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ManualsBrandsCarel ManualsMusical equipmentMPXPRO

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MPXPRO - + 0300055EN rel. 1.3 07/03/13

Calibration (parameters /c4,/c5,/c6,/c7,/cE)

Parameters /c4 to /c7 are used to correct the reading made by probes

S4 to S7 respectively. Serial probes S8 to S11 do not require calibration.

/cE calibrates the saturated evaporation temperature. Calibration is

performed before checking if the value is out-of-range, that is, MPXPRO

ﬁ rst determines the values read by the probes, correcting them based

on the calibration parameters, then checks if these are outside of the

range speciﬁ ed and where necessary generates a probe error. Example:

To decrease the temperature measured by probe S4 by 3°C, set /c4 = -3.

Par. Description Def Min Max UoM

/c4 Probe 4 calibration 0 -20 20 (°C/°F)

/c5 Probe 5 calibration 0 -20 20 (°C/°F)

/c6 Probe 6 calibration 0 -20 20 (°C/°F/barg/ RH%)

/c7 Probe 7 calibration 0 -20 20 (°C/°F/barg/ RH%)

/cE Saturated evaporation tempe-

rature calibration

0.0 -20.0 20.0 °C/°F

Tab. 6.g

Important: the value read by the probe and already corrected

can only be displayed locally, and not using the virtual console

(display Slave controller status from Master terminal).

6.2 Digital inputs

Con gure function of virtual digital input (par. A8)

Par. Description Def Min Max UoM

A8 Conﬁ g. function of virtual digital input

0= input not active

1= immediate external alarm

2= delayed external alarm

3= enable defrost

4= start defrost

5= door switch with compressor

and evaporator fans OFF

6= remote ON/OFF

7= curtain switch

8= start/stop continuous cycle

9= light sensor

008-

Tab. 6.h

As already mentioned, in a Master Slave network, using a virtual digital

input, MPXPRO can activate the same digital input on all controllers

without needing additional wiring. Likewise, the virtual digital input from

the supervisor can also be propagated. Parameter A8 is used to select the

function activated on each Slave. If needed, diﬀ erent functions can be

conﬁ gured on the Slaves, meaning a change in status of the contact on

the Master activates diﬀ erent functions on the Slaves.

Select digital input propagated from Master to Slaves

(parameter A9)

This can be conﬁ gured only on the Master controller, enabling the

propagation via tLAN of the status of one of the digital inputs on the

Master or sent by the supervisor to the Slaves. Based on the value

associated with the parameter, MPXPRO propagates only one of the

digital contacts across the LAN, according to the table on the side. The

Slaves receive the status of the virtual digital input and activate the

corresponding function, according to parameter A8.

Par. Description Def Min Max UoM

A9 Select digital input propagated from Master

to Slaves (only on Master)

0 = from supervisor 3 = DI3

1 = DI1 4 = DI4

2 = DI2 5 = DI5

005-

Tab. 6.i

Example 1:

To propagate the curtain switch

function from Master to Slave,

activated by digital input 1 on

the Master.

Example 2:

To propagate the virtual digital

input from the supervisor and

activate the continuous cycle in the

Master Slave network.

Set:

Master Slave 1, 2, 3, 4, 5

A9=1 A8=7

A8=0

A4=7

Set:

Master Slave 1, 2, 3, 4, 5

A9=0 A8=8

A8=8

Light sensor threshold (parameter H12)

Digital inputs DI1, DI2, DI3, DI4 (not DI5) can be connected to the light

sensor (code PSOPZLHT00), setting one of the parameters A4, A5, A10,

A11 = 9. H12 represents the threshold for night/day switching. There is a

ﬁ xed hysteresis ∆ of around 10 lux for day/night switching.

Par. Description Def Min Max UoM

H12 Light sensor threshold 25 10 100 lux

Δ~10

H12

day

night

light (lux)

Fig. 6.a

6.3 Analogue outputs

As mentioned, the most complete version of MPXPRO features 2 PWM

outputs, used as the control signal to manage loads such as anti-sweat

heaters or modulating evaporator fans, for demisting the display cases.

Anti-sweat heater or fan modulation

The control of anti-sweat heaters is performed by comparing dewpoint

calculated based on the ambient temperature and humidity, and the

temperature of the display case glass, measured by a probe or estimated

using the outlet, intake and ambient temperature of the display case.

MPXPRO features two types of anti-sweat heater control:

• PI (proportional, integral);

• ﬁ xed activation (manual control).

The conditions for the activation of the algorithms are as follows:

Algorithm Activation condition

PI rHd > 0

ﬁ xed activation (manual control) rHd = 0; rHt >0

Tab. 6.j

If the temperature read by the glass temperature probe is only estimated,

PI control becomes proportional only. If both algorithms are activated,

the PI algorithm has priority over ﬁ xed activation, which does not require

the ambient temperature and humidity probes. There are a series of

conditions whereby the PI algorithm stops operating and, if activated,

ﬁ xed activation control takes over. In these cases, if MPXPRO is not OFF,

the signal AcE is shown on the display.

Condition Cause

Glass temperature probe

not valid

• physical probe not conﬁ gured or error;

• the estimate of the glass temperature probe cannot

be used because the outlet probe or intake probe

is not conﬁ gured or has an error or the ambient

probe is broken or missing (*)

Dewpoint not valid

• humidity probe and/or ambient probe are not

conﬁ gured and operating;

• the serial dewpoint value is not available

Tab. 6.k

(*) If the intake probe is not conﬁ gured or has an error, the outlet probe alone is used.

PI control

Inputs

The humidity (SU) and ambient temperature (SA) probes may be (see

parameters /FL, /FI):

• connected to the Master, which automatically shares them with the

Slaves;

• connected locally to each controller;

• sent from the supervisor via the serial probes.