230V /1~/ 50Hz, 10A, e.g. 5 x 1.5 mm

2

4: Power supply from IM to AM 2 /

condensate drain heating,

WARNING!

The configuration of the core cross sections can
only be defined by an installation specialist!

230V /1~/ 50Hz, 10A, e.g. 5 x 1.5 mm

2

5: Control line, outdoor unit 1 (sheathed) / sensor

line (sheathed), e.g. 5 x 1.0 mm

2

6: Control line, outdoor unit 2, (sheathed),

e.g. 3 x 1.0 mm

2

7: Sensor cable on external probe, e.g. 2 x 1.0

2

mm

2

8: Power supply, Smart-Control controller (I/O

module) 230V /1~/ 50Hz, e.g. 3 x 1.5 mm

2

9: Potential-free electrical power supply company

signal for Smart-Control S16,

e.g. 2 x 1.0 mm

2

All cable insertions to the indoor module are
made from above!

All cable insertions to the outdoor module are
made from below!

NOTICE!

For an existing block the heat pump by the
utility (utility switching) must be used the control
contact S 16 of the Smart-Control.

32

8.2 Overview of terminal assignment

E

D

3 4

A1

A2

B

C

1

2

5

Fig. 17: Terminal configuration HTS 260

A1: Outdoor unit 1
A2: Outdoor unit 2
B: Indoor unit
C: Customer-provided sub-distribution
D: External probe
E: Electrical heating coil
1: Power supply, indoor unit,

400V / 3~ / 50Hz, 20A, e.g. 5 x 2.5 mm

2: Power supply, auxiliary heating,

400V / 3~ / 50Hz, 16A, e.g. 5 x 2.5 mm
3: Terminals in indoor unit
4: Terminals on electrical heating coil
5: Power supply, Smart-Control controller (I/O

module)

2

230V /1~/ 50Hz, e.g. 3 x 1.5 mm

2

2

33

REMKO HTS series

Electrical connections between indoor and outdoor unit 1

Indoor unit Outdoor unit 1

Terminal Description Terminal

1 Power supply PE 1

2 Power supply L 2

3 Power supply N 3

4 Power supply, auxiliary heating L 4

5 Power supply, auxiliary heating N 5

6 Signal cable 0-10V 6

7 GND 7

8 Response signal 8

9 Temperature sensor 9

10 GND 10

Electrical connections between indoor module and outdoor unit 2

Indoor unit Outdoor unit 2

Terminal Description Terminal

11 Power supply PE 1

12 Power supply L 2

13 Power supply N 3

14 Power supply, auxiliary heating L 4

15 Power supply, auxiliary heating N 5

16 Signal cable 0-10V 6

17 GND 7

18 Response signal 8

19 Not connected 9

20 Not connected 10

34

Electrical connections between distribution and indoor unit

Distribution Indoor unit

Terminal Description Terminal

L1

L2 L2

L3 L3

N N

Pe Pe

L

N N

Pe Pe

L1

L2 L2

L3 L3

N N

Pe Pe

Power supply, indoor unit 400V/ 3~/ 50Hz

Power supply, Smart-Control 230V/1~/ 50Hz

Power supply, Smart-Serv 400V/3~/ 50Hz 9kW

L1

L

L1

35

L3

-X1

Spannungsv. 400V

Bauseits

L2 L1 N PE

PE

-K1

Freigabe Verdichter

-> µPC - NO1

A1

-K1

Freigabe Verdichter

-> µPC - G

M

3

T3

T2

T1
PE

-K1

Spannungsv. 400V

Verdichter

1

-X2

Aussenmodul 1

-> ODU

L

-X2.1

Spannungsv. 230V

-> SMT I/O - Pout1

2

X1.1
X1.2
X1.3
X1.4
X1.5
K1

PR1

X2.1

X2.2

X2.3

X2.4

L3

L2

L1

N

PE

A2

14/NO

6T3

4T2

2T1

1

23

45

6

78

9

10

1412

11

L3

L2

L1

N

PE

A1

13/NO

5L3

3L2

1L1

2 3

4 5

6

7 8

9

10

L2

L1 L3

-X

Klemmblock

Inenmodul

N

3 4

NO5

-X2.2

Kondensatheizung

-> µPC - NO5

5 6 7 8 9

B3

-X2.4

Aussentemperatur

-> µPC - B3

10

DI2

-PR1

Phasenüberwachung

-> µPC - DI2

Y3

-X2.3

Steuersignal Lüfter

-> µPC - Y3

GND

DI1

-X2.3

Störmeldung Lüfter

-> µPC - DI1

GND

1

-ODU

Aussenmodul

-> X2

2345678910

123456789

10

-ODU

Klemmblock

Aussenmodul



1

2

-B3

NTC

Aussentemperatur

N

L

-HD

Heizwiderstand

Kondensatheizung

M

L

N
PE

E1
GND
11
14

-FAN

EC Motor 230V

Verdampferlüfter

0 1 2 3 4 5 6 7 8 9 10 11

1/6

HTS 80-110

0

1 2 3 4 5 6 7 8 9 10 11

1/8/2019

Projekt Titel:

Enable compressor

Power supply 400V

Enable compressor

Power supply 400V

Outdoor unit 1

Phase monitoring

NTC

Heating resistor

EC Motor 230V

Terminal block

Outdoor unit

Terminal block

Project title: HTS 80-110

-> μPC - G

Provided by the customer

-> μPC - NO1

Compressor

-> ODU

-> μPC / DI2

Outside temperature

Condensate heating

Evaporator fan

Indoor unit

Outdoor unit

Power supply 230V

Condensate heating

Outside temperature

Fan control signal

Fan alarm code

-> SMT I/O - Pout1

-> μPC - NO5

REMKO HTS series

9 Circuit diagrams

36

G0

-Pout1

Spannungsversorgung 230V

-> µPC - J1

G

PE

PE

-Pin

Spannungsversorgung 230V

SMT I/O - Bauseits

N L

S0

Imp/kWh

+

-

-S25

Stromzähler S0

Wärmepumpe

S0

Imp/kWh

+

-

-S26

Stromzähler S0

Haushalt

1

M

PE
N
L

-Pout1

Versorgung 230V

Interne Pumpe A43

13 1

4

-S27

Volumenstrom, Imp.

Warmwasser

M

N
SP
DP

-A10

Umschaltventil 230V

Warmwasserbereitung

S0

Imp/kWh

+

-

-S28

Stromzähler S0

PV Ertrag

S0

Imp/kWh

+

-

-S29

Stromzähler S0

PV Einspeisung

M

N
SP
DP

-A11

Umschaltventil 230V

2. Wärmeerzeuger

U

t

­+

-A40

Signal PWM

Solarkreis

U

t

­+

-A41

Signal 0-10V / PWM

1. gem. Kreis

U

t

­+

-A42

Signal 0-10V / PWM

ungem. Kreis

1

M

PE
N
L

-A13

Pumpe 230V

2. gem. Kreis

U

t

­+

-A43

Signal PWM

Interne Pumpe

Power Actuator Output Actuator Output Actuator OutputActuator Supply

Sensor Inputs Actuator Signal Actuator Signal SPI OT Interfaces Bus Interfaces Rc

Systemregler SMT I/O

PE
N
L

PE
N
L

PE
N
L

PE
N
A10
L

PE
N
A11
L

PE
N
A12
L

PE
N
A13
L

PE
N
A14
L

PE
N
A01

PE
N
A02

PE
N
A03

PE
N
A04

PE
N
A20
A21

PE
N
A22
A23

PE
N
A24
A25

S25
+5V
GND

S26
+5V
GND

S27
+5V
GND

S28
+5V
GND

S29
+5V
GND

GND
A40

GND
A41

GND
A42

GND
A43

GND
A44

GND
A45

GND
A46

MI
MO
CLK
nSS
GND

OT1
OT1

OT2
OT2

+12V
B1
A1
GND

B2
A2

B3
A3

R
GND

-SMT_I/O_UNTEN

Systemregler

M

N
SP
DP

-A14

Umschaltventil 230V

Separater Kühlkreis

1

M

PE
N
L

-A01

Pumpe 230V

Solarkreis

U

t

­+

-A46

Signal 0-10V / PWM

2. gem. Kreis

1

M

PE
N
L

-A02

Pumpe 230V

1. gem. Kreis

1

M

PE
N
L

-A03

Pumpe 230V

ungem. Kreis

1

M

PE
N
L

-A04

Pumpe 230V

Trinkwasser Zirkulation

+12V

-12V

Spannungsvers.

-> SMT Touch

GND

M

N
Auf
Zu

-A20/A21

Mischventil 230V

1. gem. Kreis

GND

-B2/A2

Kommunikation

-> µPC - J6

- +

M

N
Auf
Zu

-A22/A23

Ventil 230V

Bypass

B

-B3/A3

Kommunikation

-> Raumsensor - B/A

A

1

2

-RC

Kodierwiderstand

Geräteabhängig

M

N
Auf
Zu

-A24/A25

Mischventil 230V

2. gem. Kreis

Kodierwiderstände:

HTS 80 -> 10 Ohm

HTS 110 -> 20 Ohm

HTS 80 -> 10 Ohm

HTS 110 -> 20 Ohm

0 1 2 3 4 5 6 7 8 9 10 11

2/6

HTS 80-110

0

1 2 3 4 5 6 7 8 9 10 11

1/8/2019

Projekt Titel:

Project title: HTS 80-110

Coding resistors:

System controller SMT I/O

Sensor Inputs Actuator Signal Actuator Signal OT Interfaces Bus Interfaces

Actuator OutputActuator OutputActuator OutputActuator SupplyPower

SPI

Electricity meter S0

Power supply 230V

Changeover valve 230V

Changeover valve 230V

Pump 230V

Changeover valve 230V

Pump 230V

System controller

Pump 230V

Pump 230V

Pump 230V

Mixed valve 230V

Valve 230V

Mixed valve 230V

Power supply 230V

Power supply 230V

Electricity meter S0

Medium ow rate, Imp.

Electricity meter S0

Electricity meter S0

Signal PWM

Signal 0-10V / PWM

Signal 0-10V / PWM

Signal PWM

Signal 0-10V / PWM

Power supply

Communication

Communication

Coding resistor

Heat pump

Internal pump A43

Hot water preparation

2. Heat generator

2nd mixed circuit

Separate cooling circuit

Solar circuit

1st mixed circuit

Unmixed circuit

Drinking water circulation

GND 1st mixed circuit

Bypass

2nd mixed circuit

SMT I/O - Provided by the

customer

Household

Hot water

PV yield

PV feed-in

Solar circuit

1st mixed circuit

Unmixed Circuit 1

Internal pump

2nd mixed circuit

-> SMT Touch

-> μPC - J6

-> Room sensor - B/A

Device-dependent

-SMT_I/O_BOTTOM

Open

Open

Open

Close

Close

Close

37

13 1

4

-S23

Volumenstrom, Imp.

Solarkreis



3 1 4 2 5

-S24/S15

PT1000 / Vol. Imp.

RL / Vol. Wärmep.



1

2

-S01

PT1000

Kollektorfühler



1

2

-S02

PT1000

Speicherfühler, Solar

RJ45

-RJ45

Kommunikation

-> SMT Touch



1

2

-S03

PT1000

Vorlauf, Solar



1

2

-S04

PT1000

Rücklauf, Solar



1

2

-S05

PT1000 / Impuls

Zirkulation



1

2

-S06

PT1000

Vorlauf, 2. gem. Kreis



1

2

-S08

PT1000

Warmwasserspeicher

G0

-A32

Spannung 230V

-> µPC - G0



1

2

-S09

PT1000

Pufferspeicher



1

2

-S10

PT1000

Außentemperatur



1

2

-S11

PT1000

Rücklauf, 1. gem. Kreis



1

2

-S12

PT1000

Vorlauf, 1. gem. Kreis



1

2

-S13

PT1000

Vorlauf, Wärmepumpe

Potential Free Outputs

Sensor InputsSensor InputsSensor InputsSensor Inputs

Systemregler SMT I/O

In
A30

In
A31

In
A32

In
A33

In
A34

S20
+5V
GND
S40
S41

S21
+5V
GND
S42
S43

S22
+5V
GND
S44
S45

S23
+5V
GND
S46
S47

S24
+5V
GND
S48
S49

S01
GND

S02
GND

RJ45

S03
GND

S04
GND

S05
GND

S06
GND

S07
GND

S08
GND

S09
GND

S10
GND

S11
GND

S12
GND

S13
GND

S14
GND

S15
GND

S16
GND

-SMT_I/O_OBEN

Systemregler

L

-A32

Freigabe E-Heizer

-> EHZ - ST2



1

2

-S14

PT1000

Rücklauf, 2. gem. Kreis

In

-A34

Potentialfreier Kontakt

Sammelstörmeldung

A34

S16

-S16

Brücke / Öffner-K.

EVU Sperre

GND

Bei Verwendung einer EVU Sperre darf nur der
Verdichter Spannungslos geschaltet werden!Verdichter Spannungslos geschaltet werden!

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3/6

HTS 80-110

0

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1/8/2019

Projekt Titel:

Project title: HTS 80-110

System controller SMT I/O

Medium ow rate, Imp.

PT1000 / Vol. Imp.

Communication

PT1000 / Impulse

Potential-free contact

Enable E-heater

Solar circuit

RF / Vol. Heat Pump

-> SMT Touch

Circulation

General alarm signal

Inlet, 2nd mixed circuit

Hot water storage tank

Bu󰀨er tank

Outside temperature

Return ow, 1st mixed circuit

Inlet, 1st mixed circuit

Inlet, heat pump

Return ow, 2nd mixed circuit

Inlet, Solar

Return ow, Solar

Collector probe

Storage tank probe, Solar

Sensor Inputs Sensor Inputs Sensor Inputs Sensor Inputs

Potential-Free Outputs

Jumper / NC terminal

System controller

Voltage 230V

Power utility block

When using a power utility block, only power to
compressor may be switched!

-SMT_I/O_TOP

REMKO HTS series

38

N

-J1

Spannungsv. 230V

-> SMT I/O - Pout1

L

GND

-DI2

Phasenfolge

-> Klemmblock PR1

DI2



1

2

-B1

NTC

Wasser Eintritt



1

2

-B2

NTC

Wasser Austritt

B3

-B3

Aussentemperatur

-> Klemmblock X2.4



1

2

-B4

NTC

Sauggas



1

2

-B5

NTC-HT

Heißgas

S

J11

-J11

Steuersignal

Expansionsventil

1 3

2

-B6

RAZ 0-5V

Niederdruck

1 3

2

-B7

RAZ 0-5V

Hochdruck

GND

-J6

Kommunikation

-> SMT I/O - B2/A2

G

-NO1

Freigabe Verdichter

-> Klemmblock K1

A2

NO1

B2
DI1

-DI1

Störmeldung Lüfter

-> Klemmblock X2.3

J7

J8

J9

J10

J11

J12 J13 J14

J1 J2 J3

J6

J4 J5

Kätekreis Regler µPC

1 2 3 4 1 23 456

pLAN

R-/T-

R+/T+

GND

Vout

R-/T-

R+/T+

GND

C1
NO1
NO2
NO3

C2
NO4
NO5
NO6

NO7
C3
NC7

G
G0

+Vdc
GND
+5VR

B1

B2

B3

B4

B5

B6

B7

GND
+Vdc

GND
+

-

DI1

DI2

DI3

DI4

DI5

DI6

DI7
DIC1

GND
Y1
Y2
Y3

-µPC

Kältekreis Regler

1
2

-NO2

Ausgang 230V

4 - Wege Ventil

P

1

2

-DI3

Öffner-Kontakt

Hochdruckschalter

NO5

-NO5

Kondensatheizung

-> Klemmblock X2.2

GND

-Y3

Lüfter Steuersignal

-> Klemmblock X2.3

Y3

6

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4/6

HTS 80-110

0

1 2 3 4 5 6 7 8 9 10 11

1/8/2019

Projekt Titel:

Project title: HTS 80-110

Cold circuit controller μPC

Power supply 230V

Control signal

Enable compressor

Condensate heating

Output 230V

Phase sequence

Outside temperature

Communication

NC contact

Fan control signal

Fan alarm code

-> SMT I/O - Pout1

Expansion valve

-> Terminal block K1

-> Terminal block X2.2

4-way valve

-> T erminal block PR1

-> T erminal block X2.4

-> SMT I/O - B2/A2

High pressure switch

-> T erminal block X2.3

-> Terminal block X2.3

Suction gas

Heat gas

Low pressure

High pressure

Water inlet

Water outlet

Cooling cycle controller

39

USB

-USB

Kommunikation

-> LAN - / WLAN Adapter

Smart-Control Touch

USB

RJ45

GND
+12V

-SMT_Touch

Bedienteil

RJ45

-RJ45

Kommunikation

-> SMT I/O - RJ45

GND

-12V

Spannungsvers.

-> SMT I/O - 12V

+12V

Raumsensor

A
V+
V­B

-RS1

Raumsensor

ungem. Kreis

Raumsensor

A
V+
V­B

-RS2

Raumsensor

1. gem. Kreis

Raumsensor

A
V+
V­B

-RS3

Raumsensor

2. gem. Kreis

B3

-B/A

Kommunikation

-> SMT I/O - B3/A3

A3

Jeder Raumsensor benötigt eine eindeutige Geräteadresse!

-> Siehe Bedienunsanleitung des Raumsensors. -> Siehe Bedienunsanleitung des Raumsensors.

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5/6

HTS 80-110

0

1 2 3 4 5 6 7 8 9 10 11

1/8/2019

Projekt Titel:

Project title: HTS 80-110

Communication

Control element

Communication

Power supply

Room sensor Room sensor Room sensor

-> LAN - / WLAN adapter

-> SMT I/O - RJ45

-> SMT I/O - 12V

Unmixed circuit 1st mixed circuit 2nd mixed circuit

Smart Control Touch

Room sensor

Each space probe requires a unique device address!

-> See the operating instructions for the space probe.

Room sensor

Room sensor

Communication

-> SMT I/O - B3/A3

REMKO HTS series

40

PE

-EHZ

Spannungsvers. 400V

Bauseits

L1L2L3

N

A32

-ST2

Freigabe E-Heizer

-> SMT I/O - A32

N

-ST2

N, PE E-Heizer

-> X2.2

PE

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

L N

-SN1

X1

X2

-H1

1

2

-R1

K2.1

K2.2

A1

11

21

A1

11

21

A2

14

24

A2

14

24

STB 95°C





30°C - 78°C

-EHZ

Elektro Heizstab

PE

-EHZ

Spannungsvers. 3x230V

Bauseits

LLLNN

N

A32

-ST2

Freigabe E-Heizer

-> SMT I/O - A32

N

-ST2

N, PE E-Heizer

-> X2.2

PE

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

L N

-SN2

X1

X2

-H2

1

2

-R2

K2.1

K2.2

A1

11

21

A1

11

21

A2

14

24

A2

14

24

STB 95°C





30°C - 78°C

-EHZ.

Elektro Heizstab

Elektro Heizstab 3x230V

Elektro Heizstab 400V

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6/6

HTS 80-110

0

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1/8/2019

Projekt Titel:

PE

-EHZ

Spannungsvers. 400V

Bauseits

L1L2L3

N

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

L N

-SN1

X1

X2

-H1

1

2

-R1

K2.1

K2.2

A1

11

21

A1

11

21

A2

14

24

A2

14

24

STB 95°C





30°C - 78°C

PE

-EHZ

Spannungsvers. 3x230V

Bauseits

LLLNN

N

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

-SN2

0 1 2 3 4 5 6 7 8 9 10 11

Project title: HTS 80-110

Electric heating element 400V

Electric heating element 3x230V

Enable E-heater

Power supply 400V

Electric heating element

Plug voltage 400V Power supply 3x230V Plug voltage 400V

Plug for control line

Plug for control line

N, PE E-heater

-> SMT I/O - A32

Provided by the customer

Electric heating element Provided by the customer Electric heating element

Electric heating element

Electric heating element

Enable E-heater

N, PE E-heater

Electric heating element

41

L3

-X1

Spannungsvers. 400V

Bauseits

L3

-X1

Spannungsv. 400V

-> INV

L2

L2/N

L1

L1/L

N

PE

PE 1

-X2

Aussenmodul 1

-> ODU

L

-X2.1

Spannungsv. 230V

-> SMT I/O - Pout1

2

N

3

X1.1
X1.2
X1.3
X1.4
X1.5

X2.1

X2.2

X2.3

X2.4

L3

L2

L1

N

PE

1

23

45

6

78

9

10

L3

L2

L1

N

PE

2 3

4 5

6

7 8

9

10

-X

Klemmblock

Innenmodul

4

NO5

-X2.2

Kondensatheizung

-> µPC - NO5

5 6 7 8 9

B3

-X2.4

Aussentemperatur

-> µPC - B3

10

Y3

-X2.3

Steuersignal Lüfter

-> µPC - Y3

DI1

-X2.3

Störmeldung Lüfter

-> µPC - DI1

GND

1

-ODU

Aussenmodul 1

-> X2

2345678910

123456789

10

-ODU

Klemmblock

Aussenmodul



1

2

-B3.

NTC

Aussentemperatur

N

L

-HD

Heizwiderstand

Kondensatheizung

M

L

N

PE

E1
GND
11
14

-FAN

EC Motor 230V

Verdampferlüfter

HTS 90 und HTS 130

Bei der HTS 90 fallen L2 und L3 weg!

In diesem Fall ist der Nullleiter N an

der Klemme L2/N des Inverters

angeschlossen.

In diesem Fall ist der Nullleiter N an

der Klemme L2/N des Inverters

angeschlossen.

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1/8

0

1 2 3 4 5 6 7 8 9 10 11

1/28/2019

Projekt Titel:

HTS 90-130-200-260

HTS 90 and HTS 130

On the HTS 90 machine, L2 and L3

are not required!

In this case, the neutral wire N is

connected to terminal L2/N on the

inverter.

Power supply 400V

Power supply 400V

Outdoor unit 1

Power supply 230V

Condensate heating

Outside temperature

Fan control signal

Fan alarm code

Heating resistor

EC Motor 230V

Terminal block

Outdoor unit 1

Terminal block

-> SMT I/O - Pout1

-> μPC - NO5

-> μPC - B3

-> μPC - Y3

-> μPC - DI1

Condensate heating

Evaporator fan

Indoor unit

Outdoor unit

Project title: HTS 90-130-200-260

Outside temperature

-> INV

Provided by the customer

-> ODU

REMKO HTS series

42

Projekt Titel:

HTS 90-130-200-260

L3

-X1

Spannungsvers. 400V

Bauseits

L3

-X1

Spannungsv. 400V

-> INV

L2

L2/N

L1

L1/L

N

PE

PE 1

-X2

Aussenmodul 1

-> ODU1

L

-X2.1-X3.1

Spannungsv. 230V

-> SMT I/O - Pout1

2

N

3 4

NO5

-X2.2-X3.2

Kondensatheizung

-> µPC - NO5

5 6 7 8 9

X1.1
X1.2
X1.3
X1.4
X1.5

X2.1

X2.2

X2.3

X2.4

X3.4

X3.3

X3.2

X3.1

L3

L2

L1

N

PE

1

23

45

6

78

9

10

11

1213

1415

16

1718

19

20

L3

L2

L1

N

PE

2 3

4 5

6

7 8

9

10

12 13

14 15

16

17 18

19

20

-X.

Klemmblock

Innenmodul

B3

-X2.4

Aussentemperatur

-> µPC - B3

10 1

-X3

Aussenmodul 2

-> ODU2

2 3 4 5 6

Y3

-X2.3-X3.3

Steuersignal Lüfter

-> µPC - Y3

7 8

DI1

-X3.3

Störmeldung Lüfter

-> µPC - DI1

GND

1

-ODU1

Aussenmodul 1

-> X2

2345678910

11

-ODU2

Aussenmodul 2

-> X3

12131415161718

123456789

10

-ODU1

Klemmblock

Aussenmodul 1

123456789

10

-ODU2

Klemmblock

Aussenmodul 2



1

2

-B3.1

NTC

Aussentemperatur



1

2

-B3.2

NTC

Aussentemperatur

N

L

-HD1

Heizwiderstand

Kondensatheizung

N

L

-HD2

Heizwiderstand

Kondesatheizung

M

L

N
PE

E1

GND

11

14

-FAN1

EC Motor 230V

Verdampferlüfter

M

L N PE

E1
GND
11
14

-FAN2

EC Motor 230V

Verdampferlüfter

HTS 200 und HTS 260

0 1 2 3 4 5 6 7 8 9 10 11

2/8

0

1 2 3 4 5 6 7 8 9 10 11

1/28/2019

HTS 200 and HTS 260

Project title: HTS 90-130-200-260

Power supply 400V

-> INV

Power supply 230V

Condensate heating

Outside temperature

Fan control signal

Fan alarm code

-> SMT I/O - Pout1

-> μPC - NO5

-> μPC - B3

-> μPC - Y3

-> μPC - DI1

Power supply 400V

Outdoor unit 2

Outdoor unit 1

Terminal block

Indoor unit

Provided by the customer

-> ODU2

-> ODU1

Heating resistorHeating resistor

EC Motor 230VEC Motor 230V

Outdoor unit 1

Outdoor unit 2

Terminal block

Terminal block

Condensate heatingCondensate heating

Evaporator fanEvaporator fan

Outdoor unit 1

Outdoor unit 2

Outside temperatureOutside temperature

43

Projekt Titel:

HTS 90-130-200-260

G0

-Pout1

Spannungsversorgung 230V

-> µPC - J1

G

PE

PE

-Pin

Spannungsversorgung 230V

SMT I/O - Bauseits

N L

S0

Imp/kWh

+

-

-S25

Stromzähler S0

Wärmepumpe

S0

Imp/kWh

+

-

-S26

Stromzähler S0

Haushalt

1

M

PE
N
L

-Pout1

Versorgung 230V

Interne Pumpe A43

13 1

4

-S27

Volumenstrom, Imp.

Warmwasser

M

N
SP
DP

-A10

Umschaltventil 230V

Warmwasserbereitung

S0

Imp/kWh

+

-

-S28

Stromzähler S0

PV Ertrag

S0

Imp/kWh

+

-

-S29

Stromzähler S0

PV Einspeisung

M

N
SP
DP

-A11

Umschaltventil 230V

2. Wärmeerzeuger

U

t

­+

-A40

Signal PWM

Solarkreis

U

t

­+

-A41

Signal 0-10V / PWM

1. gem. Kreis

U

t

­+

-A42

Signal 0-10V / PWM

ungem. Kreis

1

M

PE
N
L

-A13

Pumpe 230V

2. gem. Kreis

U

t

­+

-A43

Signal PWM

Interne Pumpe

Power Actuator Output Actuator Output Actuator OutputActuator Supply

Sensor Inputs Actuator Signal Actuator Signal SPI OT Interfaces Bus Interfaces Rc

Systemregler SMT I/O

PE
N
L

PE
N
L

PE
N
L

PE
N
A10
L

PE
N
A11
L

PE
N
A12
L

PE
N
A13
L

PE
N
A14
L

PE
N
A01

PE
N
A02

PE
N
A03

PE
N
A04

PE
N
A20
A21

PE
N
A22
A23

PE
N
A24
A25

S25
+5V
GND

S26
+5V
GND

S27
+5V
GND

S28
+5V
GND

S29
+5V
GND

GND
A40

GND
A41

GND
A42

GND
A43

GND
A44

GND
A45

GND
A46

MI
MO
CLK
nSS
GND

OT1
OT1

OT2
OT2

+12V
B1
A1
GND

B2
A2

B3
A3

R
GND

-SMT_I/O_UNTEN

Systemregler

M

N
SP
DP

-A14

Umschaltventil 230V

Separater Kühlkreis

1

M

PE
N
L

-A01

Pumpe 230V

Solarkreis

U

t

­+

-A46

Signal 0-10V / PWM

2. gem. Kreis

1

M

PE
N
L

-A02

Pumpe 230V

1. gem. Kreis

1

M

PE
N
L

-A03

Pumpe 230V

ungem. Kreis

1

M

PE
N
L

-A04

Pumpe 230V

Trinkwasser Zirkulation

+12V

-12V

Spannungsvers.

-> SMT Touch

GND

M

N
Auf
Zu

-A20/A21

Mischventil 230V

1. gem. Kreis

GND

-B2/A2

Kommunikation

-> µPC - J6

- +

M

N
Auf
Zu

-A22/A23

Ventil 230V

Bypass

B

-B3/A3

Kommunikation

-> Raumsensor - B/A

A

1

2

-RC

Kodierwiderstand

Geräteabhängig

M

N
Auf
Zu

-A24/A25

Mischventil 230V

2. gem. Kreis

Kodierwiderstände:

HTS 90 -> 620 Ohm

HTS 130 -> 430 Ohm

HTS 200 -> 750 Ohm

HTS 260 -> 510 Ohm

HTS 90 -> 620 Ohm

HTS 130 -> 430 Ohm

HTS 200 -> 750 Ohm

HTS 260 -> 510 Ohm

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3/8

0

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1/28/2019

Project title: HTS 90-130-200-260

Coding resistors:

Electricity meter S0

Power supply 230V

Power supply 230V

System controller

Power supply 230V

Changeover valve 230V

Changeover valve 230V

Pump 230V

Changeover valve 230V

Pump 230V

Pump 230V

Pump 230V

Pump 230V

Mixed valve 230V

Valve 230V

Mixed valve 230V

Electricity meter S0

Medium ow rate, Imp.

Electricity meter S0

Electricity meter S0

Signal PWM

Signal 0-10V / PWM

Signal 0-10V / PWM

Signal PWM

Signal 0-10V / PWM

Power supply

Communication

Coding resistor

Communication

Heat pump

Internal pump A43

Hot water preparation

2. Heat generator

2nd mixed circuit

Separate cooling circuit

Solar circuit

1st mixed circuit

Unmixed circuit

Drinking water circulation

1st mixed circuit

Bypass

2nd mixed circuit

Household

Hot water

PV yield

PV feed-in

Solar circuit

1st mixed circuit

Unmixed circuit

Internal pump

2nd mixed circuit

-> SMT Touch

-> μPC - J6

Device-dependent

-> Room sensor - B/A

System controller SMT I/O

Sensor Inputs Actuator Signal Actuator Signal OT Interfaces Bus Interfaces

-SMT_I/O_BOTTOM

Actuator OutputActuator OutputActuator OutputActuator SupplyPower

-Pout1

SPI

Provided by the customer

Open

Open

Open

Close

Close

Close

REMKO HTS series

44

Projekt Titel:

HTS 90-130-200-260

13 1

4

-S23

Volumenstrom, Imp.

Solarkreis



3 1 4 2 5

-S24/S15

PT1000 / Vol. Imp.

RL / Vol. Wärmep.



1

2

-S01

PT1000

Kollektorfühler



1

2

-S02

PT1000

Speicherfühler, Solar

RJ45

-RJ45

Kommunikation

-> SMT Touch



1

2

-S03

PT1000

Vorlauf, Solar



1

2

-S04

PT1000

Rücklauf, Solar



1

2

-S05

PT1000 / Impuls

Zirkulation



1

2

-S06

PT1000

Vorlauf, 2. gem. Kreis



1

2

-S08

PT1000

Warmwasserspeicher

G0

-A32

Spannung 230V

-> µPC - G0



1

2

-S09

PT1000

Pufferspeicher



1

2

-S10

PT1000

Außentemperatur



1

2

-S11

PT1000

Rücklauf, 1. gem. Kreis



1

2

-S12

PT1000

Vorlauf, 1. gem. Kreis



1

2

-S13

PT1000

Vorlauf, Wärmepumpe

Potential Free Outputs

Sensor InputsSensor InputsSensor InputsSensor Inputs

Systemregler SMT I/O

In
A30

In
A31

In
A32

In
A33

In
A34

S20
+5V
GND
S40
S41

S21
+5V
GND
S42
S43

S22
+5V
GND
S44
S45

S23
+5V
GND
S46
S47

S24
+5V
GND
S48
S49

S01
GND

S02
GND

RJ45

S03
GND

S04
GND

S05
GND

S06
GND

S07
GND

S08
GND

S09
GND

S10
GND

S11
GND

S12
GND

S13
GND

S14
GND

S15
GND

S16
GND

-SMT_I/O_OBEN

Systemregler

L

-A32

Freigabe E-Heizer

-> EHZ - ST2



1

2

-S14

PT1000

Rücklauf, 2. gem. Kreis

In

-A34

Potentialfreier Kontakt

Sammelstörmeldung

A34

S16

-S16

Brücke / Öffner-K.

EVU Sperre

GND

Bei Verwendung einer EVU Sperre darf nur der
Verdichter Spannungslos geschaltet werden!Verdichter Spannungslos geschaltet werden!

0 1 2 3 4 5 6 7 8 9 10 11

4/8

0

1 2 3 4 5 6 7 8 9 10 11

1/28/2019

Project title: HTS 90-130-200-260

System controller

System controller SMT I/O

Medium ow rate, Imp.

PT1000 / Vol. Imp.

PT1000 / Vol. Imp.

Communication

PT1000 / Impulse

Solar circuit

RF / Vol. Heat Pump

Collector probe

-> SMT Touch

Circulation

Inlet, 2nd mixed circuit

Hot water storage tank

Bu󰀨er tank

Outside temperature

Return ow, 1st mixed circuit

Inlet, 1st mixed circuit

Inlet, heat pump

Return ow, 2nd mixed circuit

Inlet, Solar

Return ow, Solar

Storage tank probe, Solar

Jumper / NC terminal

Power utility block

When using a power utility block, only power to
compressor may be switched!

Sensor Inputs Sensor Inputs Sensor Inputs Sensor Inputs

Potential-Free Outputs

In

In

In

In

In

Enable E-heater

Voltage 230V

Potential-free contact

-> EHZ - ST2

General alarm signal

-SMT_I/O_TOP

45

Projekt Titel:

HTS 90-130-200-260

9

-J2

Freigabe Inverter

-> INV

10 N

-J1

Spannungsv. 230V

-> SMT I/O - Pout1

L



1

2

-B1

NTC

Wasser Eintritt



1

2

-B2

NTC

Wasser Austritt

5

-J10

Kommunikation

-> INV

9

-B3

Außentemperatur

-> Klemmblock X2.4

4 3



1

2

-B4

NTC

Sauggas



1

2

-B5

NTC-HT

Heißgas

S

J11

-J11

Steuersignal

Expansionsventil

1 3

2

-B6

RAZ 0-5V

Niederdruck

1 3

2

-B7

RAZ 0-5V

Hochdruck

GND

-J6

Kommunikation

-> SMT I/O - B2/A2

A2 B2

-DI1

Störmeldung Lüfter

-> Klemmblock X2.3 / X3.3

J7

J8

J9

J10

J11

J12 J13 J14

J1 J2 J3

J6

J4 J5

Kätekreis Regler µPC

1 2 34 12 345 6

pLAN

R-/T­R+/T+
GND

Vout
R-/T­R+/T+
GND

C1
NO1
NO2
NO3

C2
NO4
NO5
NO6

NO7
C3
NC7

G
G0

+Vdc
GND
+5VR

B1

B2

B3

B4

B5

B6

B7

GND
+Vdc

GND
+

-

DI1

DI2

DI3

DI4

DI5

DI6

DI7
DIC1

GND
Y1
Y2
Y3

-µPC

Kältekreis Regler

1
2

-NO2

Ausgang 230V

4 - Wege Ventil

P

1

2

-DI3

Öffner-Kontakt

Hochdruckschalter

4

-NO5

Kondensatheizung

-> Klemmblock X2.2 / X3.2

6/16

-Y3

Steuersignal Lüfter

-> Klemmblock X2.3 / X3.3

6

0 1 2 3 4 5 6 7 8 9 10 11

5/8

0

1 2 3 4 5 6 7 8 9 10 11

1/28/2019

Project title: HTS 90-130-200-260

Refrigerant circuit controller μPC

Enable inverter

Power supply 230V

NTC

Outside temperature Communication

Control signal

Output 230V

Condensate heating

Fan control signal

-> INV

-> SMT I/O - Pout1

Water inlet

-> T erminal block X2.4 -> INV

Expansion valve

4-way valve

-> T erminal block X2.2 / X3.2

-> Terminal block X2.3 / X3.3

Suction gas

Heat gas

Low pressure

High pressure

Water outlet

Cooling cycle controller

Communication

Fan alarm code

NC contact

-> SMT I/O - B2/A2

-> Terminal block X2.3 / X3.3

High pressure switch

REMKO HTS series

46

Projekt Titel:

HTS 90-130-200-260

DC Choke

L1/L

-INV

Spannungsv. 400V

Inverter

L2/N
L3 PE

power +

speed drive

L1/L

L2/N

L3

PE

U

V

W

PE

1 2 3 4 5 6 7 8 9 10

C1

C2

-INV

power+ Inverter

GND

-INV

Kommunikation

-> µPC - J10

R+/T+
R-/T-

+Vdc

-INV

Freigabe Inverter

-> µPC - J2

GND

M

3

-M

Spannungsv.

Verdichter

Bei der HTS 90 fallen L2 und L3 weg!

In diesem Fall ist der Nullleiter N an

der Klemme L2/N des Inverters

angeschlossen.

In diesem Fall ist der Nullleiter N an

der Klemme L2/N des Inverters

angeschlossen.

0 1 2 3 4 5 6 7 8 9 10 11

6/8

0

1 2 3 4 5 6 7 8 9 10 11

1/23/2019

Project title: HTS 90-130-200-260

Power supply 400V

Power + Inverter

On the HTS 90 machine, L2 and L3

are not required!

In this case, the neutral wire N is

connected to terminal L2/N on the

inverter.

Inverter

Communication

Enable inverter

Power supply

-> μPC - J10

-> μPC - J2

Compressor

47

Projekt Titel:

HTS 90-130-200-260

USB

-USB

Kommunikation

-> LAN - / WLAN Adapter

Smart-Control Touch

USB

RJ45

GND
+12V

-SMT_TOUCH

Bedienteil

RJ45

-RJ45

Kommunikation

-> SMT I/O - RJ45

GND

-12V

Spannungsvers.

-> SMT I/O - 12V

+12V

Raumsensor

A
V+
V­B

-RS1

Raumsensor

ungem. Kreis

Raumsensor

A
V+
V­B

-RS2

Raumsensor

1. gem. Kreis

Raumsensor

A
V+
V­B

-RS3

Raumsensor

2. gem. Kreis

B3

-B/A

Kommunikation

-> SMT I/O - B3/A3

A3

Jeder Raumsensor benötigt eine eindeutige Geräteadresse!

-> Siehe Bedienunsanleitung des Raumsensors. -> Siehe Bedienunsanleitung des Raumsensors.

0 1 2 3 4 5 6 7 8 9 10 11

7/8

0

1 2 3 4 5 6 7 8 9 10 11

1/28/2019

Project title: HTS 90-130-200-260

Each space probe requires a unique device address!

-> See the operating instructions for the space probe.

Smart Control Touch

Room sensor

Room sensor

Room sensor

Communication

Room sensor Room sensor Room sensor

Control element

Communication

Power supply

Communication

-> LAN - / WLAN adapter

Unmixed circuit

1st mixed circuit 2nd mixed circuit

-> SMT I/O - RJ45

-> SMT I/O - 12V

-> SMT I/O - B3/A3

REMKO HTS series

48

Projekt Titel:

HTS 90-130-200-260

PE

-EHZ

Spannungsvers. 400V

Bauseits

L1L2L3

N

A32

-ST2

Freigabe E-Heizer

-> SMT I/O - A32

N

-ST2

N, PE E-Heizer

-> X2.2

PE

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

L N

-SN1

X1

X2

-H1

1

2

-R1

K2.1

K2.2

A1

11

21

A1

11

21

A2

14

24

A2

14

24

STB 95°C





30°C - 78°C

-EHZ

Elektro Heizstab

PE

-EHZ

Spannungsvers. 3x230V

Bauseits

LLLNN

N

A32

-ST2

Freigabe E-Heizer

-> SMT I/O - A32

N

-ST2

N, PE E-Heizer

-> X2.2

PE

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

L N

-SN2

X1

X2

-H2

1

2

-R2

K2.1

K2.2

A1

11

21

A1

11

21

A2

14

24

A2

14

24

STB 95°C





30°C - 78°C

-EHZ.

Elektro Heizstab

Elektro Heizstab 3x230V

Elektro Heizstab 400V

0 1 2 3 4 5 6 7 8 9 10 11

8/8

0

1 2 3 4 5 6 7 8 9 10 11

1/28/2019

PE

-EHZ

Spannungsvers. 400V

Bauseits

L1L2L3

N

A32

N
PE

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

L N

-SN1

X1

X2

-H1

1

2

-R1

K2.1

K2.2

A1

11

21

A1

11

21

A2

14

24

A2

14

24

STB 95°C





30°C - 78°C

PE

-EHZ

Spannungsvers. 3x230V

Bauseits

LLLNN

N

A32

N
PE

PE

-ST1

Stecker Spannung 400V

Elektro Heizstab

123456PE

1

-ST2

Stecker Steuerleitung

Elektro Heizstab

23PE

0 21

L-ST L1 N-ST N-LL

-SN2

0 1 2 3 4 5 6 7 8 9 10 11

Project title: HTS 90-130-200-260

Enable E-heater

N, PE E-heater

-> SMT I/O - A32

Electric heating element 400V

Power supply 400V

Provided by the customer

Plug voltage 400V

Electric heating element

Plug for control line

Electric heating element

Electric heating element

Electric heating element 3x230V

Electric heating element

Plug voltage 400V

Plug for control line

Provided by the customer

Electric heating element

Electric heating element

Enable E-heater

N, PE E-heater

49

REMKO HTS series

Legend for circuit diagrams

E-heater Elektric heater
Imp. Impulse
mix.: mixed
PV: Photovoltaic
PWM: Phase width modulation
unmix.: unmixed
Vol. Medium flow rate

50

10 Index

C

Circuit diagrams ........................ 36

Contact sensor ......................... 1

1

D

Disposal of equipment .....................6

E

Electrical connection

Indoor module ....................... 10

Outdoor module ...................... 11

Environmental protection ...................6

I

Intended use ............................ 5

O

Outdoor sensor ......................... 12

S

Safety

Dangers of failure to observe the safety

notes ............................... 4

General ............................. 4

Identification of notes ................... 4

Notes for inspection .................... 5

Notes for installation ....................5

Notes for maintenance .................. 5

Personnel qualifications ................. 4

Safety notes for the operator ............. 5

Safety-conscious working ................4

Unauthorised modification ...............5

Unauthorised replacement part manufacture

. 5

T

Temperature sensors .....................11

Terminal assignment, overview ....... 17, 20, 33

W

Warranty ............................... 5

51

REMKO QUALITY WITH SYSTEMS

Air-Conditioning | Heating | New Energies

Telephone +49 (0) 5232 606-0
Telefax +49 (0) 5232 606-260

E-mail info@remko.de
URL www.remko.de

REMKO GmbH & Co. KG
Klima- und Wärmetechnik

Im Seelenkamp 12
32791 Lage

Hotline within Germany

+49 (0) 5232 606-0

Hotline International

+49 (0) 5232 606-130

We reserve the right to make technical changes, and provide no guarantee as to the accuracy of this data!