Page 1 Programming Guide TR200 BAS-SVP04B-EN November 2009...
Page 2: Table Of Contents
Main Menu - Brakes - Group 2 4-34 Main Menu - Reference/Ramps - Group 3 4-37 Main Menu - Limits/Warnings - Group 4 4-46 Main Menu - Digital In/Out - Group 5 4-51 Digital Inputs, 5-1* continued 4-57 5-3* Digital Outputs 4-66 TR200 Programming Guide...
Page 3 Main Menu - Data Readouts 2 - Group 18 4-151 Main Menu - Adjustable Frequency Drive Closed-loop - Group 4-153 Main Menu - Extended Closed-loop - TR200 - Group 21 4-169 Main Menu - Application Functions - TR200 - Group 22 4-184...
Page 4 15-** Adjustable Frequency Drive Information 6-11 16-** Data Readouts 6-12 18-** Info & Readouts 6-13 20-** FC Closed-loop 6-14 21-** Ext. Closed-loop 6-15 22-** Application Functions 6-16 23-** Time-based Functions 6-17 24-** Application Functions 2 6-18 Index TR200 Programming Guide...
Page 5: Tr200 Programming
TR200 Programming Guide...
Page 6: Safety
Consequently, the instructions in this manual, as well as national and local rules and safety regulations, must be complied with. WARNING Failure to follow instructions below could result in death or serious injury. TR200 Programming Guide...
Page 7: Tr200 Programming
Installation at high altitude: 380–500 V, enclosure A, B and C: At altitudes above 6,561 ft [2 km], please contact Trane regarding PELV/Class II. 380–500 V, enclosure D, E and F: At altitudes above 9,842 ft [3 km], please contact Trane regarding PELV/Class II.
Page 8 1.5–10 hp [1.1–7.5 15–125 hp [11–90 525-690 15–125 hp [11–90 60–550 hp [45– 600–1875 hp 400 kW] [450–1400 kW] Be aware that there may be high voltage on the DC link even when the LEDs are turned off. TR200 Programming Guide...
Page 9: Before Commencing Repair Work
Selection of power cables (line power, motor, brake, load sharing and relay) • Grid configuration (grounded delta transformer leg, IT,TN, etc.) • Safety of low-voltage ports (PELV conditions). Consult the relevant clauses in these instructions and in the for information about the installation requirements. TR200 Programming Guide...
Page 10: It Line Power
RFI capacitors from the RFI filter to ground. Software Version and Approvals: TR200 TR200 Software version: 1.1.x This manual can be used with all TR200 adjustable frequency drives with software version 1.1.x. The software version number can be seen from par.15-43 Software Version.
Page 11 Safety TR200 Programming Guide...
Page 12: 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 13: Abbreviations
The rated output current supplied by the adjustable frequency drive I DRIVE,N Available literature for TR200 x = Revision number yy = Language code Trane technical literature is available in print from your local Trane Sales Office or online at: www.danfoss.com/BusinessAreas/DrivesSolutions/Documentations/Technical+Documentation.htm TR200 Programming Guide...
Page 14: Definitions
The rated motor current (nameplate data). M-TYPE Size and type of the connected motor (dependencies). n M,N The rated motor speed (nameplate data). Synchronous motor speed 2 × 23 × 60 P M,N The rated motor power (nameplate data). TR200 Programming Guide...
Page 15 The maximum reference value set in par.3-03 Maximum Reference. Ref MIN Determines the relationship between the reference input at 0% value (typically 0 V, 0 mA, 4 mA) and the resulting reference. The minimum reference value set in par.3-02 Minimum Reference. TR200 Programming Guide...
Page 16 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 (TR200). Analog Outputs The analog outputs can supply a signal of 0–20 mA, 4–20 mA.
Page 17 Variable torque characteristics used for pumps and fans. 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. TR200 Programming Guide...
Page 18 The motor can be brought to a stop by means of digital commands, bus commands, references or a local stop, while the adjustable frequency drive is connected to line power. If personal safety considerations (e.g., risk of personal injury caused by contact with moving machine parts following an unintentional start) make TR200 Programming Guide...
Page 19 NOTE It is recommended to disable protection mode in hoisting applications (par.14-26 Trip Delay at Inverter Fault = 0) TR200 Programming Guide...
Page 20: How To Program
Status line: Status messages displaying icons and graphics. Line 1-2: Operator data lines displaying data and variables defined or chosen by the user. By pressing the [Status] key, up to one extra line can be added. Status line: Status messages displaying text. TR200 Programming Guide...
Page 21 (1.1, 1.2, 1.3, 2, and 3). See the operating variables shown in the display in this figure. 1.1, 1.2 and 1.3 are shown in small size. 2 and 3 are shown in medium size. TR200 Programming Guide...
Page 22 The On LED is activated when the adjustable frequency drive receives power from AC line voltage, a DC bus terminal, or an external 24 V supply. At the same time, the back light is on. TR200 Programming Guide...
Page 23 Changes Made Loggings 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. Among other features, it also in-...
Page 24 Access to Personal Menu w/o Password. For the majority of TR200 applications, it is not necessary to access the Main Menu parameters but instead the Quick Menu, Quick Set-up and Function Set-up provide the simplest and quickest access to parameters that are typically required.
Page 25 (trip). It can be selected as [1] or Disable [0] via par.0-43 [Reset] Key on LCP. The parameter shortcut can be carried out by holding down the [Main Menu] key for 3 seconds. The parameter shortcut allows direct access to any parameter. TR200 Programming Guide...
Page 26 Press the [OK] key. The parameter settings stored in the keypad are now transferred to the adjustable frequency drive indicated by the progress bar. When 100% is reached, press [OK]. NOTE Stop the motor before performing this operation. TR200 Programming Guide...
Page 27: Quick Menu Mode
The latter provides access to all parameters. The former takes the user through a few parameters making it possible to program the majority of TR200 applications. Regardless of the mode of programming, you can change a parameter both in quick menu mode and in main menu mode.
Page 28 Quick Setup Efficient Parameter Set-up for TR200 Applications: The parameters can easily be set up for the vast majority of the TR200 applications only by using the [Quick Set-up] option. After pressing [Quick Menu], the different choices in the quick menu are listed. See also figure 6.1 below and tables Q3-1 to Q3-4 in the following Function Set-ups section.
Page 29: Function Set-Ups
Function Set-ups 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.
Page 30 Figure 3. 13: Step 7: Use the up/down navigation to scroll down to Function set-ups. Press [OK]. keys to select between the different choices. Press [OK]. Figure 3. 10: Step 4: Function set-ups choices appear. Choose 03-1 General Settings . Press [OK]. TR200 Programming Guide 3-11...
Page 31 Terminal 53 High Voltage par.5-14 Terminal 32 Digital Input par.6-12 Terminal 53 Low Current Par.5-15 Terminal 33 Digital Input par.6-13 Terminal 53 High Current par.6-14 Terminal 53 Low Ref./Feedb. Value par.6-15 Terminal 53 High Ref./Feedb. Value 3-12 TR200 Programming Guide...
Page 32 PID Proportional Gain par.20-74 Maximum Feedback Level par.20-94 PID Integral Time par.20-79 PID Autotuning par.20-70 Closed-loop Type par.20-71 PID Performance par.20-72 PID Output Change par.20-73 Minimum Feedback Level par.20-74 Maximum Feedback Level par.20-79 PID Autotuning TR200 Programming Guide 3-13...
Page 33 PID Start Speed [RPM] par.20-83 PID Start Speed [Hz] par.20-93 PID Proportional Gain par.20-94 PID Integral Time par.20-70 Closed-loop Type par.20-71 PID Performance par.20-72 PID Output Change par.20-73 Minimum Feedback Level par.20-74 Maximum Feedback Level par.20-79 PID Autotuning 3-14 TR200 Programming Guide...
Page 34: Main Menu Mode
The first digit of the parameter number (from the left) indicates the parameter group number. All parameters can be changed in the main menu. However, depending on the choice of configuration (par. 1-00 Configuration Mode), some parameters can be hidden. TR200 Programming Guide 3-15...
Page 35 The procedure for changing data is the same whether you select a parameter in the quick menu or the main menu mode. Press [OK] to change the selected parameter. The procedure for changing data depends on whether the selected parameter represents a numerical data value or a text value. 3-16 TR200 Programming Guide...
Page 36 To change the parameter value, select the indexed value and press [OK]. Change the value by using the up/down keys. Press [OK] to accept the new setting. Press [CANCEL] to abort. Press [Back] to leave the parameter. TR200 Programming Guide 3-17...
Page 37 When you carry out manual initialization, you also reset serial communication, par.14-50 RFI 1 and fault log settings. Removes parameters selected in par.25-00 Cascade Controller. NOTE After initialization and power cycling, the display will not show any information until after a couple of minutes. 3-18 TR200 Programming Guide...
Page 38: Parameter Selection
Parameters for the adjustable frequency drive are grouped into various parameter groups for easy selection of the correct parameters for optimized operation of the adjustable frequency drive. The vast majority of TR200 applications can be programmed using the Quick Menu button and selecting the parameters under Quick Set-up and Function Set-ups.
Page 39 Czech Part of Language package 1 [48] Polski Part of Language package 1 [49] Russian Part of Language package 1 [50] Thai Part of Language package 2 [51] Bahasa Indonesia Part of Language package 2 [99] Unknown TR200 Programming Guide...
Page 40 After AC line voltage is reconnected and after receiving a start command (using the keypad [Hand On] button or Hand Start command via a digital input), the adjustable frequency drive restarts and operates at the retained speed reference. TR200 Programming Guide...
Page 41 (e.g., for night set back). If it is necessary to change set-ups while running, ensure par.0-12 This Set-up Linked is programmed as required. For the majority of TR200 applications, it will not be necessary to program par. 0-12 This Set-up Linked to even if a set-up must be changed while running.
Page 42 FALSE in the parameter lists in the section Parameter Lists. 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 Stator Resistance (Rs) Set-up 2, they will also be changed automatically in Set-up 1. A switch between Set-up 1 and Set-up 2 during operation is now possible. [0] * Not linked TR200 Programming Guide...
Page 44 Display Text 2 and par.0-39 Display Text 3 for information on how to write display texts. 0-20 Display Line 1.1 Small Option: Function: Select a variable for display in line 1, left position. None No display value selected TR200 Programming Guide...
Page 45 Actual power consumed by the motor in kW. [1611] Power [hp] Actual power consumed by the motor in HP. [1612] Motor voltage Voltage supplied to the motor. [1613] Frequency Motor frequency, i.e., the output frequency from the adjustable frequen- cy drive in Hz. TR200 Programming Guide...
Page 46 Displays the status of the digital inputs. Signal low = 0; Signal high = 1. Regarding order, see par.16-60 Digital Input. Bit 0 is at the extreme right. [1661] Terminal 53 Switch Set- Setting of input terminal 53. Current = 0; Voltage = 1. ting TR200 Programming Guide...
Page 47 Ext. Status Word 2 One or more status conditions in a Hex code (used for serial communi- cations) [1696] Maintenance Word The bits reflect the status for the programmed preventive maintenance events in parameter group 23-1* 4-10 TR200 Programming Guide...
Page 48 Bypass Running Hours [9913] [9914] [9920] HS Temp. (PC1) [9921] HS Temp. (PC2) [9922] HS Temp. (PC3) [9923] HS Temp. (PC4) [9924] HS Temp. (PC5) [9925] HS Temp. (PC6) [9926] HS Temp. (PC7) [9927] HS Temp. (PC8) TR200 Programming Guide 4-11...
Page 49 It is possible to customize the display elements for various purposes: *Custom Readout. Value proportional to speed (linear, squared or cubed depending on unit selected in par.0-30 Custom Readout Unit) *Display Text. Text string stored in a parameter. 4-12 TR200 Programming Guide...
Page 50 Custom Readout [16-09] in par.0-20 Display Line 1.1 Small to par. 0-24 Display Line 3 Large. [1] * [10] [11] [12] PULSE/s [20] liter / sec. [21] liter / min [22] liter / hr. [23] m³ / sec. TR200 Programming Guide 4-13...
Page 51 [127] ft³/h [130] lbs / sec. [131] lbs / min. [132] lbs / hr. [140] ft/s [141] ft/min [145] [160] °F [170] [171] lb/in² [172] in. wtr. gage [173] ft WG [174] in Hg [180] 4-14 TR200 Programming Guide...
Page 52 Use the buttons to move the cursor. When a character is highlighted by the cur- sor, this character can be changed. A character can be inserted by placing the cursor between two characters and pressing TR200 Programming Guide 4-15...
Page 53 Password Avoid unauthorized stop. If par.0-41 [Off] Key on LCP is included in the My Personal Menu, then define the password in par.0-65 Personal Menu Password. Otherwise, define the password in par.0-60 Main Menu Pass- word. 4-16 TR200 Programming Guide...
Page 54 Press [Off] and select Password [2] to avoid unauthorized stop and reset of the drive. If par.0-44 [Off/Reset] Key on LCP is included in the quick menu, define the password in par.0-65 Personal Menu Password. Disabled No function [1] * Enabled [Off/Reset] Key is enabled Password TR200 Programming Guide 4-17...
Page 55 Copies only the parameters that are independent of the motor size. The latter selection can be used to program several adjustable frequency drives with the same function without disturbing motor data which are already set. This parameter cannot be adjusted while the motor is running. 4-18 TR200 Programming Guide...
Page 56 Option: Function: [0] * Full access Disables password defined in par.0-65 Personal Menu Password. Read-only Prevents unauthorized editing of My Personal Menu parameters. No access Prevents unauthorized viewing and editing of My Personal Menu pa- rameters. TR200 Programming Guide 4-19...
Page 57 12 h 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 4-20 TR200 Programming Guide...
Page 58 0-83 Additional Non-Working Days Array with 15 elements [0] - [14] displayed below parameter number in display. Press OK and step between elements by means buttons on the keypad. Range: Function: Applica- [Application dependant] tion de- pend- ent* TR200 Programming Guide 4-21...
Page 59: Main Menu - Load And Motor - Group 1
To obtain optimal per- formance, the motor power factor cos phi must be set correctly. This value is set in par.14-43 Motor Cos-Phi. The parameter has a default value which is automatically adjusted when the motor data is programmed. 4-22 TR200 Programming Guide...
Page 60 1-20 Motor Power [kW] Range: Function: Applica- [Application dependant] tion de- pend- ent* 1-21 Motor Power [HP] Range: Function: Applica- [Application dependant] tion de- pend- ent* 1-22 Motor Voltage Range: Function: Applica- [Application dependant] tion de- pend- ent* TR200 Programming Guide 4-23...
Page 61 Pressing [Off] stops the motor and resets par.1-28 Motor Rotation Check. If motor rotation direction is incorrect, two motor phase cables should be interchanged. IMPORTANT: CAUTION Line power must be removed before disconnecting motor phase cables. 4-24 TR200 Programming Guide...
Page 62 If the motor parameters are not set correctly, a malfunction of the adjustable frequency drive system may occur. If the motor data is not known, running an TR200 Programming Guide 4-25...
Page 63 NOTE This parameter cannot be adjusted while running. 1-36 Iron Loss Resistance (Rfe) Range: Function: Applica- [Application dependant] tion de- pend- ent* NOTE This parameter cannot be adjusted while the motor is running. 4-26 TR200 Programming Guide...
Page 64 Motor Magnetization at pend- Zero Speed and par.1-51 Min Speed Normal Magnetizing [RPM] are of ent* no significance. Use this parameter along with par.1-50 Motor Magnetization at Zero Speed. See drawing for par.1-50 Motor Magnetization at Zero Speed. TR200 Programming Guide 4-27...
Page 65 The motor size determines the frequency range within which this parameter is active. Motor size Change-over 0.3–10 hp [0.25–7.5 kW] > 10 Hz 15–60 hp [11–45 kW] < 5 Hz 75–750 hp [55 kW–550 kW] < 3–4 Hz 4-28 TR200 Programming Guide...
Page 66 [2]: The flying start will first make a search in the direction determined by the last reference (direction). If unable to find the speed, it will search in the other direction. If not successful, a DC brake will be TR200 Programming Guide 4-29...
Page 67 Mode. If the trip must take place at a rather exact speed (RPM), it is recommended to set par.0-02 Motor Speed Unit for RPM and use slip compensation, which can be set in par.1-62 Slip Compensation. 4-30 TR200 Programming Guide...
Page 68 Activates a warning when the connected thermistor in the motor reacts in the event of motor overtemperature. Thermistor trip Stops (trips) the adjustable frequency drive when the connected ther- mistor in the motor reacts in the event of motor overtemperature. TR200 Programming Guide 4-31...
Page 69 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 70 [0] * None Analog input 53 Analog input 54 Digital input 18 Digital input 19 Digital input 32 Digital input 33 NOTE: This parameter cannot be adjusted while the motor is running. TR200 Programming Guide 4-33...
Page 71: Main Menu - Brakes - Group 2
10.0 s* [0.0 - 60.0 s] Set the duration of the DC braking current set in par.2-01 DC Brake Cur- rent, once activated. 2-03 DC Brake Cut-in Speed [RPM] Range: Function: Applica- [Application dependant] tion de- pend- ent* 4-34 TR200 Programming Guide...
Page 72 810 2 × For 380–500 V units dutytime P resistor × 120 943 2 × For 575–600 V units dutytime P resistor × 120 This parameter is only active in adjustable frequency drives with an integral dynamic brake. TR200 Programming Guide 4-35...
Page 73 Trip Monitors for a short-circuit or disconnection of the brake resistor, or a short-circuit of the brake IGBT. If a fault occurs, the adjustable frequency drive cuts out while displaying an alarm (trip locked). 4-36 TR200 Programming Guide...
Page 74: Main Menu - Reference/Ramps - Group 3
Parameters for setting the reference unit, limits and ranges. Please also see par. 20-0* for information on settings in closed-loop. 3-02 Minimum Reference Range: Function: Applica- [Application dependant] tion de- pend- ent* 3-03 Maximum Reference Range: Function: Applica- [Application dependant] tion de- pend- ent* TR200 Programming Guide 4-37...
Page 75 [16], [17] or [18] for the corresponding digital inputs in par. group 5-1*. 3-10 Preset Reference Array [8] Range: Function: 0.00 %* [-100.00 - 100.00 %] 3-11 Jog Speed [Hz] Range: Function: Applica- [Application dependant] tion de- pend- ent* 4-38 TR200 Programming Guide...
Page 76 This parameter cannot be adjusted while the motor is running. No function [1] * Analog input 53 Analog input 54 Pulse input 29 Pulse input 33 [20] Digital pot.meter [21] Analog input X30/11 TR200 Programming Guide 4-39...
Page 77 [20] * Digital pot.meter [21] Analog input X30/11 [22] Analog input X30/12 [23] Analog Input X42/1 [24] Analog Input X42/3 [25] Analog Input X42/5 [30] Ext. Closed-loop 1 [31] Ext. Closed-loop 2 [32] Ext. Closed-loop 3 4-40 TR200 Programming Guide...
Page 78 Ext. Closed-loop 3 3-19 Jog Speed [RPM] Range: Function: Applica- [Application dependant] tion de- pend- ent* 3-4* Ramp 1 Configure the ramp parameter, ramping times, for each of the two ramps (par. 3-4* and par. 3-5*). TR200 Programming Guide 4-41...
Page 79 Enter the proportion of the total ramp-up time (par.3-41 Ramp 1 Ramp- Time) in which the acceleration torque decreases. The larger the percentage value, the greater the jerk compensation achieved, and thus the lower the torque jerks in the application. 4-42 TR200 Programming Guide...
Page 80 3-57 Ramp 2 S-ramp Ratio at Decel. Start Range: Function: 50 %* [Application dependant] Enter the proportion of the total ramp-down time (par.3-52 Ramp 2 Ramp-down Time) where the deceleration torque increases. The larger TR200 Programming Guide 4-43...
Page 81 Enter the proportion of the total ramp-down time (par.3-42 Ramp 1 Ramp-down Time) where the deceleration torque decreases. The larger the percentage value, the greater the jerk compensation achieved, and thus the lower the torque jerks in the application. 4-44 TR200 Programming Guide...
Page 82 Set the minimum permissible value for the resultant reference. This is advisable if the Digital Potentiometer is used for fine tuning of the re- sulting reference. 3-95 Ramp Delay Range: Function: Applica- [Application dependant] tion de- pend- ent* TR200 Programming Guide 4-45...
Page 83: Main Menu - Limits/Warnings - Group 4
Only operation in a clockwise direction will be allowed. [2] * Both directions Operation in both a clockwise and anti-clockwise direction will be al- lowed. NOTE: The setting in par.4-10 Motor Speed Direction has impact on the Flying Start in par.1-73 Flying Start. 4-46 TR200 Programming Guide...
Page 84 NOTE: Max. output frequency cannot exceed 10% of the inverter switching frequency (par.14-01 Switching Fre- quency). 4-16 Torque Limit Motor Mode Range: Function: Applica- [Application dependant] tion de- pend- ent* 4-17 Torque Limit Generator Mode Range: Function: 100.0 [Application dependant] TR200 Programming Guide 4-47...
Page 85 Mode. This parameter cannot be adjusted while the motor is running. 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* [Application dependant]...
Page 86 Enter the upper feedback limit. When the feedback exceeds this limit, the display reads Feedb High. The signal outputs can be programmed to Proc- produce a status signal on terminal 27 or 29 and on relay output 01 or essCtrlU- nit* TR200 Programming Guide 4-49...
Page 87 4-62 Bypass Speed to [RPM] Array [4] Range: Function: Applica- [Application dependant] tion de- pend- ent* 4-63 Bypass Speed To [Hz] Array [4] Range: Function: Applica- [Application dependant] tion de- pend- ent* 4-50 TR200 Programming Guide...
Page 88: Main Menu - Digital In/Out - Group 5
5-01 Terminal 27 Mode Option: Function: [0] * Input Defines terminal 27 as a digital input. Output Defines terminal 27 as a digital output. Please note that this parameter cannot be adjusted while the motor is running. TR200 Programming Guide 4-51...
Page 89 Parameter Description 5-02 Terminal 29 Mode Option: Function: [0] * Input Defines terminal 29 as a digital input. Output Defines terminal 29 as a digital output. This parameter cannot be adjusted while the motor is running. 4-52 TR200 Programming Guide...
Page 90 Counter B (down) [64] 29, 33 Reset Counter B [65] Sleep Mode [66] Reset Maintenance Word [78] Lead Pump Start [120] Lead Pump Alternation [121] Pump 1 Interlock [130] Pump 2 Interlock [131] Pump 3 Interlock [132] TR200 Programming Guide 4-53...
Page 91: Digital Inputs, 5-1* Continued
Changes direction of motor shaft rotation. Select Logic ‘1’ to reverse. The reversing signal only changes the direction of rotation. It does not acti- vate the start function. Select both directions in par.4-10 Motor Speed Direction. 4-54 TR200 Programming Guide...
Page 92 0.1%. If Speed up is activated for more than 400 msec., the resulting reference will ramp according to Ramp 1 in par.3-41 Ramp 1 Ramp-up Time. [22] Slow Same as Speed up [21]. TR200 Programming Guide 4-55...
Page 93 (Terminal 29 or 33 only) Input for increment counting in the SLC counter. [61] Counter A (down) (Terminal 29 or 33 only) Input for decrement counting in the SLC counter. [62] Reset Counter A Input for reset of counter A. 4-56 TR200 Programming Guide...
Page 94 External Interlock. The alarm can be reset using a digital input or the [RESET] key if the cause for the External Interlock has been removed. A delay can be programmed in par.22-00 External Interlock Delay, External Interlock Time. After applying a signal to the input, the reaction described TR200 Programming Guide 4-57...
Page 95 Ramp 2 Ramp-down Time) in the range 0 - par.1-23 Motor Frequency. NOTE: When Freeze output is active, the adjustable frequency drive can- not be stopped via a low ‘start [13]’ signal. Stop the adjustable frequency 4-58 TR200 Programming Guide...
Page 96 Start Auto-Start [54] Auto start A signal applied will put the adjustable frequency drive into auto mode Auto On Hand Start as if the keypad button has been pressed. See also [53] TR200 Programming Guide 4-59...
Page 97 Preset ref bit 1 [18] Preset ref bit 2 [19] Freeze reference [20] Freeze output [21] Speed up [22] Slow [23] Set-up select bit 0 [24] Set-up select bit 1 [34] Ramp bit 0 [36] Mains failure inverse 4-60 TR200 Programming Guide...
Page 98 DC brake inverse Stop inverse External interlock Start Latched start [10] Reverse [11] Start reverse [14] * [15] Preset reference on [16] Preset ref bit 0 [17] Preset ref bit 1 [18] Preset ref bit 2 TR200 Programming Guide 4-61...
Page 99 Pump 3 Interlock 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] Reverse [11] Start reverse 4-62 TR200 Programming Guide...
Page 100 Same options and functions as par. 5-1* Digital Inputs. Option: Function: [0] * No operation 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 TR200 Programming Guide 4-63...
Page 101 Pump 1 Interlock [131] Pump 2 Interlock [132] Pump 3 Interlock 5-17 Terminal X30/3 Digital Input Option: Function: [0] * No operation Reset Coast inverse Coast and Reset Inv DC brake inverse Stop inverse External interlock Start 4-64 TR200 Programming Guide...
Page 102 [131] Pump 2 Interlock [132] Pump 3 Interlock 5-18 Terminal X30/4 Digital Input Option: Function: [0] * No operation Reset Coast inverse Coast and Reset Inv DC brake inverse Stop inverse External interlock Start Latched start TR200 Programming Guide 4-65...
Page 103: Digital Outputs
Default for all digital outputs and relay outputs No operation Control ready The control board receives supply voltage. Drive ready The adjustable frequency drive is ready for operation and applies a sup- ply signal on the control board. 4-66 TR200 Programming Guide...
Page 104 Use the output/relay to cut out the AC line voltage from the adjustable frequency drive. [35] External Interlock External Interlock function has been activated via one of the digital in- puts. [40] Out of ref range [41] Below reference low [42] Above reference high TR200 Programming Guide 4-67...
Page 105 Smart Logic Action [43] is executed. The input will go Set dig. out. F low low whenever the Smart Logic Action [37] is executed. [160] No alarm The output is high when no alarm is present. 4-68 TR200 Programming Guide...
Page 106 This procedure will not be activated again before a new start is initiated and the adjustable frequency drive speed is zero during the re- ceiving of start signal. par.1-71 Start Delay can be used in order to delay the motor start. The bypass valve control principle: TR200 Programming Guide 4-69...
Page 107 Number Of Pumps [0] No [1] Yes [200] Pump 1 Running Controlled by RELAY1 Adjustable frequency drive control- [201] Pump 2 Running Controlled by RELAY2 Controlled by RELAY1 [203] Pump 3 Running Controlled by RELAY3 Controlled by RELAY2 4-70 TR200 Programming Guide...
Page 108 Torque limit stop [28] Brake: No Brake War [29] Brake ready, no fault [30] Brake fault (IGBT) [35] External Interlock [40] Out of ref range [41] Below reference, low [42] Above ref, high [45] Bus ctrl. TR200 Programming Guide 4-71...
Page 109 [193] Sleep Mode [194] Broken Belt [195] Bypass Valve Control [196] Fire Mode [197] Fire Mode was Act. [198] Drive Bypass [200] Full capacity [201] Pump 1 running [202] Pump 2 running [203] Pump 3 running 4-72 TR200 Programming Guide...
Page 110 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 TR200 Programming Guide 4-73...
Page 111 Option MCB 105: Relay 7 [6], Relay 8 [7] and Relay 9 [8]). Select options to define the function of the relays. The selection of each mechanical relay is realized in an array parameter. Option: Function: [0] * No operation Control ready Drive ready 4-74 TR200 Programming Guide...
Page 112 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 [73] Logic rule 3 TR200 Programming Guide 4-75...
Page 113 End Of Curve [193] Sleep Mode [194] Broken Belt [195] Bypass Valve Control [196] Fire Mode [197] Fire Mode was Act. [198] Drive Bypass [211] Cascade Pump 1 [212] Cascade Pump 2 [213] Cascade Pump 3 4-76 TR200 Programming Guide...
Page 114 Set terminal 29 (par.5-13 Terminal 29 Digital Input) or terminal 33 (par.5-15 Terminal 33 Digital Input) Pulse input Input [32]. If terminal 29 is used as an input, then set par.5-02 Terminal 29 Mode [0]. TR200 Programming Guide 4-77...
Page 115 This parameter cannot be adjusted while the motor is running. 5-55 Term. 33 Low Frequency Range: Function: 100 Hz* [0 - 110000 Hz] Enter the low frequency corresponding to the low motor shaft speed (i.e., low reference value) in par.5-57 Term. 33 Low Ref./Feedb. Value. 4-78 TR200 Programming Guide...
Page 116 Parameters for configuring the scaling and output functions of pulse outputs. The pulse outputs are designated for terminals 27 or 29. Select terminal 27 output in par.5-01 Terminal 27 Mode and terminal 29 output in par. 5-02 Terminal 29 Mode. Options for readout output variables: TR200 Programming Guide 4-79...
Page 117 Terminal 27 Pulse Output Variable. This parameter cannot be adjusted while the motor is running. Range: Function: 5000 [0 - 32000 Hz] 5-63 Terminal 29 Pulse Output Variable Option: Function: [0] * No operation [45] Bus ctrl. 4-80 TR200 Programming Guide...
Page 118 This parameter cannot be adjusted while the motor is running. This parameter is active when option module MCB 101 is mounted in the adjustable frequency drive. Range: Function: Applica- [0 - 32000 Hz] tion de- pend- ent* TR200 Programming Guide 4-81...
Page 119 Range: Function: 0.00 %* [0.00 - 100.00 %] 5-97 Pulse Out #X30/6 Bus Control Range: Function: 0.00 %* [0.00 - 100.00 %] 5-98 Pulse Out #X30/6 Timeout Preset Range: Function: 0.00 %* [0.00 - 100.00 %] 4-82 TR200 Programming Guide...
Page 120: Main Menu - Analog In/Out - Group 6
[1] frozen at the present value • [2] overruled to stop • [3] overruled to jog speed • [4] overruled to max. speed • [5] overruled to stop with subsequent trip [0] * Freeze output Stop Jogging TR200 Programming Guide 4-83...
Page 121 Terminal 53 Low Ref./ Feedb. Value. The value must be set at >2 mA in order to activate the Live Zero Timeout Function in par.6-01 Live Zero Timeout Function. 4-84 TR200 Programming Guide...
Page 122 6-20 Terminal 54 Low Voltage Range: Function: 0.07 V* [Application dependant] Enter the low voltage value. This analog input scaling value should cor- respond to the low reference/feedback value, set in par.6-24 Terminal 54 Low Ref./Feedb. Value. TR200 Programming Guide 4-85...
Page 123 I/O system (e.g., when used not as part of any adjustable fre- quency drive related control functions, but for feeding a building management system with data). Disabled [1] * Enabled 4-86 TR200 Programming Guide...
Page 124 I/O system (e.g., when not part of any adjustable frequency drive-related control functions, but feeding a building management sys- tem with data). [0] * Disabled [1] * Enabled TR200 Programming Guide 4-87...
Page 125 I/O system (e.g., when not part of any adjustable frequency drive-related control functions, but feeding a building management sys- tem with data). [0] * Disabled [1] * Enabled 4-88 TR200 Programming Guide...
Page 126 Bus ctrl 4-20mA t.o. : 0 - 100% [143] Ext. CL 1 4-20 mA : 0 - 100% [144] Ext. CL 2 4-20 mA : 0 - 100% [145] Ext. CL 3 4-20 mA : 0 - 100% TR200 Programming Guide 4-89...
Page 127 Output signal 0 or 4 mA is needed at 0% (50% of range) - set par.6-51 Terminal 42 Output Min Scale to 50% Output signal 20 mA is needed at 100% (75% of range) - set par.6-52 Terminal 42 Output Max Scale to 75% 4-90 TR200 Programming Guide...
Page 128 [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 [130] Out fr 0-100 4-20 TR200 Programming Guide 4-91...
Page 129: Main Menu - Communications And Options - Group 8
The setting in this parameter overrides the settings in par.8-50 Coasting Select to par.8-56 Preset Reference Select. [0] * Digital and ctrl. word Control by using both digital input and control word. Digital only Control by using digital inputs only. 4-92 TR200 Programming Guide...
Page 130 Select the timeout function. The timeout function is activated when the control word fails to be updated within the time period specified in par. 8-03 Control Timeout Time. Choice [20] only appears after setting the Metasys N2 protocol. [0] * TR200 Programming Guide 4-93...
Page 131 Do not reset [0] setting. 8-07 Diagnosis Trigger Option: Function: This parameter has no function for LonWorks. [0] * Disable Trigger on alarms Trigger alarm/warn. 4-94 TR200 Programming Guide...
Page 132 Parameter group 8-7* is only visible when Adjustable Frequency Drive Option [9] is chosen. [0] * Communication according to the FC protocol as described in the TR200 Design Guide, RS 485 Installation and Set-up FC MC Same as...
Page 133 No Parity, 1 Stop Bit No Parity, 2 Stop Bits 8-35 Minimum Response Delay Range: Function: Applica- [Application dependant] tion de- pend- ent* 8-36 Maximum Response Delay Range: Function: Applica- [Application dependant] tion de- pend- ent* 4-96 TR200 Programming Guide...
Page 134 [0] 8-52 DC Brake Select Option: Function: Select control of the DC brake via the terminals (digital input) and/or via the serial communication bus. Digital input Activates Start command via a digital input. TR200 Programming Guide 4-97...
Page 135 Select control of the adjustable frequency drive set-up selection via the terminals (digital input) and/or via the serial communication bus. Digital input Activates the set-up selection via a digital input. Activates the set-up selection via the serial communication port or serial communication option. 4-98 TR200 Programming Guide...
Page 136 Define how many info/data frames the device is allowed to send while holding the token. Option NOTE: This parameter is active only when par.8-30 Protocol is set to [9] 8-74 "I-Am" Service Option: Function: [0] * Send at power-up TR200 Programming Guide 4-99...
Page 137 This parameter shows the number of error messages, which could not be executed by the adjustable frequency drive. 8-84 Slave Messages Sent Range: Function: 0 N/A* [0 - 0 N/A] 8-85 Slave Timeout Errors Range: Function: 0 N/A* [0 - 0 N/A] 4-100 TR200 Programming Guide...
Page 138 Range: Function: 0 N/A* [-200 - 200 N/A] See par.8-94 Bus Feedback 1 for further details. 8-96 Bus Feedback 3 Range: Function: 0 N/A* [-200 - 200 N/A] See par.8-94 Bus Feedback 1 for further details. TR200 Programming Guide 4-101...
Page 139: 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 140 This parameter is used to activate storing of data in non-volatile memory. [0] * Store function is inactive. Store all set-ups Stores all parameter values in the E 2 PROM. The value returns to when all parameter values have been stored. TR200 Programming Guide 4-103...
Page 141: Main Menu - Smart Logic - Group 13
13-0* SLC Settings Use the SLC settings to activate, deactivate and reset the Smart Logic Control. 13-00 SL Controller Mode Option: Function: [0] * Disables the Smart Logic Controller. Enables the Smart Logic Controller. 4-104 TR200 Programming Guide...
Page 142 Use the result of logic rule 2 in the logic rule. [29] Logic rule 3 Use the result of logic rule 3 in the logic rule. [33] Digital input DI18 Use the value of DI18 in the logic rule (High = TRUE). TR200 Programming Guide 4-105...
Page 143 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. 4-106 TR200 Programming Guide...
Page 144 Use the value of DI33 in the logic rule (High = TRUE). [39] Start command This event is TRUE if the adjustable frequency drive is started by any means (either via digital input, serial communication bus or other). TR200 Programming Guide 4-107...
Page 145 (TRUE or FALSE) directly. All parameters in this parameter group are array parameters with an index of 0 to 5. Select index 0 to program Comparator 0, select index 1 to program Comparator 1, etc. 4-108 TR200 Programming Guide...
Page 146 Select ≈ [1] for the result of the evaluation to be TRUE, when the variable selected in par.13-10 Comparator Operand is approximately equal to the fixed value in par.13-12 Comparator Value. > Select > [2] for the inverse logic of option < [0]. TR200 Programming Guide 4-109...
Page 147 TRUE Enters the fixed value TRUE in the logic rule. 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. 4-110 TR200 Programming Guide...
Page 148 Use the value of DI27 in the logic rule (High = TRUE). [36] Digital input DI29 Use the value of DI29 in the logic rule (High = TRUE). [37] Digital input DI32 Use the value of DI32 in the logic rule (High = TRUE). TR200 Programming Guide 4-111...
Page 149 Use the result of timer 6 in the logic rule. [74] SL Timeout 7 Use the result of timer 7 in the logic rule. [80] No Flow [81] Dry Pump [82] End of Curve [83] Broken Belt 4-112 TR200 Programming Guide...
Page 150 Out of current range Below I low Above I high [10] Out of speed range [11] Below speed low [12] Above speed high [13] Out of feedb. range [14] Below feedb. low [15] Above feedb. high [16] Thermal warning TR200 Programming Guide 4-113...
Page 151 Comparator 5 [60] Logic rule 4 [61] Logic rule 5 [70] SL Timeout 3 [71] SL Timeout 4 [72] SL Timeout 5 [73] SL Timeout 6 [74] SL Timeout 7 [80] No Flow [81] Dry Pump 4-114 TR200 Programming Guide...
Page 152 Torque limit Current limit Out of current range Below I low Above I high [10] Out of speed range [11] Below speed low [12] Above speed high [13] Out of feedb. range [14] Below feedb. low TR200 Programming Guide 4-115...
Page 153 Down Key [50] Comparator 4 [51] Comparator 5 [60] Logic rule 4 [61] Logic rule 5 [70] SL Timeout 3 [71] SL Timeout 4 [72] SL Timeout 5 [73] SL Timeout 6 [74] SL Timeout 7 4-116 TR200 Programming Guide...
Page 154 Mains out of range [18] Reverse [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 TR200 Programming Guide 4-117...
Page 155 (defined in par.13-51 SL Controller Event) is evaluated as true. The following actions are available for selec- tion: [0] * DISABLED No action Select set-up 1 Changes the active set-up (par.0-10 Active Set-up) to ‘1’. 4-118 TR200 Programming Guide...
Page 156 Any output with ‘digital output 6’ selected is low (off). [38] Set digital out A high Any output with ‘digital output 1’ selected is high (closed). [39] Set digital out B high Any output with ‘digital output 2’ selected is high (closed). TR200 Programming Guide 4-119...
Page 157: Main Menu - Special Functions -Group 14
Switching Frequen- until the motor is as noiseless as possible. See also par.14-00 Switch- Derating ing Pattern and the section 1.0 kHz 1.5 kHz 2.0 kHz 2.5 kHz 3.0 kHz 3.5 kHz 4-120 TR200 Programming Guide...
Page 158 Brake Function must be set to [0]. Coasting The inverter will turn off and the capacitor bank will back up the control card, thus ensuring a faster restart when line power is reconnected (for short power zags). TR200 Programming Guide 4-121...
Page 159 Figure 4. 2: Controlled ramp-down - short line failure. Ramping down to stop, followed by ramping up to reference. Figure 4. 3: Controlled ramp-down, longer line failure. Controlled ramp-down, longer line failure. Figure 4. 4: Kinetic backup, short line failure. Ride through as long as the energy in the system allows for it. 4-122 TR200 Programming Guide...
Page 160 Automatic reset x 1…x20 Automatic reset x 1 Select [1]-[12] to perform between one and twen- ty automatic resets after tripping. Automatic reset x 2 Automatic reset x 3 Automatic reset x 4 Automatic reset x 5 TR200 Programming Guide 4-123...
Page 161 Control card test Select [1]. Disconnect the line power supply and wait for the light in the display to go out. Set switches S201 (A53) and S202 (A54) = ‘ON’ / I. Insert the test plug (see below). 4-124 TR200 Programming Guide...
Page 162 Normal par.14-22 Operation Mode will also revert to the default setting operation [0]. Boot mode 14-23 Typecode Setting Option: Function: Typecode re-writing. Use this parameter to set the typecode matching the specific adjustable frequency drive. TR200 Programming Guide 4-125...
Page 163 Function: 100 %* [0 - 500 %] Enter the proportional gain value for the current limit controller. Selec- tion of a high value makes the controller react faster. Too high a setting leads to controller instability. 4-126 TR200 Programming Guide...
Page 164 The cos(phi) setpoint is automatically set for optimum AEO performance tion de- during AMA. This parameter should normally not be altered. However, pend- in some situations it may be necessary to enter a new value to fine tune. ent* TR200 Programming Guide 4-127...
Page 165 131°F [+55 C]. On 50% On 75% On 100% 14-53 Fan Monitor Option: Function: Select which action the adjustable frequency drive should take in case a fan fault is detected. Disabled [1] * Warning Trip 4-128 TR200 Programming Guide...
Page 166 It may be preferable to run the pump at reduced speed for a while in case it is not possible to run continuously at demanded capacity. TR200 Programming Guide 4-129...
Page 167: Main Menu - Adjustable Frequency Drive Information - Group 15
Parameter group containing operating data, such as operating hours, kWh counters, power-ups, etc. 15-00 Operating Hours Range: Function: 0 h* [0 - 2147483647 h] View how many hours the adjustable frequency drive has run. The value is saved when the adjustable frequency drive is turned off. 4-130 TR200 Programming Guide...
Page 168 [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 Number of Starts to zero (see also par.15-01 Running Hours). TR200 Programming Guide 4-131...
Page 169 DC Link Voltage [1632] Brake Energy /s [1633] Brake Energy /2 min [1634] Heatsink Temp. [1635] Inverter Thermal [1650] External Reference [1652] Feedback [Unit] [1654] Feedback 1 [Unit] [1655] Feedback 2 [Unit] [1656] Feedback 3 [Unit] 4-132 TR200 Programming Guide...
Page 170 (par.15-14 Samples Before Trigger). [0] * FALSE TRUE Running In range On reference Torque limit Current limit Out of current range Below I low Above I high TR200 Programming Guide 4-133...
Page 171 Function: 50 N/A* [0 - 100 N/A] Enter the percentage of all samples prior to a trigger event which are to be retained in the log. See also par.15-12 Trigger Event and par. 15-13 Logging Mode. 4-134 TR200 Programming Guide...
Page 172 View the time at which the logged event occurred. Time is measured in ms since adjustable frequency drive start. The max. value corresponds to approx. 24 days which means that the count will restart at zero after this time period. TR200 Programming Guide 4-135...
Page 173 15-40 FC Type Range: Function: 0 N/A* [0 - 0 N/A] View the FC type. The readout is identical to the adjustable frequency drive series power field of the type code definition, characters 1-6. 4-136 TR200 Programming Guide...
Page 174 15-49 SW ID Control Card Range: Function: 0 N/A* [0 - 0 N/A] View the control card software version number. 15-50 SW ID Power Card Range: Function: 0 N/A* [0 - 0 N/A] View the power card software version number. TR200 Programming Guide 4-137...
Page 175 For example, for type code string 'BX', the translation is 'No option'. 15-73 Slot B Option SW Version Range: Function: 0 N/A* [0 - 0 N/A] View the software version for the option installed in slot B. 4-138 TR200 Programming Guide...
Page 176 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 MCT10 software tool. TR200 Programming Guide 4-139...
Page 177: Main Menu - Data Readouts - Group 16
16-09 Custom Readout Range: Function: 0.00 [-999999.99 - 999999.99 View the user-defined readouts as defined in par.0-30 Custom Readout Custom- CustomReadoutUnit] Unit, par.0-31 Custom Readout Min Value and par.0-32 Custom Readout Readou- Value. tUnit* 4-140 TR200 Programming Guide...
Page 178 The value is filtered, and thus approx. 1.3 seconds may pass from when an input changes value to when the data readout values change. 16-17 Speed [RPM] Range: Function: 0 RPM* [-30000 - 30000 RPM] View the current motor RPM. TR200 Programming Guide 4-141...
Page 179 Function: Applica- [0.01 - 10000.00 A] View the inverter nominal current, which should match the nameplate tion de- data on the connected motor. The data are used for calculation of torque, pend- motor protection, etc. ent* 4-142 TR200 Programming Guide...
Page 180 Parameters for reporting the reference and feedback input. 16-50 External Reference Range: Function: 0.0 N/A* [-200.0 - 200.0 N/A] View the total reference, the sum of digital, analog, preset, bus and freeze references, plus catch-up and slow-down. TR200 Programming Guide 4-143...
Page 181 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). 4-144 TR200 Programming Guide...
Page 182 View the setting of input terminal 53. Current = 0; Voltage = 1. [0] * Current Voltage Pt 1000 [°C] Pt 1000 [°F] Ni 1000 [°C] Ni 1000 [°F] 16-62 Analog Input 53 Range: Function: 0.000 N/ [-20.000 - 20.000 N/A] View the actual value at input 53. TR200 Programming Guide 4-145...
Page 183 View the actual value of impulses applied to terminal 27 in digital output mode. 16-70 Pulse Output #29 [Hz] Range: Function: 0 N/A* [0 - 40000 N/A] View the actual value of pulses to terminal 29 in digital output mode. 4-146 TR200 Programming Guide...
Page 184 [-20.000 - 20.000 N/A] View the actual value at input X30/12 of MCB 101. 16-77 Analog Out X30/8 [mA] Range: Function: 0.000 N/ [0.000 - 30.000 N/A] View the actual value at input X30/8 in mA. TR200 Programming Guide 4-147...
Page 185 16-9* Diagnosis Readouts Parameters displaying alarm, warning and extended status words. 16-90 Alarm Word Range: Function: 0 N/A* [0 - 4294967295 N/A] View the alarm word sent via the serial communication port in hex code. 4-148 TR200 Programming Guide...
Page 186 Bit 7: Pump seals • Bit 8: Fan belt • Bit 9: Filter • Bit 10: Drive cooling fan • Bit 11: Drive system health check • Bit 12: Warranty • Bit 13: Maintenance Text 0 TR200 Programming Guide 4-149...
Page 187 The third digit 0 indicates that no items from the second row requires maintenance The fourth digit A refers to the top row indicating that the valve and the pump bearings require maintenance 4-150 TR200 Programming Guide...
Page 188: Main Menu - Data Readouts 2 - Group 18
. The log can be viewed either via the below parameters or by pressing the Alarm Log button on the keypad and select Fire Mode Log. It is not possible to reset the fire mode log. TR200 Programming Guide 4-151...
Page 189 18-12 Fire Mode Log: Date and Time Range: Function: Applica- [Application dependant] tion de- pend- ent* 18-5* Ref. & Feedb. Parameters for reporting the reference and feedback input. NOTE Sensorless Readout requires set-up by MCT10 with sensorless specific plug-in. 4-152 TR200 Programming Guide...
Page 190: Main Menu - Adjustable Frequency Drive Closed-Loop - Group 20
Analog input X30/11 and Analog input X30/12 refer to inputs on the op- tional general purpose I/O board. No function Analog input 53 [2] * 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 TR200 Programming Guide 4-153...
Page 191 This unit is not used by the PID controller. [0] * [10] [11] [12] PULSE/s [20] liter / sec. [21] liter / min [22] liter / hr. [23] m³ / sec. [24] m³/min [25] m³ / hr. 4-154 TR200 Programming Guide...
Page 192 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. TR200 Programming Guide 4-155...
Page 193 [20] liter / sec. [21] liter / min [22] liter / hr. [23] m³ / sec. [24] m³/min [25] m³ / hr. [30] kg / sec. [31] kg/min [32] kg / hr. [33] ton / min 4-156 TR200 Programming Guide...
Page 194 WG [174] in Hg [180] 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 TR200 Programming Guide 4-157...
Page 195 / sec. [31] kg/min [32] kg / hr. [33] ton / min [34] ton / hr. [40] m / sec. [41] m/min [45] [60] °C [70] mbar [71] [72] [73] [74] m WG [75] mm Hg 4-158 TR200 Programming Guide...
Page 196 Enter the maximum reference/feedback for closed-loop operation. The Proc- 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-loop and closed-loop (total feedback range: -200% to +200%). TR200 Programming Guide 4-159...
Page 197 20-06 Feedback 3 Source. 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. 4-160 TR200 Programming Guide...
Page 198 Example 1: Multi-zone, single setpoint In an office building, a VAV (variable air volume) TR200 system must ensure a minimum pressure at selected VAV boxes. Due to the varying pressure losses in each duct, the pressure at each VAV box cannot be assumed to be the same.
Page 199 PID controller. See the essCtrlU- description of par.20-20 Feedback Function. nit* NOTE The setpoint reference entered here is added to any other references that are enabled (see par. group 3-1*). 4-162 TR200 Programming Guide...
Page 200 Refrigerant is set to [7]. 20-33 User-defined Refrigerant A3 Range: Function: 250.000 [200.000 - 300.000 N/A] Use this parameter to enter the value of coefficient A3 when par. User-defined N/A* 20-30 Refrigerant is set to [7]. TR200 Programming Guide 4-163...
Page 201 Units of measurement depend on the setting of Adjusts the density of the air in % of the normalized air density (1.2 kg/m 3 ). 20-38 Air Density Factor [%] Range: Function: 100 %* [50 - 150 %] 4-164 TR200 Programming Guide...
Page 202 6-** and 5-5*, Terminal 53/54 Filter Time Constant/Pulse Filter Time Constant #29/33) before activating PID autotuning. In order to obtain the most accurate controller parameters, it is advised to carry out PID auto- tuning when the application is running in typical operation, i.e., with a typical load. TR200 Programming Guide 4-165...
Page 203 The maximum allowable feedback level should be entered here in user units as defined in par.20-12 Reference/Feedback Unit. If the level rises Proc- above par.20-74 Maximum Feedback Level, autotuning is aborted and an essCtrlU- error message will appear on the keypad. nit* 4-166 TR200 Programming Guide...
Page 204 Reference/No Warning [8]. In addition, for serial communications, the On Reference status bit of the adjustable frequency drive’s status word will be high (1). On Reference Bandwidth is calculated as a percentage of the setpoint reference. TR200 Programming Guide 4-167...
Page 205 This group provides the ability to manually adjust this PID controller. By adjusting the PID controller parameters MG.11.Bx.yy the control performance may be improved. See section PID in the TR200 Design Guide, for guide- lines on adjusting the PID controller parameters.
Page 206: Main Menu - Extended Closed-Loop - Tr200 - Group 21
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 config- ured independently to control either external servos (valves, dampers, etc.) or be used together with the internal PID controller to improve the dynamic responses to setpoint changes or load disturbances.
Page 207 PID autotuning. The setting has no impact on the value of the tuned parameters and is used only for the PID autotuning sequence. [0] * Auto Fast Pressure Slow Pressure Fast Temperature Slow Temperature 4-170 TR200 Programming Guide...
Page 208 [OK] or [Cancel] buttons on the keypad at the end of tuning, this parameter is reset to [0] Disabled. [0] * Disabled Enabled Ext CL 1 PID Enabled Ext CL 2 PID Enabled Ext CL 3 PID TR200 Programming Guide 4-171...
Page 209 / sec. [31] kg/min [32] kg / hr. [33] ton / min [34] ton / hr. [40] m / sec. [41] m/min [45] [60] °C [70] mbar [71] [72] [73] [74] m WG [75] mm Hg 4-172 TR200 Programming Guide...
Page 210 Function: [Application dependant] Select the maximum for the Closed-loop 1 Controller. 100.000 The dynamics of the PID controller will depend on the value set in this tPID1Un parameter. Please see also par.21-21 Ext. 1 Proportional Gain. TR200 Programming Guide 4-173...
Page 211 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] Bus feedback 2 [102] Bus feedback 3 4-174 TR200 Programming Guide...
Page 212 4-13/4-14, Motor Speed High Limit, but in practice of course limited by this setting. The proportional band (error causing output to change from 0%–100%) can be calculated by means of the for- mula: × ( Max Reference Proportional Gain TR200 Programming Guide 4-175...
Page 213 Configure Extended Closed-loop 2 Controller reference and feedback. 21-30 Ext. 2 Ref./Feedback Unit Option: Function: See par.21-10 Ext. 1 Ref./Feedback Unit for details [1] * [10] [11] [12] PULSE/s [20] liter / sec. [21] liter / min 4-176 TR200 Programming Guide...
Page 214 [127] ft³/h [130] lbs / sec. [131] lbs / min. [132] lbs / hr. [140] ft/s [141] ft/min [145] [160] °F [170] [171] lb/in² [172] in. wtr. gage [173] ft WG [174] in Hg [180] TR200 Programming Guide 4-177...
Page 215 [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 4-178 TR200 Programming Guide...
Page 216 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. TR200 Programming Guide 4-179...
Page 217 Ext. 1 Ref./Feedback Unit for details. [1] * [10] [11] [12] PULSE/s [20] liter / sec. [21] liter / min [22] liter / hr. [23] m³ / sec. [24] m³/min [25] m³ / hr. [30] kg / sec. 4-180 TR200 Programming Guide...
Page 218 [145] [160] °F [170] [171] lb/in² [172] in. wtr. gage [173] ft WG [174] in Hg [180] 21-51 Ext. 3 Minimum Reference Range: Function: 0.000 [Application dependant] See par.21-11 Ext. 1 Minimum Reference for details. tPID3Un TR200 Programming Guide 4-181...
Page 219 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] Bus feedback 2 [102] Bus feedback 3 4-182 TR200 Programming Guide...
Page 220 10000.0 [0.01 - 10000.00 s] See par.21-22 Ext. 1 Integral Time for details. 0 s* 21-63 Ext. 3 Differentation Time Range: Function: 0.00 s* [0.00 - 10.00 s] See par.21-23 Ext. 1 Differentation Time for details. TR200 Programming Guide 4-183...
Page 221: Main Menu - Application Functions - Tr200 - Group 22
5.0 N/A* [1.0 - 50.0 N/A] See par.21-24 Ext. 1 Dif. Gain Limit for details. Main Menu - Application Functions - TR200 - Group 22 This group contains parameters used for monitoring TR200 applications. 22-00 External Interlock Delay Range: Function:...
Page 222 Can be used with both the integrated PI controller and an external PI controller. The condition for Dry Pump signal: Power consumption below no flow level Pump running at maximum speed or maximum reference open-loop, whichever is lowest. TR200 Programming Guide 4-185...
Page 223 Detection) or via an external signal applied to one of the digital inputs (must be programmed via the parameters for configuration of the digital inputs, par. 5-1* selecting [66] Sleep Mode). Sleep mode is activated only when no wake-up conditions are present. 4-186 TR200 Programming Guide...
Page 224 Configuration Mode must be set for closed-loop and the PI controller configured for desired reference and feedback signals. Example: Boost system. TR200 Programming Guide 4-187...
Page 225 In the example with a boost system, desired pressure Pset is not known. par.1-00 Configuration Mode must be set for Open-loop. Example: Boost system. 4-188 TR200 Programming Guide...
Page 226 10 s* [0 - 600 s] Set the desired minimum time for staying in sleep mode. This will over- ride any wake-up conditions. 22-42 Wake-up Speed [RPM] Range: Function: Applica- [Application dependant] tion de- pend- ent* TR200 Programming Guide 4-189...
Page 227 If the estimated motor torque is below the broken belt torque value (par.22-61 Broken Belt Torque) and the adjustable frequency drive output frequency is above or equal to 15 Hz, the broken belt function (par. 22-60 Broken Belt Function) is performed. 4-190 TR200 Programming Guide...
Page 228 22-75 Short Cycle Protection Option: Function: [0] * Disabled Timer set in par.22-76 Interval between Starts is disabled. Enabled Timer set in par.22-76 Interval between Starts is enabled. TR200 Programming Guide 4-191...
Page 229: Main Menu - Time-Based Functions - Tr200 - Group 23
The timer will be overridden by a Coast (Inverse) or an External Interlock command. NOTE: Does not work in cascade mode. 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.
Page 230 Set digital out A high [39] Set digital out B high [40] Set digital out C high [41] Set digital out D high [42] Set digital out E high [43] Set digital out F high [60] Reset Counter A TR200 Programming Guide 4-193...
Page 231 Select preset ref 7 [18] Select ramp 1 [19] Select ramp 2 [22] [23] Run reverse [24] Stop [26] Dcstop [27] Coast [28] Freeze output [29] Start timer 0 [30] Start timer 1 [31] Start timer 2 4-194 TR200 Programming Guide...
Page 232 The adjustable frequency drive will give a message when maintenance is re- quired. Twenty preventive maintenance events can be programmed into the adjustable frequency drive. The following must be specified for each event: TR200 Programming Guide 4-195...
Page 233 Preventive Maintenance can be programmed from the keypad, but use of the PC-based Motion Control Tool Trane Drive Utility is recommended. 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*.
Page 234 [10] Filter [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 TR200 Programming Guide 4-197...
Page 235 Maintenance Time Interval. Date & Time Date & Time [3] uses the internal clock. The date and time of the next maintenance occurrence must be specified in par.23-14 Maintenance Date and Time. 4-198 TR200 Programming Guide...
Page 236 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. There are basically two functions: TR200 Programming Guide 4-199...
Page 237 The counter with the highest index will always be subject to updates (containing data for the current hour since XX:00 or the current day since 00:00). Quick Menu Loggings Energy Log: Trending The contents of counters can be displayed as bars on keypad. Select Continued Bin / Trending Timed Bin / Trending Comparison 4-200 TR200 Programming Guide...
Page 238 23-51 Period Start Range: Function: Applica- [Application dependant] tion de- pend- ent* NOTE When mounting an Analog I/O MCB109 option card, a battery back-up of the date and time is included. TR200 Programming Guide 4-201...
Page 239 [1] to reset all values in the Energy Log counters shown in par.23-53 Energy Log. After pressing OK, the setting of the parameter Do not reset value will automatically change to [0]. [0] * Do not reset Do reset 4-202 TR200 Programming Guide...
Page 240 Output Frequency and Motor Speed. The size of each interval can be adjusted individually, but will default be 10% for each. Power and current can exceed rated value, but those registrations will be included in the 90%–100% (MAX) counter. TR200 Programming Guide 4-203...
Page 241 Motor Speed High Limit [Hz]. Actual value can be read in par.16-13 Frequency. Motor Speed [RPM] Speed of the motor. Reference for relative value is the maximum motor speed programmed in par.4-13 Motor Speed High Limit [RPM]. 4-204 TR200 Programming Guide...
Page 242 Start, and stops at the time/date programmed in par.23-64 Timed Period Stop. All counters can be reset to 0 in par.23-67 Reset Timed Bin Data. 23-63 Timed Period Start Range: Function: Applica- [Application dependant] tion de- pend- ent* TR200 Programming Guide 4-205...
Page 243 Do reset Select [1] to reset all counters in par.23-62 Timed 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 4-206 TR200 Programming Guide...
Page 244 Energy Savings [kW] Power Reference Factor in par.23-80 Power Refer- Actual Power par.16-10 Power [kW], ence Factor par.16-11 Power [hp] Energy Cost per kWh par.23-81 Energy Cost Cost Savings par.23-84 Cost Savings Investment par.23-82 Investment TR200 Programming Guide 4-207...
Page 245 Energy Savings. 23-84 Cost Savings Range: Function: 0 N/A* [0 - 2147483647 N/A] This parameter allows a readout of the calculation based on the above equation (in local currency). 4-208 TR200 Programming Guide...
Page 246: Main Menu - Application Functions 2 - Group 24
24-0* NOTE Please note the adjustable frequency drive is only one component of the TR200 system. Correct function of fire mode depends on the correct design and selection of system components. Ventilation systems working in life safety appli- Non-interruption of the adjustable frequency drive due cations have to be approved by the local fire authorities.
Page 247 Works only in open-loop. Set par.24-01 Fire Mode Configura- tion to Open-loop [0]. Enabled - Coast When this mode is enabled, the output is disabled and the motor is al- lowed to coast to stop. Enabled - Run Fwd/Re 4-210 TR200 Programming Guide...
Page 248 In case of a critical alarm, the adjustable frequency drive will trip and not auto-restart (Manual Reset). Trip, All Alarms/Test It is possible to test the operation of fire mode, but all alarm states are activated normally (Manual Reset). TR200 Programming Guide 4-211...
Page 249 When the Drive Bypass function is activated, the display on the keypad will show the status message Drive Bypass. This message has a higher priority than the fire mode status messages. When the automatic drive bypass function is enabled, it will cut in the external bypass according to the below sequence: 4-212 TR200 Programming Guide...
Page 250 CAUTION Important! After enabling the drive bypass function, the safe stop function (in versions, where included) no longer complies with standard EN 954-1, Cat. 3 installations. TR200 Programming Guide 4-213...
Page 251 Relay, Function Relay. If a relay delay has also been programmed in par. 5-41 On Delay, Relay, On Delay, Relay or par.5-42 Off Delay, Relay, [Re- lay], then this time must also elapse before the relay action is performed. 4-214 TR200 Programming Guide...
Page 252: Troubleshooting
By using the [RESET] control button on the keypad. Via a digital input with the “Reset” function. Via serial communication/optional serial communication bus. By resetting automatically using the [Auto Reset] function, which is a default setting for TR200 Drive, see par.14-20 Reset Mode.
Page 253 AMA check U nom and I nom AMA low I nom AMA motor too big AMA motor too small AMA Parameter out of range AMA interrupted by user AMA timeout AMA internal fault Current limit Table 5. 1: Alarm/Warning code list TR200 Programming Guide...
Page 254 (parameter group 5-1* [1]). The original event that caused an alarm cannot damage the adjustable frequency drive or cause dangerous conditions. A trip lock is an action that TR200 Programming Guide...
Page 255 Table 5. 3: Description of Alarm Word, Warning Word and Extended Status Word The alarm words, warning words and extended status words can be read out via serial bus or optional serial communication bus for diagnosis. See also par.16-90 Alarm Word, par.16-92 Warning Word and par.16-94 Ext. Status Word. TR200 Programming Guide...
Page 256: Alarm Words
1.8 V supply fault 02000000 Reserved 04000000 Brake resistor short circuit 04000000 Reserved 08000000 Brake chopper fault 08000000 Reserved 10000000 Option change 10000000 Reserved 20000000 Drive initialized 20000000 Reserved 40000000 Safe Stop 40000000 Reserved 80000000 Not used 80000000 Reserved TR200 Programming Guide...
Page 257: Warning Words
Reserved 02000000 Current limit 02000000 Reserved 04000000 Low temperature 04000000 Reserved 08000000 Voltage limit 08000000 Reserved 10000000 Encoder loss 10000000 Reserved 20000000 Output frequency limit 20000000 Reserved 40000000 Not used 40000000 Reserved 80000000 Not used 80000000 Reserved TR200 Programming Guide...
Page 258: Extended Status Words
00800000 Reserved 00800000 Running 01000000 Reserved 01000000 Bypass 02000000 Reserved 02000000 Fire Mode 04000000 Reserved 04000000 Reserved 08000000 Reserved 08000000 Reserved 10000000 Reserved 10000000 Reserved 20000000 Reserved 20000000 Reserved 40000000 Reserved 40000000 Reserved 80000000 Reserved 80000000 Reserved TR200 Programming Guide...
Page 259: Fault Messages
The fault is that the adjustable frequency drive is ply currents to the adjustable frequency drive. overloaded by more than 100% for too long. NOTE: See the derating section in the Design Guide for more details if a high switching frequency is required. TR200 Programming Guide...
Page 260 Record the value of the following parameters and If using a KTY sensor, check the programming of contact your Trane supplier: parameters 1-95, 1-96, and 1-97 match sensor wiring. par.15-40 FC Type par.15-41...
Page 261 Check soft charge fuses. ([0] Disabled). IGBT thermal sensor. For the D, E, and F Frame drives, the regulated volt- WARNING age to the fans is monitored. Disconnect power before proceeding. Troubleshooting: Check fan resistance. Check soft charge fuses. 5-10 TR200 Programming Guide...
Page 262 Check the load connected to terminal 29 or remove ALARM 38, Internal fault short-circuit connection. Check par.5-02 Terminal 29 Mode. It may be necessary to contact your Trane supplier. Some typical alarm messages: TR200 Programming Guide 5-11...
Page 263 Check par.5-33 Term X30/7 Digi Out (MCB 101). Contact your Trane supplier. ALARM 46, Power card supply WARNING 59, Current limit The supply on the power card is out of range. The current is higher than the value in par.4-18...
Page 264: Default Settings
3 = right inverter module in F2 or F4 drive. ALARM 91, Analog input 54 wrong settings 5 = rectifier module. Switch S202 has to be set in position OFF (voltage input) when a KTY sensor is connected to analog in- put terminal 54. TR200 Programming Guide 5-13...
Page 265 ALARM 250, New spare part The power or switch mode power supply has been exchanged. The adjustable frequency drive type code must be restored in the EEPROM. Select the correct type code in par.14-23 Typecode Setting according to 5-14 TR200 Programming Guide...
Page 266 Parameter Lists Parameter Lists TR200 Default settings Changes during operation: “TRUE” means that the parameter can be changed while the adjustable frequency drive is in operation, and “FALSE” means that the adjustable frequency drive must be stopped before a change can be made.
Page 267: Operation And Display
0-81 Working Days null 1 set-up TRUE Uint8 TimeOf- 0-82 Additional Working Days ExpressionLimit 1 set-up TRUE TimeOf- 0-83 Additional Non-Working Days ExpressionLimit 1 set-up TRUE VisStr[2 0-89 Date and Time Readout 0 N/A All set-ups TRUE TR200 Programming Guide...
Page 268: Load / Motor
All set-ups TRUE Uint16 1-9* Motor Temperature 1-90 Motor Thermal Protection [4] ETR trip 1 All set-ups TRUE Uint8 1-91 Motor External Fan [0] No All set-ups TRUE Uint16 1-93 Thermistor Source [0] None All set-ups TRUE Uint8 TR200 Programming Guide...
Page 269: Brakes
All set-ups TRUE Uint32 3-92 Power Restore [0] Off All set-ups TRUE Uint8 3-93 Maximum Limit 100 % All set-ups TRUE Int16 3-94 Minimum Limit All set-ups TRUE Int16 3-95 Ramp Delay ExpressionLimit All set-ups TRUE TimD TR200 Programming Guide...
Page 270: Limits / Warnings
Bypass Speed From [Hz] ExpressionLimit All set-ups TRUE Uint16 4-62 Bypass Speed to [RPM] ExpressionLimit All set-ups TRUE Uint16 4-63 Bypass Speed To [Hz] ExpressionLimit All set-ups TRUE Uint16 4-64 Semi-Auto Bypass Set-up [0] OFF All set-ups FALSE Uint8 TR200 Programming Guide...
Page 271: Digital In / Out
All set-ups TRUE 5-96 Pulse Out #29 Timeout Preset 0.00 % 1 set-up TRUE Uint16 5-97 Pulse Out #X30/6 Bus Control 0.00 % All set-ups TRUE 5-98 Pulse Out #X30/6 Timeout Preset 0.00 % 1 set-up TRUE Uint16 TR200 Programming Guide...
Page 272: Analog In / Out
All set-ups TRUE Int16 6-62 Terminal X30/8 Max. Scale 100.00 % All set-ups TRUE Int16 6-63 Terminal X30/8 Output Bus Control 0.00 % All set-ups TRUE 6-64 Terminal X30/8 Output Timeout Preset 0.00 % 1 set-up TRUE Uint16 TR200 Programming Guide...
Page 273: Communication And Options
Bus Jog 2 Speed 200 RPM All set-ups TRUE Uint16 8-94 Bus Feedback 1 0 N/A 1 set-up TRUE 8-95 Bus Feedback 2 0 N/A 1 set-up TRUE 8-96 Bus Feedback 3 0 N/A 1 set-up TRUE TR200 Programming Guide...
Page 274: Lonworks
Logic Rule Operator 2 null 2 set-ups TRUE Uint8 13-44 Logic Rule Boolean 3 null 2 set-ups TRUE Uint8 13-5* States 13-51 SL Controller Event null 2 set-ups TRUE Uint8 13-52 SL Controller Action null 2 set-ups TRUE Uint8 TR200 Programming Guide...
Page 275: Special Functions
Uint8 14-6* Auto Derate 14-60 Function at Overtemperature [0] Trip All set-ups TRUE Uint8 14-61 Function at Inverter Overload [0] Trip All set-ups TRUE Uint8 14-62 Inv. Overload Derate Current 95 % All set-ups TRUE Uint16 6-10 TR200 Programming Guide...
Page 276: Adjustable Frequency Drive Information
15-92 Defined Parameters 0 N/A All set-ups FALSE Uint16 15-93 Modified Parameters 0 N/A All set-ups FALSE Uint16 15-98 Drive Identification 0 N/A All set-ups FALSE VisStr[40] 15-99 Parameter Metadata 0 N/A All set-ups FALSE Uint16 TR200 Programming Guide 6-11...
Page 277: Data Readouts
0 N/A All set-ups FALSE Uint32 16-94 Ext. Status Word 0 N/A All set-ups FALSE Uint32 16-95 Ext. Status Word 2 0 N/A All set-ups FALSE Uint32 16-96 Maintenance Word 0 N/A All set-ups FALSE Uint32 6-12 TR200 Programming Guide...
Page 278: Info & Readouts
18-34 Analog Out X42/9 [V] 0.000 N/A All set-ups FALSE Int16 18-35 Analog Out X42/11 [V] 0.000 N/A All set-ups FALSE Int16 18-5* Ref. & Feedb. 18-50 Sensorless Readout [unit] 0.000 SensorlessUnit All set-ups FALSE Int32 TR200 Programming Guide 6-13...
Page 279: Fc Closed-Loop
0.50 N/A All set-ups TRUE Uint16 20-94 PID Integral Time 20.00 s All set-ups TRUE Uint32 20-95 PID Differentiation Time 0.00 s All set-ups TRUE Uint16 20-96 PID Diff. Gain Limit 5.0 N/A All set-ups TRUE Uint16 6-14 TR200 Programming Guide...
Page 280: Ext. Closed-Loop
TRUE Uint16 21-62 Ext. 3 Integral Time 10000.00 s All set-ups TRUE Uint32 21-63 Ext. 3 Differentation Time 0.00 s All set-ups TRUE Uint16 21-64 Ext. 3 Dif. Gain Limit 5.0 N/A All set-ups TRUE Uint16 TR200 Programming Guide 6-15...
Page 281: Application Functions
All set-ups TRUE Int32 22-88 Pressure at Rated Speed 999999.999 N/A All set-ups TRUE Int32 22-89 Flow at Design Point 0.000 N/A All set-ups TRUE Int32 22-90 Flow at Rated Speed 0.000 N/A All set-ups TRUE Int32 6-16 TR200 Programming Guide...
Page 282: Time-Based Functions
Uint8 23-81 Energy Cost 1.00 N/A 2 set-ups TRUE Uint32 23-82 Investment 0 N/A 2 set-ups TRUE Uint32 23-83 Energy Savings 0 kWh All set-ups TRUE Int32 23-84 Cost Savings 0 N/A All set-ups TRUE Int32 TR200 Programming Guide 6-17...
Page 283: Application Functions
All set-ups TRUE Int32 24-97 Locked Rotor Coefficient 2 0.0000 N/A All set-ups TRUE Int32 24-98 Locked Rotor Coefficient 3 0.0000 N/A All set-ups TRUE Int32 24-99 Locked Rotor Coefficient 4 0.000 N/A All set-ups TRUE Int32 6-18 TR200 Programming Guide...
Page 284: Index
0-42 4-17 Automatic Motor Adaptation (ama) 1-29 4-25 Automatic Restart Time 14-21 4-124 Bacnet 4-99 Bacnet Device Instance 8-70 4-99 Brake Check 2-15 4-36 Brake Control Brake Energy /2 Min 16-33 4-142 Brake Energy /s 16-32 4-142 TR200 Programming Guide...
Page 285 Control Word 16-00 4-140 Cooling 4-31 Copyright, Limitation Of Liability And Revision Rights Cost Savings 23-84 4-208 Counter A 16-72 4-147 Counter B 16-73 4-147 Current Fault Source 16-49 4-143 Current Lim Cont, Proportional Gain 14-30 4-126 TR200 Programming Guide...
Page 286 4-20 Dst/summertime End 0-77 4-21 Dst/summertime Start 0-76 4-21 Electrical Ratings Electronic Waste End-of-timeout Function 8-05 4-94 Energy Cost 23-81 4-208 Energy Log 4-199, 4-202 Energy Log Resolution 23-50 4-201 Energy Optimization 4-127 Energy Savings 23-83 4-208 TR200 Programming Guide...
Page 287 External Interlock Delay 22-00 4-184 External Reference 16-50 4-143 [Fan 1 Area In2] 20-35 4-164 [Fan 1 Area M2] 20-34 4-164 [Fan 2 Area In2] 20-37 4-164 [Fan 2 Area M2] 20-36 4-164 Fan Control 14-52 4-128 TR200 Programming Guide...
Page 288 4-142 High Speed Load Compensation 1-61 4-28 Historic Log 4-135 Historic Log: Date And Time 15-23 4-136 Historic Log: Event 15-20 4-135 Historic Log: Time 15-22 4-135 Historic Log: Value 15-21 4-135 How To Operate The Graphical TR200 Programming Guide...
Page 289 Low Speed Detection 22-22 4-186 Low Speed Load Compensation 1-60 4-28 [Main Actual Value %] 16-05 4-140 Main Menu - Adjustable Frequency Drive Information - Group 15 4-130 Main Menu Mode 3-5, 3-8 Main Menu Mode 3-15 TR200 Programming Guide...
Page 290 4-10 4-46 [Motor Speed High Limit Hz] 4-14 4-47 [Motor Speed High Limit Rpm] 4-13 4-47 [Motor Speed Low Limit Hz] 4-12 4-47 [Motor Speed Low Limit Rpm] 4-11 4-47 Motor Speed Unit 0-02 Motor Status 4-141 TR200 Programming Guide...
Page 291 Parameter Metadata 15-99 4-139 Parameter Selection 3-16 Parameter Set-up Parity / Stop Bits 8-33 4-96 Period Start 23-51 4-201 Personal Menu Password 0-65 4-19 Pid Anti Windup 20-91 4-168 Pid Autotuning 4-165 Pid Autotuning 20-79 4-167, 4-171 TR200 Programming Guide...
Page 292 Ramp 1 S-ramp Ratio At Accel. Start 3-45 4-42 Ramp 1 S-ramp Ratio At Decel. End 3-48 4-43 Ramp 1 S-ramp Ratio At Decel. Start 3-47 4-43 Ramp 1 Type 3-40 4-42 Ramp 2 Ramp-down Time 3-52 4-43 TR200 Programming Guide...
Page 293 Set-up Copy 0-51 4-19 Set-up Select 8-55 4-98 Short Cycle Protection 4-191 Sl Controller Action 13-52 4-118 Sl Controller Event 13-51 4-117 Sl Controller Mode 13-00 4-104 Sl Controller State 16-38 4-143 Sl Controller Timer 13-20 4-110 7-10 TR200 Programming Guide...
Page 294 Terminal 27 Mode 5-01 4-51 Terminal 27 Pulse Output Variable 5-60 4-80 Terminal 29 Digital Input 5-13 4-61 Terminal 29 Mode 5-02 4-52 Terminal 29 Pulse Output Variable 5-63 4-80 Terminal 32 Digital Input 5-14 4-62 TR200 Programming Guide 7-11...
Page 295 Trending 4-203 Trigger Event 15-12 4-133 Trip At Motor Speed Low Limit 4-30 Trip Delay At Inverter Fault 14-26 4-126 Trip Delay At Torque Limit 14-25 4-126 Trip Reset 4-123 [Trip Speed Low Hz] 1-87 4-31 7-12 TR200 Programming Guide...
Page 296 4-49 Warning Reference High 4-55 4-49 Warning Reference Low 4-54 4-49 Warning Speed High 4-53 4-49 Warning Word Warning Word 16-92 4-149 Warning Word 2 16-93 4-149, 5-6 Working Days 0-81 4-21 Xif Revision 11-17 4-103 TR200 Programming Guide 7-13...
Page 297 Substitutes BAS-SVP04A-EN www.trane.com For more information, contact your local Trane Trane has a policy of continuous product and product data improvement and reserves the right to change design and speciﬁcations without notice. ofﬁce or e-mail us at comfort@trane.com 130R0449 MG12J122 Rev.

Trane TR200 Programming Manual

Safety

Introduction

How to Program

Parameter Description

Troubleshooting

Parameter Lists

Index

Quick Links

Need help?

Questions and answers

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Summary of Contents for Trane TR200

Table of Contents