What are the advantages of working with electronic component distributors?

Who are Electronic Component Distributors?

 

Distributor of Electronic Components are part of a supply chain, offer the required components to electronic equipment manufacturers.

 

Sometimes component manufacturers are not capable of Interface with the lack of small and large companies. Distributors manage the supply of components to companies from manufacturers.

 

Advantages of working with Electronic Components Distributor:

 

Get Wider Variety of Components:

Distributors are connected all over the globe, making it simple to look for a part you're searching for. They additionally have ecologically controlled stockrooms where they hold a broad range of electronic components. 

 

On-time Delivery of Components:

Distributors deliver the components to the client at the required time, in the mentioned amount, at the predefined area, and right away. 

 

Easily Trace Product Source: 

Distributors manage the item, subsequently giving you the certainty that you're utilizing valid and certifiable components. 

 

Direct Customer Support Access:

Electronic Component Distributors work as a point of access between manufacturer and customer. 

· Give the necessary client service.

· Help to get the right electronic parts.

· Take care of any specialized issues emerging from the provided parts.

Pros of Buying Electronic Components

 

Whether you are a manufacturer, buyer, or distributor of electronic components, you may have to understand the importance of having a stable supply chain.

 

There are certain benefits of buying electronic components from distributors, manufacturers, and brokers. 

 

1.     Authorized Distributors: The most common way of buying electronic components is getting them from authorized distributors. Manufacturers work in a partnership with distributors who distribute their products in a market.

 

Pros:

 

·        Get higher flexibility for OEM and CEM as they are not tied with one source and can buy from different distributors.

·        Reduce spend expectations.

·        Have visibility back to source as they directly from the manufacturers.

 

2.     Manufacturers: Manufacturers design their devices, manufacture and brand them. They release new technology to the market. 

 

Electronic manufacturers sell their products in different ways – directly to users or through distributors.

 

Pros:

 

·        Dealing directly with the manufacturers reduces the risk of the component issue.

·        You will get direct technical support.

·        Get genuine and authentic parts.

 

3.     Catalog supplier: Catalogue suppliers help you to buy electronic components in a short lead time. 

 

Pros: 

 

·        If you need a part of electronic components in a short period, Catalogue suppliers are a good option.

 

4.     Brokers: Brokers are independent suppliers. They have no tie-up with manufacturers and distributors. Also, they have specialization as the distributor of obsolete electronic components.

 

Pros:

 

·        Can deliver faster than distributors and manufacturers.

Electronic Components Testing

What is Electronic Components Testing?

Testing can assure the quality of electronic components. It determines that all the parts are moving through the supply chain and handled correctly.

 

Why do we need to test electronic components?

 

It is very important to test electronic components before making their way into a finished product. Sometimes electronic components can develop failures, or may not work correctly. To check the proper working of a circuit, it is necessary to perform testing in electronic components.

 

The goal of testing electronic components focus on some areas:

 

·        Highly accelerated life testing 

·        Reliability testing:

·        Functional testing

·        The root cause of failure testing

 

What are the four basic types of electronic components?

 

·        Transistors: Transistors are used to amplify electrical power and electronic signals.

·        Capacitors: Capacitors are used used to release and store electricity in a circuit.

·        Resistors: Resistors are used to reduce the flow of current, adjust signal levels, divide voltages, etc.

·        Diode: Diode allows current to flow in one direction.

Electronic Components Testing Service

GreenTree Electronics offers electronic components testing service. GreenTree Electronics is committed to testing and authenticating electronic components in a testing laboratory and providing a function-fit-form warranty to our customers. GreenTree Electronics are committed to testing and authenticating electronic components in a testing laboratory and providing a function-fit-form warranty to their customers.

Distributor of Obsolete Electronic Components

Electronic Components that are no longer supported by the manufacturer are called Obsolete Electronics Components. They are also called "end-of-life," because they reached the end of the technically supported lifespan.

GreenTree Electronics is a leading distributor of Obsolete Electronic Components. They are specialized in providing reliable, authenticated, genuine obsolete electronic components with full traceability or authentication tests following customer's requirements document.

They offer authenticated and reliable obsolete electronic components to various applications, including, Medical, Military, and Industrial to many OEMs around the world.

They maintain a documented vendors qualification program, with up-to-date certifications and supply obsolete electronic components with full traceability (C of C) or with authentication reports by customer's testing requirements document.

Distributor of Flash Memory

 

Flash memory is a long-life storage chip widely used in embedded systems. It keeps data and information stored and safe even when the power is off.

 

GreenTree Electronics is a leading distributor of flash memory. They offer a broad range of memories, including Volatile and non-Volatile IC’s and memory modules of world-leading manufacturers: Micron, Samsung, Nanya, PSC, Kingston, Infineon, ISSI, IDT, Cypress, Hitachi, NEC, and Toshiba.

 

Integrated Circuits Memories include Volatile and Non-Volatile Memory.

 

Volatile (RAM)

RAM (Random-access memory) is any semiconductor memory that can be read from and written to. RAM is volatile, which means the data is stored as long as the memory IC is connected to power; the data is lost at power down. Volatile memories are cheaper and faster than non-volatile ones.

 

·        SRAM: SRAM (Static random-access memory) is used for small cache memory and does not require a refresh. 

 

·        SDRAM: DRAM (Dynamic random-access memory) is the most common and cheap memory configuration, used as the main memory in servers, computers, and consumer electronics. 

 

 

Non-Volatile

Non-Volatile are slower and more expensive than Volatile memories, and they can keep information safe even if the power is turned off.

 

·        Flash (NVRAM): Working in intermediate in speed between EEPROMS and RAM and used for onboard data storage (consumer electronics); Flash Drives (replacing HDD with much more reliable and faster, yet more expensive storage drives).

 

·        ROM: Read-only memory (ROM) stores data on a chip of computers and other electronic devices. It holds software instructions and performs major input/output tasks. This type of memory is referred as “firmware”.

Types of Integrated Circuits

 

What is an Integrated Circuit?

An integrated circuit or IC is an array of electronic circuits formed by many electronic components like resistors, transistors, capacitors, and so on, on a semiconductor material to perform operations.

All these components and semiconductors base unites and made a single chip called an integrated circuit or integrated chip.

Types of Integrated Circuits 

1. Digital Integrated Circuits: Digital ICs do not operate on the overall level of signal amplitude but only operate on few defined levels. These are designed by several digital logic gates, flip flops, multiplexers, and other electronic components. 
2. Analog Integrated Circuits: An Analog integrated circuit operates over a continuous range of signals. They are divided into Radio Frequency Integrated Circuits and linear Integrated Circuits. 
3. Mixed Integrated Circuits: Mixed Integrated Circuits are the combination of digital and analog ICs and function as Analog to Digital converter and Digital to Analog converter,  (D/A and A/D converters). 
4. Logic Circuits: They are designed by using logic gates that work with binary output and input (0 or 1). They are used as decision-makers. 
5. Switching ICs: Switching ICs are used for performing the switching operation and are designed by using transistors. 
6. Timer ICs: Timer ICs are used to keep track of time in applications.
7. Voltage Regulator ICs: These ICs offer a stable DC output.