Top 5 Reasons to Use the Takaya Flying Test

In 1987, a unique development was made that changed the way electronics are tested. Takaya came up with the world's first flying probe test system, which is well known as the Takaya flying test.

Let's discuss what the Takaya flying probe test system is and why you should use it to make your electronic testing easier.

What is the Takaya flying probe?

The Takaya flying probe is a testing system used for in-circuit tests without fixtures. The Takaya flying test uses probes that move very fast without requiring a conventional bed of nail adapters to perform.

Takaya Flying Probe systems are famous for their high build-up quality, robustness, and long-term stability. The Takaya flying probe system combines precise mechanisms and high-precision measuring equipment to provide the best result.

Top 5 Reasons to use the Takaya flying probe

The flying probe technology developed by Takaya has been a market leader for years. The research and development capacities concentrate 

Focusing on the instantaneous launch of innovative products into the market, Takaya develops its testing system to meet the rapidly changing technical requirements and needs of customers in the electronics industry. Here is a list of the top 5 reasons why the Takaya flying probe test is so popular.

1. Continuous development of innovative products

Takaya continuously develops new, innovative, and modern flying probe systems in the areas of test coverage and test speed to deliver remarkable outcomes

2. Reliable and high-quality standards

The Takaya flying probes are exclusively manufactured in Japan, maintaining high-quality standards. They never compromise between speed and long-term stability.

3. High proximity testing

Takaya is popular for its excellence in testing. The Takaya flying test delivers a high-speed, high-precision, fixtureless, and easy-to-use circuit board tester.

4. Decades of experience

Takaya has been a leader in the field of flying probe technology since 1987. They continuously conduct the research and development process to meet rapidly changing technical requirements.

5. Excellent customer support

Their excellent customer support is another reason they have achieved such massive success. Their customer support service includes maintenance, calibration, installation, and training, either on-site or in one of their training centers.

To know more details regarding the Takaya flying test, you can visit https://equip-test.com/, where you will get the best deals at the most affordable price.

What’s Spring-Loaded Contact Probe and What are They For?

What is a Spring Loaded Contact Test Probe?

Spring-loaded contact test probes are also referred to as Pogopins, Contact pins, fixture pins, spring pins, test pins, and bed of nails.

To make contact with various test points on Printed Circuit Boards (PCBs), components, and wiring fields, spring contact test probes are used. The probes may test connector-cable systems when they are used in specialized test modules. The test probes can also be used as a charging contact or in control engineering units.

A tubular barrel, a spring, and a plunger are the components of a spring-loaded contact test probe. Different tip styles and spring tensions are available for plunger tip styles. The test surface is best-contact guaranteed.

Additionally, probes can be fixed inside housing units (receptacles) where an electrical connection is made. Also, makes it simple to remove the test probes for repair or replacement.

There are several applications for contact probes. Here’s a summary:

●      ICT/FCT series - Probes for fixtures. Standard ATE probes for different centers

●      Short Travel Probes/Battery contact series - Limited travel compact probes. Frequently used as a battery contact

●      Interface Probes - Interface between the fixture and test system are usually realized by this option

●      Pneumatic Probes - For the limited access, selective contacting of a single test point

●     Threaded Probes (screw-in) - Threaded to provide a secure fit. Used to test wire harnessing in modules.

●      High Current Probes - Used for applications requiring a high current.

●      Switch Probes - Special probes with integrated switch elements are mainly used for presence tests.

●      Push Back Probes - During the push back of connectors, the tight seat of the connector elements is verified.

Because of their numerous benefits, spring-loaded contacts have grown to be a favorite among engineers. And they could be benefiting you.

Advantages of Spring-Loaded Contact

1. Solderless inter-connections
2. Easy integration into systems
3. Designed for durability
4. Misalignment accommodation
5. Consistent contacts
6. High Vibration Tolerance
7. Easy mating with other components
8. Perfect for blind mating
9. Self-cleaning components
10. Excellent contact for cable termination
11. Diversity of designs

Just Leave it to us, we have it covered!

Every design has unique specifications, and we are able to create the spring-loaded contacts you need to bring your idea to life.

We specialize in precision machined components, thus we are the experts in the industry when it comes to spring-loaded connections. We give you the products you want for your unique design needs.

Get your every component as per your need at https://equip-test.com/

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Equip-test Radio Frequency Testing

 Radio frequency testing is a non-destructive process that can be used to verify the quality of electronic components and materials. It is also used to find defects in solder joints, printed circuit boards, and other types of electronic assemblies. 

What is Radio Frequency Testing

Radio frequency testing is a process of testing radio frequency emissions to identify potential interference with other electronic devices. Radio Frequency testing can be conducted on both active and passive devices, and is often used in the development of new electronic devices or the optimization of existing ones. 

https://equip-test-probes.blogspot.com/2021/10/simple-cable-harness-tester.html

 RF testing typically involves measuring the power, frequency, and modulation of the device under test. These measurements can be used to identify potential sources of interference and optimize the performance of the DUT. Radio Frequency testing can be performed using a variety of techniques, including spectrum analyzers, vector network analyzers, and power meters. 

How RF testing performed

The radio frequency testing is performed by taking and placing the devices in an isolated area. By doing that, the electromagnetic interference with the device can be controlled and the device is observed closely by other such appliances in that area. 

In addition, testing is used to determine the device's RF immunity, which is its ability to handle interference from other devices.

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How the equip-test products helps in RF testing

If you’re looking for a reliable and accurate way to test your radio frequency equipment, you need a product from equip test. Our products are designed to help you get the most out of your testing, and they’re backed by our quality guarantee. We offer a variety of different models to suit your needs, and our team is always available to answer any questions you may have. With equiptest, you can be sure that your radio frequency testing is being done right. 

In these days of wireless computing, it’s vital to do an RF testing procedure. With Equiptest, you can have your radio frequency tested, wifi, gps and more. We can help you pick the right lab for a project-specific test. 

How equip-test radio frequency testing is different from others

There are many different types of Radio frequency testing, but what sets equiptest RF testing apart is our unique approach. We don’t just test for compliance with standards - we also assess the performance of your devices in the real world. This means that you can be confident that your products will work as intended, even in the most challenging environments.

What’s more, our team of experts have years of experience in Radio Frequency testing, so you can be sure that you’re getting the best possible service. We’re always happy to answer any questions you may have, and we’ll work with you to find the best solution for your needs. Contact us today to find out more about equip-test RF testing. 

For more information contact us:-

+36 15333165

info@equip-test.com

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Flash fixtures | Equip Test

      How do flash fixtures help to get better radio frequency?

We are interacting every day with radio-propelled activities in this technologically advanced world, whether directly or indirectly. The radio flash fixtures kit was able to attenuate signals up to 400 MHz to 6 GHz range and prevented external interference. Fixture kits with radiofrequency technology are easy to assemble without major tools and provide protection against high-frequency waves emanating from the fixture. We rely on geometry-aligned probes for low-reflection transmissions with standardized contacting. Moreover, Multiple configurations and multiple programs can be supported by the flash fixture programmer.

 

Radiofrequency testing is highly responsible for magnifying the broad functionality and fairly good performance of both radio and telecommunication appliances. It maintains the user's radio frequency range as there shouldn't be any overlapping in the radio waves. The RF testing is highly mandatory these days as the frequency standard needs to be approved by the current market regulation.

We have different text fixtures available with us such as:

ND-MFS-D3-RF 

The construction is strong and reliable thanks to the solidified aluminum block. A fully transportable bottom plate greatly improves the efficiency of the wiring. Each interconnection has overlapping seams that are strong and reliable. The side corners are round in shape for finer rf reflection characteristics. To extend the RF environment it features stretchable chambers.

ND-RF-EXCH-D3

As it has an outstanding measurement of shielding attenuation of 80 DB, all of its features are quite comprehensive and very effective. Moreover, it is qualified to operate in all RF bands, from 400 MHz to 6 GHz.  It also has a strong exterior with high-quality aluminum. To initiate an internal radio network, it featured with RF absorber. 

ND-MFS-D4-RF

This particular test fixture has a supple external texture with dimensions of (width, depth, height) of 729 mm x 656 mm x 280 mm. Its reported shielding attenuation is 75 DB and covers the RF band with 400 MHz to 6 GHz. Furthermore, the transport and lifting are quite easier with an aluminum grip.

ND-RF-EXCH-D4

The test fixer allotted with 325mm x 206mm usable area with shielding attenuation of 75DB along with a strong aluminum. The high-quality test fixtures will be extremely useful with their experienced construction.

High – Current Leaf Spring Probe

 The idea is to allow the audience to find their best tools through our online platform and to show them their best products. Power electronics High-Current pins and flat type contacts inside of connectors make Leaf Spring Probes a good contacting solution for high-current pins and flat type contacts. We provide the best equipment along with the highest technology and the widest range of classifications. Moreover, we offer a wide array of products including test probes, led probes, test fixtures, test systems, interface solutions, in-line test handlers, and test gigs. Leaf spring probes with a high current are designed to provide the highest performance as well as deliver a high level of reliability. 

Technical Efficiency

Each section is precisely optimized with the most advanced technology in terms of technical efficiency. On its technical specification, it has a fair opening width of 0.5 to 0.8 mm. Designed with a maximum insertion force of 2.0, it is configured with a right immersion depth of 3.5 mm to 6.0 mm (0.138 to 0.236 in), as well as a maximum current of 20 A, which will avoid any measurement errors. A brass/gold plated barrel mate is predominantly used in this type of equipment. Other important materials are Spring Steel /Gold plated. The operational temperature is the most vital process to get allowable temperature so in that case, the temperature stays  - 100 °C up to + 200 °C[- 148 °F up to + 392 °F]. It appears simple enough to drill mounting holes for your PCB so that you can mount it to an enclosure or surface. All you have to do is select a screw size that makes sense for the size of your board and the surface suitable to mount it to and drill accordingly. So after a core research the mount hole size is recommended Socket / Receptacle Diameter + 0.01 - 0.03 mm [0.394 - 1.181 mil] drill bits for this.

Tip style

This leaf spring probe is designed with a specialized testing element and concludes with the tip style. The measurements are Tip Diameter (3.2 [0.124] mm [inch]),  Tip Length (8.9 [0.351] mm [inch]), Tip - Opening Diameter 1.2 [0.047]  mm [inch], Installation Height 16.4 / [0.646]  mm / [inch].