FOXBORO-FBM217-RH914TR
FOXBORO FBM217 RH914TR Discrete Input Interface Module
Key features of the FBM217 are:
Thirty-Two (32) discrete inputs
Supports discrete input signals at voltages of:
• 15 to 60Vdc
• 120 V ac/125 V dc
• 240V ac
Single or redundant modules
Compact, rugged design suitable for enclosure in
Class G3 (harsh) environments
Executes the programs for Discrete Input, Ladder
Logic, Pulse Count, and Sequence of Events,
with the configurable options: Input Filter Time
and Fail-Safe Configuration
Various Termination Assemblies (TAs) that
contain:
• High voltage attenuation and optical isolation
for inputs
• External power connection for device
excitation.
The FBM217 Discrete Input Interface Module
provides 32 input channels, each accepting a 2-wire
input from a dc voltage source. Associated
termination assemblies (TAs) provide for discrete
inputs of under 60 V ac, 120 V ac/125 V dc or
240 V ac. The module performs signal conversion
required to interface the electrical input signals from
the field sensors to the Module Fieldbus.
Depending on the type of I/O signal required, the TAs
contain current limiting devices, high voltage
attenuation circuits, optical isolation and external
power source connections.
The module with its associated TA supports the
following discrete inputs:
FBM217 30 V dc, 125 V dc, 120 V ac,
or 240 V ac Voltage monitor or
Contact sense
The module can be used as a single unit, or as a
redundant pair (two FBM217s). When used as a
redundant pair, the modules combine to provide
redundancy at the Fieldbus Module (FBM) level, with
field input signals received from one common
termination assembly though a redundant adapter
affixed to the FBMs' baseplate. The field input current
for redundant modules is doubled. A redundant
digital input block in the control software validates
each input in conjunction with information to/from the
module, and selects the input with the highest quality
for processing in the control strategy.
In a redundant configuration, contact sense power
from each module is diode OR'd together in the
redundant adapter to assure redundant power.
A redundant contact input function block, CINR, is
used for each redundant pair of inputs. The CINR
block handles input reads and initialization logic for
the redundant channels. On each execution cycle of
the CINR block, identical reads are sent to both
modules, fully exercising the fieldbus and the logic
circuitry of each module.
When connected to the appropriate TAs, the
FBM217 module provides functionality formerly
provided by the 100 Series FBM I/O subsystem. TAs
are available which support the functionality of the
100 Series main FBM07A/B, FBM08, FBM20, and
FBM24A/B/C (16 input main FBMs). Expansion TAs
are available for use with these main FBM TAs to
support the functionality of expansion FBM12,
FBM13, FBM21, or FBM25A/B/C (16 input
expansion FBMs).
Invensys Operations Management offers premiere feedwater control systems using the Foxboro® I/A Series® Distributed Control System (DCS). Recent implementations have offered operation philosophy enhancements, improved startup and runtime performance and significant reduction of unplanned unit trip outages. These advanced control techniques allow for less operator required interaction, more time of automatic control - including during start-up and shut-down when most unit trips are caused - making the entire control system more capable of handling process upset conditions along with normal operation.
FEM100
ZCP270
FCP270
FCM2F2
FCM2F4
FCM2F10
FBI100
FBI200A
FBI200
FBM201/b/c/d
FBM202
FMB203/b/c
FBM204
FBM206
FBM207/b/c
FBM208
FBM211
FBM212
FBM214b
FBM215
FBM216b
FBM217
Delivery:
Warranty:
All our products are covered by our own warranty.
Payment method:
Quick Quote: Receive price and availability today!
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.
All new products and surplus products of the industrial intelligence industry, as well as the discontinued products of the original manufacturers. We are not an authorized distributor or representative of any of the above manufacturers (except for brand authorization). The trademarks, brand names and brands appearing in this agreement are the property of their respective manufacturers.
COPYRIGHT© 2003-2025 Copyrighted
Phone(WeChat/Whatsapp)
+086-181 4410 0983
No 1134 Jimei North Road,
Hong Kong Office:
Guan Tang District, Hong Kong,