Ultimate Guide to Finding the Right Electrical Component Manufacturer

Introduction

 Selecting the right electrical component suppliers is crucial to the success of your electronic project. The components’ quality, reliability, and performance directly impact your final product. This guide equips you with the knowledge to find the perfect electrical component manufacturer.

Key Takeaways:

1. Clearly define your project requirements before searching for components.

2. Research and compare available components based on specifications, quality, and compatibility.

3. Consider electrical parameters, mechanical characteristics, and performance criteria during selection.

4. Partner with a reputable manufacturer for reliable components and future support.

Key Considerations When Selecting Electronic Components

1. Clearly Define Your Project Requirements

The first step is to understand the needs of your project clearly. This includes factors like:

Functionality: What is the purpose of your electronic device?

Operating Environment: Will the device be exposed to extreme temperatures, vibrations, or moisture?

Power Consumption: How much power will the device require?

Production Volume: Are you building a prototype or mass-producing the device?

2. Thoroughly Research Available Components

With clear project goals, research components that fit the bill. Utilize online resources like manufacturer websites, distributors’ catalogs, and industry publications. You can also search on google by searching ‘electronic components manufacturers in India’.

3. Conduct a Thorough Comparison of Components

Take your time with the first component you find. Compare different options based on:

Specifications: Ensure the component’s electrical parameters. These parameters include voltage, current and power. Also, mechanical characteristics such as size and weight must meet your project requirements.

Datasheets: Review the component’s datasheet for detailed specifications, performance curves, and application notes.

Cost: Compare component pricing of different electronic components manufacturers. It is also essential to consider factors like minimum order quantities and potential discounts.

4. Verify Compatibility

Compatibility is crucial. Make sure all components work together in your circuit. Check datasheets for voltage and current limitations. Also, look for any specific operating conditions.

5. Quality and Reliability

Look for electrical components manufacturers with a proven track record. This track record must be of quality and reliability. Certifications like ISO 9001 demonstrate the manufacturer’s commitment to quality control standards.

Electrical Parameters

Electrical parameters define a component’s behavior in a circuit. Here are some key electrical parameters to consider:

Voltage (V): The potential difference between two points in a circuit.

Current (A): The flow of electrical charge through a conductor.

Power (W): The rate at which electrical energy is transferred.

Accuracy: How closely a component’s value matches its specified value.

Response Time: The time it takes for a component to react to a change in input.

Speed: The rate at which a component can process information.

Resolution: The most minor change a component can detect or produce.

Mechanical Characteristics

The physical form factor of a component is necessary. It impacts your project’s size, weight, and assembly. Here’s what to consider regarding mechanical characteristics:

Considering Size Limitations:

Footprint: The area a component occupies on a printed circuit board (PCB).

Height: The vertical space a component takes up.

Choosing Surface Mount Device (SMD) Resistors: The smaller size compared to through-hole components, allowing for denser PCB layouts.

Considerations for Lead-Free Packages (BGA / LLP): Ball grid array (BGA) and Land grid array (LLP) packages offer high pin counts and require specialized assembly techniques.

Impact on Total Weight:

Weight: Consider the weight of the components, especially for portable devices.

Examples of Weight Considerations: For drones and satellites, lightweight components are crucial.

6. Anticipate Future Project Requirements

Think ahead when selecting components and electronic components suppliers in India. Consider the potential for future upgrades, ease of transportation or modifications to your project. Choose components with some headroom in their specifications to accommodate potential growth. Also, a supplier who you can talk to and nearby is always favourable for upcoming future project needs. 

7. Component Testing and Verification

Once you’ve selected your components, it’s vital to verify their performance through testing. Many manufacturers offer development kits or sample components for testing purposes.

Some Other Essential Factors

1. Performance Criteria: Consider factors like noise levels, operating temperature range, and efficiency.

2. Physical Dimensions and Configuration: Choose components that fit within your PCB layout and assembly constraints.

3. Energy Efficiency: Select energy-efficient components to reduce power consumption and heat generation.

Conclusion

Finding the proper electrical component manufacturer is key to your project’s success. Follow these guidelines and consider all the factors discussed. In this way, you can make informed decisions and choose one of the reliable electronic component manufacturers.

Elcom is a leading electromechanical component manufacturer in India. We are committed to providing high-quality, reliable components that meet the needs of various electronic projects. Also, Elcom’s team of experienced engineers assist you in selecting the perfect components for your specific requirements.

Thus, browse our extensive catalog in this website. Otherwise, contact our team to discuss your project needs. We are confident we can be your one-stop shop for all your electromechanical component requirements.

What is a NEMA connector? Functions, Types, and Safety

Until now, you only knew  NEMA as a plug used in many electronic devices, including electric vehicles.

But what exactly is NEMA? And why does it hold such importance in electrical connections and circuits? NEMA, which stands for the National Electrical Manufacturers Association, it is the Organization that sets standards for electrical devices and components in North America. 

NEMA connectors are standardized power connectors primarily used in North America.

These connectors help establish a secure and reliable connection between electrical devices and power sources.

They are designed to uphold compatibility and safety across diverse electrical systems, safeguarding against potential hazards from mismatched or subpar connections.   

Functions and Significance of NEMA Connectors  

NEMA connectors fulfill many vital functions in the domain of electrical connections.

These functions are characterised by their technical precision and the assurance of smooth, reliable, and secure electrical interfacing.  

1. Standardisation:  

Their commitment to standardised designs is at the core of NEMA Power connectors’ functionality.

These designs facilitate the coherent interconnection of devices from various manufacturers, effectively mitigating compatibility issues due to proprietary configurations.

Standardization provides a cohesive environment where devices can interface without impedance, contributing to the efficiency and convenience of the electrical ecosystem.  

2. Electrical Safety:  

One of the most important  functions of NEMA connectors is the meticulous engineering employed to minimize the potential risks associated with electrical systems.

These connectors are carefully crafted to diminish the likelihood of electrical shocks and short circuits.

By adhering to stringent safety standards and leveraging advanced insulation materials,

NEMA Power connectors safeguard end-users and the delicate electronic equipment they interface with, ensuring operational stability and personal protection.  

3. Environmental Resilience:  

Certain NEMA Connectors transcend conventional expectations due to their ability to withstand demanding environmental conditions.

These connectors are specifically designed to endure the rigors of harsh industrial settings and the unpredictable challenges of outdoor applications.

The materials used in their construction are selected for their durability and resistance to moisture, temperature fluctuations, and exposure to various chemical agents.

This adaptability makes these connectors an ideal choice for scenarios where environmental constraints might otherwise jeopardize the integrity of electrical connections.  

4. Ensuring Secure Connections: 

The design philosophy underpinning NEMA connectors is dedicated to fostering a secure and stable connection architecture.

The connectors are crafted with precision engineering, considering contact pressure, alignment, and mechanical resilience.

This design effectively mitigates the prospects of inadvertent disconnections, which can lead to disruptions in power flow and potential hazards. 

Types of NEMA Connectors 

A term that might have been somewhat mysterious until now, NEMA Power connectors come in various types, each assigned a specific number to indicate its configuration and intended use.  

Non-locking NEMA Connectors /  NEMA Straight blades

NEMA LD5-20 

Non-locking NEMA connectors are characterised by their straightforward plug-and-play functionality.

These connectors establish connections through simple insertion and withdrawal without additional locking mechanisms. Here are a few notable types within this category: 

1. NEMA 5-15 (Type B) 

This type is used in our everyday life appliances. It is commonly found in household electrical devices and features a three-pronged plug with two flat parallel blades and a grounding pin. 

2. NEMA 1-15 (Type A) 

Frequently encountered with small appliances and devices, this NEMA connector boasts a two-pronged plug with two flat blades. 

3. NEMA 10-30 (Type G)  

Common in the older dryer and oven connections, this connector’s distinctive configuration comprises three prongs.

4. NEMA LD 5-20

NEMA LD5-20 is one of the major plugs in its origin that has a voltage of 120 volts and is frequently found across domestic and industrial terminals.

It consists of two horizontal blades and a grounding pin and is intended for devices with up to 20 amperes.

Locking NEMA Connectors  /NEMA  twist-lock

NEMA L5-20

Locking NEMA Power connectors goes beyond the basic plug-and-play design, incorporating mechanisms that secure the connection and prevent accidental disengagement.

These connectors find applications in scenarios where stability and reliability are critical. A couple of noteworthy types in this category are: 

1. NEMA L5-30 (Type L) 

Industrial settings often feature this connector. Its locking design prevents unintended plugging. It is engineered to handle higher currents.  

2. NEMA 6-20 (Type E) 

The connector is designed for industrial and commercial applications and incorporates a locking mechanism to ensure a secure connection.

It can manage higher voltages and currents.  

3. NEMA 14-50 (Type D)  

This connector is commonly seen in RV parks and electric vehicle charging stations and is tailored for high-power applications.

It comprises four prongs, including two hot wires, a neutral wire, and a grounding wire. 

4. NEMA L5-20

A heavy-duty NEMA L5-20 industrial outlet that is lockable and supports 125 volts and 20 amps. This is a NEMA L5 type and it is mostly employed within an industry setting.

5. NEMA L6-30

A known 240V, 30A electrical plug which can be locked is called the NEMA L6-30, it is regularly used in an industrial site where the connection should be secured firmly.

Safety Considerations with NEMA Connectors 

Although NEMA connectors are engineered to enhance safety, adhering to certain precautions is necessary.  

1. Proper Wiring: Correct and secure wiring is crucial to prevent overheating and potential electrical hazards.  

2. Regular Inspection: Regularly inspect connectors for signs of wear, damage, or corrosion and promptly replace compromised connectors.  

3. Matching Ratings: Using connectors with voltage and current ratings appropriate for your devices is vital to prevent overloading. Mismatched ratings can lead to equipment malfunction and safety risks.  

Quality Approvals for NEMA connectors by ELCOM International 

NEMA Power connectors adhere to strict quality and safety standards to ensure reliability and performance. Some of the key certifications and approvals include: 

1. UL certification – File E258604 (Electrical Receptacle), E362808 (Lock Twist Plug) 

2. CSA Certified 239539 

3. Meets NEMA standard, WD-6 & CSA-C22.2 

4. UL 498 

5. RoHS/REACH compliant products 

NEMA connectors are integral to establishing safe and efficient electrical connections, from commonplace household devices to industrial machinery.

By selecting the right type of NEMA connector for your application and following safety guidelines, you contribute to a secure and reliable electrical infrastructure.  

With an established legacy in the industry, Elcom International has honed its mastery in producing NEMA connectors.

Our organisation is dedicated to stringent adherence to industrial safety measures.

ELCOM’s track record reflects our consistent ability to deliver customized features as per client requirements, promising enhanced utility and unwavering durability.

Renowned for their user-friendly design, safety assurances, and extended operational lifespan, NEMA connectors crafted by us embody excellence in every facet.  

Know the Different Types of Fuse Holders and Their Applications

Introduction 

In almost every electrical circuit, there is a risk of unforeseen and damaging overcurrent events. To safely handle such situations, overcurrent circuit protection is essential. The most common method of overcurrent protection is through fuses. However, due to their shape and size, many standard electronic fuses cannot be directly integrated into conductive paths. To tackle this challenge, fuse accessories come into play, serving several critical functions: securely integrating fuses into electrical circuits, guaranteeing a stable current path (without voltage intruding into other components), and facilitating easy fuse replacement after  successfully managing overcurrent situations as originally intended..

Here, we provide valuable insights  into selecting various  fuse accessories and highlight scenarios one might encounter during the selection process. Moreover, we discuss key differentiating factors between product types offered by fuse holder suppliers, their potential to enhance electrical safety for individuals, and why considering these aspects is vital. 

What is a fuse holder? 

Fuse holders are devices designed to securely contain, protect, and mount fuses. They are available in two primary types: open and fully enclosed. The open fuse holder types include fuse clips, fuse blocks, and socket and plug-on cap varieties. On the other hand, the fully enclosed variety may utilize a fuse carrier inserted into the holder or employ other methods to enclose the fuse completely.

Types of Fuse holders:  There are four main types of electric fuse holders:

Printed circuit board (PCB) fuse clips

Printed circuit board fuse holders

Panel mount fuse holders

In-line fuse holders 

1. PCB Fuse Clips:  

These are the most economical fuse holders, offering the lowest buying price but with limited features. PCB fuse clips have a wide range of applications but require protection from the external environment through insulation and isolation.

2. PCB Fuse Holders:  

Like PCB fuse clips, these holders offered by fuse holder suppliers are also cost-effective with fewer features. They find use in various applications but need insulation to safeguard against external elements. 

3. Panel Mount Fuse Holders:  

These fuse holders are typically wire-in, wire-out/line, and load types and are mounted on an enclosure or its backplane. Panel mount fuse holders provide safety to individuals by shielding them from electrical hazards. 

4. In-Line Fuse Holders:  

These fuse holders come in self-contained wire harnesses with wire-in, wire-out/line, and load variations. In-line fuse holders offer a wide range of application possibilities. Depending on the designer’s objective and placement, they can make fuses more challenging to access or facilitate easy fuse replacement.

Industry Standards

Fuse holders can receive various approvals and ratings, including:  

UL (Underwriters Laboratories): A UL Listing indicates that a fuse has been manufactured in complete accordance with the UL 248-14 standard. However, other UL recognitions, such as c-UL Listing, c-UL Recognition, c-UL-us Listing, and c-UL-us Recognition, do not guarantee full compliance with UL-248-14. 

CSA (Canadian Standards Association): CSA approval ensures that a fuse or fuse holder offered by a fuse holder supplier has been manufactured in full compliance with either CSA C22.2 No. 248.14 or CSA C22.2 No. 39 standards, respectively. 

BSI (British Standards Institution): BSI approval guarantees that a fuse has been manufactured in complete accordance with the relevant section of the IEC 60127 (BS 4265) standard. 

 VDE (Verband der Elektrotechnik): VDE approval ensures that a fuse or fuse holder has been produced in total compliance with the appropriate section of the IEC 60127 standard. 

 IEC (International Electrotechnical Commission): IEC approval specifically applies to Universal Modular Fuses (UMF) compliant with IEC 60127-4. 

 SEMKO: SEMKO Swedish approval guarantees that a fuse or fuse holder offered by a fuse holder supplier has been designed in compliance with the appropriate section of the IEC 60127 standard. 

 Dentori: Dentori Japanese approval guarantees that a fuse has been manufactured in total compliance with the Japanese Ministry of International Trade and Industry standard.

Conclusion 

In conclusion, fuse holders are essential devices used to mount, confine, and protect fuses securely. There are two major types of fuse holders: open and fully enclosed. Open fuse holder types include fuse clips, fuse blocks, sockets, and plug-on caps. On the other hand, the fully enclosed type may utilize other means, such as a fuse carrier inserted into a holder, to ensure complete enclosure of the fuse. For further information about fuse holders, feel free to get in touch with Elcom. 

ELCOM is a leading company in India that produces fuse holders with the best quality with CE approval, ensuring the safety of countless households.

The Significance of Push Buttons in Modern Industries: Exploring Their Applications and Advantages.

Push buttons are mechanical switches that are activated by pressing the button. They are widely used in industries for controlling a wide range of operations. Push buttons are designed to be easy to operate, reliable, and durable, making them suitable for use in diverse environments. 

From manufacturing to aerospace, from medical to consumer electronics, push buttons have become integral to modern industries. These small devices, typically mounted on a panel, provide a simple yet efficient means of controlling various processes and systems. Being one of the leading electrical switch manufacturers in India, Elcom International recognizes the significance of push buttons in multiple industries. It has been at the forefront of providing cutting-edge push-button solutions for diverse applications.  

Importance of Push Buttons in Various Industries 

Push buttons are significant in modern industries, where precise control and efficient operation are critical. They are used in various applications, controlling various processes and systems. Push buttons are essential for their reliability, durability, and user-friendly operation in different industries. As one of the most prominent switch manufacturers in India, Elcom International understands the importance of carefully selecting the right push-button switch for your project. With many features designed to enhance performance, push button switches offer numerous technical advantages. Let’s explore the technical benefits of utilising Push Button Switches produced by ELCOM:

1. Push Buttons in Manufacturing Industry

In the manufacturing industry, push buttons are extensively used for controlling various machines and equipment. They are used in assembly, packaging, and production processes to start, stop, or pause operations. The advantages of using push buttons in manufacturing include precise control, quick response, and easy integration into automation systems.

2. Push Buttons in Medical Industry   

Push buttons play a vital role in the medical industry, where precise control and reliability are crucial for patient safety. Push buttons in the medical industry are designed to be hygienic, easy to clean, and resistant to chemicals and sterilization processes. The advantages of using push buttons in the medical industry include accurate control, easy customization, and enhanced patient safety. 

3. Push Buttons in Electronics Industry   

The electronics industry extensively uses push buttons for controlling various electronic devices and systems. They are used in consumer electronics, industrial control systems, and communication devices for power on/off, mode selection, and volume control. The advantages of using push buttons in the electronics industry include compact design, tactile feedback, and ease of integration into circuit boards.  

4. Push Buttons in Aerospace Industry  

Push buttons are essential in the aerospace industry, where precise control, reliability, and durability are critical for safe and efficient operations. The applications include cockpit controls, emergency control, communication devices, maintenance and repair.

5. Automotive Industry 

Push buttons play a crucial role in the automotive sector, providing drivers and passengers with control over various functions. In modern vehicles, you’ll find push buttons for functions such as starting the engine, adjusting climate control, operating power windows, and even initiating advanced driver assistance systems. These buttons enhance convenience, safety, and user experience within automobiles. 

6. Energy Sector 

The energy sector relies heavily on push buttons to control and monitor power generation, distribution, and transmission systems. From power plants to substations, these buttons are used to start and stop critical equipment, manage electrical grids, and respond to emergencies. The durability and reliability of push buttons are paramount in ensuring the continuous supply of electricity.

7. Maritime Industry 

Push buttons find their place in the maritime industry, both on commercial vessels and naval ships. They are used for navigation, controlling engine systems, managing communications equipment, and operating safety features such as lifeboat release mechanisms. Marine-grade push buttons are designed to withstand the harsh conditions of the open sea, including exposure to saltwater and extreme temperatures.

8. Food and Beverage Industry 

In the food and beverage industry, push buttons are essential for ensuring food safety and operational efficiency. They are used in food processing equipment to control machinery, regulate temperatures in ovens and refrigeration units, and activate cleaning cycles. Push buttons with robust, hygienic designs are preferred to meet the industry’s stringent requirements for cleanliness and reliability.

At Elcom International, being the leading push button switches manufacturer in India, we make sure that our push button switches are an excellent choice for engineers and designers seeking reliable and high-performance switching solutions across various industries and applications. All the various products offered by Elcom International, to match their reputation of being the most trusted switch  manufacturers in India, adhere to global standards and are fully certified by the Restriction of hazardous substances (ROHS) Europe and Canadian Standards Association.  

Trust Elcom International for exceptional quality and performance in all your electrical component needs. 

The Importance of Fuse Holders in safe Electrical Installations

The fuse holder is an essential component strictly installed in every household’s primary electric circuit or in any electrical or electronic equipment. Fuse holders play a critical role in safeguarding your house from potential fire hazards caused by electrical failures. Fuse holders themselves do not safeguard a house from fire hazards. Instead, they are designed to protect the electrical equipment and prevent excessive flow of current that could potentially cause a fire hazard. In this blog, we will discover exactly how they work and help you keep your home safe. 

Definition of a Fuse Holder- 

Fuse Holder is a device that holds and regulates the flow of electricity through a fuse. They are used in various applications, electric boards, etc. Fuse Holders are available in multiple sizes and shapes, made from plastic, metal, and other conductive materials.  

Fuse blowing can be caused by a variety of factors, including overloading the circuit, short circuits, and ground faults. So when a fuse blows, fuse holders which hold the fuse are designed to disconnect the circuit and prevent the current from flowing in the circuit, thereby preventing a fire hazard from happening. This protects people and the electrical equipment in that respective household. If you are looking for a suitable quality fuse holder, then ELCOM is the one of the oldest and most trusted fuse holder manufacturer in India. 

Types of Fuse Holder: 

In the current market, there are different types of Fuse holders. In this article, we will study each type and determine which would suit your needs.  

Let’s start with the most basic type – the blade fuse holder. The blade fuse holder is commonly used in most vehicles. They consist of a plastic body with two metal blades in contact with the fuses. It is mainly observed that blade fuse holders are easy to mount on the fuses but difficult to remove if the fuse blows.  

And then we have another type that’s called a glass fuse holder. It is made of a glass casing that envelops the fuse around it. They are easy to mount and provide exemplary connection but are relatively more expensive than glass fuse holders.  

What is the working principle of a fuse holder? 

The fuse holder’s prominent role is holding the fuse in place. The Fuse is used to prevent excessive flow of current that could damage the entire electrical circuit in a household, vehicle, or any other industrial equipment. The fuse holder is connected to the circuit in a series position so that when the fuse blows, it will open the circuit, stop the constant excessive current, and prevent the potential fire hazard.  

As mentioned above, fuse holders are available in various shapes and sizes. The blade fuse holder has two terminals for connection. The terminals are connected to the circuit, so when the fuse blows, the fuse holder will quickly react and disconnect the circuit by opening it.  

How are we supposed to maintain the fuse holder? 

A tool that provides safe and easy ways of connecting and disconnecting, the circuit can get damaged sometimes or wear out with age. This can lead to significant potential fire hazards if neglected for a long time. Hence it is essential to check the fuse holder regularly at regular intervals. You have to check if they are appropriately connected. It is because the fuse holders can melt If they are connected loosely. If there is a significant resistance between the fuse and fuse holder, the subsequent heat produced due to the electric flow melts down the fuse holder. This will leave the electric circuit in your household vulnerable.  

With this much emphasis, it is clear that fuse holders are essential for the safety of your home. This is important for ensuring the safety and prevention of fire hazards due to electric circuit failures. Every household should have at least one fuse holder connected to their circuit and one spare fuse holder if the first one gets damaged or melts. If you have any questions or concerns about where to get such an important tool, feel assured, as ELCOM is a leading company in India that produces fuse holders with the best quality with CE approval, ensuring the safety of countless households. ELCOM is one of the most prominent Fuse holder suppliers that comply with the industrial standards of the electric tools in demand

A Selection Guide for DIN Valve (Solenoid) connectors – Form A, B and C having standard DIN EN175301-803

Outline:
● Introduction
● What is the DIN standard
● What is EN175301-803 standard
● Selection guide based on the applications.
○ Selection criteria
○ Technical features/parameters
○ Functional description
○ Classifications and Specifications
○ Applications
● Conclusion (About Elcom)

Introduction

DIN valve (solenoid) connectors are an essential component in many different types of systems and devices, including control systems, machinery, and equipment. These connectors are designed to provide a secure and reliable connection between the valve and the control system, enabling the flow of electricity, air, or other media to the valve. However, not all DIN valve connectors are the same, and it is important to select the right connector for your application. In this blog post, we will provide a selection guide for DIN valve connectors, including the different types of connectors, their features and benefits, and how to choose the right connector for your application.

What is DIN Standard:

The term DIN stands for Deutsches Institut fur Normung e.V. The electrical DIN connector was originally standardized in the early 1970s by the German National Standards Organization. DIN is a widely known standard for connectors and enclosures

The standardized term DIN connector does not refer to any specific type of connector without an associated number. The standard naming system used to represent the DIN connector is DIN 43650 connector, such standards enable the manufacturer and consumer to navigate multiple DIN connector standards with ease and convenience. DIN 43650 connectors are also known as the EN 175301-803 standards.

Micro-DIN connectors are available in smaller sizes, but they are very alike to their larger and older ones. DIN connectors belong to a family of multi-pin electrical connectors. The ISO 44 counterparts 00 stands for the standards which are set by the International Organization for Standardization, which are exclusively made for electrical connectors. The DIN connectors can be used with either hydraulic or pneumatic solenoid valves.

Types of DIN Connectors:

There are three main types of DIN valve connectors – Form A, Form B, and Form C. Each type of connector has its own unique features and benefits, and it is important to choose the right type of connector for your application.

1. DIN EN 175301-803 Form A (formerly known as DIN 43650 Form A)
2. DIN EN 175301-803 Form B (formerly known as DIN 43650 Form B)
3. DIN EN 175301-803 Form C (formerly known as DIN 43650 Form C)

Form A (DIN EN 175301-803 Form A Connector)

The name Form A in this standard of connectors refers to the distance between the pins. As seen in figure 1, the distance between pins 1 and 2 is 18 mm, as standard for Form A connectors. However, there is no difference between 2- and 3-pin connectors. The standard defines the distance between pins 1 and 2, while pin three is the earth connection.

Form A

These connectors are designed to be used with solenoid valves in hydraulics and pneumatics applications to securely supply power using a water-resistant method.

Form B (DIN EN 175301-803 Form B Connectors)

Form B

Form B DIN connectors for solenoid valves are also called micro connectors. Two main differences set them apart from the Form A connectors.

Firstly, they have a smaller space between the pins, and the connectors can also have two different pin spacings: 10 mm and 11 mm. The 11 mm DIN connectors have three flat blade contacts and are the most common. The 10mm DIN connectors have one flat blade and two U-shaped pins pointing outward, as seen in figure 2. Similarly, to Form A valve connectors, Form B valve connectors can be found on solenoid valves in hydraulics and pneumatics applications, as well as in marine applications.

Form C (DIN EN 175301-803 Form C Connectors)

Form C DIN EN 175301-803 connectors are even smaller than the Form B connectors and are often called the sub-micro connector. As with the Form B connectors, these also come in two sizes under the standard. These are the 8 mm and the 9.4 mm, where the 8 mm has two pins plus earth, and the 9.4 mm has three pins plus earth.

Form C

Form C DIN connectors are primarily used with solenoid valves offering a secure and water-resistant method for applying power. The Din 43650 connectors can be found in hydraulics and pneumatics applications as well as marine applications, pressure sensors and switches, and optical, limit and proximity switches.

Applications:-

The application of DIN connectors can be found in a diverse range of electrical products such as in conjunction with pneumatic devices, hydraulics machines and machinery, and electromagnetic devices, including solenoid valves. DIN connectors are utilized in a sizable proportion of electrical and electronic solutions such as proximity switches, pressure transducers, and level sensors, including low-energy motors and limit switches.

These DIN connectors consist of additive benefits such as improved product performance, simplified manufacturing processes, and reduced inventory, which eventually leads to decreased application costs. DIN connectors have met different overvoltage protection requirements and are also made to function within certain voltage limits.

Elcom’s DIN connector is heavily used in dusty, oily, or humid environments. Additionally, these connectors can serve DC current, AC current, and specified voltage requirements. Elcom’s DIN connectors also provide connector modification options which include modification of indicator lights and modification of surge suppression.

Features

● Connectors come in various “Forms” depending on the configuration of pins and dimensions. The Forms carried out by Elcom are listed below.
○ DIN 43650 Form A (ME / HD): – Connector has an 18mm contact separation.
○ DIN Form B: I/S (Industrial Standard) Form B (MER): – Connector has an 11mm contact separation and is commonly referred to as Industrial Standard Mini.
○ DIN 43650 Form C (MEM): – Connector has an 8mm contact separation and is commonly known as a “sub-micro” connector.
○ Industrial Micro-Mini (ISO Form C) (MEM):- Connector has a 9.4mm contact separation and is commonly known as the Industrial Standard Sub-Micro.
● Standard internal thread DIN valve connectors are IP65 rated and available with different thread styles, gaskets and circuitry options.
● Standard options include LED illuminated devices as well as VDR (voltage-dependent resistors), diodes or transit diodes (with or without the illuminated device) to offer protection against overvoltage peaks.
● IP-65 is available for Metal Enclosure (ME), HD & MER
● Elcom offers various options for modifying the connectors including
○ Indicator lights
○ Surge suppression
○ UL-94 V-2/V-0 flammability rating available

Conclusion

Elcom’s DIN (solenoid) connectors have successfully captured a major market share of the emerging large-scale electronics industry and other associated industrial sectors on solenoid valves, pressure switches, and other electrical devices.

What is the USP of Elcom DIN Connectors?

The quick assemble factor and out-of-the-box plug and operate features help reduce the additional extra work and associated labour cost of the DIN connector’s installation process making the product convenient for the end-user.

Elcom Phenomenal DIN Connector products array majorly includes Flat plugs, Micro plugs, PG9 & PG11 sockets, and curved sockets.

Elcom manufactures advanced electronics and smart electromechanical components for the Indian and foreign markets catering to diverse consumer needs and market demands ranging from large-scale manufacturing markets to modern sustainable energy markets. Elcom International enables its customers to effectively connect, manage, control, and efficiently distribute electrical energy with the help of innovative solutions and reliable products such as DIN connectors, solar connectors, and power distribution units.

What is a DIN connector? Everything you should know

Introduction – DIN connector

The term DIN stands for Deutsches Institut fur Normung e.V. The electrical DIN connector was originally standardized in the early 1970s by the German National Standards Organization.  

The standardized term DIN connector does not refer to any specific type of connector without an associated number. The standard naming system used to represent the DIN connector is DIN 43650 connector, such standards enable the manufacturer as well as the consumer to navigate multiple DIN connector standards with ease and convenience. DIN 43650 connectors are also known as the EN 175301-803 standards. 

Micro-DIN connectors are available in smaller sizes, but they are very alike to their larger and older . DIN connectors belong to a family of multi-pin electrical connectors. The ISO 44counterparts00 stands for the standards set by the International Organization for Standardization, which are exclusively made for electrical connectors. 

Design structure

When it comes to DIN connectors, there are multiple gasket options based on the material they are made of such as NBR profile, NBR flat, or EPDM flat. Here, NBR rubber stands for nitrile rubber, an oil-resistant material, and EPDM rubber stands up well to weather, ozone, and heat.

The thread types for the cable entry solely depend upon the form you choose such as the Form A connectors are available in PG 9, PG 11, M16 threads, Form B connectors are available in ½” NPT threads, and Form C connectors are available in PG 7 thread only. 

On top of that, each form consist of different pin spacing and pin type options such as the Form A connector has a “U” shaped pin facing with an 18 mm pin spacing, Form B connector has 10 mm and 11 mm pin spacing, and Form C connector has flat blade pins with 9.4 mm or 8 mm pin spacing. 

Application and Benefits

The application of DIN connectors can be found in a diverse range of electrical products such as in conjunction with pneumatic devices, in hydraulics machines and machinery, electromagnetic devices, including solenoid valves. DIN connectors are utilized in a sizeable proportion in electrical and electronic solutions such as proximity switches, pressure transducers, and level sensors, including low-energy motors and limit switches. 

These DIN connectors consist of additive benefits such as improved product performance, simplified manufacturing processes, reduced inventory, which eventually leads to decreased application cost. DIN connectors have met different overvoltage protection requirements and are also made to function within certain voltage limits.

Elcom’s DIN connector is heavily used in dusty, oily, or humid environments. Additionally, these connectors can serve DC current, AC current, and specified voltage requirements. Elcom’s DIN connectors also provide connector modification options which include modification of indicator lights and modification of surge suppression. 

Conclusion

Elcom’s DIN (solenoid) connectors have successfully captured a major market share of the emerging large-scale electronics industry and other associated industrial sectors on solenoid valves, pressure switches, and other electrical devices. 

The quick assemble factor and out-of-the-box plug and operate features help reduce the additional extra work and associated labor cost of the DIN connector’s installation process making the product convenient for the end-user. 

Elcom’s phenomenal DIN connector product array majorly includes DIN plugs (flat), DIN plugs (micro), DIN sockets (PG9, PG11), DIN sockets (PG9), DIN sockets (PG7), and DIN plugs (curved).

Elcom manufactures advanced electronics and smart electromechanical components for the Indian and foreign markets catering to diverse consumer needs and market demands ranging from large-scale manufacturing markets to modern sustainable energy markets. 

Elcom International enables its customers to effectively connect, manage, control, and efficiently distribute electrical energy with the help of innovative solutions and reliable products such as DIN connectors, solar connectors, and power distribution units.