Page 1 Programming Guide TR200 BAS-SVP04A-EN BAS-SVP04A-EN December 2008...
Page 2: Table Of Contents
Table of Contents Safety High Voltage Warning Before Commencing Repair Work Special Conditions IT Mains Introduction Copyright, Limitation of Liability and Revision Rights Abbreviations Definitions How to Program Keypad How to operate graphical keypad Quick Menu mode Function Setups Main Menu Mode Parameter Description Parameter Selection Main Menu Structure...
Page 3 Main Menu - Special Functions -Group 14 Main Menu - Frequency Converter Information - Group 15 Main Menu - Data Readouts - Group 16 Main Menu - Data Readouts 2 - Group 18 Main Menu - FC Closed Loop - Group 20 Main Menu - Extended Closed Loop - TR200 - Group 21 Main Menu - Application Functions - TR200 - Group 22 Main Menu - Time-based Functions - TR200 - Group 23...
Page 4 14-** Special Functions 15-** FC Information 16-** Data Readouts 18-** Info & Readouts 20-** FC Closed Loop 21-** Ext. Closed Loop 22-** Application Functions 23-** Time Based Funtions 24-** Application Functions 2 Index TR200 Programming Guide...
Page 5: Safety
Safety Warnings, Cautions and Notices Note that warnings, cautions and notices appear at appropriate intervals throughout this manual. Warnings are provide to alert installing contractors to potential hazards that could result in personal injury or death. Cautions are designed to alert personnel to hazardous situations that could result in personal injury, while notices indicate a situation that could result in equipment or property-damage-only accidents.
Page 6: High Voltage Warning
Safety High Voltage Warning WARNING The voltage of the frequency converter and the MCO 101 option card is dangerous whenever it is connected to mains. Incorrect installation of the motor or frequency converter could result indeath, serious injury or damage to the equip- ment.
Page 7 Installation at high altitude: 380 - 500 V, enclosure A, B and C: At altitudes above 2 km (6,561 ft), please contact Trane regarding PELV/Class II. 380 - 500 V, enclosure D, E and F: At altitudes above 3 km (9,842 ft), please contact Trane regarding PELV/Class II.
Page 8 Safety Voltage (V) Min. Waiting Time (Minutes) 200 - 240 1.1 - 3.7 kW 5.5 - 45 kW 380 - 480 1.1 - 7.5 kW 11 - 90 kW 110 - 250 kW 315 - 1000 kW 525-600 1.1 - 7.5 kW 11 - 90 kW 525-690 11 - 90 kW...
Page 9: Before Commencing Repair Work
Safety Before Commencing Repair Work WARNING Hazardous Voltage! Disconnect the frequency converter from mains Disconnect DC bus terminals 88 and 89 Wait at least the time mentioned in section General Warning above Remove motor cable Failure to follow recommendations could result in death or serious injury. Special Conditions Electrical ratings: The rating indicated on the nameplate of the frequency converter is based on a typical 3-phase mains power...
Page 10 Safety Software Version and Approvals: TR200 TR200 Software version: 1.1.x This manual can be used with all TR200 frequency converters with software version 1.1.x. The software version number can be seen from par.15-43 Software Version. Disposal Instruction Equipment containing electrical components must not be disposed of together with domestic waste.
Page 11: Introduction
Trane reserves the right to revise this publication at any time and to make changes to its contents without prior notice or any obligation to notify former or present users of such revisions or changes.
Page 12: Abbreviations
Design Guide entails all technical information about the drive and customer design and applications. Programming Guide (this manual) provides information on how to program and includes complete param- eter descriptions. www.trane.com/vfd Trane technical literature is available in print from your local Trane Sales Office or online at: TR200 Programming Guide...
Page 13: Definitions
Introduction Definitions Frequency converter: D-TYPE Size and type of the connected frequency converter (dependencies). I DRIVE,MAX The maximum output current. I DRIVE,N The rated output current supplied by the frequency converter. U DRIVE, MAX The maximum output voltage. Input: Group 1 Reset, Coasting stop, Reset and Coasting stop, Quick-stop, DC braking, Stop and Control command...
Page 14 Introduction The instantaneous motor voltage. U M,N The rated motor voltage (nameplate data). Break-away torque η DRIVE The efficiency of the frequency converter is defined as the ratio between the power output and the power input. Start-disable command A stop command belonging to the group 1 control commands - see this group. Stop command See Control commands.
Page 15 Introduction Miscellaneous: Analog Inputs The analog inputs are used for controlling various functions of the frequency converter. There are two types of analog inputs: Current input, 0-20 mA and 4-20 mA Voltage input, 0-10 V DC () Voltage input, -10 - +10 V DC (). Analog Outputs The analog outputs can supply a signal of 0-20 mA, 4-20 mA.
Page 16 Introduction On-line/Off-line Parameters Changes to on-line parameters are activated immediately after the data value is changed. Changes to off-line parameters are not activated until you enter [OK] on the keypad. Process PID The PID regulator maintains the desired speed, pressure, temperature, etc. by adjusting the output frequency to match the varying load.
Page 17 Introduction VVC plus If compared with standard voltage/frequency ratio control, Voltage Vector Control (VVC plus ) improves the dy- namics and the stability, both when the speed reference is changed and in relation to the load torque. 60° AVM Switching pattern called 60°Asynchronous Vector Modulation (par.14-00 Switching Pattern).
Page 18 Introduction Safety Precautions WARNING The voltage of the frequency converter is dangerous whenever connected to mains. Incorrect installation of the motor, frequency converter or fieldbus may cause death, serious personal injury or damage to the equipment. Consequently, the instructions in this manual, as well as national and local rules and safety regulations, must be complied with. WARNING Safety Regulations The mains supply to the frequency converter must be disconnected whenever repair work is to be carried out.
Page 19 Introduction WARNING Warning against unintended start The motor can be brought to a stop by means of digital commands, bus commands, references or a local stop, while the frequency converter is connected to mains. If personal safety considerations (e.g. risk of personal injury caused by contact with moving machine parts following an unintentional start) make it necessary to ensure that no unintended start occurs, these stop functions are not sufficient.
Page 20 Introduction Protection Mode Once a hardware limit on motor current or dc-link voltage is exceeded the drive will enter “Protection mode”. “Protection mode” means a change of the PWM modulation strategy and a low switching frequency to minimize losses. This continues 10 sec after the last fault and increases the reliability and the robustness of the drive while re-establishing full control of the motor.
Page 21: How To Program
How to Program Keypad How to operate graphical keypad The following instructions are valid for the keypad. The keypad is divided into four functional groups: Graphical display with Status lines. Menu keys and indicator lights (LED's) - selecting mode, changing parameters and switching between dis- play functions.
Page 22 How to Program The display is divided into 3 sections: Top section (a) shows the status when in status mode or up to 2 variables when not in status mode and in the case of Alarm/Warning. The number of the Active Set-up (selected as the Active Set-up in par.0-10 Active Set-up) is shown.
Page 23 How to Program Status display III: This state displays the event and action of the Smart Logic Control. For further information, see section Smart Logic Control Display Contrast Adjustment ▲ Press [status] and [ ] for darker display ▼ Press [status] and [ ] for brighter display Top section Middle section...
Page 24 How to Program Keys Menu keys The menu keys are divided into functions. The keys below the display and indicator lamps are used for parameter set-up, including choice of display indica- tion during normal operation. [Status] indicates the status of the frequency converter and/or the motor. 3 different readouts can be chosen by pressing the [Status] key: 5 line readouts, 4 line readouts or Smart Logic Control.
Page 25 How to Program [Back] reverts to the previous step or layer in the navigation structure. [Cancel] last change or command will be cancelled as long as the display has not been changed. [Info] displays information about a command, parameter, or function in any display window. [Info] provides detailed information when needed.
Page 26 Quick Transfer of Parameter Settings between Multiple Frequency Converters Once the set-up of a frequency converter is complete, we recommend that you store the data in the keypad or on a PC via Trane Drive Utility. Data storage in keypad: Go to par.0-50...
Page 27: Quick Menu Mode
How to Program Data transfer from keypad to frequency converter: Go to par.0-50 LCP Copy Press the [OK] key Select “All from keypad” Press the [OK] key The parameter settings stored in the keypad are now transferred to the frequency converter indicated by the progress bar.
Page 28 How to Program Example of changing parameter data Assume parameter 22-60 is set to [Off]. However, you want to monitor the fan-belt condition - non- broken or broken - according to the following procedure: Press Quick Menu key ▼ Choose Function Setups with the [ ] button Press [OK] ▼...
Page 29 How to Program Example of using the Quick Setup option: Assume you want to set the Ramp Down Time to 100 seconds! Select [Quick Setup]. The first par.0-01 Language in Quick Setup appears ▼ Press [ ] repeatedly until par.3-42 Ramp 1 Ramp Down Time appears with the default setting of 20 seconds Press [OK]...
Page 30 How to Program Parameter [Units] par.0-01 Language par.1-20 Motor Power [kW] [kW] par.1-21 Motor Power [HP] [HP] par.1-22 Motor Voltage* par.1-23 Motor Frequency [Hz] par.1-24 Motor Current par.1-25 Motor Nominal Speed [RPM] par.1-28 Motor Rotation Check [Hz] par.3-41 Ramp 1 Ramp up Time par.3-42 Ramp 1 Ramp Down Time par.4-11...
Page 31: Function Setups
How to Program Function Setups The Function set-up provides quick and easy access to all parameters required for the majority of TR200 appli- cations including most VAV and CAV supply and return fans, cooling tower fans, Primary, Secondary and Condenser Water Pumps and other pump, fan and compressor applications. How to access Function set-up - example Illustration 3.
Page 32 How to Program Function Set-ups parameters The Function Setups parameters are grouped in the following way: Q3-1 General Settings Q3-10 Adv. Motor Set- Q3-11 Analog Output Q3-12 Clock Settings Q3-13 Display Settings tings par.1-90 Motor Thermal par.6-50 Terminal 42 Out- par.0-70 Date and Time par.0-20...
Page 33 How to Program Q3-3 Closed Loop Settings Q3-30 Single Zone Int. Set Point Q3-31 Single Zone Ext. Set Point par.1-00 Configuration Mode par.1-00 Configuration Mode Par.20-12 Reference/Feedback Unit Par.20-12 Reference/Feedback Unit par.20-13 Minimum Reference/Feedb. par.20-13 Minimum Reference/Feedb. par.20-14 Maximum Reference/Feedb. par.20-14 Maximum Reference/Feedb.
Page 34 How to Program Q3-3 Closed Loop Settings Q3-32 Multi Zone / Adv par.1-00 Configuration Mode par.3-15 Reference 1 Source par.3-16 Reference 2 Source par.20-00 Feedback 1 Source par.20-01 Feedback 1 Conversion par.20-02 Feedback 1 Source Unit par.20-03 Feedback 2 Source par.20-04 Feedback 2 Conversion par.20-05...
Page 35 How to Program Q3-4 Application Settings Q3-40 Fan Functions Q3-41 Pump Functions Q3-42 Compressor Functions par.22-60 Broken Belt Function par.22-22 Low Speed Detection par.1-03 Torque Characteristics par.22-61 Broken Belt Torque par.22-23 No-Flow Function par.1-71 Start Delay par.22-62 Broken Belt Delay par.22-24 No-Flow Delay par.22-75...
Page 36: Main Menu Mode
How to Program Main Menu Mode Select the Main Menu mode by pressing the [Main Menu] key. The below read-out appears on the dis- play. The middle and bottom sections on the display show a list of parameter groups which can be chosen by toggling the up and down buttons.
Page 37 How to Program Changing a Text Value If the selected parameter is a text value, change the ▲ ▼ text value by means of the [ ] navigation keys. The up key increases the value, and the down key de- creases the value.
Page 38 How to Program Read-out and Programming of Indexed Parameters Parameters are indexed when placed in a rolling stack. par.15-30 Alarm Log: Error Code to par.15-33 Alarm Log: Date and Time contain a fault log which can be read out. Choose a parameter, press [OK], and use the up/down navigation keys to scroll through the value log. Use par.3-10 Preset Reference as another example:...
Page 39: Parameter Selection
Parameter Description Parameter Selection Main Menu Structure Parameters for the frequency converter are grouped into various parameter groups for easy selection of the correct parameters for optimized operation of the frequency converter. The vast majority of TR200 applications can be programmed using the Quick Menu button and selecting the parameters under Quick Setup and Function Setups.
Page 40: Main Menu - Operation And Display - Group 0
Parameter Description Main Menu - Operation and Display - Group 0 0-** Operation / Display Parameters related to the fundamental functions of the frequency converter, function of the keypad buttons and configuration of the keypad display. 0-0* Basic Settings Parameter group for basic frequency converter settings. 0-01 Language Option: Function:...
Page 41 Parameter Description [49] Russian Part of Language package 1 [50] Thai Part of Language package 2 [51] Bahasa Indonesia Part of Language package 2 0-02 Motor Speed Unit Option: Function: This parameter cannot be adjusted while the motor is running. The display showing depends on settings in par.0-02 Motor Speed Unit and par.0-03...
Page 42 Parameter Lists FALSE in the parameter lists in the section Factory setup Cannot be changed. It contains the Trane data set, and can be used as a data source when returning the other set-ups to a known state. Set-up 1...
Page 43 Parameter Description 0-11 Programming Set-up Option: Function: Select the set-up to be edited (i.e. programmed) during operation; either the active set-up or one of the inactive set-ups. The set-up number being edited is displayed in the keypad in (brackets). Factory setup cannot be edited but it is useful as a data source to return the other set- ups to a known state.
Page 44 Parameter Description 2. While still in Set-up 1, using par.0-50 Copy, copy Set-up 1 to Set- Set-up 2 up 2. Then set par.0-12 This Set-up Linked to [2]. This will start the linking process. After the link is complete, par.0-13 Readout: Linked Set-ups will read {1,2} to indicate that all ‘not changeable during operation’...
Page 45 Parameter Description 0-13 Readout: Linked Set-ups Array [5] Range: Function: 0 N/A* [0 - 255 N/A] View a list of all the set-ups linked by means of par.0-12 This Set-up Linked to. The parameter has one index for each parameter set-up. The parameter value displayed for each index represents which setups are linked to that parameter setup.
Page 46 Parameter Description [1005] Readout Transmit Error View the number of CAN control transmission errors since the last pow- Counter er-up. [1006] Readout Receive Error View the number of CAN control receipt errors since the last power-up. Counter [1007] Readout Bus Off Counter View the number of Bus Off events since the last power-up.
Page 47 Parameter Description [1632] Brake Energy /s Present brake power transferred to an external brake resistor. Stated as an instantaneous value. [1633] Brake Energy /2 min Brake power transferred to an external brake resistor. The mean power is calculated continuously for the most recent 120 seconds. [1634] Heatsink Temp.
Page 48 Parameter Description [1676] Analog In X30/12 Actual value of the signal on input X30/12 (General Purpose I/O Card. Optional) [1677] Analog Out X30/8 [mA] Actual value at output X30/8 (General Purpose I/O Card. Optional) Use Par. 6-60 to select the variable to be shown. [1680] Fieldbus CTW 1 Control word (CTW) received from the Bus Master.
Page 49 Parameter Description [9926] HS Temp. (PC7) [9927] HS Temp. (PC8) Note TR200 Programming Guide Please consult the for detailed information. 0-21 Display Line 1.2 Small Select a variable for display in line 1, middle position. Option: Function: [1614] * Motor Current The options are the same as those listed in par.0-20 Display Line 1.1 Small.
Page 50 Parameter Description 0-24 Display Line 3 Large Select a variable for display in line 3. Option: Function: [1502] * kWh Counter The options are the same as listed for par.0-20 Display Line 1.1 Small. 0-25 My Personal Menu Array [20] Range: Function: 0 N/A*...
Page 51 Parameter Description Unit Type Speed Relation Dimensionless Linear Speed Flow, volume Flow, mass Velocity Length Temperature Pressure Quadratic Power Cubic 0-30 Custom Readout Unit Option: Function: Program a value to be shown in the display of the keypad. The value has a linear, squared or cubed relation to speed.
Page 52 Parameter Description [121] gal/s [122] gal/min [123] gal/h [124] [125] ft³/s [126] ft³/min [127] ft³/h [130] lb/s [131] lb/min [132] lb/h [140] ft/s [141] ft/min [145] [160] °F [170] [171] lb/in² [172] in WG [173] ft WG [174] in Hg [180] 0-31 Custom Readout Min Value Range:...
Page 53 Parameter Description 0-38 Display Text 2 Range: Function: 0 N/A* [0 - 0 N/A] In this parameter it is possible to write an individual text string for display in the keypad or to be read via serial communication. If to be displayed permanently select Display Text 2 in par.0-20 Display Line 1.1 Small, par.
Page 54 Parameter Description 0-42 [Auto on] Key on LCP Option: Function: Disabled No function [1] * Enabled [Auto on] Key is enabled Password Avoid unauthorized start in Auto mode. If par.0-42 [Auto on] Key on is included in the My Personal Menu, then define the password in par.0-65 Personal Menu Password.
Page 55 Parameter Description 0-5* Copy / Save Copy parameter settings between set-ups and to/from the keypad. 0-50 LCP Copy Option: Function: [0] * No copy No function All to LCP Copies all parameters in all set-ups from the frequency converter mem- ory to the keypad memory.
Page 56 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 keypad, they can also be set along with timed actions and preventative maintenance functions using the Trane Drive Utility software tool.
Page 57 Parameter Description 0-74 DST/Summertime Option: Function: Choose how Daylight Saving Time/Summertime should be handled. For manual DST/Summertime enter the start date and end date in par. 0-76 DST/Summertime Start and par.0-77 DST/Summertime End. [0] * Manual 0-76 DST/Summertime Start Range: Function: 0 N/A* [0 - 0 N/A]...
Page 58 Parameter Description 0-89 Date and Time Readout Range: Function: 0 N/A* [0 - 0 N/A] Displays the current date and time. The date and time is updated con- tinuously. The clock will not begin counting until a setting different from default has been made in par.0-70 Date and Time.
Page 59: Main Menu - Load And Motor - Group 1
Parameter Description Main Menu - Load and Motor - Group 1 General Settings, 1-0* Define whether the frequency converter operates in open loop or closed loop. 1-00 Configuration Mode Option: Function: [0] * Open Loop Motor speed is determined by applying a speed reference or by setting desired speed when in Hand Mode.
Page 60 Parameter Description programmed. These settings will typically ensure optimum motor volt- age but if the motor power factor cos phi requires tuning, an AMA function can be carried out using par.1-29 Automatic Motor Adaptation (AMA). It is very rarely necessary to adjust the motor power factor pa- rameter manually.
Page 61 Parameter Description 1-25 Motor Nominal Speed Range: Function: 1420. [100 - 60000 RPM] Enter the nominal motor speed value from the motor nameplate data. RPM* This data is used for calculating automatic motor compensations. Note This parameter cannot be adjusted while the motor is running. 1-28 Motor Rotation Check Option: Function:...
Page 62 Parameter Description NOTE: It is important to set motor par. 1-2* Motor Data correctly, since these form part of the AMA algorithm. An AMA must be performed to achieve optimum dynamic motor performance. It may take up to 10 min., de- pending on motor power rating.
Page 63 Parameter Description 1-35 Main Reactance (Xh) Range: Function: 100.000 [1.0000 - 10000.0000 Ohm] Set the main reactance of the motor using one of these methods: 0 Ohm* Run an AMA on a cold motor. The frequency converter will measure the value from the motor. Enter the X h value manually.
Page 64 Parameter Description 1-5* Load Indep. Setting Parameters for setting the load-independent motor settings. 1-50 Motor Magnetisation at Zero Speed Range: Function: 100 %* [0 - 300 %] Use this parameter along with par.1-51 Min Speed Normal Magnetising [RPM] to obtain a different thermal load on the motor when running at low speed.
Page 65 Parameter Description 1-61 High Speed Load Compensation Range: Function: 100 %* [0 - 300 %] Enter the % value to compensate voltage in relation to load when the motor is running at high speed and obtain the optimum U/f characteris- tic.
Page 66 Parameter Description 1-7* Start Adjustments Parameters for setting special motor start features. 1-71 Start Delay Range: Function: 0.0 s* [0.0 - 120.0 s] The function selected in par.1-80 Function at Stop is active in the delay period. Enter the time delay required before commencing acceleration. 1-73 Flying Start Option: Function:...
Page 67 Parameter Description Trip at Motor Speed Low Limit In par.4-11 Motor Speed Low Limit [RPM] and par.4-12 Motor Speed Low Limit [Hz] it is possible to set a mini- mum speed for the motor in order to ensure proper oil distribution. In some cases e.g.
Page 68 For example ETR-3 starts calculating when set-up 3 is selected. For the North American market: The ETR functions provide class 20 motor overload protection in accordance with NEC. NOTE: Trane recommends using 24 VDC as thermistor supply voltage. 1-91 Motor External Fan...
Page 69 Parameter Description 1-93 Thermistor Source Option: Function: Select the input to which the thermistor (PTC sensor) should be connec- ted. An analog input option [1] or [2] cannot be selected if the analog input is already in use as a reference source (selected in par.3-15 Refer- ence 1 Source, par.3-16...
Page 70: Main Menu - Brakes - Group 2
Parameter Description Main Menu - Brakes - Group 2 2-0* DC-Brakes Parameter group for configuring the DC brake and DC hold functions. 2-00 DC Hold/Preheat Current Range: Function: 50 %* [0 - 160. %] Enter a value for holding current as a percentage of the rated motor cur- rent I M,N set in par.1-24 Motor Current.
Page 71 Parameter Description 2-1* Brake Energy Funct. Parameter group for selecting dynamic braking parameters. Only valid for drives with brake chopper. 2-10 Brake Function Option: Function: [0] * No brake resistor installed. Resistor brake Brake resistor incorporated in the system, for dissipation of surplus brake energy as heat.
Page 72 Parameter Description 2-13 Brake Power Monitoring Option: Function: This parameter is only active in frequency converters with an integral dynamic brake. This parameter enables monitoring of the power to the brake resistor. The power is calculated on the basis of the resistance (par.2-11 Brake Resistor (ohm), the DC link voltage, and the resistor duty time.
Page 73 Parameter Description Note Warning Remove a warning arising in connection with [0] or [1] by cycling the mains supply. The fault must Warning be corrected first. For [0] or [1], the frequency converter keeps running even if a fault is located. 2-16 AC brake Max.
Page 74: Main Menu - Reference/Ramps - Group 3
Parameter Description Main Menu - Reference/Ramps - Group 3 3-0* Reference Limits Parameters for setting the reference unit, limits and ranges. Please see also par. 20-0* for information on settings in closed loop. 3-02 Minimum Reference Range: Function: 0.000 [-999999.999 - par. 3-03 Enter the Minimum Reference.
Page 75 Parameter Description 3-11 Jog Speed [Hz] Range: Function: 10.0 Hz* [0.0 - par. 4-14 Hz] The jog speed is a fixed output speed at which the frequency converter is running when the jog function is activated. See also par.3-80 Jog Ramp Time.
Page 76 Parameter Description 3-14 Preset Relative Reference Range: Function: 0.00 %* [-100.00 - 100.00 %] The actual reference, X, is increased or decreased with the percentage Y, set in par.3-14 Preset Relative Reference. This results in the actual ref- erence Z. Actual reference (X) is the sum of the inputs selected in par. 3-15 Reference 1 Source, par.3-16...
Page 77 Parameter Description 3-16 Reference 2 Source Option: Function: Select the reference input to be used for the second reference signal. par.3-15 Reference 1 Source, par.3-16 Reference 2 Source and par. 3-17 Reference 3 Source define up to three different reference signals. The sum of these reference signals defines the actual reference.
Page 78 Parameter Description 3-40 Ramp 1 Type Option: Function: Select the ramp type, depending on requirements for acceleration/de- celeration. A linear ramp will give constant acceleration during ramping. An S-ramp will give non-linear acceleration, compensating for jerk in the applica- tion. [0] * Linear S-ramp Const Jerk...
Page 79 Parameter Description 3-45 Ramp 1 S-ramp Ratio at Accel. Start Range: Function: 50 %* [1 - 99. %] Enter the proportion of the total ramp-up time (par.3-41 Ramp 1 Ramp Time) in which the acceleration torque increases. The larger the per- centage value, the greater the jerk compensation achieved, and thus the lower the torque jerks occurring in the application.
Page 80 Parameter Description 3-5* Ramp 2 Choosing ramp parameters, see 3-4*. 3-51 Ramp 2 Ramp up Time Range: Function: 3.00 s* [0.01 - 3600.00 s] Enter the ramp-up time, i.e. the acceleration time from 0 RPM to par. 1-25 Motor Nominal Speed.
Page 81 Parameter Description 3-80 Jog Ramp Time Range: Function: 20.00 s* [1.00 - 3600.00 s] Enter the jog ramp time, i.e. the acceleration/deceleration time between 0 RPM and the rated motor speed (n M,N ) (set in par.1-25 Motor Nominal Speed). Ensure that the resultant output current required for the given jog ramp time does not exceed the current limit in par.4-18 Current Lim- it.
Page 82 Parameter Description 3-91 Ramp Time Range: Function: 1.00 s [0.00 - 3600.00 s] Enter the ramp time, i.e. the time for adjustment of the reference from 0% to 100% of the specified digital potentiometer function (INCREASE, DECREASE or CLEAR). If INCREASE / DECREASE is activated for longer than the ramp delay period specified in par.3-95 Ramp Delay the actual reference will be ram-...
Page 83: Main Menu - Limits/Warnings - Group 4
Parameter Description Main Menu - Limits/Warnings - Group 4 4-** Limits and Warnings Parameter group for configuring limits and warnings. 4-1* Motor Limits Define torque, current and speed limits for the motor, and the reaction of the frequency converter when the limits are exceeded.
Page 84 Parameter Description 4-14 Motor Speed High Limit [Hz] Range: Function: 50/60.0 [par. 4-12 - par. 4-19 Hz] Enter the maximum limit for motor speed. The Motor Speed High Limit can be set to correspond to the manufacturer’s recommended maximum of the motor shaft. The Motor Speed High Limit must exceed the in par. 4-12 Motor Speed Low Limit [Hz].
Page 85 Parameter Description 4-5* Adj. Warnings Define adjustable warning limits for current, speed, reference and feedback. Note Not visible in display, only in Trane Drive Utility. Warnings are shown on display, programmed output or serial bus. 4-50 Warning Current Low Range: Function: 0.00 A* [0.00 - par.
Page 86 Parameter Description 4-54 Warning Reference Low Range: Function: -999999. [-999999.999 - par. 4-55 N/ Enter the lower reference limit. When the actual reference falls below this 999 N/ limit, the display indicates Ref Low. The signal outputs can be program- med to produce a status signal on terminal 27 or 29 and on relay output 01 or 02.
Page 87 Parameter Description 4-6* Speed Bypass Define the Speed Bypass areas for the ramps. 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. 4-60 Bypass Speed From [RPM] Array [4] Range:...
Page 88 Parameter Description Semi-Automatic Bypass Speed Set-up The Semi-Automatic Bypass Speed Setup can be used to facilitate the programming of the frequencies to be skipped due to resonances in the system. The following process is to be carried out: Stop the motor. Select Enabled in par.4-64 Semi-Auto Bypass Set-up.
Page 89: Main Menu - Digital In/Out - Group 5
Parameter Description Main Menu - Digital In/Out - Group 5 5-** Digital In/Out Parameter group for configuring the digital input and output. 5-0* Digital I/O Mode Parameters for configuring the input and output using NPN and PNP. 5-01 Terminal 27 Mode Option: Function: [0] *...
Page 90 Parameter Description 5-1* Digital Inputs 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: Digital input function Select Terminal No operation...
Page 91 Parameter Description Digital Inputs, 5-1* continued All = Terminals 18, 19, 27, 29, 32, 33, X30/2, X30/3, X30/4. X30/ are the terminals on MCB 101. Functions dedicated to only one digital input are stated in the associated parameter. All digital inputs can be programmed to these functions: No operation No reaction to signals transmitted to terminal.
Page 92 Parameter Description [15] Preset reference on Used for shifting between external reference and preset reference. It is External/preset assumed that [1] has been selected in par.3-04 Reference Function. Logic '0' = external reference active; logic '1' = one of the eight preset references is active.
Page 93 Parameter Description [37] Fire mode A signal applied will put the frequency converter into Fire Mode and all Fire Mode other commands will be disregarded. See 24-0* [52] Run Permissive The input terminal, for which the Run permissive has been programmed must be logic “1”...
Page 94 Parameter Description Coast inverse Coast and reset inv DC-brake inverse Stop inverse External interlock [8] * Start Latched start [10] Reversing [11] Start reversing [14] [15] Preset reference on [16] Preset ref bit 0 [17] Preset ref bit 1 [18] Preset ref bit 2 [19] Freeze reference...
Page 95 Parameter Description 5-12 Terminal 27 Digital Input Pulse input Same options and functions as par. 5-1*, except for Option: Function: [0] * No operation 5-13 Terminal 29 Digital Input Option: Function: No operation Reset Coast inverse Coast and reset inv DC-brake inverse Stop inverse External interlock...
Page 96 Parameter Description [67] No Flow [78] Reset Maint. Word 5-14 Terminal 32 Digital Input Option: Function: [0] * No operation Reset Coast inverse Coast and reset inv DC-brake inverse Stop inverse External interlock Start Latched start [10] Reversing [11] Start reversing [14] [15] Preset reference on...
Page 97 Parameter Description 5-16 Terminal X30/2 Digital Input Option: Function: [0] * No operation Reset Coast inverse Coast and reset inv DC-brake inverse Stop inverse External interlock Start Latched start [10] Reversing [11] Start reversing [14] [15] Preset reference on [16] Preset ref bit 0 [17] Preset ref bit 1...
Page 98 Parameter Description External interlock Start Latched start [10] Reversing [11] Start reversing [14] [15] Preset reference on [16] Preset ref bit 0 [17] Preset ref bit 1 [18] Preset ref bit 2 [19] Freeze reference [20] Freeze output [21] Speed up [22] Speed down [23]...
Page 99 Parameter Description [17] Preset ref bit 1 [18] Preset ref bit 2 [19] Freeze reference [20] Freeze output [21] Speed up [22] Speed down [23] Set-up select bit 0 [24] Set-up select bit 1 [34] Ramp bit 0 [36] Mains failure inverse [37] Fire Mode [52]...
Page 100 Parameter Description 5-3* Digital Outputs 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 par.5-01 Terminal 27 Mode and set the I/O function for terminal 29 in par.5-02 Terminal 29 Mode.
Page 101 Parameter Description [30] Brake fault (IGBT) The output is Logic ‘1’ when the brake IGBT is short-circuited. Use this function to protect the frequency converter if there is a fault on the brake modules. Use the output/relay to cut out the main voltage from the fre- quency converter.
Page 102 Parameter Description [84] SL Digital Output E See par.13-52 SL Controller Action. The input will go high whenever the Set dig. out. E high Smart Logic Action [42] is executed. The input will go Set dig. out. E low low whenever the Smart Logic Action [36] is executed.
Page 103 Parameter Description [196] Fire Mode The frequency converter is operating in Fire Mode. See parameter Fire Mode group24-0* [197] Fire Mode was act. The frequency converter has been operating in Fire Mode, but is now back in normal operation. [198] Drive Bypass To be used as signal for activating an external electromechanical bypass Drive Bypass...
Page 104 Parameter Description 5-31 Terminal 29 Digital Output Same options and functions as par. 5-3*. Option: Function: [0] * No operation 5-32 Term X30/6 Digi Out (MCB 101) Option: Function: [0] * No operation Control ready Drive ready Drive rdy/rem ctrl Standby / no warning Running Running / no warning...
Page 105 Parameter Description [65] Comparator 5 [70] Logic rule 0 [71] Logic rule 1 [72] Logic rule 2 [73] Logic rule 3 [74] Logic rule 4 [75] Logic rule 5 [80] SL digital output A [81] SL digital output B [82] SL digital output C [83] SL digital output D...
Page 106 Parameter Description [16] Below speed, low [17] Above speed, high [18] Out of feedb. range [19] Below feedback, low [20] Above feedback, high [21] Thermal warning [25] Reverse [26] Bus OK [27] Torque limit & stop [28] Brake, no brake war [29] Brake ready, no fault [30]...
Page 107 Parameter Description [193] Sleep Mode [194] Broken Belt [195] Bypass Valve Control 5-4* Relays Parameters for configuring the timing and the output functions for the relays. 5-40 Function Relay Array [8] (Relay 1 [0], Relay 2 [1] Option MCB 105: Relay 7 [6], Relay 8 [7] and Relay 9 [8]). Select options to define the function of the relays.
Page 108 Parameter Description [45] Bus ctrl. [46] Bus ctrl, 1 if timeout [47] Bus ctrl, 0 if timeout [60] Comparator 0 [61] Comparator 1 [62] Comparator 2 [63] Comparator 3 [64] Comparator 4 [65] Comparator 5 [70] Logic rule 0 [71] Logic rule 1 [72] Logic rule 2...
Page 109 Parameter Description 5-42 Off Delay, Relay Array [8] (Relay 1 [0], Relay 2 [1], Relay 3 [2], Relay 4 [3], Relay 5 [4], Relay 6 [5], Relay 7 [6], Relay 8 [7], Relay 9 [8]) Range: Function: 0.01 s* [0.01 - 600.00 s] Enter the delay of the relay cut-out time.
Page 110 Parameter Description 5-5* Pulse Input The pulse input parameters are used to define an appropriate window for the impulse reference area by con- figuring the scaling and filter settings for the pulse inputs. Input terminals 29 or 33 act as frequency reference inputs.
Page 111 Parameter Description 5-56 Term. 33 High Frequency Range: Function: 100 Hz* [0 - 110000 Hz] Enter the high frequency corresponding to the high motor shaft speed (i.e. high reference value) in par.5-58 Term. 33 High Ref./Feedb. Value. 5-57 Term. 33 Low Ref./Feedb. Value Range: Function: 0.000 N/...
Page 112 Parameter Description Options for readout output variables: No operation [45] Bus ctrl. [48] Bus ctrl., timeout [100] Output frequency [101] Reference [102] Feedback [103] Motor current [104] Torque relative to limit [105] Torque relative to rated [106] Power [107] Speed [108] Torque [109]...
Page 113 Parameter Description [100] Output freq. 0-100 [101] Reference Min-Max [102] Feedback +-200% [103] Motor cur. 0-Imax [104] Torque 0-Tlim [105] Torque 0-Tnom [106] Power 0-Pnom [107] Speed 0-HighLim [113] Ext. Closed Loop 1 [114] Ext. Closed Loop 2 [115] Ext. Closed Loop 3 5-65 Pulse Output Max Freq #29 Set the maximum frequency for terminal 29 corresponding to the output variable set in par.5-63 Terminal 29 Pulse Output Varia-...
Page 114 Parameter Description 5-90 Digital & Relay Bus Control Range: Function: 0 N/A* [0 - 2147483647 N/A] This parameter holds the state of the digital outputs and relays that is controlled by bus. A logical '1' indicates that the output is high or active. A logical '0' indicates that the output is low or inactive.
Page 115: Main Menu - Analog In/Out - Group 6
Parameter Description Main Menu - Analog In/Out - Group 6 6-** Analog In/Out Parameter group for configuration of the analog input and output. 6-0* Analog I/O Mode Parameter group for setting up the analog I/O configuration. 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) Note Thermistors may be connected to either an analog or a digital input.
Page 116 Parameter Description 6-01 Live Zero Timeout Function Option: Function: Select the time-out function. The function set in par.6-01 Live Zero Time- out Function will be activated if the input signal on terminal 53 or 54 is below 50% of the value in par.6-10 Terminal 53 Low Voltage, par.
Page 117 Parameter Description 6-02 Fire Mode Live Zero Timeout Function Option: Function: The function set in par.6-01 Live Zero Timeout Function will be activated if the input signal on analog inputs is below 50% of the value defined in parameter group 6-1* to 6-6* "Terminal xx Low Current” or “Terminal xx Low Voltage"...
Page 118 Parameter Description 6-16 Terminal 53 Filter Time Constant Range: Function: 0.001 s* [0.001 - 10.000 s] Enter the time constant. This is a first-order digital low pass filter time constant for suppressing electrical noise in terminal 53. A high time con- stant value improves dampening but also increases the time delay through the filter.
Page 119 Parameter Description 6-25 Terminal 54 High Ref./Feedb. Value Range: Function: 100.000 [-999999.999 - 999999.999 Enter the analog input scaling value that corresponds to the high voltage/ N/A* N/A] high current value set in par.6-21 Terminal 54 High Voltage and par. 6-23 Terminal 54 High Current.
Page 120 Parameter Description 6-36 Term. X30/11 Filter Time Constant Range: Function: 0.001 s* [0.001 - 10.000 s] A 1 st order digital low pass filter time constant for suppressing electrical noise on terminal X30/11. par.6-36 Term. X30/11 Filter Time Constant cannot be changed while the motor is running.
Page 121 Parameter Description 6-47 Term. X30/12 Live Zero Option: Function: This parameter makes it possible to disable the Live Zero monitoring. E.g. to be used if the analog outputs are used as part of a decentral I/O system (e.g. when not part of any frequency converter related control functions, but feeding a Building Management System with data) [0] * Disabled...
Page 122 Parameter Description [141] Bus ctrl t.o. : 0 - 100%, (0-20 mA) [142] Bus ctrl t.o. 4-20mA : 0 - 100% [143] Ext. CL 1 4-20mA : 0 - 100% [144] Ext. CL 2 4-20mA : 0 - 100% [145] Ext.
Page 123 Parameter Description EXAMPLE 1: Variable value= OUTPUT FREQUENCY, range = 0-100 Hz Range needed for output = 0-50 Hz Output signal 0 or 4 mA is needed at 0 Hz (0% of range) - set par.6-51 Terminal 42 Output Min Scale to 0% Output signal 20 mA is needed at 50 Hz (50% of range) - set par.6-52 Terminal 42 Output Max Scale...
Page 124 Parameter Description 6-53 Terminal 42 Output Bus Control Range: Function: 0.00 %* [0.00 - 100.00 %] Holds the level of Output 42 if controlled by bus. 6-54 Terminal 42 Output Timeout Preset Range: Function: 0.00 %* [0.00 - 100.00 %] Holds the preset level of Output 42.
Page 125 Parameter Description 6-61 Terminal X30/8 Min. Scale Range: Function: 0.00 %* [0.00 - 200.00 %] Scales the minimum output of the selected analog signal on terminal X30/8. Scale the minimum value as a percentage of the maximum signal value, i.e. 0 mA (or 0 Hz) is desired at 25% of the maximum output value and 25% is programmed.
Page 126: Main Menu - Communications And Options - Group 8
Parameter Description Main Menu - Communications and Options - Group 8 8-** Comm. and Options Parameter group for configuring communications and options. 8-0* General Settings General settings for communications and options. 8-01 Control Site Option: Function: The setting in this parameter overrides the settings in par.8-50 Coasting Select to par.8-56...
Page 127 Parameter Description 8-03 Control Timeout Time Range: Function: 60.0 s* [1.0 - 18000.0 s] Enter the maximum time expected to pass between the reception of two consecutive telegrams. If this time is exceeded, it indicates that the serial communication has stopped. The function selected in par.8-04 Control Control Time-out Function Timeout Function...
Page 128 Parameter Description 8-06 Reset Control Timeout Option: Function: Hold set-up This parameter is active only when the choice [0] has been selected in par.8-05 End-of-Timeout Function [0] * Do not reset Retains the set-up specified in par.8-04 Control Timeout Function, [Select setup 1-4] following a control time-out.
Page 129 [0] but to be used when downloading SW to the frequency converter or uploading dll file (covering information regarding parame- ters available in the frequency converter and their inter-dependencies) to Trane Drive Utility, TDU. Modbus RTU Communication according to the Modbus RTU protocol as described in...
Page 130 Parameter Description 8-32 Baud Rate Option: Function: Baud rate selection depends on Protocol selection in par.8-30 Protocol. 2400 Baud 4800 Baud [2] * 9600 Baud 19200 Baud 38400 Baud 57600 Baud 76800 Baud 115200 Baud Default refers to the FC Protocol. 8-33 Parity / Stop Bits Option: Function:...
Page 131 Parameter Description 8-4* Telegram Selection 8-40 Telegram Selection Option: Function: Enables use of freely configurable telegrams or standard telegrams for the FC port. [1] * Standard telegram 1 [101] PPO 1 [102] PPO 2 [103] PPO 3 [104] PPO 4 [105] PPO 5 [106]...
Page 132 Parameter Description 8-53 Start Select Option: Function: Select control of the frequency converter start function via the terminals (digital input) and/or via the fieldbus. Digital input Activates Start command via a digital input. Activates Start command via the serial communication port or fieldbus option.
Page 133 Parameter Description Activates Preset Reference selection via the serial communication port or fieldbus option. Logic AND Activates Preset Reference selection via the fieldbus/serial communica- tion port, AND additionally via one of the digital inputs. [3] * Logic OR Activates the Preset Reference selection via the fieldbus/serial commu- nication port OR via one of the digital inputs.
Page 134 Parameter Description 8-81 Bus Error Count Range: Function: 0 N/A* [0 - 0 N/A] This parameter shows the number of telegrams with faults (e.g. CRC fault), detected on the bus. 8-82 Slave Messages Rcvd Range: Function: 0 N/A* [0 - 0 N/A] This parameter shows the number of valid telegrams addressed to the slave, sent by the frequency converter.
Page 135: Main Menu - Lonworks - Group 11
11-10 Drive Profile Option: Function: This parameter allows selecting between LONMARK Functional Profiles. [0] * VSD profile The Trane Profile and the Node Object are common for all profiles. Pump controller 11-15 LON Warning Word Range: Function: 0 N/A* [0 - 65535 N/A] This parameter contains the LON specific warnings.
Page 136 Parameter Description 11-17 XIF Revision Range: Function: 0 N/A* [0 - 0 N/A] This parameter contains the version of the external interface file on the Neuron C chip on the LON option. 11-18 LonWorks Revision Range: Function: 0 N/A* [0 - 0 N/A] This parameter contains the software version of the application program on the Neuron C chip on the LON option.
Page 137: Main Menu - Smart Logic - Group 13
Parameter Description Main Menu - Smart Logic - Group 13 13-** Prog. Features Prog. Features Smart Logic Control (SLC) is essentially a sequence of user defined actions (see par.13-52 SL Controller Ac- event tion [x]) executed by the SLC when the associated user defined (see par.13-51 SL Controller Event [x]) is...
Page 138 Parameter Description Running See parameter group 5-3* for further description. In range See parameter group 5-3* for further description. On reference See parameter group 5-3* for further description. Torque limit See parameter group 5-3* for further description. Current limit See parameter group 5-3* for further description. Out of current range See parameter group 5-3* for further description.
Page 139 Parameter Description [40] Drive stopped This event is TRUE if the frequency converter is stopped or coasted by any means (either via digital input, fieldbus or other). [41] Reset Trip This event is TRUE if the frequency converter is tripped (but not trip- locked) and the reset button is pressed.
Page 140 Parameter Description [17] Mains out of range See parameter group 5-3* for further description. [18] Reversing See parameter group 5-3* for further description. [19] Warning See parameter group 5-3* for further description. [20] Alarm (trip) See parameter group 5-3* for further description. [21] Alarm (trip lock) See parameter group 5-3* for further description.
Page 141 Parameter Description [51] Comparator 5 Use the result of comparator 5 in the logic rule. [60] Logic rule 4 Use the result of logic rule 4 in the logic rule. [61] Logic rule 5 Use the result of logic rule 5 in the logic rule. [70] SL Time-out 3 Use the result of timer 3 in the logic rule.
Page 142 Parameter Description [17] Analog input AICCT [18] Pulse input FI29 [19] Pulse input FI33 [20] Alarm number [30] Counter A [31] Counter B 13-11 Comparator Operator Array [6] Option: Function: [0] * < Select < [0] for the result of the evaluation to be TRUE, when the variable selected in par.13-10 Comparator Operand is smaller than the fixed value...
Page 143 Parameter Description 13-4* Logic Rules Combine up to three boolean inputs (TRUE / FALSE inputs) from timers, comparators, digital inputs, status bits and events using the logical operators AND, OR, and NOT. Select boolean inputs for the calculation in par. 13-40 Logic Rule Boolean 1, par.13-42...
Page 144 Parameter Description [25] Comparator 3 Use the result of comparator 3 in the logic rule. [26] Logic rule 0 Use the result of logic rule 0 in the logic rule. [27] Logic rule 1 Use the result of logic rule 1 in the logic rule. [28] Logic rule 2 Use the result of logic rule 2 in the logic rule.
Page 145 Parameter Description [80] No Flow [81] Dry Pump [82] End of Curve [83] Broken Belt 13-41 Logic Rule Operator 1 Array [6] Option: Function: Select the first logical operator to use on the Boolean inputs from par. 13-40 Logic Rule Boolean 1 and par.13-42 Logic Rule Boolean [13 -XX] signifies the boolean input of par.
Page 146 Parameter Description [16] Thermal warning [17] Mains out of range [18] Reversing [19] Warning [20] Alarm (trip) [21] Alarm (trip lock) [22] Comparator 0 [23] Comparator 1 [24] Comparator 2 [25] Comparator 3 [26] Logic rule 0 [27] Logic rule 1 [28] Logic rule 2 [29]...
Page 147 Parameter Description 13-43 Logic Rule Operator 2 Array [6] Option: Function: Select the second logical operator to be used on the boolean input cal- culated in par.13-40 Logic Rule Boolean 1, par.13-41 Logic Rule Operator 1, and par.13-42 Logic Rule Boolean 2, and the boolean input coming from par.13-42 Logic Rule Boolean...
Page 148 Parameter Description [20] Alarm (trip) [21] Alarm (trip lock) [22] Comparator 0 [23] Comparator 1 [24] Comparator 2 [25] Comparator 3 [26] Logic rule 0 [27] Logic rule 1 [28] Logic rule 2 [29] Logic rule 3 [30] SL Time-out 0 [31] SL Time-out 1 [32]...
Page 149 Parameter Description 13-5* States Parameters for programming the Logic Controller. 13-51 SL Controller Event Array [20] Option: Function: Select the boolean input (TRUE or FALSE) to define the Smart Logic Controller event. See par.13-02 Stop Event for further descriptions of choices and their functions.
Page 150 Parameter Description [38] Digital input DI33 [39] Start command [40] Drive stopped [41] Reset Trip [42] Auto Reset Trip [43] OK Key [44] Reset Key [45] Left Key [46] Right Key [47] Up Key [48] Down Key [50] Comparator 4 [51] Comparator 5 [60]...
Page 151 Parameter Description [15] Select preset ref 5 Selects preset reference 5. [16] Select preset ref 6 Selects preset reference 6. [17] Select preset ref 7 Selects preset reference 7. If the active preset reference is changed, it will merge with other preset reference commands coming from either the digital inputs or via a fieldbus.
Page 152: Main Menu - Special Functions -Group 14
Parameter Description Main Menu - Special Functions -Group 14 14-** Special Functions Parameter group for configuring special frequency converter functions. Parameters for configuring the . 14-00 Switching Pattern Option: Function: Select the switching pattern: 60° AVM or SFAVM. [0] * 60 AVM SFAVM 14-01 Switching Frequency...
Page 153 Parameter Description 14-04 PWM Random Option: Function: [0] * No change of the acoustic motor switching noise. Transforms the acoustic motor switching noise from a clear ringing tone to a less noticeable ‘white’ noise. This is achieved by slightly and ran- domly altering the synchronism of the pulse width modulated output phases.
Page 154 Parameter Description Illustration 4. 3: Controlled Ramp-down, longer mains failure. Ramping down as long as the energy in the system allows for it, then the motor is coasted. Illustration 4. 4: Kinetic Back-up, short mains failure. Ride through as long as the energy in the system allows for Illustration 4.
Page 155 Parameter Description 14-12 Function at Mains Imbalance Option: Function: Operation under severe main imbalance conditions reduces the lifetime of the motor. Conditions are considered severe if the motor is operated continuously near nominal load (e.g. a pump or fan running near full speed).
Page 156 Parameter Description 14-21 Automatic Restart Time Range: Function: 10 s* [0 - 600 s] Enter the time interval from trip to start of the automatic reset function. Automatic This parameter is active when par.14-20 Reset Mode is set to reset [1] - [13].
Page 157 Parameter Description Initialization Initialisation Select [2] to reset all parameter values to default settings, except for par.15-03 Power Up's, par.15-04 Over Temp's and par. 15-05 Over Volt's. The frequency converter will reset during the next power-up. Normal par.14-22 Operation Mode will also revert to the default setting operation [0].
Page 158 Parameter Description 14-3* Current Limit Control 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 par.4-16 Torque Limit Motor Mode and par. 4-17 Torque Limit Generator Mode.
Page 159 Parameter Description 14-43 Motor Cosphi Range: Function: 0.66 N/ [0.40 - 0.95 N/A] The Cos(phi) setpoint is automatically set for optimum AEO performance during AMA. This parameter should normally not be altered. However in some situations it may be necessary to enter a new value to fine-tune. 14-5* Environment These parameters help the frequency converter to operate under special environmental conditions.
Page 160 Parameter Description 14-6* Auto Derate This group contains parameters for derating the frequency converter in case of high temperature. 14-60 Function at Over Temperature Option: Function: If either heatsink or control card temperature exceeds a factory-pro- grammed temperature limit, a warning will be activated. If the tempera- ture increases further, select whether the frequency converter should trip (trip locked) or derate the output current.
Page 161 Parameter Description The frequency converter estimates the load on the power section by means of an inverter load counter, which will cause a warning at 98% and a reset of the warning at 90%. At the value 100%, the frequency converter trips and provides an alarm.
Page 162: Main Menu - Frequency Converter Information - Group 15
Parameter Description Main Menu - Frequency Converter Information - Group 15 15-** Drive Information Parameter group containing frequency converter information such as operating data, hardware configuration and software versions. 15-0* Operating Data Parameter group containing operating data e.g. Operating Hours, kWh counters, Power Ups, etc. 15-00 Operating Hours Range: Function:...
Page 163 Parameter Description 15-07 Reset Running Hours Counter Option: Function: Do not reset [0] * Do not reset Select [0] if no reset of the Running Hours counter is desired. Reset counter Reset counter Select [1] and press [OK] to reset the Running Hours coun- ter (par.15-01 Running Hours) and par.15-08...
Page 164 Parameter Description [1656] Feedback 3 [Unit] [1660] Digital Input [1662] Analog Input 53 [1664] Analog Input 54 [1665] Analog Output 42 [mA] [1666] Digital Output [bin] [1675] Analog In X30/11 [1676] Analog In X30/12 [1677] Analog Out X30/8 [mA] [1690] Alarm Word [1691] Alarm Word 2...
Page 165 Parameter Description [20] Alarm (trip) [21] Alarm (trip lock) [22] Comparator 0 [23] Comparator 1 [24] Comparator 2 [25] Comparator 3 [26] Logic rule 0 [27] Logic rule 1 [28] Logic rule 2 [29] Logic rule 3 [33] Digital input DI18 [34] Digital input DI19 [35]...
Page 166 Parameter Description 15-2* Historic Log View up to 50 logged data items via the array parameters in this parameter group. For all parameters in the event group, [0] is the most recent data and [49] the oldest data. Data is logged every time an occurs (not to be Events confused with SLC events).
Page 167 Parameter Description 15-3* Alarm Log 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. 15-30 Alarm Log: Error Code Array [10] Range:...
Page 168 Parameter Description 15-43 Software Version Range: Function: 0 N/A* [0 - 0 N/A] View the combined SW version (or ‘package version’) consisting of pow- er SW and control SW. 15-44 Ordered Typecode String Range: Function: 0 N/A* [0 - 0 N/A] View the type code string used for re-ordering the frequency converter in its original configuration.
Page 169 Parameter Description 15-61 Option SW Version Range: Function: 0 N/A* [0 - 0 N/A] View the installed option software version. 15-62 Option Ordering No Range: Function: 0 N/A* [0 - 0 N/A] Shows the ordering number for the installed options. 15-63 Option Serial No Range: Function:...
Page 170 15-98 Drive Identification Range: Function: 0 N/A* [0 - 0 N/A] 15-99 Parameter Metadata Array [23] Range: Function: 0 N/A* [0 - 9999 N/A] This parameter contains data used by the Trane Drive Utility software tool. TR200 Programming Guide...
Page 171: Main Menu - Data Readouts - Group 16
Parameter Description Main Menu - Data Readouts - Group 16 16-** Data Readouts Parameter group for data read-outs, e.g. actual references, voltages, control, alarm, warning and status words. 16-0* General Status Parameters for reading the general status, e.g. the calculated reference, the active control word, status. 16-00 Control Word Range: Function:...
Page 172 Parameter Description 16-1* Motor Status Parameters for reading the motor status values. 16-10 Power [kW] Range: Function: 0.00 [0.00 - 10000.00 kW] View the motor power in kW. The value shown is calculated on the basis of the actual motor voltage and motor current. The value is filtered, and therefore approx.
Page 173 Parameter Description 16-18 Motor Thermal Range: Function: 0 %* [0 - 100 %] View the calculated thermal load on the motor. The cut-out limit is 100%. The basis for calculation is the ETR function selected in par.1-90 Motor Thermal Protection. 16-22 Torque [%] Range: Function:...
Page 174 Parameter Description 16-38 SL Controller State Range: Function: 0 N/A* [0 - 100 N/A] View the state of the event under execution by the SL controller. 16-39 Control Card Temp. Range: Function: View the temperature on the control card, stated in °C. 0 C* [0 - 100 C] 16-40 Logging Buffer Full...
Page 175 Parameter Description 16-54 Feedback 1 [Unit] Range: Function: Feedback 0.000 [-999999.999 - 999999.999 View value of Feedback 1, see par. 20-0* Proc- ProcessCtrlUnit] The value is limited by settings in par.20-13 Minimum Reference/ essCtrlU- Feedb. and par.20-14 Maximum Reference/Feedb.. Units as set in par. nit* 20-12 Reference/Feedback...
Page 176 Parameter Description 16-6* Inputs and Outputs Parameters for reporting the digital and analog IO ports. 16-60 Digital Input Range: Function: 0 N/A* [0 - 1023 N/A] View the signal states from the active digital inputs. Example: Input 18 corresponds to bit no. 5, ‘0’ = no signal, ‘1’ = connected signal. Bit 6 works in the opposite way, on = '0', off = '1' (safe stop input).
Page 177 Parameter Description 16-63 Terminal 54 Switch Setting Option: Function: View the setting of input terminal 54. Current = 0; Voltage = 1. [0] * Current Voltage Pt 1000 [°C] Pt 1000 [°F] Ni 1000 [°C] Ni 1000 [°F] 16-64 Analog Input 54 Range: Function: 0.000 N/...
Page 178 Parameter Description 16-71 Relay Output [bin] Range: Function: 0 N/A* [0 - 511 N/A] View the settings of all relays. 16-72 Counter A Range: Function: 0 N/A* [-2147483648 - View the present value of Counter A. Counters are useful as comparator 2147483647 N/A] operands, see par.13-10 Comparator...
Page 179 Parameter Description 16-8* Fieldbus & FC Port Parameters for reporting the BUS references and control words. 16-80 Fieldbus CTW 1 Range: Function: 0 N/A* [0 - 65535 N/A] View the two-byte Control word (CTW) received from the Bus-Master. Interpretation of the Control word depends on the fieldbus option instal- led and the Control word profile selected in par.8-10 Control Profile.
Page 180 Parameter Description 16-93 Warning Word 2 Range: Function: 0 N/A* [0 - 4294967295 N/A] View the warning word 2 sent via the serial communication port in hex code. 16-94 Ext. Status Word Range: Function: 0 N/A* [0 - 4294967295 N/A] Returns the extended status word sent via the serial communication port in hex code.
Page 181: Main Menu - Data Readouts 2 - Group 18
Parameter Description Main Menu - Data Readouts 2 - Group 18 18-0* Maintenance LogLG-0# Maintenance Log This group contains the last 10 Preventive Maintenance events. Maintenance Log 0 is the latest and Maintenance Log 9 the oldest. By selecting one of the logs and pressing [OK], the Maintenance Item, Action and time of the occurrence can be found in par.18-00 Maintenance Log: Item –...
Page 182 Parameter Description Note When mounting an Analog I/O MCB 115 option card, a battery back-up of date and time is included. 18-1* Fire Mode Log par. 24-0*, Fire The log covers the latest 10 faults which have been suppressed by the Fire Mode function. See Mode .
Page 183: Main Menu - Fc Closed Loop - Group 20
Parameter Description Main Menu - FC Closed Loop - Group 20 20-** FC Closed Loop This parameter group is used for configuring the closed loop PID Controller, that controls the output frequency of the frequency converter. 20-0* Feedback This parameter group is used to configure the feedback signal for the frequency converter’s closed loop PID Controller.
Page 184 Parameter Description 20-00 Feedback 1 Source Option: Function: Up to three different feedback signals can be used to provide the feed- back signal for the frequency converter’s PID Controller. This parameter defines which input will be used as the source of the first feedback signal.
Page 185 Parameter Description [10] 1/min [11] [12] Pulse/s [20] [21] l/min [22] [23] m³/s [24] m³/min [25] m³/h [30] kg/s [31] kg/min [32] kg/h [33] t/min [34] [40] [41] m/min [45] [60] °C [70] mbar [71] [72] [73] [74] m WG [75] mm Hg [80]...
Page 186 Parameter Description NOTE: This parameter is only available when using pressure to temperature feedback conversion. If the choice Linear [0] is selected in par.20-01 Feedback 1 Conversion, then the setting of any choice in par. 20-02 Feedback 1 Source Unit does not matter as conversion will be one-to-one.
Page 187 Parameter Description [41] m/min [45] [60] °C [70] mbar [71] [72] [73] [74] m WG [75] mm Hg [80] [120] [121] gal/s [122] gal/min [123] gal/h [124] [125] ft³/s [126] ft³/min [127] ft³/h [130] lb/s [131] lb/min [132] lb/h [140] ft/s [141] ft/min...
Page 188 Parameter Description 20-06 Feedback 3 Source Option: Function: [0] * No function Analog input 53 Analog input 54 Pulse input 29 Pulse input 33 Analog input X30/11 Analog input X30/12 Analog Input X42/1 [10] Analog Input X42/3 [11] Analog Input X42/5 [100] Bus feedback 1 [101]...
Page 189 Parameter Description [71] [72] [73] [74] m WG [75] mm Hg [80] [120] [121] gal/s [122] gal/min [123] gal/h [124] [125] ft³/s [126] ft³/min [127] ft³/h [130] lb/s [131] lb/min [132] lb/h [140] ft/s [141] ft/min [145] [160] °F [170] [171] lb/in²...
Page 190 Parameter Description 20-14 Maximum Reference/Feedb. Range: Function: 100.000 [par. 20-13 - 999999.999 Enter the maximum reference/feedback for closed loop operation. The Proc- ProcessCtrlUnit] setting determines the highest value obtainable by summing all refer- essCtrlU- ence sources for closed loop operation. The setting determines 100% nit* feedback in open and closed loop (total feedback range: -200% to +200%).
Page 191 Parameter Description Only Setpoint 1 will be used. The sum of Setpoint 1 and any other refer- ences that are enabled (see par. group 3-1*) will be used as the PID Controller’s setpoint reference. Multi-setpoint minimum Multi Setpoint Min [5] sets up the PID Controller to calculate the dif- ference between Feedback 1 and Setpoint 1, Feedback 2 and Setpoint 2, and Feedback 3 and Setpoint 3.
Page 192 Parameter Description Example 2 – Multi zone, multi setpoint The previous example can be used to illustrate the use of multi zone, multi setpoint control. If the zones require different pressures for each VAV box, each setpoint may be specified in par.20-21 Setpoint 1, par.20-22 Setpoint...
Page 193 Parameter Description 20-30 Refrigerant Option: Function: Select the refrigerant used in the compressor application. This parameter must be specified correctly for the pressure to temperature conversion to be accurate. If the refrigerant used is not listed in choices [0] through User defined [6], select [7].
Page 194 Parameter Description 20-34 Fan 1 Area [m2] Range: Function: Sets the area of the air duct at measuring point. 0.500 [0.000 - 10.000 m2] Note par. 0-03 Regional Settings Units of measurement depend on the setting of 20-35 Fan 1 Area [in2] Range: Function: Sets the area of the air duct at measuring point.
Page 195 Parameter Description The fan/pump is started by pressing [Auto On] button on the keypad and applying a start signal. The speed is ▲ ▼ adjusted manually by pressing the [ ] or [ ] navigation keys on the keypad to a level where the feedback is around the system set-point.
Page 196 Parameter Description 20-72 PID Output Change Range: Function: 0.10 N/ [0.01 - 0.50 N/A] This parameter sets the magnitude of step change during autotuning. The value is a percentage of full speed. I.e. if maximum output frequency inpar.4-13 Motor Speed High Limit [RPM]/par.4-14 Motor Speed High Limit [Hz]...
Page 197 Parameter Description 20-8* PID Basic Settings This parameter group is used to configure the basic operation of the frequency converter’s PID Controller, in- cluding 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.
Page 198 Parameter Description 20-9* PID Controller 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 TR200 Design Guide, MG.11.Bx.yy for guide- lines on adjusting the PID Controller parameters. 20-91 PID Anti Windup Option: Function:...
Page 199 Parameter Description 20-95 PID Differentiation Time Range: Function: 0.00 s* [0.00 - 10.00 s] The differentiator monitors the rate of change of the feedback. If the feedback is changing quickly, it will adjust the output of the PID Controller to reduce the rate of change of the feedback. Quick PID Controller re- sponse is obtained when this value is large.
Page 200: Main Menu - Extended Closed Loop - Tr200 - Group 21
Parameter Description Main Menu - Extended Closed Loop - TR200 - Group 21 21-** Ext. Closed Loop The TR200 offers 3 Extended Closed Loop PID controllers in addition to the PID Controller. These can be con- figured independently to control either external actuators (valves, dampers etc.) or be used together with the internal PID Controller to improve the dynamic responses to setpoint changes or load disturbances.
Page 201 Parameter Description 21-00 Closed Loop Type Option: Function: This parameter defines the application response. The default mode should be sufficient for most applications. If the relative application speed is known, it can be selected here. This will decrease the time nee- ded for carrying out PID Autotuning.
Page 202 Parameter Description 21-09 PID Autotuning Option: Function: This parameter enables selection of the Extended PID controller to be autotuned and starts the PID autotuning for that controller. Once the au- totuning has successfully completed and the settings have been accep- ted or rejected by the user, by pressing [OK] or [Cancel] buttons on the keypad at the end of tuning, this parameter is reset to [0] Disabled.
Page 203 Parameter Description [41] m/min [45] [60] °C [70] mbar [71] [72] [73] [74] m WG [75] mm Hg [80] [120] [121] gal/s [122] gal/min [123] gal/h [124] [125] ft³/s [126] ft³/min [127] ft³/h [130] lb/s [131] lb/min [132] lb/h [140] ft/s [141] ft/min...
Page 204 Parameter Description 21-13 Ext. 1 Reference Source Option: Function: This parameter defines which input on the frequency converter should be treated as the source of the reference signal for the Closed Loop 1 Controller. Analog input X30/11 and Analog input X30/12 refer to inputs on the General Purpose I/O.
Page 205 Parameter Description 21-17 Ext. 1 Reference [Unit] Range: Function: 0.000 [-999999.999 - 999999.999 Readout of the reference value for the Closed Loop 1 Controller. ExtPID1Unit] tPID1Un 21-18 Ext. 1 Feedback [Unit] Range: Function: 0.000 [-999999.999 - 999999.999 Readout of the feedback value for the Closed Loop 1 Controller. ExtPID1Unit] tPID1Un 21-19 Ext.
Page 206 Parameter Description 21-22 Ext. 1 Integral Time Range: Function: 10000.0 [0.01 - 10000.00 s] Over time, the integrator accumulates a contribution to the output from 0 s* the PID controller as long as there is a deviation between the Reference/ Setpoint and feedback signals.
Page 207 Parameter Description [33] t/min [34] [40] [41] m/min [45] [60] °C [70] mbar [71] [72] [73] [74] m WG [75] mm Hg [80] [120] [121] gal/s [122] gal/min [123] gal/h [124] [125] ft³/s [126] ft³/min [127] ft³/h [130] lb/s [131] lb/min [132] lb/h...
Page 208 Parameter Description 21-33 Ext. 2 Reference Source Option: Function: See par.21-13 Ext. 1 Reference Source for details. [0] * No function Analog input 53 Analog input 54 Pulse input 29 Pulse input 33 [20] Digital pot.meter [21] Analog input X30/11 [22] Analog input X30/12 [30]...
Page 209 Parameter Description 21-38 Ext. 2 Feedback [Unit] Range: Function: 0.000 [-999999.999 - 999999.999 See par.21-18 Ext. 1 Feedback [Unit] for details. ExtPID2Unit] tPID2Un 21-39 Ext. 2 Output [%] Range: Function: 0 %* [0 - 100 %] See par.21-19 Ext. 1 Output [%] for details.
Page 210 Parameter Description 21-5* Closed Loop 3 Ref/Fb Configure Extended Closed Loop 3 Controller reference and feedback. 21-50 Ext. 3 Ref./Feedback Unit Option: Function: See par.21-10 Ext. 1 Ref./Feedback Unit for details. [1] * [10] 1/min [11] [12] Pulse/s [20] [21] l/min [22] [23]...
Page 211 Parameter Description [145] [160] °F [170] [171] lb/in² [172] in WG [173] ft WG [174] in Hg [180] 21-51 Ext. 3 Minimum Reference Range: Function: 0.000 [-999999.999 - par. 21-52 See par.21-11 Ext. 1 Minimum Reference for details. ExtPID3Unit] tPID3Un 21-52 Ext.
Page 212 Parameter Description 21-54 Ext. 3 Feedback Source Option: Function: See par.21-14 Ext. 1 Feedback Source for details. [0] * No function Analog input 53 Analog input 54 Pulse input 29 Pulse input 33 Analog input X30/11 Analog input X30/12 Analog Input X42/1 [10] Analog Input X42/3 [11]...
Page 213 Parameter Description 21-61 Ext. 3 Proportional Gain Range: Function: 0.01 N/ [0.00 - 10.00 N/A] See par.21-21 Ext. 1 Proportional Gain for details. 21-62 Ext. 3 Integral Time Range: Function: 10000.0 [0.01 - 10000.00 s] See par.21-22 Ext. 1 Integral Time for details.
Page 214: Main Menu - Application Functions - Tr200 - Group 22
Parameter Description Main Menu - Application Functions - TR200 - Group 22 This group contains parameters used for monitoring TR200 applications. 22-00 External Interlock Delay Range: Function: 0 s* [0 - 600 s] Only relevant if one of the digital inputs in parameter group 5-1* has External Interlock been programmed for [7].
Page 215 Parameter Description No Flow Detection is based on the measurement of speed and power. For a certain speed the frequency converter calculates the power at no flow. This coherence is based on the adjustment of two sets of speed and associated power at no flow. By monitoring the power it is possible to detect no flow conditions in systems with fluctuating suction pressure or if the pump has a flat characteristic towards low speed.
Page 216 Parameter Description 22-23 No-Flow Function Common actions for Low Power Detection and Low Speed Detection (Individual selections not possible). Option: Function: [0] * Sleep Mode The drive will enter Sleep Mode and stop when a No Flow condition is detected. See parameter group 22-4* for programming options for Sleep Mode.
Page 217 Parameter Description When entering Sleep Mode, the lower status line in the Local Control Panel shows Sleep Mode. No Flow Detection See also signal flow chart in section 22-2* There are three different ways of using the Sleep Mode function: 1) Systems where the integrated PI controller is used for controlling pressure or temperature e.g.
Page 218 Parameter Description 2) 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.
Page 219 Parameter Description Configuration possibilities, overview: Internal PI Controller External PI Controller or manual control (par.1-00 Configuration Mode: Closed loop) (par.1-00 Configuration Mode: Open loop) Sleep mode Wake up Sleep mode Wake up No Flow detection (pumps only) Yes Yes (except manual set- ting of speed) Low speed detection External signal...
Page 220 Parameter Description 22-45 Setpoint Boost Range: Function: 0 %* [-100 - 100 %] Only to be used if par.1-00 Configuration Mode, is set for Closed Loop and the integrated PI controller is used. In systems with e.g. constant pressure control, it is advantageous to increase the system pressure be- fore the motor is stopped.
Page 221 Parameter Description 22-62 Broken Belt Delay Range: Function: 10 s [0 - 600 s] Sets the time for which the Broken Belt conditions must be active before carrying out the action selected in par.22-60 Broken Belt Function. 22-7* Short Cycle Protection When controlling refrigeration compressors, often there will be a need for limiting the numbers of starts.
Page 222: Main Menu - Time-Based Functions - Tr200 - Group 23
Parameter Description Main Menu - Time-based Functions - TR200 - Group 23 23-0* Timed Actions Timed Actions for actions needing to be performed on a daily or weekly basis, e.g. different references for working hours / non-working hours. Up to 10 Timed Actions can be programmed in the frequency converter. The Timed Action number is selected from the list when entering parameter group 23-0* from the keypad.
Page 223 Parameter Description [23] Run reverse [24] Stop [26] DC Brake [27] Coast [28] Freeze output [29] Start timer 0 [30] Start timer 1 [31] Start timer 2 [32] Set digital out A low [33] Set digital out B low [34] Set digital out C low [35] Set digital out D low...
Page 224 Parameter Description Select set-up 2 Select set-up 3 Select set-up 4 [10] Select preset ref 0 [11] Select preset ref 1 [12] Select preset ref 2 [13] Select preset ref 3 [14] Select preset ref 4 [15] Select preset ref 5 [16] Select preset ref 6 [17]...
Page 225 Note To disable a Preventive Maintenance Event the associated par.23-12 Maintenance Time Base must be set to Disabled [0]. Preventive Maintenance can be programmed from the keypad, but use of the PC-based Trane Drive Utility is recommended. TR200 Programming Guide...
Page 226 Parameter Description The keypad 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 par.16-96 Maintenance Word.
Page 227 Parameter Description [11] Drive cooling fan [12] System health check [13] Warranty [20] Maintenance Text 0 [21] Maintenance Text 1 [22] Maintenance Text 2 [23] Maintenance Text 3 [24] Maintenance Text 4 [25] Maintenance Text 5 23-11 Maintenance Action Option: Function: Select the action to be associated with the Preventive Maintenance Event.
Page 228 Parameter Description 23-13 Maintenance Time Interval Range: Function: 1 h* [1 - 2147483647 h] Set the interval associated with the current Preventive Maintenance Running Hours Operating Event. This parameter is only used if [1] or Hours [2] is selected in par.23-12 Maintenance Time Base.
Page 229 Parameter Description 23-5* Energy Log The frequency converter is continuously accumulating the consumption of the motor controlled, based on the actual power yielded by the frequency converter. These data can be used for an Energy Log function allowing the user to compare and structure the information about the energy consumption related to time.
Page 230 Parameter Description 23-50 Energy Log Resolution Option: Function: Select the desired type of period for logging of consumption. Hour of Day [0] , Day of Week [1] or Day of Month [2]. The counters contain the logging data from the programmed date/time for start (par.23-51 Period Start) and the numbers of hours/days as programmed for (par.23-50 ergy Log...
Page 231 Parameter Description 23-53 Energy Log Range: Function: 0 N/A* [0 - 4294967295 N/A] Array with a number of elements equal to the number of counters ([00]- [xx] below parameter number in display). Press OK and Step between ▲ ▼ elements by means of buttons on the Local Control Panel.
Page 232 Parameter Description 23-6* Trending Trending is used to monitor a process variable over a period of time and record how often the data falls into each of ten user-defined data ranges. This is a convenient tool to get a quick overview indicating where to put focus for improvement of operation.
Page 233 Parameter Description Quick Menu Loggings Trending Continued The contents of counters can be displayed as bars on keypad. Select > Bin / Trending Timed Bin / Trending Comparison Note The counters starts counting whenever the frequency converter is powered-up. Power cycle shortly after a reset will zero the counters.
Page 234 Parameter Description 23-62 Timed Bin Data Range: Function: 0 N/A* [0 - 4294967295 N/A] Array with 10 elements ([0]-[9] below parameter number in display). ▲ ▼ Press OK and step between elements by means of buttons on the keypad. 10 counters with the frequency of occurrence for the operating data monitored sorted according to the intervals as for par.23-61 Continuous Data.
Page 235 Parameter Description 23-66 Reset Continuous Bin Data Option: Function: Do reset Select [1] to reset all values in par.23-61 Continuous Bin Data. After pressing OK the setting of the parameter value will automatically Do not reset change to [0]. [0] * Do not reset Do reset 23-67 Reset Timed Bin Data...
Page 236 Parameter Description It is not possible to reset the Energy Savings counter, but the counter can be stopped any time by setting par. 23-80 Power Reference Factor to 0. Parameter overview: Parameter for settings Parameters for readout Rated Motor Power par.1-20 Motor Power Energy Savings...
Page 237: Main Menu - Application Functions 2 - Group 24
TR200 systems and components herein or other property when the frequency converter has been programmed for Fire Mode. In no event shall Trane be liable to the end user or any other party for any direct or indirect, special or consequential damage or loss suffered by such party,...
Page 238 Parameter Description An overview of events related to Fire Mode can be viewed in the Fire Mode log, parameter group 18-1*, or via the Alarm Log button on the keypad. The log will include up to 10 of the latest events. Warranty Affecting Alarms will have a higher priority as the two other types of events.
Page 239 Parameter Description 24-04 Fire Mode Max Reference Range: Function: 50.000 [par. 24-03 - 999999.999 Maximum value for the reference/set point (limiting the sum of value in FireMo- FireModeUnit] par.24-05 Fire Mode Preset Reference and value of signal on input se- deUnit* lected in par.24-06 Fire Mode Reference...
Page 240 Parameter Description Note Warranty-affecting alarms. Certain alarms can affect the lifetime of the frequency converter. Should one of these ignored alarms occur whilst in Fire Mode, a log of the event is stored in the Fire Mode Log. Here the 10 latest events of warranty-affecting alarms, fire mode activation and fire mode deactivation are stored. Note The setting in par.14-20 Reset Mode...
Page 241 Parameter Description 24-10 Drive Bypass Function Option: Function: This parameter determines, what circumstances will activate the Drive Bypass Function: [0] * Disabled Enabled If in normal operation the automatic Drive Bypass Function will be acti- vated at following conditions: At a Trip Lock or a Trip. After the programmed number of reset attempts, programmed in par.14-20 Reset Mode or if the Bypass Delay Timer (par.
Page 242 Parameter Description 24-11 Drive Bypass Delay Time Range: Function: 0 s* [0 - 600 s] Programmable in 1 s increments. Once the Bypass Function is activated in accordance with the setting in par.24-10 Drive Bypass Function, the Bypass Delay Timer begins to operate. If the frequency converter has been set for a number of restart attempts, the timer will continue to run while the frequency converter tries to restart.
Page 243: Troubleshooting
Troubleshooting Troubleshooting Alarms and Warnings A warning or an alarm is signalled by the relevant LED on the front of the frequency converter and indicated by a code on the display. A warning remains active until its cause is no longer present. Under certain circumstances operation of the motor may still be continued.
Page 244 Troubleshooting Description Warn- Alarm/Trip Alarm/Trip Lock Parameter Refer- ence 10 Volts low Live zero error 6-01 No motor 1-80 Mains phase loss 14-12 DC link voltage high DC link voltage low DC over voltage DC under voltage Inverter overloaded Motor ETR over temperature 1-90 Motor thermistor over temperature 1-90...
Page 245 Troubleshooting Description Warn- Alarm/Trip Alarm/Trip Lock Parameter Refer- ence Control Board Over-temperature Heat sink Temperature Low Option Configuration has Changed Safe Stop Activated X 1) Pwr. Card Temp Illegal FC configuration PTC 1 Safe Stop X 1) Dangerous Failure X 1) Safe Stop Auto Restart Power Unit Setup Illegal PS config...
Page 246 Troubleshooting occurs, which may cause damage to frequency converter or connected parts. A Trip Lock situation can only be reset by a power cycling. LED indication Warning yellow Alarm flashing red Trip locked yellow and red Alarm Word and Extended Status Word Alarm Word Warning Word Extended Status...
Page 247: Alarm Words
Troubleshooting Alarm Words Alarm word, par.16-90 Alarm Word Alarm word 2, par.16-91 Alarm Word 2 Alarm Word Alarm Word 2 (Hex) (par.16-90 Alarm Word) (Hex) (par.16-91 Alarm Word 00000001 Brake check 00000001 Service Trip, read / Write 00000002 Power card over temperature 00000002 Reserved 00000004...
Page 248: Warning Words
Troubleshooting Warning Words Warning word , par.16-92 Warning Word Warning word 2, par.16-93 Warning Word 2 Warning Word Warning Word 2 (Hex) (par.16-92 Warning Word) (par.16-93 Warning Word (Hex) 00000001 Brake check 00000002 Power card over temperature 00000001 Start Delayed 00000004 Earth fault 00000002...
Page 249: Extended Status Words
Troubleshooting Extended Status Words Extended status word, par.16-94 Ext. Status Extended status word 2, par.16-95 Ext. Status Word Word 2 Extended Status Word Extended Status Word 2 (par. (Hex) (par.16-94 Ext. Status Word) (Hex) 16-95 Ext. Status Word 00000001 Ramping 00000001 00000002 AMA tuning...
Page 250: Fault Messages
Troubleshooting Fault Messages WARNING/ALARM 4, Mains phase loss WARNING A phase is missing on the supply side, or the mains Hazardous Service Procedures! voltage imbalance is too high. This message also ap- The maintenance and troubleshooting procedures rec- pears for a fault in the input rectifier on the frequency ommended in this section of the manual could result in converter.
Page 251 Troubleshooting WARNING/ALARM 10, Motor overload tem- WARNING/ALARM 12, Torque limit perature The torque is higher than the value in par.4-16 Torque According to the electronic thermal protection (ETR), Limit Motor Mode (in motor operation) or the torque the motor is too hot. Select whether the frequency is higher than the value in par.4-17 Torque Limit Gen- converter gives a warning or an alarm when the coun-...
Page 252 A fitted option is not operational with the present Disconnect power before proceeding. control board hardware or software. Record the value of the following parameters and Troubleshooting: contact your Trane supplier: Check fan resistance. par.15-40 FC Type Check soft charge fuses.
Page 253 Check fan resistance. ALARM 38, Internal fault Check soft charge fuses. It may be necessary to contact your Trane supplier. IGBT thermal sensor. Some typical alarm messages: ALARM 30, Motor phase U missing Serial port cannot be initialized. Serious hardware...
Page 254 ALARM 39, Heatsink sensor ALARM 50, AMA calibration failed No feedback from the heatsink temperature sensor. Contact your Trane supplier. ALARM 51, AMA check Unom and Inom The signal from the IGBT thermal sensor is not avail- able on the power card. The problem could be on the...
Page 255 Troubleshooting WARNING 64, Voltage limit ALARM 79, Illegal power section configuration The load and speed combination demands a motor The scaling card is the incorrect t number or not in- voltage higher than the actual DC link voltage. stalled. Also MK102 connector on the power card could not be installed.
Page 256 Troubleshooting ALARM 244, Heatsink temperature ALARM 248, Illegal power section configura- tion This alarm is only for F Frame drives. It is equivalent to Alarm 29. The report value in the alarm log indi- This alarm is only for F Frame drives. It is equivalent cates which power module generated the alarm: to Alarm 79.
Page 257: Parameter Lists
Parameter Lists Parameter Lists TR200 Default Settings 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. 4-Set-up: 'All set-up': the parameter can be set individually in each of the four set-ups, i.
Page 258: Operation And Display
Parameter Lists 0-** Operation and Display Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 0-0* Basic Settings 0-01 Language [0] English 1 set-up TRUE Uint8 0-02 Motor Speed Unit [1] Hz 2 set-ups FALSE Uint8 0-03 Regional Settings...
Page 259 Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 0-50 LCP Copy [0] No copy All set-ups FALSE Uint8 0-51 Set-up Copy [0] No copy All set-ups FALSE Uint8 0-6* Password 0-60 Main Menu Password 100 N/A 1 set-up TRUE...
Page 260: Load / Motor
Parameter Lists 1-** Load / Motor Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 1-0* General Settings 1-00 Configuration Mode null All set-ups TRUE Uint8 [3] Auto Energy Op- 1-03 Torque Characteristics tim. VT All set-ups TRUE Uint8...
Page 261: Brakes
Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 1-7* Start Adjustments Uint1 1-71 Start Delay 0.0 s All set-ups TRUE 1-73 Flying Start [0] Disabled All set-ups FALSE Uint8 1-8* Stop Adjustments 1-80 Function at Stop [0] Coast...
Page 262: Reference / Ramps
Parameter Lists 3-** Reference / Ramps Par. No. Parameter description Default value 4-set-up Change Conv- Type during operation sion in- 3-0* Reference Limits 3-02 Minimum Reference ExpressionLimit All set-ups TRUE Int32 3-03 Maximum Reference ExpressionLimit All set-ups TRUE Int32 3-04 Reference Function null All set-ups...
Page 263: Limits / Warnings
Parameter Lists 4-** Limits / Warnings Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 4-1* Motor Limits 4-10 Motor Speed Direction [2] Both directions All set-ups FALSE Uint8 Uint1 4-11 Motor Speed Low Limit [RPM] ExpressionLimit All set-ups TRUE...
Page 264: Digital In / Out
Parameter Lists 5-** Digital In / Out Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 5-0* Digital I/O mode 5-01 Terminal 27 Mode [0] Input All set-ups TRUE Uint8 5-02 Terminal 29 Mode [0] Input All set-ups TRUE Uint8...
Page 265 Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 5-6* Pulse Output 5-60 Terminal 27 Pulse Output Variable [0] No operation All set-ups TRUE Uint8 Uint3 5-62 Pulse Output Max Freq #27 5000 Hz All set-ups TRUE 5-63...
Page 266: Analog In / Out
Parameter Lists 6-** Analog In / Out Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 6-0* Analog I/O Mode 6-00 Live Zero Timeout Time 10 s All set-ups TRUE Uint8 6-01 Live Zero Timeout Function [0] Off All set-ups TRUE...
Page 267 Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 6-5* Analog Output 42 6-50 Terminal 42 Output null All set-ups TRUE Uint8 6-51 Terminal 42 Output Min Scale 0.00 % All set-ups TRUE Int16 6-52 Terminal 42 Output Max Scale...
Page 268: Communication And Options
Parameter Lists 8-** Communication and Options Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 8-0* General Settings 8-01 Control Site null All set-ups TRUE Uint8 8-02 Control Source null All set-ups TRUE Uint8 Uint3 8-03 Control Timeout Time ExpressionLimit...
Page 269 Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 8-7* BACnet Uint3 8-70 BACnet Device Instance 1 N/A 1 set-up TRUE 8-72 MS/TP Max Masters 127 N/A 1 set-up TRUE Uint8 Uint1 8-73 MS/TP Max Info Frames 1 N/A 1 set-up...
Page 270: Lonworks
Parameter Lists 11-** LonWorks Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 11-0* LonWorks ID OctSt 11-00 Neuron ID 0 N/A All set-ups TRUE r[6] OctSt 11-01 Domain 0 N/A All set-ups TRUE r[6] 11-02 Subnet ID 0 N/A...
Page 271: Special Functions
Parameter Lists 14-** Special Functions Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 14-0* Inverter Switching 14-00 Switching Pattern [0] 60 AVM All set-ups TRUE Uint8 14-01 Switching Frequency null All set-ups TRUE Uint8 14-03 Overmodulation [1] On...
Page 272: Fc Information
Parameter Lists 15-** FC Information Par. No. Parameter description Default value 4-set-up Change dur- Conver- Type ing opera- sion in- tion 15-0* Operating Data 15-00 Operating Hours All set-ups FALSE Uint32 15-01 Running Hours All set-ups FALSE Uint32 15-02 kWh Counter 0 kWh All set-ups FALSE...
Page 273 Parameter Lists Par. No. Parameter description Default value 4-set-up Change dur- Conver- Type ing opera- sion in- tion 15-4* Drive Identification 15-40 FC Type 0 N/A All set-ups FALSE VisStr[6] 15-41 Power Section 0 N/A All set-ups FALSE VisStr[20] 15-42 Voltage 0 N/A All set-ups...
Page 274: Data Readouts
Parameter Lists 16-** Data Readouts Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 16-0* General Status 16-00 Control Word 0 N/A All set-ups FALSE 0.000 ReferenceFeed- 16-01 Reference [Unit] backUnit All set-ups FALSE Int32 16-02 Reference [%] 0.0 %...
Page 275 Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 16-5* Ref. & Feedb. 16-50 External Reference 0.0 N/A All set-ups FALSE Int16 16-52 Feedback [Unit] 0.000 ProcessCtrlUnit All set-ups FALSE Int32 16-53 Digi Pot Reference 0.00 N/A All set-ups FALSE...
Page 276: Info & Readouts
Parameter Lists 18-** Info & Readouts Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- operation 18-0* Maintenance Log 18-00 Maintenance Log: Item 0 N/A All set-ups FALSE Uint8 18-01 Maintenance Log: Action 0 N/A All set-ups FALSE Uint8 Uint3...
Page 277: Fc Closed Loop
Parameter Lists 20-** FC Closed Loop Par. No. Parameter description Default value 4-set-up Change Conv- Type during opera- sion tion index 20-0* Feedback 20-00 Feedback 1 Source [2] Analog input 54 All set-ups TRUE Uint8 20-01 Feedback 1 Conversion [0] Linear All set-ups FALSE Uint8...
Page 278: Ext. Closed Loop
Parameter Lists 21-** Ext. Closed Loop Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- opera- tion 21-0* Ext. CL Autotuning 21-00 Closed Loop Type [0] Auto 2 set-ups TRUE Uint8 21-01 PID Performance [0] Normal 2 set-ups TRUE Uint8...
Page 279 Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- opera- tion 21-5* Ext. CL 3 Ref./Fb. 21-50 Ext. 3 Ref./Feedback Unit [1] % All set-ups TRUE Uint8 21-51 Ext. 3 Minimum Reference 0.000 ExtPID3Unit All set-ups TRUE Int32...
Page 280: Application Functions
Parameter Lists 22-** Application Functions Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- opera- tion 22-0* Miscellaneous Uint1 22-00 External Interlock Delay All set-ups TRUE 22-2* No-Flow Detection 22-22 Low Speed Detection [0] Disabled All set-ups TRUE Uint8 22-23...
Page 281: Time Based Funtions
Parameter Lists 23-** Time Based Funtions Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- opera- tion 23-0* Timed Actions Time- Day- 23-00 ON Time ExpressionLimit 2 set-ups TRUE Date 23-01 ON Action [0] Disabled 2 set-ups TRUE Uint8 Time-...
Page 282: Application Functions
Parameter Lists Par. No. Parameter description Default value 4-set-up Change Conver- Type during sion in- opera- tion 23-6* Trending 23-60 Trend Variable [0] Power [kW] 2 set-ups TRUE Uint8 Uint3 23-61 Continuous Bin Data 0 N/A All set-ups TRUE Uint3 23-62 Timed Bin Data 0 N/A...
Page 283 Index Index " "i-am" Service 8-74 132 Abbreviations Ac Brake Max. Current 2-16 Acceleration Time Access To Main Menu W/o Password 0-61 Access To Personal Menu W/o Password 0-66 Active Set-up 0-10 Actual Typecode String 15-45 167 Additional Non-working Days 0-83 Additional Working Days 0-82...
Page 284 Index Bus Error Count 8-81 133 Bus Feedback 1 8-94 133 Bus Feedback 2 8-95 133 Bus Feedback 3 8-96 133 Bus Jog 1 Speed 8-90 133 Bus Jog 2 Speed 8-91 133 Bus Message Count 8-80 132 [Bypass Speed From Hz] 4-61 [Bypass Speed From Rpm] 4-60...
Page 285 Index Dc Brake Current 2-01 [Dc Brake Cut In Speed Hz] 2-04 [Dc Brake Cut In Speed Rpm] 2-03 Dc Brake Select 8-52 130 Dc Braking Time 2-02 Dc Hold/preheat Current 2-00 Dc Link Dc Link Voltage 16-30 172 Default Settings Defined Parameters 15-92 169 Definitions...
Page 286 Index Ext. 2 Feedback Source 21-34 207 [Ext. 2 Feedback Unit] 21-38 208 Ext. 2 Integral Time 21-42 208 Ext. 2 Maximum Reference 21-32 206 Ext. 2 Minimum Reference 21-31 206 Ext. 2 Normal/inverse Control 21-40 208 [Ext. 2 Output %] 21-39 208 Ext.
Page 287 Index Fieldbus Ctw 1 16-80 178 Fieldbus Ref 1 16-82 178 Fire Mode Alarm Handling 24-09 238 Fire Mode Function 24-00 237 Fire Mode Live Zero Timeout Function 6-02 116 Fire Mode Log: Date And Time 18-12 181 Fire Mode Log: Event 18-10 181 Fire Mode Log: Time 18-11 181...
Page 288 Index Language 0-01 Language Package 1 Language Package 2 Lcp Copy 0-50 Lcp Id No 15-48 167 Leds Lg-0# Maintenance Log Literature Live Zero Timeout Function 6-01 115 Live Zero Timeout Time 6-00 114 Local Mode Unit 0-05 Local Reference Logging Buffer Full 16-40 173 Logging Interval...
Page 289 Index Maximum Reference/feedb. 20-14 189 Maximum Response Delay 8-36 129 [Min Speed For Function At Stop Hz] 1-82 [Min Speed For Function At Stop Rpm] 1-81 [Min Speed Normal Magnetising Hz] 1-52 [Min Speed Normal Magnetising Rpm] 1-51 Minimum Aeo Frequency 14-42 157 Minimum Bin Value 23-65 233...
Page 290 Index On Reference Bandwidth 20-84 196 On Time 23-00 221 Operating Hours 15-00 161 Operating Mode Operating State At Power-up 0-04 Operation Mode 14-22 155 Option Ident. Option In Slot A 15-70 168 Option In Slot B 15-72 168 Option In Slot C0 15-74 168 Option In Slot C1 15-76 168...
Page 291 Index Pulse Filter Time Constant #33 5-59 110 [Pulse Input #29 Hz] 16-67 176 [Pulse Input #33 Hz] 16-68 176 Pulse Out #27 Bus Control 5-93 113 Pulse Out #27 Timeout Preset 5-94 113 Pulse Out #29 Bus Control 5-95 113 Pulse Out #29 Timeout Preset 5-96 113 Pulse Out #x30/6 Bus Control...
Page 292 Index Reset Timed Bin Data 23-67 234 [Reset] Key On Lcp 0-43 Resonance Dampening 1-64 Resonance Dampening Time Constant 1-65 Reversing Select 8-54 131 Rfi Filter 14-50 158 Running Hours 15-01 161 Safety Note Safety Precautions Safety Regulations Samples Before Trigger 15-14 164 Semi-auto Bypass Set-up 4-64...
Page 293 Index Term X30/7 Digi Out (mcb 101) 5-33 104 Term. 29 High Frequency 5-51 109 Term. 29 High Ref./feedb. Value 5-53 109 Term. 29 Low Frequency 5-50 109 Term. 29 Low Ref./feedb. Value 5-52 109 Term. 33 High Frequency 5-56 110 Term.
Page 294 Index Thermistor Source 1-93 This Set-up Linked To 0-12 Time Format 0-72 Timed Actions Timed Bin Data 23-62 233 Timed Period Start 23-63 233 Timed Period Stop 23-64 233 [Torque %] 16-22 172 Torque Characteristics 1-03 Torque Limit Generator Mode 4-17 Torque Limit Motor Mode 4-16...
Page 295 Date December 2008 Supersedes www.trane.com Trane has a policy of continous product and product data improvement and reserves the right to For more information, contact your local Trane change design and specifications without notice. office or e-mail us at comfort@trane.com...

Trane TR200 Series Programming Manual

Safety

Introduction

How to Program

Parameter Description

Troubleshooting

Parameter Lists

Quick Links

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Questions and answers

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Summary of Contents for Trane TR200 Series

Table of Contents