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UM0933

Safety and operating instructions

Doc ID 17386 Rev 1

7/16

In any case, avoid contact with metallic parts during welding and for some minutes after.
The welding process creates high temperatures to fuse the metal and therefore there is a
risk of serious burns.

Do not leave the rod unattended just after the welding operation. The tip of the rod remains
incandescent for some minutes and can be a cause of fire, damage to the environment, or
personal harm.

The welding process starts by putting the rod in contact with the metal sample connected to
the negative output through the clamp, supplied by the positive output of the board. Do not
directly touch the rod or the metal piece, the output voltage, at open load, can cause electric
shock.

An AC which is insulated and protected against overload and short-circuit is preferable to be
used during the evaluation test of the 2.5 kW/135 A welding machine.

In case of a resistive and dissipative dummy load, attention should be paid to the
temperature that the load could reach. The required equipment must be provided in order to
avoid hot surfaces and fire risk during the tests (fan, water cooled load, etc.).

Note:

Do not touch the board and its components after disconnection from the voltage supply, as
several parts and power terminals, which may contain energized capacitors, need to be
allowed to discharge.

2.3 Hardware

layout

Figure 2.

2.5 kW/135 A welding machine STEVAL-ISW001V1 top view

The main input connector can be seen on the left-hand side in the image, near the fuse
connector. Connect a sinusoidal supply voltage with an amplitude in the range of between
185 VAC

rms

to 265 VAC

rms

or a DC voltage between 310 Vdc and 375 Vdc. The power

source must be able to supply the power required by the system, according to the welding
current required on the output. The two output connectors are present on the right-hand side
(close to the output free air inductor). On the centre of the board the ferrite high frequency
power transformer, made up of the double switch forward converter, can be found. The two
big heatsinks on the left-hand side are sized to allow power dissipation of the four power

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Содержание STEVAL-ISW001V1

Страница 1: ...where the robustness efficiency of the silicon part is the key point for a reliable system The whole system is made up of two boards A power board where all the power devices involved in the power co...

Страница 2: ...allation 5 2 2 1 Electronic connection 6 2 2 2 2 5 kW 135 A welding machine demonstration setup 6 2 3 Hardware layout 7 2 4 Environmental and equipment considerations 8 2 5 2 5 kW 135 A welding machin...

Страница 3: ...3 16 List of figures Figure 1 Typical low end welding machine topology 1 Figure 2 2 5 kW 135 A welding machine STEVAL ISW001V1 top view 7 Figure 3 Power board schematic diagram 13 Figure 4 Control bo...

Страница 4: ...er delivered and the current level present on many parts of the board Also the rectangular shape of the board and the position of the magnetic silicon devices were considered in order to guarantee a s...

Страница 5: ...ed only in a power laboratory and only by engineers and technicians who are experienced in power electronics technology and under the proper protection STMicroelectronics is not responsible for the sa...

Страница 6: ...From this assuming a welding current of 100 A is imposed the output of the system is about 24 V The calculation of the equivalent resistive dummy load is Equation 1 A resistor capable of dissipating t...

Страница 7: ...to the temperature that the load could reach The required equipment must be provided in order to avoid hot surfaces and fire risk during the tests fan water cooled load etc Note Do not touch the board...

Страница 8: ...testing on a resistive dissipative dummy load the STEVAL ISW001V1 must only be used in a power laboratory equipped with a ventilation system or smoke extractor fan system The high voltage involved in...

Страница 9: ...in the range between 185 Vrms to 265 Vrms or with a DC voltage between 310 Vdc and 375 Vdc The power source must be able to supply the power required by the system according to the welding current set...

Страница 10: ...een implemented The current on the primary side of the insulation transformer measured by the current transformer on the power board after a partition through R48 and R49 is connected to pin 6 Pin 6 C...

Страница 11: ...tion can be obtained by acquiring the voltage reflected to the output inductor and integrating this information For a more detailed explanation and mathematical model see the AN3200 application note d...

Страница 12: ...be IGBT or power MOSFET Only some small modifications to the value of the gate resistor must be carried out when moving from IGBT to power MOSFET use The demonstration board comes with an IGBT STGW35H...

Страница 13: ...U 0 9 3 U 0 9 3 2 2 U 6 U 6 3 6 6 4 6 54 6 N 9 N 9 N V N V 2 2 7 2 2 7 U 0OLIESTERE U 0OLIESTERE 1 34 7 7 1 34 7 7 K 2 K 2 3403 7 3403 7 48 MAGNETICA 48 MAGNETICA X X X Y Y Y 2 OHM W 2 OHM W 0ROBLE U...

Страница 14: ...INV COMP NONINV COMP 6CC NONINV OP INV OP OUT OP 6REF ATHODE OUT OP INV OP NONINV OP 6CC NONINV COMP INV COMP OUT COMP 2 K 2 K 2 K 2 K 2 K 2 K 2 K 2 K 2 K 2 K 3 3 SYNC OSC OUT 4 24 3 3OFT START COMP...

Страница 15: ...UM0933 Revision history Doc ID 17386 Rev 1 15 16 4 Revision history Table 1 Document revision history Date Revision Changes 07 Sep 2010 1 Initial release www BDTIC com ST...

Страница 16: ...OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT UNLESS EXPRES...

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