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SDI TAPAS - Community Inverter - Quick-Start Guide

PCB

Use your TAPAS board with Raspberry PI or Texas Instruments InstaSPIN

!CAUTION!

The TAPAS community inverter board is not a toy! It is intended for laboratory use only and may only be operated by experienced personell (engineers, scientists, qualified makers). Never use it in a productive or potentially explosive environment! Never operate without supervision! (see section 6)

The TAPAS board as well as connected devices can get very hot, never touch during operation and/or cool-down period. Always use an appropriate case.

If the TAPAS board is used in conjunction with mechanical, electromagnetic, acoustic, optical or other components, e.g. a motor drive, significant forces can occur. Always ensure safety, containment and (mechanical) stability of the entire set-up including case, base-plate and/or table! Prevent direct physical contact, always place set-up in an appropriate case, employ safe software techniques (e.g. torque and temperature limiting) and limit the supply current and voltage (strictly <=48V).

Only enable power supply if set-up is secured in case.


The TAPAS board is very sensitive to electrostatic discharge - handle with care! Never touch the board if the supply voltage is turned on!

The TAPAS board may emmit electromagnetic radiation! Do not operate the board in proximity to devices that are susceptible to electromagnetic interference. Do not operate if pacemaker patients are in the room.

Foreword and acknowledgements

This board (TAPAS) is intended to train the next generation of power electronics researchers and (application) engineers. It is designed as an educational platform that addresses enthusiasts as well as experts at universities and in the industry.

TAPAS features a 48V, 3-phase GaN power stage with on-board filters. This design-choice allows for a high switching frequency/bandwidth (300kHz and beyond) whilst producing a smooth output wave-form. In contrast, commonly available IGBT or MOSFET converter boards typically have a rather limited bandwidth and/or produce a square output wave-form.

This unique feature of high bandwidth and smooth output makes TAPAS to some degree universal, giving rise to educational applications in AC and DC drives, DC/DC power conversion, audio, robotics, magnetic field control, battery charging, etc. Note that universality is achieved with a single, fixed hardware platform where the overall functionality is defined via software (changes) only – the reason why we coined the term “Software Defined Inverter” (SDI).

TAPAS is designed of Raspberry PI and multiple boards can be used in collaboration, giving rise to many-phase applications such as quadrocopters or multi-axis servo control. Together with open-source code examples and extensive documentation we made TAPAS as accessible to the community as possible.

To help us make TAPAS affordable, we would like to thank our friends and partners at Texas Instruments, Efficient Power Conversion (EPC), Würth Elektronik and Allegro Micro who sponsored most of the active and passive components on the board (see bill of materials). I hope you will have as much fun with TAPAS as we had making it.

Dominic Buchstaller - concept, lead-design - TAPAS

For a more visual motivation also see the TAPAS slide deck.

Created by :

SIEMENS LOGO

SIEMENS SDI (Software Defined Inverter) * in-house start-up for I/Os

Components sponsored by:

SPONSORS LOGO

Texas Instruments http://www.ti.com

Efficient power conversion (EPC) http://epc-co.com

WÜRTH ELEKTRONIK http://www.we-online.com

Allegro Microsystems http://www.allegromicro.com

1. INTRODUCTION

This quick-start-guide will lead you through the necessary steps to get TAPAS up and running with most commercially available DC-brushless motors. If you are new to Texas Instruments DSPs or power conversion, we advise you to start with this guide. It will take you through the necessary steps to set-up your (coding) environment and bring the board to life. You are then free to explore the endless possibilities that the platform provides.

TAPAS key characteristics

  • DC-Input 12V - 48V
  • Maximum DC / AC (per phase) current - 30A
  • Up to 300W continuous power - passively cooled (@>120kHz switching frequency)
  • Switching frequency up to 600 kHz at reduced load
  • On-board output-filter enables smooth output voltage
  • Texas Instruments C2000 Piccolo (TMS320F28069M) DSP - InstaSPIN MOTION-enabled
  • CAN, GPIO, UART, SPI, 2 x QEP (encoder) interface onboard
  • Raspberry-Pi compatible

Notice

  • Never exceed 48V operating voltage and ensure correct polarity of the power supply. Incorrect polarity will destroy the board.
  • Never short-circuit the inverter output and never enable high- and low-side switches at the same time. Always ensure the minimum dead time between switching high- and low-side switches of half-bridges. Failure to do so will most likely destroy the board.
  • In case of board failure, disconnect power source immediately. Never inhale fumes comming from the board.
  • Never disconnect the power source from the board while in operation, this may damage or destroy the board.
  • Only connect appropriate loads/sources to the board, inappropriate loads/sources (e.g. high powered generators) may damage the board
  • In order to use TAPAS with motor drives some basic information is required, in particular number of pole pairs and maximum rated current.

TAPAS pinout

TAPAS PINOUT

Box contents

  • TAPAS board
  • This quick-start guide
  • An SDI sticker
  • 7 (optional) board-connectors (JP7, JP10, JP11, JP13, JP14, SV3, SV4) for hand-soldering

Required materials

To get started with TAPAS you will need the following (additional) items.

  • We highly recommend placing TAPAS in a case. This will keep your TAPAS board safe. The 3D model for our very own case can be found and downloaded here: https://github.com/SDI-SoftwareDefinedInverter/TAPAS/blob/master/TAPAShousing.zip. If you don't own a 3D printer, many local 3D printing services are available on-line. Print with temperature-stable materials like ABS (not PLA).
  • DC power supply with a minimum of 12V and >3A continuous current output. Alternatively, you may use any battery with the correct voltage and an appropriate fuse in the supply line
  • A DC brushless motor
  • If you want to start programming with TAPAS you will need a JTAG programmer. We recommend using the OLIMEX TMS320-JTAG-USB XDS100-V2. Alternatively, you can use the newer version of this USB-JTAG-emulator called TMS320-XDS100v3+, there you have to leave all the jumpers open and use the TI_JTAG_20 connector to connect to your TAPAS-board with a 20pin 1:1 wired cable.
  • If you want to use TAPAS with Raspberry PI we recommend a Raspberry PI Zero (W)
  • If you want to use TAPAS with Raspberry PI we also recommend the following parts for mechanical stability:
    • 4 screws M2,5 x 6mm (plastic)
    • 4 screw nuts M2,5 (plastic)
    • 4 spacers M2,5 x 10mm with one male and one female thread (plastic)
    • 12 washers M2,5 (plastic)

Note: Difference between FIKAT (TAPAS pre-release version) and TAPAS (release version)

There are some PCB differences between the pre-release version (code-name FIKAT - PCB with Siemens & SDI logo) and release version 1.0 (code-name TAPAS - PCB with Siemens and manufacturer logos)

  • The connector of the OLIMEX JTAG programmer does not pysically fit into the JTAG-interface connector SV2 on FIKAT (it is too wide). You will have to solder a simple 1:1 adapter to make it work (see ugly example below). This has been fixed in TAPAS.
  • TAPAS has more PINs of the Raspberry-Pi socket (SV4) connected to GND. On FIKAT only pins 34 and 39 are connected to GND. Hence you cannot use a Nano Pi with FIKAT as the GND connection is missing.
  • The SPI-Chip select signal (GPIO53) is connected to pin26 of SV4 via the address DIP-switch (2) on FIKAT. This has moved to pin 16 of SV4 on TAPAS.
  • The resistors R_TXA1, R_RXA1, R_TXB1 and R_RXB1 are populated on FIKAT but not on TAPAS.
  • The 0Ohm gate resistors R19, R23, R20, R24, R12, R14, R16, R15, R17, R18, R22, R21 on FIKAT have been changed to 2,2Ohm on TAPAS
  • The DC-bus capacitor C10 for the 5V-voltage regulator U99 has been upgraded from a standard SMD-electrolytic type on FIKAT to a 39µF polymer type on TAPAS. It can now handle a higher DC ripple current on the dc-bus
  • We added a TVS-clamping-diode for DC over voltage protection on TAPAS. (Not available on FIKAT). This is to absorb some of the breaking energy if the user forgot to use a breaking chopper
  • The isolation ICs IC5, IC6 and IC7 on FIKAT have been swapped for a different type on TAPAS - this should have no influence on the behaviour
  • The current sensors on FIKAT are 20A bidirectional types, this has been changed to a 30A bidirectional type on TAPAS

JTAG ADAPTER

2. GETTING STARTED WITH TAPAS AND RASPBERRY PI

(FOR LABORATORY USE ONLY)

Note: TI Instaspin motor identification is not 100% reliable for every motor. Success depends on motor type, supply voltage and supply current (see below).

Note: The stock firmware limits the board current to 6A and the board temperature to 80°C

python --version
git --version
cd
git clone https://github.com/SDI-SoftwareDefinedInverter/TAPAS.git
  • If successful, halt your Raspberry PI
sudo halt
  • Set the SPI-Address select DIP switch to (ON)-(OFF)-(OFF)-(OFF) for the switch positions from (1) - (4) (see pinout)
  • Disconnect the Raspberry PI from any power source and plug it into the TAPAS Raspberry PI board connector (see pinout).
  • Connect your TAPAS board to a DC power supply and to a DC brushless motor (see pinout).
  • Set the supply voltage to 24V with 5A current limit and turn it on
  • If your motor does not start turning, increasing the supply voltage may help (
  • Log into your Raspberry PI and type
cd ~/TAPAS
python3 TAPASstart.py
  • Then follow the prompts on the monitor
  • If the identification fails, repeat the process and increase current/voltage limit
  • HINT: It is strongly recommended to never run the application without any motor or load connected to the terminals!

3. GETTING STARTED WITH TAPAS AND SIEMENS IoT2000

(FOR LABORATORY USE ONLY)

It is rather straightforward to use TAPAS with SIMATIC IOT2000. This will allow you to build Siemens MindSphere connected drives applications and more. All you need is a few jumper-cables to connect their respective SPI interfaces.

SIMATIC IOT2040 connected to TAPAS

Required steps on SIMATIC IOT2000:

  • set-up SIMATIC IOT2000 with image V2.1.4
  • set the IO-level jumper to 3.3V (right-most jumper to right position)
  • enable SIMATIC IOT2000 SPI-interface:
iot2000setup
  • add the spidev python library:
pip3 install spidev
  • connect the jumper cables as follows:

SIMATIC IOT2040 - TAPAS connection instructions

  • ensure that the DIP-switch SW1 is set to ON-OFF-OFF-OFF (from position 1 to 4)
  • as git is not available on the IOT2000 platform you have to download the TAPAS-repository from github and transfer it to the IOT2000 by hand (e.g. via scp, putty, USB-Stick ... ). Then unpack it.
  • run the TAPASstart python script:
python3 TAPASstart.py

HINTS:

You can find a simplified fritzing part for TAPAS here:

https://github.com/SDI-SoftwareDefinedInverter/TAPAS/tree/master/Fritzing_part_TAPAS

You can find a simplified fritzing part for the SIMATIC IOT2040 and the fritzing project used to generate the cabling diagram here:

https://github.com/SDI-SoftwareDefinedInverter/TAPAS/tree/master/IOT2000_with_TAPAS/Fritzing

Additonal images are located here:

https://github.com/SDI-SoftwareDefinedInverter/TAPAS/tree/master/IOT2000_with_TAPAS

4. GETTING STARTED WITH TAPAS AND CODE COMPOSER STUDIO

(FOR LABORATORY USE ONLY)

!CAUTION!

The stock TAPAS firmware implements software features that ensure safe operation. Changing the stock TAPAS firmware may damage or destroy your TAPAS board, lead to harm and/or danger. Make sure that you fully understand the supplied sample code and the underlying principles before flashing your own firmware.

For programming the TAPAS-Board, we recommend Code Composer Studio from Texas Instruments. It is free of charge and can be downloaded from here:

http://processors.wiki.ti.com/index.php/Download_CCS

Choose the correct setup-package for your OS and install it following the instructions in the installation-wizard.

The drivers for the OLIMEX JTAG-Debug probe are included in the standard installation package. If you choose a JTAG Programmer from another vendor make sure that you installed the correct drivers and that it is compatible with code composer studio.

To be able to use the InstaSpin capabilities of the DSP, you require motorware version 1_01_00_16. Install git for your operating system and clone the repository in the same way, you did it for the Raspberry Pi:

git clone https://github.com/SDI-SoftwareDefinedInverter/TAPAS.git

We included a copy of TI motorware in the cloned repository (motorware.zip). Alternatively you can download motorware from Motorware or here https://github.com/SDI-SoftwareDefinedInverter/TAPAS/blob/master/motorware.zip.

As the TAPAS board definition is not part of the stock motorware package we have to make some modifications to it. All the necessary changes are contained in the patch-file SDITAPASmotorwarePatch.patch. Now copy SDITAPASmotorwarePatch.patch to the motorware installation folder (usually C:\ti\) and start git in bash mode (also in the motorware installation folder). Then execute the following commands:

dos2unix SDITAPASmotorwarePatch.patch
patch -p0 -i SDITAPASmotorwarePatch.patch

This completes the installation of motorware and you can start playing with the motorware-labs and the quick-start demo firmware. To add the quick-start project, start Code Composer Studio and choose a workspace location. Close the welcome-window and then select "Project->Import CCS Projects..." In the upcoming window choose the option "Select search-directory" and click the "Browse" - button. Navigate to the directory of your motorware installation, go to the folder <drive>:\ti\motorware\motorware_1_01_00_16\sw\solutions\instaspin_foc\boards\TAPAS_V1_0\f28x\f2806xF\projects\ccs5\ and click the "OK" button.

In the "Discovered projects" - list below you will see all the projects in the selected directory. Here you can choose, for example, the "TAPAS_quick_start" project which represents the stock demo firmware to be used with the python - script for Raspberry PI.

For all the other projects in the folders <drive>:\ti\motorware\motorware_1_01_00_16\sw\solutions\instaspin_foc\boards\TAPAS_V1_0\f28x\f2806xF\projects\ccs5\ and <drive>:\ti\motorware\motorware_1_01_00_16\sw\solutions\instaspin_motion\boards\TAPAS_V1_0\f28x\f2806xF\projects\ccs5\ please consider the "InstaSPIN Projects and Labs User's Guide" which comes with the motorware-installation and is located in <drive>:\ti\motorware\motorware_1_01_00_16\docs\labs\instaspin_labs.pdf of the motorware installation.There you can find further information on how to compile the firmware, start a debugging session, flash the DSP and get an impression, what all the program components actually do. Please keep in mind that all the labs that are designed to drive two motors independently are skipped - this is not possible with TAPAS because there is only one 3-phase power stage.

To be able to run our TAPAS demo-webapp you also require the InstaSPIN-UNIVERSALGUI from Texas Instruments which you can get here:

http://www.ti.com/tool/INSTASPINUNIVERSALGUI

You have now completed the installation of the TAPAS development environment. We have also created a TAPAS-webapp to test all external I/O hardware. You can download it from:

https://github.com/SDI-SoftwareDefinedInverter/TAPAS/blob/master/
TAPASwebapp.zip

Unzip the file place it in:

<drive>:\ti\guicomposer\webapps\

5. FREQUENTLY ASKED QUESTIONS / TROUBLE SHOOTING

Q: Where can I get a TAPAS board?

A: The TAPAS board is provided for free – just write a few lines to tapas.support.ct@siemens.com what you intend to do with it. For legal reasons we are limited to ship the board only within the EU atm - we are working on expanding this limitation.

Q: Where can I find example projects?

A: You can find use cases and a number of user build projects on the community site https://challenge.tapas.sdi.tools/

Q: Can I use other JTAG-Programmers than the OLIMEX?

A: Yes you can. As long as it's 3,3V compatible and supported by Code Composer Studio it should work.

Q: Can I run the board at full power for longer periods of time?

A: Yes you can. In that case it is important to manage the board temperature. We recommend adding some temperature monitoring code (see examples) and dynamically limit the output current. Keep the board temperature below 90°C at all times to keep your TAPAS board healthy.

Q: If I abruptly reduce the speed of my motor why is the JTAG-connection interrupted or other funny things happen?

A: It is very likely that you are using a DC power supply and not a battery to power TAPAS. The breaking energy is fed back into the DC supply and causes an abrupt rise in DC voltage. Note that although TAPAS is designed to absorb some breaking energy, excessive DC voltage peaks may damage the board. To prevent this effect, limit the rate of change in motor velocity, use a battery instead of a DC power supply or invest in a current sink (breaking chopper).

Q: My motor is making some noise but does not start turning during the identification procedure from the examples.

A: Slightly increase the supply voltage for the TAPAS-board and retry the identification of your motor. Never exceed 48V supply voltage as this will damage or even destroy your board! Also check the current rating of your motor again and make sure you have set it correctly.

Q: I get an overcurrent protection message during motor identification in your Raspberry PI example.

A: If this happens once, just retry the identification procedure. If this happens permanently, check your current rating again. Always keep in mind that the curent sensors on TAPAS can only measure +-30A at their maximum.

6. REFERENCES

The following documents can be helpful in developing with TAPAS:

7. STANDARD TERMS FOR EVALUATION MODULES

1 Delivery: Siemens delivers TAPAS community converter boards (collectively, a “TAPAS BOARD or “TAPAS BOARDS”) to the User (“User”) free of charge in accordance with the terms set forth herein. User's acceptance of the TAPAS BOARD is expressly subject to the following terms.

1.1 TAPAS BOARDS ARE INTENDED SOLELY FOR PRODUCT OR SOFTWARE DEVELOPERS FOR USE IN A RESEARCH AND DEVELOPMENT SETTING TO FACILITATE FEASIBILITY EVALUATION, EXPERIMENTATION OR SCIENTIFIC ANALYSIS. TAPAS BOARDS HAVE NO DIRECT FUNCTION AND ARE NOT FINISHED PRODUCTS. TAPAS BOARDS SHALL NOT BE DIRECTLY OR INDIRECTLY ASSEMBLED AS A PART OR SUBASSEMBLY IN ANY FINISHED PRODUCT.

1.2 TAPAS BOARDS ARE NOT INTENDED FOR CONSUMER OR HOUSEHOLD USE. TAPAS BOARDS MAY NOT BE SOLD, SUBLICENSED, LEASED, RENTED, LOANED, ASSIGNED, OR OTHERWISE DISTRIBUTED FOR COMMERCIAL PURPOSES BY USERS, IN WHOLE OR IN PART, OR USED IN ANY FINISHED PRODUCT OR PRODUCTION SYSTEM.

2 Return and replacement: Due to the fact that Siemens delivers the TAPAS BOARDS free of charge and for use in research and development settings only, Siemens will not provide any warranty with regard to any specifications of the TAPAS BOARDS. If the User notifies Siemens of any defects within thirty (30) days after delivery, Siemens will replace the respective TAPAS BOARD, provided that User returns the TAPAS BOARD within the 30-day-period to Siemens. Siemens will not provide any warranty for any replaced TAPAS BOARDS.

3 Regulatory Notices:

3.1 European Union

3.1.1 For TAPAS BOARDs subject to EU Directive 2014/30/EU (Electromagnetic Compatibility Directive): This is a class A product intended for use in environments other than domestic environments that are connected to a low-voltage power-supply network that supplies buildings used for domestic purposes. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.

4 TAPAS BOARD Use Restrictions and Warnings:

4.1 TAPAS BOARDS ARE NOT FOR USE IN FUNCTIONAL SAFETY AND/OR SAFETY CRITICAL EVALUATIONS, INCLUDING BUT NOT LIMITED TO EVALUATIONS OF LIFE SUPPORT APPLICATIONS.

4.2 User must read and follow the Quickstart Guide provided by Siemens regarding the TAPAS BOARD prior to handling or using the TAPAS BOARD, including without limitation any warning or restriction notices. The notices contain important safety information related to, for example, temperatures and voltages.

4.3 Safety-Related Warnings and Restrictions:

4.3.1 User shall operate the TAPAS BOARD within Siemens’s recommended specifications and environmental considerations stated in the user guide, other available documentation provided by Siemens, and any other applicable requirements and employ reasonable and customary safeguards. Exceeding the specified performance ratings and specifications (including but not limited to input and output voltage, current, power, and environmental ranges) for the TAPAS BOARD may cause personal injury or death, or property damage. If there are questions concerning performance ratings and specifications, User should contact a Siemens TAPAS representative via the github issue tracker (https://github.com/SDI-SoftwareDefinedInverter/TAPAS/issues) prior to connecting interface electronics including input power and intended loads. Any loads applied outside of the specified output range may also result in unintended and/or inaccurate operation and/or possible permanent damage to the TAPAS BOARD and/or interface electronics. Please consult the TAPAS BOARD quick start guide prior to connecting any load to the TAPAS BOARD output. If there is uncertainty as to the load specification, please contact a Siemens field representative. During normal operation, even with the inputs and outputs kept within the specified allowable ranges, some circuit components may have elevated case temperatures. These components include but are not limited to linear regulators, switching transistors, pass transistors, current sense resistors, and heat sinks, which can be identified using the information in the associated documentation. When working with the TAPAS BOARD, please be aware that the TAPAS BOARD may become hot.

4.3.2 TAPAS BOARDs are intended solely for use by technically qualified, professional electronics experts who are familiar with the dangers and application risks associated with handling electrical mechanical components, systems, and subsystems. User assumes all responsibility and liability for proper and safe handling and use of the TAPAS BOARD by User or its employees, affiliates, contractors or designees. User assumes all responsibility and liability to ensure that any interfaces (electronic and/or mechanical) between the TAPAS BOARD and any human body are designed with suitable isolation and means to safely limit accessible leakage currents to minimize the risk of electrical shock hazard. User assumes all responsibility and liability for any improper or unsafe handling or use of the TAPAS BOARD by User or its employees, affiliates, contractors or designees.

4.4 User assumes all responsibility and liability to determine whether the TAPAS BOARD is subject to any applicable international, federal, state, or local laws and regulations related to User’s handling and use of the TAPAS BOARD and, if applicable, User assumes all responsibility and liability for compliance in all respects with such laws and regulations. User assumes all responsibility and liability for proper disposal and recycling of the TAPAS BOARD consistent with all applicable international, federal, state, and local requirements.

5 Accuracy of Information: To the extent Siemens provides information on the availability and function of TAPAS BOARDS, Siemens attempts to be as accurate as possible. However, Siemens does not warrant the accuracy of TAPAS BOARD descriptions, TAPAS BOARD availability or other information on its websites as accurate, complete, reliable, current, or error-free.

6 Disclaimers:

6.1 EXCEPT AS SET FORTH IN SECTION 2, SIEMENS DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, REGARDING THE TAPAS BOARDS, INCLUDING BUT NOT LIMITED TO ANY WARRANTY OR IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADE SECRETS OR OTHER INTELLECTUAL PROPERTY RIGHTS.

6.2 EXCEPT FOR THE LIMITED RIGHT TO USE THE TAPAS BOARD SET FORTH HEREIN, NOTHING IN THESE TERMS SHALL BE CONSTRUED AS GRANTING OR CONFERRING ANY RIGHTS BY LICENSE, PATENT, OR ANY OTHER INDUSTRIAL OR INTELLECTUAL PROPERTY RIGHT OF SIEMENS, ITS SUPPLIERS/LICENSORS OR ANY OTHER THIRD PARTY, TO USE THE TAPAS BOARD IN ANY FINISHED END-USER OR READY-TO-USE FINAL PRODUCT, OR FOR ANY INVENTION, DISCOVERY OR IMPROVEMENT, REGARDLESS OF WHEN MADE, CONCEIVED OR ACQUIRED.

7 User's indemnity obligations and representations: USER WILL DEFEND, INDEMNIFY AND HOLD SIEMENS, ITS LICENSORS AND THEIR REPRESENTATIVES HARMLESS FROM AND AGAINST ANY AND ALL CLAIMS, DAMAGES, LOSSES, EXPENSES, COSTS AND LIABILITIES (COLLECTIVELY, "CLAIMS") ARISING OUT OF OR IN CONNECTION WITH ANY HANDLING OR USE OF THE TAPAS BOARD THAT IS NOT IN ACCORDANCE WITH THESE TERMS. THIS OBLIGATION SHALL APPLY WHETHER CLAIMS ARISE UNDER STATUTE, REGULATION, OR THE LAW OF TORT, CONTRACT OR ANY OTHER LEGAL THEORY, AND EVEN IF THE TAPAS BOARD FAILS TO PERFORM AS DESCRIBED OR EXPECTED.

8 Limitations on Damages and Liability:

8.1 General Limitations. IN NO EVENT SHALL SIEMENS BE LIABLE FOR ANY SPECIAL, , INDIRECT, , INCIDENTAL OR CONSEQUENTIAL, DAMAGES IN CONNECTION WITH OR ARISING OUT OF THESE TERMS OR THE USE OF THE TAPAS BOARDS. EXCLUDED DAMAGES INCLUDE, BUT ARE NOT LIMITED TO, COST OF REMOVAL OR REINSTALLATION, ANCILLARY COSTS TO THE PROCUREMENT OF SUBSTITUTE GOODS, RETESTING, OUTSIDE COMPUTER TIME, LABOR COSTS, LOSS OF GOODWILL, LOSS OF PROFITS, LOSS OF SAVINGS, LOSS OF USE, LOSS OF DATA, OR BUSINESS INTERRUPTION. NO CLAIM, SUIT OR ACTION SHALL BE BROUGHT AGAINST SIEMENS MORE THAN TWELVE (12) MONTHS AFTER THE EVENT THAT GAVE RISE TO THE CAUSE OF ACTION HAS OCCURRED.

8.2 Specific Limitations. IN NO EVENT SHALL SIEMENS’ AGGREGATE LIABILITY FROM ANY USE OF A TAPAS BOARD PROVIDED HEREUNDER, INCLUDING FROM ANY WARRANTY, INDEMITY OR OTHER OBLIGATION ARISING OUT OF OR IN CONNECTION WITH THESE TERMS EXCEED 1 EURO. THE EXISTENCE OF MORE THAN ONE CLAIM SHALL NOT ENLARGE OR EXTEND THIS LIMIT.

8.3 No limitation contained in this Section 8 or elsewhere in these Terms on the liability of Siemens shall apply to the extent that such liability is mandatory under the applicable law

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