FC-SSWM01 Redundant power supply for C300

Product parameters

Model: FC-SSWM01

Brand: Honeywell

Size: 10cm x 10cm x 30cm

Weight: 1.2KG

Color: White Black

Working voltage: 5V

Working temperature: -10 ℃ to 50 ℃

Communication interface: RS232, RS485, CAN

Product specifications

Support for MODBUS protocol

Support hardware flow control

Using high-speed CMOS devices

Support for data caching

application area

FC-SSWM01 is mainly used in the field of industrial automation, such as DCS PLCs, industrial controllers, robots, etc.

FC-SSWM01 is mainly used in steel manufacturing, thermal power generation, hydroelectric power generation, glass manufacturing, paper mills, cement factories, petrochemicals

Chemical fiber, pharmaceutical manufacturing, rubber, plastics, ferrous metal food, machine tools, specialized equipment, transportation vehicles, mechanical equipment

Electronic communication equipment, instruments and beverages, tobacco processing, clothing, textiles, leather, wood processing, furniture, printing, etc

Model: FC-SSWM01 Brand: ABB Archive Function: Communication Function Product Certification: Qualified

Working voltage: 24V Internal variable: No pattern Type: Vector diagram Applicable range: Industrial type

Number of screens: 4 Imported or not: Yes Customized for processing: No

Alarm function: Product name: Module Input voltage: 24V Rated current: 5A

Special service: including postage. Remarks: one-year warranty. Operation method: remote control

Applicable motor: servo motor system memory: 8MB Display color: 99.9 color gamut

Power voltage: 220V Input method: Current Input Material code: 65218

Communication interface: HDMI interface Working temperature: 60 Material number 26854 Other functions Analog communication

Output frequency: 50HZ Rated voltage: 24V Alarm type: Light alarm

Disconnect capacity: 0.01 Vector graph support: Minimum number of packages supported: 1

Display type: IPS USB interface quantity: 2 interfaces Memory card slot: 2

Panel protection level: 3 Memory expansion capacity: 128MB User script support: supported

Speed response frequency: 1MS Working environment temperature: -40 to 100 Insulation withstand voltage test: Passed

Third party communication products: ABB controllers available for sale in: nationwide

Product Instructions

Please install FC-SSWM01 correctly on the device and connect the communication interface cable properly.

Please refer to the user manual for operating FC-SSWM01 to ensure proper use.

Product Introduction

FC-SSWM01 is a high-performance industrial automation communication module that uses high-speed CMOS devices, supports MODBUS protocol, and supports
hardware flow control. It is an ideal choice in the field of industrial automation.

user experience

Secondly, if power system engineers are to consider the convenience and speed of using the product in the future, operability needs to be improved while ensuring stability.
This requires a simple self-service system and an operation interface with good visual effects that can meet the needs of users. Some operating habits and other aspects

* cut costs

Furthermore, since there are many nodes in the power system, the same product needs to be deployed on many nodes. Then when the quantity of required products increases,
cost issues will inevitably be involved. How to solve the research and development, construction and installation of products and better reduce operating expenses is also a major issue that ABB needs to consider.

Implementation of communication between Omron vision system and ABB industrial robot

introduction

In modern production processes, vision systems are often used to measure and identify products, and then the results are transmitted to industrial robots for work
through communications . In this process, communication settings are very important. This article analyzes the communication implementation process between the Omron
FH-L550 vision system and ABB industrial robots. The main task is to enable the vision system to provide data detection results for ABB industrial robots, and the industrial robots
perform related operations based on the data results. This article mainly discusses the entire process of visual system communication transmission implementation.

1Ethernet-based communication settings in vision software

The main communication methods of Omron FH-L550 vision system controller are as follows [2], namely: parallel communication, PLCLINK communication, Ethernet
communication, EtherCAT communication, and protocol-free communication. These five communication methods have their own characteristics in the communication process.
In modern equipment, Ethernet communication
(Ethernet communication) is the most common, so this article uses the Ethernet communication method as an example to analyze and explain.

First, select the “Tools” option in the main interface, select the “System Settings” menu (Figure 1), after entering the “System Settings” menu, click the “Startup Settings” option,
and select the “Communication Module” tab (Figure 2 ), after completing the above settings, return to the main interface to save the settings (Figure 3). Finally, select the function
menu to perform system restart settings, and wait for the system to complete the restart before proceeding to the next step.

After the system restarts, click the “System Settings” menu again and select the “Ethernet (No Protocol (UDP))” option (Figure 4). In this option, there will be parameter settings
such as IP address and port. What needs to be noted here are the two IP address parameters. The parameters in “Address Setting 2” need to be filled in. The information that needs
to be filled in includes the IP address of the vision controller, subnet mask, default gateway and DNS server.
In the port number setting of “Input/Output Settings” at the bottom of the menu, set the port number for data input with the sensor controller. Note that the port number should
be the same as the host side, and finally complete the settings and corresponding data saving work.

2ABB industrial robot communication settings

First, configure the WAN port IP address for the ABB industrial robot. Select the control panel in the teach pendant, then select configuration, then select communication in
the theme, click IPSetting, set the IP information and click “Change” to save the IP information.

Next, use the SocketCreate robot command to create a new socket using the streaming protocol TCP/IP and assign it to the corresponding variable (Figure 5). Then
use the SocketConnect command to connect the socket to the remote computer. After the communication connection is completed, it is necessary to send and receive
information from the visual system. To send information, use the SocketSend instruction to send data instructions to the remote computer. After the vision system collects
information and makes judgments, the industrial robot system will receive data from the remote computer. The data reception is completed using the
SocketReceive instruction. This instruction stores the data in the corresponding string variable while receiving the data. Useful information needs to be extracted from the
received data information, which requires StrPart to find the specified character position instruction, extract the data at the specified position from the string, and assign the
result to a new string variable. Finally, when the socket connection is not in use, use SocketCloSe to close it.

3BHE041465P201 ABB | PLC controller module
3BHE022287R0101 ABB | Universal PLC module
3BHE023681R0103 ABB | Device network main module
3BHE023681R0102 ABB | Servo drive module
3BHE020018R0101 ABB | System module
3BHE019958R0101/3BHE019959P201 ABB | Motherboard processor module
3BHE029110R0111 ABB | Excitation main I/O board
UAD154A 3BHE026866R0101 ABB | PLC control system spare parts
AC 800PEC UAD149 A0011 ABB | Excitation main I/O board
UAD142A01 3BHE012551R0001 ABB | PLC control system spare parts
UAC326AE HIEE401481R0001 ABB | Excitation main I/O board
UAC318AE HIEE300744R1 ABB | Field input/output module
SR511 3BSE000863R1 ABB | Network interface module
SPCJ4D34-AA  ABB | Servo control system
SPAD346C ABB | Servo control system
SPA-ZC22 ABB | Gas turbine clamp
SNAT634PAC ABB | Distributed IO controller
SNAT617CHC ABB | Input/output module
SNAT609TAI ABB | Relay protection module
SNAT604IFS ABB | Card module
SNAT603CNT 61007041 ABB | Robot multifunctional module
SNAT602TAC ABB | Analog output module
SK827005  SK827100-AS ABB | Microcircuit breaker
SK616001-A  ABB | Analog output module
SE96920414 YPK112A ABB | High speed counting module
SDCS-AMC-CLAS2  ABB | PLC input module
SC610 3BSE001552R1 ABB | CPU processor
SC560 3BSE008105R1 ABB | Submodule Carrier incl local CPU
SC540 3BSE006096R1 ABB | CPU module
SC520 3BSE003816R1 ABB | Analog input card
SC513 ABB | LAN module
SC510 3BSE003832R1 ABB | Switching module
SB512 ABB | Communication processor
SAFT183VMC ABB | PLC control system
SAFT110 ABB | Industrial control module
SAFT103 ABB | Industrial control PLC module
PM783F 3BDH000364R0001 ABB | Control processing module
3BSE050091R65 ABB | Ethernet module
3BSE030369R0020 ABB | Tension control PFEA112
3BSE028140R0065 ABB | Tension controller
3BHE037649R0101 ABB | Industrial control module
3BHE025335R0121 ABB | CP Power electronic module
3BHE019633R0101 ABB | Power system module
3BHE042816R0101 ABB | System power module
3BHE032025R1101 ABB | Central processing unit
3BHE025541R0101 ABB | Robot system spare parts
3BHE025541R0101 ABB | Processor unit
NPCT-01C ABB | Channel digital input
NMTU-21C 3BSE017429R1 ABB | Thermal resistance power module