dixell XEV22D Instruction Manual
dIXEL
Operating instruction manual 1592025920
1592025920 XEV22D GB r1.0 2008.09.05.doc XEV22D 1/4
XEV22D
DRIVER FOR STEPPER ELECTRONIC EXPANSION
VALVES
CONTENTS
1. GENERAL WARNING_________________________________________________ 1
2. GENERAL DESCRIPTION _____________________________________________1
3. WIRING CONNECTIONS ______________________________________________1
4. VALVE CONNECTIONS AND CONFIGURATION ___________________________ 1
5. ABSOLUTE MAXIMUM POWER ________________________________________1
6. FRONT PANEL ______________________________________________________1
7. USER INTERFACE ___________________________________________________2
8. PARAMETER LIST ___________________________________________________2
9. DIGITAL INPUTS ____________________________________________________3
10. FORCED OPENING __________________________________________________3
11. ELECTRICAL CONNECTIONS__________________________________________3
12. RS485 SERIAL LINE__________________________________________________ 3
13. HOW TO USE THE HOTKEY ___________________________________________3
14. DISPLAY MESSAGES ________________________________________________4
15. TECHNICAL DATA ___________________________________________________4
16. STANDARD VALUES _________________________________________________4
1. GENERAL WARNING
1.1 PLEASE READ BEFORE USING THIS MANUAL
•This manual is part of the product and should be kept near the instrument for easy and quick
reference.
•The instrument shall not be used for purposes different from those described hereunder. It
cannot be used as a safety device.
•Check the application limits before proceeding.
1.2 SAFETY PRECAUTIONS
•Check the supply voltage is correct before connecting the instrument.
•Do not expose to water or moisture: use the controller only within the operating limits avoiding
sudden temperature changes with high atmospheric humidity to prevent formation of
condensation
•Warning: disconnect all electrical connections before any kind of maintenance.
•Fit the probe where it is not accessible by the End User. The instrument must not be opened.
•In case of failure or faulty operation send the instrument back to the distributor or to “Dixell
S.p.A.” (see address) with a detailed description of the fault.
•Consider the maximum current which can be applied to each relay (see Technical Data).
•Ensure that the wires for probes, loads and the power supply are separated and far enough from
each other, without crossing or intertwining.
•In case of applications in industrial environments, the use of mains filters (our mod. FT1) in
parallel with inductive loads could be useful.
2. GENERAL DESCRIPTION
The XEV22D module is able to drive a large variety of stepper electronic
expansion valves. XEV22D permits to regulate the superheat (SH) of the fluid that
runs into refrigerating unit in order to obtain optimized performance and a
functioning of the evaporator independent by climatic or load conditions. XEV22D
modules are equipped with two probe inputs, one for 4÷20mA or 0÷5V pressure
transducer and another one for Pt1000 or NTC temperature probe. A LAN
connection permits to transmit the pressure signal to others XEV modules in order
to use only one pressure transducer in multiplexed cabinet applications. There are
also two configurable digital inputs, the first one is free of voltage and the other
ones is at high voltage in order to simplify connections with cooling request signal.
With the useful display it’s possible to see the value of superheat (SH), the degree
of opening of the valve or the probe values, the local keyboard allows to program
the instrument without any other devices. To complete instrument equipment, a
RS485 serial link permits to connect XEV22D to dIXEL monitoring and
supervising systems.
3. WIRING CONNECTIONS
The superheat regulation is performed only when the cooling digital input is
enabled. The following scheme shows how the device takes the request of cooling:
Please see the following scheme to make the right wirings. With "First Level" are
indicated the connections on the floor of the 4 DIN module and, of course, with
"Second Level" the connections of the 1st floor that are only for the stepper motor
of the valve and for HOTKEY.
4. VALVE CONNECTIONS AND CONFIGURATION
!!!!!!!!!! WARNING !!!!!!!!!!!!!!
To avoid possible problems, before connecting the valve configure the driver by
making the right changes on the parameters. Select the kind of motor (tEU
parameter) and check if the valve is present in tEP parameter table reported here
below:
tEP Model LSt
(steps*10)
uSt
(steps*10)
CPP
(mA*10)
CHd
(mA*10)
Sr
(step/s)
0 Manual settings Par Par Par
Par Par
1 Sporlan SEI 0.5-20 10 159 20 5 200
2 Sporlan SEI 30 20 319 20 5 200
3 Sporlan SEH 50-250 40 638 20 5 200
4 Alco EX5-EX6 10 75 40 10 450
5 Alco EX7 25 160 75 25 330
6 Alco EX8 330 step/s 25 260 80 50 330
7 Alco EX8 500 step/s 25 260 80 50 500
8 Danfoss ETS-25/50 20 262 14 8 120
9 Danfoss ETS-100 30 353 14 8 120
10 Danfoss ETS-250/400 35 381 14 8 120
If you can see your valve on the table, please select the valve through tEP
parameter. In this way, you can be sure of a right configuration.
About the connection, please pay attention to the following table to have a quick
reference on the connection mode for valves of different manufacturer. In any case,
the unique and valid reference has to be considered the datasheet made by
manufacturer of the valve:
4 WIRES VALVES (BIPOLAR)
Connection
numbering ALCO EX* ALCO EX5/6 SPORLAN
SEI-SHE
DANFOSS
ETS
4 WHITE BLUE WHITE BLACK
2 YELLOW BROWN BLACK WHITE
3 BROWN BLACK RED RED
1 GREEN WHITE GREEN GREEN
5-6 WIRES VALVES (UNIPOLAR)
Connection
numbering SPORLAN SAGINOMIYA
4 ORANGE ORANGE
2 RED RED
3 YELLOW YELLOW
1 BLACK BLACK
5 – Common GRAY GRAY
AFTER MAKING THE CONNECTION, PLEASE SWITCH OFF AND ON THE XEV
CONTROLLER IN ORDER TO BE SURE OF THE RIGHT POSITIONING OF THE
VALVE.
5. ABSOLUTE MAXIMUM POWER
XEV22D is able to drive a wide range of stepper valves, in the following table are
indicated the maximum values of current that the actuator can supply to the stepper
wiring. The dIXEL transformer to use is the TF20D.
NOTE: the electrical power absorption of the valve can be unrelated to refrigeration
power that valve has. Before using the actuator, please read the technical manual
of the valve supplied by the manufacturer and check the maximum current used to
drive the valve in order to verify that they are lower than those indicated below.
BIPOLAR VALVES
(4 wires) Maximum Current 0.9A
VALVE
TYPE
UNIPOLAR VALVES
(5-6 wires) Maximum Current 0.33A
6. FRONT PANEL
dIXEL
Operating instruction manual 1592025920
1592025920 XEV22D GB r1.0 2008.09.05.doc XEV22D 2/4
To display and to modify the set
point. In programming mode it
selects a parameter or it
confirms a value.
By pressing and releasing this
key, it’s possible to see the
values of the probes.
In programming mode it slides
the codes of the parameters or it
increases their values.
In programming mode it slides
the codes of parameters or it
decreases their values.
KEYS COMBINATIONS
+To lock or to unlock the
keyboard
+To enter programming
mode.
6.1 XEV22D LEDS
On display there are some luminous dots. Their meaning is described in the following table:
LED MODE Function
ON Low pressure alarm
ON Maximum Operating Pressure alarm
OFF Valve is completely closed
BLINKING Valve is moving
ON Valve is completely opened
BLINKING Serial communication present
OFF Serial communication absent
ON Superheat alarm
7. USER INTERFACE
7.1 TO SEE THE READ-ONLY VALUES
1) Press and release okey;
2) First read-only label is showed;
3) Slide labels with oor nnarrows;
4) Press SET to see read-only value. To change parameter you want to see,
press SET
5) To leave the fast access menu, press and release SET+oor wait time-out of
about 3 minutes.
7.2 TO SEE THE SET POINT
1) Press the SET key until the set point will be showed;
2) To come back to see temperature, wait about 5s or press newly SET key.
7.3 TO MODIFY THE SET POINT
To change the set point value operate as follows:
1) Press the SET key until the set point will be showed;
2) Use o or nto change its value.
3) Press “SET” to store the new value.
7.4 TO GO TO “PR1” PARAMETERS
To enter in “Pr1” level menu:
1) Pressing SET+ n keys for about 3 seconds.
2) Instruments shows first parameter in Pr1
menu
7.5 TO GO TO “PR2” PARAMETERS
To enter to “Pr2” parameters list:
1. Enter to “Pr1”
2. Select “Pr2” parameter and press
SET
3. The “PAS” label will be shown, then
“0 - - “ with 0 blinking.
4. Insert “321” password through o
and n keys, then press SET to
confirm.
7.6 TO MODIFY THE PARAMETERS VALUE
To change the parameter’s value
operate as follows:
1. Enter the Programming mode by
pressing the Set and nkey for
about 3s.
2. Select the required parameter.
3. Press the “SET” key to display its value
4. Use o or nto change its value.
5. Press “SET” to store the new value and move to the following parameter.
To exit: Press SET + o or wait 30s without pressing a key.
NOTE: the set value is stored even when the procedure is exited by waiting the
time-out to expire.
8. PARAMETER LIST
NOTE: All pressure parameters are relatives or absolutes depending on PrM
parameter.
REGULATION
FtY Kind of gas (R22, 134, 404, 407, 410, 507,CO2): Type of gas used by
plant. Fundamental parameter for correct functioning of all system.
PEO Probe Error opening percentage: (0÷100%) if a temporary probe error
occurs, valve opening percentage is PEo until PEd time is elapsed. If PEO
is different from 0 it assures cooling also with probe error, because even if
the device cannot calculate superheat the valve can work at PEO
percentage.
PEd Probe Error delay before stopping regulation: (0÷239 sec. –
240=On=unlimited) if probe error duration is bigger than PEd valve closes
completely. Pf message is showed. If PEd=On valve opening is PEo until
probe error finishes;
tEU Type of Stepper motor: (uP- bP) it permits to select the kind of valve.
uP= 5-6 wires unipolar valves; bP= 4 wires bipolar valves; !!!!! WARNING
!!!!! by changing this parameter the valve has to be reinitialized.
tEP Predefined valve selection: (0÷10) if tEP=0 the user has to modify all the
parameters of configuration in order to use the valve. If tEP is different
from 0 the device performs a fast configuration of the following
parameters: LSt, uSt, Sr, CPP, CHd. To select the right number please
read the following table:
tEP Model LSt
(steps*10)
uSt
(steps*10)
CPP
(mA*10)
CHd
(mA*10)
Sr
(step/s)
0 Manual settings Par Par Par
Par Par
1 Sporlan SEI 0.5-20 10 159 20 5 200
2 Sporlan SEI 30 20 319 20 5 200
3 Sporlan SEH 50-250 40 638 20 5 200
4 Alco EX5-EX6 10 75 40 10 450
5 Alco EX7 25 160 75 25 330
6 Alco EX8 330 step/s 25 260 80 50 330
7 Alco EX8 500 step/s 25 260 80 50 500
8 Danfoss ETS-25/50 20 262 14 8 120
9 Danfoss ETS-100 30 353 14 8 120
10 Danfoss ETS-250/400 35 381 14 8 120
If tEP is different from 0 previous configuration of LSt,uSt,Sr,CPP and
CHd are overwritten.
LSt Minimum number of steps: (0 ÷ USt) It permits to select the minimum
number of steps. At this number of steps the valve should be closed. So
it’s necessary the reading of manufacturer datasheet to set correctly this
parameter. It’s the minimum number of steps to stay in advised range of
functioning; !!!!! WARNING !!!!! by changing this parameter the valve
has to be reinitialized. The device perform this procedure
automatically and restart its normal functioning when the
programming mode ends;
USt Maximum number of steps: (LSt÷800*10) It permits to select the
maximum number of steps. At this number of steps the valve should be
completely opened. Read the datasheet provided by manufacturer of the
valve to set correctly this parameter. It’s the maximum number of steps to
stay in advised range of functioning; !!!!! WARNING !!!!! by changing this
parameter the valve has to be reinitialized. The device perform this
procedure automatically and restart its normal functioning when the
programming mode ends;
Sr Step rate (10÷600 step/sec) it’s the maximum speed to change step
without losing precision (=losing steps). It’s advised to stay under the
maximum speed;
CPP Current per phase (only bipolar valves): (0÷100*10mA) it’s the
maximum current per phase used to drive valve. It’s used only with
bipolar valves
CHd Holding current per phase (only bipolar valves): (0÷100*10mA) it’s the
current per phase when the valve is stopped for more than 4 minutes. It’s
used only with bipolar valves
OPE Start opening Percentage: (0÷100%) Opening valve percentage when
start function is active and during post defrost phase. This phase duration
is SFd time;
SFd Start Function duration: (0.0÷42.0 min: tens of seconds) It sets start
function duration and post-defrost duration. During this phase the
alarms are neglected
Sti Stop regulation interval: (0.0÷24.0 hours: tens of minutes) after
regulating continuously for Sti time, the valve closes for Std time in order
to prevent ice creation.
Std Stop duration: (0÷60 min.) it defines stop regulation time after Sti. During
this stop display shows StP message
MnF Maximum opening percentage at normal Functioning: (0÷100%)
during regulation it sets the maximum valve opening percentage.
FoP Forced Opening percentage: (0÷100 - nu) if FoP=nu valve works with
regulation algorithm. If Fop is different from nu the valve stays at Fop
opening percentage. This function could be useful during plant starting or
during service operations.
PI PARAMETERS (trained staff)
dIXEL
Operating instruction manual 1592025920
1592025920 XEV22D GB r1.0 2008.09.05.doc XEV22D 3/4
Pb Proportional band: (0.1 ÷
50.0 / 1÷90°F) PI
proportional band. A value
bigger than 5°C is advised;
rS Band Offset: (-12.0 ÷
12.0°C / -21÷21°F) PI band
offset. It permits to move
the proportional band of
the PI. With rS=0 the band
is between Set÷Set+Pb;
inC Integration time: (0 ÷ 255s) PI integration time
PROBE PARAMETERS
tPP type of Pressure transducer: (420 – 5V – LAn) it sets type of pressure
transducer to use: 420= 4÷20mA pressure transducer; 5V= 0÷5V
ratiometric transducer, LAn= the pressure signal comes from another XEV
module.
LPP Enable pressure probe sending in LAN: (n÷Y) if LPP=Y the value of
pressure read by device is sent in LAN. Only one device of the LAN can
have LPP=Y
PA4 Probe value At 4mA or At 0V: (-1.0 ÷ P20 bar / -14 ÷ PSI) pressure value
measured by probe at 4mA or at 0V (related to PrM parameter)
P20 Probe value 20mA or At 5V: (PA4 ÷ 50.0 bar / 725 psi) pressure value
measured by probe at 20mA or at 5V (related to PrM parameter)
oPr Pressure probe calibration: (-12.0 ÷ 12.0 bar / -174÷174 psi)
ttE type of tEmperature probe: (PtM ÷ Ntc) it allows to set the kind of probe
used by the instrument: PtM = Pt1000, ntC = NTC probe.
otE Temperature probe calibration: (-12.0 ÷ 12.0 °C / -21÷21 °F)
DIGITAL INPUTS
i1P Digital Input 1 (Free of voltage) digital input polarity: (cL,OP) CL=
activated when closed; OP= activated when opened
i1F Digital Input 1 (Free of voltage) digital input function: (CCL, rL) CCL=
cooling call; rL= digital input activates relay;
d1d Digital Input 1 (Free of voltage) activation delay: (0÷255 min.) this
activation delay is used only if digital input is configured as rL
i2P Digital Input 2 (High voltage) digital input polarity: (CL,OP) CL=
activated when closed; OP=activated when opened
i2F Digital Input 2 (High voltage) digital input function: (CCL, rL) CCL=
cooling call; rL= digital input activates relay;
d2d Digital Input 2 (High voltage) activation delay: (0÷255 min.) this
activation delay is used only if digital input is configured as rL
ALARM
dAO Alarm delay after restarting regulation: (0.0÷42.0 min: tens of
seconds) time between digital input activation (configured as CCL) and
alarm signalling. The LSH alarm is always signalled also during this time;
tdA Type of alarm signalled by relay: (ALL, SH, PrE, di) ALL= all alarm; SH=
superheat alarm; PrE= pressure alarm; di= activation only when digital
input configured as rL is actived;
LPL Lower Pressure Limit for superheat regulation: (PA4 ÷ P20 bar / psi )
when suction pressure comes down to LPL the regulation is performed
with a LPL fixed value for pressure, when pressure comes back to LPL the
normal pressure value is used. (related to PrM parameter)
MOP Maximum Operating Pressure threshold: (PA4 ÷ P20 bar / psi) if
suction pressure exceeds maximum operating pressure value, instrument
signals situation with alarm LED . (related to PrM parameter)
LOP Lowest Operating Pressure: (PA4 ÷ P20 bar / psi) if the suction pressure
comes down to this value a low pressure alarm is signalled with alarm LED
. (related to PrM parameter)
PHy Pressure alarm Hysteresis: (0.1 ÷ 5.0 bar / 1÷ 72 PSI) alarm hysteresis
to disable alarm signalling.
dML delta MOP-LOP: (0 ÷ 100%) when a MOP alarm occurs valve will close of
the dML percentage every one second until MOP alarm is active. When
LOP occurs valve will open of the dML percentage every one second until
LOP alarm is active.
MSH Maximum SuperHeat alarm: (LSH÷32,0°C / LSH÷176°F) when superheat
exceeds this value an high superheat alarm is signalled after interval SHd
LSH Lowest SuperHeat alarm: (0.0÷MSH °C / 32÷MSH °F) when superheat
goes down to this value a low superheat alarm is signalled after interval
SHd
SHy SuperHeat alarm Hysteresis: (0.0÷25.5°C / 1÷77°F) hysteresis for
superheat alarm deactivation
SHd SuperHeat alarm activation delay: (0÷255s) when a superheat alarm
occurs, the time SHd have to pass before signalling alarm
FrC Fast-recovery Constant: (0÷100s) permits to increase integral time when
SH is below the set-point. If FrC=0 fast recovery function is disabled.
DISPLAY
Lod Local display:(SH, PEr, P1, P2) SH= superheat; PEr = valve opening
percentage; P1= value of temperature measured; P2= pressure measured
by P2 probe;
CF Temperature measurement units: (°C÷°F) °C= Celsius degree; °F=
Fahrenheit degree; ATTENTION: by changing measurement unit, the
regulation parameters have to be correctly changed
PMu Pressure Measurement units: (bAr, PSI) bAr= bar; PSI= psi;
ATTENTION: by changing measurement unit, the regulation parameters
have to be correctly changed
rES Resolution (only °C): (dE÷in)
PrM Pressure visualization Mode: (rEL÷AbS) rEL= relative pressure; AbS=
absolute pressure; All pressure parameters depend on this parameter
CLP CooLing Percentage (read only): Display the percentage of time during
which the cooling call was active in the time interval defined by parameter
CLt
tP1 temperature Probe value (read only): it shows temperature probe value
from P1
PPr Pressure probe value (read only): it shows pressure probe value. The
value depends on PrM.
tP2 temperature from P2 (read only): it shows temperature obtained from
conversion of pressure value
OPP Opening Percentage (read only): it shows the actual opening percentage
of the valve;
d1S Free of voltage digital input State (read only): it shows the free of
voltage digital input;
d2S High voltage digital input State (read only): it shows the high voltage
digital input state;
Adr RS485 Serial Address: (1÷247) Identifies the instrument address when
connected to a ModBUS compatible monitoring system.
Mod ModBus: (AdU÷StD) AdU= (Only for XWEB systems) in this case XEV
and thermostatic controller are considered an alone instrument (it requires
a custom library for XWEB); StD= to use XEV in stand-alone mode, in this
case normal Modbus-RTU protocol is used;
Ptb Parameters map: (read only) it identifies parameters map written by
factory
rEL Release Firmware: (read only) it shows firmware release
Pr2 Second level menu
9. DIGITAL INPUTS
The device is provided with two digital inputs. One is free of voltage and the other is
at high voltage and both can be configured as cooling call. In this way the cooling
signal can come from instruments with direct load outputs or via instruments with
output without voltage. One of these inputs must be configured as cooling call.
10. FORCED OPENING
If necessary, by changing FoP parameter it’s possible to force the valve opening.
For example, by setting FoP=50 the valve will be open at half of full scale. To
disable this function it’s necessary to set FoP=nu (default value). The valve
opening is enabled only when CCL digital input is enabled.
11. ELECTRICAL CONNECTIONS
The instrument are provided with disconnectable screw terminal block to connect
cables with a cross section up to 2,5 mm2. Heat-resistant cables have to be used.
Before connecting cables make sure the power supply complies with the
instrument’s requirements. Separate the probe cables from the power supply
cables, from the outputs and the power connections. Do not exceed the maximum
current allowed on each relay, in case of heavier loads use a suitable external
relay.
11.1 PROBES
Advised temperature probe placement
is illustrated in figure nearby. Between
0 and 180 inclination degrees respect
to horizontal pipe section. For suction
pressure probe there aren’t any
particular prescriptions
12. RS485 SERIAL LINE
All models can be connected to the monitoring and supervising system XWEB3000.
If Mod=Std standard ModBUS-RTU protocol is used, if Mod=AdU custom XWEB
library is required. This last configuration makes possible to use the same serial
address of the thermostat that gives the cooling request to XEV. In this way, it’s
possible to reduce the number of addresses used.
13. HOW TO USE THE HOTKEY
13.1 HOW TO PROGRAM A HOT KEY FROM THE INSTRUMENT (UPLOAD)
1) Program one controller with the front keypad.
2) When the controller is ON, insert the “Hot key” and push okey; the "uPL"
message appears followed a by flashing “End”
3) Push “SET” key and the End will stop flashing.
4) Turn OFF the instrument remove the “Hot Key”, then turn it ON again.
NOTE: the “Err” message is displayed for failed programming. In this case push
again okey if you want to restart the upload again or remove the “Hot key” to abort
the operation.
13.2 HOW TO PROGRAM AN INSTRUMENT USING A HOT KEY (DOWNLOAD)
1) Turn OFF the instrument.
2) Insert a programmed “Hot Key” into the 5 PIN connector and then turn the
Controller ON.
dIXEL
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1592025920 XEV22D GB r1.0 2008.09.05.doc XEV22D 4/4
3) Automatically the parameter list of the “Hot Key” is downloaded into the
Controller memory, the “doL” message is blinking followed a by flashing
“End”.
4) After 10 seconds the instrument will restart working with the new parameters.
5) Remove the “Hot Key”.
NOTE the message “Err” is displayed for failed programming. In this case turn the
unit off and then on if you want to restart the download again or remove the “Hot
key” to abort the operation.
14. DISPLAY MESSAGES
Mess. Cause Outputs
“nA” None of digital inputs configured as CCL are
activated Valve closed
“Pf” The PEd time is elapsed and the regulation is
stopped
Valve closed after PEd. There is a probe
error
“P1” Temperature probe fault according to PEo and PEd
“P2” Pressure transducer fault according to PEo and PEd
“HSH” High superheat alarm By PI
“LSH” Low superheat alarm Valve Closed
“LPL” Low pressure limit see LPL parameter
“MOP” Maximum Operating Pressure see dML parameter
“LOP” Lowest Operating Pressure see dML parameter
“StF” Start Function enabled see SFd parameter
“StP” Regulation stop caused by Std and Sti Valve closed
“EE” Memory anomaly
14.1 ALARM RECOVERY
Probe alarms “P1”, “P2” start few seconds after the fault in the probe; they
automatically stop few seconds after the probe restarts normal operation. Check
connections before replacing the probe. Max. and min. alarms “HSH” “LSH” “MOP”
“LOP” automatically stop as soon as the variable returns to normal values.
The instrument is provided with an internal check verifying memory integrity. Alarm
“EE” flashes when a failure in the internal memory is detected. In such case call the
service.
15. TECHNICAL DATA
Housing: self extinguishing ABS.
Case: 4 DIN modules 70x135mm with male and female connectors; depth 60mm;
Mounting: DIN RAIL mounted in a omega (3) din rail
Protection: IP20.
Connections: disconnectable Screw terminal block ≤2,5 mm2wiring.
Power supply: 24Vac/dc ±10%;
Power absorption: depending on connected valve 20VA max
Display: three digits with icons, red LEDs, height 14,2 mm.
Inputs: 1 temperature probe Pt1000 or NTC;
1 pressure transducer 4÷20mA o 0÷5V;
Digital inputs: 1free of voltage
1 at High voltage
Outputs for valve: bipolar or unipolare valves
Data storage: on the non-volatile memory (EEPROM).
Kind of action: 1B; Pollution grade: normal; Software Class: A
Operating temperature: 0÷60°C; Storage temperature: -25÷60 °C.
Relative humidity: 20÷85% (no condensing)
Resolution: 0,1 °C or 1 °F; Precision a 25°C:: ±0,7 °C ±1 digit
16. STANDARD VALUES
Label Description Range Default Level
FtY Kind of gas R22 , 134 , 404, 407,
410, 507, CO2 404 Pr2
PEo Probe Error opening percentage 0 ÷ 100 % 50 Pr2
PEd Probe Error delay before stopping
regulation 0 ÷ 239 s - On On Pr2
tEU Type of Stepper motor uP – bP bP Pr2
tEP Automatic Valve configuration 0÷10 1 Pr2
LSt Minimum number of steps 0 – Ust See tEP Pr2
USt Maximum number of steps LSt – 800*10 See tEP Pr2
Sr Step rate 10 ÷ 600 step/s See tEP Pr2
CPP Current per phase (only bipolar valves) 0 ÷ 100 *10mA See tEP Pr2
CHd Holding current per phase (only bipolar
valves) 0 ÷ 100 *10mA See tEP Pr2
OPE Start opening Percentage 0 ÷ 100 % 85 Pr2
SFd Start Function duration 0.0÷42.0 minutes: tens
of seconds 1.3 Pr2
Sti Stop regulation interval 0.0÷24.0 hours: tens of
minutes 0 Pr2
Std Stop duration 0 ÷ 60 min. 0 Pr2
MnF Maximum opening percentage 0 ÷ 100 % 100 Pr2
FOP Forced Opening time-out 0 ÷ 100 % - nu nu Pr2
PI PARAMETERS (trained staff)
Pb Proportional band 0.1 ÷ 50.0 °C / 1÷90 °F 10.0 Pr2
rS Band Offset -12.0 ÷ 12.0 °C / -21 ÷
21°F 0.0 Pr2
inC Integration time 0 ÷ 255 s 120 Pr2
PROBE PARAMETERS
tPP Type of pressure transducer 420 - 5V- LAn 420 Pr2
LPP Enable pressure probe sending
in LAN n ÷ Y n Pr2
PA4 Probe value at 4mA or at 0V (related to
PrM parameter) -1.0 bar / -14 PSI -0.5 Pr2
P20 Probe value at 20mA or at 5V (related
to PrM parameter)
PA4 ÷ 50.0 bar / 725
PSI 11.0 Pr2
oPr Pressure probe calibration -12.0 ÷ 12.0 bar / -174 ÷
174 psi 0 Pr2
ttE type of temperature probe PtM ÷ ntc PtM Pr2
otE Temperature probe calibration -12.0 ÷ 12.0 °C / -21 ÷
21 °F 0 Pr2
DIGITAL INPUTS
i1P Free of voltage digital input polarity cL – OP CL Pr2
i1F Free of voltage digital input function CCL , rL CCL Pr2
d1d Digital input 1 (free of voltage)
activation delay 0 ÷ 255 min. 0 Pr2
i2P Main voltage digital input polarity cL – OP CL Pr2
i2F Main voltage digital input function CCL , rL CCL Pr2
d2d Digital input 2 (Main voltage) activation
delay 0 ÷ 255min. 0 Pr2
ALARMS
dAO Alarm delay after restarting regulation 0.0÷42.0 min: tens of
seconds 10.0 Pr2
tdA Type of alarm signalled by relay ALL, SH, PrE, DI ALL Pr2
LPL Lower pressure limit for superheat
regulation (related to PrM parameter) PA4 ÷ P20 bar / PSI -0.5 Pr2
MOP Maximum operating pressure threshold
(related to PrM parameter) PA4 ÷ P20 bar / PSI 11.0 Pr2
LOP Minimum suction pressure limit (related
to PrM parameter) PA4 ÷ P20 bar / PSI -0.5 Pr2
PHy Pressure alarm Hysteresis 0.1 ÷ 5.0 bar / 1÷ 72 PSI 0.1 Pr2
dML delta MOP-LOP 0 ÷ 100% 30 Pr2
MSH Maximum superheat alarm LSH ÷ 32.0 °C / LSH ÷
176 °F 80.0 Pr1
LSH Lowest superheat alarm 0.0 ÷ MSH °C / 32 ÷
MSH °F 2.5 Pr1
SHy Superheat hysteresis 0.1 ÷ 25.5 °C / 1 ÷ 77°F 0.1 Pr2
SHd Superheat alarm activation delay 0 ÷ 255 s 120 Pr1
FrC Fast-Recovery Constant 0÷100 s 50 Pr2
DISPLAY
Lod Local display SH - PEr – P1 - P2 SH Pr1
CF Temperature measurement units °C - °F °C Pr2
PMu Pressure measurement unit bAr – PSI bAr Pr2
rES Resolution (only °C) dE – in dE Pr2
PrM Type of pressure (Absolute / relative) rEL – AbS rEL Pr2
CLP Cooling call percentage Read only - - - Pr2
tP1 Temperature probe value Read only - -- Pr1
PPr Pressure probe value Read only - - - Pr1
tP2 Temperature converted from pressure
probe
Read only - - - Pr1
OPP Acutal Opening percentage Read only - - - Pr1
d1S Free of voltage digital input state Read only - - - Pr1
d2S Main voltage digital input state Read only - - - Pr1
Adr Serial address 1÷247 1 Pr2
Mod Modbus type Std – AdU StD Pr2
Ptb Parameters map - - - - - - Pr2
rEL Release software - - - - - - Pr2
Pr2 Second level menu - - - - - - Pr1
dIXEL S.p.a.
Z.I. Via dell’Industria, 27 - 32010 Pieve d’Alpago (BL) ITALY
tel. +39 - 0437 - 98 33 - fax +39 - 0437 - 98 93 13
http://www.dixell.com E-mail: [email protected]
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