Ascon tecnologic Y33 Скачать руководство пользователя страница 11

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P1 / P2 / P3 /

Ec / SP / oF

Variable

visualized

normally on display:
P1 = measurement
probe Pr1

i.dS

oF/ 0.01 ÷ 9.59

(hrs.min. ) ÷

99.5

(hrs.min.x10)

Time-out ECO mode.
oF = No function

i.tt

oF/ 0.01 ÷ 9.59

(hrs.min. ) ÷

99.5

(hrs.min.x10)

Delay to Eco mode
with door closed
oF = No function

i.Et

oF/ 0.01 ÷ 9.59

(min.sec ) ÷

99.5

(min.sec.x10)

Delay

acquiring

digital input

i.ti

-8 / -7 / -6 / -5 /

-4 / -3 / -2 / -1 /
0 / 1 / 2 / 3 / 4 /

5 / 6 / 7 / 8

Function  and  function
logic    of  digital  input
di1:
0 = No function
1= Door open
2=  Door  open  with  fan
stop
3=  Door  open  with  fan
and compressor stop
4= External “AL” alarm
5=  External  “AL”  alarm
with  deactivation  of
control outputs
6=Selection  of  active
Set Point (SP-SPE)
7=

Switch

on/

off

(Stand - by)
8=

“Turbo"

cycle

activation

i.Fi

oF / EP / Au /

Pr3 input function:
see i.P3

i.P3

oF / EP / Au /

Pr2 input function:
oF = No function
EP = evaporator
Au = Aux probe
dG = digital input

i.P2

0.0

-30.0 ÷ 30.0

°C/°F

Measure offset on the
display

i.CU

0.0

-30.0 ÷ 30.0

°C/°F

Pr3 Probe Calibration

i.C3

0.0

-30.0 ÷ 30.0

°C/°F

Pr2 Probe Calibration

i.C2

0.0

-30.0 ÷ 30.0

°C/°F

Pr1 Probe Calibration

i.C1

2.0

oF ÷ 20.0

sec

Measurement filter

i.Ft

Pt / nt / P1

Probes Type
Pt = PTC
nt = NTC
P1 = Pt1000

i.SE

C0 / F0 / C1 /

Unit of measurement
and

resolution

(decimal point)
C0 = °C with 1° res.
F0 = °F with 1° res.
C1 =°C with 0,1° res.
F1 = °F with 0,1° res.

i.uP

i. -parameters relative to inputs

0.0

S.LS ÷ SP

“Turbo” Set Point (or
ind. Heating Set Point
mod. HC )

SPH

0.0

SP ÷ S.HS

Eco Set Point

SPE

0.0

S.LS ÷ S.HS

Set Point

99.9

S.LS ÷ 999

Maximum Set Point

S.HS

-50.0

-99.9 ÷ S.HS

Minimum Set Point

S.LS

S. - parameters relative to Set Point

Note

Def.

Range

Description

Par.

oF/ 0.01 ÷ 9.59

(min.sec ) ÷

99.5

(min.sec.x10)

Ritardo

compressore

dopo

sbrinamento

(sgocciolamento)

d.td

20.0

oF/ 0.01 ÷ 9.59

(min.sec ) ÷

99.5

(min.sec.x10)

Lenght

(max.)

defrost cycle

d.dE

oF/ 0.01 ÷ 9.59

(hrs.min. ) ÷

99.5

(hrs.min.x10)

Delay start Defrost by
continuous
compressor

running

time

d.cd

oF - on - Lb

Defrost display Lock
oF= display free
on=

Lock

temperature

Pr1

before defrost
Lb= Lock on label
“dEF”

(during

defrosting) and “PdF”
(during
post-defrosting)

d.dL

1.00

oF/ 0.01 ÷ 9.59

(min.sec ) ÷

99.5

(min.sec.x10)

Delay start Defrost by
"d.tF"

start

temperature

d.St

-99.9

- 99.9 ÷ 999

°C/°F

Defrost

start

temperature

d.tF

10.0

- 99.9 ÷ 999

°C/°F

Defrost

enable

temperature

d.tS

8.0

- 99.9 ÷ 999

°C/°F

Defrost

stop

temperature

d.tE

d. - parameters relative to defrosting control

oF/ 0.01 ÷ 9.59

(hrs.min. ) ÷

99.5

(hrs.min.x10)

Lengh of “turbo” cycle

r.tC

H / C / nr / HC /

Output

operating

mode:
H= Heating
C= Cooling
nr = Neutral Zone
HC =Neutral Zone with
ind. Set point
C3 = Cooling with 3
aut. switch modes

r.HC

oF/ 0.01 ÷ 9.59

(min.sec ) ÷

99.5

(min.sec.x10)

Output

deactivation

time for probe error

r.t2

oF/ 0.01 ÷ 9.59

(min.sec ) ÷

99.5

(min.sec.x10)

Output activation time
for probe error

r.t1

2.0

0.0 ÷ 30.0

°C/°F

Differential
(Hysteresis)

Eco

mode in “turbo” mode
or Heating HC mode.

r.Hd

2.0

0.0 ÷ 30.0

°C/°F

Differential
(Hysteresis)

Eco

mode

r.Ed

2.0

0.0 ÷ 30.0

°C/°F

Differential
(Hysteresis)

r.d

r. - parameters relative to temperature control

P2  =  measurement
probe Pr2
P3  =  measurement
probe Pr3
Ec  =  Pr1  in  normal
mode,  Eco  in  Eco
mode
SP= Active Set Point
oF = Display off

ASCON TECNOLOGIC - Y33

- OPERATING INSTRUCTIONS - Vr. 01 - 04/16 - ISTR-MY33-ENG01 - PAG. 11

Содержание Y33

Страница 1: ...EVAPORATOR FANS CONTROL 4 9 DEFROST DISPLAY LOCK 4 8 5 DEFROSTS IN EVENT OF EVAPORATOR PROBE ERROR 4 8 4 END DEFROST 4 8 3 MANUAL DEFROST 4 8 2 AUTOMATIC DEFROST STARTS 4 8 1 DEFROST CONTROL 4 8 COMPRESSOR PROTECTION FUNCTION AND DELAY AT POWER ON 4 7 TEMPERATURE CONTROL 4 6 OUTPUTS AND BUZZER CONFIGURATION 4 5 DIGITAL INPUT 4 4 MEASURING AND DISPLAY 4 3 NORMAL MODE ECONOMIC MODE AND TURBO MODE 4 ...

Страница 2: ...d silenced or memorized flashing 11 Led AUX Indicates AUX output status on on off off or inhibited flashing 12 CLOCK LED Indicates that the internal clock is activated When on indicates that the current time is presumably correct If blinking indicates that there was a supply black out and therefore the current time may not be correct 13 Led Stand By Indicate the Stand by status 2 PROGRAMMING 2 1 F...

Страница 3: ...hich will be possible to have access to the protected parameters 2 5 RESET PARAMETERS TO DEFAULT VALUE LEVEL The instrument allows the reset of the parameters to values programmed in factory as default To restore to the values of default the parameters set the value 48 to r P password request Once confirmed the password with the key P the display it shows for 2 sec therefore the instrument effects...

Страница 4: ...he controller uses the control functions STAND BY means that the controller does not use any control function and the display is turned off except for the Stand by led If there is no power and then power returns the system always sets itself in the condition it was in before the black out The ON Stand by function can be selected Pressing the key U for at least 1 sec if the parameter t UF 3 Pressin...

Страница 5: ...e Pr1 P1 the measurement of the probe Pr2 P2 the measurement of the probe Pr3 P3 the active set point value SP the label Eco when the instrument is in Eco mode Ec or it can have the numerical display switched off oF Through the parameter i CU it is possible to program an measu re offset that will be applied to the temperature show on the display only if i dS P1 P2 P3 Ec The normal visualisation on...

Страница 6: ...figured t UF or t Fb 1 These commands have a bi stable function Which means that when first pressed the output key is activated while the second is disabled In this mode the AUX output can be turned off automatically after a certain time that can be set on the parameter o tu With o tu oF the output is activated and deactivated only manually using the key U or DOWN AUX or via the digital input Diff...

Страница 7: ...off ON ON Pr1 ot Out During the output inhibition the led OUT Cool o Heat blinking It is also possible to prevent activation of the output after the instrument is turned on for the time set in the parameter P od During the power on delay phase the display shows the indication od alternating with the normal visualisation All the functions are disabled by relative parameters oF 4 8 DEFROST CONTROL T...

Страница 8: ... of the temperature difference between cell and evaporator Every variation of the value of the Active Set Point of the differential r d the start of a continuous cycle or the a defrost execution delete this reference value and any reduction will be performed until the acquisition of a new reference value Defrost by evaporator temperature The instrument starts a defrost cycle when the evaporator te...

Страница 9: ...ssible to delay the start up of the fans even after the end of the defrosting of the time set in the parameter F Fd When this delay is active the led FAN flashing to signal the delay in progress When the evaporator probe is used the fans as well as being conditioned by the parameters F tn F tF and F FE are also conditioned by a temperature control It is possible to set the disablement of the fans ...

Страница 10: ...nstrument visualising AL and the variable set in parameter i dS alternately on the display In alarm conditions with i Fi 5 all the control outputs will be off 4 10 3 OPEN DOOR ALARM The instrument can signal an open door alarm by activating the digital input with the function programmed as i Fi 1 2 or 3 When the digital input is activated the instrument show oP and after the delay programmed in pa...

Страница 11: ...99 9 S HS Minimum Set Point S LS 1 S parameters relative to Set Point Note Def Range Description Par oF oF 0 01 9 59 min sec 99 5 min sec x10 Ritardo compressore dopo sbrinamento sgocciolamento d td 34 20 0 oF 0 01 9 59 min sec 99 5 min sec x10 Lenght max of defrost cycle d dE 33 oF oF 0 01 9 59 hrs min 99 5 hrs min x10 Delay start Defrost by continuous compressor running time d cd 32 oF oF on Lb ...

Страница 12: ...e cycle no without compr output condictioning Et Electrical heating with evaporator tempe rature control d dt 35 3 oF 1 2 3 Buzzer function mode o bu 65 Fn oF ot dF Fn Au At AL An t L n on HE OUT3 function see o o1 o o3 64 dF oF ot dF Fn Au At AL An t L n on HE OUT2 function see o o1 o o2 63 ot oF ot dF Fn Au At AL An t L n on HE OUT1 function oF No function ot Temperature control compressor dF De...

Страница 13: ...ring flaws or faulty material that are found within 12 months from delivery date The guarantee is limited to repairs or to the replacement of the instrument The eventual opening of the housing the violation of the instrument or the improper use and installation of the product will bring about the immediate withdrawal of the warranty s effects In the event of a faulty instrument either within the p...

Страница 14: ...acy 0 5 fs 1 digit Sampling rate 130 ms Display 3 Digit Red Blue optional h 15 5 mm Software class and structure Class A Compliance Directive 2004 108 CE EN55022 class B EN61000 4 2 8KV air 4KV cont EN61000 4 3 10V m EN61000 4 4 2KV supply and relay outputs 1KV inputs EN61000 4 5 supply 2KV com mode 1 KV diff mode EN61000 4 6 3V Directive 2006 95 CE EN 60730 1 EN 60730 2 9 Regulation 37 2005 CE EN...

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Содержание Y33

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Ascon tecnologic Y33, Руководство по эксплуатации, Страница: 11 / 14

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Содержание Y33

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