Colour monitor S7

Preset operating modes

i

The picture position and size have been set to optimum values at the factory for the

operating modes listed above. Depending on the screen controller used, it may be

 

necessary to adjust the display position and size. If you need to do so, refer to the

 

section entitled "Changing the monitor settings" below.

 

 

 

 

 

 

 

Horizontal frequency

Refresh rate

 

Screen resolution

 

 

 

 

 

 

31.47 kHz

70.00 Hz

 

720 x 400

 

31.47 kHz

60.00 Hz

 

640 x 480

 

37.86 kHz

72.00 Hz

 

640 x 480

 

37.50 kHz

75.00 Hz

 

640 x 480

 

35.16 kHz

56.25 Hz

 

800 x 600

 

37.88 kHz

60.00 Hz

 

800 x 600

 

48.08 kHz

72.00 Hz

 

800 x 600

 

46.88 kHz

75.00 Hz

 

800 x 600

 

48.36 kHz

60.00 Hz

 

1024 x 768

 

56.48 kHz

70.00 Hz

 

1024 x 768

 

60.02 kHz

75.00 Hz

 

1024 x 768

 

63.98 kHz

60.00 Hz

 

1280 x 1024

 

79.98 kHz

75.00 Hz

 

1280 x 1024

 

 

 

 

 

For ergonomic reasons, a screen resolution of 1280 x 1024 pixels is recommended. Because of the technology used (active matrix) an LCD monitor provides a totally flicker-free picture even with a refresh rate of 60 Hz.

i

From a technical point of view, it is preferable to set a refresh rate of above 60°Hz on an

LCD monitor with a TFT display.

Power supply plug

0 V +12 V DC

16 - English

A26361-K877-Z100-4-5E19

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Siemens S7 manual Preset operating modes, Power supply plug

S7 specifications

The Siemens S7 series represents a cornerstone in the realm of programmable logic controllers (PLCs), developed by Siemens, a leading company in industrial automation. Widely used across various industries, the S7 series offers robust solutions for controlling machinery and processes, thanks to its reliable performance, flexibility, and scalable architecture.

One of the key features of Siemens S7 PLCs is the modularity of their design. Each system can be configured to meet specific application requirements due to the ability to mix various input/output modules, CPUs, and communication processors. This modular approach allows for the customization of systems to suit diverse automation tasks, providing end users with the adaptability required for modern manufacturing environments.

The S7 series encompasses several models, including the S7-1200, S7-300, and S7-1500. The S7-1200 is particularly suited for small to medium-sized applications, offering a compact design and integrated communication interfaces. In contrast, the S7-300 is designed for more extensive and complex control systems, making it ideal for large-scale industrial applications. The S7-1500 stands out with its advanced performance metrics, rich feature set, and high-speed processing capabilities, making it perfect for demanding applications that require real-time control and extensive data handling.

Siemens also emphasizes the importance of communication technologies within the S7 series. With options such as PROFINET, PROFIBUS, and EtherNet/IP, the S7 PLCs can seamlessly integrate into existing automation infrastructures, ensuring smooth data exchange between devices. The incorporation of web-based technologies and cloud connectivity further enables remote monitoring and control of systems, enhancing operational efficiency.

Another notable characteristic of Siemens S7 PLCs is the use of TIA Portal (Totally Integrated Automation Portal), an innovative software platform that simplifies the engineering process. TIA Portal allows users to program, configure, and diagnose their automation devices in a single environment, reducing setup times and improving productivity.

In conclusion, the Siemens S7 series stands out due to its modular design, range of models suitable for various applications, advanced communication technologies, and user-friendly programming software. This combination of features and characteristics makes S7 PLCs a preferred choice for industries seeking reliable and efficient automation solutions. As industrial demands continue to evolve, Siemens S7 PLCs remain at the forefront, adapting to technological advancements and setting benchmarks in the automation field.