ABB TC630 AF100 3BSE002253R1 Optisches Modem
ABB TC630 AF100 3BSE002253R1 Optisches Modem
Advant Controller 450 is a large controller for mixed binary, regulatory and supervisory control.
It can be used standing alone, or as an integrated controller in a distributed control system,
communicating with other Advant OCS equipment
• Guidelines on how you can find information in this manual.
• This manual’s relationship to other Advant Controller 450 documents.
• A glossary defining terms frequently used in this manual.
• A product and functional overview. Read this to get an idea of what
the Advant Controller 450 can do and how it works.
I/O is the central process interface for Advant
Controller 400 series process controllers. Thanks to
built-in cablemarshalling facilities and parallel
communication with the host controller, it is the
right choice for centralized I/O systems and
high-speed applications.
The range of process I/O modules is complete,
consisting of general purpose digital and analog
inputs and outputs and special interfaces for special
tasks. These specials include pulse counting,
frequency measuring, positioning, motor speed
control and communication with other controllers.
All I/O modules provide simple interfacing, accurate -
yet fast - control, and easy integration of individual
loops into a comprehensive plant-wide control
and supervision system.
The interface modules connect to the process
through screw terminals on connection units
normally installed inside, at the back of the cabinet.
This solution keeps noise and destructive voltage
spikes away from the central electronics and
provides a neat and tidy process interface that is
easy to maintain.
Analog inputs
±10 V/±20 mA
• 16 ch., differential, 12 bits + sign resolution, CMV ≤ 50 V,
CMRR > 100 dB (at 50 Hz), (DSAI 130A)
0…+10 V/0…+20 mA
• 32 ch. (DSAI 133A1), single-ended, 12 bits resolution
-100…+320/-200…+640°C
• 31 measuring + 1 reference ch., Pt100, 3-wire, 12 bits + sign
resolution, (DSAI 146)
Thermocouples
• 14 measuring, 2 reference + 1 compensation ch., measuring
ranges B, C, E, J, K, R, S and T with grounded or floating output
signals, 12/13 bits + sign resolution, CMV ≤ 16 V,
CMRR > 100 dB (at 50 Hz), (DSAI 155A)
Analog outputs
±10 V/±20 mA
• 8 ch., 12 bits + sign resolution, galvanically isolated, (DSAO 120A)
0…20 mA
• 16 ch., 12 bits resolution, (DSAO 130A)
Analog inputs/outputs
0…+10 V/0…+20 mA
• 8 input ch., single-ended, 12 bits resolution;
• 8 output ch., 12 bits resolution (DSAX 110A)
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Central unit PM 632
Central unit PM 633
Central unit PM 634
Coaxial cable, CI626V01, or similar
for twisted pair line, CI627 max. 2
MasterFieldbus interface, master, CI671 max. 4
MasterFieldbus interface, slave, CI670 max. 4
Interface module carrier SC6102 max. 1
– RCOM/RCOM+ interface, CI532V01, 2-channel5 max. 2
– MODBUS interface, CI532V02, 2-channel5 max. 2
– Siemens interface, CI532V03, 2-channel5 max. 2
32 channels, individual inputs, resolution 12 bits (AI610)
– 16 channels, electrically isolated in groups, resolution 12 bits,
CMV=50V, CMRR>100dB (AI625)
±10V/±20mA
– 16 channels, differential inputs, resolution 12 bits, CMV=100V,
CMRR>80dB (at 16, 33, 50 or 60 Hz) (AI620)
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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:
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