e30

DIGITAL ELECTRONIC

TEMPERATURE CONTROLLER

WITH DEFROSTING FUNCTION

OPERATING INSTRUCTIONS

Vr. 01 (ENG) - 17/06 - cod.: ISTR-Me30-ENG01

ASCON TECNOLOGIC S.rl.

Viale Indipendenza 56, 27029 - VIGEVANO (PV) ITALY

Tel.: +39 0381 69871 - Fax: +39 0381 698730 http:\\www.ascontecnologic.com [email protected]

PREFACE

D D This manual contains the information necessary for the product to be installed correctly and also instructions for its maintenance and use; we therefore recommend that the utmost attention is paid to the following instructions and to save it.

This document is the exclusive property of Ascon Tecnologic

S.rl. which forbids any reproduction and divulgation, even partially, of the document, unless expressly authorized.

Ascon Tecnologic S.rl. reserves the right to make any formal or functional changes at any moment and without any notice.

D D

Ascon Tecnologic S.rl. and its legal representatives do not assume any responsibility for any damage to people, things or animals deriving from violation, wrong or improper use or in any case not in compliance with the instrument features.

D D

Whenever a failure or a malfunction of the device may cause dangerous situations for persons, thing or animals, please remember that the plant has to be equipped with additional electromechanical devices which will guarantee safety.

Index

1. Instrument description ............................................... 1

1.1 General description ........................................................... 1

1.2 Front panel pescription ..................................................... 2

2. Programming ............................................................... 2

2.1 Fast Set point programming .............................................. 2

2.2 Standard mode parameters programming ........................ 2

2.3 Parameter protection using the password ......................... 3

2.4 Customized mode parameter programming

(parameters programming level) ....................................... 3

2.5 Reset parameters to default value .................................... 3

2.6 Keyboard lock function ...................................................... 3

3. Usage warnings ........................................................... 4

3.1 Admitted use ..................................................................... 4

4. Installation warnings ................................................... 4

4.1 Mechanical mounting ........................................................ 4

4.1.1 Mechanical dimensions, panel cut-out and mounting [mm] ...................................................................... 4

4.2 Electrical connections ....................................................... 4

4.2.1 Electrical wiring diagram ....................................................... 4

5. Functions ..................................................................... 5

5.1 ON/Stand-by function ........................................................ 5

5.2 Normal and economic operation ....................................... 5

5.2.1 Normal/Economic operation selection .................................. 5

5.3 Measure and display configuration ................................... 5

5.4 Digital input configuration .................................................. 6

5.5 Temperature control .......................................................... 6

5.6 Compressor protection function and power-on delay ........ 6

5.7 Defrost control ................................................................... 7

5.7.1 Manual defrost ...................................................................... 7

5.7.2 Display lock during Defrosting .............................................. 7

5.8 Alarm functions ................................................................. 7

5.8.1 Temperature alarms .............................................................. 7

5.8.2 External alarm from digital input ........................................... 8

5.8.3 Open door alarm................................................................... 8

5.9 Function of keys and

......................................... 8

5.10 Parameters configuration by “A01” .................................... 8

6. Programmable parameters table ................................ 9

7. Problems, maintenance and warranty ..................... 10

7.1 Notifications .................................................................... 10

7.1.1 Error messages .................................................................. 10

7.1.2 Other messages ................................................................. 10

7.2 Cleaning .......................................................................... 10

7.3 Warranty and Repairs ..................................................... 10

7.4 Disposal .......................................................................... 10

8. Technical data ............................................................ 10

8.1 Electrical characteristics ................................................. 10

8.2 Mechanical characteristics .............................................. 10

8.3 Functional features ......................................................... 11

9. Instrument ordering code ......................................... 11

1. INSTRUMENT DESCRIPTION

1.1 General description

The model e30 is a microprocessor based digital electronic temperature controller that is typically used in cooling applications with ON/OFF temperature control and defrost

control with intervals time by stopping compressor.

The instrument has 1 relay output and 2 NTC temperature

probes inputs one of which can be configured as digital

input.

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 1

1.2

9

6

8

7

Front panel pescription

e30

U

P

Aux

4

3

1

2

5

1.

: Used for setting the Set point (short press) and for programming the function parameters (pressed for 5 s).

In programming mode is used to enter in parameters edit mode and confirm the values. In programming mode can be used together with the key to change the programming level of the parameters. When the keyboard is locked, the keys and used together (hold pressed for 5 s), unlock the keyboard.

2. /

: In programming mode is used for decreasing the values to be set and for selecting the parameters. If programmed using the tFb parameter, when it is pressed for 1 s during normal operation mode, it can perform other functions such as the selection of eco mode and so on (see “Functions of keys and / ”).

3.

/

: In normal mode (pressed for 5 s) can be used to

start/stop manual defrosting ( ). In programming mode is used for increasing the values to be set and for selecting the parameters. In programming mode can be used together with key to change parameters level.

Pressed together with the key for 5 s allows the keyboard unlock.

4.

: Used (short press) for displaying the instrument variables (measured temperatures etc.). In programming mode can be used to return in normal mode (hold for 2 s).

If programmed using the tUf parameter, when it is pressed for 1 s during normal operation mode allows to turn

ON/OFF (Stand by) the control action or other functions like the

Aux input control etc. (see “Functions of keys and / ”).

5. LED dp/Stand by: When the instrument is placed in

Stand by mode, this is the only lighted LED. During the normal operation is the decimal point In programming mode, while the parameter code is displayed, the dot indicates the parameter protection level:

not protected

(lit up), protected (flashing) and hidden (turned OFF).

6. LED : Indicates the output status (compressor or temperature control device) when the instrument is programmed for cooling operation; ON (lit up),

OFF (turned OFF) or inhibited (flashing).

7. LED : Indicates the output status (compressor or temperature control device) when the instrument is programmed for heating operation; ON (lit), OFF (turned OFF) or inhib-

ited (flashing).

8. LED : Indicates the alarm status: ON (lit),

OFF (turned OFF) or silenced (flashing).

9. LED : Indicates that the defrost is in progress.

2. PROGRAMMING

2.1 Fast Set point programming

The normal mode to program the setpoint is done by momentarily pressing the key, the display shows SP (or SPE) alternated to the programmed value.

To change it press the key to increase the value or to decrease it

These keys increase or decrease the value one digit at a time, but if the button is pressed for more than one second the value increase or decreases rapidly and after two seconds the speed increases even more in order to quickly reach the desired value.

However, through ted parameter you can determine if and which Set point can be set with the key rapid procedure.

The parameter can have the following values:

oF SP/SPE cannot be changed with the key rapid procedure (pressing/releasing the key, nothing happens);

1 Only SP can be set with this procedure (“normal” Set Point);

2 Only SPE can be set with this procedure (“economic”/

Eco Set Point);

3 Both SP and SPE can be set with this procedure;

4 To select the Active Setpoint (SP or SPE).

For example, in case the parameter TEd = 1 or 3, the procedure is the following:

Press and release the key, the display shows SP alternated to the Set Point value. To change the Set Point, press the key to increase the value or to decrease it

If only Set Point 1 is present (TEd = 1), once the desired value is set, press the button to exit the fast programming mode.

If also the “Economic” Set Point (TEd = 3) can be set, pressing and releasing again the button the display shows SPE alternated to its programmed value.

To change the value use the and keys as for the SP

Set Point value. Once the desired value is correctly set, press the button to exit the fast Set Point change.

To exit the fast Setpoint programming mode push the key after the last Set Point has been displayed or pressing no buttons for about 10 s, after which the display returns to normal operation.

2.2 Standard mode parameters programming

To access the instrument function parameters when password protection is disabled, press the key and keep it pressed for about 5 seconds, after which the display shows the code that identifies the first programmable parameter

The desired parameter can be selected using the / keys, then, pressing the key, the display shows the parameter code alternated to its value that can be changed with the and keys.

Once the desired value has been set, press the key again: the new value is stored and the display shows only the code of the selected parameter

Pressing the and keys, it is possible to select another parameter and change it as described.

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 2

To exit the programming mode, press no keys for about 30 s or keep the key pressed for 2 s.

2 s

5 s

-25.5

Normal mode

Previous

Param.

sLs

Next

Param.

Parameter select

(Program mode)

Increase value

-30.0

Decrease value

Parameters set

2 s

5 s

-25.5

AHA

Next

Param.

Normal mode

Not protected parameter

Previous

Param.

r.p

Parameters set

Increase value

35.0

Decrease value

Increase value

0

Decrease value

Insert password

sls

2.3 Parameter protection using the password

The instrument has a parameter protection function using a password that can be personalised through the tPP parameter

To protect the parameters, set the desired password number in the parameter tPP.

When the protection is activate, press the key to access the parameters and keep it pressed for about 5 s, after which the display shows r.p.

Press the key, the display shows 0, using the / keys, insert the programmed password number and press the key

again.

If the password is correct the instrument displays the code of the first parameter and it will be possible to program the instrument in the same way described in the previous section.

The password protection can be disabled by setting tPP = oF.

-25.5

5 s

Normal mode

2 s

r.p

Increase value

0

Decrease value

sls

Note: If the Password gets lost, just switch OFF and ON the instrument, push key during the initial test keeping it pressed for 5 s. In this way it is possible to access all the parameters, verify and modify the parameter tPP.

2.4 Customized mode parameter programming

(parameters programming level)

The password hides all the configuration parameters behind a factory set password to avoid unwanted changes to the controller parameters. To make a parameter accessible without having to enter the password when tPP password protection is activate, use the procedure that follows:

Enter the program mode using the tPP Password and select the parameter that must be accessible (no password protection).

Once a parameter is selected, if the dp LED flashes the parameter is programmable by entering the password (is

“ protected”). If the dp LED is steady ON the parameter is programmable without password (is “ unprotected”).

To change the parameter visibility, press the key and keeping it pressed also press the button.

The

dp LED changes its state indicating the new level of parameter accessibility (

ON = not protected;

flashing = password protected).

In case some parameters are not protected, accessing the the programming mode the display first shows the not protected parameters, then the r.p parameter (through which will be possible to access the “protected” parameters).

Password request

Password OK,

Program Mode

2.5 Reset parameters to default value

The instrument allows the reset of the parameters to values programmed in factory as default

To restore the default parameters value set value -48 at r.p password request Therefore, to make the reset to the default parameters, enable the Password using the tPP parameter so that the r.p setting is requested, at this point insert -48 instead of the programmed access password.

Once confirmed the password with the key the display shows “---” for 2 s therefore the instrument resets all the parameters to factory default setting.

2.6 Keyboard lock function

On the instrument it is possible to completely lock the keyboard.

This function is useful when the controller is in an accessible area and the changes must be avoided.

To activate the keyboard lock it is enough program the parameter tLo to a value different from oF.

The tLo value is the keys inactivity time after which the keyboard will be automatically locked.

Therefore, pressing no buttons for the time set at tLo, the instrument automatically disable the normal functions of the keys.

When the keyboard is locked, if any of the key is pressed, the display showss Ln to indicate that the lock is active.

To unlock the keyboard it is enough to contemporarily push

+ keys and keep them pushed for 5 s, after which the label LF appears on the display and all the key functions will be available again.

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 3

3. USAGE WARNINGS

3.1 Admitted use

D D The instrument has been projected and manufactured as a measuring and control device to be used according to EN60730-1 at altitudes operation below 2000 m.

Using the instrument for applications not expressly permitted by the above mentioned rule must adopt all the necessary protective measures.

The instrument MUST NOT bE USED in dangerous environments (flammable or explosive) without adequate protections.

The instrument used with NTC 103AT11 probe (identifiable by the printed code “103AT-11” visible on the sensor part) is compliant with standard EN 13485 (“Thermometers for measuring the air and product temperature for the transport, storage and distribution of chilled, frozen, deep-frozen/quickfrozen food and ice cream”) with the following classification:

[EN13485 air, S, A, 2, -50°C +90°C]

Remember that the end user must periodically check and verify the thermometers in compliance with standard EN 13486.

The installer must ensure that the EMC rules are respected, also after the instrument installation, if necessary using proper filters.

4. INSTALLATION WARNINGS

4.1 Mechanical mounting

The instrument, in case 78 x 35 mm, is designed for flushin panel mounting. Make a 71 x 29 mm hole and insert the instrument, fixing it with the provided special brackets.

We recommend that the gasket is mounted in order to obtain the front protection degree as declared.

Avoid placing the instrument in environments with very high humidity levels or dirt that may create condensation or introduction of conductive substances into the instrument

Ensure adequate ventilation to the instrument and avoid installation in containers that house devices which may overheat or which may cause the instrument to function at a higher temperature than the one permitted and declared.

Connect the instrument as far away as possible from sources of electromagnetic disturbances such as motors, power relays, relays, solenoid valves, etc..

4.1.1 Mechanical dimensions, panel cut-out and

mounting [mm]

78

6 64 12.2

Brackets

4.2 Electrical connections

Carry out the electrical wiring by connecting only one wire to each terminal, according to the following diagram, checking that the power supply is the same as that indicated on the instrument and that the load current absorption is no higher than the maximum electricity current permitted.

As the instrument is built-in equipment with permanent connection inside housing, it is not equipped with either switches or internal devices to protect against current overloads: the installation will include an overload protection and a twophase circuit-breaker, placed as near as possible to the instrument and located in a position that can easily be reached by the user and marked as instrument disconnecting device which interrupts the power supply to the equipment

It is also recommended that the supply of all the electrical circuits connected to the instrument must be protect properly, using devices (ex. fuses) proportionate to the circulating currents.

It is strongly recommended that cables with proper insulation, according to the working voltages and temperatures, be used.

Furthermore, the input cable of the probe has to be kept separate from line voltage wiring. If the input cable of the probe is screened, it has to be connected to the ground at only one side.

D D We recommend that a check should be made that the parameters are those desired and that the application functions correctly

before connecting the outputs to

the actuators so as to avoid malfunctioning that may cause irregularities in the plant that could cause damage to people, things or animals.

4.2.1 Electrical wiring diagram

SPST-NO

1

N L

Supply

2 3

OUTPUT

Pr2

34

INPUTS

4 5 6

Pr1

8

e30

U

P

Aux

61810

EN

Out (R): 16 (9) A

EN

60730

10 (4) A

UL

12 A Res.

30 LRA

5 FLA

Digital

Input min. 15 mm

71

+0.6

mm

RECOMMENDED

PANEL CUTOUT

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 4

5. FUNCTIONS

5.1 ON/Stand-by function

Once powered the instrument can assume 2 different conditions:

ON: Means that the controller uses the control functions.

STAND-bY:

Means that the controller uses no control function and the display is turned off except for the Stand-by LED.

The transition between Standby and ON is equivalent to power ON the instrument providing the electrical power

In case of power failure, the system always sets itself in the condition it was in before the black-out

The ON/Stand-by function can be selected:

– With the key pressed for 1 s if tUF = 3;

– With the key pressed for 1 s if tfb = 3;

– Using the Digital Input if parameter iFi = 7;

5.2 Normal and economic operation

This tool allows to pre-set two different Setpoints, one

Nor-

mal - SP and one Economic - SPE.

Associated with each Setpoint there is the relative differential

(hysteresis): Normal - rd and Economic - rEd.

Switching between the two modes can be automatic or manual.

5.2.1 Normal/Economic operation selection

This function can be used when you need to switch two functional temperatures (eg. Day/Night or week-day/week-end). The

Normal/Economic operation can be selected in manual mode:

– Using the key if parameter tUF = 2;

– Using the key if parameter tFb = 2;

– Using the Digital Input if parameter iFi = 6.

The Normal/Economic operation can be selected in automatic mode:

– Elapsed the iEt time after the door has been closed

(Normal/Eco switching).

– At door opening if the SPE Setpoint is activated by iEt parameter (Eco/Normal switching).

– Elapsed the itt time after the door has been closed and from the activation of SPE Setpoint by iEt parameter

(Eco/Normal switching).

To use this function, it is necessary to set the Digital Input as: iFi = 1, 2 or 3.

If iEt = oF the selection of Eco/Normal modes via the digital input is disabled.

If itt = oF the time-out switching from Eco to Normal mode is disabled.

Switching to Economic mode is indicated by the label Eco.

When idS = Ec the Economic mode is pointed out with a fixed Eco label otherwise the label Eco appears every 10 s alternated to the display set with parameter idS.

The normal Set Point SP can be set to a value between the one set with parameter SLS and the one set with parameter

SHS while the Economic Set Point SPE can be set to a value between the one set with parameter SP and the one set with parameter SHS.

Temp.

Pr1

SPE

SP rd

“Norm.” iEt rEd

“ECO” “Norm.”

time

Door

DAY (Shop open) NIGH (Shop closed) DAY (Shop open)

Note: In the following examples the Set point is generally indicated as

SP and the differential as rd however the instrument will act according to the Set Point and the differential selected as active.

5.3 Measure and display configuration

With the iuP it is possible to select the temperature engineering unit and the desired measure resolution ( C0 = °C/1°;

C1 = °C/0.1°; F0 = °F/1°; F1 = °F/0.1°).

The instrument allows the measure calibration, which can be used to recalibrate the instrument according to application needs, The calibration is made by using parameters iC1

(input Pr1) and iC2 (Pr2 input).

Parameter iP2 allows to select the instrument usage of Pr2 measure as:

Au

Auxiliary probe;

DG Digital Input (see the Digital input functions).

If

Pr2 input is not used, set iP2 = oF.

Using iFt parameter can be set a software filter for the measuring the input values in order to decrease the sensibility to rapid temperature changes (increasing the sampling time).

Through the idS parameter is possible to set the variable normally displayed:

SP: Active Set Point;

EC: Probe measure if the instrument is in Normal Mode, the label Eco if the instrument is in (Eco mode);

OFF: If the numerical display must be switched off (oF).

When is displayed one of the measures idS = P1/P2/Ec the iCU parameter allows to set an offset that is to be applied only to the displayed variable (all controls will always happen according to the correct temperature value, changed only by the calibration parameters).

Regardless of what is set at idS parameter, all the measurement variables can be shown pressing the key.

The display alternately shows the code that identifies the variable (see below) and its value. The variables are:

Pr1 Probe 1 measurement;

Pr2 Probe 2 measurement (on/oFF if Pr2 is a Digital input);

Lt Minimum stored Pr1 temperature;

Ht

Maximum stored Pr1 temperature.

The peak (min./max.) temperature values of Pr1 probe are not stored in case of power failure and can be reset pressing the for 3 s elapsed which, the display shows “---” for an instant to indicate that the min./max. values have been erased and the new peak is the temperature read in that moment

The system exits the variable dosplay mode after 15 s from the last key pressure.

It is also noted that the

Pr1 probe display can also be changed by defrost display function via the ddL parameter (see the

Defrost function).

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 5

5.4 Digital input configuration

The digital input function is defined using the iFi parameter and the action is delayed for the time programmed with parameter iti. The iFi parameter can be configured for the following functions:

0. Digital input not active;

1. Cell door opening with NO contact: at input closure (and after the iti) the instrument displays alternately oP and the variable set at idS parameter With this mode of operation of the digital input activates also the time set with parameter AoA elapsed which the alarm is activated to warn that the door has been left open. In addition, at door opening, the instrument returns to normal operation if it was in Eco mode and the Eco mode activation was enabled through parameter iEt

2. Similar to iFi = 1;

3. Cell door opening with output lock and NO contact: similar to iFi = 1 but with output lock. At alarm door open intervention AoA also the output is re-activated.

4. External alarm signal with NO contact: at input closing

(and after the iti time) the alarm is activated and the instrument alternately shows on the display: AL and the variable set with parameter idS;

5. External alarm signal with Control output disabled and

NO contact: at input closing (and after the iti time) the control output is is disabled, the alarm is activated and the instrument shows on the display alternatively AL and the variable set with parameter ids;

6. Normal/Economic mode selection with NO contact: at input closing (and after the iti time) the instrument switches to Economic operation mode. Opening the digital input, the instrument returns in Normal operation mode.

7. Instrument On/Off (stand-by) selection with NO contact: at input closing (and after the iti time) the instrument is switched ON while it is placed in Stand-by mode when the digital input is open;

8. Do not use;

-1, -2, -3, etc. - Features identical to the above but obtained through a NC contact and a reversed logic operation.

5.5 Temperature control

The instrument control is ON/OFF and acts on the output depending on the PR1 probe measuring, the Set Point SP (or

SPE), the Histeresys rd (or rEd) and the function mode rHC.

Temp.

Pr1

rHC = C

Temp.

Pr1

SP rHC = H rd rd

SP

time time

OUT (ot) OUT (ot)

ON off ON off ON ON off ON off ON

Depending on the function mode programmed with parameter rHC the differential is automatically considered by the controller with positive values for a Refrigeration control (rHC = C) or negative values for a Heating control (rHC = H).

In the event of a probe error, it is possible to set the instrument so that that the output continues to work in cycles according to the times programmed with parameter rt1

(activation time) and rt2 (deactivation time).

If an error occurs on the probe the instrument activates the output for the time rt1, then deactivates it for the time rt2 and so on whilst the error remains.

Programming rt1 = oF the output in probe error condition remains switched off.

Programming instead rt1 to any value and rt2 = oF the output in probe error condition remains switched ON.

Remember that the temperature regulation function can be conditioned by the Compressor Protections, Delay at power

ON and Defrost functions.

5.6 Compressor protection function and power-on delay

The “ Compressor Protection” function aims to avoid repeated compressor start-ups controlled by the instrument in cooling applications or otherwise can be used to add a timed control on the actuator control output

This function foresees 3 time controls on the switching ON of the output associated with the temperature control request The protection consists of preventing the output being switched ON during the times set with parameters PP1, pP2 and PP3 and therefore that any activation occurs only after all times are elapsed.

1. First control (parameter PP1) foresees a delay to output activation (switching-ON delay).

Temp.

Pr1

PP1 rd

SP

OUT (ot) off

PP1

OUT (ot)

PP1

ON off

PP1 off

time

2. Second control (parameter PP2) foresees an inhibition to the activation of the output by a time delay that starts when the output is turning OFF (delay after switching-OFF).

Temp.

Pr1

PP2 rd

SP

OUT (ot)

ON

ON

3. Third control (parameter PP3) foresees an inhibition to the activation of the output by a time delay that starts when the output was turned ON last time (delay between two switching-ON).

Temp.

Pr1

PP3 rd

SP

ON

PP3 off off

PP2 off

ON

ON off

PP2

PP3 off

ON

ON

ON

PP3 off

PP2

time

off

time

During the output inhibition the LED

OUT (Cool or Heat ) blinks. It is also possible to prevent activation of the output after the instrument is turned ON, for the time set in the parameter Pod.

During the power ON delay phase, the display shows the indication od, alternated with the normal visualization.

All these functions are disabled if the relative parameters are set to OFF (oF).

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 6

5.7 Defrost control

The automatic defrost control is made with the stopping

compressor method; it occurs by interval times or after a certain time of continuous compressor functionning.

The automatic defrost function is activated when at parameter ddi is set the defrost interval time between 2 defrost cycles.

The first defrost after power on can be set by parameter dSd.

This allows to perform the first defrost to a different interval from ddi time.

When the instrument must perform a defrost cycle at all power

ON, set parameter dSd = oF.

If all defrost cycles must be performed after the same interval time, program dSd = ddi.

Automatic defrost function is totally disabled when ddi = oF

(included the first, regardless of the time set at dSd parameter).

The instrument provides to switch OFF the output for the ddE period of time every time expires the ddi time (or dSd in case of first defrost after power ON).

Moreover, the instrument starts a defrost cycle when the compressor is activated continuously for the time dcd.

This function is used as the continuous operation of the compressor for a long period is often and normally a symptom of low heat exchange typically caused by the frost on the evaporator

By setting dcd = oF the function is disabled.

5.7.1 Manual defrost

To start a manual defrosting cycle, press the key / when it is not in programming mode and keep it pressed for about

5 s after which, if the conditions are correct, the LED will light up and the instrument performs out a defrosting cycle.

To stop a defrosting cycle, press the key / during the defrost and keep it pressed for about 5 seconds.

5.7.2 Display lock during Defrosting

Through parameters ddL and AdA it is possible to define the display behaviour during defrost ddL = on

The ddL parameter locks the display at the last temperature reading during all the defrost cycle until, at the end of defrost, the temperature has not reached the lock value or the value [SP + rd] or is elapsed the time set at parameter AdA ddL = Lb

Shows the label dEF during the defrost cycle and PdF after the defrost until, at the end of defrost, the temperature has not reached the lock value or the value

[SP + rd] or is elapsed the time set on parameter AdA ddL = oF

The display continues showing the temperature measured by the Pr1 probe during the defrost cycle.

5.8 Alarm functions

The alarm conditions of the instrument are:

– Probe errors E1, -E1 and E2, -E2;

– Temperature alarms Hi and Lo;

– External alarm AL;

– Door open oP.

All active alarms are pointed out on the instrument display lighting up the LED .

Any active alarm condition is signaled lighting up the LED , while the acknowledged alarm status is shown by flashing the

LED .

5.8.1 Temperature alarms

The temperature alarm works according to Pr1 or AU probes measurement, the type of alarm set in the parameter AAy the alarm thresholds set in parameters AHA (maximum alarm) and ALA (minimum alarm) and the relative differential AAd.

Through parameter AAy it is possible to set the alarm thresholds AHA and ALA as absolute or relative to the active Set

Point, must be related to Pr1 or Au probes and if the message

Hi (High alarm) and Lo (Low Alarm) are to be displayed at alarm intervention.

Depending on the desired alarm operating mode, parameter

AAy can be set as:

1 Absolute alarms referred to probe Pr1, displays Hi/Lo;

2

Relative Alarms referred to probe Pr1, displays Hi/Lo;

3

Absolute alarms referred to probe Au, displays Hi/Lo;

4

Relative Alarms referred to probe Au, displays Hi/Lo;

5

Absolute alarm referred to probe Pr1, displays no labels;

6 Relative alarm referred to probe Pr1, displays no labels;

7 Absolute alarm referred to probe Au, displays no labels;

8 Relative alarm referred to probe Au, displays no labels.

Using some parameters it is also possible to delay the enabling and the intervention of these alarms.

These parameters are:

APA Temperature alarm exclusion time on switching ON the instrument if the instrument is in alarm status when it is switched ON. If the instrument is not in alarm status when it is switched on the time APA it is not considered.

AdA Temperature alarm exclusion time at the end of defrost cycle (and, if programmed, after the draining) or after a continuous cycle.

AAt Temperature alarms delay activation time. Temperature alarms are enabled at the end of the exclusion times and are activated after the AAt time when the temperature measured by the probe exceeds or goes below the respective maximum and minimum alarm thresholds. The alarm thresholds are those set at parameters AHA and ALA when the alarms are set as absolute (AAy = 1, 3, 5, 7).

Temp. Pr1

AHA

AAd

ALA

AAd off

Hi

ON off

Lo

ON

time

AL off or they assume the values [SP + AHA] and [SP + ALA] if the alarms are relative (AAy = 2 and 6).

Temp. Pr1

AAd

AHA

SP

ALA

AAd

AL off

Hi

ON off

Lo

ON off

time

The maximum and minimum temperature alarms can be disabled by setting the related parameters AHA and ALA = oF.

The temperature alarms are signalled lighting up the alarm

LED ( ) and, if configured, also with the buzzer

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 7

5.8.2 External alarm from digital input

The instrument can signal an alarm external to the instrument using the digital input setting iFi = 4 or 5. The instrument signals the alarm turning ON the alarm LED ( ) and displaying AL label alternated to the variable set with parameter Ids.

Mode iFi = 4 operates no action on the control output, while iFi = 5 deactivates the control output at digital input intervention.

5.8.3 Open door alarm

The instrument can signal the open door alarm coondition using the digital input setting iFi = 1, 2 and 3. As the Digital input is activated, the instrument signals that the door is open showing on the display the

oP label alternated to the variable set with parameter ids.

After the delay set with parameter AoA the instrument signals the Open Door alarm with the configured devices

(buzzer and/or Output), lighting up the LED while showing the

oP label. At the open door alarm intervention are also re-activated the inhibited outputs (compressor).

5.9 Function of keys and

Two of the instrument keys, in addition to their normal functions, can be configured to operate other commands. The key function can be defined using the tUF parameter while the key via parameter TFb. Both parameters have the same possibilities and can be configured to perform the following functions:

oF The key carries out no function;

1. Do not use;

2. Pressing the key for at least 1 s, you can sequentially select a

normal or eco operating mode (SP/SPE).

A selection has been made the display shows for about

1 s the active set point code (SP or SPE);

3. Pressing the key for at least 1 s is possible to switch the instrument from

ON to Stand-by state and vice-versa;

4. Do not use.

5.10 Parameters configuration by “A01”

The instrument is equipped with a connector that allows the transfer from and toward the instrument of the functioning parameters through the device A01 with 5 poles connector.

This device it is mainly usable for the serial programming of some instruments which need to have the same parameters configuration or to keep a copy of the parameters setting of an instrument and allow its rapid retransmission.

The same device allows to connect a PC via USB with which, through the appropriate configuration software for “AT UniversalConf tools”, the operating parameters can be configured.

To use the device A01 it is necessary that the device or instrument are being supplied directly or through the key.

Power supply

Supply adapter

USB

USB

12 VDC AC supply

For additional info, please have a look at the A01 instruction manual.

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 8

6. PROGRAMMAbLE PARAMETERS TAbLE

Here below is a description of all the parameters available on the instrument. Some of them may not be present, either due to the fact they depend on the type of instrument or because they are automatically disabled as unnecessary.

Parameter

1

2

3

4

Description

SLS

Minimum Set Point

SHS

Maximum Set Point

SP

Set Point

SPE

Set Point Eco

23

24

25

26

dde

Defrost duration

ddi

Defrosting interval

dSd

Delay first defrost after power-on

PP1

Out delay at switching-on

-99.9... HS

LS... 999

LS... HS

SP ÷ SHS

Range Def. Note

-50.0

99.9

0.0

0.0

6

7

8

9

5

10

11

12

13

14

15

iuP iFt iC1 iC2

Pr2 Probe Calibration

iCU

Display offset

iP2 iFi iti

Digital Input Delay

iEt itt

Unit of measurement and resolution (decimal point)

Measurement filter

Pr1 Probe Calibration

Input Pr2 usage

idS

Variable normally displayed

C0 °C, resolution 1°;

F0 °F, resolution 1°;

C1 °C, resolution 0.1°;

F1 °F, resolution 0.1°.

oF ÷ 20.0 s

C1

Function and logic functioning of the Digital Input (adding the “-” minus sign the logic is inverted)

Eco Mode activation delay at

Door closed

Max. time functioning in Eco

Mode

-30.0 ÷ +30.0°C/°F

-30.0 ÷ +30.0°C/°F

-30.0 ÷ +30.0°C/°F

2.0

0.0

0.0

0.0

oF Unused;

EP Do not use;

Au Auxliary probe;

dG Digital Input.

0 No function;

1, 2 Open Door;

3 Open Door with Output Lock;

4 External Alarm;

5 Ext. Alarm with Output disabling;

6 Select Normal/Eco Set Point;

7 On/Stand-by select;

8 Do not use.

dG

0

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

P1 Probe Pr1 measure;

P2 Probe Pr2 measure;

P3 Do not use;

Ec Pr1 measure in Normal mode

+ ECO label when in ECO mode;

SP Set Point;

oF Display not lit.

P1

0.0 ÷ 30.0°C/°F 2.0

16

17

rd

Differential (Hysteresis)

rEd

Differential (Hysteresis) in

ECO mode

18

19

rt1 rt2

Output activation time for Pr1 probe error

Output deactivation time for

Pr1 probe error

20

21

rHC

Output operating mode

ddL

Display Lock during defrost

0.0 ÷ 30.0°C/°F 2.0

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

H Heating;

C Cooling;

nr Do not use;

HC Do not use;

C3 Do not use.

oF Not active;

on Active at last measure;

Lb Active with label (dEF during defrost and PdF at defrost).

C oF

22

dcd

Defrost activation time for continuous compressor operating

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Defrost at power-on;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

27

PP2

Out delay after switching OFF oF Disabled;

28

PP3

Delay between two output switching-ON

29

Pod

Output delay at power ON

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). oF

Parameter

30

31

32

33

37

38

39

AAy

Temperature Alarm 1 type

AHA

ALA

AAd tUF tFb

High temperature Alarm threshold

Low temperature Alarm threshold

Temperature Alarms

Differential

AoA

Open Door Alarm Delay

/

Description

Key Function

Key Function

Range

1 Absolute for Pr1 with Hi-Lo label;

2 Relative to Pr1 with Hi-Lo label;

3 Absolute for Au with Hi-Lo label;

4 Relative to Au with Hi-Lo label;

5 Absolute for Pr1;

6 Relative to Pr1;

7 Absolute for Au;

8 Relative to Au.

oF Disabled;

-99.9 ÷ +999°C/°F.

oF Disabled;

-99.9 ÷ +999°C/°F

0.0 ÷ 30.0°C/°F

1

Def. Note

oF oF

1.0

34

35

36

AAt

APA

AdA

Temperature Alarms Delay

Temperature Alarms delay at power ON

Temperature Alarms delay and unlock display delay after defrost

oF Disabled;

0.01 ÷ 9.59 (min.s ) ÷ 99.5 (min.s x 10). oF

oF Disabled;

0.01 ÷ 9.59 (h.min) ÷ 99.5 (h.min x 10). 2.00

oF Disabled;

0.01 ÷ 9.59 (h.min) ÷ 99.5 (h.min x 10). 1.00

oF Disabled;

0.01 ÷ 9.59 (min.s) ÷ 99.5 (min.s x 10). 3.00

oF No function;

1 Do not use;

2 ECO Mode selection;

3 Switch ON/Switch OFF (Stand-by);

4 Do not use.

oF oF

40

tLo

Keyboard lock function delay oF Disabled;

41

42

tEd tPP

Set Point visibility with key fast procedure

Password to Access

Parameter functions

0 None;

1 SP;

2 SPE;

3 SP and SPE;

4 Active SP;

5, 6 Do not use.

oF Disabled;

001 ÷ 999.

1 oF

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 9

7. PRObLEMS, MAINTENANCE AND WARRANTY

7.1 Notifications

7.1.1 Error messages

Error

E1 -E1

E2 -E2 epr err

Reason

(

The probe may be interrupted

E

) or in short circuit ( the range allowed

-E

) or may measure a value outside

Internal EEPROM memory error

Action

Check the probe connection with the instrument and check that the probe works correctly

Press

P

key

Fatal memory error

Replace the instrument or ship to factory for repair

7.1.2 Other messages

Message

od

Ln

Hi

Lo

AL oP dEF

PdF

Eco

Reason

Delay at power-on in progress

Keyboard locked

Maximum temperature alarm in progress

Minimum temperature alarm in progress

Digital Input alarm in progress

Door Open

Defrost in progress with d.dL = Lb

Post-defrosting in progress with d.dL = Lb

Eco Mode in progress

7.2 Cleaning

We recommend cleaning of the instrument only with a slightly wet cloth using water and not abrasive cleaners or solvents.

7.3 Warranty and Repairs

The instrument is under warranty against manufacturing flaws or faulty material, that are found within 18 months from delivery date. The warranty 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 effects.

In the event of a faulty instrument, either within the period of warranty, or further to its expiry, please contact our sales department to obtain authorisation for sending the instrument to our company.

The faulty product must be shipped to Ascon Tecnologic with a detailed description of the faults found, without any fees or charge for Ascon Tecnologic, except in the event of alternative agreements.

7.4 Disposal

8. TECHNICAL DATA

8.1 Electrical characteristics

Power supply: 230 VAC, 115 VAC ±10%;

AC frequency: 50/60 Hz;

Power consumption: about 2 VA;

Inputs: 2 inputs for temperature probes:

NTC (103AT-2, 10 k

W @ 25°C);

1 free of voltage digital input as an alternative to input Pr2;

Output: 1 relay output SPST-NO:

Out1 (R) - SPST-NO -

16A - 1HP 250V,

1/2HP 125 VAC

EN 61810 EN 60730 UL 60730

16 (9) A 10 (4) A 12 A Res.,

30 LRA,

5 FLA

12 A max. for those with removable terminal model;

Relay output Electrical life: 100000 operations;

Action type: Type 1.B (EN 60730-1);

Overvoltage category: II;

Protection class: Class II;

Isolation: Reinforced insulation between the low voltage parts (type C or D power supply and relay output) and front panel; Reinforced insulation between the low voltage parts

(type C or D power supply and relay output) and the extra low voltage section (inputs).

8.2 Mechanical characteristics

Housing: Self-extinguishing plastic, UL 94 V0;

ball Pressure Test as described in EN60730: accessible parts 75°C; support live parts 125°C;

Heat and fire resistance category: D;

Dimensions: 78 x 35 mm, depth 34 mm;

Weight: about 105 g;

Mounting: Incorporated flush in panel (thickness max. 2.5 mm) in a 71 x 29 mm hole;

Connections:

Inputs: fixed or removable screw terminal block for

0.14 ÷ 1.5 mm

2

/AWG 28 ÷ 16 cables;

Power supply and Outputs: fixed or removable screw terminal block for 0.2 ÷ 2.5 mm

2

/AWG 24 ÷ 14 cables;

Protection degree: IP65 (NEMA 3S) mounted with gasket;

Pollution degree: 2;

Operating temperature: 0 ÷ 50°C;

Operating humidity: < 95 RH% with no condensation;

Storage temperature: -25 ÷ +60°C.

The appliance (or the product) must be disposed of separately in compliance with the local standards in force on waste disposal.

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 10

8.3 Functional features

Temperature Control: ON/OFF mode;

Defrost control: Interval cycles by stopping compressor;

Measurement range: NTC: -50 ÷ +109°C/-58 ÷ +228°F;

Display resolution: 1° or 0.1° (range -99.9 ÷ +99.9°);

Overall accuracy: ±(0.5% fs + 1 digit);

Sampling rate: 130 ms;

Display: 3 Digit Red (Blue optional), height 17.7 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),

Control 37/2005/CE (EN13485 air, S, A, 2, -50°C +90°C with probe NTC 103AT11).

9. INSTRUMENT ORDERING CODE

MODEL

e30 - = Instrument with mechanical keyboard

a: POWER SUPPLY

D = 230 VAC

C = 115 VAC

b: OUTPUT 1 (OUT 1)

R = Out1 Relay SPST-NO 30A-AC1 (for resistive loads)

c: TERMINALS

V = Screw terminals (standard)

E = Complete removable screw terminals

N = R emovable screw terminals (fixed part only)

d: DISPLAY

I = Red (standard)

C = Blue

e30 a b c d e f g hh ii

e, f, g:

RESERVED CODES; hh, ii: SPECIAL CODES

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 11

Ascon Tecnologic - e30 - OPERATING INSTRUCTIONS - PAG. 12