Page 1 Voltage regulator TAPCON® 260 Operating Instructions 1801003/05 Protocol description for IEC 61850...
Page 2 © All rights reserved by Maschinenfabrik Reinhausen Copying and distribution of this document and utilization and communication of its contents are strictly prohibited unless expressly authorized. Offenders will be held liable for the payment of damages. All rights reserved in the event of the grant of a patent, utility model or ornamental design registration.
Page 3: Table Of Contents
Personnel qualification ................16 2.5 Operator duty of care ................16 Product description ..............19 3.1 Performance features ................21 3.2 Relay of the signals via IEC 61850 ............22 © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 4 4.1.3 Markings ......................44 4.2 Transportation, receipt and handling of shipments ........ 44 4.3 Storage of shipments ................45 Mounting ..................47 5.1 Unpacking ..................... 47 TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 5 7.2.1 Entering NORMset desired value 1 ..............76 7.2.2 Setting the primary voltage ................. 77 7.2.3 Setting the secondary voltage ................78 7.3 Parameters .................... 79 © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 6 Displaying peak memory .................. 203 7.5.9 Displaying CIC1 card SCADA information ............204 7.5.10 Displaying CIC2 card SCADA information ............205 7.5.11 Displaying upcoming messages ............... 206 TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 7 Electrical data ..................217 10.3 Inputs and outputs ................217 10.4 Dimensions and weight ............... 218 10.5 Voltage and current measurement ............219 10.6 Ambient conditions ................219 10.7 Tests ....................219 © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 8 2 Safety 10.7.1 Electrical safety ....................219 10.7.2 EMC tests ......................220 10.7.3 Environmental durability tests ................220 MR worldwide ................221 TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 9: Introduction
The document and version numbers of this technical file are shown in the footer. Completeness This technical file is incomplete without the supporting documentation. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 10: Supporting Documents
This technical file and all supporting documents must be kept ready to hand and accessible for future use at all times. Notation conventions This section contains an overview of the abbreviations, symbols and textual emphasis used. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 11: Abbreviations Used
Kilobaud Kilogram Kilovolt Line Drop Compensation Light Emitting Diode Fiber-optic cable Fiber-optic cable max. maximum Megabyte Maschinenfabrik Reinhausen Megahertz min. minimum Millimeter Millisecond Neutral Phase Phi (φ) Phase angle Parts per million © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 12: Hazard Communication System
Death or serious injury could occur Possible dangerous situation Minor or moderate injury could oc- Attention Note Possible dangerous situation Damage to property could occur Table 2 Signal words in warning notices TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 13: Information System
Table 3 Symbols used in warning notices 1.6.3 Information system Information is designed to simplify and improve understanding of particular procedures. In this technical file they are laid out as follows: Important information © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 15: Safety
• the product is used only with the transformer specified in the order. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 16: Inappropriate Use
Use is considered to be inappropriate if the product is used other than as de- scribed in Appropriate use on page 15. Maschinenfabrik Reinhausen does not accept liability for damage resulting from unauthorized or inappropriate changes to the product. Inappropriate changes to the product without consultation with Maschinenfabrik Reinhausen can lead to personal injury, damage to property and operational disruption.
Page 17 Fitting, electrical connection and commissioning of the product may only be carried out by qualified and trained personnel in accordance with this technical file. • The operator must ensure appropriate use of the product. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 19: Product Description
The voltage regulator parameters can be optimally adjusted to the line voltage behavior to achieve a balanced control response with a small number of on-load tap-changer operations. The following diagram (on page 20) shows an overview of voltage regulation. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 20 3 Product description Figure 1 Overview of voltage regulation TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 21: Performance Features
Additional digital inputs and outputs which can be freely parameterized by the customer • Parallel operation of up to 16 transformers in 2 groups using the methods Master / Follower Circulating reactive current minimization © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 22: Relay Of The Signals Via Iec 61850
Data Common Logical Node Information PhyNam Physical device name plate PhyHealth Physical device health Proxy Indicates if this LN is a proxy Table 5 IEC 61850 data points (LPHD - Physical device) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 23: Lphd - Physical Device
VoltLvl3 Voltage level 3 direct-with-normal-security Measured values CtlV Control Voltage Unit: V Multiplier: none LodA Load Current (transformer Unit: A secondary current) Multiplier: none Status Information Local operation Auto Automatic Manual © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 24 Unit: none line total impedance Multiplier: c (percentage of nominal voltage) TapBlkR Tap position of Load Tap Changer where automatic Raise commands are blocked TapBlkL Tap position of Load Tap Changer where automatic TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 25: Ggio1 - Io Card Inputs
IO X1:17 Ind5 IO X1:14 Ind6 IO X1:13 Ind7 IO X1:11 Ind8 IO X1:12 Ind9 IO X1:29 Ind10 IO X1:28 Settings Table 7 IEC 61850 data points (GGIO1 - IO card inputs) © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 26: Ggio2 - Uc1 Card Inputs
UC1 X1:15 Ind5 UC1 X1:16 Ind6 UC1 X1:17 Ind7 UC1 X1:30 Ind8 UC1 X1:31 Ind9 UC1 X1:32 Ind10 UC1 X1:33 Settings Table 8 IEC 61850 data points (GGIO2 - UC1 card inputs) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 27: Ggio3 - Uc2 Card Inputs
UC2 X1:15 Ind5 UC2 X1:16 Ind6 UC2 X1:17 Ind7 UC2 X1:30 Ind8 UC2 X1:31 Ind9 UC2 X1:32 Ind10 UC2 X1:33 Settings Table 9 IEC 61850 data points (GGIO3 - UC2 card inputs) © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 28: Ggio4 - Uc3 Card Inputs (Optional)
UC3 X1:15 Ind5 UC3 X1:16 Ind6 UC3 X1:17 Ind7 UC3 X1:30 Ind8 UC3 X1:31 Ind9 UC3 X1:32 Ind10 UC3 X1:33 Settings Table 10 IEC 61850 data points (GGIO4 - UC3 card inputs) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 29: Operating Modes
Store the parts in a dry place until installation. The functional range of the product is dependent on the equipment ordered or the product version and not on the content of this technical file. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 30: Hardware Description
Figure 2 Front view of device 19-inch plug-in housing (in accordance with DIN 41494 Part 5) Operating panel with display and LEDs Assembly for optional add-ons (e.g. TAPCON 240 LV) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 31: Internal Design
The parameters for the product can be set using a PC. The COM 1 (RS232) serial interface on the front panel is provided for this purpose. TAPCON®trol software is needed for parameterization. It can be obtained from the Download Center on the Maschinenfabrik Reinhausen website (www.reinhausen.com). Figure 3 Voltage regulator connection to a PC.
Page 32 The diagram below shows the interfaces available and the operating and dis- play elements on the SID card. Figure 4 SID card Reset key Status LED Interface for SIC card updates Ethernet RJ45 TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 33 The diagram below shows the interfaces available and the operating and dis- play elements on the MC1 card. Figure 5 MC1 card Terminal 1 and terminal 2 for the voltage supply Switch M/L ON/LINK TST Switch A/N ON/OFF © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 34 Technical data for MC1 card 3.5.2.3.2 Voltage supply connection The voltage is supplied via terminals 1 and 2 on the MC1 card. Terminal 110/220 V 85...264 V Table 15 Voltage supply connection TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 35 LINK port Green Network traffic on port Green MissingLink is activated M/L ON MissingLink is deactivated, the MC1 card op- erates in link test mode Table 17 LED status of MC1 card © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 36: Operation And Indicator Elements
Figure 6 Voltage regulator operating panel LEDs Keys for parameterization and configuration COM1 serial interface (RS232) Keys for operating the device Labeling strip for LEDs Setting options for display contrast TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 37: Operating Concept
This visual monitoring option simplifies operation of the voltage regulator. The voltage regulator is equipped with a key lock to protect against uninten- tional operation. To activate or deactivate, press the ESC and F5 keys simul- taneously. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 38: Description Of The Display
Remaining delay time T1 In auto and manual mode the measured value display can be set using the keys. The following measured values can be displayed: • Control deviation (dV:) • Current (I:) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 39 • Reactive power (Q:) • Phase angle (Phase:) • Cosine (Cos:) In the case of an event or a setting, the associated comments are displayed in the status line (display text "Messages"). © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 40: Description Of Key Functions
The parameters can only be changed in manual mode, see key in the table above. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 41: Description Of Leds
Green Operating display Overcurrent blocking Undervoltage blocking Overvoltage blocking Green Parallel operation On Green NORMset On Yellow Freely configurable (LED1) Yellow Freely configurable (LED2) Yellow Freely configurable (LED3) Green/yellow/red Freely configurable (LED4) © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 43: Packaging, Transport And Storage
The box is designed for a maximum load of 10 kg. Inlays inside the box stabilize the goods, preventing impermissible changes of position, and protect them from vibration. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 44: Markings
Immediately record the transport damage found in the shipping docu- ments and have this countersigned by the carrier. • In the event of severe damage, total loss or high damage costs, imme- diately notify the sales department at Maschinenfabrik Reinhausen and the relevant insurance company. TAPCON® 260 1801003/05 EN...
Page 45: Storage Of Shipments
Carrying capacity of the ground under the goods is sufficient. • Entrance and exit paths are kept free. Check stored goods at regular intervals. Also take appropriate action after storms, heavy rain or snow and so on. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 47: Mounting
The voltage regulator can be mounted in 4 different ways: • Flush panel mounting 19" housing • Flush panel mounting for half 19" housing • Wall mounting for half 19" housing • Wall mounting with terminal strip for half 19" housing © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 48: Connection
5 Mounting Connection 5.3.1 Cable recommendation for standard connections When wiring the voltage regulator, comply with the following recommenda- tions from Maschinenfabrik Reinhausen. Cable Card Terminal Cable type Wire diameter Max. length Power supply X1: 1/2 unshielded 1.5 mm² Voltage measurement MI/MI1 1/2 shielded 1.5 mm²...
Page 49: Cable Recommendation For Optional Connections
• Separate system parts must be joined by a potential equalization. • The voltage regulator and its wiring must be at least 10 m away from cir- cuit-breakers, load disconnectors and busbars. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 50 The voltage regulator must never be connected using four-pin collective cables. Figure 10 Recommended wiring Cable duct for lines causing interference Interference-causing line (e.g. power line) Cable duct for lines susceptible to interference Line susceptible to interference (e.g. signal line) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 51 Recommended shielding connection, do not extend the shield to the grounding point with a wire (pigtail). NOTE Reduced effectiveness of the shielding. Using "pigtails" may considerably reduce the effectiveness of the shielding. ► Connect shield to cover all areas. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 52 The voltage regulator's connection cables must be laid in contact with the grounded metal housing or in metallic cable ducts with a ground connec- tion. • Signal and power/switching lines should be laid in separate cable ducts. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 53 The voltage regulator must be grounded at the screw provided using a ground strap (cross-section min. 8 mm²). The voltage regulator's ground connection is a functional ground and serves to dissipate interfering cur- rents. Figure 12 Ground strap connection © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 54 If neither connection variant is possible, we would recommend using fiber optic cables. Fiber optic cables decouple the voltage regulators and are not sensitive to electromagnetic interferences (surge and burst). TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 55 The CAN bus cable's shielding must be secured to the intended point on the housing using the cable clips provided (see diagram below). Figure 13 Securing the CAN bus cable's shielding to the intended point on the housing Securing the CAN bus cable's shielding © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 56: Connecting Lines To The System Periphery
The voltage regulator is fully connected and can be wired up. To carry out the wiring, proceed as described in the Wiring (see "Wiring the voltage regu- lator" on page 63) section. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 57: Voltage Regulator Power Supply
► Prior to commissioning, be sure to check the entire configuration and the measuring and operating voltage. To obtain a better overview when connecting cables, only use as many leads as necessary. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 58: Function Check
The green "Operating display" LED in the top left on the voltage regulator lights up. The voltage regulator can now be configured. The actions required for this are described in the following chapter (see "Commissioning" on page 65). TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 59: Commissioning
• English • German • French • Spanish • Italian • Portuguese > Configuration > General. <00> Language. 2. Press to select the required language. 3. Press The language is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 60: Selecting The Control Mode
The actual value display can be set in V (voltage transformer secondary vol- tage) or kV (voltage transformer primary voltage) depending on the setting. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 61: Controlling Remote Tap Position Indicator With Bcd Signal
• a resistor contact series • a downstream diode matrix • the corresponding transfer lines between motor-drive unit and voltage regulator Figure 14 BCD signal transfer between motor-drive unit and voltage regulator © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 62 Thanks to the diode matrix's linking function, the relevant parallel BCD signal is assigned to every on-load tap-changer operating position which is repro- duced by the motor-drive unit's resistor contact series. BCD signal Operating position Table 20 BCD code table for operating positions TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 63: Function Tests
Measure actual voltage and compare with that displayed by the voltage regulator. Press several times to display the operating values for current, output and phase angle. Compare operating values with operating measurement devices. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 64 If you wish the voltage regulator to exhibit an integral time response, set an integral control response for time delay T1. The greater the control deviation, the shorter the delay time. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 65: Function Tests For Additional Functions
V>. Example: Actual voltage = 100 V, set desired value to a value less than 100 V / 1.15 = 87 V. The overvoltage V> LED will light up. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 66 Before you can check Z compensation, you must use the control system (IEC 61850) to check that the value of the LDC attribute in the ATCC node is 0. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 67 If the control deviation appears in the opposite direction, change the polarity of the current transformer. Set the "Z compensation" and "Z comp. limit value" parameters to the operating values you want. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 68: Function Tests For Parallel Operation
The "Parallel operation" LED on the front panel is illuminated. Switch one of the two transformers up one voltage step and the other transformer down one voltage step. The two voltage regulators must still be in a state of equilibrium. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 69 After 30 seconds (time adjustable) the signaling relay X5:12 (X5:12 = default setting) responds. Increase the circulating reactive current blocking again until the message "Parallel operation error: circulating reactive current limit exceeded" dis- appears. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 70 Change follower by one step manually. After expiry of the set delay time for parallel operation errors, the error message "Tap difference to follower" appears on the master. Set follower to AUTO mode. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 71 "Default" to "Swapped". The voltage regulator is now completely installed and commissioned. During operation, note the operating instructions provided. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 73: Functions And Settings
7.1.2 Deactivating key lock To deactivate the key lock, proceed as follows: ► Press at the same time. The key lock is deactivated. Parameters can be entered. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 74: Normset
A manual tap-change operation is required once NORMset has been acti- vated. This is how the voltage regulator determines the bandwidth required. If the transformer has been switched off, another manual tap-change opera- tion is required. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 75 <00> Normset activation. 2. To activate Normset, press select "On" 3. Press 4. Press to perform a manual tap-change operation. The LED for the NORMset operating display lights up. The NORMset mode is activated. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 76: Entering Normset Desired Value 1
The digit position you want is highlighted and the value can be changed. 3. Press to increase the value or reduce it. 4. Press Desired value 1 is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 77: Setting The Primary Voltage
The digit position you want is highlighted and the value can be changed. 4. Press to increase the value or reduce it. 5. Press The primary voltage is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 78: Setting The Secondary Voltage
The digit position you want is highlighted and the value can be changed. 4. Press to increase the value or reduce it. 5. Press The secondary voltage is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 79: Parameters
IO-X1/17 or IO-X1/16 inputs (factory preset).If there is a signal at both inputs at the same time, de- sired value 2 is active. The following sections describe how to set the desired values. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 80: Setting Desired Value 1
The digit position you want is highlighted and the value can be changed. 4. Press to increase the value or reduce it. 5. Press Desired value 1 is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 81: Setting Desired Value 2
The digit position you want is highlighted and the value can be changed. 4. Press to increase the value or reduce it.. 5. Press Desired value 2 is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 82: Setting Desired Value 3
The digit position you want is highlighted and the value can be changed. 4. Press to increase the value or reduce it. 5. Press Desired value 3 is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 83: Bandwidth
T1 lapses, no tap-change operation actual outside the bandwidth, T1 starts actual outside B% before T1 lapses, tap-change operation initiated actual Tap-change operation complete, V within the bandwidth actual © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 84 In order to be able to set the value correctly, the transformer's step voltage and nominal voltage must be known. The following value is recommended for the bandwidth "B %": − U [±B % ] ≥ 0.6 • •100 % nominal TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 85 Following the recommendation for calculating bandwidth, our example results −U Step4 Step5 [±B % ]≥0.6 • •100 % nominal 11275 V−11000 V [±B % ]≥0.6 • •100 % 11000 V [±B % ]≥1.5 % © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 86 The digit position you want is highlighted and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The bandwidth is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 87: Setting Delay Time T1
The advantage of counting the time back down is that, if the bandwidth is ex- ceeded frequently, the voltage regulator does not start counting again at 0 seconds, but uses the time already elapsed as the starting point for beginning the next delay time. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 88 The digit position you want is highlighted and the value can be changed. 3. Press to increase the time or reduce it. 4. Press The delay time T1 is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 89: Setting Control Response T1
(see diagram). Figure 17 ∆V/B voltage change "Delay time T1" parameter ΔV/B: Control deviation "ΔV" as % of desired value as ratio to the set band- width "B" as % of desired value. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 90: Activating/Deactivating Delay Time T2
To activate/deactivate the delay time T2, proceed as follows: > Parameter > Control pa- rameters > 6x <06> T2 activation. 2. Press to activate/deactivate T2. 3. Press The delay time T2 is activated/deactivated. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 91: Setting Delay Time T2
For the "undervoltage" and "overvoltage" parameters, the inputs basically re- late to the specified desired value. For "overcurrent" and "undercurrent", the values relate to the set rated current of the current transformer or the selected current transformer connection, respectively. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 92 Undervoltage blocking prevents tap-change operations if there is a power cut. The voltage regulator output pulses are blocked and the red "V<" LED lights up as soon as the measured voltage falls below the set blocking value. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 93 To set the overvoltage blocking, proceed as follows: > Parameter > Limit values > 1x <01> Undervoltage V< [%]. 2. Press to increase the value or reduce it. 3. Press The undervoltage blocking V< is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 94 <02> Undervoltage V< [V]. 2. If necessary press to select the unit you want, "V" or "kV". to increase the value or 3. Press reduce it. 4. Press The undervoltage blocking V< is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 95 To set overvoltage blocking, proceed as follows: > Parameter > Limit values > 3x <03> Overvoltage V> [%]. 2. Press to increase the value or reduce it. 3. Press V> overvoltage blocking is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 96 <04> Overvoltage V> [V]. 2. If necessary press to select the unit you want, "V" or "kV". 3. Press to increase the value or reduce it. 4. Press V> overvoltage blocking is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 97 <05> Overcurrent I>. 2. If necessary press to select the unit you want: "%" or "A". 3. Press to increase the value or reduce it. 4. Press I> overcurrent blocking is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 98 > Parameter > Limit values > 6x <11> Function monitoring. 2. Press to activate (On)/deactivate (Off) function monitoring. 3. Press The function monitoring is activated/deactivated for voltages <30 V. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 99 The digit position you want is highlighted and the value can be changed. 3. Press to increase the time or reduce it. 4. Press The signaling delay time for undervoltage V< is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 100 Parameter > Limit values > 9x <18> V< also below 30 V. 2. Press to activate (on)/deactivate (Off) the signal for undervoltage V<. 3. Press The signal for undervoltage V< is acti- vated/deactivated. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 101: Abnormal Control Response
An example of how the voltage regulator responds in this case is shown be- low. Figure 18 Example of normal control response (left) and abnormal control re- sponse (right) Controller blocked Defined time period for monitoring RAISE operations Delay time T1 Bandwidth B% © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 102 This parameter is used to define the time window for monitoring the number of consecutive RAISE operations. Setting range Step size Factory setting 0...1800 s 120 s Table 46 Setting range for time period for monitoring RAISE operations TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 103 To set the blocking time, proceed as follows: > Parameter > Limit values > 12x <26> T block max. number of steps 2. Press to increase the value or reduce it. 3. Press The blocking time is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 104 To set the blocking time, proceed as follows: > Parameter > Limit values > 13x <27> Lower -> Raise counter 0. 2. Press to set the option you want. 3. Press The required option is selected. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 105: Compensation
φ • is simple to set • can also be used in meshed grids Both methods are described in more detail in the following sections. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 106 Ohmic line resistance in Ω/km per phase Inductive line resistance in Ω/km per phase Length of line in km Formula for calculating the ohmic voltage drop: Formula for calculating the inductive voltage drop: TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 108 Line drop compensation and Z compensation can be used at the same time. So make sure that you set the parameter for the method of compen- sation not used to "0". TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 109 Line drop compensation and Z compensation can be used at the same time. So make sure that you set the parameter for the method of compen- sation not used to "0". © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 110 Load current in A Nominal current in A of selected current transformer connection on voltage regulator: 0.2 A, 1 A or 5 A Current transformer ratio; for example 200 A or 5 A TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 111 The calculated voltage increase percentage relates to the desired voltage value and must be entered in this display. If you do not want to use a method of compensation, a "0" must be entered for both methods. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 112 To set the Z compensation, proceed as follows: > Parameter > Compensa- tion > 2x <02> I> Z compensation. 2. Press to increase the value or reduce it. 3. Press The Z compensation is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 113 To set the limit value ΔV, proceed as follows: > Parameter > Compensa- tion > 3x <03> Z compensation limit value. 2. Press to increase the value or reduce it. 3. Press The limit value ΔV is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 114: Cross-Monitoring
In order to ensure communication between the monitoring voltage regulators via the CAN bus interface, the CAN address must be entered. "1" must be as- signed as the CAN address for the first voltage regulator and "2" for the second one. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 115 To enter the desired value for voltage regulator 2, proceed as follows: > Parameter > Cross-monitoring. <00> V regulator 2. desired 2. Press to increase the value or reduce it. 3. Press The desired value for voltage regulator 2 is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 116 Parameter > Cross-monitoring > 2x <02> V< regulator 2. 2. Press to increase the value or reduce it. 3. Press The limit value for undervoltage blocking is set as an absolute value. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 117 > Parameter > Cross-monitoring > 1x <01> V< regulator 2. 2. Press to increase the value or reduce it. 3. Press The limit value for undervoltage blocking is set as a %. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 118 > Parameter > Cross-monitoring > 3x <03> V< regulator 2. 2. Press to increase the value or reduce it. 3. Press The limit value for overvoltage blocking is set as a TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 119 Parameter > Cross-monitoring > 4x <04> V< regulator 2. 2. Press to increase the value or reduce it. 3. Press The limit value for overvoltage blocking is set as an absolute value. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 120 To set the error message delay time for voltage regulator 2, proceed as fol- lows: > Parameter > Cross-monitoring > 5x <05> Error message. 2. Press to increase the value or reduce it. 3. Press The error message delay time for regulator 2 is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 121 > Parameter > Cross-monitoring > 6x <06> V sec regulator 2. 2. Press to increase the value or reduce it. 3. Press The secondary transformer voltage of voltage regulator 2 is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 122 The decimal place is defined and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The primary transformer voltage of voltage regu- lator 2 is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 123: Configuration
0 kV... 9999 kV 1 kV 0 kV...999.9 kV 0.1 kV 100 kV 0 kV...99.99 kV 0.01 kV Table 65 Setting range for primary transformer voltage To set the primary transformer voltage, proceed as follows: © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 124 The digit position you want is highlighted and the value can be changed. 4. Press to increase the value or reduce it. 5. Press The primary transformer voltage is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 125 The digit position you want is highlighted and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The transformer secondary voltage is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 126 Unknown 100 % 50 A 50 A (of primary (of primary current) current) 50 A 50 A (of secondary (of primary current) current) Table 67 Example of unit displayed: % / A TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 127 However, if a connection is se- lected, the absolute value (in amps) is displayed. The following values can be set: • 0.2 A • • © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 128 Setting options for the measuring circuits Circuit a: Figure 19 Circuit a - phase angle to be set 0;1PH • Voltage transformer VT is connected to phase and neutral. • Current transformer CT is looped in phase. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 129 Current summation = I • Current I and voltage V V are in phase. • )/ √3. The line phase voltage drop is determined by current: (I © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 130 Voltage transformer VT is connected to U and V. • Current transformer CT is looped in V. • Current IV ahead of voltage V v by 30°. • The line phase voltage drop is determined by current I TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 131 To set the phase difference for the measured transformer circuit, proceed as follows: > Configuration > Transfor- mer data > 4x <04> Transformer circuit. 2. Press to select the required phase difference. 3. Press The phase difference is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 132: General
• English • German • French • Spanish • Italian • Portuguese > Configuration > General. <00> Language. 2. Press to select the required language. 3. Press The language is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 133 During on- line communication, the software running on the PC queries this ID and com- pares it with the regulator data available. This enables accurate assignment of data or parameters. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 134 ® to define the speed of transfer for communication with the TAPCON -trol software. The following values can be set: • 9.6 kilobaud • 19.2 kilobaud • 38.4 kilobaud • 57.6 kilobaud TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 135 To change the desired unit for the voltage display, proceed as follows: > Configuration > General > <03> Display kV/V. 2. Press to to select the kV or V unit. 3. Press The required unit is set for the voltage display. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 136 T1 or T2 there will be a switching pulse of 1.5 seconds. The waiting time between 2 consecutive switching pulses corresponds to the set delay time T1 or T2. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 137 Figure 26 Switching pulse in Quick Tap mode Start of first raise/lower switching pulse Ti = set switching pulse time (1.5 seconds) Earliest time for the next raise/lower switching pulse (1.5 seconds) © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 138 To set the pulse duration, proceed as follows: > Configuration > General > <05> R/L pulse duration. 2. Press to set the pulse duration you want. 3. Press The R/L pulse duration is now set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 139 (1), but low (0) on the other control input, the "Manual/Auto" and "Raise/lower" functions are not possible with either the F keys on the front panel or the inputs for remote messages or serial interface. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 140 All control inputs can be configured as described above. All the following con- trol inputs are available: Page number in the dis- Control input Press play IO1-X1:33 <06> IO1-X1:31 <07> Table 73 Freely configurable control inputs (IOs) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 141 To assign functions to the output relays, proceed as follows: > Configuration > General > <08> IO1-X1:25/26. 2. Press repeatedly until the de- sired function appears in the display. 3. Press The function is assigned. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 142 The corresponding control input must be correctly wired and parameterized to "Motor running" in order to use runtime monitoring. The motor runtime must also be set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 143 "Motor protective switch triggered" must be wired to a control input and pa- rameterized. This message resets the "Motor runtime exceeded" output relay when the motor protective switch is switched back on and activates the "Mo- tor protective switch triggered" message. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 144 The digit position you want is highlighted and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The motor runtime is set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 145: Parallel Operation
To increase the throughput capacity Parallel control can take one of two forms: • Parallel operation following the "Circulating reactive current minimum" principle • Parallel operation following the "Tap synchronization" (master/follower) principle © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 146 • Correct individual CAN bus addresses must be set (≠0). • The parallel operation group 1 or 2 must be selected or activated using a predefined IO. The following sections describe how to activate a parallel operation method. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 147 When setting the "circulating reactive current" parallel operation method, the values for blocking and circulating reactive current sensitivity must first be set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 148 "CAN Address" display. Each address may only be used once. Only when all voltage regulators are registered can they communicate with one another using the CAN bus and use the "master/follower" method. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 149 To define the "Follower" parallel operation method, proceed as follows: > Configuration > Parallel operation. <00> Parallel operation method. 2. Press repeatedly until "Follow- er" appears in the display. 3. Press The "Follower" parallel operation method is se- lected. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 150 > Configuration > Parallel operation. <00> Parallel operation method. 2. Press repeatedly until "Auto synchronization" appears in the display. 3. Press The "Automatic tap synchronization" parallel oper- ation method is selected. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 151 To select the type of parallel operation control, proceed as follows: > Configuration > Parallel operation > 1x <01> SKB parallel operation. 2. Press to select "On" or to select "Off". 3. Press The type of parallel control is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 152 As soon as you change the circulating reactive current sensitivity value, the value for the result changes in the help text in the display. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 153 (UC-X1/1 and UC-X1/2 signaling relay contact). The corresponding LED lights Setting the delay time for the parallel operation error message (see "Set- ting the delay time for the parallel operation error message" on page 160). © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 154 Automatic regulation is blocked and the on-load tap-changers can only be adjusted in manual mode. Setting range Step size Factory setting 1 s...30 s Table 81 Setting range for parallel operation error message delay time TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 155 To select the tapping direction, proceed as follows: Please note whether the voltage regulator is defined as master or follower when setting the tapping direction. The tapping direction can only be changed for a follower. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 156: Configuring Analog Inputs
Table 83 Example for configuring the analog input If the signal transmitter for capturing the tap position is a resistor contact se- ries, then 20 % should generally be set. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 157 Table 85 Example for configuring the analog input (maximum) If the signal transmitter for capturing the tap position is a resistor contact se- ries, then 100 % should generally be set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 158 Setting lower limit value (absolute) of input 1 To configure the analog input, an absolute value must be assigned to the lower value of the applied signal. Example: You can set "1" for the lowest tap position. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 159 Example: You can set "25" for the highest tap position. Setting range Step size Factory setting -999.9...999.9 0.1 / 1 Table 88 Setting range for upper limit value (absolute value) © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 160 20 % should generally be set. Setting range Step size Factory setting 0 %...100 % 0.1 % Table 90 Setting range of analog value - lower limit value as % TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 161 100 % should generally be set. Setting range Step size Factory setting 0 %...100 % 0.1 % 100 % Table 92 Setting range of analog value - upper limit value as % © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 162 Setting lower limit value (absolute) of input 2 To configure the analog input, an absolute value must be assigned to the lower value of the applied signal. Example: You can set "1" for the lowest tap position. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 163 Example: You can set "25" for the highest tap position. Setting range Step size Factory setting -999.9...999.9 0.1 / 1 Table 94 Setting range for upper limit value (absolute value) © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 164: Led Selection
4 free LEDs. These would then light up during an event. The function required must have been set in advance. To label the LEDs, you can remove the label strip underneath and label indi- vidually using transferable lettering. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 165 Signal issued at IO1:17 input IO1:16 Signal issued at IO1:16 input IO1:14 Signal issued at IO1:14 input IO1:13 Signal issued at IO1:13 input IO1:11 Signal issued at IO1:11 input IO1:12 Signal issued at IO1:12 input © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 166 Voltage regulator in parallel operation activated as Master master Voltage regulator in parallel operation activated as Follower follower Automatic Auto mode active Bandwidth < Value below bandwidth Bandwidth > Value above bandwidth Table 95 Possible functions for LEDs TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 167: Configuring Transducer Function
The following values are available: • • V2 (optional via a second measurement input) • • Active current • Reactive current © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 168 Tap position Desired value V2 (kV) - optional via a second measurement input Active current Reactive current Apparent power Active power Reactive power Table 97 Measurement parameters for outputs 1 to 4 TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 169 Possible settings Factory setting 4 mA 0 mA -1 mA -4 mA 4 mA -10 mA -20 mA -10 V Table 98 Minimum physical parameters for outputs 1 to 4 © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 170 In this display you can assign a maximum physical parameter to the trans- ducer output. Possible settings Factory setting 1 mA 10 mA 20 mA 20 mA 10 V Table 99 Maximum physical parameters for outputs 1 to 4 TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 171 In this display you can assign a minimum limit value to the transducer output as an absolute value. Setting range Step size Factory setting -9999...9999 -999.9...999.9 -99.99..99.99 0.01 Table 100 Setting range for lower limit value for measuring transducer. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 172 Continue > Continue > Measuring trans- ducer 1/2 > 4x <04> Output 1, value top. 2. Press to increase the value or reduce it. 3. Press The minimum absolute value is assigned. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 173: Configuring Measured Value Memory Function (Optional)
• Current measuring circuit • Primary current • Voltage transformer data from primary and secondary sides A correct calculation can only be undertaken if the configuration data are correctly entered in full. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 174 If the event memory is full, the oldest values are overwritten by the new val- ues measured. You can access information about the current event memory content via the "Info" menu. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 175 2. Press to select the number to be edited. The digit position you want is highlighted and can be changed. 3. Press to edit the digit. 4. Press The system time is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 176 Setting range Step size Factory setting 60 %...100 % 90 % Table 102 Setting range for undervoltage V< threshold as percentage TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 177 Factory setting 40 V – 160 V 0.1 V / 1 V 90 V 0 kV...2 kV 1 kV 1 kV Table 103 Setting range for undervoltage V< threshold as absolute value © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 178 Setting range Step size Factory setting 100 %...140 % 110 % Table 104 Setting range for V> overvoltage threshold as percentage TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 179 Factory setting 40 V – 160 V 0.1 V / 1 V 110 V 0 kV...2 kV 1 kV 1 kV Table 105 Setting range for V> overvoltage threshold as absolute values © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 180 1 s / 2 s / 6 s / 10 s / 40 1 s...40 s Table 106 Setting range for average value interval When you set the average value interval, the complete memory is cleared once the change is confirmed. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 181 Size of event memory 256 kB 512 kB 1024 kB 2048 kB Maximum number of events Table 107 Size of event memory © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 182 Duration: 10 seconds High-resolution recording Low-resolution recording Figure 29 For an event lasting more than 5 minutes Duration: 10 seconds Duration: Around 5 minutes Duration: 10 seconds Duration: 10 seconds High-resolution recordings Low-resolution recording TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 183 To set the size of the event memory, proceed as follows: > Configuration > Continue > Continue > Memory > 5x <05> Event memory. 2. Press to set the event memory size you want. 3. Press The event memory size is set. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 184 The time plotter is displayed as follows: Desired value/actual value display Figure 30 Desired value and actual value display of time plotter Desired value display Actual value display Actual value display Desired value display TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 185 Move time axis back Move time axis forward Increase set values by one unit Select values to set Decrease set values by one unit The following sections describe how to run the above functions. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 186 1 min 2.5 min 5 min 10 min (grid width) Displayed range (in full 3.5 min 7 min 14 min 35 min 70 min 140 min display) Table 109 Duration of range displayed TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 187 141). Figure 34 Voltage range which can be set Horizontal grid lines (the set voltage range is between the horizontal grid lines) Setting box for voltage range displayed © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 188 Any time between the present time and the oldest time in the memory can be set. The time is entered in the following format: HH:MM:SS TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 189 Any date between the present date and the oldest time in the memory can be set. The date is entered in the following format: DD:MM:YY © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 190: Communication Interface Sid
In this display, you can assign a valid, individual IP address to the Ethernet module of the SID card. Setting range Step size Factory setting 0.0.0.0...255255255255 0.0.0.0 Table 111 Setting range for the network mask TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 191 2. Press to mark a position. The desired position is marked and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The network mask is assigned. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 192 2. Press to mark a position. The desired position is marked and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The network address is assigned. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 193 The desired position is marked and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The time server IP address is entered. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 194 2. Press to mark a position. The desired position is marked and the value can be changed. 3. Press to increase the value or reduce it. 4. Press The gateway address is entered. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 195: Info
Functional reliability of the LEDs (LED test) • Parallel operation • Parameters • Upcoming messages • Input/output status • Status of UC1 card • Status of UC2 card • RTC (real-time clock) • Data on CAN bus © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 196 Size of EEPROM / ID number of module Flash memory RAM memory The current measured values are shown in this display. The following meas- ured values can be displayed: Figure 36 Measured values TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 197: Carrying Out Led Test
To carry out the LED test, proceed as follows: > Info > 2x <02> LED TEST. 2. To carry out the function test, press any F key for the LED you want to test. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 198: Querying Status
The status of the respective optocoupler inputs is shown under "INPUT / OUTPUT-STATUS". As soon as a continuous signal is present at the input, it is shown in the display with a "1". "0" indicates no signal at the input. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 199 STATUS". As soon as a continuous signal is present at the input, it is shown in the display with a "1". "0" indicates no signal at the input. To query the status, proceed as follows: ► > Info > 5x <06> UC3 CARD STATUS. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 200: Resetting Parameters
Info > 7x <07> RTC. 7.5.5 Displaying parallel operation This display indicates the control number for parallel operation (= CAN bus address) and the number of voltage regulators which are currently operating in parallel. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 201: Displaying Data On Can Bus
The CAN bus data of all voltage regulators running in parallel are shown in this display. Figure 38 Display for CAN bus data CAN bus address of voltage regulator Voltage in volts Active current in % Reactive current in % Tap position © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 202 "Follower" tap synchronization (0 = deactivated; 1 = activated) "Auto" tap synchronization (0 = deactivated; 1 = activated) Voltage regulator blocks group because parallel operation is experiencing a fault (0 = is not blocked; 1 = is blocked) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 203: Displaying Measured Value Memory
All values recorded are stored with a time and date. The minimum and maximum values continue to be stored in an internal fixed value memory even in the event of power failure. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 204: Displaying Cic1 Card Scada Information
Info > 13x <13> Peak memory. 7.5.9 Displaying CIC1 card SCADA information The following information on the SCADA connection is displayed under "CIC1 card SCADA information". • Protocol • Data format • BOOT version TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 205: Displaying Cic2 Card Scada Information
<15> CIC2 card SCADA information. The SCADA information on the CIC2 card is dis- played. If necessary, you can reset the Ethernet connec- tion. ► Press at the same time to re- set the Ethernet connection. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 206: Displaying Upcoming Messages
This display shows upcoming messages, such as: • Undervoltage • Overvoltage • Fault in parallel operation • etc. To display the upcoming messages, proceed as follows: ► > Info > 13x <16> UPCOMING MESSAGES. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 207: Interface Description For Iec 61850 Protocol
The device-specific data points and presettings can be found in the device's ICD file. The MICS (Model Implementation Conformance Statement) and PICS (Protocol Implementation Conformance Statement) can be requested for the device. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 208: Downloading The Icd File
PC us- ing "Save as". The ICD file is downloaded. Figure 41 Downloading the ICD file using an Internet browser TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 209: Fault Elimination
(in- • Blocking has an appropriate input put/output status). signal. Correct if necessary. NORMset active. Carry out manual tap-change operation with keys. Undercurrent blocking acti- Check parameter. Correct if necessary. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 210: Man Machine Interface
LEDs do not light up. Contrast incorrectly set. Set contrast using resistor con- tact series in front panel. Display Voltage supply interrupted. Check voltage supply. • No display. Fuse faulty. Replace fuse. TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 211: Incorrect Measured Values
Check measured voltage at plug Measured voltage terminal. • Leads laid in parallel. • Measured value fluc- Increase distance from source of • Tap-change operations. interference. tuates too much. Install filter if necessary. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 212: Parallel Operation Faults
(see "Se- be activated. lecting parallel operation me- • LED not lit up. thod" on page 152). CAN bus address of voltage Set CAN bus address (anything regulator set to "0". but 0) TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 213: Tap Position Capture Incorrect
UC1 card" on page • "-" is displayed. 205)/Display UC2 card status No L- for digital input. FB (see "Querying status of UC2 card" on page 205). Connect as shown in connection diagram. © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 214: Digital Inputs
Supply voltage too low. Check supply voltage. Table 122 Troubleshooting: General faults 9.1.8 No solution If you cannot resolve a problem, please contact Maschinenfabrik Reinhausen. Please have the following data to hand: • Serial number TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 215 Has a firmware update been carried out? • Has there previously been a problem with this device? • Have you previously contacted Maschinenfabrik Reinhausen about this issue? If yes, then who was the contact? © Maschinenfabrik Reinhausen 2013 1801003/05 EN...
Page 216: Event Message
Signal issued at "Motor protective switch" input. Function monitoring A message is issued if the voltage regulator detects a control deviation for 15 minutes and this is not compensated for. Table 123 Possible events TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 217: Technical Data
With pulsating DC voltage, the voltage minimum must always exceed 40 V. Contact loadability of min. 12 V / 100 mA outputs max. AC 250 V / 5 A max. DC see diagram Table 126 Inputs and outputs © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 218: Dimensions And Weight
Dimensions and weight Housing 19-inch plug-in housing in accordance with DIN 41494 Part 5 (W x H x D) 483 x 133 x 178 mm Weight 5.0 kg Table 127 Dimensions and weight TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 219: Voltage And Current Measurement
Dielectric test with operating frequency 2.5 kV / 1 IEC 60255 Dielectric test with impulse voltage 5 kV, 1.2 / 50 μs IEC 60 644-1 Level of contamination 2, overvoltage category III Table 130 Electrical safety © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 220: Emc Tests
+ 40 °C / 93% / 2 days, no dew IEC 60068-2-30 Cyclic moist heat (12 + 12 hours) + 55 °C / 93 % / 6 cycles Table 132 Environmental durability tests TAPCON® 260 1801003/05 EN © Maschinenfabrik Reinhausen 2013...
Page 221: Mr Worldwide
传真：＋86 21 61634582 Fax: +62 21 5315-3184 邮箱：mr-sales@cn.reinhausen.com E-Mail: c.haering@id.reinhausen.com mr-service@cn.reinhausen.com Iran Iran Transfo After Sales Services Co. Zanjan, Industrial Township No. 1 (Alia- bad) Corner of Morad Str. Postal Code 4533144551 E-mail: itass@iran-transfo.com © Maschinenfabrik Reinhausen 2013 1801003/05 EN TAPCON® 260...
Page 222 1801003/05 EN 04/13 Maschinenfabrik Reinhausen GmbH Phone: +49 941 4090 0 www.reinhausen.com Falkensteinstrasse 8 Fax: +49 941 4090 7001 93059 Regensburg Email: sales@reinhausen.com...

Maschinenfabrik Reinhausen TAPCON 260 Operating Instructions Manual

1 Introduction

2 Safety

3 Product Description

4 Packaging, Transport and Storage

5 Mounting

6 Commissioning

7 Functions and Settings

8 Interface Description for IEC 61850 Protocol

9 Fault Elimination

10 Technical Data

11 MR Worldwide

Quick Links

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