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Carel EVD Evolution Twin, User Manual

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Carel EVD Evolution Twin User Manual Download Page 21

ENG

“EVD Evolution TWIN” +0300006EN - rel. 2.6 - 31.01.2019

21

Key:

CP1, CP2

compressor 1.2

C1, C2

condenser 1, 2

L1, L2

liquid receiver 1, 2

F1, F2

dewatering filter 1, 2

S1, S2

liquid indicator 1, 2

EEVA, EEVB

electronic expansion valve A,B

V1, V2

solenoid valve 1, 2

E1, E2

evaporator 1, 2

PA, PB

pressure probe

TA,TB

temperature probe

For the wiring, see paragraph “General connection diagram”.

Another application involves superheat control of two evaporators in the 
same circuit.

E2

E1

V

M

S

F

L

CP

EEVA

C

EEVB

S2

S1

EVD evolution

twin

S3

S4

PA TA

PB TB

Fig. 5.b

Key:

CP

compressor

C

condenser

L

liquid receiver

F

dewatering filter

S

liquid indicator

EEVA, 

electronic expansion valve A

EEVB

electronic expansion valve B

E1, E2

evaporator 1, 2

PA, PB

pressure probe driver A, B

TA,TB

temperature probe driver A, B

V

solenoid valve

For the wiring, see paragraph “General connection diagram”.

 Nota: 

 in this example only one electronic pressure transducer 

with 4 to 20 mA output (SPK**0000) can be used, shared between 
driver A and B. 
Ratiometric transducers cannot be shared.

Another possibility involves connecting two equal valves (operation in 
parallel mode, see paragraph 2.5) to the same evaporator. This is useful in 
reverse-cycle chiller/heat pump applications, to improve distribution of the 
refrigerant in the outdoor coil.
 

 

S2

S1

EVD evolution

twin

S1

F1

L1

CP1

C1

S3

S4

A

E2

E1

V1

M

EEVA_1

EEVA_2

PA TA

S2

F2

L2

CP2

C2

B

E4

E3

V2

M

EEVB_1

EEVB_2

PB TB

Fig. 5.c

Key:

CP1,2

compressor 1, 2

C1,C2

condenser 1, 2

E1, E2, E3, E4

evaporator 1, 2, 3, 4

F1, F2

dewatering filter 1, 2

S1, S2

liquid indicator 1, 2

EEVA_1, 
EEVA_2

electronic expansion valves driver A

EEVB_1, 
EEVB_2

electronic expansion valves driver B

TA, TB

temperature probe 

L1, L2

liquid receiver

 1, 2

V1, V2

solenoid valve 1, 2

For the wiring, see paragraph “General connection diagram”.

P

I

D

 parameters 

Superheat control, as for any other mode that can be selected with the “main 
control” parameter, is performed using PID control, which in its simplest form 
is defined by the law:

u(t)= K  e(t) + 

1

  

œ

e(t)dt + T

d

  

de(t)

dt

T

i

Key:

u(t) Valve position

Ti

Integral time

e(t) Error

Td

Derivative time

K

Proportional gain

Summary of Contents for EVD Evolution Twin

Page 1: ...OWER SIGNAL CABLES TOGETHER READ CAREFULLY IN THE TEXT I n t e g r a t e d C o n t r o l S o l u t i o n s E n e r g y S a v i n g s User manual Driver for 2 electronic expansion valves EVD evolution...

Page 2: ......

Page 3: ...he internal circuits and mechanisms may be irreparably damaged do not use corrosive chemicals solvents or aggressive detergents to clean the device do not use the product for applications other than t...

Page 4: ......

Page 5: ...6 Programmable control 26 5 7 Control with refrigerant level sensor 28 6 FUNCTIONS 29 6 1 Power supply mode 29 6 2 Battery charge delay 29 6 3 Network connection 29 6 4 Inputs and outputs 29 6 5 Cont...

Page 6: ......

Page 7: ...he serial port see paragraph 2 9 in place of the service serial port The universal models can drive all types of valves while the CAREL models only drive CAREL valves 1 1 Models Code Description EVD00...

Page 8: ...bcooling measurement high condensing temperature protection HiTcond modulating thermostat subcooling measurement reverse high condensing temperature protection possibility to manage CO2 R744 cascade s...

Page 9: ...N A CLOSE A OPEN B CLOSE B A B COMB NOB 1 3 2 4 A shield TRADRFE240 4 1 2 3 8 9 10 11 12 6 13 14 7 15 16 5 S B 17 18 CAREL EX V VALVE B CAREL EX V VALVE A EVD evolution twin Fig 2 c Key 1 green 2 yell...

Page 10: ...lation environment Important avoid installing the controller in environments with the following characteristics relative humidity greater than the 90 or condensing strong vibrations or knocks exposure...

Page 11: ...he twin 1 controller and the remote option for the other drivers Driver B on the twin3 controller must use another pressure probe P2 Example twin1 twin2 twin3 Probe S1 driver A 0 5 to 7 barg P1 remote...

Page 12: ...EVD evolution twin can be connected to the computer updating the firmware at the same time each controller must have a different network address 2 10 Upload Download and Reset parameters display Proc...

Page 13: ...DI2 VREF Tx Rx GND GND DI1 S4 S3 S2 S1 GND DI2 VREF 1 20 Tx Rx DI1 S4 S3 S2 S1 GND DI2 VREF L 2 Fig 2 o Key 1 green 21 black 2 yellow 22 blue 3 brown 23 computer for configuration supervision 4 white...

Page 14: ...programming operations on the controller 3 2 Display and keypad The graphic display shows two variables for each driver A B the control status of the driver activation of the protectors any alarms an...

Page 15: ...st figure and confirming each figure with ENTER 4 if the value entered is correct the first modifiable parameter is displayed network address 5 press UP DOWN to select the parameter to be set 6 press...

Page 16: ...dby until re enabled with the valve stopped in the last position pCO PROGRAMMABLE CONTROLLER the first operation to be performed if necessary is to set the network address using the display Important...

Page 17: ...arameter in question if the valve and or the pressure probe used are not available in the list select any model and end the procedure Then the controller will be enabled for control and it will be pos...

Page 18: ...the same type A ratiometric probe and an electronic probe cannot be used together Note in the case of multiplexed systems where the same pressure probe is shared between the twin1 and twin2 controller...

Page 19: ...commissioning After commissioning check that the valves complete a full closing cycle to perform alignment set if necessary in Service or Manufacturer programming mode the superheat set point otherwis...

Page 20: ...ver The first 10 settings refer to superheat control the others are so called special settings and are pressure or temperature settings or depend on a control signal from an external controller The la...

Page 21: ...0 can be used shared between driver A and B Ratiometric transducers cannot be shared Another possibility involves connecting two equal valves operation in parallel mode see paragraph 2 5 to the same e...

Page 22: ...d by the user and involves just one optimisation procedure Both procedures give new values to the PID superheat control and protection function parameters PID proportional gain PID integral time PID d...

Page 23: ...ing Digital Scroll compressors allow wide modulation of cooling capacity by using a solenoid valve to active a patented refrigerant bypass mechanism This operation nonetheless causes swings in the pre...

Page 24: ...temperature This control function can be used to control cooling capacity which in the following example is performed by driver B On a refrigerated cabinet if the ambient temperature probe S4 measures...

Page 25: ...V1 Solenoid valve For the wiring see paragraph General connection diagram This involves PID control without any protectors LowSH LOP MOP see the chapter on Protectors without any valve unblock proced...

Page 26: ...and receives the information needed to manage the valves from the pCO Parameter Description Def CONFIGURATION Main control I O expander for pCO multiplexed showcase cold room Tab 5 l TA PA S1 EVD evo...

Page 27: ...mmable control input The function assigned to each input is defined by parameter Programmable control input The parameter has 16 bits and is divided into 4 digits as described in Programmable control...

Page 28: ...ent function f1 S1 f2 S2 f3 S3 f4 S4 Programmable control input_1 4100 Measurement Tdew S1 S2 Programmable control options_1 2140 1 S1 Evaporation pressure 2 S2 Suction temperature 3 S3 Condensing pre...

Page 29: ...d S4 as well as the possibility to calibrate the pressure and temperature signals As regards the choice of pressure liquid probe S1 and S3 see the chapter on Commissioning Inputs S2 S4 The options are...

Page 30: ...EC PRIM SEC 1 PRIM PRIM DI1 DI2 2 PRIM SEC DI1 DI2 DI1 3 SEC PRIM DI2 DI2 DI1 4 SEC SEC Regulation backup driver A supervisor variable DI1 Regulation backup driver B supervisor variable DI2 Note that...

Page 31: ...when the compressor stops or the control solenoid valve closes The valve is closed or open according to the setting of Valve open in standby The percentage of opening is set using Valve position in s...

Page 32: ...dby T1 Pre position time P Pre positioning T2 Start delay after defrost R Control t Time Positioning change cooling capacity This control status is only valid for the pLAN controller If there is a cha...

Page 33: ...closed or fully open position the valve may physically not be in that position The Synchronisation procedure allows the driver to perform a certain number of steps in the suitable direction to realig...

Page 34: ...on of the protector LowSH low superheat The protector is activated so as to prevent the return of liquid to the compressor due to excessively low superheat values Parameter description Def Min Max UOM...

Page 35: ...e trying to stop the superheat from increasing as much as possible Normal operating conditions will not resume based on the activation of the protector but rather on the reduction in the refrigerant c...

Page 36: ...17 Danfoss ETS 250 5 Alco EX7 18 Danfoss ETS 400 6 Alco EX8 330Hz recommend CAREL 19 Two EX V CAREL connected together 7 Alco EX8 500Hz specific Alco 20 Sporlan SER I G J K 8 Sporlan SEI 0 5 11 21 Da...

Page 37: ...24 Programmable positioner 25 Evaporator liquid level regulation with CAREL sensor 26 Condenser liquid level regulation with CAREL sensor only for controls for CAREL valves common parameter between d...

Page 38: ...city 4 Set point control 5 Superheat 6 Suction temperature 7 Evaporation temperature 8 Evaporation pressure 9 Condensing temperature 10 Condensing pressure 11 Modulating thermostat temperature 12 EPR...

Page 39: ...e S1 MINIMUM alarm value 200 2900 barg psig A 37 36 CO C S2 calibration offset 0 20 36 20 20 36 20 C F volt A 41 40 CO C S2 calibration gain 0 to 10 V 1 20 20 A 43 42 CO C Temperature S2 MINIMUM alarm...

Page 40: ...A HiTcond threshold SELECT WITH PROG CONT 80 85 121 200 392 C F A 58 57 C HiTcond integral time SELECT WITH PROG CONT 20 0 800 s A 57 56 A Modulating thermostat set point SELECT WITH PROG CONT 0 85 12...

Page 41: ...57 32768 32767 I 129 256 Bubble f low 17253 32768 32767 I 130 257 C Faulty closure alarm status 0 1 no yes 0 0 1 D 49 48 C Battery charge delay 0 0 250 min I 135 262 CO ALARM CONFIGURATION C Low super...

Page 42: ...s ETS 250 5 Alco EX7 18 Danfoss ETS 400 6 Alco EX8 330Hz recommend CAREL 19 Two EX V CAREL connected together 7 Alco EX8 500Hz specific Alco 20 Sporlan SER I G J K 8 Sporlan SEI 0 5 11 21 Danfoss CCM...

Page 43: ...rammable positioner 25 Evaporator liquid level regulation with CAREL sensor 26 Condenser liquid level regulation with CAREL sensor control only settable on driver A however corresponds to the entire c...

Page 44: ...acity 4 Set point control 5 Superheat 6 Suction temperature 7 Evaporation temperature 8 Evaporation pressure 9 Condensing temperature 10 Condensing pressure 11 Modulating thermostat temperature 12 EPR...

Page 45: ...ssure S1 MINIMUM alarm value 200 2900 barg psig A 37 36 CO C S2 calibration offset 0 20 36 20 20 36 20 C F volt A 41 40 CO C S2 calibration gain 0 to 10 V 1 20 20 A 43 42 CO C Temperature S2 MINIMUM a...

Page 46: ...ROG CONT 80 85 121 200 392 C F A 58 57 CO C HiTcond integral time SELECT WITH PROG CONT 20 0 800 s A 57 56 CO A Modulating thermostat set point SELECT WITH PROG CONT 0 85 121 200 392 C F A 61 60 CO A...

Page 47: ...suction temperature alarm threshold 50 85 121 200 392 C F A 97 96 C Low suction temperature alarm delay 0 alarm disabled 300 0 18000 s I 65 192 VALVE C EEV minimum steps 50 0 9999 step I 66 193 C EEV...

Page 48: ...A 111 110 R Liquid regulation evaporator condenser level percentage 0 0 100 A 116 115 R Valve position 0 0 9999 I 4 131 R Current unit cooling capacity 0 0 100 I 7 134 R W Adaptive control status 0 1...

Page 49: ...cooling capacity 0 0 100 I 50 177 R W EVD status 0 0 20 I 51 178 R Protector status 0 0 5 I 52 179 R Control mode 1 1 26 I 73 200 R W Adaptive control status 0 0 6 I 77 204 R Last tuning result 0 0 8...

Page 50: ...ration pressure Condensing temperature Condensing pressure Modulating thermostat temperature EPR pressure back pressure Hot gas bypass pressure Hot gas bypass temperature CO2 gas cooler outlet tempera...

Page 51: ...to the corresponding driver 3 press Help to display the required alarm queue the control alarms can be disabled by setting the corresponding delay to zero Table of alarms Type of alarm Cause of the al...

Page 52: ...S3 alarm manage ment parameters Check the probe connections Check the parameters Probe S1 S3 alarm management and Pressure S1 S3 MINIMUM and MAXIMUM alarm values Temperature difference Maximum pressu...

Page 53: ...rced to the initial position control stopped Parameter description Def Min Max UOM CONFIGURATION Probe S1 alarm management 1 No action 2 Forced valve closing 3 Valve in fixed position 4 Use backup pro...

Page 54: ...ng powered up the controller forced closing of the valve is performed immediately Important after having resolved the problem with the motor it is recommended to switch the controller off and on again...

Page 55: ...percussions on the control temperature Liquid returns to the com pressor only after defrosting for multiplexed showcases only The pause in control after defrosting is too short for MasterCase MasterCa...

Page 56: ...culation in reference to the ratio between the rated cooling capacity of the evaporator and the capacity of the valve if necessary lower the value The unit switches off due to low pressure during cont...

Page 57: ...n 0 1 fs measurement error 2 fs maximum 1 typical electronic pressure probe 4 to 20 mA resolution 0 5 fs measurement error 8 fs maximum 7 typical remote electronic pressure probe 4 to 20mA Maximum num...

Page 58: ...12 a Then the user can choose to 1 directly access the list of parameters for the EVD evolution twin saved to EEPROM select tLAN This is done in real time ONLINE mode at the top right set the network...

Page 59: ...code Different firmware versions may cause compatibility problems 12 4 Setting the default parameters When the program opens select the model from the range and load the associated list of parameters...

Page 60: ...aporation pressure probe S1 and the suction temperature probe S2 which will be fitted after the evaporator and digital input 1 2 to enable control As an alternative to digital input 1 2 control can be...

Page 61: ...o 20 mA probe and then manually modify the minimum and maximum measurement in the manufacturer parameters corresponding to the probes Important probes S3 and S4 are shown as NOT USED if the auxiliary...

Page 62: ...elow This type of control must be used with care due to the lower precision of the temperature probe compared to the probe that measures the saturated evaporation pressure Parameter Description Def CO...

Page 63: ...ctor but rather on the reduction in the outside temperature The system will therefore remain in the best operating conditions a little below the threshold until the environmental conditions change t t...

Page 64: ...d temperature probe S4 will be used to replace probes S1 and S2 respectively in the event of faults on one or both so as to guarantee a high level of reliability of the controlled unit S2 S4 S3 S1 EVD...

Page 65: ...alve The ratio between the integral times of these two concurrent yet opposing protectors determines how effective one is compared to the other Reverse HiTcond for CO2 cascade systems Reverse high con...

Page 66: ...ENG EVD Evolution TWIN 0300006EN rel 2 6 31 01 2019 66 Note...

Page 67: ......

Page 68: ...L INDUSTRIES HQs Via dell Industria 11 35020 Brugine Padova Italy Tel 39 049 9716611 Fax 39 049 9716600 e mail carel carel com www carel com Agenzia Agency EVD Evolution TWIN 0300006EN rel 2 6 31 01 2...

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