Rsg Logitemp mt-514e faston User manual

LogiTemp™

Electronic Controller System

Operations Manual

(Full Gauge Version MT514)

PN: 171571

REV 3/22

DIGITAL CONTROLLER FOR HEATING OR COOLING

WITH DEFROST AND CONFIGURABLE

ALARM OUTPUT

MT514EFASTONV03-01T-18525

4. INDICAÇÕES E TECLAS

1. DESCRIPTION

The MT-514e FASTON is a temperature controller for cooling or heating applications. It has an

internal audible alarm (buzzer) and an output for alarm control that can also be configured for electric

defrost, hot gas defrost, fan or as a second compressor that will act in parallel with the main one. The

minimum and maximum temperature record is displayed at the touch of a single key (Flatec). Another ;

available feature is the shutdown of control functions, making it possible for the MT-514e

FASTON to operate only as a temperature indicator. And through an intelligent function blocking

system, it prevents unauthorized persons from changing the control parameters.

Product is compliant with UL Inc. (United States and Canada).

2. APPLICATION

• Vaccine refrigerators

• Refrigerated counters

• Freezers rooms

• Hot counters

• Greenhouses

evolution

MT-514e FASTON

Ver.03

WARNING

ACESSÓRIOS:

Utilize apenas acessórios originais Full Gauge Controls.

Em caso de dúvidas, entre em contato com o suporte técnico.

SERVIÇO AUTORIZADO:

A instalação ou manutenção do produto deve ser realizado somente por profissionais qualificados;

MT-514e

Image I

156

2347

POWER

SUPPLY

SENSOR

89 10 11 12 13 14

REFR

115 Vac

Alimentação da carga

COMMON

3. TECHNICAL SPECIFICATIONS

* Blinking led (when [,F26] = 7): Indicates that OUT1 has been activated and the compressor delay is occurring

before trigger OUT2

POR ESTAR EM CONSTANTE EVOLUÇÃO, A FULL GAUGE CONTROLS RESERVA-SE O DIREITO DE

ALTERAR AS INFORMAÇÕES CONTIDAS NO MANUAL A QUALQUER MOMENTO, SEM PRÉVIO AVISO.

BEFORE INSTALLING THE CONTROLLER, WE RECOMMEND READING THROUGH THE

ENTIRE INSTRUCTION MANUAL IN ORDER TO AVOID POSSIBLE DAMAGE TO THE

PRODUCT

PRECAUTIONS WHEN INSTALLING THE PRODUCT:

Before performing any procedure on this instrument, disconnect it from the mains;

Ensure that the instrument has adequate ventilation and avoid installation in panels containing

devices that may cause it to operate outside the specified temperature limits;

Install the product away from sources that may generate electromagnetic disturbances such as:

motors, contactors, relays, solenoid valves, etc;

Have this manual in the palm of

your hand by FG Finder application.

156

2347

POWER

SUPPLY

SENSOR

89 10 11 12 13 14

REFR

230 Vac

Power supply

COMMON

156

2347

POWER

SUPPLY

SENSOR

89 10 11 12 13 14

REFR

12Vac/dc

Power supply

COMMON

156

2347

POWER

SUPPLY

SENSOR

89 10 11 12 13 14

REFR

24Vac/dc

Power supply

COMMON

5. WIRING DIAGRAM

5.1. Identifications (see Images I to IV)

- Image I: MT-512E 2HP Faston, supplied at 115 Vac.

- Image II: MT-512E 2HP Faston, supplied at 230 Vac.

- Image III: MT-512EL 2HP Faston, supplied at 12 Vac/dc.

- Image IV: MT-512EL 2HP Faston, supplied at 24 Vac/dc.

Image II

Image III

Image IV

5.2. Temperature sensor connection

- Connect the sensor S1 wires to terminals "1 and 2" spring type connector. The polarity is not relevant.

- Length of the sensor cables can be increased by user himself to up to 200 meters, using a PP 2x24

AWG cable.

5.3. Recommendations of IEC60364 standard

a) Install overload protectors in the controller supply.

b) Install transient suppressors – suppressor filter RC – in the circuit to increase the service life of the

controller relay. See connection instructions of the filter on the previous page.

c) The sensor cables may be together, but not in the same conduit where the power supply of the

controller and/or of the loads passes through.

6. FIXING PROCEDURE

a) Cutout the panel plate (Image V - item 13) where the controller will be fixed, with dimensions

X = 71±0,5 mm and Y = 29±0,5 mm;

b) Remove the side locks (Image VI - item 13): To do this, squeeze the elliptical central part (with the

Logo Full Gauge Controls) and move the latches back;

c) Pass the wires through the cutout of the plate (image VII - Item 13) and make the electrical installation

as described in item 6;

d) Insert the controller into the panel cutout, from the outside in;

e) Replace the latches and push then until they are pressed against the panel, securing the controller to

the housing (see arrow in Figure VI - item 13);

f) Adjust the parameters as described in item 9.

WARNING: for installations requiring liquid-tight sealing, the cut-off for the installation of the

controller should be at must 70.5x29mm. The side latches must be secured so that they press

the rubber sealing to prevent infiltration between the cutout and the controller.

NEW CONNECTION SYSTEM (QUICK COUPLING):

FASTON and PUSH-IN FAST

CONNECTION:

- Hold the wire near its end and insert it into the

desired slot.

- If necessary, press the bottom to assist the

connection.

DISCONNECT:

- To disconnect the cord, press the bottom and

remove it.

NOTE:

- In the Push-In connectors the maximum wire

gauge that can be used is 1.5mm².

- The wires must be tinned or use Rocket Pin

terminals with a maximum gauge of 0.75mm².

BOTTOM

WIRE INPUT

The wire should be picked

in 5 mm and tinned.

Terminal Rocket Pin.

Control

functions

shutdown

Function

blocking

Serial

Programming

Defrost Protection

level

IP 65

FRONT

Audible

Alarm

Connector

for quick

coupling E251415

VENT/

COMP

AUX

VENT/

COMP

AUX

VENT/

COMP

AUX

VENT/

COMP

AUX

ALARM/

DEFR

ALARM/

DEFR

ALARM/

DEFR

ALARM/

DEFR

(*) This instrument measures and controls temperatures of up to 200°C/392°F, using the silicone sensor cable SB59

(sold separately).

Note: The sensor cable lenght can be increased by the user up to 200 meters using PP 2 x 24 AWG cable.

Control temperature -50 to 105ºC (-58 to 221°F)*

Power supply MT-514 E Faston: 115 or 230 Vac ±10%(50/60 Hz)

MT-514 EL Faston: 12 or 24 Vac/dc +10%

Operating temperature 0 to 50 ºC / 32 to 122°F

Operating humidity 10 to 90%RH (without condensation)

Dimensions (mm) 76 x 34 x 84 mm (WxHxD)

Load current (outputs) OUT1: 16(12)A 250Vac 2HP

OUT2: 10A / 240Vac 1/4HP

Dimensions of the clipping for fixing

of the instrument 71 ± 0,5 x 29 ± 0,5 mm (see item 5)

MT-514e

Set key

Quick Access

Menu Key (Flatec)

Functions lock indication LED

Temperature unit indication LED

Increase key

Decrease key

Alarm indication LED

*Cooling indication LED

Heating indication LED

Defrost indication LED

FOR INSTALLATIONS WHERE A SEALING IS REQUIRED TO AVOID LIQUID CONTACT, THE CUT FOR THE

CONTROLLER MUST BE OF 70,5X29mm MAXIMUM. THE SIDE LOCKS MUST BE FIXED SO IT PRESSES THE

RUBBER SEALING AVOIDING INFILTRATION BETWEEN THE CUT AND THE CONTROLLER.

ATTENTION

Hold down simultaneously: enters function selection.

and

7.3. Basic operations

7.3.1. Adjusting desired temperature (setpoint)

If configured not to use recipes (F03= [no,,]):

- Hold down the /key for 2 seconds until the message [Set,]is displayed;

- Then the message [SP,,]will be displayed and the setpoint may be adjusted;

- Use the > or < keys for changing the value, then press/ to confirm.

If configured to use presets (F03=[Yes,]):

Each preset may be set up to use different values for the Setpoint, Control differential (hysteresis) and

Cooling time (interval between defrosts).

To select the preset:

- Hold down the / key for 2 seconds until the message [Set,]is displayed;

- Then the currently selected preset will appear [Rc1,]or [Rc2,].

- Use the> or < keys to select which of the 2 presets will be used.

- To confirm the selection, press/ .

Note: The values of functions Setpoint, Control differential (hysteresis) and Cooling time (interval

between defrosts) for each preset are set up in the parameters menu.

7.3.2. Manual Defrost

Manual defrost can be carried ou through the easy menu, decrement key or digital input.

Defrost using the easy menu: Press the key ; (short touch) until the message [dEFr](flashing @

led) appears, then press the / key (short touch) to select. Then the following message will be

displayed [dEFr][On,,](led @ access). To switch off the defrost manually, press the button ;

(short touch) until the message [dEFr] (flashing @led) appears. Press the/key (short press) to

select. Then the message [dEFr][OFF,] (led @off).

Defrost using the < key (increments): To activate / deactivate the defrost manually, just press the

< key for 4 seconds.

Defrost via digital input: If function [F35] - Digital input operation mode is set to [,,,7] - Digital

input: Manual defrost, just touch the button (not supplied) connected to the digital input.

Quick touch: enters quick access menu.

;

Hold down for 4 seconds: carries out manual defrost.

Note 1: The minimum and maximum temperature records shall only be performed after the elapsing of

the alarm inhibition time when energizing the controller and after the delay in the instrument

energizing[,F32]+ [,F19].

Note 2: The minimum and maximum temperature records shall only be performed after the compressor

reaches the active preset setpoint ; before that, the[____]messages will be displayed for the records

of minimum and [++++]for the records of maximum temperature.

7.3.7. Unit Selection

To select the temperature unit in which the instrument will operate enter the function [,F01] using the

access code [,231] then press the /. key. Then, select the unit desired[,=C,]or[,=F,] using

the<> keys; to confirm press /. Every time the unit is changed, the functions settings return to the

default value, thus, they must be set up again.

7.3.8. Buzzer inhibition

When activated, the buzzer can be inhibited by pressing the >key for two seconds. The Buzzer will

remain inhibited until a new alarm event takes place.

7.4. Advanced operations

The functions menu can be accessed through the quick access menu (according to chapter 6), option

[Func] or by pressing simultaneously during the temperature display. To allow change of >and<

parameters, enter [,F01]by pressing (quick touch) and using the keys enter code 123 / >or<

(one hundred and twenty-three), and then confirm with . For changing the other functions, browse the /

menu through the keys and proceed the same way in order to adjust them. To exit the menu >or<

and return to the normal operation, press (long touch) until [----] is displayed./

OBS: If the functions lockdown is enabled, when pressing the keys, the controller will display >or<

the message [LOC,] and will not allow parameter adjustment.

7. OPERATIONS

6.1. Quick Access Menu Map

To access or browse in the quick access menu, use the ;key (quick touch) while the temperature is

being displayed by the controller. Each touch displays the next function of the list; for confirming, use

the/ key (quick touch). For further details, refer to chapter 6.3.

7.2. Quick access keys map

When controller is on temperature display mode, the following keys can be used as a shortcut for the

following functions:

Hold down for 2 seconds: setpoint adjustment.

Quick touch: display of current process and sensor temperature when

[F41] = 1 or 2.

Quick touch: maximum and minimum temperature display.

Hold down for 2 seconds: inhibit audible alarm (buzzer).

Pressed for 5 seconds: turn on/turn off the control functions.

;

Vinyl protector - Image IX (item 13)

Protects the controller should when installed in a place with splashing water, such as in refrigerated

counters. This adhesive vinyl accompanies the instrument, on the packaging.

IMPORTANT: Apply only after completing electrical connections.

a) Retract the lateral locks (Image VI - item 13);

b) Remove the protective film from the adhesive side of the vinyl;

c) Apply the vinyl over the whole top, folding the flaps, as indicated by the arrows - Image IX (item 13);

d) Reinstall the latches.

Note: The vinyl is transparent, allowing to visualize the electric scheme of the instrument.

7.3.3. Functions lockdown

The use of the functions lockdown brings greater security to the operation of the instrument. When it is

active, the setpoint and other parameters can be visible to the user, but are protected against undue

changes or you can block changes of control functions and leave the adjustment of the ([F42]=2)

setpoint enabled([F42]=1).

Using the key (short touch), access the function [LOC,] in the easy menu, confirm by pressing / ;

(short touch), then the message [no,,] will be displayed. After that keep the key > pressed for the

time configured for the functions lockdown until [LOC,] is displayed. The message [On,,] [F43],

will be displayed indicating the lockdown function is activated upon releasing the key.

To unlock, turn the controller off and then turn it on again with the key > pressed. Keep the key pressed

until [LOC,] is displayed. Keep the key pressed for ten seconds and the message [OFF,] will be

shown on the display indicating the deactivation of the lockdown function when the key is released.

7.3.4. Shutdown of Control Functions

Turning off control functions allows the controller to operate only as a temperature indicator, keeping the

control outputs and alarms off. The use of this feature is enabled or not by the Shutdown of Control

Functions feature [,F44]. When enabled, the control and alarm functions are turned off

([CtrL][OFF,]) or turned on ([CtrL][On,,]) through the menu provided in the option

[CtrL]. When the control functions are switched off, the message [OFF,] will be displayed

alternately with the temperature and other messages. Control functions can be switched off / on by

pressing the key ; for 5 seconds or by setting the [,F35]function - Digital input operation mode to

[,,,8] - Digital input: To switch off the manual control, just touch the button (not supplied) connected

to the digital input to activate or deactivate this functionality.

Note: When restarting the control functions, the times defined in the functions are counted, and these

delay the powering up of the instrument and the alarm inhibition time when switching on the controller.

7.3.5. Visualization of Processes

To view the process and the time elapsed, press >(quick touch) or by the ;(Flatec) key pressing it

until the message appears. This way, the controller will display the current process status, and [Proc]

the following messages may appear on the display:

[dEL,]- Initial delay (delay in the instrument start-up)

[rEFr]- Cooling

[Hot,]- Heating

[dEFr]- Defrost

[drAi]- Drainage

[----]- Control functions off

Note: If the function [,F41] - Display indication has been set to [CooL] or [,USE] , the message

of the process in progress will be displayed, the time elapsed from this process and then the message

[temp] followed by the display of the measured temperature by the sensor, for a few seconds on the

display.

7.3.6. Minimum and Maximum Temperature Record

Pressing down the<key or also via the quick access menu (see chapter 6), will cause the message

[rE9,] to be displayed, then the minimum and maximum temperatures recorded.

For erasing the current minimum and maximum values, hold down the ;key (quick touch) until the

message [CrE9] is displayed, then the message [CodE] will appear; enter the value [,123],

then confirm with the/key. If the code is correctly entered, the message [rSt,] will be displayed.

[rSt,]. This procedure keeps unauthorized users from erasing the minimum and maximum

temperature records.

;;

;

DEFROST (ON/OFF)

;

FUNCTIONS LOCKDOWN

;

CONTROL FUNCTIONS

(ON/OFF)

ADJUSTING DESIRED

TEMPERATURE

(SETPOINT)

EXIT FUNCTION

;

FUNCTION SELECTION

;

VISUALIZATION OF

PROCESSES

;

ERASE MIN. AND MAX.

VALUES

MIN. AND MAX.

TEMPERATURE RECORD

;

F06 - Control differential (Hysteresis) ( ):[Rc1,]

It is the difference in temperature (hysteresis) between TURNING ON and OFF the cooling (or heating)

when recipe ([rc1,]) is used.

Example: One wants to control the temperature at 4.0 °C with a differential of 1.0 °C. Therefore, the

cooling is switched off at 4.0 °C and switched back on at 5.0 °C (4.0 + 1.0).

F07 - Cooling time (interval between defrosts) ( ):[Rc1,]

Corresponds to the time the controller will act on cooling when preset ( ), is used; following this [Rc1,]

period, the controller enters the natural defrost process.

F08 - Defrost time ( ): [Rc1,]

It is the defrost duration time when preset ( ) is used. Within this period, the relay will remain off; [Rc1,]

following this period, the controller will then return to the cooling state.

F09 - Operation setpoint ( ): [Rc2,]

It is the reference value for temperature control, that is, the temperature to be maintained in a controlled

environment when preset ( ) is used.[Rc2,]

F10 - Control differential (Hysteresis) ([rc2,]):

It is the difference in temperature (hysteresis) between TURNING ON and OFF the cooling (or heating)

when preset ([rc2,]) is used.

Example: One wants to control the temperature at 4.0 °C with a differential of 1.0 °C. Therefore, the

cooling is switched off at 4.0 °C and switched back on at 5.0 °C (4.0 + 1.0).

F11 - Cooling time (interval between defrosts) ([rc2,]):

Corresponds to the time the controller will act on cooling when recipe ([rc2,]) is used; following this

period, the controller enters the natural defrost process.

F12 - Defrost time ([rc2,]):

It is the defrost duration time when preset ([rc2,]) is used. Within this period, the relay will remain off;

at the end of this period, the controller will return to the cooling state.

F13 - Minimum setpoint allowed to the end user:

Avoids regulation of excessively low setpoint temperatures by mistake.

F14 - Maximum setpoint allowed to the end user:

Avoids regulation of excessively high setpoint temperatures by mistake.

F15 - Minimum OUT1 output time on:

It is the minimum time the compressor will remain on, i.e. the time interval between the last start-up and

the next stop.

F16 - Minimum OUT1 output time off:

It is the minimum time the compressor will remain off, i.e. the time interval between the last stop and the

next start-up. It is used to relieve the discharge pressure and increase the service life of compressor.

F17 - Initial status when energizing the instrument:

It allows defrosting when controller is energized such as, for example, upon resuming of electric power

(in the event of power outage).

[,,,0]- Cooling

[,,,1]- Defrost

F18 - Temperature indication locked during defrost:

If [,F18] is enabled, the indication will only be released at the next cooling cycle after the temperature

reaches the “locked” value again, or after 15 minutes in cooling (as a safety measure).

F19 - Instrument energization delay:

This function being enabled, when the instrument is energized it only works as temperature indicator

remaining with the output off during the defined time. In installations with several units of equipment,

configuring different values for the delay time in the start-up of each instrument, it is possible to avoid

peaks of demand by activating the loads at different times.

This delay may be of the compressor or of defrost (when defrost is configured at the start).

Note: At its end, the count of minimum time of output off is started, if there is any.

F20 - Compressor status with the sensor damaged:

If the sensor is in short-circuited, off or out of the measure range, the compressor assumes the set

status in this function.

[,,,0]- Compressor off

[,,,1]- Compressor on

[,,,2]- Cycling according to times defined in [,F21] and [,F22]

Note: If in the heating mode, and in error, the output will be switched off.

F21 - Compressor time on in case of error:

F22 - Compressor time off in case of error:

These determine the minimum time the compressor will remain on/off, respectively, if the sensor is off or

out of the measure range.

F23 - Maximum Compressor on without reaching setpoint:

This is the maximum time the compressor may remain on without reaching the setpoint during the

cooling process for safety reasons. If this time is surpassed, the output is switched off and also the visual

alarm [ALrC] and the audible alarm (buzzer) will be activated. This function can be switched off by

setting it at the minimum value 0 [no,,].

Note 1: In this situation, the controller should be switched off and switched back on so as to continue

with the operation.

Note 2: If the OUT2 output is set up to work differently from the alarm, this will also be switched off for

safety reasons.

7.5. Parameter table

Access code: 123 (one hundred and twenty three)

Sensor indication offset

Using Recipes

Output operation mode (OUT1)

Output setpoint (rc1)

Output control differential (rc1)

Refrigeration time (rc1)

Defrost time (rc1)

Output setpoint (rc2)

Output control differential (rc2)

Refrigeration time (rc2)

Defrost time (rc2)

Minimum setpoint allowed for end user

Maximum setpoint allowed for end user

Minimum output time OUT1 turned on

Maximum output time OUT1 turned off

Initial state when powering up the instrument

Temperature indication locked during defrost

Delay in powering up the instrument (delay)

Compressor status with sensor disconnected

Time the compressor was on in case of an error

Time the compressor was off in case of an error

Max. Time the compressor was on without reaching

the setpoint

Low temperature alarm

High temperature alarm

Output Operating Mode OUT2

Fan Operation Mode during refrigeration

Fan On Time

Fan Off Time

Fan delay

Delay between compressors being turned on

Alarm inhibition time when turning on the controller

Alarm inhibition time by ambient temperature

Enable Buzzer (0-Disabled / 1-Enabled)

Digital input operation mode

Output time when switched on in OUT2 alarm state

Output time when switched off in OUT2 alarm state

Door open time to trigger alarm

Digital filter operating mode

Intesity of the digital filter applied to the sensors

Display indication

Blocking functions

Time for blocking functions

Shutdown of control functions

[,F01]

[,F02]

[,F03]

[,F04]

[,F05]

[,F06]

[,F07]

[,F08]

[,F09]

[,F10]

[,F11]

[,F12]

[,F13]

[,F14]

[,F15]

[,F16]

[,f17]

[,f18]

[,F19]

[,F20]

[,F21]

[,F22]

[,F23]

[,F24]

[,F25]

[,F26]

[,F27]

[,F28]

[,F29]

[,F30]

[,F31]

[,F32]

[,F33]

[,F34]

[,f35]

[,f36]

[,F37]

[,F38]

[,f39]

[,f40]

[,f41]

[,f42]

[,F43]

[,F44]

Description

Fun Min Max Unit

CELSIUS FAHRENHEIT

Min Max Unit

Stand.

-20,0

0-cool.

-50,0

0,1

0(no)

-50,0

0.1

0(no)

-50,0

0(no)

0-cool.

0(no)

-50(no)

0(no)

0(off)

0(no)

-4

0-cool.

-58

0(no)

-58

0(no)

-58

0(no)

0-cool.

0(no)

-58

0(no)

0(off)

0(no)

20,0

yes

1-heat.

200,0

20,0

9999

999

200,0

9999

999

200,0

999

1-defr.

yes

240

999

9999

200,0

999

yes

1-heat.

392

9999

999

392

9999

999

392

999

1-defr.

yes

240

999

9999

392

999

°C

min.

°C

min.

°C

sec.

min.

°C

min.

seg.

min.

sec.

min.

sec.

°F

min.

°F

min.

°F

sec.

min.

°F

min.

sec.

min.

sec.

min.

sec.

0,0

0-cool.

4,0

1,0

240

0,0

240

-50,0

75,0

0-cool.

0(no)

-50(no)

200(no)

0(no)

0(off)

0(no)

0-cool.

240

-58

167

0-cool.

0(no)

-58

392

0(no)

0(off)

0(no)

F01 - Access code 123 (one hundred and twenty-three):

This is required when intending to change the configuration parameters. Entering of this code is not

required if the intention is just visualizing the parameters adjusted.

It allows entering of the expected access codes:

[,123]- Allows access for changing the table parameters.

[,231]- Allows configuring of the unit of measurement [,=f,] or [,=C,].

[,231]- To select the unit in which the instrument will operate enter the function[,F01] using the

access code[,231]then press the/key. Then, select the unit desired [,=C,] or[,=F,]using

the< >keys; to confirm press /. or

Note: Every time the unit is changed, the parameters should be reset, since they assume the ‘standard’

values of the parameter’s table.

F02 - Sensor indication displacement (offset):

Allows compensation for any temperature deviations from sensor replacement or change in the cable

length.

F03 - Using Presets:

Allows configuration of the controller so as whether or not to use the presets:

[no,,]- No: If configured this way, the instrument will not use the preset values in the control routines.

For this purpose, the setpoint[SP,,] will be used, adjusted via the quick access menu. The control

differential to be used shall be the same as in preset [rc1,], [,F06] “OUT1 output control

differential ([rc1,])”. The cooling time to be used shall be the same as in preset [rc1,], [,F07]

“OUT1 output cooling time ([rc1,])”. Defrost time to be used will be the same as in preset 1,

[,F08] “OUT1 output defrost time ([rc1,])”.

The value configured in [SP,,] may be adjusted between [,F13] “Minimum setpoint allowed to the

end user” and [,F14] “Maximum setpoint allowed to the end user”.

In this configuration, the controller will not indicate which preset is enabled.

[yEs,]- Yes: Selection of presets will be made through the quick access menu, in the same way as for

adjusting the setpoint. In this configuration, the controller will indicate in the display which preset is

enabled, [rc1,] or [rc2,]. If configured this way, in the control routines the instrument will use the

values of setpoint, control differential, cooling time and defrost time configured in the parameters table.

F04 - Output operating mode OUT1:

Selects the out1 output operating mode:

[,,,0]- Cooling

[,,,1]- Heating

F05 - Operation setpoint ( ): [Rc1,]

It is the reference value for temperature control, that is, the temperature to be maintained in a controlled

environment when preset ([rc1,]) is used.

7.5.1. Description of parameters

Temperature [°C]

Setpoint

Cooling

Setpoint + Hysteresis

Time [S]

Relay Off

Relay On

4°C

5°C

Temperature [°C]

Setpoint

Heating

Setpoint - Hysteresis

Time [S]

4°C

5°C

Relay Off

Relay On

F24 - Low temperature alarm:

It is the temperature below that which the instrument will visually display the low temperature alarm

[atlo] as well as the audible alarm (Buzzer). The differential for switching off the alarm is fixed at

0.1°C / 1°F. This alarm considers the temperature shown on the display, thus being influenced by the

temperature indication that was locked during the defrost [,f18]. To disable this alarm, simply set this

function to the minimum value until [,,no] is displayed.

F25 - High temperature alarm :

It is the temperature above that which the instrument will visually display the high temperature alarm

[athi] as well as the audible alarm (Buzzer). The differential for switching off the alarm is fixed at

0.1°C / 1°F. This alarm considers the temperature shown on the display, thus being influenced by the

temperature indication that was locked during the defrost [,f18]. To disable this alarm, simply set this

function to the maximum vale until [,,no] is displayed.

Note: For safety, output OUT1 is switched off if the controller is configured for heating and a high

temperature alarm [athi] occurs, or if it is configured for cooling and a low temperature alarm

[atlo] occurs, therefore, you must set the alarm limits above (if heating) or below (if cooling) the

desired temperature (setpoint of output OUT1).

F26 - Output Operating Mode OUT2:

Select the operating mode of the OUT2 output.

[,,,1]- Extra alarm-absolute range: It considers the values defined in[,F24] and [,F25]as

minimum and maximum values to trigger the alarm output.

[,,,2]- Extra alarm-setpoint range: It considers the active receipt setpoint [Rc1,] or [Rc2,]

and the absolute values defined in[,F24] and [,F25], that is, the positive value of these functions

as minimum and maximum values to trigger the alarm output.

For example:

Desired temperature [SP,,]: - 5ºC

Low temperature alarm [,F24]: 2ºC

High temperature alarm [,F25]: 2ºC

City Limits: ([SP,,]- [,F24] and [SP,,]+ [,F25]).

The low temperature alarm will go off at -7°C (-5-2) and the high temperature alarm at -3°C (-5+2).

[,,,3]- Electric defrost (using resistances): Where only the OUT2 output is activated during the

defrost process.

[,,,4]- Hot gas defrost : Where the compressor outputs OUT1 and OUT2 are activated during the

defrost process.

[,,,5]- Output OUT2 as NF of output OUT1: In this option, the OUT2 output is activated when the

OUT1 output is deactivated, regardless of the state (cooling / heating or defrost), except when the

sensor is in error [,F20].

[,,,6]- OUT2 output as ventilation: In this mode, the output will be used to activate a fan that will

remain on during the defrost interval. While the controller is cooling, the output will remain in operation

according to the configuration selected in function [,F27]- Fan Operation Mode during cooling.

[,,,7]- OUT2 output as an auxiliary compressor: The output will be used to start a seconds

compressor. Output OUT2 will be activated immediately after output OUT1 is activated, according to the

value configured in function [,F31]- Delay between the activation of compressors, and always

switched off together with output OUT1.

Note 1: If the OUT2 output is configured to work different than an alarm, the absolute alarm indications

are still visual (messages on the display) and audible (if the buzzer is enabled)

Note 2: If the OUT2 output is configured for defrost (electric or hot gas), after the defrost time has

elapsed, a fixed time of 2 minutes is counted for drainage. This time is necessary for dripping, that is, for

the last drops of water to drain from the evaporator. During this period, outputs OUT1 and OUT2 remain

off.

Note 3: If output OUT2 is configured for ventilation, and if a sensor error occurs, output OUT2 will be

activated and deactivated together with output OUT1, that is, if OUT1 is activated OUT2 remains

activated, and will continue to work together according to the configuration selected in function

[,F20] - Compressor status with the sensor disconnected.

F27 - Fan operation mode during cooling:

Selects the operating mode of the OUT2 output when [,F26] = 6.

[,,,0] - OUT2 output remains activated as long as OUT1 output (compressor) is activated. When the

compressor is off by setpoint, the OUT2 output will be cyclically activated according to the values

configured in the functions [,F28] - Fan Time On and [,F29] - Fan Time Off;

[,,,1] - Output OUT2 will remain on regardless of output OUT1;

[,,,2] - OUT2 output will remain on as long as OUT1 output is on and off when OUT1 output is turned

off.

F28 - Fan On Time:

F29 - Fan Off Time:

Define fan on time [,F28] and fan off time[,F29] when the controller is in refrigeration mode

([,F04] = 0) with output OUT1 turned off by temperature (setpoint) and OUT2 configured for fan

control ([,F26] = 6) and operating in cyclic mode ([,F27] = 0)

F30 - Fan Delay:

Defines the time (delay) before activating the OUT2 output (if configured as fan [,F26] = 6) after the

start of a new refrigeration cycle.

F31 - Delay between compressors being turned on:

Defines the time (delay) before activating the OUT2 output (if configured as auxiliary compressor

[,F26] = 7). Every time the OUT1 output is activated, the time configured in this function will elapse

before activating the OUT2 output.

F32 -Alarm inhibition time when energizing the controller:

This is the time during which the alarm remains off even under conditions of alarm during the instrument

start-up. This time will be counted after elapsing of the time configured in [,F19]. This function can be

switched off by setting it at the minimum value 0 [no,,].

F33 -Alarm inhibition time by temperature:

With this configuration active, the temperature will need to remain in the alarm condition during the

inhibition time set, for the alarm to be indicated. That way one can prevent alerts resulting from specific

temperature variations, and after defrost.

F34 - Enable buzzer (0-Disabled/1-Enabled):

Allows enabling and disabling of the internal buzzer for alarm signaling.

F35 - Digital input operation mode:

Select the operatiing mode of the digital input.

[no,,]- Disabled

[,,,1]- Digital input: Door open (active when closing contact)

[,,,2]- Digital input: Door open (active when opening contact)

[,,,3]- Digital input: External alarm / power failure (active when closing contact)

[,,,4]- Digital input: External alarm / power failure (active when opening contact)

[,,,5]- Digital input: Door open and power failure (active when closing contact)

[,,,6]- Digital input: Door open and power failure (active when opening contact)

[,,,7]- Digital input: Push-button type switch (button) to manually start/stop defrost

[,,,8]- Digital input: Push-button type switch (button) to switch the control functions off or on

F36 - Output on time in OUT2 alarm status:

F37 - Output off time in OUT2 alarm status:

Selects the cycling time in seconds of the alarm output when it is active. If any of those functions are set

with a value of [,,,0] the output will be permanently active.

F38 -Open door time for alarm:

If the door remains open for a time equal to, or greater than, the one configured in this parameter, the

controller will set off a visual open door alarm [AOPn] and the audible alarm (Buzzer).

The alarms are suspended upon the door closing. The audible alarm may be inhibited through the >

key (pressed for 2s). This function can be switched off by setting it at the minimum value 0 [no,,].

Note 1: In order for the open door alarm to operate, the function “Digital input operating mode” [,F35]

must be configured as open door contact.

The audible alarm is activated only if the buzzer is enabled in the function “Enable Buzzer (0-Disabled

/1-Enabled)” [,F34].

Note 2: If the function “Digital input operating mode” [,F35] is configured as open door contact, the

open door indication [OPEn] will be displayed every time the door is open, except for the cases of

alarm.

F39 - Operating mode of the digital filter:

[,,,0]- The filter acts both on the rise as on the decrease temperature.

[,,,1]- The filter acts only in the temperature rise ramp. When the temperature falls, your response

will be immediate.

F40 -Digital filter intensity applied to the sensor:

This filter has the purpose of simulating increase in thermal mass at the sensor thereby increasing its

response time (thermal inertia). The higher the value set in this function, the more time the sensor takes

to respond.

This function can be switched off by setting it at the minimum value 0[no,,].

F35 =[,,,3]

156

234

SENSOR

Vca

F35 =[,,,4]

156

234

SENSOR

Vca

Examples of connection for detecting open door alarm:

This configuration may be used for the MT-514e Faston to detect whether the door has been left

open for a time above the value set up in “[,F33] - Time with open door to trigger alarm”. In this

configuration, the message [AOPn] is displayed when an open door alarm is detected. To that end, the

user may use the NO or NC pushbuttons (not supplied) connected to the digital input, as shown in

examples below:

F35 =[,,,1]

156

234

SENSOR

Door contact

F35 =[,,,2]

156

234

SENSOR

Door contact

Examples of connection for power outage detection:

This configuration may be used when MT-514e Faston is being energized by a 12/24 V DC

battery (common in vaccine refrigerators) and one wants to detect when a power outage occurred

(115/230 V AC). In this configuration, the message[AVoL] is displayed when alarm is detected for

power outage. To that end, the user may utilize a contactor or auxiliary contact (not supplied), where NC

([,F30]=[,,,3]) or NO ([,F30]=[,,,4]) contacts are connected to the digital input and

contacts A1 and A2 (contactor coil) are connected to the power system, as shown in examples below:

Example of connections for detecting open door and power outage:

This configuration may be used to detect power outage alarm (115/230 V AC) and also to detect that the

door has been left open (either one event).

In those configurations, the messages [AVoL] and [AOPn]are displayed alternately when alarm

event is detected (power outage or open door alarm).

For this purpose, the user may use the pushbuttons (not supplied) and a contactor or auxiliary contact

(not supplied) connected in series or in parallel, as shown in examples below:

F35 =[,,,6]

Serial connection

156

234

SENSOR

Vca

Door contact

F35 =[,,,5]

Parallel connection

156

234

SENSOR

Vca

Door contact

9. OPTIONAL ITEMS - Sold Separately

EASYPROG

10. ANNEXES - Reference Images

Image V Image X

Image VI

Image VII

PANEL

LATCHES CONTROLLER

CONTROLLER

Image VII

CONTROLLER

VINYL

Image IX

Para uma instalação correta e

segura, realize todas as conexões

antes de fixar o controlador.

F41 - Indicação do Display:

Defines wheter the display will show the sensor temperature in real time or a static message on the

display.

[tEMP]- Displays the sensor temperature in real time

[CooL]- Does not display the temperature, only the message [CooL] on the display

[,USE]- Does not display the temperature, only the message[,USE]on the display

Note: If this function is configured as [CooL] or [,USE] it is possible to view the temperature

measured by the sensor at any time with a short touch on the >key, where, firstly the message of the

process in progress will be displayed as well as the elapsed time of this process and then the message

[tEMP] followed by the display of the temperature measured by the sensor, for a few seconds on the

display.

F42 - Functions lockdown:

This allows and configures the functions lockdown.

[,,,0]- Do not allow the functions lockdown.

[,,,1]- Allow a partial lockdown where the control functions will be locked but the adjustment of the

setpoint, manual defrost, and maximum and minimum record are allowed.

[,,,2]- Allow the full lockdown, enabling only the manual defrost and maximum and minimum

record.

F43 -Time for functions lockdown:

Allow lockdown of control functions (see item 7.3.3).

[,,15] - [,,60] Defines the time in seconds for the controller to activate.

F44 - Control functions shutdown:

Allow control functions shutdown (see item 7.3.4).

[no,,]- Disables the control functions shutdown.

[,,,1]- Enables activation/deactivation of the control functions only if the functions are unlocked.

[,,,2]- Enables activation/deactivation of the control functions even if the functions are locked.

8. SINALIZAÇÕES

[Err1]

[Defr][On,,]

[defr][Off,]

Sensor disconnected or damaged.

Manual activation of defrost process.

Manual activation of end of defrost process.

Control functions off.

Contact Full Gauge Controls.

Reconfigure the values of the functions.

[OFF,]

[eCAL]

[pppp]

Low temperature alarm.

[Atlo]

[inib]

[LOC,][On,,]

[LOC,][OFF,]

[AVoL]

[AOPn]

[OpEn]

Power outage alarm indication.

Open door alarm indication.

Open door indication.

Functions lockdown.

Unlocking of functions.

Buzzer inhibited.

[Athi]

[ALrC]

High temperature alarm.

Compressor reached maximum time on limit without reaching SP.

- version 2 or higherEasyProg

It is an accessory that has as its main function to store the parameters of the controllers. At any time, you

can load new parameters of a controller and unload them on a production line (of the same controller),

for example. It has three types of connections to load or unload the parameters:

- Serial RS-485: It connects via RS-485 network to the controller (only

for controllers that have RS-485).

- USB: it can be connected to the computer via the USB port, using

Sitrad's Recipe Editor.

- Serial TTL: The controller can be connected directly to

EasyProg by the TTL Serial connection.

Ecase

It is recommended for the Evolution line, keeps water from entering the back part of the instrument. It

also protects the product when the installation site is washed.

Extension Frame

The Full Gauge Controls extension frame allows the installation of Evolution / Ri line with measures

76x34x77 mm (dimensions of the clipping for fixing in the extension frame is 71x29mm) in varied

situations, since it eliminates precision cut to embed the instrument. Allows customization via a sticker with

the brand and the company contact, and accompany two 10A (250 Vac) switches that can trigger internal

light, air curtain, on / off system or fan.

Note: Ecase is compatible with the use of

small type Faston terminals, usually with

silicone protection.

Electrical noise suppressing filter

Contact suppressor connection

diagram

A1 and A2 are the

contactor coils.

Diagram for suppressor installation

for direct drive load inputs

Load

Suppressor

For direct activation the

maximum specified current

sh ould be t aken into

consideration.

RC FILTER

Suppressor

IMPORTANT:

Faston connectors should be

protected with covers, preferably

silicone.

ENVIRONMENTAL INFORMATION

Packaging:

The materials used in the packaging of Full Gauge products are 100% recyclable. Try

to perform disposal through specialized recyclers.

Product:

The components used in Full Gauge controllers can be recycled and reused if

disassembled by specialized companies.

Disposal:

Do not incinerate or dispose the controllers that have reached the end of their service

as household garbage. Observe the laws in your area regarding disposal of electronic

waste. If in doubt, please contact Full Gauge Controls.

WARRANTY - FULL GAUGE CONTROLS

Products manufactured by Full Gauge Controls, as of May 2005, have a two (02) year

warranty, as of the date of the consigned sale, as stated on the invoice. They are

guaranteed against manufacturing defects that make them unsuitable or inadequate for

their intended use.

EXCEPTIONS TO WARRANTY

The Warranty does not cover expenses incurred for freight and/or insurance when

sending products with signs of defect or faulty functioning to an authorized provider of

technical support services. The following events are not covered either: natural wear and

tear of parts; external damage caused by falls or inadequate packaging of products.

LOSS OF WARRANTY

Products will automatically lose its warranty in the following cases:

- The instructions for assembly and use found in the technical description and installation

procedures in Standard IEC60364 are not obeyed;

- The product is submitted to conditions beyond the limits specified in its technical

description;

- The product is violated or repaired by any person not a member of the technical team of

Full Gauge Controls;

- Damage has been caused by a fall, blow and/or impact, infiltration of water, overload

and/or atmospheric discharge.

USE OF WARRANTY

To make use of the warranty, customers must send the properly packaged product to Full

Gauge Controls together with the invoice or receipt for the corresponding purchase. As

much information as possible in relation to the issue detected must be sent to facilitate

analysis, testing and execution of the service.

These procedures and any maintenance of the product may only be provided by Full

Gauge Controls Technical Support services in the company's headquarters at Rua Júlio de

Castilhos, 250 - CEP 92120-030 - Canoas - Rio Grande do Sul – Brasil

Rev. 03

Refrigerated Solutions Group

891 County Road U

Hudson, WI 54016

800-955-5253 Norlake Foodservice Sales

800-477-5253 Norlake Scientic Sales

800-388-5253 Norlake Parts/Service

800-647-1284 Master-Bilt Sales

800-684-8988 Master-Bilt Parts/Service

Email: [email protected]

PN: 171571

REV 3/22

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