Woodward DTSC-200 Configuration Manual
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Woodward DTSC-200 Configuration Manual

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37483C
DTSC-200
ATS Controller
Configuration
Software Version 2.0xxx
Manual 37483C

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Summary of Contents for Woodward DTSC-200

  • Page 1 37483C DTSC-200 ATS Controller Configuration Software Version 2.0xxx Manual 37483C...
  • Page 2 Provides other helpful information that does not fall under the warning or caution categories. Woodward reserves the right to update any portion of this publication at any time. Information provided by Woodward is believed to be correct and reliable. However, Woodward assumes no responsibility unless otherwise expressly undertaken.

  • Page 3: Table Of Contents

    Install ToolKit Configuration Files ....................11 Starting ToolKit Software ......................12 Configure ToolKit Software ......................13 Connect ToolKit and the DTSC-200 Unit ..................14 View DTSC-200 Data with ToolKit ....................16 Configure the DTSC-200 with ToolKit ..................17 General Information ..........................18 Important Designations ........................
  • Page 4 Manual 37483C DTSC-200 - ATS Controller 3. P ..................... 22 HAPTER ARAMETERS Language ............................... 23 Password ............................... 23 Event History ............................24 Measuring .............................. 25 Measuring: Rated Values ......................25 Measuring: Transformers ......................29 Application ............................. 31 Application: Application Mode ..................... 31 Application: Transfer Timers .......................
  • Page 5 Product Service Options ........................153 Returning Equipment For Repair ......................153 Packing A Control ........................154 Return Authorization Number RAN .................... 154 Replacement Parts ..........................154 How To Contact Woodward ......................... 155 Engineering Services ........................... 156 Technical Assistance ........................... 157 © Woodward Page 5/158...
  • Page 6 Manual 37483C DTSC-200 - ATS Controller Illustrations And Tables Illustrations Figure 2-1: ToolKit - visualization screen ..........................16 Figure 2-2: ToolKit - analog value trending screen ........................16 Figure 2-3: ToolKit - configuration screen ..........................17 Figure 3-1: Event history- display............................. 24 Figure 3-2: Source stable and outage timers ..........................
  • Page 7 Manual 37483C DTSC-200 - ATS Controller Tables Table 1-1: Manual - overview ..............................8 Table 3-1: Application - load shed with standard transition switch ..................49 Table 3-2: Application - load shed with delayed or closed transition switch ................50 Table 3-3: Monitoring - standard values - load time-overcurrent....................

  • Page 8: Chapter 1. General Information

    Manual 37483C DTSC-200 - ATS Controller Chapter 1. General Information Type English German DTSC-200 DTSC-200 - Installation 37482 DTSC-200 - Configuration this manual  37483 DTSC-200 - Operation 37484 DTSC-200 - Application 37485 DTSC-200 - Interfaces 37486 Table 1-1: Manual - overview Intended Use The unit must only be operated for the uses described in this manual.

  • Page 9: Chapter 2. Configuration

    Manual 37483C DTSC-200 - ATS Controller Chapter 2. Configuration Configuration Via The Front Panel ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Operation of the unit via the front panel is explained in the operation manual 37484. This manual will familiarize you with the unit, the meanings/functions of the buttons, and the display.

  • Page 10: Configuration Via Pc

    ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Install ToolKit Configuration and Visualization Software NOTE Woodward’s ToolKit software is required to configure the unit via PC. Install ToolKit Software Please insert the enclosed Product CD in the CD-ROM drive of your computer The CD is going to start automatically (autostart function needs to be activated) Please go to the section “Software”...

  • Page 11: Install Toolkit Configuration Files

    Manual 37483C DTSC-200 - ATS Controller Install ToolKit Configuration Files Please insert the enclosed Product CD in the CD-ROM drive of your computer The CD is going to start automatically (autostart function needs to be activated) Please go to the section “Configuration Files” and follow the instructions described there Alternatively ToolKit configuration files can be downloaded from our Website.

  • Page 12: Starting Toolkit Software

    DTSC-200 - ATS Controller Starting ToolKit Software Start ToolKit via Windows Start menu -> Programs ->Woodward -> ToolKit Please press the button “Open Tool” Go to the “Application” folder and open then the folder equal to the part number (P/N) of your device (e.g.

  • Page 13: Configure Toolkit Software

    Manual 37483C DTSC-200 - ATS Controller Configure ToolKit Software Start the configuration by using the toolbar. Please go to Tools -> Options The options window will be displayed Adjust the default locations of the configuration files The displayed language can be selected here The changes become effective after clicking “OK”...

  • Page 14: Connect Toolkit And The Dtsc-200 Unit

    If the Communications window opens, select “ToolConfigurator” under Tool Device and close the Communications window. If the device is security enabled, the Login dialog will appear. 10. Now you are able to edit the DTSC-200 parameters in the main window. Any changes made are written to the control memory automatically. Page 14/158...
  • Page 15 SID Files for Using ToolKit on the CAN Bus With Other CANopen Devices If a PC with ToolKit is connected to the DTSC-200 via a CAN bus with other external CANopen devices (like a Phoenix Contact I/O expansion board, for example), it may happen that ToolKit cannot establish a connection with the DTSC-200 because it looks for a SID file for such an external device, which does not exist.

  • Page 16: View Dtsc-200 Data With Toolkit

    Manual 37483C DTSC-200 - ATS Controller View DTSC-200 Data with ToolKit The following figure shows an example visualization screen of ToolKit: Figure 2-1: ToolKit - visualization screen Navigation through the various visualization and configuration screens is performed by clicking on icons, by selecting a navigation button (e.g.

  • Page 17: Configure The Dtsc-200 With Toolkit

    Manual 37483C DTSC-200 - ATS Controller Configure the DTSC-200 with ToolKit The following figure shows an example configuration screen of ToolKit: Figure 2-3: ToolKit - configuration screen Entering a new value or selecting a value from a defined list will change the value in a field. The new value is written to the controller memory by changing to a new field or pressing the Enter key.

  • Page 18: General Information

    General Information ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ The DTSC-200 has been developed to control ATS (Automatic Transfer Switch) units. The main purpose of the ATS controller is to control and monitor the transfer switch as well as issuing an engine start signal to a connected genset control. The controller is continuously monitoring the presence of a source. If the preferred source fails, it attempts to transfer to a second source (emergency power supply, etc.).

  • Page 19: Monitoring Functions

    Manual 37483C DTSC-200 - ATS Controller Monitoring Functions Source Monitoring • Overvoltage / undervoltage • Overfrequency / underfrequency • Voltage imbalance • Rotation field monitoring NOTE If one of these monitoring functions is triggered, the ATS controller attempts to change to the non- preferred source.

  • Page 20: Function Of The Inputs And Outputs

    Manual 37483C DTSC-200 - ATS Controller Function Of The Inputs And Outputs ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Discrete Inputs The discrete inputs are grouped into two categories: • programmable The programmable discrete input has been programmed with a factory default function using the LogicsManager. The following text describes how these functions may be changed using the LogicsManager.
  • Page 21 Manual 37483C DTSC-200 - ATS Controller Relay Outputs The discrete outputs are grouped into two categories: programmable • The relay output is freely programmable using the LogicsManager (which is described in the following text). pre-defined • The relay output has been pre-defined (programmed) with this function using the...

  • Page 22: Chapter 3. Parameters

    Manual 37483C DTSC-200 - ATS Controller Chapter 3. Parameters The description of the parameters is confined to the illustration via the PC-program. The parameters are described as follows. Page 22/158 © Woodward...

  • Page 23: Language

    Password ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ The DTSC-200 utilizes a password protected multi-level configuration access hierarchy. This permits varying degrees of access to the parameters being granted by assigning unique passwords to designated personnel. A distinction is made between the access levels as follows:...

  • Page 24: Event History

    Manual 37483C DTSC-200 - ATS Controller Event History ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ The event history is a FIFO (First In/First Out) memory for logging alarm events and operation states of the unit. The capacity of the event history is 300 entries. As new event messages are entered into the history, the oldest messages are deleted once 300 events have occurred.

  • Page 25: Measuring

    Manual 37483C DTSC-200 - ATS Controller Measuring ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ NOTE This controller is available in two different hardware version with either 1A [../1] or 5A [../5] current transformer inputs. Both versions are discussed in this manual. The set points for specific parameters will differ depending upon the hardware version.
  • Page 26 Manual 37483C DTSC-200 - ATS Controller Measurement principle: Source 1 3Ph 4W / 3Ph 3W / 1Ph 2W / 1Ph 3W S1 voltage measuring S1 Spannungsmessung  Please refer to the comments on measuring principles in the installation  ...
  • Page 27 Manual 37483C DTSC-200 - ATS Controller Measurement principle: Source 2 3Ph 4W / 3Ph 3W / 1Ph 2W / 1Ph 3W S2 voltage measuring S2 Spannungsmessung  Please refer to the comments on measuring principles in the installation  ...
  • Page 28 Manual 37483C DTSC-200 - ATS Controller Measurement principle: S1 Load current L1 L2 L3 / Phase L1 / Phase L2 / Phase L3 S1 Load current measuring S1 Last Strommessung  Please refer to the comments on measuring principles in the installation ...

  • Page 29: Measuring: Transformers

    Manual 37483C DTSC-200 - ATS Controller Measuring: Transformers Voltage Transformer Voltage transformer, source 1, primary 50 to 650,000 V S1 voltage transf. primary S1 Spannungswandler primär Some applications may require the use of potential transformers to facilitate   ...
  • Page 30 Manual 37483C DTSC-200 - ATS Controller Current Transformer NOTE This controller is available in two different hardware version with either 1A [../1] or 5A [../5] current transformer inputs. Both versions are discussed in this manual. The set points for specific parameters will differ depending upon the hardware version, indicated on the data plate.

  • Page 31: Application

    Manual 37483C DTSC-200 - ATS Controller Application ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Application: Application Mode Application mode Util-Gen / Gen-Gen / Util-Util Application mode Betriebsmodus This parameter selects the basic function of the unit. If the unit is used to transfer   ...

  • Page 32: Application: Transfer Timers

    Manual 37483C DTSC-200 - ATS Controller Application: Transfer Timers Examples transfer delay: NOTE Please refer to “Transfer delay timer S1->S2” (parameter 4496) and “Transfer delay timer S2->S1” (parameter 4497) for details. Scenario 1 ..Transfer delay timer is configured to a value > 0 seconds Elevator pre-transfer signal is “Disabled”...
  • Page 33 Manual 37483C DTSC-200 - ATS Controller Transfer commit YES / NO Transfer commit Transfer zustimmen This function is only effective if a transfer from the preferred source to the non-  preferred source is requested. 4146 YES ....A transfer to the non-preferred source is committed as soon as the non-preferred source stable timer has started to count.
  • Page 34 Manual 37483C DTSC-200 - ATS Controller Transfer delay timer S2->S1 0 to 6500 s Transfer delay timer S2->S1 Transfer Verzögerung S2->S1 Usually a transfer to S1 is performed as soon as the “S1 source stable time”  (parameter 3333) has expired. The “Transfer delay timer S2S1” can be used to 4497 add an additional delay to the transfer, even if the “S1 source stable time”...
  • Page 35 S1 is available (only valid if the parameter “Transfer switch type” (parameter 3424) is configured to “Delayed” or “Closed”. This ensures the fastest possible transfer to S1 if the DTSC-200 is powered up while the system is in neutral position.
  • Page 36 Manual 37483C DTSC-200 - ATS Controller Source 1 outage delay 0.1 to 10.0 s S1 outage delay S1 Ausfallverzögerung This timer defines the maximum time before source 1 (voltage, frequency and  phase rotation) is considered as "not OK" to initiate a transfer to source 2. This 2804 timer starts if any of the monitored source 1 values exceeds the fail limits.

  • Page 37: Figure 3-2: Source Stable And Outage Timers

    Manual 37483C DTSC-200 - ATS Controller [V], [f] rated value source stable timer source stable timer restore value source OK source not OK outage outage delay delay timer timer fail value source is stable stable timer start source has failed...

  • Page 38: Application: Transfer Logics (Logicsmanager)

    Manual 37483C DTSC-200 - ATS Controller Application: Transfer Logics (LogicsManager) NOTE All functions which are described in the following text may be assigned by the LogicsManager to any relay which is available via the LogicsManager and not assigned to another function. The assignment of the defined relays to defined functions occurs by selection of the application mode.
  • Page 39 Manual 37483C DTSC-200 - ATS Controller Inhibit Transfer to Source 1 If this logical output becomes TRUE, the transfer back to source 1 will be blocked temporarily and the "Inhib. XFR to S1" message is displayed. Application example: A hospital has a source 1 (preferred source) power failure. Source 2 would then be started, and a transfer to S2 will occur, with the load being supplied by that source.

  • Page 40: Figure 3-3: External Timer Bypass - Push Button

    Manual 37483C DTSC-200 - ATS Controller Interruptible Power Rate Provisions If this logical output becomes TRUE, the non-preferred source will be started, a transfer to the non-preferred source will be performed, and the "Pwr.rate.prov." message is displayed as soon as the transfer is completed. The load will then be supplied by the non-preferred source.
  • Page 41 Manual 37483C DTSC-200 - ATS Controller Gen-Gen Enable This function is only enabled if the application mode (parameter 4148) is configured to "Gen-Gen". If this logical output becomes TRUE (by energizing a DI for example), the gen-gen mode will be enabled.

  • Page 42: Application: Elevator Pre-Signal

    Manual 37483C DTSC-200 - ATS Controller Application: Elevator Pre-Signal The elevator pre-signal flag (20.01) may be assigned to any output relay using the LogicsManager. The elevator pre-signal is important for buildings which are equipped with elevators. This signal will be enabled before any transfer in order to signal a transfer to an elevator control.

  • Page 43: Figure 3-4: Elevator Pre-Signal - Example 1

    Manual 37483C DTSC-200 - ATS Controller The following examples show the behavior of the elevator pre-signal for different applications. Example 1 (elevator pre-signal disabled): Figure 3-4: Elevator pre-signal - example 1 Example 2 (elevator pre-signal enabled): Figure 3-5: Elevator pre-signal - example 2...

  • Page 44: Application: Motor Load Disconnect

    Manual 37483C DTSC-200 - ATS Controller Application: Motor Load Disconnect The motor load disconnect flag (20.02) may be assigned to any output relay using the LogicsManager. The motor load disconnect function is intended for sequential load shedding before a transfer and sequential load addition after a transfer.

  • Page 45: Application: Source Priority Selection

    Manual 37483C DTSC-200 - ATS Controller Application: Source Priority Selection The two LogicsManager functions "Source Priority S1" and "Source Priority S2" are used to determine which source is to be considered as preferred. The LogicsManager enables to use a discrete input (for example) to select the preferred source externally using a source priority selector switch, which is usually on the operation panel.

  • Page 46: Figure 3-7: Source Priority Selection - S1 Preferred

    Manual 37483C DTSC-200 - ATS Controller Application example 1 (source priority = S1): Transfer direction upon loss of S1 preferred source non-preferred source (emergency source) Load Figure 3-7: Source priority selection - S1 preferred Application example 2 (source priority = S2):...
  • Page 47 Manual 37483C DTSC-200 - ATS Controller Extended Parallel Time NOTE This function is only effective if the transfer switch type (parameter 3424) is configured to "Closed" and in-phase monitoring (parameter 4570) is enabled. If a closed transition is performed, the overlap time of the make-before-break process, in which both sources are parallel, is as configured in parameter 4577 (Max.
  • Page 48 Manual 37483C DTSC-200 - ATS Controller The following example shows a typical transfer sequence from source 1 to source 2 with extended parallel time: Initial situation: Load is supplied by source 1 A transfer is initiated (e.g. by a load test): As soon as source 2 is detected as stable and synchronicity is achieved, the transfer switch is closed to source 2.

  • Page 49: Table 3-1: Application - Load Shed With Standard Transition Switch

    Manual 37483C DTSC-200 - ATS Controller Load Shed NOTE Load shed is inactive as long as an "Extended parallel time" (parameter 12860) is enabled. The load shed function bypasses the in-phase monitoring function. This can cause an asynchronous transfer in case a standard transition switch is used.

  • Page 50: Figure 3-9: Load Shed Relay Wiring - Standard Transition Switch

    Manual 37483C DTSC-200 - ATS Controller Table 3-2 defines the behavior in case of a load shed request when utilizing a delayed or closed transition switch depending on the system conditions. Load is connected to Pre-transfer In-phase Preferred source Behavior on load shed request...
  • Page 51 Manual 37483C DTSC-200 - ATS Controller Service Disconnect NOTE Service disconnect is only active, if the "Transfer switch type" (parameter 3424) is configured to "Delayed" or "Closed". The transfer switch type "Standard" does not support this feature. This feature allows disconnecting the load from the source in case of a service operation.

  • Page 52: Breaker

    Manual 37483C DTSC-200 - ATS Controller Breaker ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Breaker: Transfer Switch Type Transfer switch type Standard / Delayed / Closed Transfer switch type Transfer Schalter Typ This parameter configures the type of ATS switch, which is connected to the ...

  • Page 53: Figure 3-13: Delayed Transition Switch - Connected To Source 1

    Manual 37483C DTSC-200 - ATS Controller The following additional features are recommended for this mode: • In-phase monitor (refer to the In-Phase Monitor section) • Motor load disconnect Delayed Transfer Switch If a delayed transition switch is used, "Delayed" transfer switch type must be selected.

  • Page 54: Figure 3-16: Closed Transition Switch - Connected To Source 1

    Manual 37483C DTSC-200 - ATS Controller If Use Limit Switch Open Replies (3434) is “NO” the evaluated feedback signals are reduces to S1 and S2. The following additional features are recommended for this mode: • In-phase monitor (refer to the In-Phase Monitor section) •...
  • Page 55 Manual 37483C DTSC-200 - ATS Controller • Discrete input 1 (ATS breaker in Source 1 position) = signal designation: S1 • Discrete input 2 (ATS breaker in Source 2 position) = signal designation: S2 • Discrete input 3 (ATS breaker in Source 1 OPEN position) = signal designation: S1O •...
  • Page 56 Manual 37483C DTSC-200 - ATS Controller Use Limit Switch Open Replies This function is used to define the limit switch reply signals, which are evaluated for determining the current ATS switch position. The following four signals are available for determining the ATS switch position: •...
  • Page 57 Manual 37483C DTSC-200 - ATS Controller Transition Timers The "Neutral Time S2 -> S1" parameter is only enabled, if "Delayed" or "Closed" is configured as "Transfer switch type" (parameter 3424). Neutral Time S2 -> S1 1 to 6500 s Neutral Time S2->S1 Neutral Verweilzeit S2->S1...

  • Page 58: Figure 3-20: Breaker - Transition Pulse

    (parameter 3429) Note: If this parameter is configured to “0”, the DTSC-200 will issue infinite transfer attempts, in case the corresponding switch reply signal is not being recognized. No “Open failure” or “Close failure” alarm will be issued.
  • Page 59 Manual 37483C DTSC-200 - ATS Controller Triggering of the "Fail to close S1" failure This failure is triggered if the following conditions are met: • Source 1 is available • The ATS controller has issued the C1 signal (LogicsManager flag (20.07)) to close to source 1 As soon as the C1 signal (command: close to source 1) is issued, the "Limit switch reply timeout"...
  • Page 60 Manual 37483C DTSC-200 - ATS Controller Triggering of the "Fail to open S1" failure This failure is triggered if the following conditions are met: • Source 2 is available • The ATS controller has issued the C1O signal (LogicsManager flag (20.08)) to open source 1 As soon as the C1O signal (command: open source 1) is issued, the "Limit switch reply timeout"...

  • Page 61: Test Modes

    Manual 37483C DTSC-200 - ATS Controller Test Modes ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ There are two different types of system tests: • Load Test This is a test with load transfer. If a load test is requested, a failure of the preferred source will be simulated.

  • Page 62: Timer Exerciser

    Manual 37483C DTSC-200 - ATS Controller Timer Exerciser This feature allows configuring up to 12 independent times, at which either a load test or a no-load test is performed. For this, 12 independent timers are available, to configure a recurring or single-time event, on which either a load test or a no-load test can be started.

  • Page 63: Figure 3-23: Test Modes - Parameter Ids Of The Timer Exercisers

    Manual 37483C DTSC-200 - ATS Controller NOTE Depending on the setting of the "Exerciser type" (parameter 6490), some of the following settings are not important (i.e. if a daily exercise is configured, the exerciser day of week is not important, for example).

  • Page 64: Figure 3-24: Test Modes - Configuring Exerciser 1 For A Daily Exercise

    Manual 37483C DTSC-200 - ATS Controller Example 1: Daily Exerciser The following configuration example shows how to configure "Exerciser 1" for a daily "No Load Test" at 14:30 (2:30 pm), which shall last 1 hours and 40 minutes. Parameter Setting...

  • Page 65: Figure 3-27: Test Modes - Configuring Exerciser 4 For A One Event Exercise

    Manual 37483C DTSC-200 - ATS Controller Example 4: One Event Exerciser The following configuration example shows how to configure "Exerciser 4" for a "No Load Test" for only once at 08:00 (8:00 am) on November 11, 2008, which shall last 0 hours and 15 minutes. If the test has started once, it will not be repeated anymore.

  • Page 66: Monitoring

    Manual 37483C DTSC-200 - ATS Controller Monitoring ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Monitoring: Alarm Acknowledgement Self acknowledgment of the centralized alarm (horn) 0 to 1,000 s Time until horn reset Zeit Hupenreset After each alarm occurs, the alarm LED flashes and the command variable 03.05 ...

  • Page 67: Monitoring: Source 1 Monitoring

    Manual 37483C DTSC-200 - ATS Controller Limit switch failure delay time 0.00 to 10.00 s Limit switch failure delay time Rückmeldungswächter Depending on application switching process has an impact on the limit switch Verzög. monitoring signal (e.g. for EMC reasons). Limit Switch Failure Delay Time (3463) 3463 enables to eliminate known impact by waiting for stable signaling.
  • Page 68 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 1 Monitoring: Underfrequency Frequency is correctly measured using 1 to 3 phase inputs, with the voltage higher than 15 % of rated value. However, with three phase inputs, the frequency measurement is very rapid and highly accurate.
  • Page 69 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 1 Monitoring: Overfrequency Frequency is correctly measured using 1 to 3 phase inputs, with the voltage higher than 15 % of rated value. However, with three phase inputs, the frequency measurement is very rapid and highly accurate.
  • Page 70 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 1 Monitoring: Voltage Imbalance The voltage imbalance monitoring is practically used to detect defective fuses in certain phases. The voltage imbalance monitoring measures voltage differences between the phases of source 1. The voltage is measured three-phase.
  • Page 71 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 1 Monitoring: Phase Rotation CAUTION Please ensure during installation that all voltages applied to this unit are wired correctly to both sides of the circuit breaker. Failure to do so may result in damage to the control unit and/or generation...

  • Page 72: Monitoring: Source 2 Monitoring

    Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 2 Monitoring Voltage monitoring source 2 Ph - Ph / Phase - N Voltage monitoring S2 Spg.-Überwachung S2 The unit can either monitor the wye voltages (phase-neutral: 3ph-4w, 1ph-3w and  ...
  • Page 73 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 2 Monitoring: Underfrequency Frequency is correctly measured using 1 to 3 phase inputs, with the voltage higher than 15% of rated value. However, with three phase inputs, the frequency measurement is very rapid, and highly accurate.
  • Page 74 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 2 Monitoring: Overfrequency Frequency is correctly measured using 1 to 3 phase inputs, with the voltage higher than 15% of rated value. However, with three phase inputs, the frequency measurement is very rapid, and highly accurate.
  • Page 75 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 2 Monitoring: Voltage Imbalance The voltage imbalance monitoring is practically used to detect defective fuses in certain phases. The voltage imbalance monitoring measures voltage differences between the phases of source 2. The voltage is measured three-phase.
  • Page 76 Manual 37483C DTSC-200 - ATS Controller Monitoring: Source 2 Monitoring: Phase Rotation CAUTION Please ensure during installation that all voltages applied to this unit are wired correctly to both sides of the circuit breaker. Failure to do so may result in damage to the control unit and/or generation...

  • Page 77: Monitoring: In-Phase Monitoring (Synch Check)

    Manual 37483C DTSC-200 - ATS Controller Monitoring: In-Phase Monitoring (Synch Check) The in-phase monitoring function is used to determine whether the phase angles of the preferred source and the non-preferred source are in phase, i.e. whether the relative phase difference of the two sources is within specified limits.
  • Page 78 Manual 37483C DTSC-200 - ATS Controller Monitoring: In-phase Monitoring: Parameters In-phase monitoring ON / OFF In-Phase monitor Synchrocheck This parameter configures, whether in-phase monitoring is performed.    OFF ....No in-phase monitoring is performed prior to a transfer. 4570 ON ....In-phase monitoring is performed prior to a transfer.
  • Page 79 In that case a key-switch can be installed to the ATS cabinet to toggle the operating modes between “Closed” and “Delayed” transition. If set to “Closed” transition mode, the DTSC-200 will always perform in-phase transfers between the two sources. If the customer switches the transition mode to “Delayed”...
  • Page 80 Manual 37483C DTSC-200 - ATS Controller Voltage window for synchronization 0.50 to 20.00 % Voltage window Spannungsdifferenz  This value refers to the Rated voltage Source 1/2 (parameters 1774/1772    page 25). 4571 This parameter configures the maximum permissible voltage difference in each of the three phases.
  • Page 81 Manual 37483C DTSC-200 - ATS Controller Maximum Overlap Time NOTE This function is only effective if the transfer switch type (parameter 3424) is configured to "Closed" and in-phase monitoring (parameter 4570) is enabled. NOTE If the LogicsManager function "Extended parallel time" (parameter 12860) is TRUE, the maximum overlap time is not effective.

  • Page 82: Figure 3-31: Switch Reaction Time

    Manual 37483C DTSC-200 - ATS Controller Switch Reaction Time Configuration Open transition switch reaction time 15 to 300 ms Open trans. Switch reac. Time Schaltzeit bei nicht Überlapp. The time, which is required by the switch in open transition mode to open from ...
  • Page 83 Manual 37483C DTSC-200 - ATS Controller Outcome on Inphase Timeout Inphase timeout after 0 to 6,500 s In-phase timeout after Synchr. Zeitüberschr. This parameter configures the maximum time for attempting to detect    synchronization. This timer starts to count as soon as inphase monitoring is enabled 4576 prior to a transfer.
  • Page 84 Manual 37483C DTSC-200 - ATS Controller External sync. permission This parameter allows to externally control the in-phase monitoring function. “Closed transfer enable” (parameter 12880) LogicsManager statement must be made logically “TRUE” for operation of parameter 4584. Examples external sync permission: Scenario 1 ..
  • Page 85   must be configured to “On”. 4584 ON ....In-Phase monitoring is initiated via LogicsMananger (parameter 12880). OFF ..... In-Phase monitoring is initiated by the DTSC-200. Enable closed transition LogicsManager Enable closed transition Freig. LS Überlappung LogicsManager and its default settings are explained on page 121 in Appendix ...

  • Page 86: Monitoring: Overcurrent

    Manual 37483C DTSC-200 - ATS Controller Monitoring: Overcurrent Current is monitored depending on the parameters 1860 "S2 Load current measuring" and 1863 "S1 Load current measuring". Only the current of the source, which is connected to the load, is measured, because the CT is located at the load connection.
  • Page 87 Manual 37483C DTSC-200 - ATS Controller Load overcurrent, TOC: Monitoring (Level 1/Level 2/Level 3) ON / OFF Monitoring Überwachung ON ....Overcurrent monitoring is carried out according to the following    parameters. Monitoring is performed at three levels. All three values...

  • Page 88: Monitoring: Overload

    Manual 37483C DTSC-200 - ATS Controller Monitoring: Overload Power is monitored depending on the parameters 1861 "S2 voltage measuring", 1862 "S1 voltage measuring", 1860 "S2 Load current measuring" and 1863 "S1 Load current measuring". Only the power of the source, which is connected to the load, is measured, because the CT is located at the load connection.
  • Page 89 Manual 37483C DTSC-200 - ATS Controller Overload: Monitoring (Level 1/Level 2) ON / OFF Monitoring Überwachung ON ....Overload monitoring is carried out according to the following    parameters. Monitoring is performed at two levels. Both values may...

  • Page 90: Monitoring: Engine, Start Failure Source 1

    Manual 37483C DTSC-200 - ATS Controller Monitoring: Engine, Start Failure Source 1 If this protective function is triggered, the alarm list indicates "Start Fail S1". Source 1 start fail: delay time 1 to 6500 s S1 start fail delay time S1 Startfehler Zeit If the "S1 start delay"...

  • Page 91: Monitoring: Battery, Overvoltage

    Manual 37483C DTSC-200 - ATS Controller Monitoring: Battery, Overvoltage There are two battery overvoltage alarm levels available in the control. Both alarms are definite time alarms and are illustrated in the below figure. The figure diagrams a frequency trend and the associated pickup times and length of the alarms.
  • Page 92 Manual 37483C DTSC-200 - ATS Controller Battery overvoltage: Monitoring (Level 1/Level 2) ON / OFF Monitoring Überwachung ON ....Overvoltage monitoring of the battery voltage is carried out    according to the following parameters. 3450 3456 OFF ....Monitoring is disabled for level 1 and/or level 2.

  • Page 93: Monitoring: Battery, Undervoltage

    Manual 37483C DTSC-200 - ATS Controller Monitoring: Battery, Undervoltage There are two battery undervoltage alarm levels available in the control. Both alarms are definite time alarms and are illustrated in the below figure. The figure diagrams a frequency trend and the associated pickup times and length of the alarms.
  • Page 94 Manual 37483C DTSC-200 - ATS Controller Battery undervoltage: Monitoring (Level 1/Level 2) ON / OFF Monitoring Überwachung ON ....Undervoltage monitoring of the battery voltage is carried out    according to the following parameters. 3500 3506 OFF ....Monitoring is disabled for level 1 and/or level 2.

  • Page 95: Monitoring: Canopen Interface

    Manual 37483C DTSC-200 - ATS Controller Monitoring: CANopen Interface The CANopen interface is monitored. If the interface does not receive a CANopen protocol message before the delay expires, an alarm will be initiated. If this protective function is triggered, the alarm list indicates "CAN Open Fault".

  • Page 96: Discrete Inputs

    Manual 37483C DTSC-200 - ATS Controller Discrete Inputs ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Number Terminal Function Internal discrete inputs [DI 1] Reply from ATS limit switch: Breaker in source 1 position [S1] [DI 2] Reply from ATS limit switch: Breaker in source 2 position [S2]...

  • Page 97: Table 3-8: Discrete Inputs - Parameter Ids

    1225 Table 3-8: Discrete inputs - parameter IDs If a Woodward IKD 1 or other external expansion board (Phoenix BK 16DiDo) is connected to the DTSC via the CAN bus, it is possible to use 16 additional discrete inputs. The configuration of these external DIs is performed in a similar way like for the internal DIs. Refer to Table 3-9 for the parameter IDs of the parameters for external DIs 1 through 16.

  • Page 98: Discrete Outputs (Logicsmanager)

    1 to neutral position) [C1O] LogicsManager [R 9] 48/49 (pre-defined with command: open from source 2 to neutral position) [C2O] External relay output (via CANopen; not included in DTSC-200 delivery; can be an expansion card like IKD1) LogicsManager [Rex01] [Rex02] LogicsManager [Rex03]...

  • Page 99: Table 3-11: Discrete Outputs - Parameter Ids

    12170 Table 3-11: Discrete outputs - parameter IDs If a Woodward IKD 1 or other external expansion board (Phoenix BK 16DiDo) is connected to the DTSC via the CAN bus, it is possible to use 16 additional discrete outputs. The configuration of these external DOs is performed in a similar way like for the internal DOs. Refer to Table 3-12 for the parameter IDs of the parameters for external DOs 1 through 16.

  • Page 100: Counters

    Manual 37483C DTSC-200 - ATS Controller Counters ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Configure Counters: Operation Hours, kWh, and kvarh Counter: Set point value for counters 0 to 99,999,999 Counter value preset Zähler-Setzwert This value is utilized to set the hours in the following parameters: ...
  • Page 101 Manual 37483C DTSC-200 - ATS Controller Counter: Transfers to S2 0 to 65535 Transfers to S2 Transfers nach S2 This parameter is used to configure the transfer counters to a pre-set value, or    reset it to “0” in case a new transfer switch has been build into the ATS cabinet.

  • Page 102: Logicsmanager

    Manual 37483C DTSC-200 - ATS Controller LogicsManager ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ LogicsManager: Internal Flags Internal flags within the LogicsManager logical outputs may be programmed and used for multiple functions. For conditions and explanation of programming please refer to page 121 in chapter "LogicsManager").

  • Page 103: Logicsmanager: Timer

    Manual 37483C DTSC-200 - ATS Controller LogicsManager: Timer LogicsManager: Daily Time Set Point LogicsManager Utilizing the it is possible to establish specific times of the day that functions (i.e. generator exerciser) can be enabled. The two daily time set points are activated each day at the configured time. Using the LogicsManager these set points may be configured individually or combined to create a time range.
  • Page 104 Manual 37483C DTSC-200 - ATS Controller Timer: Active time set point: second 0 to 59 s Active second Aktive Sekunde Enter the second of the active switch point here. Example:    0 ....0 second of the minute. 1660 59 ....59...

  • Page 105: Interfaces

    Manual 37483C DTSC-200 - ATS Controller Interfaces ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ NOTE Please refer to the Interface Manual 37486 for a detailed description of the interface parameters. Interfaces: Device address 1 to 127 Device number Gerätenummer So that this control unit may be positively identified on the CAN bus, the unit ...
  • Page 106 DTSC-200 - ATS Controller Interfaces: CAN BUS: CANopen CANopen Master YES / NO CAN-Open Master CAN-open Master YES ....The DTSC-200 is the CANopen Master.    The unit automatically changes into operational mode and transmits 9000 Remote Start messages since Broadcast Attached external devices were configured from the unit with SDO messages.
  • Page 107 Manual 37483C DTSC-200 - ATS Controller Interfaces: CAN BUS: CANopen: Additional Server SDOs CAN bus: Client->Server COB-ID (rx) 1 to FFFFFFFF Client->Server COB-ID (rx) 2. Client->Server COB-ID (rx) In a multi-master application, each master must have a unique identifier (Node ID) ...

  • Page 108: Figure 3-37: Interfaces - Principle Of Pdo Mapping

    Manual 37483C DTSC-200 - ATS Controller NOTE The COB IDs must be entered in decimal numbers in ToolKit and in hexadecimal numbers in the unit. Here are some important conversions: Hexadecimal value Decimal value 181h 201h 281h 301h 381h 401h...
  • Page 109 No func..No external unit is selected for connection. The CAN bus is disabled. Values are not sent or received. IKD ..The unit is pre-configured for the connection of a Woodward IKD 1 expansion board. IKD ..The unit is pre-configured for the connection of a second Woodward IKD 1 expansion board.
  • Page 110 Manual 37483C DTSC-200 - ATS Controller RPDO-COB-ID ext. device 1 1 to FFFFFFFF RPDO-COP-ID ext. device {x} RPDO-COP-ID ext. Gerät {x} Value to be written in the object 1800h sub index 1h of the external device.    9070...
  • Page 111 Manual 37483C DTSC-200 - ATS Controller CAN bus 1: Transmit PDO 1 - Transmission type 0 to 255 Transmission type Transmission type This parameter contains the communication parameters for the PDOs the unit is    able to transmit. It defines whether the unit broadcasts all data automatically (value...
  • Page 112 Manual 37483C DTSC-200 - ATS Controller CAN bus 1: Transmit PDO 1 - 3. Mapped object 0 to 65535 3. Mapped Object 3. Mapped Objekt This parameter contains the information about the mapped application variables.    These entries describe the PDO contents by their index. The sub-index is always 1.

  • Page 113: Interfaces: Serial Interface 1 (Rs-232)

    Manual 37483C DTSC-200 - ATS Controller Interfaces: Serial Interface 1 (RS-232) Serial interface: Baud rate 2.4 / 4.8 / 9.6 / 14.4 / 19.2 / 38.4 / 65 / 115 kBaud Baudrate Baudrate  A DPC (P/N 5417-557 or 5417-1257) must be used for connecting the ...

  • Page 114: System

    Manual 37483C DTSC-200 - ATS Controller System ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ System: Configure Display Backlight Display backlight ON / OFF / Auto / Key actv. Configure display backlight Konfig. Display Beleuchtung This parameter determines the behavior of the display backlight. The following ...

  • Page 115: System: Configure Daylight Saving Time

    Manual 37483C DTSC-200 - ATS Controller System: Configure Daylight Saving Time It is possible to configure the real-time clock for an automatic change to daylight saving time. Start and end date/time of the daylight saving time period have to be entered for this.
  • Page 116 Manual 37483C DTSC-200 - ATS Controller Daylight saving time begin n weekday weekday order no. DST begin nth. weekday Sommerzeitbeginn x. Wochentag The order number of the weekday for the DST begin date is configured here. {1o} {1oc} {2oc} ...

  • Page 117: System: Password System

    Manual 37483C DTSC-200 - ATS Controller System: Password System Refer to the Password section on page 23 for a detailed description of the password system. Password system: Code level via display Info Code level display Codeebene Display This value displays the code level, which is currently enabled for access via the ...
  • Page 118 Woodward technicians! NOTE If the DTSC-200 parameters are read out via CAN / DPC and stored as standard values, all parameters behind parameter 1701 (Set default values) will not be overwritten when writing back the standard value file via CAN / DPC.

  • Page 119: System: Real-Time Clock Set

    Manual 37483C DTSC-200 - ATS Controller System: Real-Time Clock Set This screen shows the current date and time. The clock is implemented as real time clock. In case of a voltage supply failure an internal battery guarantees that the information is not lost. The data stand for: XX:YY:ZZ .....

  • Page 120: System: Versions

    Manual 37483C DTSC-200 - ATS Controller System: Versions The parameters in this section are informational only and cannot be modified. The control unit may be identified from the numbers located on the unit and in the software. The most important technical information is located on the unit data plate.
  • Page 121 Manual 37483C DTSC-200 - ATS Controller Appendix A. LogicsManager LogicsManager is used to customize the sequence of events in the control such as the start command of unit the engine or the operation of control unit relay outputs. For example, the start routine may be programmed so that it requires the closing of a discrete input or a preset time of day.

  • Page 122: Figure 3-38: Logicsmanager - Function Overview

    Manual 37483C DTSC-200 - ATS Controller Structure and description of the LogicsManager Sign [S1] Command [C1] Sign [S2] Command [C2] Sign [S3] Command [C3] Figure 3-38: LogicsManager - function overview • Command (variable) - A list of over 100 parameters and functions is provided for the command inputs.

  • Page 123: Logical Symbols

    Manual 37483C DTSC-200 - ATS Controller Configuration of the chain of commands LogicsManager Using the values specified in the above table, the chain of commands of the (for example: operating the relays, setting the flags, specification of the automatic functions) is configured as follows:...

  • Page 124: Logical Outputs

    Manual 37483C DTSC-200 - ATS Controller Logical Outputs ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ The logical outputs or combinations may be grouped into three categories: • internal logical flags • Internal functions • relay outputs NOTE The numbers of the logical outputs in the third column may again be used as input variable for other outputs in the LogicsManager.

  • Page 125: Logical Outputs: Relay Outputs

    Manual 37483C DTSC-200 - ATS Controller Logical Outputs: Relay Outputs All relays may be controlled directly by the LogicsManager depending on the respective application mode. Name Function Number Relay 1 If this logical output becomes true, the relay output 1 will be activated 13.01...

  • Page 126: Logical Command Variables

    Manual 37483C DTSC-200 - ATS Controller Logical Command Variables ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ The logical command variables are grouped into 14 categories: • [00.00] Internal flags • [01.00] Alarm classes • [03.00] Engine control • [04.00] Operating status • [05.00] Alarms of the engine •...

  • Page 127: Logical Command Variables: [01.00] - Alarm Classes

    Manual 37483C DTSC-200 - ATS Controller Logical Command Variables: [01.00] - Alarm Classes Alarm class commands, Logic command variables 01.01-01.10 Alarm classes may be configured as command variables for all logical outputs in the LogicsManager. Number Name / Function Note...

  • Page 128: Logical Command Variables: [04.00] - Operating Status

    Manual 37483C DTSC-200 - ATS Controller Logical Command Variables: [04.00] - Operating Status Operating status commands, 4.01-04.15 Operating status may be used as command variables in a logical output to set parameters for customized operations. Name Function Note 04.01 not used 04.02...

  • Page 129: Logical Command Variables: [08.00] - System Alarms

    Manual 37483C DTSC-200 - ATS Controller Logical Command Variables: [08.00] - System Alarms System alarms status commands, 08.01-08.10 These system alarms may be used as command variables in a logical output n to set parameters for customized operations. Number Function Note 08.01...

  • Page 130: Logical Command Variables: [11.00] - Time Functions

    Manual 37483C DTSC-200 - ATS Controller Logical Command Variables: [11.00] - Time Functions Time function commands, 11.01-11.10 Time functions may be used as command variables in a logical output. Number Name / Function Note 11.01 Timer 1 (exceeded) see page 103 11.02...

  • Page 131: Logical Command Variables: [13.00] - Internal Relay Output Status

    Manual 37483C DTSC-200 - ATS Controller Logical Command Variables: [13.00] - Internal Relay Output Status Discrete output commands, 13.01-13.08 The discrete outputs may be used as command variables in a logical output. Number Name / Function Note 13.01 Discrete output DO1 [R01] 13.02...

  • Page 132: Logical Command Variables: [19.00] - Ats Status Flags

    No load test has automatically been triggered by exercise timer 20.22 Sync check active This flag is set as soon as the DTSC-200 starts to do In-phase monitoring, and resets after the In-Phase transfer to the other source has been accomplished. Page 132/158...

  • Page 133: Logical Command Variables: [21.00] - Ats Alarms

    21.11 Switch alarm: Mechanical fail (not plausible limit switch Delayed by 3463 ‘Limit switch failure delay time’ feedbacks have been detected by the DTSC-200) 21.12 In-Phase monitor alarm: In-phase timeout (the system was not able to establish a "Sync" situation within the configured time) 21.13...

  • Page 134: Factory Setting

    Manual 37483C DTSC-200 - ATS Controller Factory Setting ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ The inputs, outputs, and internal flags, which may be programmed via the LogicsManager, have the following factory default settings when delivered: simple (function) extended (configuration) result Factory Setting: Functions Inhibit ATS...
  • Page 135 Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result Remote peak shave (parameter 12630 on page 39) If TRUE, the remote peak shave  function will be performed.   Prepared for: - Deactivated by default FALSE Interruptible power rates...
  • Page 136 Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result Source 1 priority (parameter 12680 on page 45) If TRUE, source 1 is preferred.   Prepared for: -  Activated by default TRUE Source 2 priority (parameter 12810 on page 45) If TRUE, source 2 is preferred.
  • Page 137 Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result Delayed mode active (parameter 12850 on page 56) If TRUE, the transfer switch type will  be set to Delayed.   Prepared for: - Deactivated by default FALSE...
  • Page 138 Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result External acknowledge (parameter 12490 on page 66) If TRUE, alarms are acknowledged  from an external source.   Prepared for: - Remote acknowledgement FALSE Reset limit switch failure...

  • Page 139: Factory Setting: Relay Outputs

    Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result Factory Setting: Relay Outputs Relay {x} [R0x]; {x} = 1 to 4 (parameters 12, 12110, 12310, and 12320 on page 99) If TRUE, relay 2 will be energized. ...
  • Page 140 Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result Relay 8 [R08] (parameter 12160 on page 99) If TRUE, relay 8 will be energized.   True, if the command: Open from dependent  Source 1 is issued...

  • Page 141: Factory Setting: Internal Flags

    Manual 37483C DTSC-200 - ATS Controller simple (function) extended (configuration) result Factory Setting: Internal Flags Internal flag {x}; {x} = 1 to 7 (refer to Table 3-13 on page 102 for the parameter IDs of the parameters for internal flags 1 through 7) If TRUE, the internal flag {x} will be ...

  • Page 142: Discrete Inputs

    Manual 37483C DTSC-200 - ATS Controller Discrete Inputs [D1] Reply from ATS switch: Breaker in source 1 position [D2] Reply from ATS switch: Breaker in source 2 position [D3] Reply from ATS switch: Breaker in source 1 open position [D4]...
  • Page 143 Manual 37483C DTSC-200 - ATS Controller Appendix B. List Of Parameters Unit number P/N _____________________________ Rev _______________________________ Version DTSC- ________________________________________________________________ Project _____________________________________________________________________ Serial number S/N _______________ Date ______________________________ Par. Parameter Setting range Default value Customer setting Data type MAIN MENU...
  • Page 144 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type APPLICATION Util-Gen  Util-Gen  Util-Gen 4148 Application mode Gen-Gen Util-Gen  Gen-Gen  Gen-Gen UNSIGNED Util-Util  Util-Util  Util-Util 4146 Transfer Commit YES / NO ...
  • Page 145 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type MONITORING 1756 Time until horn reset 0 to 1000 s 180 s UNSIGNED 12490 External acknowledge see descr. in LogicsManager chap. starting page 134; default: (0 & 0)+ 0...
  • Page 146 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type MONITORING Load Monitoring Overcurrent Monitoring level 1 2200 Monitoring ON / OFF  1  0  1  0 UNSIGNED 2204 Limit 50.0 to 300.0 % 110.0 %...
  • Page 147 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type DISCRETE INPUTS Discrete Input 1 N.O. DI 1 operation N.C. UNSIGNED N.C. DI 1 delay 0.08 to 650.00 s 0.08 s UNSIGNED Discrete Input 2 N.O.
  • Page 148 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type DISCRETE INPUTS External Discrete Input 3 N.O.  N.O.  N.O. 16021 Operation N.O. UNSIGNED N.C.  N.C.  N.C. 16020 Delay 0.05 to 650.00 s 0.20 s...
  • Page 149 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type DISCRETE OUTPUTS 12 Relay 1 see descr. in LogicsManager chap. starting page 139; default: (0 & 1) & 1 Logman 12110 Relay 2 see descr. in LogicsManager chap.
  • Page 150 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type COMMUNICATION INTERFACES 1702 Device number 1 to 127 UNSIGNED CAN Interfaces 20/50/100/125/250/500/ 3156 Baudrate 125 kBd UNSIGNED 800/1000 kBd CANopen Interfaces 9000 CAN-Open Master YES / NO ...
  • Page 151 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type COMMUNICATION INTERFACES Transmit PDO 3 9620 COB-ID 1 to FFFFFFFF UNSIGNED 9622 Transmission type 0 to 255 UNSIGNED 9624 Event-timer 20 to 65000 ms...
  • Page 152 Manual 37483C DTSC-200 - ATS Controller Par. Parameter Setting range Default value Customer setting Data type SYSTEM PARAMETER Display Backlight  On  On  Off  Off 4556 Configure display backlight UNSIGNED Auto  Auto  Auto Key actv.

  • Page 153: Product Service Options

    Returning Equipment For Repair ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ If a control (or any part of an electronic control) is to be returned to Woodward for repair, please contact Woodward in advance to obtain a Return Authorization Number. When shipping the unit(s), attach a tag with the following information: •...

  • Page 154: Packing A Control

    Stuttgart [+49 (0) 711 789 54-510]. They will help expedite the processing of your order through our distributors or local service facility. To expedite the repair process, contact Woodward in advance to obtain a Return Authorization Number, and arrange for issue of a purchase order for the unit(s) to be repaired. No work can be started until a purchase order is received.

  • Page 155: How To Contact Woodward

    +49 (0) 711 789 54-101 e-mail: SalesPGD_EUROPE@woodward.com stgt-info@woodward.com For assistance outside Germany, please consult our worldwide directory on Woodward’s website (www.woodward.com) for the name of your nearest Woodward distributor or service facility. [For worldwide directory information, go to www.woodward.com/ic/locations.] © Woodward...

  • Page 156: Engineering Services

    DTSC-200 - ATS Controller Engineering Services ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ Woodward Industrial Controls Engineering Services offers the following after-sales support for Woodward products. For these services, you can contact us by telephone, by e-mail, or through the Woodward website. • Technical support •...

  • Page 157: Technical Assistance

    Manual 37483C DTSC-200 - ATS Controller Technical Assistance ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ If you need to telephone for technical assistance, you will need to provide the following information. Please write it down here before phoning: Contact Your company ____________________________________________________ Your name _______________________________________________________ Phone number ____________________________________________________...
  • Page 158 Phone +49 (0) 711 789 54-510 • Fax +49 (0) 711 789 54-101 SupportPGD_EMEA@woodward.com Homepage http://www.woodward.com Woodward has company-owned plants, subsidiaries, and branches, as well as authorized distributors and other authorized service and sales facilities throughout the world. Complete address/phone/fax/e-mail information for all locations is available on our website (www.woodward.com).

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