Siplus S7-300 Ps 305 Power Supply 24 VDC 2A

SIPLUS S7-300 PS 305 -25…+70 °C with conformal coating according to EN 50155 T1 Cat 1 Cl A/B based on 6ES7305-1BA80-0AA0 . Stabilized power supplies Input: 24-110 V DC Output: 24 V DC/2 A

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Description

SIPLUS S7-300 PS 305 -25…+70 °C with conformal coating according to EN 50155 T1 Cat 1 Cl A/B based on 6ES7305-1BA80-0AA0 . Stabilized power supplies Input: 24-110 V DC Output: 24 V DC/2 A6AG13051BA802AA0_datasheet_en

Overview of S7-300

  • The modular mini PLC system for the low and mid-performance ranges
  • With comprehensive range of modules for optimum adaptation to the automation task
  • Flexible use through simple implementation of distributed structures and versatile networking
  • User-friendly handling and uncomplicated design without a fan
  • Can be expanded without problems when the tasks increase
  • Powerful thanks to a range of integrated functions

 

Application of S7-300

SIMATIC S7-300 is the mini PLC system for the lower and medium performance ranges.

The modular and fan-free design, simple implementation of distributed structures, and convenient handling make the SIMATIC S7-300 the cost-effective and user-friendly solution for the most diverse tasks in the low-end and mid performance ranges.

Application areas of the SIMATIC S7-300 include:

  • Special machinery
  • Textile machines
  • Packaging machinery
  • General mechanical equipment manufacture
  • Controller building
  • Machine tool manufacture
  • Installation systems
  • Electrical/electronics industry and the skilled trades

Several performance-graded CPUs and a comprehensive range of modules with a host of user-friendly functions allow you to use only those modules necessary for your application. In the case of task expansions, the controller can be upgraded at any time by means of additional modules.

SIMATIC S7-300 can be used universally:

  • Maximum suitability for industry thanks to high electromagnetic compatibility and high resistance to shock and vibration.

S7-300 PLC Technical specifications

Technical specifications

General technical data

Degree of protection

IP20 according to IEC 60 529

Ambient temperature

 
  • For horizontal installation

0 to 60 °C

  • For vertical installation

0 to 40 °C

Relative humidity

10 to 95%, non-condensing, corresponds to relative humidity (RH), stress level 2 acc. to IEC 61131, Part 2

Air pressure

From 1080 to 795 hPa (corresponds to an altitude of -1000 to +2000 m)

Insulation

 
  • < 50 V

500 V DC test voltage

  • < 150 V

2500 V DC test voltage

  • < 250 V

4000 V DC test voltage

Electromagnetic compatibility

Requirements of the EMC directive; 
interference immunity according to IEC 61000-6-2

  • Pulse-shaped disturbance variables

Test according to: 
Electrostatic discharge according to IEC 61000-4-2, 
burst pulses according to IEC 61000-4-4, 
energy single pulse (surge) according to IEC 61000-4-5,

  • Sinusoidal disturbance variables

Test according to: 
HF irradiation according to IEC 61000-4-3, 
HF decoupling according to IEC 61000-4-6

  • Emission of radio interference

Interference emission according to EN 50081-2

Test according to:
Emitted interference of electromagnetic fields according to EN 55016: 
Limit value class A, (measured at a distance of 10 m)

Interference emission via AC mains according to EN 55011: 
Limit value class A, Group 1

Mechanical strength

 
  • Vibrations

Frequency range 10 Hz ≤ f ≤ 58 Hz

  • Continuous: 0.0375 mm amplitude
  • Occasionally 0.75 mm amplitude

Frequency range 58 Hz ≤ f ≤ 150 Hz

  • Continuous: 0.5 g constant acceleration
  • Occasionally 1 g constant acceleration

Testing according to IEC 60068-2-6
Tested with:

5 Hz ≤ f ≤ 9 Hz, constant amplitude 3.5 mm; 
9 Hz ≤ f ≤ 150 Hz, constant acceleration 1 g;

Duration of oscillation: 10 frequency passes per axis in each direction of the 3 mutually perpendicular axes

  • Shock

Testing according to IEC 60068-2-27
Tested with:

Half-sine wave:
strength of shock 15 g peak value, 11 ms duration;

Shock direction: 3 shocks each in ± direction in each of the 3 mutually vertical axes

 

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