LOGO! installation and wiring

2.3 Wiring LOGO!

Special features of LOGO! 12/24RCE/RC/RCo, LOGO! 24/24o and LOGO! 24C/24Co

Fast digital inputs: I3, I4, I5 and I6:

These versions are also equipped with fast digital inputs (up/down counters, threshold triggers). The restrictions mentioned earlier do not apply to these fast digital inputs.

Note

The fast digital inputs I3, I4, I5 and I6 are the same as in the previous versions 0BA0 to 0BA5; therefore, a circuit program that is written in these versions can be transferred to the 0BA6 or 0BA7 devices with the programming software LOGO!Soft Comfort, without any changes to these features. In contrast to this, you need to modify circuit programs written for a LOGO!...L version (fast digital inputs I11-I12). The fast digital inputs have increased from 2 kHz to 5 kHz with the 0BA6 series.

Expansion modules do not have fast digital inputs.

Analog inputs: I1 and I2, I7 and I8:

The inputs I1, I2, I7 and I8 of LOGO! versions 12/24RCE/RC/RCo, 24/24o and 24C/24Co can be used as either digital inputs or analog inputs. The input mode is defined in the LOGO! circuit program.

The inputs I1, I2, I7 and I8 provide digital inputs, and the inputs AI3, AI4, AI1 and AI2 provide analog inputs, as described in the topic "Constants and connectors - Co (Page 138)". AI3 corresponds to the input terminal I1; AI4 corresponds to I2; AI1 corresponds to I7; AI2 corresponds to I8. The use of AI3 and AI4 is optional. You configure your LOGO! to use either two or four analog inputs as described in topic "Setting the number of AIs in the LOGO! Basic (Page 299)" in Section 5.2.4.

When using inputs I1, I2, I7 and I8 as analog inputs, only the range from 0 to 10 V DC is available.

Connecting a potentiometer to inputs I1, I2, I7 and I8

To allow you to achieve 10 V as the maximum value when you completely turn the potentiometer once, you must connect a series resistor on the potentiometer's input side regardless of the input voltage (see figure below).

We suggest the following sizes of potentiometers and associated series resistors:

Voltage

12V

24V

Potentiometer

Series Resistor

5 kΩ

-

5 k Ω

6.6 k Ω

When using a potentiometer and 10 V input voltage as the maximum value, you must ensure that with a connected input voltage of 24 V, 14 V must release via the series resistor so that a maximum of 10 V are supplied when you turn the potentiometer one full rotation. With a voltage of 12 V, this can be neglected.

Note

The LOGO! AM2 expansion module provides additional analog inputs. The LOGO! AM2 PT100 expansion module provides PT100 inputs.

Always use twisted and shielded cables for analog signals, and keep these as short as possible.

LOGO!

 

Manual, 04/2011, A5E03556174-01

51

Page 51
Image 51
Siemens 6ED1050-1AA00-0BE8 manual Connecting a potentiometer to inputs I1, I2, I7, Voltage Potentiometer

6ED1050-1AA00-0BE8 specifications

The Siemens 6ED1050-1AA00-0BE8 is a versatile and essential component in industrial automation and control systems. Designed for a wide range of applications, this device is part of Siemens' extensive portfolio of automation products, renowned for their reliability and innovative technologies.

One of the key features of the Siemens 6ED1050-1AA00-0BE8 is its ability to serve as a communication processor. This device efficiently manages communication between different components within a control system, aiding seamless data transfer across various protocols. The processor supports both standard and advanced communication protocols, which makes it highly adaptable to various environments.

In terms of technology, the 6ED1050-1AA00-0BE8 utilizes advanced bus systems for effective and efficient data exchange. The integration of these bus systems enhances the capacity for real-time data processing, allowing for quick responses to changes in the operational environment. The device also boasts exceptional performance metrics, ensuring not only speed but also accuracy in communication.

The characteristics of this device are noteworthy. It comes equipped with a user-friendly interface, which facilitates straightforward configuration and programming. This feature is particularly beneficial for technicians and engineers, as it minimizes the time required to set up and start using the processor. Additionally, it is designed to work seamlessly with various Siemens automation systems, ensuring compatibility and scalability.

Another significant aspect of the Siemens 6ED1050-1AA00-0BE8 is its robust design. Built to endure the harsh conditions often found in industrial environments, the device features high-quality materials that enhance its durability and longevity. This resilience ensures that it can withstand vibrations, temperature fluctuations, and other potential challenges present in industrial settings.

Furthermore, the device supports flexible installation options, allowing it to be easily integrated into existing systems without extensive modifications. This flexibility is crucial for modern facilities looking to upgrade or expand their automation capabilities without overhauling their entire infrastructure.

In conclusion, the Siemens 6ED1050-1AA00-0BE8 represents a synthesis of reliability, advanced technology, and user-friendly features tailored for industrial automation. Its high adaptability, robust design, and versatile application make it an invaluable tool for optimizing operations and enhancing communication within industrial control systems, cementing its position as a leader in automation solutions.