ABB S-073N 3BHB009884R0021 Power unit ACS 6000 System
ABB S-073N 3BHB009884R0021 Power unit ACS 6000 System
The paper will describe the specification, design,
production and test of a fully controllable solid state on-off
switch in IGCT-technology. (IGCT = Integrated Gate
Commutated Thyristor) This type of switches is often used for
linear particle beam accelerators and successful in use in
several Institutes and National Laboratories to drive long pulse
Klystron Modulators. The described solid state switch is rated
for 4.4 kVdc, 1850 A peak, 2 ms pulse and 2 Hz repetition rate
under normal conditions and can turn-off 3700 A under fault
conditions and a max. peak voltage of 9 kV. The IGCT’s
used are commercially available devices and have a 91 mm
silicon wafer with a monolithic integrated freewheeling diode.
To reach a high reliability 3 devices of 4.5 kV blocking
voltage are used in series connection which gives the switch
one redundant device and a large silicon area to enable a high
switch-off current in case of klystron arcing. The rated
current of 1850 A is switched continuously at 2 Hz, and
therefore air convection cooling can be used. The described
switch comes as ready-to-use design including isolated
auxiliary power supply, optical triggering and optical
feedback.
The paper will describe the specification, design,
production and test of a fully controllable solid state on-off
switch in IGCT-technology. (IGCT = Integrated Gate
Commutated Thyristor) This type of switches is often used for
linear particle beam accelerators and successful in use in
several Institutes and National Laboratories to drive long pulse
Klystron Modulators. The described solid state switch is rated
for 4.4 kVdc, 1850 A peak, 2 ms pulse and 2 Hz repetition rate
under normal conditions and can turn-off 3700 A under fault
conditions and a max. peak voltage of 9 kV. The IGCT’s
used are commercially available devices and have a 91 mm
silicon wafer with a monolithic integrated freewheeling diode.
To reach a high reliability 3 devices of 4.5 kV blocking
voltage are used in series connection which gives the switch
one redundant device and a large silicon area to enable a high
switch-off current in case of klystron arcing. The rated
current of 1850 A is switched continuously at 2 Hz, and
therefore air convection cooling can be used. The described
switch comes as ready-to-use design including isolated
auxiliary power supply, optical triggering and optical
feedback.
FOXBORO Order number SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA model
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Replacing an electrical equipment unit in a plant is a complex task that requires careful planning and execution to ensure safety and minimize downtime. Here is a general step-by-step guide on how to replace electrical equipment in a plant:
Pre-Planning:
Safety Precautions:
Shutdown Procedures:
Disconnection:
Removal of Existing Equipment:
Installation of New Equipment:
Testing and Commissioning:
Documentation:
Training:
Startup:
Throughout the process, it’s important to work closely with a team that includes electrical engineers, technicians, and maintenance staff. Communication is key to a successful equipment replacement. Additionally, always adhere to local electrical codes and standards to ensure compliance and safety. If the task is beyond the expertise of in-house staff, consider hiring a professional contractor experienced in industrial electrical work.
Obtaining industrial automation programming software typically involves the following steps:
Identify Your Needs:
Research Software Options:
Contact Equipment Manufacturers:
Purchase or Download:
Academic or Evaluation Versions:
Open Source Options:
Licensing:
Training and Support:
Legal and Compliance:
Installation and Setup:
Here are some common ways to obtain industrial automation programming software:
Remember to keep your software updated to benefit from the latest features and security patches. Also, ensure that you have the necessary backup and recovery procedures in place to protect your programming work.
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