GE GFK-2193A user manual Network Baud Rate, Removing the Module from the Rack

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Note: For proper network termination, it is essential that the terminating devices maintain power. Power is provided by the device on Pin 6 and Ground on Pin 5. If power is lost to either terminating device, the network may not operate correctly. Generally, the lone network master device is one of the terminating devices. Therefore, a loss of power to the network master renders the network inoperable anyway. The other terminating device may be a critical slave device, which must maintain power, or a separately powered, stand-alone terminator. These stand-alone devices are commercially available.

VP (6)

Ru = 390 Ohms

RxD/TxD-P (3)

Rt = 220 Ohms

RxD/TxD-N (8)

Rd = 390 Ohms

DGND (5)

Figure 2-1. Bus Termination for Type A Cable in Accordance to PROFIBUS Specifications

In addition to the termination shown above, the following compensation should be added for 12 Mbit bus technology:

 

9

5

 

110nH

4

110nH

8

To/from

3

To/from

another

7

another

 

node

6

2

node

110nH

1

110nH

 

 

 

Network Baud Rate

The master configures the appropriate network baud rate for each station on the network. Typical baud rate values are: 9.6KBps; 19.2KBps; 45.45KBps; 93.75KBps; 187.5KBps; 500KBps; 1.5MBps; 3MBps; 6MBps; or 12MBps. For details on using the configuration software, refer to chapter 3.

Removing the Module from the Rack

The following procedure describes how to remove the GE Fanuc Series 90-30 master:

1.Turn off power to rack.

2.Remove all cabling from the module.

3.Press the release latch located on the bottom of the module and slowly raise the module from the bottom until it comes out of the slot.

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Series 90™-30 PROFIBUS Slave Module User's Manual – August 2004

GFK-2193A

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Contents Programmable Control Products GE Fanuc AutomationCimstar As Used in this PublicationContents Contents Profibus Information Overview and SpecificationsRelated Publications Key IC693PBS201 Slave Module SpecificationsProfibus Network Overview Profibus BasicsBus Communication Amount of Data Transmission Duration Frequency Network TopologyPin No Signal Designation Network ConnectorsReviewing System Power Requirements InstallationInstalling the Profibus Module in the PLC Rack Network Segment Length Connecting the Slave to the Profibus NetworkBaud Rate Line a Line B Glass Fiber Distance Max 1 Network Termination Profibus Cable TypesRemoving the Module from the Rack Network Baud RateAdding a Profibus Slave Module to the Hardware Configuration ConfigurationSettings Tab Configuring a Profibus Slave ModuleProfibus Slave Module’s Input Data Area Parameters Input Data Area TabOutput Data Area Tab Power Consumption TabProfibus Slave Module LED Indicators Status and DiagnosticsColor Indication Status/Firmware ID Array Network Parameter ErrorsWord 1 Slave Status Word Commreq Ladder Instruction Communication RequestsSysid Examples Slot Word ValuePLC Operation of the Communications RequestCorrective Actions for Commreq Errors Error Detection and HandlingCommreq Programming Requirements and Recommendations Value Description Commreq Status WordProfibus Slave Module Commreq Reference Get Slave Status Command Block Basic ExampleGet Slave Status Commreq Memory TypesBit Meaning Value Get Slave Status Reply Data FormatNetwork Parameter Errors Read Module Header Read Module Header Command Block Basic ExampleValue Type Dec Hex Description Read Module Header Reply Data Format for Slave Clear Counters Clear Counters Command Block Basic ExampleClear Counters Reply Data Format Index

GFK-2193A specifications

The GE GFK-2193A is a versatile and powerful programmable logic controller (PLC) designed for industrial automation applications. With its robust construction and advanced features, the GFK-2193A is ideal for industries that demand high reliability and flexibility in their control systems.

One of the standout features of the GE GFK-2193A is its processing power. It is equipped with a high-speed CPU that can handle complex tasks and large volumes of data efficiently. This allows for real-time decision-making and control, making it suitable for critical applications where timing and accuracy are paramount. The processing speed is complemented by a multitasking capability, enabling the controller to manage multiple processes simultaneously without a drop in performance.

The GFK-2193A also boasts an extensive range of input and output options. It supports a variety of digital and analog I/O modules, allowing for seamless integration with different sensors, actuators, and devices. This flexibility makes it easy to customize the system according to specific operational needs, whether it's for small-scale automation or extensive industrial setups.

In terms of communication capabilities, the GE GFK-2193A includes support for multiple industrial communication protocols. This includes Ethernet, Modbus, and Profibus, among others, ensuring compatibility with a wide array of devices and systems. The controller's ability to communicate effectively helps facilitate data exchange, enabling better coordination and monitoring across different components of an automation system.

Another significant feature of the GE GFK-2193A is its programming environment. It utilizes the popular Ladder Logic programming language, which is widely regarded for its ease of use and efficiency. Additionally, the controller supports other programming languages, like Function Block Diagram and Structured Text, providing users with the flexibility to choose the most suitable method for their application.

The durability of the GFK-2193A is another remarkable characteristic. Designed to withstand harsh industrial environments, it features robust housing and components, making it resistant to dust, moisture, and temperature fluctuations. This ensures long-lasting performance with minimal maintenance needs, enhancing overall operational efficiency.

In summary, the GE GFK-2193A is a comprehensive solution for industrial automation that combines processing power, flexibility in I/O configurations, advanced communication capabilities, and a user-friendly programming environment. Its robust construction ensures reliability even in challenging conditions, making it a trusted choice for industries looking to enhance their automation processes.