ALL YOU NEED TO KNOW ABOUT SONY’S ALPHA 1 MIRRORLESS CAMERA

Sony is known for making the most advanced cameras in the world. As a well-known camera manufacturer, the company never fails to innovate every year. They always come up with a better camera that has the most advanced features. Just like every other year, Sony has not failed to deliver a quality product as it recently announced Alpha 1, a $6500 mirrorless camera that features a 50.1-megapixel sensor. It can record up to 8k at 30 frames per second and is capable of shooting continuous photos up to 30 images per second.

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As it can be understood from some of its features, the new camera is a powerhouse. Unfortunately, it has been priced way higher than other high-end mirrorless cameras from Canon and Nikon. But Sony does have a good reason for the price tag. They have claimed that Alpha 1 is the most innovative and technologically advanced camera ever made by them.

The camera can shoot great sports and action videos and photographs. Even while shooting continuous photos up to 30 frames per second it can produce 165 full-frame JPEG images or 155 full-frame compressed RAW images. The viewfinder of Alpha 1 has a refresh rate of 240Hz. No camera in the past has had a better viewfinder than Sony’s Alpha 1. The autoexposure and autofocus system of the camera can make up to 120 calculations every second.

Sony is well-known for manufacturing cameras with the best autofocus system. The Alpha 1 Eye AF is better than any other device you can buy. The Eye AF is fast and can work even on birds. Sony claims the optimized algorithms are fast enough to track birds in flight. No camera has ever come close to perfecting autofocus like Sony, the Alpha 1 is, therefore, a great option for people who are interested in wildlife photography and videography.

Sony has made other useful adjustments and improvements to several other features like increasing the Flash sync speeds up to 1/400 sec while the silent electronics shutter supports sync speeds as fast as 1/200 sec. The 30fps continuous shooting has been improved as well and there are no blackouts anymore. The camera can shoot 8K videos at 30fps and 4k videos at 120fps. With an external recorder, one can also shoot a 16-bit RAW video.

The all-new Alpha 1 by Sony is arguably the best mirrorless camera ever made. Sony has been doing manufacturing the best cameras in the last few years but Alpha 1 has surpassed all past expectations. Although it is quite expensive, the price can be justified considering what the camera offers. If you are looking for a great mirrorless camera and budget is not a problem, Alpha 1 is the ideal gadget.

How can the wafer Kensington robot work best in certain functionality and the environment?

You must know that the wafers present in the 300mm semiconductor fabrication facility are fetched via the Workshop I carriers that are known as front opening unified pods (FOUPs). The primary performance measure is recognized in the work in process (WIP) with the relevant cycle time. You know what would affect the models’ performance is the order arrival rate, average order size, batching policy, automated material handling systems, and the number of the batch tools.

At Kensington Laboratories, the techie leader in the semiconductor wafer handling automation products supports the 300 mm wafer handling Kensington robot. The ADO is proven in the volume manufacturing at the specific 300 mm production fabs and is supported by the global service and support network of the Kensington Laboratories.

The Kensington robot installation highlights:

Automated teaching
Fast installation without expertise
The robot interchangeability
The production scalability
Its built-in sensor identifies and measures the wafer. It also talks about the accuracy in the wafer position and boosts the system accuracy. The shaped LED beam integrates the end effector sensor and LED for reliability and safety.

The mapping identifies stacked wafer cassette errors and also detects cross-slotted wafer cassette errors. The wafer position elevation and the edge detection, shaped beam permits the measurements vs. presence/absence recognition. It measures both x and z wafer positions.

It virtually eradicates the backside contamination from the robot gripper. It provides minimal contact with the wafer edge. It is a controlled force for gripping wafers safely. You know its failsafe closed-loop design grips the wafer in the event of the power of vacuum loss.

It comprises of the following:

Interoperability: It is fully congenial with the entire SEMI standard FOUPs.
Cleanliness: It is better than Class1 particle performance when integrated into Class 100 or a better environment.
Reliability: It consists of the robust design merged with the precision assembly that accomplishes the wholesome dependability and lifetime performance.
Zero Preventive Maintenance: It consists of an excellent precision design that needs not at all periodic lubrication or re-alignment.
Repeatability: It represents the industry-leading design that uses DSP controlled electrical mechanical/ pneumatic closed-loop servos for the précis repeatable motion.
Wafer Mapping: The high performant break the beam wafer mapping option permits fast and accurate wafer detection.
Customization: The configurable features involve the programming lights, buttons, carrier ID as well as AMHS options.
Compliance: It holds up best with the compliance standards SEMI, S2, S8, CE, and F47 compliant.
Bridge tool: It comprises of 200mm wafer operation with having an insert of 10mm pitch.
Now, let us talk about its additional features:

The carrier ID R/W at the dock as well as undocked.
It gives the twist and [pull FOUP door attach.
It also consists of a twist and pulls center lock FOUP clamp.
It also has servo control/force feedback motion technology.
The FEOL and BEOL lockout pins.
It has five FOUP placement sensors.
The programmable AMHS drop off positions.
It has a finger-safe motion control safety circuit.
It consists of flash firmware up-loadable.
It has integrated self-test diagnostics.
It is configured status lights.
You can choose from the options:

Barcode
Mobility Stand
Wafer Mapper
Break-The Beam type
Info Pad sensors
Quartz wafer profusion sensors
E diagnostics
Load/Unload Manual buttons
Carrier ID R/W interface
RFID AdvanTag, HERMOSO, Omron
IRID Smart Tag
200mm Bridge Tool (with an insert at 10mm pitch)
E diagnostics with GUI
AMHS Single and Dual E64 PIO for OHT as well as AGV/RGV
One can have the automatic door opener (ADO), 300mm load port are designed for the stringent wafer isolation and the fab requirements. The 300mm edge-grip reduces particle performance and via beam technology for the wafer mapping.

Ways to Improve Ionic Angular App Performance

Ionic and Angular have great power over the apps developed for iOS and Android Operating Systems. How? Well, most smartphone users download applications on their phones for daily use, including entertainment apps, banking apps, and much more. Thus, these applications are built using web technologies such as Ionic and Angular framework.

Did you know?

Ionic and Angular has control over 10% of iOS and 20% of Android apps roughly.

Building performant web applications is a demanding task if you want to keep a hold of happy customers. It requires regular updates and fixing of bugs for proper functioning. Therefore, there are a few methods that you can follow to improve the Ionic Angular app performance.

Tips to Improve Ionic Angular App Performance

Audit Bundle Size with Source-Map-Explorer

The latest web applications that also include Angular apps are modified numerous times before releasing on a web browser. Additionally, source maps are used to rectify an application or study its bundle size.

Why source maps?

Well, using source maps is a great way to examine or recognize the gap between the code originally written and the one sent to the end-user. To foresee the app code’s distribution, it is advised to use the source-map-explorer tool. To use the same, follow the steps mentioned below:

Install the source-map-explorer tool.
Expand ‘angular.json’ in your project.
Locate ‘Configurations’ and adjust the ‘namedChunks’ and ‘sourceMaps’ options to ‘True.’
Generate a production build of the app.
Lastly, run the source-map-explorer tool.
Once you run the command, your app’s code distribution will be viewed. It’ll include the code generated by you and the libraries currently being used, such as the Ionic framework, Angular, Capacitor, and RxJS.

Design Size Budgets

Apart from running the source-map-explorer tool, you may also consider designing size budgets. Notably, once the application is in-between its production process, it becomes difficult to cut down the app size. Therefore, configuring budget size will make sure that the app remains between the size restriction provided by you. It is essential to mention that the recommended budgets are different for each application. Keeping a note of the right values is required.

Use Native Angular Lazy Loading Strategy

Ionic Angular applications grasp the lazy loading modules when navigated for the first time by the user. This strategy is used to decrease the original bundle size and improve app performance. All you need to do is use the ‘ng generate’ command for creating a lazily loaded module.

Use ‘ng update’ for Keeping Angular Updated

Updating dependencies include a high risk of something breaking, which may distract from introducing new features for your app. Luckily, the Angular team is great at working with the CLI’s update process, via which Angular packages are updated. Not only this, but code transformations are also applied as required for you.

It is recommended to initially work on updating CLI and core, and then update the remaining Angular packages.

Hot Module Replacement (HMR)

The cherry on the cake is the Hot Module Replacement feature, which enables the user to make changes in the app without rebuilding it from scratch. Notably, other frameworks had access to the HMR feature, but now angular uses the same.

Undoubtedly, HMR works exceptionally well with Angular, but there are many more things that can be improved; for instance, its interaction with Ionic.

To run HMR with developing Ionic applications, run the following command:

Ionic serve — –hmr

Conclusion

Making improvements to the Ionic Angular app performance can be a complicated process. However, using tools, including lazy loading, configuring size budget, stabilizing CLI improvements with HMR features, etc, are a great help.

Do you want to know more about the Ionic Angular app development? Reach out to the best app development company and get professional guidance about the same.