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Danfoss VLT Refrigeration Drive FC-103N160 — руководство по программированию частотных преобразователей [4/203]
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1 Introduction
1.1.1
Software Version and Approvals: VLT
®
Refrigeration
Drive FC 103
VLT
®
Refrigeration Drive FC 103
Software version: 1.0x
This manual can be used for all VLT
®
Refrigeration Drive FC 103
frequency
converters with software version 1.0x.
The software version number can be seen from 15-43 Software
Version.
Table 1.1
1.1.2 Symbols
The following symbols are used in this manual.
WARNING
Indicates a potentially hazardous situation which, if not
avoided,
could result in death or serious injury.
CAUTION
Indicates a potentially hazardous situation which, if not
avoided,
may result in minor or moderate injury. It may
also be used to alert against unsafe practices.
CAUTION
Indicates
a situation that may result in equipment or
property-damage-only accidents.
NOTE
Indicates
highlighted information that should be regarded
with attention to avoid mistakes or operate equipment at
less than optimal performance.
*
Indicates default setting
Table 1.2
1.1.3 Abbreviations
Alternating current AC
American wire gauge AWG
Ampere/AMP A
Automatic Motor Adaptation AMA
Current limit I
LIM
Degrees Celsius
°C
Direct current DC
Drive Dependent D-TYPE
Electro Magnetic Compatibility EMC
Electronic Thermal Relay ETR
Frequency converter FC
Gram g
Hertz Hz
Horsepower hp
Kilohertz kHz
Local Control Panel LCP
Meter m
Millihenry Inductance mH
Milliampere mA
Millisecond ms
Minute min
Motion Control Tool MCT
Nanofarad nF
Newton Meters Nm
Nominal motor current I
M,N
Nominal motor frequency f
M,N
Nominal motor power P
M,N
Nominal motor voltage U
M,N
Permanent Magnet motor PM motor
Protective Extra Low Voltage PELV
Printed Circuit Board PCB
Rated Inverter Output Current I
INV
Revolutions Per Minute RPM
Regenerative terminals Regen
Second s
Synchronous Motor Speed n
s
Torque limit T
LIM
Volts V
The maximum output current I
VLT,MAX
The rated output current supplied by the
frequency
converter
I
VLT,N
Table 1.3
Introduction
VLT
®
Refrigeration Drive Programming Guide
MG16H102 - VLT
®
is a registered Danfoss trademark
3
1 1
Содержание
- Programming guide p.1
- Introduction p.2
- How to programme p.2
- Parameter lists p.2
- Main menu compressor functions group 28 p.2
- Parameter description p.2
- Main menu communications and options group 8 p.2
- Main menu time based functions group 23 p.2
- Main menu brakes group 2 p.2
- Main menu special functions group 14 p.2
- Main menu application functions group 22 p.2
- Main menu smart logic group 13 p.2
- Main menu analog in out group 6 p.2
- Main menu reference ramps group 3 p.2
- Main menu analog i o option mcb 109 group 26 p.2
- Main menu pack controller group 25 p.2
- Local control panel p.2
- Main menu operation and display group 0 p.2
- Main menu load and motor group 1 p.2
- Main menu limits warnings group 4 p.2
- Contents p.2
- Main menu frequency converter information group 15 p.2
- Main menu fc closed loop group 20 p.2
- Main menu extended closed loop group 21 p.2
- Main menu digital in out group 5 p.2
- Main menu data readouts group 16 p.2
- Parameter selection p.2
- Main menu data readouts 2 group 18 p.2
- Troubleshooting p.3
- Parameter options p.3
- Warning p.4
- Introduction p.4
- Caution p.4
- Definitions p.5
- Warning p.7
- Warning p.8
- High voltage p.8
- Is a registered danfoss trademark p.9
- Introduction vl p.9
- Illustration 1 diagram showing all electrical terminals without options p.9
- If this occurs it may be necessary to break the screen or insert a 100 nf capacitor between screen and chassis p.9
- Example switching on the digital input may disturb the analog input signal p.9
- Electrical wiring control cables p.9
- Very long control cables and analogue signals may in rare cases and depending on installation result in 50 60 hz earth loops due to noise from mains supply cables p.9
- The digital and analogue inputs and outputs must be connected separately to the common inputs terminal 20 55 39 of the frequency converter to avoid ground currents from both groups to affect other groups for p.9
- Terminal 37 is the input to be used for safe stop for instructions on safe stop installation refer to the section safe stop installation in the design guide p.9
- Refrigeration drive programming guide p.9
- Mg16h102 vl p.9
- Start stop p.10
- Speed up down p.11
- Pulse start stop p.11
- Potentiometer reference p.11
- Local control panel p.12
- How to programme p.12
- How to operate graphical lcp glcp p.12
- How to operate numeric lcp nlcp p.16
- P 2 03 p.17
- Quick menu mode p.18
- Parameter set up p.18
- Quick transfer of parameter settings between multiple frequency converters p.18
- Wizard p.19
- Quick setup p.19
- My personal menu p.19
- Function setups p.19
- 2 6a 1 1 quick menus p.19
- Settings depend on which region of the world the frequency converter is supplied to but can be re programmed as required p.20
- Refrigeration drive programming guide p.20
- How to programme vl p.20
- Function setups p.21
- Refrigeration drive programming guide p.22
- Q3 4 application settings p.22
- Q3 3 closed loop settings p.22
- Q3 2 open loop settings p.22
- Q3 1 general settings p.22
- How to programme vl p.22
- The function setup parameters are grouped in the following way p.22
- The procedure for changing data is the same in the quick menu and the main menu mode press ok to change the selected parameter the procedure for changing data depends on whether the selected parameter represents a numerical data value or a text value p.23
- Select the main menu mode by pressing the main menu key illustration 6 shows the resulting read out which appears on the display of the glcp lines 2 through 5 on the display show a list of parameter groups which can be chosen by toggling the up and down buttons p.23
- Refrigeration drive programming guide p.23
- Parameter selection p.23
- Main menu mode p.23
- Keys place the cursor on the value to save and press ok p.23
- In the main menu mode the parameters are divided into groups select a parameter group by means of the navigation keys the following parameter groups are accessible p.23
- If the selected parameter is a text value change the text value with the p.23
- How to programme vl p.23
- Group no parameter group p.23
- Each parameter has a name and number which remain the same regardless of the programming mode in the main menu mode the parameters are divided into groups the first digit of the parameter number from the left indicates the parameter group number p.23
- Changing data p.23
- Changing a text value p.23
- All parameters can be changed in the main menu the configuration of the unit 1 00 configuration mode will determine other parameters available for programming for example selecting closed loop enables additional parameters related to closed loop operation option cards added to the unit enable additional parameters associated with the option device p.23
- After selecting a parameter group choose a parameter by means of the navigation keys the middle section on the glcp display shows the parameter number and name as well as the selected parameter value p.23
- Value step by step p.24
- Read out and programming of indexed parameters p.24
- Initialisation to default settings p.24
- Changing a group of numeric data values p.24
- When you carry out manual initialisation you also reset serial communication 14 50 rfi filter and fault log settings removes parameters selected in 25 00 pack controller p.25
- Refrigeration drive programming guide p.25
- Manual initialisation p.25
- How to programme vl p.25
- After initialisation and power cycling the display will not show any information until after a couple of minutes p.25
- Parameter description vl p.26
- Compressor functions p.26
- Parameter description p.26
- Comm and options p.26
- Pack controller p.26
- Brakes p.26
- Option function p.26
- Appl functions p.26
- Analog in out p.26
- Operation display p.26
- Analog i o option p.26
- Main menu structure p.26
- 01 language p.26
- Main menu operation and display group 0 p.26
- Lonworks p.26
- Time based functions p.26
- Load and motor p.26
- Special functions p.26
- Limits warnings p.26
- Smart logic p.26
- Info readouts p.26
- Refrigeration drive programming guide p.26
- Ext closed loop p.26
- Reference ramps p.26
- Drive information p.26
- Parameters related to the fundamental functions of the frequency converter function of the lcp keys and configu ration of the lcp display p.26
- Drive closed loop p.26
- Parameters for the frequency converter are grouped into various parameter groups for easy selection of the correct parameters for optimised operation of the frequency converter the vast majority of fc 103 applications can be programmed pressing quick menu and selecting the parameters under quick setup and function setups descriptions and default settings of parameters can be found in 4 parameter lists p.26
- Digital in out p.26
- Parameter selection p.26
- Data readouts p.26
- Define and control the individual parameter set ups the frequency converter has four parameter setups that can be programmed independently of each other this makes the frequency converter very flexible and able to meet the requirements of many different vlt refrigeration drive system control schemes often saving the cost of external control equipment for example these can be used to program the frequency converter to operate according to one control scheme in one setup e g daytime operation and another control scheme in another setup e g night set back alternatively they can be used by an ahu or packaged unit oem to identically program all their factory fitted frequency converters for different equipment models within a range to have the same parameters and then during production commissioning simply select a specific setup depending on which model within that range the frequency converter is installed on the active setup i e the setup in which the frequency converter is currently oper p.27
- Changing the motor speed unit will reset certain parameters to their initial value it is recommended to select the motor speed unit first before modifying other parameters p.27
- 1 set up operations p.27
- 05 local mode unit p.27
- 04 operating state at power up p.27
- 03 regional settings p.27
- 02 motor speed unit p.27
- 01 language p.27
- This parameter cannot be adjusted while the motor is running p.27
- The settings not used are made invisible p.27
- Refrigeration drive programming guide p.27
- Parameter description vl p.27
- Option function p.27
- Set up linked to even if change of set up whilst running is required but for very complex applications using the full flexibility of the multiple setups it may be required using 0 11 programming set up it is possible to edit parameters within any of the setups whilst continuing the frequency converter operation in its active setup which can be a different setup to that being edited using 0 51 set up copy it is possible to copy parameter settings between the set ups to enable quicker commissioning if similar parameter settings are required in different set ups p.28
- Refrigeration drive programming guide p.28
- Parameter description vl p.28
- Option function p.28
- 12 this set up linked to p.28
- 11 programming set up p.28
- 10 active set up p.28
- 2 lcp display p.29
- 14 readout prog set ups channel p.29
- 13 readout linked set ups p.29
- 12 this set up linked to p.29
- Refrigeration drive programming guide p.29
- Range function p.29
- Please refer to 0 37 display text 1 0 38 display text 2 and 0 39 display text 3 for information on how to write display texts p.29
- Parameter description vl p.29
- Option function p.29
- Define the variables displayed in the graphical local control panel p.29
- 20 display line 1 small p.29
- Refrigeration drive programming guide p.30
- Parameter description vl p.30
- Option function p.30
- 20 display line 1 small p.30
- Refrigeration drive programming guide p.31
- Parameter description vl p.31
- Option function p.31
- 20 display line 1 small p.31
- 20 display line 1 small p.32
- Refrigeration drive programming guide p.32
- Range function p.32
- Parameter description vl p.32
- Option function p.32
- It is possible to customize the display elements for various purposes custom readout value proportional to speed linear squared or cubed depending on unit selected in 0 30 custom readout unit display text text string stored in a parameter p.32
- Custom readout the calculated value to be displayed is based on settings in 0 30 custom readout unit 0 31 custom readout min value linear only 0 32 custom readout max value 4 13 motor speed high limit rpm 4 14 motor speed high limit hz and actual speed p.32
- 3 lcp custom readout p.32
- 25 my personal menu p.32
- 24 display line 3 large p.32
- 23 display line 2 large p.32
- 22 display line 1 small p.32
- 21 display line 1 small p.32
- Option function p.33
- 32 custom readout max value p.33
- 31 custom readout min value p.33
- 30 custom readout unit p.33
- The relation will depend on the type of unit selected in 0 30 custom readout unit p.33
- Refrigeration drive programming guide p.33
- Range function p.33
- Parameter description vl p.33
- Range function p.34
- Parameter description vl p.34
- Option function p.34
- Enable disable and password protect individual keys on the lcp p.34
- 43 reset key on lcp p.34
- 42 auto on key on lcp p.34
- 41 off key on lcp p.34
- 40 hand on key on lcp p.34
- 4 lcp keypad p.34
- 39 display text 3 p.34
- 38 display text 2 p.34
- 37 display text 1 p.34
- Refrigeration drive programming guide p.34
- Range function p.35
- Parameter description vl p.35
- Option function p.35
- If 0 full access is selected then 0 60 main menu password 0 65 personal menu password and 0 66 access to personal menu w o password will be ignored p.35
- If 0 61 access to main menu w o password is set to 0 full access this parameter will be ignored p.35
- Copy parameter settings between set ups and to from the lcp p.35
- 7 clock settings p.35
- 66 access to personal menu w o password p.35
- 65 personal menu password p.35
- 61 access to main menu w o password p.35
- 60 main menu password p.35
- 6 password p.35
- 51 set up copy p.35
- 50 lcp copy p.35
- This parameter cannot be adjusted while the motor is running p.35
- Set the time and date of the internal clock the internal clock can be used for e g timed actions energy log trend analysis date time stamps on alarms logged data and preventive maintenance it is possible to program the clock for daylight saving time summertime weekly working days non working days including 20 exceptions holidays etc although the clock settings can be set via the lcp they can also be set along with timed actions and preventative maintenance functions using the mct 10 software tool p.35
- 5 copy save p.35
- Refrigeration drive programming guide p.35
- Option function p.36
- If mounting an analog i o mcb 109 option card a battery back up of the date and time is included p.36
- 89 date and time readout p.36
- 83 additional non working days p.36
- 82 additional working days p.36
- 81 working days p.36
- 79 clock fault p.36
- 77 dst summertime end p.36
- 76 dst summertime start p.36
- 74 dst summertime p.36
- 72 time format p.36
- 71 date format p.36
- The frequency converter has no back up of the clock function and the set date time will reset to default 2000 01 01 00 00 after a power down unless a real time clock module with back up is installed if no module with back up is installed it is recommended the clock function is only used if the frequency converter is integrated into the bms using serial communications with the bms maintaining synchronization of control equipment clock times in 0 79 clock fault it is possible to program for a warning in case clock has not been set properly e g after a power down p.36
- 70 set date and time p.36
- Refrigeration drive programming guide p.36
- Range function p.36
- Parameter description vl p.36
- Range function p.37
- Parameter description vl p.37
- Option function p.37
- Motor construction can either be asynchronous or permanent magnet pm motor p.37
- Main menu load and motor group 1 p.37
- Define whether the frequency converter operates in open loop or closed loop p.37
- 14 damping gain p.37
- 10 motor construction p.37
- 1 motor selection p.37
- 03 torque characteristics p.37
- 00 configuration mode p.37
- 0 general settings p.37
- When set for closed loop the commands reversing and start reversing will not reverse the direction of the motor p.37
- This parameter cannot be changed while the motor is running p.37
- Refrigeration drive programming guide p.37
- Range function p.38
- Parameter group 1 2 comprises input data from the nameplate on the connected motor p.38
- Parameter description vl p.38
- Changing the value of these parameters affects the setting of other parameters p.38
- 22 motor voltage p.38
- 21 motor power hp p.38
- 20 motor power kw 1 21 motor power hp 1 22 motor voltage and 1 23 motor frequency will not have effect when 1 10 motor construction 1 pm non salient spm p.38
- 20 motor power kw p.38
- 2 motor data p.38
- 17 voltage filter time const p.38
- 16 high speed filter time const p.38
- 15 low speed filter time const p.38
- 14 damping gain p.38
- This parameter cannot be adjusted while the motor is running p.38
- Refrigeration drive programming guide p.38
- Refrigeration drive programming guide p.39
- Range function p.39
- Parameter description vl p.39
- Option function p.39
- Once the motor rotation check is enabled the display shows note motor may run in wrong direction pressing ok back or cancel will dismiss the message and display a new message press hand on to start the motor press cancel to abort pressing hand on starts the motor at 5 hz in forward direction and the display shows motor is running check if motor rotation direction is correct press off to stop the motor pressing off stops the motor and resets 1 28 motor rotation check if motor rotation direction is incorrect two motor phase cables should be interchanged p.39
- Mains power must be removed before disconnecting motor phase cables p.39
- Activate the ama function by pressing hand on after selecting 1 or 2 see also the item automatic motor adaptation in the design guide after a normal sequence the display will read press ok to finish ama after pressing the ok key the frequency converter is ready for operation p.39
- 29 automatic motor adaptation ama will not have effect when 1 10 motor construction 1 pm non salient spm p.39
- 29 automatic motor adaptation ama p.39
- 28 motor rotation check p.39
- 26 motor cont rated torque p.39
- 25 motor nominal speed p.39
- 24 motor current p.39
- 23 motor frequency p.39
- Warning p.39
- This parameter cannot be changed while the motor is running p.39
- This meter cannot be changed while the motor is running p.39
- 3 adv motor data p.40
- This parameter is not available from the lcp p.41
- This parameter cannot be adjusted while the motor is running p.41
- This parameter cannot be adjusted while running p.41
- Stator resistance and d axis inductance values are normally for asynchronous motors described in technical specifications as between line and common starpoint for permanent magnet motors they are typically described in technical specifications as between line line pm motors are typically built for star connection p.41
- Refrigeration drive programming guide p.41
- Range function p.41
- Parameter description vl p.41
- Motor manufacturers provide values for stator resistance 1 30 stator resistance rs and d axis inductance 1 37 d axis inductance ld in technical specifications as between line and common starpoint or between line line there is no general standard the different setups of stator winding resistance and induction are shown in illustration 3 danfoss inverters always require the line to common value the back emf of pm motor is defined as induced emf developed across any of two phases of stator winding of free running motor danfoss inverters always require the line to line rms value measured at 1000 rpm mechanical speed of rotation this is shown in illustration 3 p.41
- 37 d axis inductance ld p.41
- 36 iron loss resistance rfe p.41
- 35 main reactance xh will not have effect when 1 10 motor construction 1 pm non salient spm p.41
- 35 main reactance xh p.41
- This parameter is only active when 1 10 motor construction has the value pm non salient spm 1 permanent magnet motor p.41
- This parameter cannot be adjusted while the motor is running p.42
- Refrigeration drive programming guide p.42
- Range function p.42
- Parameter description vl p.42
- 51 min speed normal magnetising rpm will not have effect when 1 10 motor construction 1 pm non salient spm p.42
- 51 min speed normal magnetising rpm p.42
- 50 motor magnetisation at zero speed will not have effect when 1 10 motor construction 1 pm non salient spm p.42
- 50 motor magnetisation at zero speed p.42
- 5 load indep setting p.42
- 40 back emf at 1000 rpm p.42
- 39 motor poles p.42
- 59 flystart test pulses frequency p.43
- 58 flystart test pulses current p.43
- 52 min speed normal magnetising hz will not have effect when 1 10 motor construction 1 pm non salient spm p.43
- 52 min speed normal magnetising hz p.43
- See description of 1 70 pm start mode for an overview of the relation between the pm flying start parameters p.43
- Refrigeration drive programming guide p.43
- Range function p.43
- Parameter description vl p.43
- Do not set this parameter too high in high inertia applications p.43
- 60 low speed load compensation will not have effect when 1 10 motor construction 1 pm non salient spm p.43
- 60 low speed load compensation p.43
- 6 load depend setting p.43
- 64 resonance dampening will not have effect when 1 10 motor construction 1 pm non salient spm p.44
- 64 resonance dampening p.44
- 63 slip compensation time constant will not have effect when 1 10 motor construction 1 pm non salient spm p.44
- 63 slip compensation time constant p.44
- 62 slip compensation will not have effect when 1 10 motor construction 1 pm non salient spm p.44
- Refrigeration drive programming guide p.44
- 62 slip compensation p.44
- Range function p.44
- 61 high speed load compensation will not have effect when 1 10 motor construction 1 pm non salient spm p.44
- Parameter description vl p.44
- 61 high speed load compensation p.44
- Option function p.44
- 71 start delay p.44
- 70 pm start mode p.44
- 7 start adjustments p.44
- 66 will not have affect if 1 10 0 p.44
- 66 min current at low speed p.44
- 65 resonance dampening time constant will not have effect when 1 10 motor construction 1 pm non salient spm p.44
- 65 resonance dampening time constant p.44
- Parameter description vl p.45
- Option function p.45
- 73 flying start p.45
- 72 start function p.45
- 71 start delay p.45
- The flystart function used for pm motors is based on an initial speed estimation the speed will always be estimated as the first thing after an active start signal is given based on the setting of 1 70 pm start mode the following will happen 1 70 pm start mode 0 rotor detection if the speed estimate comes out as greater than 0 hz the frequency converter will catch the motor at that speed and resume normal operation otherwise the frequency p.45
- Refrigeration drive programming guide p.45
- Range function p.45
- Range function p.46
- Pred for salient pole machine ipmsm but not yet verified on those types of machine p.46
- Parameter description vl p.46
- Mh needed more time for reducing short circuit current to zero and may be susceptible to error in estimation p.46
- For high inertia applications i e where the load inertia is more than 30 times larger than the motor inertia a brake resistor is recomended to avoid over voltage trip during high speed engagement of the fly start function p.46
- Current testing limited to a speed range up to 300 hz for certain units the limit is 250 hz all 200 240 v units up to and including 2 kw and all 380 480 v units up to and including 4 kw p.46
- Current testing limited to a machine power size up to 22 kw p.46
- Current limitations of the flystart principle used for pm motors p.46
- Converter will estimate the rotor position and start normal operation from there p.46
- 78 compressor start max speed hz p.46
- 77 compressor start max speed rpm will not have effect when 1 10 motor construction 1 pm non salient spm p.46
- 77 compressor start max speed rpm p.46
- 70 pm start mode 1 parking if the speed estimate comes out lower than the setting in 1 59 flystart test pulses frequency then the parking function will be engaged see 2 06 parking current and 2 07 parking time otherwise the frequency converter will catch the motor at that speed and resume normal operation refer to description of 1 70 pm start mode for recommended settings p.46
- The speed range is up to 100 nominal speed or the field weakening speed which ever is lowest p.46
- Refrigeration drive programming guide p.46
- Option function p.47
- Etr electronic thermal relay functions 1 4 will calculate the load when set up where they were selected is active p.47
- 90 motor thermal protection p.47
- 9 motor temperature p.47
- 87 compressor min speed for trip hz p.47
- 86 compressor min speed for trip rpm p.47
- 82 min speed for function at stop hz p.47
- 81 min speed for function at stop rpm p.47
- 80 function at stop p.47
- 8 stop adjustments p.47
- 79 compressor start max time to trip will not have effect when 1 10 motor construction 1 pm non salient spm p.47
- 79 compressor start max time to trip p.47
- 78 compressor start max speed hz will not have effect when 1 10 motor construction 1 pm non salient spm p.47
- Refrigeration drive programming guide p.47
- 78 compressor start max speed hz p.47
- Range function p.47
- Parameter description vl p.47
- Warning p.48
- 1 brake energy funct p.49
- 07 parking time p.49
- 06 parking current and 2 07 parking time only active if pm motor construction is selected in 1 10 motor construction p.49
- 06 parking current p.49
- 04 dc brake cut in speed hz p.49
- 03 dc brake cut in speed rpm will not have effect when 1 10 motor construction 1 pm non salient spm p.49
- 03 dc brake cut in speed rpm p.49
- The maximum value depends on the rated motor current avoid 100 current for too long it may damage the motor p.49
- 02 dc braking time p.49
- Refrigeration drive programming guide p.49
- 01 dc brake current p.49
- Range function p.49
- 00 dc hold preheat current will not have effect when 1 10 motor construction 1 pm non salient spm p.49
- Parameter group for selecting dynamic braking parameters only valid for frequency converters with brake chopper p.49
- 00 dc hold preheat current p.49
- Parameter group for configuring the dc brake and dc hold functions p.49
- 0 dc brakes p.49
- Parameter description vl p.49
- Option function p.49
- Main menu brakes group 2 p.49
- 10 brake function p.49
- Main menu reference ramps group 3 p.51
- 11 jog speed hz p.51
- 10 preset reference p.51
- 1 references p.51
- 04 reference function p.51
- 02 minimum reference p.51
- 0 reference limits p.51
- This parameter is used in open loop only p.51
- Select the preset reference s select preset ref bit 0 1 2 16 17 or 18 for the corresponding digital inputs in parameter group 5 1 p.51
- Refrigeration drive programming guide p.51
- Range function p.51
- Parameter description vl p.51
- Option function p.51
- When set to 2 local the frequency converter will start with this setting again following a power down p.52
- This parameter cannot be changed while the motor is running p.52
- Refrigeration drive programming guide p.52
- Range function p.52
- Parameter description vl p.52
- Option function p.52
- 16 reference 2 source p.52
- 15 reference 1 source p.52
- 14 preset relative reference p.52
- 13 reference site p.52
- This parameter cannot be changed while the motor is running p.53
- Refrigeration drive programming guide p.53
- Range function p.53
- Parameter description vl p.53
- Option function p.53
- Configure the ramp parameter ramping times for each of the two ramps parameter group 3 4 and parameter group 3 5 p.53
- 42 ramp 1 ramp down time p.53
- 41 ramp 1 ramp up time p.53
- 4 ramp 1 p.53
- 19 jog speed rpm p.53
- 17 reference 3 source p.53
- 80 jog ramp time p.54
- 8 other ramps p.54
- 52 ramp 2 ramp down time p.54
- 51 ramp 2 ramp up time p.54
- 5 ramp 2 p.54
- Refrigeration drive programming guide p.54
- Range function p.54
- Parameter description vl p.54
- Configure parameters for special ramps e g jog p.54
- Choosing ramp parameters see parameter group 3 4 p.54
- 81 quick stop ramp time p.54
- Parameter description vl p.55
- Option function p.55
- 95 ramp delay p.55
- 94 minimum limit p.55
- 93 maximum limit p.55
- 92 power restore p.55
- 91 ramp time p.55
- 90 step size p.55
- 9 digital pot meter p.55
- 82 starting ramp up time p.55
- The digital potentiometer function allows the user to increase or decrease the actual reference by adjusting the set up of the digital inputs using the functions increase decrease or clear to activate the function at least one digital input must be set up to increase or decrease p.55
- Refrigeration drive programming guide p.55
- Range function p.55
- Parameter description vl p.56
- Option function p.56
- Max output frequency cannot exceed 10 of the inverter switching frequency 14 01 switching frequency p.56
- Main menu limits warnings group 4 p.56
- Limits and warnings p.56
- Define torque current and speed limits for the motor and the reaction of the frequency converter when the limits are exceeded a limit may generate a message on the display a warning will always generate a message on the display or on the fieldbus a monitoring function may initiate a warning or a trip upon which the frequency converter will stop and generate an alarm message p.56
- Any changes in 4 13 motor speed high limit rpm will reset the value in 4 53 warning speed high to the same value as set in 4 13 motor speed high limit rpm p.56
- 14 motor speed high limit hz p.56
- 13 motor speed high limit rpm p.56
- 12 motor speed low limit hz p.56
- 11 motor speed low limit rpm p.56
- 10 motor speed direction p.56
- 1 motor limits p.56
- The setting in 4 10 motor speed direction has impact on the flying start in 1 73 flying start p.56
- Refrigeration drive programming guide p.56
- Range function p.56
- Parameter group for configuring limits and warnings p.56
- Refrigeration drive programming guide p.57
- Range function p.57
- Parameter description vl p.57
- Not visible in display only in p.57
- Define adjustable warning limits for current speed reference and feedback p.57
- 51 warning current high p.57
- 50 warning current low p.57
- 5 adj warnings p.57
- 19 max output frequency p.57
- 18 current limit p.57
- 17 torque limit generator mode p.57
- 16 torque limit motor mode p.57
- Warnings are shown on display programmed output or serial bus p.57
- Some systems call for avoiding certain output frequencies or speeds due to resonance problems in the system a maximum of four frequency or speed ranges can be avoided p.58
- Refrigeration drive programming guide p.58
- Range function p.58
- Parameter description vl p.58
- Option function p.58
- Any changes in 4 13 motor speed high limit rpm will reset the value in 4 53 warning speed high to the same value as set in 4 13 motor speed high limit rpm if a different value is needed in 4 53 warning speed high it must be set after programming of 4 13 motor speed high limit rpm p.58
- 60 bypass speed from rpm p.58
- 6 speed bypass p.58
- 58 missing motor phase function p.58
- 57 warning feedback high p.58
- 56 warning feedback low p.58
- 55 warning reference high p.58
- 54 warning reference low p.58
- 53 warning speed high p.58
- 52 warning speed low p.58
- This parameter cannot be adjusted while the motor is running p.58
- Refrigeration drive programming guide p.59
- Range function p.59
- Parameter description vl p.59
- Option function p.59
- 64 semi auto bypass set up p.59
- 63 bypass speed to hz p.59
- 62 bypass speed to rpm p.59
- 61 bypass speed from hz p.59
- Option function p.60
- Main menu digital in out group 5 p.60
- 1 digital inputs p.60
- 02 terminal 29 mode p.60
- 01 terminal 27 mode p.60
- 00 digital i o mode p.60
- 0 digital i o mode p.60
- This parameter cannot be changed while the motor is running p.60
- Refrigeration drive programming guide p.60
- Parameters for configuring the input functions for the input terminals the digital inputs are used for selecting various functions in the frequency converter all digital inputs can be set to the following functions p.60
- Parameters for configuring the input and output using npn and pnp p.60
- Parameter group for configuring the digital input and output p.60
- Parameter description vl p.60
- When the frequency converter is at the torque limit and has received a stop command it may not stop by itself to ensure that the frequency converter stops configure a digital output to 27 torque limit stop and connect this digital output to a digital input that is configured as coast p.61
- Refrigeration drive programming guide p.61
- Parameter description vl p.61
- Functions dedicated to only one digital input are stated in the associated parameter p.61
- All terminals 18 19 27 29 32 x30 2 x30 3 x30 4 x30 are the terminals on mcb 101 p.61
- All digital inputs can be programmed to these functions p.61
- When freeze output is active the frequency converter cannot be stopped via a low start 13 signal stop the frequency converter via a terminal programmed for 2 coast inverse or 3 coast and reset inv p.62
- Refrigeration drive programming guide p.62
- Parameter description vl p.62
- 10 terminal 18 digital input p.63
- The below setting options are all related to the cascade controller wiring diagrams and settings for parameter see parameter group 25 for more details p.63
- Refrigeration drive programming guide p.63
- Parameter description vl p.63
- Option function p.63
- 12 terminal 27 digital input p.63
- 11 terminal 19 digital input p.63
- Choises 4 9 are only available when the mcb 112 ptc thermistor card is connected p.64
- A dangerous failure related to safe stop will give alarm dangerous failure a72 p.64
- 3 digital outputs p.64
- 19 terminal 37 safe stop p.64
- 18 terminal x30 4 digital input p.64
- 17 terminal x30 3 digital input p.64
- 16 terminal x30 2 digital input p.64
- 15 terminal 33 digital input p.64
- 14 terminal 32 digital input p.64
- When auto reset warning is selected the frequency converter opens up for automatic restart p.64
- 13 terminal 29 digital input p.64
- Refrigeration drive programming guide p.64
- Refer to table 5 in p.64
- Parameters for configuring the output functions for the output terminals the 2 solid state digital outputs are common for terminals 27 and 29 set the i o function for terminal 27 in 5 01 terminal 27 mode and set the i o function for terminal 29 in 5 02 terminal 29 mode these parameters cannot be adjusted while the motor is running p.64
- Parameter description vl p.64
- Overview of functions alarms and warnings p.64
- Option function p.64
- Refrigeration drive programming guide p.65
- Parameter description vl p.65
- Refrigeration drive programming guide p.66
- Parameter description vl p.66
- 4 relays p.67
- 33 term x30 7 digi out mcb 101 p.67
- 32 term x30 6 digi out mcb 101 p.67
- 31 terminal 29 digital output p.67
- 30 terminal 27 digital output p.67
- The below setting options are all related to the cascade controller wiring diagrams and settings for meter see parameter group 25 for more details p.67
- Refrigeration drive programming guide p.67
- Parameters for configuring the timing and the output functions for the relays p.67
- Parameter description vl p.67
- Option function p.67
- If enabling the drive bypass function the frequency converter is no longer safety certified for using the safe stop in versions where included p.67
- Caution p.67
- Refrigeration drive programming guide p.68
- Range function p.68
- Parameter description vl p.68
- Option function p.68
- 41 on delay relay p.68
- 40 function relay p.68
- 50 term 29 low frequency p.69
- 5 pulse input p.69
- 42 off delay relay p.69
- The pulse input parameters are used to define an appropriate window for the impulse reference area by configuring the scaling and filter settings for the pulse inputs input terminals 29 or 33 act as frequency reference inputs set terminal 29 5 13 terminal 29 digital input or terminal 33 5 15 terminal 33 digital input to 32 pulse input if terminal 29 is used as an input then set 5 02 terminal 29 mode to 0 input p.69
- Refrigeration drive programming guide p.69
- Range function p.69
- Parameter description vl p.69
- If the selected event condition changes before the on or off delay timer expires the relay output is unaffected p.69
- 53 term 29 high ref feedb value p.69
- 52 term 29 low ref feedb value p.69
- 51 term 29 high frequency p.69
- 62 pulse output max freq 27 p.70
- 6 pulse outputs p.70
- 59 pulse filter time constant 33 p.70
- 58 term 33 high ref feedb value p.70
- 57 term 33 low ref feedb value p.70
- 56 term 33 high frequency p.70
- 55 term 33 low frequency p.70
- 54 pulse filter time constant 29 p.70
- This parameter cannot be adjusted while the motor is running p.70
- This meter cannot be adjusted while the motor is running p.70
- Select the operation variable assigned for terminal 27 readouts this meter cannot be adjusted while the motor is running same options and functions as parameter group 5 6 p.70
- Refrigeration drive programming guide p.70
- Range function p.70
- Parameters for configuring the scaling and output functions of pulse outputs the pulse outputs are designated to terminals 27 or 29 select terminal 27 output in 5 01 terminal 27 mode and terminal 29 output in 5 02 terminal 29 mode p.70
- Parameter description vl p.70
- Option function p.70
- 63 terminal 29 pulse output variable p.70
- 93 pulse out 27 bus control p.71
- 90 digital relay bus control p.71
- 9 bus controlled p.71
- 68 pulse output max freq x30 6 p.71
- 66 terminal x30 6 pulse output variable p.71
- 65 pulse output max freq 29 p.71
- 63 terminal 29 pulse output variable p.71
- This parameter group selects digital and relay outputs via a fieldbus setting p.71
- This parameter cannot be adjusted while the motor is running p.71
- Refrigeration drive programming guide p.71
- Range function p.71
- Parameter description vl p.71
- Option function p.71
- Refrigeration drive programming guide p.72
- Range function p.72
- Parameter description vl p.72
- 98 pulse out x30 6 timeout preset p.72
- 97 pulse out x30 6 bus control p.72
- 96 pulse out 29 timeout preset p.72
- 95 pulse out 29 bus control p.72
- 94 pulse out 27 timeout preset p.72
- 00 live zero timeout time p.73
- 0 analog i o mode p.73
- Thermistors may be connected to either an analog or a digital input p.73
- Refrigeration drive programming guide p.73
- Range function p.73
- Parameter group for setting up the analog i o configu ration the frequency converter is equipped with 2 analog inputs terminal 53 and 54 the analog inputs can freely be allocated to either voltage 0 10 v or current input 0 4 20 ma p.73
- Parameter group for configuration of the analog input and output p.73
- Parameter description vl p.73
- Option function p.73
- Main menu analog in out group 6 p.73
- Analog in out p.73
- 02 fire mode live zero timeout function p.73
- 01 live zero timeout function p.73
- 13 terminal 53 high current p.74
- This parameter cannot be adjusted while the motor is running p.74
- 12 terminal 53 low current p.74
- Refrigeration drive programming guide p.74
- 11 terminal 53 high voltage p.74
- Range function p.74
- 10 terminal 53 low voltage p.74
- Parameters for configuring the scaling and limits for analog input 2 terminal 54 p.74
- 1 analog input 1 p.74
- Parameters for configuring the scaling and limits for analog input 1 terminal 53 p.74
- Parameter description vl p.74
- Option function p.74
- 22 terminal 54 low current p.74
- 21 terminal 54 high voltage p.74
- 20 terminal 54 low voltage p.74
- 2 analog input 2 p.74
- 17 terminal 53 live zero p.74
- 16 terminal 53 filter time constant p.74
- 15 terminal 53 high ref feedb value p.74
- 14 terminal 53 low ref feedb value p.74
- Parameter group for configuring the scale and limits for analog input 4 x30 12 placed on option module mcb 101 p.75
- 23 terminal 54 high current p.75
- Parameter group for configuring the scale and limits for analog input 3 x30 11 placed on option module mcb 101 p.75
- Parameter description vl p.75
- Option function p.75
- 4 analog input 4 mcb 101 p.75
- 37 term x30 11 live zero p.75
- 36 term x30 11 filter time constant p.75
- 35 term x30 11 high ref feedb value p.75
- 34 term x30 11 low ref feedb value p.75
- 31 terminal x30 11 high voltage p.75
- 30 terminal x30 11 low voltage p.75
- 3 analog input 3 mcb 101 p.75
- This parameter cannot be changed while the motor is running p.75
- 27 terminal 54 live zero p.75
- This parameter cannot be adjusted while the motor is running p.75
- 26 terminal 54 filter time constant p.75
- Refrigeration drive programming guide p.75
- 25 terminal 54 high ref feedb value p.75
- Range function p.75
- 24 terminal 54 low ref feedb value p.75
- Parameters for configuring the scaling and limits for analog output 1 i e terminal 42 analog outputs are current outputs 0 4 20 ma common terminal terminal p.76
- Parameter description vl p.76
- Option function p.76
- Is the same terminal and has the same electrical potential for analog common and digital common connection resolution on analog output is 12 bit p.76
- 50 terminal 42 output p.76
- 5 analog output 1 p.76
- 47 term x30 12 live zero p.76
- 46 term x30 12 filter time constant p.76
- 45 term x30 12 high ref feedb value p.76
- 44 term x30 12 low ref feedb value p.76
- 41 terminal x30 12 high voltage p.76
- 40 terminal x30 12 low voltage p.76
- This parameter cannot be changed while the motor is running p.76
- Refrigeration drive programming guide p.76
- Range function p.76
- Refrigeration drive programming guide p.78
- Range function p.78
- Parameter description vl p.78
- Option function p.78
- Analog outputs are current outputs 0 4 20 ma common terminal terminal x30 8 is the same terminal and electrical potential for analog common connection resolution on analog output is 12 bit p.78
- 64 terminal x30 8 output timeout preset p.78
- 63 terminal x30 8 output bus control p.78
- 62 terminal x30 8 max scale p.78
- 61 terminal x30 8 min scale p.78
- 60 terminal x30 8 output p.78
- 6 analog output 2 mcb 101 p.78
- 54 terminal 42 output timeout preset p.78
- 53 terminal 42 output bus control p.78
- This parameter cannot be adjusted while the motor is running p.79
- Refrigeration drive programming guide p.79
- Range function p.79
- Parameter description vl p.79
- Option function p.79
- Main menu communications and options group 8 p.79
- Comm and options p.79
- 05 end of timeout function p.79
- 04 control timeout function p.79
- 03 control timeout time p.79
- 02 control source p.79
- 01 control site p.79
- 0 general settings p.79
- 07 diagnosis trigger p.80
- 06 reset control timeout p.80
- 05 end of timeout function p.80
- Refrigeration drive programming guide p.80
- Parameter description vl p.80
- Option function p.80
- 13 configurable status word stw p.80
- 10 control profile p.80
- 1 ctrl word settings p.80
- Refrigeration drive programming guide p.81
- Range function p.81
- Parameter description vl p.81
- Option function p.81
- Further details can be found in the bacnet and metasys manuals p.81
- 31 address p.81
- 30 protocol p.81
- 3 fc port settings p.81
- 13 configurable status word stw p.81
- Range function p.82
- 32 baud rate p.82
- Parameters for configuring the control word digital bus merging p.82
- Parameter description vl p.82
- Option function p.82
- Default refers to the fc protocol p.82
- 50 coasting select p.82
- 5 digital bus p.82
- 47 btm timeout p.82
- 46 btm transaction status p.82
- 45 btm transaction command p.82
- 40 telegram selection p.82
- 4 telegram selection p.82
- 37 maximum inter char delay p.82
- 36 maximum response delay p.82
- These parameters are active only when 8 01 control site is set to 0 digital and control word p.82
- 35 minimum response delay p.82
- Refrigeration drive programming guide p.82
- 33 parity stop bits p.82
- This parameter is active only when 8 01 control site is set to 0 digital and control word p.83
- Refrigeration drive programming guide p.83
- Parameter description vl p.83
- Option function p.83
- Only selection 0 digital input is available when 1 10 motor construction is set to 1 pm non salient spm p.83
- 56 preset reference select p.83
- 55 set up select p.83
- 54 reversing select p.83
- 53 start select p.83
- 52 dc brake select p.83
- 50 coasting select p.83
- 81 bus error count p.84
- 80 bus message count p.84
- 8 fc port diagnostics p.84
- These parameters are used for monitoring the bus communication via the fc port p.84
- Refrigeration drive programming guide p.84
- Range function p.84
- Parameter description vl p.84
- 96 bus feedback 3 p.84
- 95 bus feedback 2 p.84
- 94 bus feedback 1 p.84
- 91 bus jog 2 speed p.84
- 90 bus jog 1 speed p.84
- 9 bus jog p.84
- 83 slave error count p.84
- 82 slave message count p.84
- Prog features p.85
- Main menu smart logic group 13 p.85
- 0 slc settings p.85
- 01 start event p.86
- Refrigeration drive programming guide p.86
- Parameter description vl p.86
- Option function p.86
- 02 stop event p.86
- Refrigeration drive programming guide p.87
- Parameter description vl p.87
- Option function p.87
- 02 stop event p.87
- 20 sl controller timer p.88
- 2 timers p.88
- 12 comparator value p.88
- 11 comparator operator p.88
- 10 comparator operand p.88
- 1 comtors p.88
- 03 reset slc p.88
- 02 stop event p.88
- Use the result true or false from timers directly to define an event see 13 51 sl controller event or as boolean input in a logic rule see 13 40 logic rule boolean 1 13 42 logic rule boolean 2 or 13 44 logic rule boolean 3 a timer is only false when started by an action i e 29 start timer 1 until the timer value entered in this parameter is elapsed then it becomes true again all parameters in this parameter group are array parameters with index 0 to 2 select index 0 to program timer 0 select index 1 to program timer 1 and so on p.88
- Refrigeration drive programming guide p.88
- Range function p.88
- Parameter description vl p.88
- Option function p.88
- Combine up to three boolean inputs true false inputs from timers comtors digital inputs status bits and events using the logical operators and or and not select boolean inputs for the calculation in 13 40 logic rule boolean 1 13 42 logic rule boolean 2 and 13 44 logic rule boolean 3 define the operators used to logically combine the selected inputs in 13 41 logic rule operator 1 and 13 43 logic rule operator 2 p.88
- 4 logic rules p.88
- Refrigeration drive programming guide p.89
- Priority of calculation the results of 13 40 logic rule boolean 1 13 41 logic rule operator 1 and 13 42 logic rule boolean 2 are calculated first the outcome true false of this calculation is combined with the settings of 13 43 logic rule operator 2 and 13 44 logic rule boolean 3 yielding the final result true false of the logic rule p.89
- Parameter description vl p.89
- Option function p.89
- 40 logic rule boolean 1 p.89
- Option function p.90
- 42 logic rule boolean 2 p.90
- 41 logic rule operator 1 p.90
- 40 logic rule boolean 1 p.90
- Refrigeration drive programming guide p.90
- Parameter description vl p.90
- Refrigeration drive programming guide p.91
- Parameter description vl p.91
- Option function p.91
- 44 logic rule boolean 3 p.91
- 43 logic rule operator 2 p.91
- 42 logic rule boolean 2 p.91
- Refrigeration drive programming guide p.92
- Parameter description vl p.92
- Option function p.92
- 51 sl controller event p.92
- 5 states p.92
- 44 logic rule boolean 3 p.92
- Option function p.93
- 51 sl controller event p.93
- Refrigeration drive programming guide p.93
- Parameter description vl p.93
- Parameters for configuring auto reset handling special trip handling and control card self test or initialisation p.94
- Parameter group for configuring special frequency converter functions p.94
- Parameter description vl p.94
- Option function p.94
- Main menu special functions group 14 p.94
- Enabling over modulation can cause vibrations that may destroy the mechanics if running in field weakening ares from 47 hz p.94
- 20 reset mode p.94
- 12 function at mains imbalance p.94
- 1 mains on off p.94
- 04 pwm random p.94
- 03 overmodulation p.94
- 01 switching frequency p.94
- The output frequency value of the frequency converter must never exceed 1 10 of the switching frequency when the motor is running adjust the switching frequency in 14 01 switching frequency until the motor is as noiseless as possible see also 14 00 switching pattern and the section derating p.94
- 00 switching pattern p.94
- Special functions p.94
- 0 inverter switching p.94
- Refrigeration drive programming guide p.94
- Parameters for configuring mains failure monitoring and handling p.94
- The setting in 14 20 reset mode is disregarded in case of fire mode being active see parameter group 24 0 fire mode p.95
- The motor may start without warning if the specified number of automatic resets is reached within 10 minutes the frequency converter enters 0 manual reset mode after the manual reset is performed the setting of 14 20 reset mode reverts to the original selection if the number of automatic resets is not reached within 10 minutes or when a manual reset is performed the internal automatic reset counter returns to zero p.95
- Refrigeration drive programming guide p.95
- Range function p.95
- Parameter description vl p.95
- Option function p.95
- Automatic reset will also be active for resetting safe stop function in firmware version 4 x p.95
- Application tip if 14 20 reset mode 14 21 automatic restart time is set to auto reset after e g 30 s this should be taken in consid eration if a relay output is set to call for a service technician in case of an alarm by setting 5 40 function relay to 9 alarm and 5 41 on delay relay to 40 s the relay will only activate at either a trip lock alarm or an alarm which could not be auto reset only the relay output can be used for this the digital outputs do not have the on delay feature p.95
- 22 operation mode p.95
- 21 automatic restart time p.95
- 20 reset mode p.95
- 22 operation mode p.96
- Refrigeration drive programming guide p.96
- Range function p.96
- Parameters for adjusting the energy optimisation level in both variable torque vt and automatic energy optimi zation aeo mode p.96
- Parameter description vl p.96
- Option function p.96
- Automatic energy optimization is only active if 1 03 torque characteristics is set for either 2 auto energy optim compressor or 3 auto energy optim vt p.96
- 4 energy optimising p.96
- 32 current lim ctrl filter time p.96
- 31 current lim ctrl integration time p.96
- 30 current lim ctrl proportional gain p.96
- 3 current limit control p.96
- 29 service code p.96
- 28 production settings p.96
- 26 trip delay at inverter fault p.96
- 25 trip delay at torque limit p.96
- The frequency converter features an integral current limit controller which is activated when the motor current and thus the torque is higher than the torque limits set in 4 16 torque limit motor mode and 4 17 torque limit generator mode when the current limit is reached during motor operation or regenerative operation the frequency converter will try to reduce torque below the preset torque limits as quickly as possible without losing control of the motor while the current control is active the frequency converter can only be stopped by setting a digital input to 2 coast inverse or 3coast and reset inv any signal on terminals 18 to 33 will not be active until the frequency converter is no longer near the current limit by using a digital input set to 2 coast inverse or 3 coast and reset inv the motor does not use the ramp down time since the frequency converter is coasted p.96
- 23 typecode setting p.96
- 5 environment p.97
- No trip at inverter overload p.98
- 6 auto derate p.98
- Refrigeration drive programming guide p.99
- Range function p.99
- Parameter description vl p.99
- 62 inv overload derate current p.99
- 06 reset kwh counter p.100
- 05 over volt s p.100
- 04 over temp s p.100
- This parameter will be reset when resetting 15 07 reset running hours counter p.100
- 03 power up s p.100
- The reset is carried out by pressing ok p.100
- 02 kwh counter p.100
- The data log enables continuous logging of up to 4 data sources 15 10 logging source at individual rates 15 11 logging interval a trigger event 15 12 trigger event and window 15 14 samples before trigger are used to start and stop the logging conditionally p.100
- 01 running hours p.100
- Refrigeration drive programming guide p.100
- 00 operating hours p.100
- Range function p.100
- 0 operating data p.100
- Parameter group containing frequency converter information such as operating data hardware configu ration and software versions p.100
- Parameter description vl p.100
- Option function p.100
- Main menu frequency converter information group 15 p.100
- 10 logging source p.100
- 1 data log settings p.100
- 08 number of starts p.100
- 07 reset running hours counter p.100
- 12 trigger event p.101
- Warning word p.101
- 11 logging interval p.101
- View up to 50 logged data items via the array parameters in this parameter group for all parameters in the group 0 is the most recent data and 49 the oldest data data is logged every time an event occurs not to be confused with slc events events in this context are defined as a change in one of the following areas p.101
- 10 logging source p.101
- Status word p.101
- Refrigeration drive programming guide p.101
- Range function p.101
- Parameter description vl p.101
- Option function p.101
- Extended status word p.101
- Digital outputs not monitored in this sw release p.101
- Digital input p.101
- Control word p.101
- Alarm word p.101
- 2 historic log p.101
- 14 samples before trigger p.101
- 13 logging mode p.101
- 20 historic log event p.102
- Refrigeration drive programming guide p.102
- Range function p.102
- Parameters in this group are array parameters where up to 10 fault logs can be viewed 0 is the most recent logged data and 9 the oldest error codes values and time stamp can be viewed for all logged data p.102
- Parameter description vl p.102
- Events are logged with value and time stamp in ms the time interval between two events depends on how often events occur maximum once every scan time data logging is continuous but if an alarm occurs the log is saved and the values can be viewed on the display this feature is useful for example when carrying out service following a trip view the historic log contained in this parameter via the serial communication port or via the display p.102
- 33 alarm log date and time p.102
- 32 alarm log time p.102
- 31 alarm log value p.102
- 30 alarm log error code p.102
- 3 alarm log p.102
- 23 historic log date and time p.102
- 22 historic log time p.102
- 21 historic log value p.102
- 62 option ordering no p.103
- 40 fc type p.103
- 61 option sw version p.103
- 4 drive identification p.103
- 60 option mounted p.103
- 34 alarm log status p.103
- 6 option ident p.103
- 53 power card serial number p.103
- 51 frequency converter serial number p.103
- 50 sw id power card p.103
- 49 sw id control card p.103
- 48 lcp id no p.103
- This read only parameter group contains information about the hardware and software configuration of the options installed in slots a b c0 and c1 p.103
- 47 power card ordering no p.103
- 46 frequency converter ordering no p.103
- Refrigeration drive programming guide p.103
- 45 actual typecode string p.103
- Range function p.103
- 44 ordered typecode string p.103
- Parameters containing read only information about the hardware and software configuration of the frequency converter p.103
- 43 software version p.103
- Parameter description vl p.103
- 42 voltage p.103
- Option function p.103
- 41 power section p.103
- 63 option serial no p.103
- 92 defined parameters p.104
- 77 slot c1 e1 option sw version p.104
- 76 option in slot c1 e1 p.104
- 75 slot c0 e0 option sw version p.104
- 74 option in slot c0 e0 p.104
- 73 slot b option sw version p.104
- 72 option in slot b p.104
- 71 slot a option sw version p.104
- 70 option in slot a p.104
- Refrigeration drive programming guide p.104
- Range function p.104
- Parameter description vl p.104
- 99 parameter metadata p.104
- 98 drive identification p.104
- 93 modified parameters p.104
- 12 motor voltage p.105
- 11 power hp p.105
- 10 power kw p.105
- 1 motor status p.105
- 09 custom readout p.105
- 05 main actual value p.105
- 03 status word p.105
- 02 reference p.105
- 01 reference unit p.105
- Refrigeration drive programming guide p.105
- 00 control word p.105
- Range function p.105
- Parameter description vl p.105
- Main menu data readouts group 16 p.105
- 15 frequency p.105
- 14 motor current p.105
- 13 frequency p.105
- 34 heatsink temp p.106
- 33 brake energy 2 min p.106
- 32 brake energy s p.106
- 30 dc link voltage p.106
- 3 drive status p.106
- Refrigeration drive programming guide p.106
- 22 torque p.106
- Range function p.106
- 18 motor thermal p.106
- Parameter description vl p.106
- 17 speed rpm p.106
- Option function p.106
- 16 torque nm p.106
- 41 lcp bottom statusline p.106
- 40 logging buffer full p.106
- 39 control card temp p.106
- 38 sl controller state p.106
- 37 inv max current p.106
- 36 inv nom current p.106
- 35 inverter thermal p.106
- 54 feedback 1 unit p.107
- 53 digi pot reference p.107
- 52 feedbackunit p.107
- 50 external reference p.107
- 5 ref feedb p.107
- Refrigeration drive programming guide p.107
- Range function p.107
- Parameter description vl p.107
- 60 digital input p.107
- 6 inputs and outputs p.107
- 56 feedback 3 unit p.107
- 55 feedback 2 unit p.107
- 69 pulse output 27 hz p.108
- 68 pulse input 33 hz p.108
- 67 pulse input 29 hz p.108
- Refrigeration drive programming guide p.108
- 66 digital output bin p.108
- Range function p.108
- 65 analog output 42 ma p.108
- 64 analog input 54 p.108
- Parameters for reporting the bus references and control words p.108
- 63 terminal 54 switch setting p.108
- Parameter description vl p.108
- 62 analog input 53 p.108
- Option function p.108
- 61 terminal 53 switch setting p.108
- 8 fieldbus fc port p.108
- 77 analog out x30 8 ma p.108
- 76 analog in x30 12 p.108
- 75 analog in x30 11 p.108
- 73 counter b p.108
- 72 counter a p.108
- 71 relay output bin p.108
- 70 pulse output 29 hz p.108
- 84 comm option stw p.109
- 82 fieldbus ref 1 p.109
- 80 fieldbus ctw 1 p.109
- Refrigeration drive programming guide p.109
- Range function p.109
- Parameter description vl p.109
- 96 maintenance word p.109
- 95 ext status word 2 p.109
- 94 ext status word p.109
- 93 warning word 2 p.109
- 92 warning word p.109
- 91 alarm word 2 p.109
- 90 alarm word p.109
- 9 diagnosis read outs p.109
- 86 fc port ref 1 p.109
- 85 fc port ctw 1 p.109
- Range function p.110
- Parameter description vl p.110
- 96 maintenance word p.110
- Refrigeration drive programming guide p.110
- Main menu data readouts 2 group 18 p.111
- 1 fire mode log p.111
- 0 maintenance log p.111
- Refrigeration drive programming guide p.112
- Range function p.112
- Parameters for reporting the digital and analog i o ports p.112
- Parameter description vl p.112
- 35 analog out x42 11 v p.112
- 34 analog out x42 9 v p.112
- 33 analog out x42 7 v p.112
- 32 analog input x42 5 p.112
- 31 analog input x42 3 p.112
- 30 analog input x42 1 p.112
- 3 analog i o p.112
- 12 fire mode log date and time p.112
- Main menu fc closed loop group 20 p.113
- Loop mode or open loop mode the feedback signals can also be shown on the frequency converter s display be used to control a frequency converter analog output and be transmitted over various serial communication protocols p.113
- Is a registered danfoss trademark p.113
- Illustration 3 1 p.113
- Bus feedback 3 p.113
- Bus feedback 2 p.113
- Bus feedback 1 p.113
- Up to three different feedback signals can be used to provide the feedback signal for the frequency converter s pid controller this parameter defines which input will be used as the source of the first feedback signal analog input x30 11 and analog input x30 12 refer to inputs on the optional general purpose i o board p.113
- Analog input x42 5 p.113
- This parameter group is used to configure the feedback signal for the frequency converter s closed loop pid controller whether the frequency converter is in closed p.113
- Analog input x42 3 p.113
- This parameter group is used for configuring the closed loop pid controller that controls the output frequency of the frequency converter p.113
- Analog input x42 1 p.113
- Refrigeration drive programming guide p.113
- Pulse input 33 p.113
- Analog input x30 12 p.113
- Pulse input 29 p.113
- Analog input x30 11 p.113
- Parameter description vl p.113
- Analog input 54 p.113
- Option function p.113
- Analog input 53 p.113
- No function p.113
- 00 feedback 1 source p.113
- Mg16h102 vl p.113
- 0 feedback p.113
- 06 feedback 3 source p.114
- 05 feedback 2 source unit p.114
- 04 feedback 2 conversion p.114
- 03 feedback 2 source p.114
- 02 feedback 1 source unit p.114
- 01 feedback 1 conversion p.114
- This parameter is only available when using pressure to temperature feedback conversion p.114
- Refrigeration drive programming guide p.114
- Parameter description vl p.114
- Option function p.114
- If a feedback is not used its source must be set to 0 no function 20 20 feedback function determines how the three possible feedbacks will be used by the pid controller p.114
- 07 feedback 3 conversion p.114
- Refrigeration drive programming guide p.115
- Parameter description vl p.115
- Option function p.115
- Any unused feedbacks must be set to no function in 20 00 feedback 1 source 20 03 feedback 2 source or 20 06 feedback 3 source the sum of setpoint 1 and any other references that are enabled see parameter group 3 1 will be used as the pid controller s set point reference p.115
- Any unused feedbacks must be set to no function in 20 00 feedback 1 source 20 03 feedback 2 source or 20 06 feedback 3 source p.115
- Any unused feedbacks must be set to 0 no function in 20 00 feedback 1 source 20 03 feedback 2 source or 20 06 feedback 3 source only setpoint 1 will be used the sum of setpoint 1 and any other references that are enabled see parameter group 3 1 will be used as the pid controller s setpoint reference p.115
- 20 feedback function p.115
- 2 feedback setpoint p.115
- 12 reference feedback unit p.115
- 08 feedback 3 source unit p.115
- This parameter group is used to determine how the frequency converter s pid controller will use the three possible feedback signals to control the output frequency of the frequency converter this group is also used to store the three internal setpoint references p.115
- 3 feedback adv conversion p.116
- Refrigeration drive programming guide p.117
- Refrigerant pressure measurements into temperature values p.117
- Range function p.117
- Parameter description vl p.117
- Option function p.117
- 37 fan 2 area in2 p.117
- 36 fan 2 area m2 p.117
- 35 fan 1 area in2 p.117
- 33 user defined refrigerant a3 p.117
- 32 user defined refrigerant a2 p.117
- 31 user defined refrigerant a1 p.117
- 30 refrigerant p.117
- 7 pid autotuning p.118
- 6 sensorless p.118
- This parameter group is used to configure the basic operation of the frequency converter s pid controller including how it responds to a feedback that is above or below the setpoint the speed at which it first starts functioning and when it will indicate that the system has reached the setpoint p.119
- Refrigeration drive programming guide p.119
- Range function p.119
- Parameter description vl p.119
- Option function p.119
- 81 pid normal inverse control p.119
- 8 pid basic settings p.119
- 79 pid autotuning p.119
- 74 maximum feedback level p.119
- 73 minimum feedback level p.119
- 72 pid output change p.119
- 71 pid performance p.119
- 70 closed loop type p.119
- 84 on reference bandwidth p.120
- 83 pid start speed hz p.120
- 82 pid start speed rpm p.120
- This parameter will only be visible if 0 02 motor speed unit is set to 1 hz p.120
- This parameter will only be visible if 0 02 motor speed unit is set to 0 rpm p.120
- This group provides the ability to manually adjust this pid controller by adjusting the pid controller parameters the control performance may be improved see section pid in the vlt refrigeration drive fc 103 design guide for guidelines on adjusting the pid controller parameters p.120
- Refrigeration drive programming guide p.120
- Range function p.120
- Parameter description vl p.120
- Option function p.120
- If error x gain jumps with a value equal to what is set in 20 14 maximum reference feedb the pid controller will try to change the output speed equal to what is set in 4 13 motor speed high limit rpm 4 14 motor speed high limit hz but in practice of course limited by this setting the proportional band error causing output to change from 0 100 can be calculated by means of the formula p.120
- Always set the desired for 20 14 maximum reference feedb before setting the values for the pid controller in parameter group 20 9 p.120
- 93 pid proportional gain p.120
- 91 pid anti windup p.120
- 9 pid controller p.120
- Parameter description vl p.121
- 96 pid diff gain limit p.121
- 95 pid differentiation time p.121
- 94 pid integral time p.121
- Refrigeration drive programming guide p.121
- Range function p.121
- Main menu extended closed loop group 21 p.122
- Ext closed loop p.122
- 0 extended cl autotuning p.122
- Refrigeration drive programming guide p.123
- Range function p.123
- Parameter description vl p.123
- Option function p.123
- 10 ext 1 ref feedback unit p.123
- 1 closed loop 1 ref feedback p.123
- 09 pid autotuning p.123
- 04 maximum feedback level p.123
- 03 minimum feedback level p.123
- 02 pid output change p.123
- 01 pid performance p.123
- Refrigeration drive programming guide p.124
- Range function p.124
- Parameter description vl p.124
- Option function p.124
- Always set the desired value for 21 12 ext 1 maximum reference before setting the values for the pid controller in parameter group 20 9 p.124
- 14 ext 1 feedback source p.124
- 13 ext 1 reference source p.124
- 12 ext 1 maximum reference p.124
- 11 ext 1 minimum reference p.124
- 10 ext 1 ref feedback unit p.124
- 20 ext 1 normal inverse control p.125
- 2 closed loop 1 pid p.125
- 19 ext 1 output p.125
- 18 ext 1 feedback unit p.125
- Refrigeration drive programming guide p.125
- 17 ext 1 reference unit p.125
- Range function p.125
- 15 ext 1 setpoint p.125
- Parameter description vl p.125
- Option function p.125
- If error x gain jumps with a value equal to what is set in 20 14 maximum reference feedb the pid controller will try to change the output speed equal to what is set in 4 13 motor speed high limit rpm 4 14 motor speed high limit hz but in practice of course limited by this setting the proportional band error causing output to change from 0 100 can be calculated by means of the formula p.125
- Always set the desired for 20 14 maximum reference feedb before setting the values for the pid controller in parameter group 20 9 p.125
- 30 ext 2 ref feedback unit p.125
- 3 closed loop 2 ref fb p.125
- 24 ext 1 dif gain limit p.125
- 23 ext 1 differentation time p.125
- 22 ext 1 integral time p.125
- 21 ext 1 proportional gain p.125
- 33 ext 2 reference source p.126
- 32 ext 2 maximum reference p.126
- 31 ext 2 minimum reference p.126
- 30 ext 2 ref feedback unit p.126
- Refrigeration drive programming guide p.126
- Range function p.126
- Parameter description vl p.126
- Option function p.126
- 37 ext 2 reference unit p.126
- 35 ext 2 setpoint p.126
- 34 ext 2 feedback source p.126
- 5 closed loop 3 ref fb p.127
- 44 ext 2 dif gain limit p.127
- 43 ext 2 differentation time p.127
- 42 ext 2 integral time p.127
- 41 ext 2 proportional gain p.127
- 40 ext 2 normal inverse control p.127
- 4 closed loop 2 pid p.127
- 39 ext 2 output p.127
- 38 ext 2 feedback unit p.127
- Refrigeration drive programming guide p.127
- Range function p.127
- Parameter description vl p.127
- Option function p.127
- 52 ext 3 maximum reference p.127
- 51 ext 3 minimum reference p.127
- 50 ext 3 ref feedback unit p.127
- 61 ext 3 proportional gain p.128
- 60 ext 3 normal inverse control p.128
- 6 closed loop 3 pid p.128
- 59 ext 3 output p.128
- 58 ext 3 feedback unit p.128
- 57 ext 3 reference unit p.128
- 55 ext 3 setpoint p.128
- 54 ext 3 feedback source p.128
- 53 ext 3 reference source p.128
- Refrigeration drive programming guide p.128
- Range function p.128
- Parameter description vl p.128
- Option function p.128
- 64 ext 3 dif gain limit p.128
- 63 ext 3 differentation time p.128
- 62 ext 3 integral time p.128
- Main menu application functions group 22 p.129
- Caution p.129
- 2 no flow detection p.129
- Caution p.130
- 3 no flow power tuning p.132
- 4 sleep mode p.133
- Fc 103 p.134
- External pid controller p.134
- When low power or low speed is detected the motor is stopped but the reference signal p.134
- Bb188 1 p.134
- The speed is set manually by an external reference signal remote reference the settings parameter group 22 3 for tuning of the no flow function must be set to default p.134
- The motor will ramp up again and pressure will be controlled for reaching the set value p.134
- The motor restarts p.134
- Refrigeration drive programming guide p.134
- Parameter description vl p.134
- Mg16h102 vl p.134
- Is a registered danfoss trademark 133 p.134
- In systems where the pressure or temperature is controlled by an external pi controller the wake up conditions can not be based on feedback from the pressure temperature transducer as the setpoint is not known in the example with a boost system desired pressure pset is not known par 1 00 configuration mode must be set for open loop example boost system p.134
- Illustration 3 9 p.134
- Illustration 3 8 p.134
- Illustration 3 7 p.134
- If no flow is detected the frequency converter will increase the set point for pressure to ensure a slight over pressure in the system boost to be set in 22 45 setpoint boost the feedback from the pressure transducer is monitored and when this pressure has dropped with a set percentage below the normal set point for pressure p.134
- From the external controller is still monitored and because of the low pressure created the controller will increase the reference signal to gain pressure when the reference signal has reached a set value p.134
- 41 minimum sleep time p.135
- 40 minimum run time p.135
- Sleep mode will not be active when local reference is active set speed manually by means of arrow buttons on the local control panel see par 3 13 reference site does not work in hand mode auto set up in open loop must be carried out before setting input output in closed loop p.135
- Refrigeration drive programming guide p.135
- Range function p.135
- Parameter description vl p.135
- If used in application where the integrated pi controller is set for inverse control e g cooling tower applications in 20 71 pid performance the value set in 22 44 wake up ref fb difference will automatically be added p.135
- 46 maximum boost time p.135
- 45 setpoint boost p.135
- 44 wake up ref fb difference p.135
- 43 wake up speed hz p.135
- 42 wake up speed rpm p.135
- 6 broken belt detection p.136
- 5 end of curve p.136
- 8 flow compensation p.137
- 7 short cycle protection p.137
- 81 square linear curve approximation p.138
- 80 flow compensation p.138
- When flow compensation is used with the cascade controller parameter group 25 the actual set point will not depend on speed flow but on the number of pumps cut in see below p.138
- There are two methods which can be employed depending upon whether or not the speed at system design working point is known p.138
- Refrigeration drive programming guide p.138
- Range function p.138
- Parameter description vl p.138
- Option function p.138
- Not visible when running in cascade p.138
- Refrigeration drive programming guide p.139
- Range function p.139
- Parameter description vl p.139
- Option function p.139
- 83 speed at no flow rpm p.139
- 82 work point calculation p.139
- 86 speed at design point hz p.140
- 85 speed at design point rpm p.140
- 84 speed at no flow hz p.140
- Refrigeration drive programming guide p.140
- Range function p.140
- Parameter description vl p.140
- Also see 22 82 work point calculation point d p.140
- Also see 22 82 work point calculation point c p.140
- Also see 22 82 work point calculation point a p.140
- 90 flow at rated speed p.140
- 89 flow at design point p.140
- 88 pressure at rated speed p.140
- 87 pressure at no flow speed p.140
- Main menu time based functions group 23 p.141
- 0 timed actions p.141
- Parameter description vl p.142
- Option function p.142
- 03 off action p.142
- 02 off time p.142
- The frequency converter has no back up of the clock function and the set date time will reset to default 2000 01 01 00 00 after a power down unless a real time clock module with back up is installed in 0 79 clock fault it is possible to program for a warning in case clock has not been set properly e g after a power down p.142
- Refrigeration drive programming guide p.142
- Range function p.142
- 1 maintenance p.143
- 0 timed actions settings p.143
- The preventive maintenance events are defined in a 20 element array hence each preventive maintenance event must use the same array element index in 23 10 maintenance item to 23 14 maintenance date and time p.144
- The lcp indicates with a wrench icon and an m when it is time for a preventive maintenance action and can be programmed to be indicated on a digital output in parameter group 5 3 the preventive maintenance status may be read in 16 96 maintenance word a preventive maintenance indication can be reset from a digital input the fc bus or manually from the lcp through 23 15 reset maintenance word p.144
- Refrigeration drive programming guide p.144
- Parameter description vl p.144
- Option function p.144
- A maintenance log with the latest 10 loggings can be read from parameter group 18 0 and via the alarm log key on the lcp after selecting maintenance log p.144
- 10 maintenance item p.144
- 13 maintenance time interval p.145
- 12 maintenance time base p.145
- 11 maintenance action p.145
- 1 maintenance reset p.145
- When mounting an analog i o mcb 109 option card a battery back up of the date and time is included p.145
- The frequency converter has no back up of the clock function and the set date time will reset to default 2000 01 01 00 00 after a power down in 0 79 clock fault it is possible to program for a warning in case the clock has not been set properly e g after a power down the time set must be at least one hour from the actual time p.145
- Refrigeration drive programming guide p.145
- Range function p.145
- Parameter description vl p.145
- Option function p.145
- 15 reset maintenance word p.145
- 14 maintenance date and time p.145
- 5 energy log p.146
- Range function p.147
- Parameter description vl p.147
- Option function p.147
- All counters are automatically reset when changing the setting in 23 50 energy log resolution at overflow the update of the counters will stop at maximum value p.147
- 53 energy log p.147
- 51 period start p.147
- 50 energy log resolution p.147
- When mounting an analog i o mcb 109 option card a battery back up of the date and time is included p.147
- The frequency converter has no back up of the clock function and the set date time will reset to default 2000 01 01 00 00 after a power down unless a real time clock module with back up is installed consequently the logging will be stopped until date time is readjusted in 0 70 set date and time in 0 79 clock fault it is possible to program for a warning in case clock not has been set properly e g after a power down p.147
- Refrigeration drive programming guide p.147
- 6 trending p.148
- When mounting an analog i o mcb 109 option card a battery back up of the date and time is included p.149
- The frequency converter has no back up of the clock function and the set date time will reset to default 2000 01 01 00 00 after a power down unless a real time clock module with back up is installed consequently the logging will be stopped until date time is readjusted in 0 70 set date and time in 0 79 clock fault it is possible to program for a warning in case clock not has been set properly e g after a power down p.149
- Refrigeration drive programming guide p.149
- Range function p.149
- Parameter description vl p.149
- Option function p.149
- 66 reset continuous bin data p.149
- 65 minimum bin value p.149
- 64 timed period stop p.149
- 63 timed period start p.149
- 62 timed bin data p.149
- 61 continuous bin data p.149
- The vlt refrigeration drive fc 103 includes a feature which can give a rough calculation on payback in cases where the frequency converter has been installed in an existing plant to ensure energy saving by changing from fixed to variable speed control reference for the savings is a set value to represent the average power yielded before the upgrade with variable speed control p.150
- The difference between the reference power at fixed speed and the actual power yielded with speed control represent the actual saving p.150
- Refrigeration drive programming guide p.150
- Range function p.150
- Parameter description vl p.150
- Option function p.150
- Break even payback occurs when the value read in the parameter turns from negative to positive p.150
- As value for the fixed speed case the rated motor size kw is multiplied with a factor set in representing the power produced at fixed speed the difference between this reference power and the actual power is accumulated and stored the difference in energy can be read in 23 83 energy savings the accumulated value for the difference in power consumption is multiplied with the energy cost in local currency and the investment is subtracted this calculation for cost savings can also be read in 23 84 cost savings p.150
- 84 cost savings p.150
- 83 energy savings p.150
- 82 investment p.150
- 81 energy cost p.150
- 80 power reference factor p.150
- 8 payback counter p.150
- 67 reset timed bin data p.150
- Main menu pack controller group 25 p.151
- Pack controller p.151
- This parameter can only be 1 enabled if 22 75 short cycle protection is set to 0 disabled p.152
- Refrigeration drive programming guide p.152
- Range function p.152
- Parameters related to control principles and configuration of the system p.152
- Parameters for setting the zones within which the pressure will be allowed to operate before staging destaging fixed speed compressors also includes various timers to stabilize control p.152
- Parameter description vl p.152
- Option function p.152
- 20 neutral zone unit p.152
- 2 zone settings p.152
- 06 number of compressors p.152
- 04 compressor cycling p.152
- 00 cascade controller p.152
- 0 system settings p.152
- 21 zone unit p.153
- 20 neutral zone unit p.153
- Refrigeration drive programming guide p.153
- Range function p.153
- Parameter description vl p.153
- 25 zone delay p.153
- 24 zone delay p.153
- 23 fixed speed neutral zone unit p.153
- 22 zone unit p.153
- Option function p.154
- 34 destage function time p.154
- 33 destage function p.154
- 32 stage function time p.154
- 31 stage function p.154
- 3 staging functions p.154
- 27 zone delay p.154
- 26 zone delay p.154
- 25 zone delay p.154
- Refrigeration drive programming guide p.154
- Range function p.154
- Parameters for setting the staging and destaging functions used to avoid frequent staging and destaging of fixed speed compressors p.154
- Parameter description vl p.154
- Refrigeration drive programming guide p.155
- Range function p.155
- Parameters determining conditions for staging destaging the compressors p.155
- Parameter description vl p.155
- Option function p.155
- 46 destaging speed rpm p.155
- 45 staging speed hz p.155
- 44 staging speed rpm p.155
- 43 destaging threshold p.155
- 42 staging threshold p.155
- 4 staging settings p.155
- 46 destaging speed rpm p.156
- Refrigeration drive programming guide p.156
- Readout parameters informing about the operating status of the pack controller and the compressors controlled p.156
- Parameter description vl p.156
- Option function p.156
- 81 compressor status p.156
- 80 pack status p.156
- 8 status p.156
- 47 destaging speed hz p.156
- 91 manual alternation p.157
- 90 compressor interlock p.157
- 9 service p.157
- 86 reset relay counters p.157
- 85 relay on time p.157
- 84 compressor on time p.157
- 83 relay status p.157
- 82 lead compressor p.157
- Refrigeration drive programming guide p.157
- Range function p.157
- Parameters used in case of service on one or more of the compressors controlled p.157
- Parameter description vl p.157
- Option function p.157
- Array 2 p.157
- The analog i o option mcb 109 extends the functionality of vlt refrigeration drive fc 103 series frequency converters by adding a number of additional programmable analog inputs and outputs this could be especially useful in building management system instal lations where the frequency converter may be used as decentral i o obviating the need for an outstation and thus reducing cost p.158
- Refrigeration drive programming guide p.158
- Parameter description vl p.158
- Mg16h102 vl p.158
- Main menu analog i o option mcb 109 group 26 p.158
- Is a registered danfoss trademark 157 p.158
- Illustration 3 9 p.158
- Illustration 3 8 p.158
- Consider the diagram p.158
- Analog i o option mcb 109 26 p.158
- Where live zero monitoring is used it is important that any analog inputs not being used for the frequency controller i e being used as of the building management system decentral i o should have their live zero function disabled p.159
- This shows a typical air handling unit ahu as can be seen the addition of the analog i o option offers the possibility to control all of the functions from the frequency converter such as inlet return and excaust dampers or heating cooling coils with temperature and pressure measurements being read by the frequency converter p.159
- The maximum current for the analog outputs 0 10 v is 1 ma p.159
- The analog i o option incorporates a real time clock with battery back up this can be used as back up of the clock function included in the frequency converter as standard see section clock settings parameter group 0 7 p.159
- The analog i o option can be used for the control of devices such as actuators or valves using the extended closed loop facility thus removing control from the building management system see 3 6 main menu extended closed loop group 21 there are three independent closed loop pid controllers p.159
- Setting of on board real time clock p.159
- Refrigeration drive programming guide p.159
- Parameter description vl p.159
- It is also possible to read the analog inputs write to the analog outputs and control the relays using communi cation via the serial bus in this instance these are the relevant parameters p.159
- Warning p.160
- 1 analog input x42 1 p.160
- 20 terminal x42 3 low voltage p.161
- 2 analog input x42 3 p.161
- This parameter cannot be adjusted while the motor is running p.161
- 17 term x42 1 live zero p.161
- Refrigeration drive programming guide p.161
- 16 term x42 1 filter time constant p.161
- Range function p.161
- 15 term x42 1 high ref feedb value p.161
- Parameter description vl p.161
- Option function p.161
- 34 term x42 5 low ref feedb value p.161
- 31 terminal x42 5 high voltage p.161
- 30 terminal x42 5 low voltage p.161
- 3 analog input x42 5 p.161
- 27 term x42 3 live zero p.161
- 26 term x42 3 filter time constant p.161
- 25 term x42 3 high ref feedb value p.161
- 24 term x42 3 low ref feedb value p.161
- 21 terminal x42 3 high voltage p.161
- 36 term x42 5 filter time constant p.162
- 35 term x42 5 high ref feedb value p.162
- This parameter cannot be adjusted while the motor is running p.162
- See principle graph for 6 52 terminal 42 output max scale p.162
- Refrigeration drive programming guide p.162
- Range function p.162
- Parameter description vl p.162
- Option function p.162
- 43 terminal x42 7 bus control p.162
- 42 terminal x42 7 max scale p.162
- 41 terminal x42 7 min scale p.162
- 40 terminal x42 7 output p.162
- 4 analog input x42 7 p.162
- 37 term x42 5 live zero p.162
- 51 terminal x42 9 min scale p.163
- 50 terminal x42 9 output p.163
- 5 analog input x42 9 p.163
- 44 terminal x42 7 timeout preset p.163
- See principle graph for 6 52 terminal 42 output max scale p.163
- See principle graph for 6 51 terminal 42 output min scale p.163
- Refrigeration drive programming guide p.163
- Range function p.163
- Parameter description vl p.163
- Option function p.163
- 60 terminal x42 11 output p.163
- 6 analog input x42 11 p.163
- 54 terminal x42 9 timeout preset p.163
- 53 terminal x42 9 bus control p.163
- 52 terminal x42 9 max scale p.163
- 64 terminal x42 11 timeout preset p.164
- 63 terminal x42 11 bus control p.164
- 62 terminal x42 11 max scale p.164
- 61 terminal x42 11 min scale p.164
- 60 terminal x42 11 output p.164
- See principle graph for 6 52 terminal 42 output max scale p.164
- See principle graph for 6 51 terminal 42 output min scale p.164
- Refrigeration drive programming guide p.164
- Range function p.164
- Parameter description vl p.164
- Option function p.164
- Main menu compressor functions group 28 p.165
- 2 discharge temperature monitor p.165
- 73 night setback p.166
- 72 enable day night via bus p.166
- 71 day night bus indicator p.166
- 7 day night control p.166
- 27 discharge temperature p.166
- 26 emergency level p.166
- The fc 103 supports the vlt refrigeration drive p0 optimisation feature this enables automatic adaptation of the suction pressure to optimally match the system s actual load to enable this function 20 25 setpoint type must be set to floating the frequency converter now accepts setpoint changes from the lon bus the frequency converter assures that the set minimum and maximum limits for the feedback suction pressure are observed p.166
- 25 warning action p.166
- Refrigeration drive programming guide p.166
- 24 warning level p.166
- Range function p.166
- Parameter description vl p.166
- Option function p.166
- In day night control mode compressor runs normally during day time while it runs with increased setpoint during night time the condenser fans run normally during day time while they run with reduced maximum speed limit during night time there are three sources of day or night indication in the frequency converter digital input parameter group 5 1 timed actions parameter group 23 and lon bus parameter group 28 7 the day night control action is active if 20 25 setpoint type is set to fixed with night setback p.166
- 81 dp0 offset p.166
- 8 p0 optimization p.166
- 75 night speed drop override p.166
- 74 night speed drop p.166
- 9 injection control p.167
- 86 p0 maximum reference p.167
- 85 p0 minimum reference p.167
- 84 p0 reference p.167
- 83 p0 setpoint p.167
- 81 dp0 offset p.167
- The injection on off signal is a forced close signal to the case controllers to turn display cases off the signal is distributed by following means hardwired through a digital output relay or soft wired via bus by gateway or system manager p.167
- Refrigeration drive programming guide p.167
- Range function p.167
- Parameter description vl p.167
- 91 delayed compressor start p.167
- 90 injection_on p.167
- Set up all set up the parameter can be set individually in each of the four set ups i e one single parameter can have four different data values p.168
- Refrigeration drive programming guide p.168
- Parameter options p.168
- Parameter lists vl p.168
- Parameter lists p.168
- N a no default value available p.168
- Default settings p.168
- Conversion index this number refers to a conversion figure used when writing or reading by means of a frequency converter p.168
- Changes during operation true means that the parameter can be changed while the frequency converter is in operation and false means that the frequency converter must be stopped before a change can be made p.168
- 1 set up data value will be the same in all set ups p.168
- Sr size related p.168
- Refrigeration drive programming guide p.169
- Parameter lists vl p.169
- Par no parameter description default value 4 set up change during operation p.169
- Operation and display p.169
- Conver sion index type p.169
- Refrigeration drive programming guide p.170
- Parameter lists vl p.170
- Par no parameter description default value 4 set up change during operation p.170
- Load motor p.170
- Conver sion index type p.170
- Refrigeration drive programming guide p.171
- Parameter lists vl p.171
- Par no parameter description default value 4 set up change during operation p.171
- Conver sion index type p.171
- Brakes p.171
- Refrigeration drive programming guide p.172
- Reference ramps p.172
- Parameter lists vl p.172
- Par no parameter description default value 4 set up change during operation p.172
- Conver sion index type p.172
- Refrigeration drive programming guide p.173
- Parameter lists vl p.173
- Par no parameter description default value 4 set up change during operation p.173
- Limits warnings p.173
- Digital in out p.173
- Conver sion index type p.173
- Refrigeration drive programming guide p.174
- Parameter lists vl p.174
- Par no parameter description default value 4 set up change during operation p.174
- Conver sion index type p.174
- Analog in out p.174
- Refrigeration drive programming guide p.175
- Parameter lists vl p.175
- Par no parameter description default value 4 set up change during operation p.175
- Conver sion index type p.175
- Refrigeration drive programming guide p.176
- Parameter lists vl p.176
- Par no parameter description default value 4 set up change during operation p.176
- Conver sion index type p.176
- Communication and options p.176
- Smart logic controller p.177
- Refrigeration drive programming guide p.177
- Parameter lists vl p.177
- Par no parameter description default value 4 set up change during operation p.177
- Fc 103 lon p.177
- Conver sion index type p.177
- Conver sion index type p.178
- Special functions p.178
- Refrigeration drive programming guide p.178
- Parameter lists vl p.178
- Par no parameter description default value 4 set up change during operation p.178
- Fc information p.178
- Refrigeration drive programming guide p.179
- Parameter lists vl p.179
- Par no parameter description default value 4 set up change during operation p.179
- Conver sion index type p.179
- Refrigeration drive programming guide p.180
- Parameter lists vl p.180
- Par no parameter description default value 4 set up change during operation p.180
- Data readouts p.180
- Conver sion index type p.180
- Info readouts p.181
- Conver sion index type p.181
- Refrigeration drive programming guide p.181
- Parameter lists vl p.181
- Par no parameter description default value 4 set up change during operation p.181
- Refrigeration drive programming guide p.182
- Parameter lists vl p.182
- Par no parameter description default value 4 set up change during operation p.182
- Fc closed loop p.182
- Conver sion index type p.182
- Refrigeration drive programming guide p.183
- Parameter lists vl p.183
- Par no parameter description default value 4 set up change during operation p.183
- Ext closed loop p.183
- Conver sion index type p.183
- Par no parameter description default value 4 set up change during operation p.184
- Conver sion index type p.184
- Application functions p.184
- Refrigeration drive programming guide p.184
- Parameter lists vl p.184
- Time based funtions p.185
- Refrigeration drive programming guide p.185
- Parameter lists vl p.185
- Par no parameter description default value 4 set up change during operation p.185
- Conver sion index type p.185
- Refrigeration drive programming guide p.186
- Parameter lists vl p.186
- Par no parameter description default value 4 set up change during operation p.186
- Pack controller p.186
- Conver sion index type p.186
- Parameter lists vl p.187
- Par no parameter description default value 4 set up change during operation p.187
- Conver sion index type p.187
- Analog i o option mcb 109 p.187
- Refrigeration drive programming guide p.187
- Refrigeration drive programming guide p.188
- Parameter lists vl p.188
- Par no parameter description default value 4 set up change during operation p.188
- Conver sion index type p.188
- Compressor functions p.188
- Refrigeration drive programming guide p.189
- Parameter lists vl p.189
- Par no parameter description default value 4 set up change during operation p.189
- Conver sion index type p.189
- Troubleshooting p.190
- Alarms and warnings p.190
- Troubleshooting vl p.191
- Refrigeration drive programming guide p.191
- No description warning alarm trip alarm trip lock parameter reference p.191
- Alarm word and extended status word p.192
- Troubleshooting vl p.192
- The alarm words warning words and extended status words can be read out via serial bus or optional fieldbus for diagnosis see also 16 90 alarm word 16 92 warning word and 16 94 ext status word p.192
- Refrigeration drive programming guide p.192
- Troubleshooting vl p.193
- Refrigeration drive programming guide p.193
- Alarm words p.193
- Warning words p.194
- Troubleshooting vl p.194
- Refrigeration drive programming guide p.194
- Troubleshooting vl p.195
- Refrigeration drive programming guide p.195
- Extended status words p.195
- Fault messages p.196
- Warning p.197
- Www danfoss com drives p.203
- Mg16h102 p.203
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