Microface User Manual - Emerson Network Power

User Manual
Microface E
24V AC
Hiromatic G / E
Eproms 1.01.xxx series
Eproms 1.02.xxx series
SCM - SCG – SCE L1 - MIO
English
Code 271 589
Revision 02.03.2005
INDEX
1
1.1
2
2.1
2.1.1
2.1.2
2.1.3
2.1.4
2.1.5
2.1.6
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
2.10
2.10.1
2.10.2
2.10.3
2.11
2.11.1
2.11.2
2.12
2.12.1
2.13
2.14
3
3.1
3.1.1
3.1.2
3.1.3
3.1.4
3.1.5
3.2
3.3
3.4
3.4.1
3.4.2
3.4.3
3.4.4
3.4.5
3.4.6
3.4.7
3.4.8
3.4.9
3.4.10
3.4.11
3.4.12
3.4.13
3.4.14
3.4.15
4
5
6
7
7.1
8
8.1
9
Introduction ................................................................................................................................ 1
Foreword.................................................................................................................................... 1
Hardware ................................................................................................................................... 1
Microface Evolution 24V AC/DC – 48V DC ................................................................................... 1
Microface Evolution 24V AC and Microface Evolution 24V DC....................................................... 2
Networking between 24V AC/DC Units......................................................................................... 3
Microface Evolution 48V DC........................................................................................................ 5
Networking between 48V DC Units .............................................................................................. 6
How to make mixed networks between Microface 24Vdc and Microface 48Vdc............................... 7
Hironet Opto-isolator (only Microface 48VDC)............................................................................... 8
LCD Display ............................................................................................................................... 9
Eprom .......................................................................................................................................10
Humitemp and Humitemp Evolution ............................................................................................10
EEAP........................................................................................................................................11
Hirosensor 2T............................................................................................................................11
PTC Temperature Sensor ..........................................................................................................11
PTC Airflow Sensor....................................................................................................................11
I-Board / TAM Module ................................................................................................................12
Hiromatic G / Hiromatic E...........................................................................................................12
Hiromatic G / E direct Connection to Microface ........................................................................12
Hiromatic G Backside View, Jumpers and Eprom Position........................................................13
Hiromatic Evolution Backside View, Jumpers and Eprom Position.............................................14
Power Supply Module for Hiromatic (24V only) ............................................................................15
PSM Hardware ......................................................................................................................15
PSM Connection (24V only) ...................................................................................................15
Hirobus Cables and other Connection Cables ..............................................................................15
Addressing ............................................................................................................................16
Hardware, Technical Specification ..............................................................................................17
Spare Parts List.........................................................................................................................18
Software ...................................................................................................................................19
The LCD Display .......................................................................................................................19
How to move through the Values/Parameters of the LCD Display .................................................20
How to enter the Password (PIN) ................................................................................................20
How to change Parameters ........................................................................................................20
How to reset Alarms or Warnings ................................................................................................20
Tricks........................................................................................................................................20
Hiromatic G Front Panel .............................................................................................................21
Hiromatic E Front Panel .............................................................................................................21
The Hiromatic menu...................................................................................................................23
Setpoint Menu ...........................................................................................................................24
System Information Window .......................................................................................................24
Graphic Data Record .................................................................................................................24
Status Report ............................................................................................................................24
System / Unit Overview..............................................................................................................25
Working Hour Counters ..............................................................................................................25
Standby Settings .......................................................................................................................25
Timer Settings ..........................................................................................................................25
Warnings / Alarms .....................................................................................................................25
System Setup........................................................................................................................25
System Settings.....................................................................................................................25
Unit setup..............................................................................................................................26
Calibration.............................................................................................................................26
Service..................................................................................................................................26
Condenser Control.................................................................................................................26
Microface – First start.................................................................................................................27
Software Upgrade......................................................................................................................27
Alarm List..................................................................................................................................28
Parameters table .......................................................................................................................30
PARAMETERS; available with Hiromatic only..............................................................................33
Glossary ...................................................................................................................................34
Glossary for Condenser Control..................................................................................................37
Connection Guide......................................................................................................................39
1
Introduction
1.1
Foreword
This User Manual describes the Microface E Control System. It contains information concerning the
architectures of the control systems as well as the settings required to obtain the desired behaviour of the
Unit.
The Microface Control System will effectively manage all the different functions of air conditioning units as
well as of Chillers/Superchillers, depending on the Program inserted with the Eprom (Eprom explanation see:
Chapter 2.3,Eprom).
In the following sections first the Hardware, and later the Software (Firmware) are explained in detail.
2
Hardware
2.1
Microface Evolution 24V AC/DC – 48V DC
The Microface Evolution is a microprocessor-based electronic card, which is able to manage the devices and
the sensors installed in the unit (please note that Microface E differs from the so called “Microface Standard”;
all explanations in the following sections refer ONLY to the Microface E and are not applicable on Microface
Standard).
Microface E is installed in the electrical panel of indoor-units together with a User-interface module (“LCD
Display”), which allows to read/set/reset values, parameters and alarms.
In outdoor- or ceiling mounted units the LCD Display is mounted in a box with extension cable, which allows
placing it on a reachable position.
To get access to the Microface E connections and Jumpers the LCD Display (if present) has to be removed
from its 4 mounting pins.
Take care not to pull out the connecting cable when removing the LCD Display!
Please note that there are 3 different Microfaces E available:
Supplied with 24 V AC; with 24V DC and with 48V DC. While both the 24V versions (AC and DC) have a
very similar hardware and common properties, the 48V DC version is completely different: it needs a specific
Eprom; also the networking follows different rules than the 24V AC or DC versions – see following chapters.
•
•
•
For 24V AC supplied versions the Eprom EVM (Air Conditioner) or SCM (Chillers) has to be used
For 24V DC supplied versions the Eprom EVM (Air Conditioner) has to be used
For 48V DC supplied versions the Eprom E48 (Air Conditioner) has to be used.
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
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24V AC/DC
2.1.1
Microface Evolution 24V AC and Microface Evolution 24V DC
Note: Microface E 24V AC and Microface E 24V DC have different hardware (different part numbers); but
the components appear nearly identical on both Microfaces, so that the following description refers to both
versions.
As the Microface E is the “Heart” of the System, which controls all Functions of the Unit, some Jumpers have
to be set in order to set-up the control board according to the requested Functions. Most of these Jumpers
are already correctly set in the factory, only the Jumpers for the unit’s address (“A”) has to be set in the field,
during start-up of the Unit.
Never add / remove Jumpers when Microface is under power!
A
EWE
MICROFACE E
AI
Backup battery
EPROM
E/F
SG
HM
quick plug-in connector
to "local" LCD display.
ES
I-Board
RS485
for direct
communication
to Hirolink.
quick plug-in connector to
Humitemp, Hirosensor, EEAP
sensors, "remote" LCD display.
HIROBUS quick plug-in
connector to Hiromatic G or
next/previous Microface.
HIROBUS quick plug-in connector to
next/previous Microface.
JUMPERS:
EWE:
EEPROM write enable. Always set this jumper.
A:
Address setting. See chapter “Networking” for Details. Units, not connected to others: NO Jumper.
AI:
Analogue Inputs selection. See details on Microface Connection Guide at the end of the manual.
E/F:
EPROM / Flash memory selection jumper. Set the jumper when EPROM is installed. Do not set this
jumper when Flash memory is installed.
SG:
Subgroup ID setting. See chapter “Subgroup Microfaces”
HM:
Comb connector for I -Module (present when humidifier is installed).
ES:
EPROM /Flash memory size selection jumper. Set jumper between middle and right pins for 1 or 2 Mbit
size memory devices. Set jumper between middle and left pins for 4 Mbit size memory devices.
Figure 1 – Microface E 24V AC and 24V DC with connectors and jumpers.
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24V AC/DC
2.1.2
Networking between 24V AC/DC Units
2.1.2.1 How to connect the Microfaces
Several units can be connected together via Hirobus. The units can exchange data, and so different features
can be activated, like:
• Teamwork (The group of units behaves like 1 big unit)
• Standby + Rotation + Cascade
• One common Hiromatic
• … and some more, described in the Software Part of this Manual.
Note:
The maximum number of units to be connected is 16.
This Number reduces to 8, only if a Hirolink is connected to the common Hiromatic.
If a Hirolink Light or Hirolink SMM is connected directly to the Microfaces, 16 Units
can be connected.
Please note that a wrong connection could cause serious problems to the electronic devices
(Microface and Hiromatic); for this reason we strongly recommend you to use only first
quality products or to buy the cables directly from your sales reps.. Before connecting the
cables to the Microface a check with Cable-Tester (see Spare Parts List, Chapter 2.14) has to
be performed.
EPROM
MICROFACE E
EPROM
MICROFACE E
HIROBUS:
Six wires flat screened cable
TO HIROMATIC G (if installed)
eight wires flat cable.
The cable must be screened if
Hiromatic is not installed on the
door of the unit.
TO NEXT MICROFACE
NOTE : CONNECT THE SCREEN OF THE FLAT CABLE TO THE CLOSEST "PE" (EARTH) OF THE ELECTRICAL PANEL ON BOTH SIDE OF THE CABLE.
HIROBUS CABLES MUST BE INSTALLED INSIDE SUITABLE CONDUITS, SEPARATE FROM THOSE OF POWER TRANSMISSION CABLES.
Figure 2 connecting Microfaces. Cables to be used: see Figure 25 on page 16.
st
nd
nd
The bus-cable must be wired from 1 unit to the 2 , from 2
“Star” or “Ring” connections are not allowed at all.
rd
to the 3 etc.
The Maximum length of the Hirobus-cable is 300 meters, counting all connection cables
together. The single distances are not of interest, as long as the total length of all cables
together doesn’t exceed 300 meters.
AC and DC MICROFACES E CANNOT BE CONNECTED IN THE SAME
NETWORK!
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24V AC/DC
2.1.2.2 Subgroup-Microfaces
nd
In some specific Units (CCAC: twin compressor units with freecooling or Matrix 4 circuit: 2 Microface for
control of circuit 3 and 4) a second Microface is installed, identified as “Microface Subgroup”. The Microface
Subgroup must have the same eprom and the same address as the “Master” Microface; the definition of
Master and Subgroup Microface is done through a Jumper. There are 2 types of Subgroup: Type 1 is used
for CCAC, Type 3 for Matrix 4 Circuit. The position of the subgroup jumper also defines the type of subgroup,
see Figure 3:
SUBGROUP Type 3:
MATRIX 4 circuit
MASTER
JUMPERS BLOCK
JUMPERS BLOCK
SUBGROUP Type 1:
CCAC
EPROM
SUBGROUP MICROFACE
EPROM
MASTER MICROFACE
From previous unit
To next Unit or to Hiromatic
Figure 3 Master and Subgroup Microface
2.1.2.3 Slave-Microfaces
In some Chillers or Superchillers (Matrix) Screw Compressors are mounted. Screw Compressors have
capacity control (50 – 100%), by using a slide, driven with solenoid valves. To control the solenoid valves, a
so called „Slave Microface“ is installed. The Slave Microface uses a different Eprom (MIO), the Master
Microface uses the Eprom SCM instead. For the Slave Microfaces no Subgroup must be set. The address is
defined by the Slave Microface number: address 1 for Slave 1, 2 for Slave 2, regardless of the address of the
Master Microface.
For connection see Figure 4: Master and Slave Microface
SLAVE MICROFACE 1
EPROM
EPROM
MASTER MICROFACE
To Slave Microface 2
Figure 4: Master and Slave Microface
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48V DC
2.1.3
Microface Evolution 48V DC
As the Microface E is the “Heart” of the System, which controls all Functions of the Unit, some Jumpers have
to be set in order to set-up the control board according to the requested Functions. Most of these Jumpers
are already correctly set in the factory, only the Jumpers for the unit’s address (“A”) has to be set in the field,
during start-up of the Unit.
Never add / remove Jumpers when Microface is under power!
AI
Quick-plug for Local
LCD display.
A
MICROFACE E 48 VDC
Fuses
HM
RS485 for
direct
Communication
to Hirolink
ES
SG
EPROM
Power connector for
OPTO Hironet
Backup battery
EWE
E/F
Out 8
OPTO
NET
EARTH
Quick-plug for connection to
Humitemp, Hirosensor,
EEAP sensors.
Quick-plug for connection through HIROBUS to
the previous/next unit.
Quick plug for connection through HIROBUS
to Hiromatic G or the previous/next unit.
JUMPERS:
EWE:
EEPROM write disable. Never set this jumper.
A:
Address setting. See chapter “Networking” for Details. Units, not connected to others: NO Jumper set.
AI:
Analogue Inputs selection. See details on Microface Connection Guide at the end of the manual.
E/F:
EPROM / Flash memory selection jumper. Set the jumper when EPROM is installed. Do not set this jumper
when Flash memory is installed.
Subgroup ID setting. See chapter “Units with 2 Microfaces”
Comb connector for I-Module (present when humidifier is installed).
EPROM /Flash memory size selection jumper. Set jumper between middle and right pins for 1 or 2 Mbit size
memory devices. Set jumper between middle and left pins for 4 Mbit size memory devices.
OPTO:
enable/disable of the analogue-optosilated output. Set the jumper in the right/left to have analogue-optosilated
output. See more details in the User manual.
EARTH: this faston is connected to the HIROBUS RJ45 connectors screen. In case of screened Hirobus cable with metal
connector, the Hirobus’s screen have to be connected to earth by faston.
NET:
Opto-isolated Hirobus. See description in the chapter “Networking between Units”. Unit not connected to others
and not connected to Hiromatic: NO Jumpers set.
OPTO HIRONET:
SG:
HM:
ES:
this 3 pins connector provides the power supply and direction signal to the OPTO Hironet interface (275799);
attaching the OPTO Hironet interface the Hironet Network will be Opto-isolated.
Figure 5 – Microface E 48VDC with connectors and jumpers
Please note that the position of output 8 is different from Microface 24VDC to Microface
48VDC
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48V DC
2.1.4
Networking between 48V DC Units
2.1.4.1 How to connect the Microfaces
Several units can be connected together via Hirobus. The units can exchange data, and so different features
can be activated, like:
Teamwork (The group of units behaves like 1 big unit)
• Standby + Rotation + Cascade
• One common Hiromatic
• … and some more, described in the Software Part of this Manual.
Note:
The maximum number of 48V DC units to be connected is
6.
Please note that a wrong connection could cause serious problems to the electronic devices
(Microface and Hiromatic); for this reason we strongly recommend you to use only first
quality products or to buy the cables directly from your sales reps.. Before connecting the
Cables to the Microface a check with Cable-Tester (see Spare Parts List, Chapter 2.14) has to
be performed.
Up to 6 Microface E 48VDC and 1 Hiromatic
Faston to EARTH
EPROM
Unit #6
EPROM
Unit #2
EPROM
Unit #1
Faston to EARTH
Faston to EARTH
To Hiromatic
Figure 6 connecting Microfaces. Cables to be used: see Figure 24 on page 16.
st
nd
nd
The bus-cable must be wired from 1 unit to the 2 , from 2
“Star” or “Ring” connections are not allowed at all.
rd
to the 3 etc.
The Maximum length of the Hirobus-cable is 60 meters, counting all connection cables
together. The single distances are not of interest, as long as the total length of all cables
together doesn’t exceed 60 meters.
The Hirobus connectors of Microface 48VDC are fully optoisolated. It means that a power
supply must be provided via Hirobus to the driver of each Hirobus connector because
Microface does not supply those drivers. It is for this reason that a system with Microface
48VDC works in network only with 8 poles cables (2 poles are used to provide 10V to the
drivers).
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
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48V DC
2.1.4.2
Hirobus Opto-Isolation Jumper Setup
A
Only the Hirobus connector on the right receives
power from Hirobus. The Hirobus of this Microface E
48VDC is OPTOISOLATED.
B
Microface E 48VDC provides power to the Hirobus
connector on the right ONLY.
C
Microface E 48VDC Hirobus drivers receive power
from Hirobus. The Hirobus of this Microface is
OPTOISOLATED.
D
Microface E 48VDC provides Power to Hirobus
drivers on BOTH HIROBUS connectors.
Figure 7, Jumpers for Hirobus
2.1.5
How to make mixed networks between Microface 24Vdc and Microface 48Vdc
There is the possibility to connect 1 only Microface 24VDC to 1 only Microface 48VDC with Hiromatic
(optional). To do this see Figure 8
NET
IBoard
EPROM
MICROFACE E 24VDC
EPROM
MICROFACE E 48 VDC
EARTH
8 poles Hirobus
8 poles Hirobus
Figure 8 – mixed network with 1 Microface 48 VDC (with Hirobus Jumper Position A or C) and 1
Microface 24 VDC
In all the other possible variations of mixed connections, please contact Information &
Controls Department (e-mail : [email protected] )
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48V DC
2.1.6
Hironet Opto-isolator (only Microface 48VDC)
For Microface 48VDC an opto-isolator for the Hironet is available. It must be used any time a connection
from Microface E 48VDC to Hirolink has to be established.
There are two cable-connectors on it: the signal (Hironet) cable-connector (A) must be connected to the
Hironet connector of Microface, the power supply cable-connector (B), which supplies the opto-isolator, shall
be connected above (very close) the Hironet connector. The 2 sockets in the box (C,D) are to be used to
perform the networking between the units.
Microface 1
B
A
Microface 2
B
A
Microface 3
B
A
A
C
D
C
D
C
B
C,D
Hirolink
Figure 9 – Hironet opto-isolated connector with example of connection (for Eprom E48)
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2.2
Backlit LCD
LCD Display
There are two different Displays available:
“Local” Display
“Remote” Display
23.0
Both Displays have the same Front-View:
Up-push-button
Down-push-button
Enter push-button
Red LED
Green LED
Yellow LED
Figure 10 – LCD Display Front View (with plastic cover)
Just the backside connections are different, because of the different connection types to the Microface E:
Local or Remote Display.
"LOCAL" LCD DISPLAY
"REMOTE" LCD DISPLAY
Six poles connector for
the connection to the
external panel Switch
and LED
FERRITE
Alternative !!
CONNECTION TYPE A:
4 wires flat cable
(410 mm max. length)
MICROFACE E
HT
CONNECTION TYPE B
(HIROBUS):
8 wires screened flat cable.
Screen connected on both
sides to earth.
MAX LENGTH: 20 m.
to Humitemp,
EEAP,
Hirosensor 2T
Sensors
The T-Adapter is necessary only when both "Hirobus" sensors and
"remote" LCD display must be connected the same. Otherwise the
it can be connected directly to the Microface E “HT” Jack.
Figure 11 – Local and Remote Display Backside
Never use cables longer than 410 mm (Local Display) or longer than 20m (Remote Display)!
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2.3
Eprom
The Eprom is the device, which stores the Program; the Microface has to work with. It doesn’t store any
2
user-settings; this is done by the Microface itself (in the RAM and the E Prom). The Version Name and the
Number are printed on the Label of the Eprom.
The following Eproms are today in use for Standard Units (the xxx is a placeholder for the actual Version):
EVM 1.60.xxx
E48 1.60.xxx
E1G 1.60.xxx
EVG L1/L2 1.60.xxx
2
2
2
4
MBit Air Conditioners, for Microface E 24V AC/DC.
MBIT Air Conditioners, for Microface E 48V DC.
MBit Air Conditioners, for Hiromatic G.
MBit Air Conditioners, for Hiromatic E.
SCM 1.01 / 1.02.xxx
MIO 1.01 / 1.02.xxx
SCG 1.01 / 1.02.xxx
SCE L1 1.01 / 1. 02.xxx
2
2
2
4
MBit
MBit
MBit
MBit
Chillers/Superchillers, for Microface E 24V AC.
Chillers/Superchillers, Output extension for Microface E 24V AC.
Chillers/Superchillers, for Hiromatic G.
Chillers/Superchillers, for Hiromatic E.
Figure 12 - Eprom
Un-power the Microface before mounting/dismounting the Eprom. Remove Eprom only with
special tool; never use a screwdriver. For correct direction of mounting please refer to Figure
1 in Chapter Microface Evolution for Microface, and Figure 20 in Chapter 2.10.2 for Hiromatic.
Compare the Mark in the Eprom with the direction in the Drawing.
2.4
Humitemp and Humitemp Evolution
The Humitemp is a combined Temperature / Humidity Sensor. If connected, the Microface will use the values
of the Humitemp for control. It is connected to the Microface through Hirobus-Cable (max. length: 25 m).
The Humitemp is used for Air-Conditioners only.
Humitemp, Humitemp E
Front View
Temperatur e
Reading
Humitemp
open, Rear View
Humidity
Reading
Hirobus
Address
Switch
Humitemp Evolution
open, Rear View
Hirobus
Address
Jumpers
Figure 13 – Humitemp
The Address-Switches / Jumpers inside the Humitemp allows setting different Functions to the Sensor:
Control Sensor
nd
EEAP Sensor, for 2 step Warnings
Hirosensor 1 (for Indication in Microface E or Hiromatic G only, no Control or Alarms)
Hirosensor 2 (for Indication in Microface E or Hiromatic G only, no Control or Alarms)
Figure 14 – Address switches / jumpers
These address switches / jumpers are also present in the EEAP and Hirosensor 2T sensors.
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2.5
EEAP
The EEAP has the same Hardware as the Humitemp. The EEAP function can be activated by simply
changing the Address-Switches to the EEAP function. The EEAP is used for Air-Conditioners only.
2.6
Hirosensor 2T
The Hirosensor 2T is a double temperature sensor; it allows (according to the Software installed in the
Microface) to show 2 more temperatures (without any Warning Levels or Control Functions) in the Control.
Both temperature sensors have a cable length of 2 meters.
TemperatureReading 1
TemperatureReading 2
Figure 15 – Hirosensor 2T
2.7
PTC Temperature Sensor
The PTC Sensor is used in Air-Conditioners as well as in Chillers/Superchillers. There are different Types
and lengths available: please refer to Chapter 2.14 Spare Parts List.
PTC Sensors are temperature-sensors, changing the resistance according to the temperature (positive
temperature coefficient). The connection is 2 poles. The length of the cable for the sensor ranges from 2 to
10 meters.
Measuring
Element
Cable
Figure 16 – PTC Sensor
2.8
PTC Airflow Sensor
The PTC Airflow Sensor measures the Airspeed (used only in Air-Conditioners). The System used is the one
used also for Airflow-Anemometers. There is an automated Setup-Procedure in the EVM Software, which
helps making the right settings. The PTC Airflow has to be supplied with 24V, and gives back a Signal of 010VDC, according the airspeed measured. It has to be connected to an analogue input. The connection is 3
poles. The length of the cable for the sensor is 2 meters.
Measuring and
Heating Element
Cable
Figure 17 – PTC Airflow
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2.9
I-Board / TAM Module
The I-Board for CCAC Units is the current transformer for the Humidifier (cylinder Type).
For Chillers/Superchillers it can be used (optional) to have a volt free Warning contact.
The I-Board consists of one Current Transformer-Coil (one phase of the power supply for the humidifier must
be wired through the hole); and 1 output relay (to start humidifier for CCAC applications, and to have the
warning relay for Chiller / Superchiller applications). The I-Board is simply plugged onto the Microface, see
Chapter 2.1.1 on page 2 for the position.
Figure 18 – I-Board
2.10 Hiromatic G / Hiromatic E
Hiromatic G / E is a microprocessor-based electronic device, which makes it possible to control the functions
of one or more Microface devices. Hiromatic G offers numerous advantages of programming the units as
well as to optimise their operation using various features, see chapter 0, Software.
2.10.1 Hiromatic G / E direct Connection to Microface
Hiromatic can be fixed on the front panel of the unit, simply connecting the HIROBUS cable as shown in
Figure 19
HIROMATIC (BACKSIDE)
EPROM
MICROFACE E
FERRITE
Eight wires screened flat cable (max length: 10 m)
(Use direct connection when the distance between
Microface and Hiromatic is less than 10 m)
Figure 19 – direct Connection between Microface and Hiromatic
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2.10.2 Hiromatic G Backside View, Jumpers and Eprom Position
B
A
CONTRAST
DISPLAY
ADJUSTING
v
F
Write Enabling
C
11.0592
12.0000
CRYSTAL
SELECTION
JUMPER
12MHz
BATTERY
+
2M
EPROM
D
512
EPROM
SELECTION
Figure 20 – Hiromatic G Backside
Description of the Jumpers:
A:
B:
C:
D:
2
Write enabling for E Prom. Always set this Jumper.
With jumper on V position, the adjusting of the Display contrast is enabled; with jumper on F position,
it is fixed.
Please double-check with your Hirolink Manual, which Frequency has to be set. Normally 12MHz
should be O.K. If no Hirolink is connected, the setting is not of interest.
Eprom selection. Jumper must be in 2M Position.
Please take special care about the Jumpers when installing a new (Spare Part) Hiromatic!
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2.10.3 Hiromatic Evolution Backside View, Jumpers and Eprom Position
Transformer
Board
Display Board
Backup Battery
C
E
A
EPROM
D
Hironet
Hirobus
F
Figure 21– Hiromatic Evolution Backside
Description of the Jumpers:
A:
C:
D:
E:
F:
Eprom (2M) / Flash Size (4M): Middle + Upper Jumper: 2 or 4 MBit (std. setting)
Middle + Lower Jumper: not used.
Write Disabling:
do not set this Jumper
Interface Selection:
both Jumpers as indicated in Drawing: RS 485 (std. setting)
No Jumpers set: RS 422
Contrast Selection:
Middle + Left Jumper: Variable Contrast
Middle + Right Jumper: Fixed Contrast
Flash download:
not supported yet. Do not set this Jumper
Please take special care about the Jumpers when installing a new (Spare Part) Hiromatic!
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2.11 Power Supply Module for Hiromatic (24V only)
2.11.1 PSM Hardware
Hiromatic G can be supplied mounted in an independent electrical panel containing a power supply module
as well (PSM Power Supply Module), if the Distance to the next Microface is more than 10 meters. The PSM
Module itself needs a power of 24V AC or 24V DC.
Input
24VAC / 24VDC+
24VAC / DC GND
not used
Figure 22 – PSM Module
Output
24VAC / 24VDC+
24VAC / DC GND
(max 6.5A)
2.11.2 PSM Connection (24V only)
The connection between Hiromatic G and
the PSM is carried out in the factory by
means of an eight wires HIROBUS cable.
to Hiromatic
The PSM should be connected to
Microface through a six wires screened HIROBUS cable; the screen needs to be grounded in both terminals.
When the system consists of more than one unit, Hiromatic can be connected to any unit where Microface
has a free HIROBUS connector (usually either the first or the last one of the Microface chain).
Fuse 8x20mm, 250V, T1.6A
from Microface / Macroface
HIROMATIC (BACKSIDE)
EPROM
MICROFACE E
FERRITE
Six wires screened flat cable.
(Use this connection when the
distance between Microface
and Hiromatic is greater than
10 m). The length may vary
within the total limit of 300 m
(max. Hirobus overall length).
Eight wires screened flat cable
(max length: 10 m)
Power Supply for
PSM:
24VAC; 24V DC
POWER SUPPLY MODULE (PSM)
Figure 23 Connection of Microface LAN to Hiromatic Graphic with PSM.
2.12 Hirobus Cables and other Connection Cables
The connections between various Microfaces, Hiromatic, display and sensors are carried out with cables
having a different number of wires and different connectors. Following you can find how these cables have to
be done. For the type of cable and connectors refer to the spare part list included in this manual.
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
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Please note that a wrong connection could cause serious problems to the electronic devices
(Microface and Hiromatic); for this reason we strongly recommend to use only first quality
products or to buy the cables directly from your sales reps..
EIGHT POLES MODULAR
JACK
Figure 24
EIGHT WIRES FLAT CABLE.
USE SCREENED CABLE WHEN CABLE
IS RUNNING OUTSIDE THE UNIT.
Eight-wires; eight poles connector HIROBUS cable, for Hiromatic or Humitemp
connections; for connection between Microface and the remote LCD Display (see
Figure 11); and for Microface 48V DC connections (screened cable necessary).
EIGHT POLES MODULAR
JACK (USE ONLY THE
CENTRAL SIX POLES)
Figure 25
SIX WIRES SCREENED FLAT
CABLE
Six-wires (Pin 1 and 8 not connected) HIROBUS cable, for Microface 24V AC/DC
connections, eight poles connectors. This cable must be screened.
FOUR POLES MODULAR
JACK
FOUR WIRES FLAT CABLE
Figure 26
4 wires flat cable for local LCD Display, four poles connectors.
2.12.1 Addressing
When Microfaces are connected with HIROBUS, it is necessary to assign a different address to each of
them, by means of a group of jumpers on the Microface. The jumper position is described in Figure 27.
The units must be addressed starting from #1, consecutively. If there are 2 Microfaces on
Board (Subgroup, see chapter Subgroup-Microfaces), both Microfaces must have the same
address. The bus-cable doesn’t necessarily need to go in order of the addresses, it could also
be wired 1-5-4-2-3, for example.
#1
#5
#9
#13
#2
#6
#10
#14
#3
#7
#11
#15
#4
#8
#12
#16
Figure 27 – Address Jumpers
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2.13 Hardware, Technical Specification
Microface E 24V AC
Power Supply
Digital Out (Triac)
Digital Out (Relay)
Analogue Out (0-10V)
Analogue In (resistive)
Analogue In (resistive / 0-10VDC)
Storage Temperature
Operating Temperature Range
Microface E 24V DC
Power Supply
Digital Out (Triac)
Digital Out (Relay)
Analogue Out (0-10V)
Analogue In (resistive)
Analogue In (resistive / 0-10VDC)
Storage Temperature
Operating Temperature Range
Microface E 48 VDC
Power Supply
Digital Out (Triac)
Digital Out (Relay)
Analogue Out (0-10V)
Analogue In (resistive)
Analogue In (resistive / 0-10VDC)
Storage Temperature
Operating Temperature Range
Humitemp, EEAP
Power Supply
Temperature range
Humidity range
Minimum airspeed required
Temperature precision
Humidity precision (@25°C)
Hirosensor 2T
Power Supply
Temperature range
Length of sensor elements
PTC Temperature sensor
Cable length
Temperature range
Point of calibration
Hiromatic G / E
Power Supply
Graphic Display
Mounting hole
Power Supply Module (PSM)
Power supply
Output
24VAC, ± 10%; 50 Hz
7
2 (max. 24V – 1A)
2
8
3
-10 (not condensing) to +65°C
0 (not condensing) to +55°C
24VDC, ± 10%
7
2
2
8
3
-10 (not condensing) to +65°C
0 (not condensing) to +55°C
48VDC, ± 10%
7
2
2 (1 opto isolated)
8
3
-10 (not condensing) to +65°C
0 (not condensing) to +55°C
10VDC (from Hirobus)
0 to 50°C
20 to 90%
0,5 m/s
± 0,5°C
40 to 65%: ±2 %r.H.
20 to 90%: ±4 %r.H.
10VDC (from Hirobus)
-28 to 100°C
2 m (each)
1,5 m and 10m
-28 to 100°C
2000Ω at 25.0°C
10VDC (from Hirobus)
Backlit, 200 x 64 pixels
175 x 150mm
24VAC, ± 10%; 24VDC, ± 20%
10VDC (Hirobus, stabilised);
24VAC, ± 10%; 24VDC, ± 20% (filtered)
I-Board (Current transformer)
Current Range
Digital Out (Relay)
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
0 – 30A
1 (max. 24V – 1A)
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2.14 Spare Parts List
DESCRIPTION
Useful for
Switch + Led
Microface E and Hiromatic G user manual CCAC GB
Microface and Hiromatic user manual SC2000 / Matrix
Microface E (Evolution) 24 AC board
Microface E (Evolution) 24 DC board (only for DC
units)
Microface E (Evolution) 48 DC board (only for DC
units)
Opto-isolated Connector for 48V Hironet connection
Local LCD display for Microface
Remote LCD display for Microface
I-Board / TAM Module
Alarm Board 24VAC
Heaters Board for 1 Comp + Glycol FC units 24VAC
Alarm Board 24VDC
Probe temperature PTC
Probe PTC 2 kohm L = 10 m
Probe Temp. + Hum. Humitemp
Probe airflow PTC
EPROM Microface EVM160***
EPROM Hiromatic E48160***
EPROM Hiromatic E1G160***
EPROM Hiromatic EVG-L1 160***
EPROM Hiromatic EVG-L2 160***
EPROM Microface SCM101***
EPROM Microface MIO101***
EPROM Hiromatic SCG101***
EPROM Hiromatic SCE L1 101***
EPROM Microface SCM102***
EPROM Microface MIO102***
EPROM Hiromatic SCG102***
EPROM Hiromatic SCE L1 102***
Hiromatic Graphic
Hiromatic Evolution
Kit EEAP
Hirosensor 2T
Kit Liquistat - Hiromatic
LWD (Leakage Water Detector)
Flat cable 8 way M-M L = 1 m
Flat cable 8 way M-M L = 10 m
Flat cable 8 way screened (specify length)
Module PSM 24/24-10 for Hiromatic
"T" adapter for HIROBUS
Plastic holder for Microface only
Plastic holder for Microface and LCD display
Hirobus / Hironet Cable Tester
Hirobus / Hironet Interface Tester
CODE
255039
272189
271589
275297
275298
Air-Conditioners
Yes
Yes
No
Yes
Yes
Chillers/Superchillers
Yes
No
Yes
Yes
No
275690
Yes
No
275799
275098
275662
275099
275148
275366
275288
275183
275155
275181
275184
275791
275795
275789
275790
275875
275427
275766
275428
275733
276049
276050
276052
276051
275051
275691
372201
275193
482979
275353
275607
275610
275626
275316
275652
270002
270003
480061
480060
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
No
No
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
No
Yes
No
No
No
No
Yes
No
No
No
No
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
Yes
No
No
Yes
Yes
Yes
Yes
No
Yes
Yes
Yes
Yes
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
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3
Software
3.1
The LCD Display
The interface module consists of a backlit LCD and of three push buttons that permit an easy access to the
unit parameters (see Figure 28). Writing access is protected by a password.
Backlit LCD
23.0
Up-push-button
Down-push-button
Enter push-button
Red Led
Green Led
Yellow Led
Figure 28 Interface module between Microface and operator (front view).
There are three LED’s: the yellow Led to indicate the unit is power supplied, the green one lights up when
the unit is in operation and the red one signals either an alarm or a warning condition.
On the LCD the following symbols will be displayed (see Figure 29):
23.5
°C (%)
!
RH
SET STANDBY
Figure 29; LCD Layout
The snow symbol is active when the unit is in cooling operating mode.
The fan symbol is active when the unit is running, that means that the fan(s) / (pump) is (are)
operating.
The sun symbol is active when the unit is in heating mode (AC only)
!
STANDBY
The alarm triangle is ON when either a warning or an alarm is active.
RH %
The „STAND BY“ string will be displayed when the unit is in the stand-by mode (not running).
Attention: There is a 3 minutes after-running time when changing from ON to STANDBY.
Therefore the Unit displays STANDBY with fans still on for a time of 3 minutes.
The ‘SET’ string will be displayed after the correct password is entered; the presence of this string
on the display confirms the full access to the displayed parameters.
The „RH“ and “%” strings appear when relative humidity is displayed on the LCD.
°C
The „°C“ string appears when temperature is displayed on the LCD.
SET
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3.1.1
How to move through the Values/Parameters of the LCD Display
All Values and Parameters are listed up just one after the other. To jump the next parameter, simply the
“down” button has to be pressed.
p1
65
p2
65
3.1.2
The name of the first parameter (p1 is not a real parameter, but only an
example) will be displayed for one second, while the value itself will be
123 displayed for two seconds (alternating) (this position is also considered as
the “Home”.
“Up” and “down” push-buttons
The name of the second parameter (p2 is not a real parameter, but only
123 an example) will be displayed for one second, while the value itself will be
displayed for two seconds (alternating).
“Up” and “down” push buttons to reach the other parameters.
How to enter the Password (PIN)
Without password or by entering the wrong password, read only access is given, without the possibility to
change values.
To enter a password in Microface, select the “Pin” parameter by pressing the “down” push-button as often as
necessary. When pressing “Enter” (↵), a 0 will be displayed as first digit on the left and will be followed by
two dashes (a password is made of 3 digits). Change the numeric value by pressing the “up” or “down” push
buttons. After having obtained the required numeric value, press “Enter” (↵) to go to the following digit.
Pressing “Enter” (↵) after having selected the last password digit, the parameter (“Pin”) name will be
displayed again. If the correct Password is entered, the desired modifications can be made. Reaching the
next changeable Parameter, the LCD Display will show a “SET” string, which is the confirmation, that the PIN
was entered correctly.
Different Password-Levels give different “Rights”:
Level
Level
Level
Level
Level
Level
Air Conditioners
Read only
Customer Level
Service Low Level
Not used
Sensor Calibration
Service High Level
0
1
2
3
4
5
Superchillers
Read only
Customer Level
Service Level
Not used
Sensor Calibration
Not used
The password is stored, until the first parameter / value (“Home”) of the list is displayed
again. Never leave the Unit without jumping back to “home” (pressing “Enter” and “UP”
together).
3.1.3
How to change Parameters
To change the value of a parameter (possible only when the Password “PIN” has been correctly inserted),
scroll the list using the “up” and “down” push-buttons until the desired parameter is displayed and press
“Enter” (↵). By pressing the “up” and “down” push buttons, it is possible to change the corresponding value;
after having obtained the required value, press enter (↵) again. The display will show again the name of the
parameter alternating with the new value.
3.1.4
How to reset Alarms or Warnings
When an alarm is triggered, the red alarm LED is lit on the LCD Display Module and the corresponding
symbol is shown in the Display.
The Alarm section can be reached by pressing the “up” push-button when the first parameter is on the
display; alarms are pointed out according to their code order.
After having entered the alarm section, the alarm code is displayed and every second the code is replaced
by the coded description.
Pressing the “Enter” key (↵), when an alarm code is displayed on the LCD, all the active alarms will be reset.
After the reset operation, all the still active alarms will be shown again. If there are no more active alarms,
the first parameter / value of the list will be displayed again.
3.1.5
Tricks
To quickly reach the parameter at the bottom of the list, press “Enter” (↵) together with the “down” pushbutton. To quickly reach the parameter at the top of the list, press “Enter” (↵) together with the “up” pushbutton.
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3.2
Hiromatic G Front Panel
The front panel of Hiromatic G for Superchiller 2000 applications consists of a backlit graphic LCD, of nine
push buttons that permit input function and of three LED (see Figure 30).
hiromatic g
Push-button to start/stop the system
and the units (if enabled).
Alarms and warnings reset.
To go up to the Main
Window or back to the
previous window
This LED (red) will be ON if one (ore more)
alarm is active or not reset
on off
home
reset
report
This LED (green) will be ON when the unit is in
operation
enter
alarm
Help Key: for each
individual Item there is
online-Help available.
on
line
This LED (orange) will be ON when the unit is
power suppl ied
Figure 30
3.3
Front panel of Hiromatic G (for Superchiller application).
Hiromatic E Front Panel
The front panel of Hiromatic E consists of a backlit graphic LCD, of eight push buttons that permit input
function and of two LED (see Figure 31).
Cursor Buttons: to move inside the
Menu; Left or Light: To go up to the
Main Window or back to the previous
window
Push-button to start/stop the system
and the units (if enabled).
Help Key: opens Online-Help for the
selected Parameter
This LED (orange) will be ON when the unit is
power supplied
Alarms and warnings reset.
GREEN when the Unit is in Operation,
RED blinking on new Alarms / Warnings
(1.02 only),
RED if the Unit is in Alarm condition
ENTER Button, to set Parameters
Figure 31 - Hiromatic E with SCE L1 Eprom Front View
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Water Inlet Temperature (if on the top-right SYSTEM is indicated, it is the average of
all units with system on. If UNIT is indicated, it is the inlet temperature of the specific
unit.
Water Outlet Temperature (if on the top-right SYSTEM is indicated, it is the average of
all units with system on. If UNIT is indicated, it is the outlet temperature of the specific
unit.
Ambient Temperature (if on the top-right SYSTEM is indicated, it is the average of all
units. If UNIT is indicated, it is the ambient temperature of the specific unit.
This Graph gives Information about the actual used Compressor
recourses in Operation, either for the System or for a specific
Unit (depending which Window, either SYSTEM or UNIT was
selected.
NOTE: Compressors stopped with failure are excluded from this
Graph, so that the information is about the actual available
compressors.
This Graph gives Information about the actual used Freecooling
recourses in Operation, either for the System or for a specific
Unit (depending which Window, either SYSTEM or UNIT was
selected.
This Field of the Window informs about time, date, the status of the System and the
status of the Alarm (no Alarm, Warning or Alarm.
On the top-right there is the information SYSTEM, all indications of the whole Hiromatic
Window belong to the System in this case (especially interesting in multiple units
installations) or to specific units.
This Field of the Window informs about time, date, the status of the System and the
status of the Alarm of the UNIT 1 (no Alarm, Warning or Alarm.
On the top-right there is the information UNIT 1, all indications of the whole Hiromatic
Window belong to the Unit 1 in this case.
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3.4
The Hiromatic menu
Left /Right
ENTER (1.01)
or
‚ (1.02)
ENTER (1.01)
or
‚ (1.02)
•‚ƒ„ to
move from one
Icon to the next
Left /Right
Up / Down
Enter
Enter
to selected menu
The Report push-button is used for the Online – Help (Hiromatic G only).
The On/Off push-button serve to switch on/off the unit or the system.
Home: Hiromatic G: press Home button, Hiromatic E: press ƒ or „ for 1 second.
The list of the parameter and the menu of allocation is described at the end of the manual.
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3.4.1
Setpoint Menu
This is the Window, where the Setpoint(s) for the Outlet temperature of the Unit (of the
System) can be set.
3.4.2
System Information Window
The System Information Window monitors the status of all connected units. To reach the
window find the relevant Symbol in the Icon-List and press ENTER. The information
indicated is the copy of the unit status of the single main window.
Unit 01
Unit 02
Unit 03
Unit 04
Unit 05
Unit 06
Unit 07
Unit 08
3.4.3
SYS ON
SYS OFF
STD BY
Warning
SYS OFF
SYS ON
SYS ON
SYS OFF
Unit 09
Unit 10
Unit 11
Unit 12
Unit 13
Unit 14
Unit 15
Unit 16
SYS ON
SYS OFF
SYS ON
Warning
SYS OFF
SYS ON
SYS ON
SYS OFF
Graphic Data Record
The Graphic Data Records monitor the inlet and outlet temperature of a selectable (1.02
series only) previous time, ranging from 5 minutes (detail record) to 96 hours (long time
record). On the right the actual values of the temperatures are shown.
On the bottom right the actual time is indicated, the indication on the bottom (4d, 3d, …)
marks the minutes / hours / days to the actual time.
On the left there is the scale: the middle value represents the orientation value, the value above and below
can be set as follows: Pressing “enter” twice marks the upper scale end of the graphic data record on the
top. With the cursor up/down the value can be changed. Pressing “Enter”, the lower scale end will be
automatically adjusted in order to have symmetric range.
Going down with the cursor to the left hand time indicator allows to change the time scale. Values selectable
are: 5 minutes, 30 minutes, 1, 12, or 24 hours, 2,4 or 8 days. (1.02 series only; 1.01 series Eproms have
fixed time scales: 12 hours and 96 hours).
Note: all records exist twice per unit / system. The upper group of records will be transmitted to Hirovisor IP,
the lower group may be viewed from the Hiromatic only.
Example: Unit 01 Outlet temperature Record, set as 4 days.
3.4.4
Status Report
The Status Report is a ‘container’ where the single Microfaces put the occurred events.
Principally there are two kinds of Status Report: System and Unit. System Status Report
is stored into Hiromatic and keep note of the last 200 events, which occurs to the whole
system. Unit Status Report keeps only the data, which are related to the relevant unit. It is
possible to get the Status Report by pressing “enter” from the main window (1.02 only) or entering on the
Status Report line in the „access to other menus“ window. Status Report gives the following information:
STATUS REPORT PAGE 5
01 29/01/99 11:59 ALARM
COMPRESSOR 1 HIGH PRESSURE
01 25/01/99 12:13 MESSAGE
UNIT ON
01 25/01/99 12:12 MESSAGE
POWER ON
•
•
•
UNIT 1
Unit Number
Page Number
Message (each message consists of two lines: the first line contains unit number, date and time and
the kind of information (Message, Warning or Alarm). The second line contains the message text.
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3.4.5
System / Unit Overview
There are two Overview Windows: one for the System and one for each single Unit. These
Windows contain important Information about all temperatures, Pressures, Cooling steps
etc.
3.4.6
Working Hour Counters
Each unit has its own working hour counter window. The most important components
(Pumps, Compressors and Freecooling) are counted and have separate thresholds to be
set.
3.4.7
Standby Settings
This window defines the number of standby units and the behaviour of the rotation (for
multiple units installations only).
3.4.8
Timer Settings
Each single unit can have independent timer settings (either to start / stop on selected
time / days or to run a different Setpoint on selected time / days).
3.4.9
Warnings / Alarms
Alarms and Warnings Window.
3.4.10 System Setup
This Window allows configuring the System (Number of connected Units etc.) and
contains also the settings for the connection to the Hirolink.
3.4.11 System Settings
To select the menu language, date and time etc.
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3.4.12 Unit setup
WARNING: this Window contains important Information about the type of the Unit.
Wrong setting will cause serious damage on the Machine!
3.4.13 Calibration
Set-up of the sensors (Pressure and temperature).
3.4.14 Service
These Windows allow to qualified personnel to run the machine in manual or semi-manual
mode, as well as there are internal information about the unit available.
3.4.15 Condenser Control
WARNING: this Window contains important Information about the condenser
control set up.
Wrong setting will cause serious damage on the Machine!
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4
Microface – First start
Microface is already factory pre-configured according to the unit configuration and it is ready to start.
Check first the Unit Code, which is marked on the Microface Cover, if it is the same as programmed
in the Microface / Hiromatic.
Read carefully the first-start instructions of the Machines manual.
To switch on the unit is enough to press the On-Off switch and, in case that Hiromatic is connected, to press
the ON-OFF push button on the front panel of Hiromatic.
Important:
• Setpoints have to be adjusted according the installation request.
• One of the most important Parameters is the “Unit Delta T”. It is the temperature difference between
Evaporator Inlet Sensor and Outlet Sensor, when the water pump is working and both compressors
are working with 100% capacity. This Parameter sets/corrects itself automatically, if the compressors
are operating constantly on 100% load for a time of 30 minutes.
• Network configuration are needed in the case that more than one unit is interconnected via
HIROBUS.
5
Software Upgrade
Microface software is suitable to control different type of Superchillers with different functionality and devices.
It is mandatory to set the correct unit code otherwise the unit could be seriously damaged and false alarm
are generated.
To avoid this problem it is necessary to respect the following points:
1.
2.
3.
4.
5.
6.
7.
8.
Switch off the unit with the unit On-off switch.
Open the automatic switch of the general power supply of the unit.
Remove the old EPROM and install the new one (using the right tool).
Close the automatic switch of the general power supply of the unit, after the display is lighted up press
the down arrow until Pin parameter is reached.
Enter the Pin (Personal identification number) (see Glossary).
Set properly the Unit Code.
Press the up arrow until parameter Std (Standard settings) is reached.
Select standard settings yes.
The above-indicated points are enough to select the right unit code and avoiding damage to the unit. Next
steps are the configuration of remaining parameters, which has to be done according the unit configuration
and installation requests.
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6
Alarm List
Note: alarms higher A93 do not exist in 1.01 series Eproms, but in 1.02 only.
No.
Information
LCD
Description
000
Alarm
GA
GENERAL ALARM
001
Alarm
HP1
COMP. 1 HIGH PRESSURE
002
Alarm
LP1
COMPRESSOR 1 LOW PRESSURE
003
Warning
FLO
FLOW SWITCH WARNING
004
Alarm
FLO
FLOW SWITCH ALARM
005
Warning
UI
USER INPUT TRIGGERED
006
Alarm
UI
USER INPUT TRIGGERED
007
Warning
Hti
HIGH WATER TEMP. IN
008
Warning
Hto
HIGH WATER TEMP. OUT
009
Warning
Lti
LOW WATER TEMP. IN
010
Warning
Lto
LOW WATER TEMP. OUT
011
Alarm
HAi
HIGH WATER TEMP. IN
012
Alarm
HAo
HIGH WATER TEMP. OUT
013
Alarm
LAi
LOW WATER TEMP. IN
014
Alarm
LAo
LOW WATER TEMP. OUT
015
Warning
P1H
PUMP 1 WORKING HOURS EXCEEDED
016
Warning
P2H
PUMP 2 WORKING HOURS EXCEEDED
017
Warning
C1H
CIRCUIT 1 WORKING HOURS EXCEEDED
018
Warning
C2H
CIRCUIT 2 WORKING HOURS EXCEEDED
019
Warning
FIn
INLET TEMPERATURE SENSOR FAILURE
020
Alarm
FIn
INLET TEMPERATURE SENSOR FAILURE
021
Warning
FO1
OUTLET TEMPERATURE SENSOR 1 FAILURE
022
Warning
FF1
CONDENSER 1 FANS FAILURE
023
Warning
PrE
WATER PRESSURE WARNING
024
Alarm
PrE
WATER PRESSURE ALARM
025
Alarm
HP2
COMP. 2 HIGH PRESSURE
026
Alarm
LP2
COMPRESSOR 2 LOW PRESSURE
027
Warning
nEt
NETWORK FAILURE
028
Warning
or
OUT OF MEMORY / EEPROM FAILURE
029
Alarm
CnS
COMP. NOT STOPPING. CHECK MF OUTPUTS
030
Alarm
Th1
COMPRESSOR 1 THERMAL PROTECTION
031
Alarm
Th2
COMPRESSOR 2 THERMAL PROTECTION
032
Alarm
Oi1
COMPRESSOR 1 OIL PRESSURE
033
Alarm
Oi2
COMPRESSOR 2 OIL PRESSURE
034
Alarm
Fr1
FREEZE ALARM (Auto-Reset)
035
Alarm
Fr2
FREEZE ALARM COMP.2 (Auto-Reset)
036
Message
UNIT ON
037
Message
UNIT OFF
038
Message
TIMER MODE
039
Message
STANDBY MODE
040
Message
POWER ON
041
Message
POWER OFF
042-57 Warning
Unit 1 – 16 disconnected
058
Warning
ON-OFF BY HIROMATIC NOT ENABLED
059
Message
COMPRESSOR 1 HIGH PRESSURE WARNING
060
Message
COMPRESSOR 2 HIGH PRESSURE WARNING
061
Message
COMPRESSOR 1 HIGH PRESSURE WARNING OK
062
Message
COMPRESSOR 2 HIGH PRESSURE WARNING OK
063
Warning
FO2
OUTLET TEMPERATURE SENSOR 2 FAILURE
064
Warning
nEt
NO CONNECTION TO UNIT 1
065
Warning
Fr1
FREEZE ALARM (Manual Reset)
066
Warning
Fr2
FREEZE ALARM COMP.2 (Manual Reset)
067
Warning
OUT OF MEMORY
068
Alarm
FF1
CONDE NSER 1 FANS FAILURE ALARM
069
Warning
ASF
AMBIENT TEMP. SENSOR WARNING
070
Alarm
FO1
OUTLET TEMPERATURE SENSOR 1 FAILURE
071
Alarm
FO2
OUTLET TEMPERATURE SENSOR 2 FAILURE
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
28
ENGLISH
072
073
074
075
076
077
078
079
080
081
082
083
084
085
086
087
088
089
090
091
092
093
094
095
096
097
098
099
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
Warning
Alarm
Warning
Alarm
Warning
Warning
Warning
Warning
Warning
Warning
Warning
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Warning
Warning
Alarm
Alarm
Alarm
Alarm
Alarm
Message
Message
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Alarm
Warning
Warning
Warning
Warning
Alarm
Alarm
Alarm
Alarm
Warning
Warning
Alarm
Alarm
Alarm
Warning
Alarm
EIF
EIF
EIF
EIF
FIn
Hb
Sid
SU1
SU2
FCH
FF2
FF2
LC1
LC2
HP1
HP2
SU1
SU2
dP1
dP2
iob
HS1
HS2
FF3
FF4
HP3
HP4
HP3
HP4
LP3
LP4
Oi3
Oi4
Th3
Th4
LC3
LC4
dP3
dP4
SU3
SU4
SU3
SU4
C3H
C4H
FF3
FF4
io2
UI2
UI2
EVAPORATOR INLET SENSOR WARNING
EVAPORATOR INLET SENSOR ALARM
EVAPORATOR INLET SENSOR WARNING (TEAM)
EVAPORATOR INLET SENSOR ALARM (TEAM)
INLET TEMPERATURE SENSOR FAILURE (TEAM)
HIROBUS ERROR
SUBGROUP -ID NOT UNIQUE
SUBGROUP -UNIT 1 NOT CONNECTED
SUBGROUP -UNIT 2 NOT CONNECTED
FC WORKING HOURS EXCEEDED
CONDENSER 2 FANS FAILURE
CONDENSER 2 FANS FAILURE ALARM
LOW CONDENSER PRESSURE 1
LOW CONDENSER PRESSURE 2
COMP. 1 HIGH PRESSURE / TH. PROTECTION
COMP. 2 HIGH PRESSURE / TH. PROTECTION
SUBGROUP -UNIT 1 NOT CONNECTED
SUBGROUP -UNIT 2 NOT CONNECTED
NO DIFFERENTIAL PRESSURE COMP.1
NO DIFFERENTIAL PRESSURE COMP.2
SLAVE MICROFACE NOT CONNECTED
HIROSENSOR 1 FAILURE
HIROSENSOR 2 FAILURE
CONDENSER 3 FANS FAILURE ALARM
CONDENSER 4 FANS FAILURE ALARM
COMP. 3 HIGH PRESSURE / TH. PROTECTION
COMP. 4 HIGH PRESSURE / TH. PROTECTION
COMP. 3 HIGH PRESSURE
UNIT CONNECTED (HIROLINK)
UNIT NOT CONNECTED (HIROLINK)
COMP. 4 HIGH PRESSURE
COMPRESSOR 3 LOW PRESSURE
COMPRESSOR 4 LOW PRESSURE
COMPRESSOR 3 OIL PRESSURE
COMPRESSOR 4 OIL PRESSURE
COMPRESSOR 3 THERMAL PROTECTION
COMPRESSOR 4 THERMAL PROTECTION
LOW CONDENSER PRESSURE 3
LOW CONDENSER PRESSURE 4
NO DIFFERENTIAL PRESSURE COMP.3
NO DIFFERENTIAL PRESSURE COMP.4
COMPRESSOR 3 HIGH PRESSURE WARNING OK
COMPRESSOR 4 HIGH PRESSURE WARNING OK
COMPRESSOR 3 HIGH PRESSURE WARNING
COMPRESSOR 4 HIGH PRESSURE WARNING
SUBGROUP -UNIT 3 NOT CONNECTED
SUBGROUP -UNIT 4 NOT CONNECTED
SUBGROUP -UNIT 3 NOT CONNECTED
SUBGROUP -UNIT 4 NOT CONNECTED
CIRCUIT 3 WORKING HOURS EXCEEDED
CIRCUIT 4 WORKING HOURS EXCEEDED
CONDENSER 3 FANS FAILURE
CONDENSER 4 FANS FAILURE
SLAVE MICROFACE 2 NOT CONNECTED
USER INPUT 2 TRIGGERED
USER INPUT 2 TRIGGERED
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
29
ENGLISH
7
Parameters table
Note: parameters marked with * do not exist in 1.01 series Eproms, but in 1.02 only.
HM NO.
183
211
212
216
276
LEVEL 0: SENSORS READING
Unit
Team
Microface
MIXTURE OUTLET
EVAPORATOR INLET
MIXTURE INLET
ACTUAL SETPOINT
OUTDOOR
MIXTURE OUTLET 1
MIXTURE OUTLET 2
HIROSENSOR 1 LEFT SENSOR
HIROSENSOR 1 RIGHT SENSOR
HIROSENSOR 2 LEFT SENSOR *
HIROSENSOR 2 RIGHT SENSOR*
CIRCUIT 1 PRESSURE
CIRCUIT 2 PRESSURE
GLYCOL PRESSURE
CIRCUIT 3 PRESSURE *
CIRCUIT 4 PRESSURE *
STATUS FREECOOLING
STATUS REMOTE ON
STATUS FLOW SWITCH
STATUS USER INPUT 1
STATUS USER INPUT 2 *
PASSWORD
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
bar
bar
bar
bar
bar
-
-
t1
t2
t3
ACT
t4
t5
t6
H1L
H1r
H2L
H2r
P1
P2
P3
P4
P5
FC
rE
FS
UI1
UI2
Pin
-
HM NO.
012
012
013
013
014
014
015
015
104
104
105
105
016
016
LEVEL 0 : WORKING HOURS
PUMP 1 WORKING HOURS (0-999)
PUMP 1 WORKING HOURS (1000)
PUMP 2 WORKING HOURS (0-999)
PUMP 2 WORKING HOURS (1000)
CIRCUIT 1 WORK HOURS (0-999)
CIRCUIT 1 WORK HOURS (1000)
CIRCUIT 2 WORK HOURS (0-999)
CIRCUIT 2 WORK HOURS (1000)
CIRCUIT 3 WORK HOURS (0-999) *
CIRCUIT 3 WORK HOURS (1000) *
CIRCUIT 4 WORK HOURS (0-999) *
CIRCUIT 4 WORK HOURS (1000) *
FC WORKING HOURS (0-999)
FC WORKING HOURS (1000)
Unit
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Team
-
Microface
HM NO.
LEVEL 2 : CONTROL
PARAMETERS
OUTLET SETPOINT 1
OUTLET SETPOINT 2
BRINE SETPOINT
RECOVERY SETPOINT
SP 1 AT AMB LOWER
SP 2 AT AMB HIGHER
HIGH OUTLET WARNING
LOW OUTLET WARNING
HIGH INLET WARNING
LOW INLET WARNING
HIGH OUTLET ALARM
LOW OUTLET ALARM
HIGH INLET ALARM
LOW INLET ALARM
LOW MIXT. PRESSURE
LOW MIXT. PRESSURE W / A
Unit
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
°C
Bar
-
021
022
023
024
025
026
032
033
034
035
042
043
044
045
053
052
Range
Temp. Indication
Temp. Indication
Temp. Indication
Setpoint Indication
Temp. Indication
Same as T1
Not used
Temp. Indication
Temp. Indication
Temp. Indication
Temp. Indication
Pressure Indication
Pressure Indication
Pressure Indication
Pressure Indication
Pressure Indication
On – Off
On – Off
On – Off
On – Off or V
On – Off or V
0 – 999
Std. Set
-
P1h
P1t
P2h
P2t
C1h
C1t
C2h
C2t
C3h
C3t
C4h
C4t
Fch
Fct
Range
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Hours
Std. Set
-
Team
Microface
Range
Std. Set
Yes
Yes
No
No
YES
YES
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
SP1
SP2
bSP
rSP
oS1
oS2
HO
LO
HI
LI
HOa
LOa
HIa
LIa
PrE
PrA
5.0 – 17.0 (0,1)
NO, 5 – 20 (1.0)
No, -10 – 25 (1)
5 – 30 (1)
-20 -+30 (1)
-20 -+30 (1)
No, 1-99 (1)
No, 1-99 (1)
No, 1-99 (1)
No, 1-99 (1)
No, 1-99 (1)
No, 1-99 (1)
No, 1-99 (1)
No, 1-99 (1)
No , 0.0 – 10.0 (0.5)
Warning /Alarm
10.0
NO
No
23
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
Warning
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
User
Set
30
ENGLISH
HM NO.
061
062
072
073
074
075
076
131
132
133
134
135
136
201
202
203
204
121
125
126
122
123
124
127
LEVEL 3 : SETUP / SERVICE
NUMBER OF UNITS
MICROFACE ID NUMBER
COMMUNICATION ENABLED
TEAMWORK
AUTORESTART
HIROMATIC ON/OFF ENA BLED
IP ADDRESS
LISTEN PORT
UNIT CODE
NUMBER OF STANDBY UNITS
ROTATION
PERFORM A ROTATION
ROTATE AT
START STANDBY SET +
ROTATE BY
CONDENSER RAMP 1:
CONDENSER RAMP 2:
CONDENSER RAMP 3: *
CONDENSER RAMP 4: *
LP DELAY
USER INPUT 1
USER INPUT 2 *
FREEZE ALARM
FREEZE RESET
OUT TEMP. CONTACT
FREEZE ALARM 2
Unit
Sec
No.
Min.
°C
HM NO.
082
081
081
081
081
081
081
084
084
085
091
094
084
092
093
095
Microface
°C
°C
Team
Yes
No
No
Yes
Yes
No
No
No
No
Yes
Yes
No
No
No
NO
No
No
No
No
Yes
No
No
Yes
Yes
Yes
No
LEVEL 4 : UNIT SETUP
STANDARD SETTINGS
UNIT CODE 1 (Pumps)
UNIT CODE 2 (Compressors)
UNIT CODE 3 (Refrigerant)
UNIT CODE 4 (Fans Configuration)
UNIT CODE 5 (Condenser)
UNIT CODE 6 (SC – HC Setting)
UNIT DELTA T
FREECOOLING DELTA T
AUTOSET ENABLE
COMPRESSORS OFF AT
CONDENSER FAN FAILURE
VALVE RUNTIME
CO MIN OPERATION
PUMPS OVERLAP
FC DISABLES PARZIALISATION
CONDENSER SETPOINT
CONDENSER BAND
CONDENSER DEADBAND
CUT-OFF
RESET CUT-OFF AT +
DELAY CUT-OFF
LOW EXT.TEMP.LIMIT
WARNING HP
PARTIALIZATION AT +
MIN.COND.SIGNAL
MAX.COND.SIGNAL
FILTER COND.CONTROL 1\2
Unit
°C
°C
°C
Sec
Min
Sec
Bar
Bar
%
Bar
Bar
Min
°C
Bar
Bar
V
V
%
Team
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
Microface
FAN TYPE
COND.INTEGRATION TIME
MAX.NIGHT SPEED ON
MAX.NIGHT SPEED OFF
MAX.NIGHT SPEED
COMPRESSOR PROTECTIO N
Min
Time
Time
%
-
No
No
No
No
No
No
nEt
Id
CEn
ShP
Aut
----Stb
roT
--Cas
rob
r1
r2
r3
r4
LPd
US1
US2
AF
AFr
otd
AFr
Std
UCP
UCC
UCr
UCF
Ucc
UCh
Udt
Fct
ase
stc
CFA
rt
Cot
PoL
FcD
CSP
HCC
CDB
CUT
CUH
CTD
LTL
HP
PTH
CSL
CSH
CIA\ACI
FTP
CIF
LOn
LOF
FAL
CP
Range
1 – 16 (1)
1 – 99
NO, YES
NO, YES
0 – 999 (1)
Yes, No
No,1-15 (1)
No, Yes
Reading only
1, 8 (1)
Volt Indication
Volt Indication
Volt Indication
Volt Indication
0 – 5 (1)
See Glossary
See Glossary
SWI, -25 to +5 (1)
Auto – Man
NO, -10 - +25 (1)
NO, -10 - +25 (1)
Std. Set
Yes
10
Yes
Range
Yes / No
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
2.0 – 10.0 (0.1)
0.0 – 10.0 (0.1)
Yes / No
-8 / +8 (1)
AL / WA
50 – 500 (1)
2 – 10 (1)
0-10 (1)
Yes, No
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
Std. Set
5.0
2.0
-5
WARNING
180
3
0
Yes
NO
NO
1
3
Warning
Warning
3
Auto
NO
NO
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
See Glossary
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
31
ENGLISH
HM NO.
142
143
144
145
146
242
243
244
245
151,152
151,152
153,154
153,154
155,156
155,156
231,232
231,232
233,234
233,234
LEVEL 5 : CALIBRATION
PTC IN
PTC OUT 1
PTC OUT 2
EVAPORATOR INLET SENSOR
AMBIENT SENSOR
HIROSENSOR 1 LEFT SENSOR
HIROSENSOR 1 RIGHT SENSOR
HIROSENSOR 2 LEFT SENSOR *
HIROSENSOR 2 RIGHT SENSOR *
PRESS CIRC 1 ZERO-SCALE
PRESS CIRC 1 FULL SCALE
PRESS CIRC 2 ZERO-SCALE
PRESS CIRC 2 FULL SCALE
WATER PRESS ZERO-SCA LE
WATER PRESS FULL SCA LE
PRESS CIRC 3 ZERO-SCALE *
PRESS CIRC 3 FULL SCALE *
PRESS CIRC 4 ZERO-SCALE *
PRESS CIRC 4 FULL SCALE *
Unit
Bar
Bar
Bar
Bar
Bar
Bar
Bar
Bar
Bar
Bar
Team
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
Microface
CA1
CA2
CA5
CA4
CA3
CA6
CA7
CA8
CA9
10S
1FS
20S
2FS
30S
3FS
40S
4FS
50S
5FS
Range
+/- 9.9
+/- 9.9
+/- 9.9
+/- 9.9
+/- 9.9
+/- 9.9
+/- 9.9
+/- 9.9
+/- 9.9
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
-10.0 / 50.0 (0.1)
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
Std. Set
-
- 6.0
30.0
- 6.0
30.0
0.0
10.0
- 6.0
30.0
- 6.0
30.0
32
ENGLISH
7.1
PARAMETERS; available with Hiromatic only
Note: parameters marked with * do not exist in 1.01 series Eproms, but in 1.02 only.
HM NO.
002
003
004
064
065
066
133
221
222
224
225
226
012
013
014
015
104
105
016
LANGUAGE
TIME
DATE
HM ID NUMBER
BAUDRATE
COMMUNICATION ENABLE
PERFORM ONE ROTATION
INTERVAL 1
INTERVAL 2
LINE DELETED
MODE (FOR INTERVALS)
DAYS (FOR FULL DAYS)
MODE (FOR FULL DA YS)
PUMP 1 WORKING HOURS
THRESHOLD
PUMP 2 WORKING HOURS
THRESHOLD
CIRCUIT 1 WORK HOURS
THRESHOLD
CIRCUIT 2 WORK HOURS
THRESHOLD
CIRCUIT 3 WORK HOURS
THRESHOLD *
CIRCUIT 4 WORK HOURS
THRESHOLD *
FC WORKING HOURS THRESHOLD
Unit
Team
Range
Std. Set
-
No
No
No
No
No
No
No
No
No
English, Deutsch, Italiano
Time Format
Date Format
1 – 99
20833, 19200
YES, NO
YES, NO
Time Format
Time Format
YES
00:00 , 00:00
00:00 , 00:00
Hours
No
No
No
-
SYS OFF, 5-20°C
Mo, Tu, We, Th, Fr, Sa, Su
SYS OFF, 5-20°C
Hours
50000
Hours
-
Hours
50000
Hours
-
Hours
50000
Hours
-
Hours
50000
Hours
-
Hours
50000
Hours
-
Hours
50000
Hours
-
Hours
50000
User
Setting
ATTENTION: These Parameters may be set to different values than the Standard Settings only after
permission from the factory!!
HM NO.
086
181
182
183
184
185
186
191
192
DELTA T PER SEC
PULSE LENGTH
PAUSE LENGTH MAX
PAUSE LENGTH MIN
VALVE ON DELAY
VALVE OFF DELAY
DIFF. PRESS. DELAY
LIQUID INJECTION START
LIQUID INJECTION STOP
Unit
%
Seconds
Seconds
Seconds
Seconds
Seconds
Seconds
°C
°C
Range
1 – 50
0.5 – 1.0
1 – 100
1 – 100
3 – 30
10 – 120
10 – 90
No, 90 – 105
No, 85 – 100
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
Std. Set
40
0.5
2
1
4
10
85
97
92
33
ENGLISH
8
Glossary
This information can be found also in the Hiromatic, by pressing the “Help” or the “Report” Key.
ACTUAL SETPOINT (SYSTEM)
The value shown here is the setpoint the system actually is working with, if the system is working in
teamwork. If the system is not working in teamwork it is the average of all individual setpoints and has no
meaning.
ACTUAL SETPOINT (UNIT)
The value shown here is the setpoint the unit actually is working with. If the system is not working in
teamwork it is possible to set individual setpoints for each single unit.
AUTORESTART
Time to start the pump after power on. Note: the Microface multiplies its ID Number with this time.
Example: Setting: 10 seconds. MF #4 will start after 40 seconds.
BRINE SETPOINT
Can be activated by user Input. NOTE: Brine Mode can be used only if the unit is equipped with the Brine
Mode specials. To run a standard unit in Brine Modem can destroy the machine or parts of it.
CIRCUIT 1/2 (UNIT)
Semihermetic compressors: 1st value is the compressor, 2nd value is the partialisation.
Fullhermetic or Scroll: Each indication represents one compressor. (second one not used in units with 2
compressors)
COMMUNICATION PARAMETERS
Only for Hirolink connection. ID number has to be unique for each Hiromatic in the network. Baudrate must
be 20833 (change with jumper on the backside of HM). Comm. enabled YES: Read and Write for HL. NO:
read only.
COMPRESSOR MIN OPERATION
Once the compressor was started, it will work for the minimum time, selected here, even if the control is no
cooling requesting anymore.
COMPRESSORS OFF AT
If the ambient temperature is lower than this value, the compressors will be stopped. This is a safety
parameter; settings too low will cause serious damage on the compressors.
COMPRESSOR PROTECTION
The software of the Microface (starting from SCM 1.01.038 and 1.02.010) includes a special function to
detect if the compressor once stopped from the control, really stops operating. As for high pressure
detection an auxiliary contact of the compressor is used (see connection guide at the end of this manual),
any time the compressor stops there is a feedback to the control. Should the control stop one compressor
without receiving the feedback (delay 60 sec), the alarm 029 “COMPRESSOR NOT STOPPING. CHECK
MICROFACE OUTPUTS ” is generated. If at this condition the actual outlet temperature goes 2 °C lower
than the setpoint, the whole unit (including the pumps) is stopped.
NOTE: units equipped with SW version SCM 1.01.038 (or higher) or SCM1.02.010 (or higher) must
have the interlocking between pump(s) and compressors.
For high pressure alarm detection an auxiliary contact of the compressor MUST BE USED, the HP
switch itself needs to cut out the compressor contactor directly.
(See also connection guide at the end of this manual).
COND FAN FAILURE
Set to warning: gives warning only. Set to alarm: stops compressors of the effected condenser group.
CONDENSER CTRL. 1, 2, 3, 4 (UNIT)
nd
rd
th
The value shows the actual output for the 1st , 2 , 3 , 4 condenser group. They are used for fanspeed
control directly. The condenser control output 2 can be used to drive an additional output card (only if the
condenser unit code is set to 1 or 2)
EVAPORATOR INLET (SYSTEM)
The value shown here is the average of the evaporator inlet sensors of all units, which have the water pump
on. If the system is working in teamwork it is the control value for FC-fans and compressors (compared with
setpoint).
EVAPORATOR INLET (UNIT)
The value shown here is the evaporator inlet temperature of the unit. If the unit is not working in teamwork it
is the control value for FC-fans and compressors (compared with setpoint) of the single unit.
FC DELTA T
This specifies the temperature difference between inlet and ambient temperature to changeover to
freecooling. Higher value means later changeover, lower value means earlier changeover, with
compressors in addition.
FC DISABLES PARTIAL.
If set to YES (Std.), there is no partialisation during freecooling. This will help to keep the pressure high to
have maximum fanspeed = higher FC capacity.
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
34
ENGLISH
FREECOOLING VALVE (UNIT)
This value indicates the opening of the freecooling valve. In FC condition it normally opens 100%. But if the
outlet temperature is too low, it starts closing in steps of 5 %.
FREEZE ALARM / FREEZE RESET
The freeze alarm is generated from the outlet sensor and stops the compressors. If the RESET is set to
AUTO, it will release compressor operation automatically after temp. was increasing. If set to MAN, manual
reset is necessary.
Note: in 4-screw units the freeze protection is managed through digital inputs (see connection guide); the
freeze parameter must be set to “SWI” for these units (sets automatically if compressor code was set to “4
Screws”.
ANTIFREEZER
It is considered by the control when the unit is on Local Off, Remote Off or Standby mode. If the Outlet
water temperature is lower than the limit defined the unit is forced to On as weel as the pump. The unit will
go automatically back to the previous staus as soon as the temperature is 3°C higher
GLYCOL PRESSURE (UNIT)
Display the actual water pressure. Optional: only if the sensor is present and the user input (Para 125 in
“Unit Config 4” is set to "Water Pressure". The input has to be set up in the calibration window 2, Para's 155
and 156.
HM ON/OFF ENABLED
Enables or disables the Hiromatic ON-OFF push button. This parameter can be set for each unit in the
network individually.
LP DELAY
This is the time where the LP alarm will be ignored. Note that the LP delay is active only after compressor
start; during operation the LP delay is 10-15 seconds only.
LOW COND. TEMPERATURE
It defines the time (at every compressor start) where the condensing control signal is never forced to 0%
MIXTURE INLET (SYSTEM)
The value shown here is the average of the mixture inlet sensors of all units, which have the water pump on.
This value is used to make the comparison between sys-inlet and sys-outdoor in systems which work in
teamwork.
MIXTURE INLET (UNIT)
The value shown here is the mixture inlet temperature of the unit. This value is used to make the
comparison bet ween inlet and outdoor temperature in systems which do not work in teamwork
MIXTURE OULET (SYSTEM)
The value shown here is the average of the mixture outlet sensors of all units, which have the water pump
on. This value is not used for any control action.
MIXTURE OULET (UNIT)
The value shown here is the mixture outlet temperature of the Unit. This value is used for antifreeze
protection of the compressors and for low limit (closing of the FC valve) during freecooling mode.
NUMBER OF STDBY UNITS
STBY units normally are stopped and start only in case of an alarm of another unit. This parameter defines
how many units will be in standby mode. See also Para 134.
NUMBER OF UNITS
This is the number of Superchillers, which are connected together with the Hirobus.
OUT TEMP. CONTACT
This is just a contact, which is active if the ambient temp. is lower than the setting. To use this contact the
warning module (I-module) has to be set. NOTE: no safety devices (antifreeze heaters etc.) must be started
from there.
OUTDOOR (SYSTEM)
The value shown here is the average of the outdoor temperature sensors of all units (also if in system off).
This value is used to make the comparison between Inlet and sys-outdoor in systems and also in single
units.
OUTDOOR (UNIT)
The value shown here is the outdoor temperature, measured from the specific unit. It is used to build the
SYS- Average, for systems which work or do not work in teamwork.
OUTLET SETPOINT 1 (SP1)
This is the standard setpoint of the outlet temperature. In standard operating mode the unit will keep the
water outlet temperature according this setting.
OUTLET SETPOINT 2 (SP2)
2nd setpoint. Can be activated by user Input. If AMB or VOLT shifting is requested, the setpoint can be
shifted between SP1 and SP2.
PERFORM ONE ROTATION
To select manually, which unit(s) actually will be in standby mode. Each time selecting YES will perform one
rotation. NOTE: Works only if a rotation frequency was set.
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
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PERFORMED AT
If the rotation was enabled, the rotation time can be selected here.
PUMPS OVERLAP
(Only for units with 2 pumps) In case of pumps rotation the active pump will operate the selected time
longer, so that both pumps are active for the selected time (necessary in some particular installations).
RECOVERY SETPOINT
This set point is used by the control when the recovery function is activated by the user input 1.
When active the Warning HP and Partialization At + functions are disabled
ROTATION FREQUENCY
If the standby function shall rotate within the system, the frequency can be selected either weekly or daily.
SP1 AT AMB LOWER
This activates the AMB shifting. If the ambient temp. is lower than the setting, the unit will operate on SP1. If
the ambient temp. is higher than the setting, the setpoint will continuously move to the SP2 value.
SP2 AT AMB HIGHER
This activates the AMB shifting. If the ambient temp. is higher than the setting, the unit will operate on SP2.
If the ambient temp. is lower than the setting, the setpoint will continuously move to the SP1 value.
STANDARD SETTINGS
This parameter has to be set to YES each time the unit code was changed or if a new eprom was inserted
in the MF. After that (the indication jumps back to NO) all settings have to be checked.
START STANDBY SET
If the outlet temperature is continuously higher than the setpoint + the selected value for a time of 15
minutes, the standby unit will be activated for a minimum time of 1 hour.
TEAMWORK
The teamwork has to be activated if all units are supplying to the same water system. Most of the
parameters are shared in this operating mode. If the units are working in different systems, the teamwork
parameter must be set to NO.
TEMPERATURE ALARMS
The Alarm thresholds are active 30 minutes after start of the pumps. The Alarms will force a standbyrotation if a standby unit is available. Alarms do not switch off the unit if no standby unit is available.
TEMPERATURE WARNINGS
The warning thresholds are active 30 minutes after start of the pumps. The warning is Information only; no
other activities are performed.
TIMER SETTING: DAYS
During the selected days the unit works in timer-mode, according the setting: Mode (Para 226).
TIMER SETTING: INTERVAL 1 / 2
2 timer intervals can be set, which are respected daily.
TIMER SETTING: MODE
The timer mode can be set as "SYSTEM OFF" which stops the unit for the selected intervals or days, or to a
new setpoint (no relation to SP1 or SP2). Note: The timer settings are individually for the daily intervals and
for full days.
UNIT CODE 1, Number of pumps
1 = 1 PUMP (OR REMOTE PUMP)
2 = 2 Pumps
UNIT CODE 2, Compressor configuration
1 = 2 single step compressors
2 = 2 Tandem compressors
3 = 2 Screw compressors
4 = 2 Semihermetic, 66-100%
5 = 2 Semihermetic, 75-100%
6 = 2 Semihermetic, 33 – 66 – 100%
7 = 4 Screw compressors (only possible to be set in 1.02 series)
UNIT CODE 3, Refrigerant type
2 = R22
4 = R134A
7 = R407C
UNIT CODE 4, Fans Configuration
1 = 2nd Microface, 1 step (each condenser)
2 = 2nd Microface, 2 steps (each condenser)
3 = 2nd Microface, 3 steps (each condenser)
4 = 2nd Microface, 4 steps (each condenser)
5 = analogue out (fanspeed control)
6 = additional electronic card
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UNIT CODE 5, Condenser Configuration
1 = with FC, single condenser
2 = without FC, single condenser
3 = with FC, double condenser
4 = without FC, double condenser
ÛNIT CODE 6
0 = Superchiller 2000
1 = Hichill.
NOTE: Never change this code to 1 without permission of Information & Controls. It will cause
malfunction and serious damages on the unit, if set to 1 without special measures.
UNIT DELTA T
This specifies the temperature difference between inlet and outlet when all compressors are in operation.
This parameter set itself automatically, if one or both circuits operate in full capacity for a time of 30
minutes. Setting parameter “AUTOSET ENABLE” to NO, disables the autoset function, the value set will
remain unchanged.
USER INPUT 1/2
USER INPUT –Warning- Gives warning only, no special reaction.
USER INPUT –ALARM- Gives alarm and stops the unit.
USER INPUT –STOP 1 CO- Stops one circuit, even if control requests cooling.
USER INPUT -STOP 2 CO- Stops all compressors, even if control requests cooling.
USER INPUT -STOP FC- Stops freecooling, even if the ambient temperature would allow FC.
USER INPUT -FORCE FC- Activates freecooling, even if the ambient temperature would not allow FC.
USER INPUT -2nd SETP.- Activates the second setpoint (Para 022)
USER INPUT -BRINE SP- Activates the brine setpoint (Para 023)
NOTE: No partialisation is allowed during brine-mode.
USER INPUT – RECOVERY: activates the recovery mode
USER INPUT -SHIFT SP- Activates 0-10V setpoint shifting.
0V: Setpoint 1 (Para 021) 10V: Setpoint 2 (Para 022)
USER INPUT -WA.PR.SE- Activates the 0-10V reading of the water pressure sensor. To be configured
also in calibration window 2, the limit to be set with Para 052 and 053.
USER INPUT –PUMP DOWN- If set to YES, Pump Down will be performed on each compressor stop
(only if unit code 6 = 1, needs written PDE permission)
USER INPUT –START STB - If the input is open, all standby units are forced to start.
VALVE RUN TIME
This is the time the FC valve needs to move from 0 to 100% opening and vice versa. If no labels are on the
valves actuator please open the valve in manual mode and measure the time.
VARIOUS WA/AL
The glycol pressure sensor (if present) generates either a warning or an alarm in case that the actual
pressure is lower than the setting. Warning is information only; if alarm is set the unit will stop.
WORKING HOURS
Actual hours: the counted hours of the component. (can be reset to 0).
Warning hours: these are the threshold levels for the warning.
Note: the warning doesn’t effect the operation of the component.
8.1
Glossary for Condenser Control
CONDENSER SETPOINT
it defines the required condenser set point value. The standard value is automatically modified according to
the unit code used to define the characteristics of the units. In case of units with free cooling option, during
the summer season (free cooling can be not used) the set point is internally incremented by a value equal to
half of the condenser band value
CONDENSER BAND
centred on set point it defines the range of the band where the fan speed modulation is controlled
CONDENSER DEADBAND
centred on set point it defines, the zone where the pressure can assume different values without any
influence on the speed of the fans
CUT-OFF
it defines the minimum pressure value accepted; the speed of the fan is forced to 0 every time the pressure
drops below this limit (see also the “Low Ext.Temp.Limit” parameter)
RESET CUT-OFF
it defines at which value, over the cut-off, the speed of fans must be reactivated
DELAY CUT-OFF
it defines, after the first minutes from compressor start, how long the speed of the fans never is forced to 0,
even if the pressure value is lower than the cut-off limit
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LOW EXTERNAL TEMPERATURE LIMIT
it defines the low external temperature limit. When the external temperature is lower than the limit the speed
st
of fans is forced to 0 (zero) if the pressure is lower than cut-off also during the 1 minutes since the
st
compressor is ON. Vice versa the speed is kept fixed to a calculated value during the 1 minutes.
The Warning HP value is always considered
WARNING HP
it defines at which value the speed of the fans must be forced to the maximum value; the speed goes back
under control as soon as the pressure is 5 bar below the limit
PARTIALIZATION AT +
it defines at which value, over the Warning HP, the marginalization must be activated; it will be deactivated
3 hours later only if the pressure is 5 bars below the limit
MIN. CONDENSER SIGNAL
it defines the minimum value to use during the normal condenser control
MAX. CONDENSER SIGNAL
it defines the maximum value to use during the normal condenser control
FILTER CONDENSER CONTROL 1\ 2
it defines the filter applied on condenser control when the external temperature is higher than 10°C (1) and
when it is lower than 10°C (2)
FAN TYPE
it defines the type of fans used to control the condensation:
ASS.= Axial (standard)
EC/R = EC-Fan/Radial. If set the “Warning HP and Partialization” function are disabled
CONDENSER INTEGRAL TIME
it defines the integration time used when the compressors are operating together with the free cooling
function
MAX. NIGHT SPEED ON
it defines at which time the max. night speed limitation has to be activated
MAX. NIGHT SPEED OFF
it defines at which time the max. night speed limitation has to be deactivated
MAX. NIGHT SPEED
it defines the max. speed of the fans used inside the “Night Max.Speed On and Nigh Max.Speed Off”
defined range
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38
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9
Connection Guide
The following gives Information about the Inputs and Outputs of the Microface. It is not an electrical drawing,
but general information about how the Inputs and Outputs have to be used.
For detailed information please refer to the electric diagram of the unit.
Inputs Microface Master
2 x Non Screw
2 x / 4 x Screws
PTC
In
0
A
B
C
Remote On / Off
Fans Group 1 Alarm
Flow Switch
Remote On / Off
Fans Group 1 Alarm
Flow Switch
PTC
In
1
A
B
C
Thermal Protection Circuit 1
Low Pressure 1
High Pressure 1
Thermal Protection Circuit 1
Low Pressure 1
High Pressure 1
PTC
In
2
A
B
C
Thermal Protection Circuit 2
Low Pressure 2
High Pressure 2
Thermal Protection Circuit 2
Low Pressure 2
High Pressure 2
PTC
In
3
A
B
C
Fans Group 2 Alarm
Oil Pressure 2
Oil Pressure 1
Fans Group 2 Alarm
Oil Level 2
Oil Level 1
PTC In 4
PTC Unit Inlet
PTC Unit Inlet
PTC In 5
PTC Outlet
PTC Outlet
PTC In 6
PTC Evaporator Inlet
PTC Evaporator Inlet
PTC In 7
PTC Outdoor Sensor
PTC Outdoor Sensor
ANA In 0
HP 1
HP 1
ANA In 1
HP 2
HP 2
ANA In 2
User Input
User Input 1
Outputs Microface Master
Microface Master
2 x Scroll
2 x Twin
2 x Semihermetic
2 x / 4 x Screws
DIG Out 0
Pump 1
Pump 1
Pump 1
Pump 1
DIG Out 1
Compressor 1
Compressor 1
Compressor 1 Motor
Compressor 1
DIG Out 2
Not used
Compressor 2
Co 1 Capacity Valve 1 Start / Stop Valve 1
DIG Out 3
Compressor 2
Compressor 3
Compressor 2 Motor
DIG Out 4
Not used
Compressor 4
Co 1 Capacity Valve 2 Start / Stop Valve 2
DIG Out 5
Open FC Valve
Open FC Valve
Open FC Valve
Open FC Valve
DIG Out 6
Close FC Valve
Close FC Valve
Close FC Valve
Close FC Valve
DIG Out 7
Alarm
Alarm
Alarm
Alarm
DIG Out 8
Pump 2
Pump 2
Pump 2
Pump 2
DIG Out 9
Warning / HR
Warning / HR
Warning / HR
Warning / HR
ANA Out 0
Condenser 1
Condenser 1
Condenser 1
Condenser 1
ANA Out 1
Condenser 2
Condenser 2
Condenser 2
Condenser 2
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
Compressor 2
39
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Inputs Microface Subgroup # 3 (4 x Screw compressor units only)
4 x Screws
PTC
In
0
A
B
C
Freeze Protection Evap. 1
Fans Group 3 Alarm
Freeze Protection Evap. 2
PTC
In
1
A
B
C
Thermal Protection Circuit 3
Low Pressure 3
High Pressure 3
PTC
In
2
A
B
C
Thermal Protection Circuit 4
Low Pressure 4
High Pressure 4
PTC
In
3
A
B
C
Fans Group 4 Alarm
Oil Level 3
Oil Level 4
PTC In 4
Not used
PTC In 5
Not used
PTC In 6
Not used
PTC In 7
Not used
ANA In 0
HP 3
ANA In 1
HP 4
ANA In 2
User Input 2
Outputs Microface Subgroup # 3 (4 x Screw compressor units only)
Microface Master
4 x Screws
DIG Out 0
Not used
DIG Out 1
Compressor 3
DIG Out 2
Start / Stop Valve 3
DIG Out 3
Compressor 4
DIG Out 4
Start / Stop Valve 4
DIG Out 5
Open FC Valve
DIG Out 6
Close FC Valve
DIG Out 7
Not used
DIG Out 8
Not used
DIG Out 9
Not used
ANA Out 0
Condenser 3
ANA Out 1
Condenser 4
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Outputs Microface Slave non Screw
Microface Slave
Single Condenser Units
Double Condenser Units
DIG Out 0
Fans Step 4
Fans Step 4 Circuit 1
DIG Out 1
Fans Step 1
Fans Step 1 Circuit 1
DIG Out 2
Fans Step 2
Fans Step 2 Circuit 1
DIG Out 3
Fans Step 3
Fans Step 3 Circuit 1
DIG Out 4
Not used
Fans Step 1 Circuit 2
DIG Out 5
Not used
Fans Step 2 Circuit 2
DIG Out 6
Not used
Fans Step 3 Circuit 2
DIG Out 7
Not used
Fans Step 4 Circuit 2
DIG Out 8
Capacity Valve 2 Circuit 1
Capacity Valve 2 Circuit 1
DIG Out 9
Capacity Valve 2 Circuit 2
Capacity Valve 2 Circuit 2
Outputs Microface Slave 1 Screw
Microface Slave
Screw Compressors
Non – Screw Compressors
DIG Out 1
Load Valve Circuit 1
Not used
DIG Out 2
Load Valve Circuit 2
Not used
DIG Out 3
Unload Valve Circuit 1
Not used
DIG Out 4
Unload Valve Circuit 2
Not used
Outputs Microface Slave 2 Screw
Microface Slave
Screw Compressors
Non – Screw Compressors
DIG Out 1
Load Valve Circuit 3
Not used
DIG Out 2
Load Valve Circuit 4
Not used
DIG Out 3
Unload Valve Circuit 3
Not used
DIG Out 4
Unload Valve Circuit 4
Not used
Multi-Microfaces: 2 Screw Compressors
MASTER
Std. Microface
ID ( 1- 16)
Hiromatic g
MASTER
MICROFACE
on
off
Eprom SCM
1.02.xxx
hom
e
rese repor
t
t
alar
on
m
line
ente
r
SLAVE 1
MICROFACE
SLAVE 1
to
Hirosensor 1
ALWAYS ID 1
Eprom MIO
1.02.xxx
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Multi-Microfaces: 4 Screw Compressors
MASTER
Std. Microface
ID ( 1- 16)
SUBGROUP 3
SAME ID as the
MASTER
Hiromatic g
MASTER
MICROFACE
on
off
hom
e
rese repor
t
t
alar
on
m
line
SUBGROUP 3
MICROFACE
Eprom SCM
1.02.xxx
Eprom SCM
1.02.xxx
ente
r
To next Unit
SLAVE 1
MICROFACE
SLAVE 1
to
Hirosensor 1 & 2
ALWAYS ID 1
SLAVE 2
ALWAYS ID 2
SLAVE 2
MICROFACE
Eprom MIO
1.02.xxx
Eprom MIO
1.02.xxx
24 0
PE
P0 GND
5
6
Connector G1
GNDe
Power Supply
24VAC , +/- 10%
Closed = OK
Remote On-Off
Closed = ON
2 (1500)
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
3 (1800)
4
Closed = OK
Flow Switch
+24e
1 (1300)
Fans Group 1 Alarm
Matrix
Board
1
Microface
Master
Master: Power Supply, Remote On-Off, Fans 1 alarm, Flow switch
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P1 GND
6
5
6
Connector G2
Connector G3
3 (1800) 4
1 (1300)
Closed = AL
(aux. contact
from Comp.
contactor)
Closed = OK
Low Pressure 1
2 (1500)
Closed = OK
3 (1800)
4
Closed = AL
(aux. contact
from Comp.
contactor)
Low Pressure 2
Closed = OK
Thermal Prot. Circuit 1
Closed = OK
2 (1500)
Thermal Prot. Circuit 2
1 (1300)
High Pressure 2
5
P2 GND
High Pressure 1
Matrix
Board
1
Microface
Master
Master: HP, LP and TH 1 & 2
P3 GND
5
P4
GND
P5
GND
P6 GND
P7 GND
6
Connector G4
3 (1800) 4
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
Ambient Sensor
Evap. Inlet Sensor
Outlet Sensor
Closed = OK
Inlet Sensor
Closed = OK
Fans Group 2 Alarm
Closed = OK
2 (1500)
Oil Pressure 1
1 (1300)
Oil Pressure 2
Matrix
Board
1
Microface
Master
Master: Fans 2 alarm, Oil 1 & 2, PTC Sensors
43
Microface
Master
1
4
5
DIG Out
5
G
2
6
7
8
DIG Out
6
G G0
Connector Bypass
3
9
24V
0V
DIG Out
8
S
DIG Out 9
Voltfree Warning
max. 24V / 1A
alternative
Heat Recovery
DIG Out 7
Pump 2
Single Scroll: n.u.
Tandem: Compressor 4
Semi: Capacity valve 2
Screw: Start-Stop valve2
Single Scroll: Comp. 2
Tandem: Compressor 3
Semi: Compressor 2
Screw: Compressor 2
HP: Tandem only
HP
No
HP: Tandem only
DIG Out
1
Co
Single Scroll: n.u.
Tandem: Compressor 2
Semi: Capacity valve 1
Screw: Start-Stop valve1
No
Co
Nc
DIG Out 0
Nc
Auxiliary
contact(s) from
pump
contactor(s)
Single Scroll: Comp. 1
Tandem: Compressor 1
Semi: Compressor 1
Screw: Compressor 1
Pump 1
Microface
Master
G G0
Voltfree Alarm
max. 24V / 1A
Freecooling Valve
Matrix
Board
1
ENGLISH
Master: Digital Outputs for Pump1 and Compressors
DIG Out
2
DIG Out
3
DIG Out
4
HP
HP
HP
Master: Dig. Outputs for Freecooling, Alarm, Warning (Heat recovery) and Pump 2
I-Module
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ANA In 0 + 1
Jumper set
G0 G
9
Matrix
Board
1
8
0
1
6
7
alternative
ANA In 2
Jumper not set
Gnd
2
ANA In 2
Jumper set
Gnd
2
2
-
+
+
Pressure transducer
Circuit 1
-
1
UI
Closed = OK
User Input 1 0-10V
3
User Input 1
4
Signal 0 -10 VDC
Connector M1
Pressure transducer
Circuit 2
Microface
Master
Master: Pressure transducers and User Input 1
Microface
Master
Master: Fanspeed outputs + LCD switch
ANA Out 0
G0 0
ANA Out 1
G0 1
Connector male RJ11 6/6
Front view
lockpin on rear, Pin 4 & 6
LCD Display
Switch Input
Fanspeed Output
Circuit 2
Fanspeed Output
Circuit 1
Closed = OFF
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Microface
Sub #3
Subgroup #3: Power Supply, Freeze protection, Fans 3 alarm
24 0
PE
P0 GND
Matrix
Board
2
5
6
Connector G1
Closed = OK
Closed = OK
Freeze protection
evaporator #1
Power Supply
24VAC , +/- 10%
2 (1500)
3 (1800)
4
Closed = OK
Freeze protection
evaporator #2
GNDe
Fans Group 3 Alarm
+24e
1 (1300)
P1 GND
6
5
6
Connector G3
3 (1800) 4
Closed = AL
(aux. contact
from Comp.
contactor)
1 (1300)
Closed = OK
2 (1500)
Closed = OK
Thermal Prot. Circuit 4
Closed = OK
Thermal Prot. Circuit 3
Closed = OK
2 (1500)
High Pressure 3
1 (1300)
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
3 (1800)
4
Closed = AL
(aux. contact
from Comp.
contactor)
High Pressure 4
Connector G2
Low Pressure 4
5
P2 GND
Low Pressure 3
Matrix
Board
2
Microface
Sub #3
Subgroup #3: HP, LP and TH 3 & 4
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ENGLISH
5
P4
GND
P5
GND
P6 GND
P7 GND
6
Connector G4
3 (1800) 4
Not used
Oil Pressure 4
Closed = OK
Not used
Closed = OK
Fans Group 4 Alarm
Closed = OK
2 (1500)
Not used
1 (1300)
Oil Pressure 3
Matrix
Board
2
P3 GND
Not used
Microface
Sub #3
Subgroup #3: Fans 4 alarm, Oil 3 & 4
DIG Out
2
DIG Out
3
DIG Out
4
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
Screw: Start-Stop valve4
HP
Screw: Compressor 4
HP
Screw: Start-Stop valve3
Auxiliary
contact(s) from
pump
contactor(s)
DIG Out
1
Screw: Compressor 3
No
Not used
G G0
Co
DIG Out 0
Nc
Microface
Sub #3
Subgroup #3: Digital Outputs for Compressors 3 + 4
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1
2
No
DIG Out 7
Co
DIG Out
6
Nc
DIG Out
5
G
Matrix
Board
2
Microface
Sub #3
Subgroup #3: Digital Outputs for Freecooling valve
DIG Out
8
S
G G0
3
Connector Bypass
4
5
6
7
8
9
24V
Not used
Not used
Freecooling Valve
0V
ANA In 0 + 1
Jumper set
G0 G
9
Matrix
Board
2
8
0
1
6
7
alternative
ANA In 2
Jumper not set
Gnd
2
ANA In 2
Jumper set
Gnd
2
-
-
+
+
1
UI
Closed = OK
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
User Input 2 0-10V
2
Pressure transducer
Circuit 4
3
Pressure transducer
Circuit 3
4
Signal 0 -10 VDC
Connector M1
User Input 2
Microface
Master
Sub
#3
Subgroup #3: Pressure 3&4 and User Input 2
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G0 0
ANA Out 1
G0 1
Fanspeed Output
Circuit 4
ANA Out 0
Fanspeed Output
Circuit 3
Microface
Sub #3
Subgroup #3: Fanspeed outputs 3 and 4
DIG Out 3
3
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
DIG Out 4
4
Unload Valve 2
DIG Out 2
2
Unload Valve 1
Power Supply
24VAC , +/- 10%
DIG Out 1
1
Load Valve 2
24 0 PE
G
Load Valve 1
Microface
Slave 1
SCREW
Microface Slave 1 Screw: Power Supply, Load-Unload Valves
49
ENGLISH
Load Valve 3
Power Supply
24VAC , +/- 10%
DIG Out 2
2
DIG Out 3
3
DIG Out 4
4
Unload Valve 4
DIG Out 1
1
Unload Valve 3
24 0 PE
G
Load Valve 4
Microface
Slave 2
SCREW
Microface Slave 2 Screw: Power Supply, Load-Unload Valves
DIG Out 8
DIG Out 9
8
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
Capacity Valve 2
Circuit 2
S
Capacity Valve 2
Circuit 1
Co
No
Nc
No
DIG Out 7
Condenser 2
Step 4
Power Supply
24VAC , +/- 10%
Condenser 1
Step 4
24 0 PE G0 G
Nc
DIG Out 0
Co
Microface
Slave
NON
SCREW
Microface Slave non Screw: Power Supply, Condenser 1, 2 Steps 4, Cap. Valves 2
50
ENGLISH
User Manual SC 2000 / Matrix Microface E & Hiromatic G/E rev. 02.03.2005
DIG Out 6
G
6
Condenser 2
Step 3
DIG Out 5
G
5
Condenser 2
Step 2
DIG Out 4
G
4
Condenser 2
Step 1
DIG Out 3
G
3
Condenser 1
Step 3
DIG Out 2
G
2
Condenser 1
Step 2
DIG Out 1
G
1
Condenser 1
Step 1
Microface
Slave
NON
SCREW
Microface Slave non Screw: Condenser 1, 2 Steps 1 - 3
51