ELREHA MSR eco 3140, Technical Manual

Page: 8 / 16

Technical Manual Stage Controller MSR eco 3140 Page 8
Assignment Page
(h)
Param Co Ebene Bedeutung Bereich Cf1 Cf2 Cf3 Cf4
h01
........tec ... 3, 2 ........ Function of Relay 1 ..............................
---
= switched off
, on
= continuously, ..........................
alA
..........
l1
...........
l1
............
l1
alA
= Warning/Alarm,
alA
= Warnung/Alarm,
SuA
= Warning Suction Superheat
L1
=SP-Stage 1,
l2
=SP-Stage 2,
L3
=SP-Stage 3,
L4
=SP-Stage 4,
L5
=SP-Stage 5,
l6
=SP-Stage 6,
L7
=SP-Stage 7,
L8
=SP-Stage 8,
K1
=HP-Stage 1,
K2
=HP-Stage 2,
K3
=HP-Stage 3,
K4
=HP-Stage 4
K5
=HP-Stage 5,
K6
=HP-Stage 6,
K7
=HP-Stage 7,
K8
=HP-Stage 8
h02
.......tec ..... 3, 2 ........ Function of Relay 2 (SSR) ...................ditto .................................................................................
L1
...........
---
.......
L2
............
L2
h03
.......tec ..... 3, 2 ........ Function of Relay 3 (SSR) ...................ditto .................................................................................
---
.........
---
.........
---
..........
L3
h04
.......tec ..... 3, 2 ........ Function of Relay 4 ..............................ditto. ................................................................................
---
.........
l2
...........
L3
............
L4
h05
.......tec ..... 3, 2 ........ Function of Relay 5 (SSR) ...................ditto. ................................................................................
---
.........
L3
...........
L4
............
L5
h06
.......tec ..... 3, 2 ........ Fct. of add. module BMR Rel.1 (SSR) ...ditto. ................................................................................
---
.........
---
.........
---
..........
---
h07
.......tec ..... 3, 2 ........ Fct. of add. module BMR Rel.2 (SSR) ...ditto. ................................................................................
---
.........
---
.........
---
..........
---
h08
.......tec ..... 3, 2 ........ Fct. of add. module BMR Rel.3 (SSR) ...ditto. ................................................................................
---
.........
---
.........
---
..........
---
h09
.......tec ..... 3, 2 ........ Fct. of add. module BMR Rel.4 (SSR) ...ditto. ................................................................................
---
.........
---
.........
---
..........
---
h20
.......oem .. 3, 2 ........ Sensor/Probe Type ..............................
201
= TF201,
501
= TF501,
5o1, 5o2
= cust.spec ....
501
.........
501
.........
501
..........
501
h21
.......oem .. 3, 2 ........ Function of Sensor Input 1 ..................
---
= switched off,
d
i
s
= Display Sensor, .................
---
.........
---
.........
---
..........
---
Lco
= Control Sensor SP,
Hco
= Contr. Sensor HP,
.
out
= Outdoor Temp.,
Sut
= Suction Tube Temp.
h22
.......oem .. 3, 2 ........ Function of Sensor Input 2 ..................ditto. ................................................................................
---
.........
---
.........
---
..........
---
h23
.......oem .. 3, 2 ........ Function of Sensor Input 3 ..................ditto. ................................................................................
---
.........
---
.........
---
..........
---
h24
.......oem .. 3, 2 ........ Function of Sensor Input 4 ..................ditto. ................................................................................
---
.........
---
.........
---
..........
---
h25
.......oem .. 3, 2 ........ Funct. of Press. Transm. 1, 4/20mA .....ditto. ................................................................................
Lco
.........
Lco
.......
Lco
..........
Lco
h26
.......oem .. 3, 2 ........ Funct. of Press. Transm. 2, 4/20mA .....ditto. ................................................................................
---
.........
Hco
.......
hco
..........
hco
h31
.......oem .. 3, 2 ........ Function of Digital Input (DI) 1 .............
---
= switched off, .......................................................
---
.........
FbK
.........
fbK
..........
fbK
L(1
= Load Limitation 1,
L(2
= Load Limitation 2,
FbL
= Forced Backrun (passive),
fbK
= Forced Backrun (active),
dnL
= Night Operation (passive),
dnK
= Night Operation (active),
LFL
= external Suction Pressure fault (passive),
LFK
= external Suction Pressure fault (active),
KFL
= external High Pressure fault (passive),
KFK
= external High Pressure fault (active),
r1
= Feedback SP-Motor 1,
r2
= Feedback SP-Motor 2,
r3
= Feedback SP-Motor 3,
r4
= Feedback SP-Motor 4
h32
.......oem .. 3, 2 ........ Function of Digital Input (DI) 2 .............ditto. ........................................................................
---
..........
r1
..........
r1
............
r1
h33
.......oem .. 3, 2 ........ Function of Digital Input (DI) 3 .............ditto. ........................................................................
---
..........
r2
..........
r2
............
r2
h34
.......oem .. 3, 2 ........ Function of Digital Input (DI) 4 .............ditto. ........................................................................
---
..........
r3
..........
r3
............
r3
h40
.......oem .. 3, 2 ........ Analogue Output delivers ....................
420
= Current 4-20mA ,
010
= Voltage 0-10V ...............
010
..........
010
........
010
..........
010
h41
.......oem .. 3, 2 ........ Analogue Output works as/delivers ....
---
= 0V / 4 mA .............................................................
---
..........
KP
..........
KP
............
KP
100
= 100% (10V respective. 20 mA),
LP
i
= PI Controller SP,
KP
= P Controller HP
h49
.......tec ..... 3, 2 ........ CRII Power Contr.used (max.1 motor) . 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............1
h50
.......tec ..... 3, 2 ........ Number of the prioritized motor (SP) . 0=all the same, 1= Motor 1, 2= Motor 2, 3..8=ditto. ...0 ..............0 ...............0 .............1
h51
.......tec ..... 3, 2 ........ Number of stages SP motor 1 ............ 0...8 ...............................................................................1 ..............1 ...............2 .............3
h52
.......tec ..... 3, 2 ........ Number of stages SP motor 2 ............ 0...8 ...............................................................................0 ..............1 ...............1 .............1
h53
.......tec ..... 3, 2 ........ Number of stages 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 ........ Number of stages SP motor 7 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h58
.......tec ..... 3, 2 ........ Number of stages SP motor 8 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h61
.......tec ..... 3, 2 ........ Switching stage 1 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h62
.......tec ..... 3, 2 ........ Switching stage 2 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............1 .............1
h63
.......tec ..... 3, 2 ........ Switching stage 3 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h64
.......tec ..... 3, 2 ........ Switching stage 4 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h65
.......tec ..... 3, 2 ........ Switching stage 5 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h66
.......tec ..... 3, 2 ........ Switching stage 6 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h67
.......tec ..... 3, 2 ........ Switching stage 7 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h68
.......tec ..... 3, 2 ........ Switching stage 8 (SP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h71
.......tec ..... 3, 2 ........ Number of stages HP motor 1 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h72
.......tec ..... 3, 2 ........ Number of stages HP motor 2 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h73
.......tec ..... 3, 2 ........ Number of stages HP motor 3 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h74
.......tec ..... 3, 2 ........ Number of stages HP motor 4 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h75
.......tec ..... 3, 2 ........ Number of stages HP motor 5 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h76
.......tec ..... 3, 2 ........ Number of stages HP motor 6 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h77
.......tec ..... 3, 2 ........ Number of stages HP motor 7 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h78
.......tec ..... 3, 2 ........ Number of stages HP motor 8 ............ 0...8 ...............................................................................0 ..............0 ...............0 .............0
h81
.......tec ..... 3, 2 ........ Switching stage 1 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h82
.......tec ..... 3, 2 ........ Switching stage 2 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h83
.......tec ..... 3, 2 ........ Switching stage 3 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h84
.......tec ..... 3, 2 ........ Switching stage 4 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h85
.......tec ..... 3, 2 ........ Switching stage 5 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h86
.......tec ..... 3, 2 ........ Switching stage 6 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h87
.......tec ..... 3, 2 ........ Switching stage 7 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h88
.......tec ..... 3, 2 ........ Switching stage 8 (HP) inverted ......... 0 = no, 1 = yes .............................................................0 ..............0 ...............0 .............0
h90
........oem .. 3 .............Save Configuration .............................
---
= quit without saving (with RET key) ....................
---
..........
---
........
---
..........
---
(with OEM-Code)
do
= save (with RET key)
h91
........70 ..... 3 .............Load Configuration ( with Code 70 )...
---
= no,
cF1
= Conf. 1,
cF2
= Conf. 2, ......................
---
..........
---
........
---
..........
---
cF3
= Conf. 3,
cF4
= Conf. 4,
cFU
= Config. user
h92
........tec ..... 3, 2 .........Add.-Module BMR 3002 available ..... 0 = no, 1 = yes .............................................................0 ..............0 ............0 ..............0
h93
.......--- ...... 3, 2, 1 .....Lower limit Press. Transm. Input 1 .... -1,0...160,0 bar .............................................................-1,0 bar ...-0,5 bar ..-0,5 bar ...-0,5 bar
h94
.......--- ...... 3, 2, 1 .....Upper limit Press. Transm. Input 1 .... -1,0...160,0 bar .............................................................+9,0 bar ..+7,0 bar .+7,0 bar ..+7,0 bar
h95
.......--- ...... 3, 2, 1 .....Lower limit Press. Transm. Input 2 .... -1,0...160,0 bar .............................................................-1,0 bar ...0 bar ......0 bar........0 bar
h96
.......--- ...... 3, 2, 1 .....Upper limit Press. Transm. Input 2 .... -1,0...160,0 bar .............................................................+9,0 bar ..25,0 bar .25,0 bar ..25,0 bar
h99
.......--- ...... 3, 2, 1 .....Used Refrigerant ................................ - - - = none, control by temperature sensor only.........2 ..............2 ............2 ..............2
1= NH3, 2= R134a, 3= R22, 4= R23, 5= R404a,
6= R507, 7= R402A, 8= R402B, 9= R407C,
10= R123, 11= R290, 12= CO2, 13= R502,
14= R723, 15= R410A, 16= R407F, 17= R448A,
18= R449A, 19=R1270
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