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ELREHA MSR eco 3140, Technical Manual

The ELREHA MSR eco 3140 is a cutting-edge product designed for efficiency and sustainability. Ensure optimal performance by downloading the free Technical Manual from manualshive.com. This comprehensive manual provides detailed instructions for proper use and maintenance, guaranteeing maximum productivity and longevity for your equipment.

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Technical Manual Stage Controller MSR 

eco

 3140

Page  5

Hinweis

Parameters marked by "

nA

" are for information only 

and cannot be changed.

"

Co

" is the password/code for this parameter.

The 3 code numbers are:

-  OEM-Code (

oem

) : Month + Hour + 20

-   Technician Code (

tec

) : 88

-   Customer Code (

---

): without code

Address Page 

(A)

Param SubPar.   Co  Level  Note 

Range 

Cf1 

Cf2 

Cf3 

Cf4

A00

  

 .................tec .....3, 2  ........Address of the 1st. connected controller 

   

d01

  ..........tec .....3, 2 .........Type of the connected controller .......................- - - = no controller .....- - -   ..........- - -  .......... - - - ............... - - -

   

     

 

connected

   

     

 

E30 = EVP 1130 

   

     

 

E40 = EVP 1140 

   

     

 

E50 = EVP 3150 

   

     

 

E60 = EVP 3160 

   

     

 

E67 = EVP 3167 

   

     

 

E68 = EVP 3168 

   

     

 

E70 = EVP 3170 

   

     

 

t30 = TKP 3130 

   

     

 

t40 = TKP 3140 

   

     

 

t50 = TKP 3150

   

d02

  ..........tec .....3, 2 ..........The connected controller acts on the  .............. 0 = no effect...............0 ................ 0................. 0 ...................0

   

     

 

 

suction pressure shifting with: 

1=limit.temperature 

   

     

 

 

2=limit.temperature 

   

     

 

 

+ opening percentage

   

d03

  ..........tec .....3, 2 .........Suction Pressure Shift - Temperature Offset ..... 0...20 K ......................1.0 K ......... 1.0 K .......... 1.0 K ............1.0 K

A01

 .........  .................tec .....3, 2 ..........Address of the 2nd connected controller

   

d01

  ..........tec .....3, 2 ..........Type of the connected controller ....................... see above

   

d02

  ..........tec .....3, 2 ..........The connected controller acts on the 

   

     

 

 

suction pressure shifting  ................................... see above

   

d03

  ..........tec .....3, 2 ..........Suction Pressure Shift - Temperature Offset .... see above

up to

A63

 .......... ................tec .....3, 2 .........Address of the 64th connected controller

   

d01

  ..........tec .....3, 2 .........Type of the connected controller ....................... see above

   

d02

  ..........tec .....3, 2 .........The connected controller acts on the 

   

     

 

 

suction pressure shifting  ................................... see above

   

d03

  ..........tec .....3, 2 .........Suction Pressure Shift - Temperature Offset .... see above 

Mode Page 

(P)

Param Co   Level   Note 

Range 

Cf1 

Cf2 

Cf3 

Cf4

P10

  .......oem ...3, 2 ........ Warn threshold minimal superheat .......................................1,0...25,0 K ................5,0 K .........5,0 K ........... 5,0 K ...........5,0 K

P11

  .......oem ...3, 2 ........ Warn hysteresis superheat ....................................................1,0...25,0 K ................1,0 K .........1,0 K ........... 1,0 K ...........1,0 K

P12

  .......oem ...3, 2 ........ Warn delay superheat ............................................................0...900 sec. ................5 Sek. .......5 Sek........... 5 Sek ..........5 Sek

P13

  .......oem ...3, 2 ........ Superheat warning locks cold storage controllers ................0 = no, 1 = yes ...........1 ...............1 .................. 1 ..................1

P14

  .......oem ...3, 2 ........ Compound lock threshold minimal superheat  .....................0,0...25,0 K ................0,0 K .........0,0 K ........... 0,0 K ...........0,0 K

   

 

   

 

(0,0 K = switched off)

P15

  .......oem ...3, 2 ........ Compound lock delay minimal superheat .............................5...900 sec. ................5 sec. ........5 sec ........... 5 sec ...........5 sec

P20

  .......oem ...3, 2 ........ Sending date and time to connected cold storage   .............on, oFF  ......................oFF ...........oFF ............. oFF .............oFF

                     

controllers

P21

  .......tec ......3, 2, 1 .... Night Operation Mode ON at .................................................0...23.5(0), oFF ..........oFF ...........oFF ............. oFF .............oFF

P22

  .......tec ......3, 2, 1 .... Night Operation Mode OFF at ...............................................0...23.5(0), oFF ..........oFF ...........oFF ............. oFF .............oFF

P31

  .......oem ...3, 2 ........ Calibration of sensor input 1 ..................................................±10.0 K adjustable .....0.0 K .........0.0 K ........... 0.0 K ...........0.0 K

P32

  .......oem ...3, 2 ........ Calibration of sensor input 2 ..................................................±10.0 K adjustable  ....0.0 K .........0.0 K ........... 0.0 K ...........0.0 K

P33

  .......oem ...3, 2 ........ Calibration of sensor input 3 ..................................................±10.0 K adjustable  ....0.0 K .........0.0 K ........... 0.0 K ...........0.0 K

P34

  .......oem ...3, 2 ........ Calibration of sensor input 4 ..................................................±10.0 K adjustable  ....0.0 K .........0.0 K ........... 0.0 K ...........0.0 K

P35

  .......oem ...3, 2 ........ Calibration of sensor input 5 ..................................................±10.0 K adjustable  ....0.0 K .........0.0 K ........... 0.0 K ...........0.0 K

P36

  .......oem ...3, 2 ........ Calibration of sensor input 6 ..................................................±10.0 K adjustable  ....0.0 K .........0.0 K ........... 0.0 K ...........0.0 K

P69

  .......X ........3, 2 ........ Summertime State .................................................................0 = winter,  .................-- ...............-- .................. -- .................--

   

 

   

 

1 = summer

P70

  .......tec ......3, 2 ........ Mode of summer/winter switch ..............................................

oFF 

= off,  ..................

EU

 .............

oFF

 ..............

oFF

 ..............

oFF

   

 

   

 

EU 

= on, 

   

 

   

 

tVn 

= variabel

P71

 ........tec ......3, 2 ........ Time Zone Offset .................................................................. -720...720 min. ...........60 min. .....60 min. ........ 60 min. ........60 min.

P72

 ........tec ......3, 2 ........ SummerON Month  ........................... (only for 

tVn

)  ............ 1...12 ...........................3 ...............3 .................. 3 ..................3

P73

 ........tec ......3, 2 ........ SummerON Day ............................... (only for 

tVn

)  ............ 0(Sunday)...6  .............0 ...............0 .................. 0 ..................0

P74

 ........tec ......3, 2 ........ SummerON x-Day ............................ (only for 

tVn

)  ............ 0...5(last), 0=off ..........5 ...............5 .................. 5 ..................5

P75

 ........tec ......3, 2 ........ SummerON Hour .............................. (only for 

tVn

)  ............ 0...23 ...........................2 ...............2 .................. 2 ..................2

P76

 ........tec ......3, 2 ........ SummerOFF Month .......................... (only for 

tVn

)  ............ 1...12 ...........................10 .............10 ................ 10 ..............10

P77

 ........tec ......3, 2 ........ SummerOFF Day ............................. (only for 

tVn

)  ............ 0(Sunday)...6 ..............0 ...............0 .................. 0 ..................0

P78

 ........tec ......3, 2 ........ SummerOFF x-Day .......................... (only for 

tVn

)  ............ 0...5(last), 0=off ..........5 ...............5 .................. 5 ..................5

P79

 ........tec ......3, 2 ........ SummerOFF Hour ............................ (only for 

tVn

)  ............ 0...23 ...........................3 ...............3 .................. 3 ..................3

P80, P81

  ...........3, 2, 1 .... Year, Month ........................................................................... adjustable 

P82, P83

  ...........3, 2, 1 .... Day, Hour  ............................................................................. adjustable

P84, P85

  ...........3, 2, 1 .... Minute, Secund ..................................................................... adjustable

P86

 ...................3, 2, 1 .... Software version BMR

P87

 ...................3, 2, 1 .... Software version

P89

 ........oem ...3, 2 ........ Data transmission speed (baudrate) .................................... 12(00)...115(00) ..........96(00) .......96(00) ......... 96(00) .........96(00)

P90

 ........oem ...3, 2 ........ Address of the MSR eco unit in a network .............................0 - 78 .........................78 .............78 ................ 78 ................78

P99

 ...................3, 2, 1 .... Operating Level / Access authorization ..................................88: Level 2  ...............0 ...............0 .................. 0 ..................0

   

 

   

 

70: Level 3

Summary of Contents for MSR eco 3140

Page 1: ...n the Actual Values Page at L98 and L99 Programming The MSR eco parameters are simple to access view and change During normal operation or if no key is pressed for at least 3 minutes the MSR eco will...

Page 2: ...current typ 1mA 4 20 mA max shunt resistance 500 ohms Display Parameter Ranges see parameter pages Data Interfaces 3x RS 485 Data Storage unlimited Real Time Clock automatic summer winter switch 10 d...

Page 3: ...pecific sensor So1 40 25 C customer specific sensor So2 50 50 C The type of sensor can be set by h20 Assignment Page Pressure Transmitter Pressure Transmitters with 4 20mA output can be used They must...

Page 4: ...SP 0 8 stages L43 X 3 2 1 Number of running stages of motor 3 SP 0 8 stages L44 X 3 2 1 Number of running stages of motor 4 SP 0 8 stages L45 X 3 2 1 Number of running stages of motor 5 SP 0 8 stages...

Page 5: ...nimal superheat 0 0 25 0 K 0 0 K 0 0 K 0 0 K 0 0 K 0 0 K switched off P15 oem 3 2 Compound lock delay minimal superheat 5 900 sec 5 sec 5 sec 5 sec 5 sec P20 oem 3 2 Sending date and time to connected...

Page 6: ...0 sec 1 sec 1 sec 1 sec 1 sec r29 oem 3 2 VBR Forerun Backrun Range Time max 1 900 sec 20 sec 20 sec 20 sec 20 sec r41 3 2 1 Forerun Delay Time stage 1 the first turn on stage 0 900 sec 10 sec 10 sec...

Page 7: ...sec 0 sec 0 sec 0 sec d51 tec 3 2 Backrun Delay Time Stage 1 the last off stage 0 900 sec 10 sec 0 sec 0 sec 0 sec d52 tec 3 2 Backrun Delay Time Stage 2 0 900 sec 10 sec 0 sec 0 sec 0 sec d53 tec 3...

Page 8: ...tages SP motor 3 0 8 0 1 1 1 h54 tec 3 2 Number of stages SP motor 4 0 8 0 0 0 0 h55 tec 3 2 Number of stages SP motor 5 0 8 0 0 0 0 h56 tec 3 2 Number of stages SP motor 6 0 8 0 0 0 0 h57 tec 3 2 Num...

Page 9: ...ng S2 Relais K2 1 2 4 3 5 Relais K1 Digital eingang DI 1 6 10 7 9 8 Relais K3 Relais K4 Digital eingang DI 2 20 23 24 21 22 19 16 17 18 DO NDO GND Netz werk 13 14 relay K1 N 1 2 3 L 4 5 6 7 8 9 1 24 2...

Page 10: ...cted to the device Wire should be 0 5mm at a minimum Mounting the device in close proximity to power relays is NOT recommended Strong electro magnetic interference may cause the device to malfunction...

Page 11: ...trol method can be activated by the pa rameter h49 With this method only one of the compressors can be controlled Characteristicforthiscompressortypeisthefactthat the first stage generates no refriger...

Page 12: ...ctivated if the suction pressure goes beyond the hysteresis range Above and below the hysteresis range are definable areas VBR Forerun Range r41 respective VBR Backrun Range r42 If the suction pressur...

Page 13: ...01 h09 Any of these relays can also be switched on manually The relay output is switched OFF on The relay output is switched ON manually permanent alA Warning Alarm SuA Warning Suction Overheat L1 The...

Page 14: ...bus which enables up to 78 controllers to communicate For communication the E LINK transmission protocol is used Each controller in a network has its individual address P90 Mode Page Never use address...

Page 15: ...valve 1 3 St 4 CRII valve 1 2 St 3 Motor 1 CR St 1 CRII valve 1 1 St 2 1 0 1 1 1 4 0 0 0 1 Conv Compressor 20 2x1 stages Alarm Motor 1 Stage1 Motor 2 Stage 2 0 0 0 0 0 1 1 0 0 0 21 3x1 stages Alarm M...

Page 16: ...11 2016 A1 2017 EN 61010 1 2010 EN 61326 1 2013 CE marking of year 2018 This statement is made for the manufacturer importer by ELREHA Elektronische Regelungen GmbH Werner Roemer Technical Director D...

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