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

• r6 (probe for night-time control);

• r4 (automatic night-time set point variation).

Control o set with probe error (parameter ro)

Par. Description Def Min Max UoM

ro Control oﬀ set with probe error 0.0 0.0 20 °C/°F

Tab. 6.r

MPXPRO in standard mode uses the virtual probe Sv for control, that is,

the weighted average of the outlet and intake probe (see parameter /4).

If one of the two probes making up the virtual probe is broken or has

an error, parameter ro is used to continue normal control in controlled

conditions, without the need for immediate intervention by maintenance

personnel. The recommended value of ro is the temperature diﬀ erence

between the outlet probe and intake probe reading in steady operating

conditions of the refrigeration unit:

ro = Sr – Sm

If ro=0 the function is not active. The following cases may occur:

• outlet probe Sm error: MPXPRO starts control based on the intake

probe Sr alone, considering a new set point (St*) determined by the

formula:

St* = St + rot

(100 – /4)

100

• intake probe Sr error: MPXPRO starts control based on the outlet probe

Sm alone, considering a new set point (St*) determined by the formula:

St* = St - rot

100

If night-time operation has been set with the intake probe as the control

probe, the controller considers /4=100 and uses the outlet probe. The

new set point becomes:

St* = St – ro

Note:

• if ro=0 the function is not active;

• for night-time operation the new set point is added to the value

deﬁ ned by r4 (= automatic night-time set point variation);

• in the event of errors on both probes, the controller switches to duty

setting operation, see paragraph 6.6.

Example: Sm fault in daytime operation, with /4=50, St=-4, Sr=0, Sm=-8,

ro (recommended) = 0-(-8) =8. The new control probe will be Sr with:

St* = St + rot

(100 – /4)

100

Therefore St*= -4+8 ·(100-50)/100=0

If the fault is on Sr, the new control probe will be Sm with:

St* = St - rot

100

Therefore St*= -4-8 ·50/100=-8.

Maximum and minimum temperature monitoring

(parameters r5,rt,rH,rL)

For the procedure to enable monitoring, see paragraph 3.7.

Par. Description Def Min Max UoM

rt Duration of current maximum and mini-

mum temp. monitoring session.

- 0 999 hour

rH Maximum temp. acquired in the session - - - °C/°F

rL Minimum temp. acquired in the session - - - °C/°F

r5 Maximum and minimum temperature

monitoring probe

0 = monitoring disabled

1 = control probe (Sreg)

2 = virtual probe (Sv)

3 = outlet probe (Sm)

4 = defrost probe (Sd)

5 = intake probe (Sr)

6 = superheated gas temp. probe (tGS)

7 = saturated evaporation temperature

probe (tEu)

8 = auxiliary defrost probe (Sd2)

9 = auxiliary probe (Saux)

10 = auxiliary probe 2 (Saux2)

0 0 10 -

Tab. 6.s

ON time for duty setting operation(parameter c4)

Duty setting is a special function used to maintain control in emergency

situations with errors in the temperature control probes, until the service

intervention. In the event of a temperature probe error, MPXPRO uses the

other probe available and adjusts the set point according to the setting

of parameter ro. In the event of errors on both probes, MPXPRO switches

to Duty setting mode. The controller is activated at regular intervals,

operating for a time equal to the value set for the duty setting parameter

c4, and oﬀ for a ﬁ xed time of 15 minutes.

Par. Description Def Min Max UoM

c4 ON time for duty setting operation (Toﬀ =

15 minutes ﬁ xed)

0 = compressor/valve always OFF;

100 = compressor/valve always ON

0 0 100 min

Tab. 6.t

c4 15 min

OFF

Fig. 6.j

Key:

R Control t Time

c4 ON time

With Duty setting active, during the ON time the compressor icon

remains on, while it ﬂ ashes during the OFF time.

Important: during duty setting, the compressor protection times

are not observed.

The table below describes the possible fault situations relating to the

control probes and the function that is activated.

Type of system Control probe fault Control Parameter

1 probe

Sm Sr



Duty setting c4



Duty setting c4

2 probes



control on Sr ro(*)



control on Sm ro(*)



Duty setting c4

Tab. 6.u

* ro must be >0.