Siemens 3RT1975-6A Contactor Accessories

Brand:
Series:
3RT1
Installation Location:
-
Control Coil Voltage:
-
Auxiliary Contacts:
-
Product Type:
Main contact
Model:
3RT1975-6A
Order Number:
3RT19756A
Description:
Siemens contactor accessories 3RT1975-6A, main contact

Product parameters

Product attributes Attribute value Filter product attributes
Brand: Siemens
Series: 3RT1
Installation Location: -
Control Coil Voltage: -
Auxiliary Contacts: -
Product Type: Main contact
Products with the same attribute : 0
Show details

Series Overview

Series Overview

3RT1 AC contactors

Compliance with Standards
DC and AC operation, complying with IEC 60947, EN 60947 (VDE 0660) standards.
Design
3RT1 contactors are suitable for any climatic environment conditions, with a safety touch - protection function, meeting the requirements of Part 100 of DIN VDE 0106.
3RT1 contactors can use screw - wiring or crimped - lug wiring methods.
The basic unit of S00 - sized contactors has auxiliary contacts containing one group of auxiliary contacts. The basic units from S0 to S3 sizes consist of main - circuit contacts.
All basic units of contactors can be expanded with auxiliary contact modules. A contact group with 2 normally open contacts and 2 normally closed contacts (terminal design conforming to EN 50012) can be used for all specifications of S0 - sized contactors; the auxiliary contact module can be disassembled.
In addition, for S00 and S0 sizes, the contact group can be fixedly installed with an auxiliary contact module (2 normally open + 2 normally closed, conforming to EN 50012 standard). These types conform to Swiss special regulations (SUVA) and are additionally marked with red nameplates for distinction externally.
S3 - sized contactors are equipped with removable terminal boxes for main - circuit connections. Therefore, it can be connected to a ring - shaped cable lug or terminal post.
Used for starting IEC 6047/DIN EN 60947 (VDE 0660) motors, contactors with screw terminals can be quickly, concisely, and clearly connected with circuit breakers and/or overload relays using connection components to form a circuit.
Auxiliary contacts can be installed on the contactor body.

3RT1 Special Contactors

3RT10 Intermediate Relays (Interfaces) for Switching Motors
DC operation, complying with IEC 60 947, EN 60 947 (VDE 0660) standards.
Used for switching motors, 3RT10 intermediate relays are specially made for the special requirements of electronic controllers. The intermediate relays have low power consumption, a wide allowable fluctuation range of coil voltage, and integrated surge - suppression protectors for suppressing surges (e.g., 3RT10 1...1HB4 and 3RT101...MB4, OKTO).
Auxiliary switching devices cannot be installed on the 3RT10 1... intermediate relay of S00 size; two single - pole auxiliary switching devices can be installed on the 3RT10 2... intermediate relay of S0 size.
3RT1 contactors can use screw - wiring or crimped - lug wiring methods.
The basic unit of S00 - sized contactors has auxiliary contacts containing one group of auxiliary contacts. The basic units from S0 to S3 sizes consist of main - circuit contacts.
All basic units of contactors can be expanded with auxiliary contact modules. A contact group with 2 normally open contacts and 2 normally closed contacts (terminal design conforming to EN 50012) can be used for all specifications of S0 - sized contactors; the auxiliary contact module can be disassembled.
In addition, for S00 and S0 sizes, the contact group can be fixedly installed with an auxiliary contact module (2 normally open + 2 normally closed, conforming to EN 50012 standard). These types conform to Swiss special regulations (SUVA) and are additionally marked with red nameplates for distinction externally.
S3 - sized contactors are equipped with removable terminal boxes for main - circuit connections. Therefore, it can be connected to a ring - shaped cable lug or terminal post.
Used for starting IEC 6047/DIN EN 60947 (VDE 0660) motors, contactors with screw terminals can be quickly, concisely, and clearly connected with circuit breakers and/or overload relays using connection components to form a circuit.
Auxiliary contacts can be installed on the contactor body.

3RT1 Contactors for Railway Use (3RT10 Motor Contactors, 5.5...45kW)

DC Operation
Meeting the requirements of IEC 60947 - 4 - 1, EN 60947 - 4 - 1 (VDE 0660, Part 102), IEC 60077 - 1 and IEC 60077 - 2.
Contactors comply with the finger - safety protection function of EN 50274 (except: S0 to S3 series resistors). They use cage - type terminals and screw terminals. All terminals of S00 - sized contactors are in the form of cage - type terminals. The auxiliary bodies and coil terminals of S0 to S3 sizes are all cage - type terminals.
Ambient Temperature
The allowable ambient temperature for operating these contactors is - 40°C to + 70°C (within the entire coil operating range).
Continuous operation at a temperature > + 55°C will reduce mechanical life, current - carrying capacity of current - conducting paths, and operating frequency.
Application
Suitable for use in devices with large control voltage changes or high ambient temperatures, such as railway applications under harsh climate conditions and applications in rolling mills.
Control and Auxiliary Circuits
The coil of the contactor has an expansion tolerance of 0.7 to 1.25 x US and is equipped with a variable resistor for surge - voltage suppression as a standard accessory. Therefore, compared with standard contactors, the opening time is longer by 2–5 ms.
3RT10...0L A0
The DC solenoid system of the contactor must be modified by adding a series resistor (changed to a holding coil).
S00 - sized contactors provide a pre - wired plug - in module containing a series resistor. The variable resistor is integrated. In addition, a 4 - pole auxiliary contact block (conforming to EN 50005) can be installed.
S0 to S3 Sizes
S0 to S3 - sized contactors are pre - equipped with an auxiliary contact block with 2 normally open + 2 normally closed contacts on the front. A separate series resistor is installed on a 35 mm standard mounting rail from the side near the contactor. It is equipped with connection wires for installing the contactor. Each contactor is affixed with a wiring diagram showing the terminal status. To make the series resistor play a role, a normally closed auxiliary contact is required. The selection and order data indicate the number of additional unallocated auxiliary contacts, and the number of auxiliary contacts of S00 - sized contactors can be expanded.
Installation
At an ambient temperature not exceeding 70°C, S00 - sized contactors and contactor relays are allowed to be installed side by side. Due to the pre - made connection wires, the resistor modules of S0 to S3 - sized contactors must be installed on the left side of the contactor.
3RT10 17 - 2K4., 3RT10 2...3K40
These contactors have an expanded operating voltage range of 0.7 to 1.25 x US; variable resistors are marked on the coils.
There is no need to add a series resistor additionally.
Note:
  • Specification S00: Cannot install auxiliary contact blocks.
  • Specification S0: Can install two single - pole auxiliary contact blocks.
When installing them side by side at a temperature of > 60°C and <= 70°C, a 10 mm spacing needs to be reserved.
3RT10 Contactors with Contactor Control Units, Expansion Tolerance
Control and Auxiliary Circuits
The coil of the contactor has an expansion tolerance of 0.7 to 1.25 x US and is equipped with a variable resistor for surge - voltage suppression as a standard accessory. Therefore, compared with standard contactors, the opening time is longer by 2 ms to 5 ms.
3RT10...X - A0 - 0LA2
These contactors are energized through a series control circuit, ensuring that within an ambient temperature of 70°C, the coil has an operating voltage range of 0.7 to 1.25 x US. They are supplied as a complete independent unit, with a built - in contactor control unit. The integrated variable resistor is used to reduce the opening surge in the coil.
Auxiliary contact blocks can be installed like those of standard contactors.
Installation
At an ambient temperature not exceeding 70°C, S0 to S3 - sized contactors are allowed to be installed side by side.
Ambient Temperature
The allowable ambient temperature for operating these contactors is - 40°C to + 70°C (within the entire coil operating range). Continuous operation at a temperature > + 55°C will reduce mechanical life, current - carrying capacity of current - conducting paths, and operating frequency.
Dimensions
Due to the built - in contactor control unit, the height of S0 to S3 contactors is increased by 34 mm.

Capacitor Contactors

3RT16 Capacitor Contactors, complying with IEC 60947, EN 60947 (VDE 0660) standards.
These contactors are suitable for use under any weather conditions. They have the finger - safety protection function conforming to EN 50274. 3RT16 capacitor - switching contactors are special models of S00 to S3 SIRIUS contactors. The capacitor is pre - charged through the installed pre - normally open contacts and resistor; then the main contacts will close. This can prevent inrush currents in the power system and only allow the capacitor to be connected when the contacts are de - energized.
Only discharged contactor contacts are allowed to use capacitor - switching contactors for connection.
The auxiliary contact block clamped to the capacitor - switching contactor contains three pre - normally open contacts. There is a standard normally closed contact in the S00 - sized contactor, and an unallocated standard normally open contact in the S0 and S3 - sized contactors. The S00 - sized contactor also contains another unallocated normally open contact in the body.
In addition, a 2 - pole auxiliary contact block (2 normally open, 2 normally closed or 1 normally open + 1 normally closed type) can be installed on the side of 3RT16 47 electrical - switching contactors; the model is 3RH21 19 - 1EA. The auxiliary contacts installed for 3RT16 17 and 3RT16 27 are non - expandable.

Rachel

Industrial Control Sales Specialist: Focuses on delivering high-performance, cost-effective industrial control products. Offers end-to-end one-stop procurement support—covering rapid quotation, streamlined order fulfillment, and responsive after-sales service—to simplify clients’ procurement processes. Email: Anthony@icxsg.com

We offer competitive product pricing. For fast support, send your email, phone, address, and the product model & quantity you want—we’ll reach out quickly!

We typically respond via email within one business day! You can also contact us at Anthony@icxsg.com

Message*
email*
address
File upload:
Attention: Upload file types:. jpg,. png,. jpg,. pdf,. doc,. docx.
Upload file sizes up to 2 MB

Latest Articles

  • This article will focus on two industry giants—Siemens SINAMICS drive series and ebmpapst smart fans—and delve into how they are defining the performance standards for modern industry.
  • In today’s connected manufacturing environment, industrial communication protocols form the backbone of modern automation. They enable devices to exchange data, integrate seamlessly, and support remote monitoring across global networks. For industrial suppliers serving international customers, understanding and implementing mainstream communication standards is crucial for product compatibility and competitiveness.
  • As manufacturing shifts toward high precision, high flexibility, and intelligent automation, traditional motor control methods are no longer sufficient. AC servo drive systems have emerged as the preferred choice for CNC machines, industrial robots, and automated assembly lines. This article provides an in-depth look at AC servo drive principles, selection criteria, and application advantages in precision control environments.
  • In modern industrial automation systems, the motor drive acts as the core power unit that determines the efficiency, stability, and energy consumption of the entire process. For international projects and engineering contractors, selecting the right Variable Frequency Drive (VFD) is crucial. This article provides a detailed and practical guide to understanding how VFDs work, how to select them correctly, and how to avoid common mistakes during implementation.
  • Intelligent motor control systems integrate sensors, controllers, frequency converters, and communication modules into a unified platform capable of real-time decision-making. This shift marks the transition from simple control to smart orchestration—where data, algorithms, and hardware collaborate to maximize performance and reliability.
  • A frequency converter regulates the speed and torque of an AC motor by adjusting the frequency and voltage supplied to it. This not only enhances process control but also significantly reduces power consumption, equipment wear, and system maintenance costs.
  • In any industrial automation setup, power stability determines the overall reliability of control systems. A single voltage drop or surge can cause PLC malfunctions, sensor errors, or complete equipment shutdown. Therefore, designing a stable, efficient, and maintainable industrial power system is a fundamental task for electrical and automation engineers.
  • In the field of industrial automation, Industrial Ethernet has become a cornerstone of efficient communication, replacing many traditional fieldbus systems. Its high speed, flexibility, and openness make it an essential part of smart manufacturing and Industry 4.0. For engineers and plant operators, mastering how to deploy and optimize Industrial Ethernet networks is key to ensuring system stability, reducing downtime, and preparing for digital transformation.
  • In today’s interconnected industrial supply chains, businesses worldwide need reliable access to high-quality HVAC (Heating, Ventilation, Air Conditioning) systems, industrial control equipment, and electronic components—with fast delivery, clear technical support, and flexible sourcing solutions. As an international trade partner operated by APAC HVAC TECH PTE. LTD. and headquartered in Singapore, ICX (icxsg.com) delivers exactly that.
  • As the &quot;first line of defense,&quot; Motor Protection Circuit Breakers (MPCBs) can minimize fault losses through accurate monitoring and rapid circuit interruption. This article provides a comprehensive analysis of MPCBs, covering technical principles, selection methods, installation and maintenance, as well as industry trends, to offer systematic solutions for industrial users.
  • The sequence of low-voltage fuses and low-voltage switches (including circuit breakers) in a circuit depends primarily on the core protection objectives of the circuit, the functional positioning of the equipment, and specific application scenarios; it is not absolutely fixed. The design of &amp;amp;amp;quot;connecting the fuse after the air switch&amp;amp;amp;quot; in machine tool distribution boxes is essentially an optimized protection logic tailored to the special power consumption needs of machine tool equipment, rather than a violation of general principles.
  • In modern industrial electrical systems, the vacuum contactor, as a key control and protection device, plays an extremely important role. With its unique arc-extinguishing method and many excellent performances, it is widely used in various power control scenarios to ensure the reliable operation of power systems. Next, let's deeply explore the working principle, structural composition, application fields and maintenance points of the vacuum contactor.​
  • As a professional engaged in overseas fan procurement, do you often encounter challenges such as difficult working condition adaptation, complex cost accounting, and delayed after-sales response during cross-border procurement? Combining 15 years of experience in serving the global fan market, we have sorted out professional solutions in three core dimensions—selection, cost, and after-sales service—based on the actual needs of overseas procurement, providing you with rigorous and practical procurement references.
  • Have you ever wondered why your home washing machine can &amp;amp;quot;automatically power off after washing clothes&amp;amp;quot;? Or why the factory assembly line can &amp;amp;quot;feed materials first and then start stamping after 3 seconds&amp;amp;quot;? Behind these scenarios of &amp;amp;quot;doing things in a time sequence&amp;amp;quot; lies a key component — the time relay.
  • Please read our Terms and Conditions and this Policy before accessing or using our Services. If you cannot agree with this Policy or the Terms and Conditions, please do not access or use our Services. If you are located in a jurisdiction outside the European Economic Area, by using our Services, you accept the Terms and Conditions and accept our privacy practices described in this Policy.
  • APAC HVAC TECH PTE. LTD. (hereinafter referred to as &amp;quot;we&amp;quot;) is dedicated to safeguarding the privacy and security of your personal information. This Privacy Policy explains how we collect, use, and disclose your personal information when you use our website or purchase our import and export products.
  • As a core control device in industrial automation, the PLC has evolved from an early &amp;amp;amp;quot;relay replacement&amp;amp;amp;quot; to an &amp;amp;amp;quot;industrial nerve center&amp;amp;amp;quot; integrating logic control, motion control, and process control. This article will elaborate on the technical architecture, core functions, application scenarios, and development trends of PLCs, systematically sorting out their technical principles and engineering practice points.
  • The Frame Circuit Breaker, also known as the air circuit breaker (ACB), usually has a steel frame structure, and all components are installed within this frame. It can switch on, carry, and break currents under normal circuit conditions, and also has the ability to switch on, carry for a certain time, and break currents under specified abnormal circuit conditions (such as overload, short circuit, ground fault, etc.)
  • Fans, as key equipment that converts mechanical energy into gas energy, play a vital role in various fields such as industrial production, building ventilation, and energy development. This article will delve into the working principles, classification methods, performance parameters, design essentials, application fields, and future development trends of fans, presenting a comprehensive knowledge system of fan technology to readers.