Vector TCI-W13-U-H, Быстрый старт

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Universal controller TCI-W13-U-H/TCI-W23-U-H Universal controller TCI-W13-U-H/TCI-W23-U-H Universal controller TCI-W13-U-H/TCI-W23-U-H
Doc: 70-00-0384A V1.0 20160523 © Vector Controls GmbH, Switzerland Subject to alterations
Control parameters (password 241)
Warning! Only experts should change these settings! The parameters are grouped according to
control modules. After completing the logging in, a control module must be selected before
accessing the parameters.
Module Description
UI Input configuration: 1T, 1H, 1U, 2T
LP Control loops Lp1, Lp2
AO Analog output configuration, AO1, AO2
DO Binary output configuration, do1
FU Special functions
Internal input configuration (TI1)
Parameter Description Range Standard
1t 00
Enable internal sensor
ON, OFF OFF
1t 01
Display minimum value
-
50…205
0
1t 02
Display maximum value
-
50…205
100
1t 03
Sensor sampling rate(control speed decrease as rate
increases)
0…100
10
1t 04 Sensor calibration -
10.0…10.0
0
1t 05 Alarm 1 low limit (1T), alarm 3 low limit (1H) OFF, ON OFF
1t 06 Alarm 1/3 low limit values -
50…205 °C
5°C (41°F)
1t 07 Alarm 2high limit (1T), alarm 4high limit (1H) OFF, ON OFF
1t 08 Alarm 2/4 high limit values -
50…205 °C
50°C (122°F)
1t 09 Hysteresis alarm 1, 2, 3, 4
0…100 °C
5°C (10°F)
1t 10 Calculate a range of inputs (0= not active):
1= average, 2= minimum, 3= maximum
0...3 0
Internal input configuration (HI1)
Parameter Description Range Standard
1H00
Enable internal sensor
ON, OFF ON
1H01
Display minimum value
-
50…205
0
1H02
Display maximum value
-
50…205
100
1H03 Sensor sampling rate(control speed decrease as rate
increases)
0…100
10
1H04 Sensor calibration -
10.0…10.0
0
1H05 Alarm 1 low limit (1T), alarm 3 low limit (1H) OFF, ON OFF
1H06 Alarm 1/3 low limit values
0…100%
5%
1H07 Alarm 2high limit (1T), alarm 4high limit (1H) OFF, ON OFF
1H08 Alarm 2/4 high limit values
0…100%
95%
1H09 Hysteresis alarm 1, 2, 3, 4
0…100%
5%
1H10 Calculate a range of inputs (0= not active):
1= average, 2= minimum, 3= maximum
0...3 0
External input configuration (UI1, TI2)
Parameter Description Range Standard
1u 00 2t 00 Signal type (0= not active):
1= 0...10V or 0...20mA or open contact, 2= 2...10 V or
4…20 mA, 3= NTC temperature sensor
0...3 0
1u 01 2t 01
Display minimum value
-
50…205
0
1u 02 2t 02
Display maximum value
-
50…205
100
1u 03 2t 03 Analog input display range:
0= x0.1, 1= x1, 2= x10, 3 = x100
0...2 1
1u 04 2t 04 Analog input unit of measure:
0= no unit, 1= %, 2= °C /°F, 3= Pa
0...3 2
1u 05 2t 05 Sensor sampling rate
(control speed decrease as rate increases)
0…100
10
1u 06 2t 06 Sensor calibration Range dep 0
1u 07 2t 07 Alarm 5 low limit (1u), alarm 7 low limit (2t) OFF, ON OFF
1u 08 2t 08 Alarm 5 low limit value (1u), alarm 7 low limit value (2t) -
50…205 °C
5°C (41°F)
1u 09 2t 09 Alarm 6 high limit (1u), alarm 8 high limit (2t) OFF, ON OFF
1u 10 2t 10 Alarm 6 high limit value 1u), alarm 8 high limit value (2t) -
50…205 °C 50°C (122°F)
1u 11 2t 11 Hysteresis alarm 5 and 6 (1u), alarms 7 and 8 (2t)
0…100 °C
5°C (10°F)
1u 12 2t 12 Calculate a range of inputs (0=not active):
1= average, 2= minimum, 3= maximum, 4= differential
0...4 0
LP: Control parameters (1L)
Parameter Description Range Standard
1L 00
Select loop control input (0= loop disabled):
1= 1T, 2= 1H, 3= 1U, 4= 2T
0...4 2
1L 01 Minimum set point limit heating per input 10%
1L 02 Maximum set point limit heating per input 90%
1L 03 Minimum set point limit cooling per input 10%
1L 04 Maximum set point limit cooling per input 90%
1L 05
Enable set point compensation (0= disabled)
1= winter compensation, 2= summer compensation, 3= winter
and summer
0...3 0
1L 06
Loop input special (0= normal):
1= combine loop 1 and loop 2
2= cascade with reverse sequence of primary loop
3= cascade with direct sequence primary loop
4= cascade with both reverse and direct sequence of
primary loop
0...4 0
1L 07
Economy mode set point shift: (Function depends on 1L25)
The comfort (occupied) set point is shifted by the value set with
parameter. Reduces the heating set point and increases the
cooling set point.
per input 10%
1L 08
Dead zone between heating and cooling set points
The dead zone span lies between the heating and the cooling set
point. The output is off while the measured value is within the
dead zone span. A negative dead zone is not possible.
per input 5%
1L 09 Offset for heating PI sequence per input 0
1L 10 Offset for cooling PI sequence per input 0
1L 11 P-band heating per input 10%
1L 12 P-band cooling per input 10%
1L 13
Integral gain heating (0.1 steps)
low= slow reaction, high= fast reaction
0...25.5 0.0
1L 14 Integral gain cooling (0.1 steps) 0...25.5 0.0
1L 15
Measuring interval integral (seconds)
low= fast reaction, high value= slow reaction
0...255 1
1L 16
Action of stages:
0= cumulative: stage 1 stays on when 2 on comes on
1= single: stage 1 turns off when 2 on comes on
2= digital: stage 1 only, stage 2 only, then stage 1 plus 2
0...2 0
1L 17 Offset for heating/reverse binary sequences per input 0%
1L 18 Offset for cooling/direct binary sequences per input 0%
1L 19 Switching span heating per input 10%
1L 20 Switching span cooling per input 10%
1L 21 Switching hysteresis per input 5%
1L 22 Switching delay 0...255s 30s
1L 23
Activation of reverse/direct (heat/cool) sequence
OFF= activates based on demand
ON = follows heat/cool state of controller
ON/OFF OFF
1L 24 Delay for heat /cool changeover when L23=OFF 0...255 min 5 min
1L 25
Fixed set point in standby mode
OFF = Standby set point shift applies
ON = In standby mode use minimum set point limit as set point in
heating mode or maximum set point limit in cooling mode
ON, OFF OFF
1L 26
Set point compensation range, the maximum range the set point
is shifted.
0 = Temperature setback: the set point is shifted towards set point
limit
Acc input 0.0 °C
LP: Control parameters (2L)
Parameter Description Range Standard
2L 00
Select loop control input (0= loop disabled):
1= 1T, 2= 1H, 3= 1U, 4= 2T
0...4 0
2L 01 Minimum set point limit heating per input 10°C(50°F)
2L 02 Maximum set point limit heating per input 28°C(82°F)
2L 03 Minimum set point limit cooling per input 18°C(64°F)
2L 04 Maximum set point limit cooling per input 34°C(93°F)
2L 05
Enable set point compensation (0= disabled)
1= winter compensation, 2= summer compensation, 3= winter
and summer
0...3 0
2L 06
Loop input special (0= normal):
1= combine loop 1 and loop 2
2= cascade with reverse sequence of primary loop
3= cascade with direct sequence primary loop
4= cascade with both reverse and direct sequence of
primary loop
0...4 0
2L 07
Economy mode set point shift: (Function depends on 2L25)
The comfort (occupied) set point is shifted by the value set with
parameter. Reduces the heating set point and increases the
cooling set point.
per input 5.0°C(10°F)
2L 08
Dead zone between heating and cooling set points
The dead zone span lies between the heating and the cooling set
point. The output is off while the measured value is within the
dead zone span. A negative dead zone is not possible.
per input 1.0°C (2°F)
2L 09 Offset for heating PI sequence per input 0
2L 10 Offset for cooling PI sequence per input 0
2L 11 P-band heating per input 2.0°C(4.0°F)
2L 12 P-band cooling per input 2.0°C (4.0°F)
2L 13
Integral gain heating (0.1 steps)
low= slow reaction, high= fast reaction
0...25.5 0.0
2L 14 Integral gain cooling (0.1 steps) 0...25.5 0.0
2L 15
Measuring interval integral (seconds)
low= fast reaction, high value= slow reaction
0...255 1
2L 16
Action of stages:
0= cumulative: stage 1 stays on when 2 on comes on
1= single: stage 1 turns off when 2 on comes on
2= digital: stage 1 only, stage 2 only, then stage 1 plus 2
0...2 0
2L 17 Offset for heating/reverse binary sequences per input 0.0°C (0.0°F)
2L 18 Offset for cooling/direct binary sequences per input 0.0°C (0.0°F)
2L 19 Switching span heating per input 1.0°C (2.0°F)
2L 20 Switching span cooling per input 1.0°C (2.0°F)
2L 21 Switching hysteresis per input 0.5°C (1.0°F)
2L 22 Switching delay 0...255 10
2L 23
Activation of reverse/direct (heat/cool) sequence
OFF= activates based on demand
ON = follows heat/cool state of controller
ON, OFF OFF
2L 24 Delay for heat /cool changeover when L23=OFF 0...255 min 5 min
2L 25
Fixed set point in standby mode
OFF = Standby set point shift applies
ON = In standby mode use minimum set point limit as set point
in heating mode or maximum set point limit in cooling mode
ON, OFF OFF
2L 26
Set point compensation range, the maximum range the set point
is shifted.
0 = Temperature setback: the set point is shifted towards
set point limit
Acc input 0.0°C