Hello everyone.

What is Polymer capacitor? 

When people think of capacitors, they usually talk about “Aluminum lytic”, “Ceramics” or “Film” capacitors, but have you heard about the “Polymer” capacitors?

Polymer capacitors were developed by Panasonic in the late 1980s. They feature very low ESR and high reliability by making use of the material (conductive polymer) whose characteristics are remarkable.

As a pioneer and the reliable global supplier, Panasonic offers wide variety of products (size and characteristics) to support for your need on circuit design.

Panasonic Polymer capacitors Design examples

Since the 1990's, Panasonic polymer capacitors has been used mainly in PC industry, especially for those power supply smoothing circuits that required high clock frequency and load current. In additional, it helps to reduce the parts count (total cost reduction), minimize the space (including low height profile) and ensure the higher reliability. 

At present, Polymer capacitors are used extensively in power supplies that required high current (servers, base stations, routers/ switches), industry applications (embedded boards and automotive applications), game machines, communications infrastructure equipments.

Panasonic's product range of high voltage Polymer capacitors

Recently, in addition to the continued efforts to keep reducing the ESR, Panasonic enlarges higher voltage products also which started to be used in input power lines (e.g. 12, 24, 48V power lines) to reduce ripple noise dramatically.

Design support tools>>>  http://industrial.panasonic.com/ww/i_e/00000/spara_equivalent_e/spara_equivalent_e.htm

Contact Panasonic
If you would like to evaluate or request further information of Polymer capacitors, please feel free to contact Panasonic by below link: https://industrial.panasonic.com/KM/KMServlet?KBLNG=E

This week sees the launch of the latest version of DesignSpark PCB. Our awesome software has a lot of fans already, but we’re expecting a whole host of new users so we thought we’d give all the noobs a heads-up on what DesignSpark PCB does and how it can help transform your electronics design efforts.

What is DesignSpark PCB?

DesignSpark PCB (DS PCB) is our award-winning, professional-standard software that is currently revolutionising electronics design.

DS PCB was created to be an intuitive and easy-to-use PCB design tool to help save you time and money so you can get on with designing the next ‘big thing’.

What’s new in version 6?

We’re proud to say that there are a whole host of improvements and enhancements in DesignSpark PCB v6!

All the new additions were suggested by our dedicated community and have made this latest iteration of our award-winning software even easier-to-use for professionals and amateurs alike.  

The two most notable features added in version 6 are detailed below.

Cross probe

It can get confusing when tracking up a PCB and it is very easy to make a mistake and not realise! Cross Probe has been added to provide an easy way to cross reference various components, pins and even tracks between schematics and PCB.

This means if you have mapped out a circuit design in the Schematic View and want to check that the tracking follows the nets in the PCB Design, you can select connections in the Schematic View or PCB environment and those connections will be highlighted in both views. This function provides another way to speed up design progress and gives you the confidence that the changes you are making are correct.

Find out more about Cross Probe

It is often the case, especially with more complex designs, that towards the end of a project small changes or corrections will be required. It can be time-consuming to identify specific components or design areas and cross probe will help you to greatly reduce the time it takes to perform such hardware debugging.

Custom shortcuts

Based on the feedback from our users, we have introduced a way of customising the keys used when designing in DesignSpark PCB.

For example, if you want to create your own quick keys for zooming, you can now assign shortcut keys in the Settings menu and at any time return back to defaults. You can also save and load sets of assigned keys to a file, so you won’t need to re-assign your personalised shortcut keys if you use DesignSpark PCB on a different computer. You can also share the same keyboard mapping with your colleagues.

This function will help speed up the overall PCB design process and give you control over your personal DesignSpark PCB experience.

Find out more about Custom Shortcuts

DesignSpark PCB version 6 also aids your 3D designs. The new version includes simplified DesignSpark Mechanical IDF export enabling you to easier transfer your designs to our FREE 3D design tool, something many of you have been asking since DesignSpark Mechanical was launched.

DS PCB v.6 is packed with features and software enhancements, including one-click integration with the RS Components online catalogue and access to a large online community for support and the free-sharing of ideas.

More about using Mechanical Export

Download DesignSpark PCB v6 NOW!

Embedded World is an exhibition and conference that has more than 900 international exhibitors. Taking place in Nuremberg, Germany from 25th - 27th February 2014, it is the world's largest trade fair for those involved in Hardware and Software development, tools and services and procurement of embedded technologies.

This year on the RS Components stand you can find demonstrations of our industry-leading design software aimed to help all engineers across the globe.

Visit us in Hall 5, Stand 451.

What will we be demonstrating?

DesignSpark PCB - our award-winning FREE PCB design software

Powerful design software with no licence limit, no restrictions and best of all its free to use! If you're a DesignSpark PCB beginner our demonstration will show you how to start prototyping faster than ever before. With version 6 of this great software now available to download you can find out all about the new features; cross probe, custom shortcuts and simplified DesignSpark Mechanical IDF export.

DesignSpark Mechanical - The gift of invention

Powerful, professional-quality 3D design software that's simple to use and available for FREE. This great new 3D design tool is ideal for designers of electronic and mechanical applications. DesignSpark Mechanical is packed with time-saving features to help you design more easily, quickly and creatively than ever before. Watch our on-stand demonstration to see a 3D design come to life with the help of a 3D printer.

The Marketing Works


RS will also be testing a prototype online hardware evaluation platform in cooperation with new company The Marketing Works. The platform is a Man-machine interface (MMI) optimized for hardware evaluation in the cloud. It is accessible and controllable via a standard web browser on a PC, phone or tablet, without plug-ins. In a remote view  the user can see the hardware live via streamed HD video whilst carrying out a range of tests and performance measurements.

Join us for free by visiting www.embedded-world.de/en/visitors/tickets/voucher/ and use redemption code: B282057.

We look forward to seeing you there!

Jason Brett is an experienced lecturer in technology at the British Columbia Institute of Technology in Burnaby, Canada.  Jason tells us about how DesignSpark PCB is exciting his students and helping him to “whip up” Arduino shields in his spare time. 

DS: What design software were you using before DesignSpark PCB (DS PCB)?

I was using Eagle, but was concerned that my students, who are in training to be high school Technology Education teachers, would not be able to afford the software when they started teaching.

I tried several free and open source alternatives, looking for one that combined the power of a high-end design package with the ease of use of an introductory package. I’m really glad I did --DS PCB is not only easier for new users to learn, but removes all of the annoying restrictions on board size and complexity that intentionally cripple many competitor programs. 

Why is DS PCB a good tool for educators?

I can speak for my fellow educators when I say that having a free, easy-to-use, fully-featured circuit board design program like DS PCB makes it easier to get students excited about electronics, and encourages them to pursue their own designs.

The unlimited board size has proved very helpful, as I often make ‘class sets’ of circuit boards. I can prototype a single board and, when it works well, it’s a simple matter to copy and paste as many boards as I want to produce.

How does the software help your design process?

Right now I’ve got several Arduino shield designs under development. It has been very easy to create an Arduino UNO board model in DS PCB. All I need to do is whip up a quick schematic and drop the parts onto the board, knowing that all the pin connections and mounting holes will automatically come through in my new design.

DesignSpark PCB also makes it easy to produce new components. This comes in very handy as I have a variety of parts in stock that aren’t always easy to find in a parts library. The ModelSource libraries are really good.

One thing that has always impressed me about DS PCB is how responsive the support team is to any of my questions or concerns. I can’t believe I get that kind of helpful support for a free software package. I wish some of the vendors of my more expensive software were as responsive as the DesignSpark team!

What are your favourite features of DS PCB?

Where to begin? The fact that the program is free and fully-featured. Also, the ease of use in creating new components or editing existing ones. This means that I can have students, who have never designed a circuit board before, not only designing their own boards, but creating their own components with only a half-dozen or so lessons. 

Finally, what tips would you give to others who are starting out with the software?

Normally, when teaching new software to students, I say to read the manuals or watch some tutorials before jumping in. But DS PCB is pretty easy to figure out. I’d say just sit down with a simple project and start building. About the only thing I tell my students to watch out for is to remember to save both their .pcb and .sch files, and to make sure that they know what folder they are using to keep their own custom parts library in. 

I think one of the real ‘aha’ moments for my students comes when they start playing with the Design Technology settings, and discover that they can change all of their pad sizes, or trace sizes with a few simple keystrokes.

Download the new version of DesignSpark PCB now

Learn more about the features and functions of DesignSpark PCB Version 6 

日本科学未来館で開催されている企画展「THE 世界一展～極める日本！モノづくり～」に行ってきましたので、今回の記事ではその様子をお伝えします。

この企画展では、「日本のモノづくり」というテーマの下、日本が持っている伝統技術や最先端の技術・プロジェクトを、解説や動画と共に紹介しています。私たちになじみ深い「衣食住」に関する技術から、衛星や望遠鏡、超高層建築などに使われている技術まで、本当に様々な展示が行われていますが、今回の記事では電子部品・半導体に関する技術に注目して、いくつかご紹介したいと思います。

・アルミ電解コンデンサ用セパレータ（ニッポン高度紙工業株式会社）

皆さんが普段使っている電解コンデンサには、「セパレータ」と呼ばれる特殊な紙が使われています。このセパレータは、コンデンサのアルミ箔が接触しないようにする役割を担っており、異物を含まず、密度・厚さが一定であることが求められています。このセパレータを作る技術には、なんと和紙を作る技術が応用されており、まさに伝統と最先端技術の融合と言えます。

・裏面照射型CMOSイメージセンサー”Exmor R”（ソニー株式会社）

こちらは、デジタルカメラなどに使われているCMOSセンサーです。ビデオやカメラで動画を撮影する際には、できるだけ多くの光をセンサーに届ける必要があります。このCMOSセンサーは、高速かつ低電力という利点がある一方で、暗い場所では写真にノイズが載ってしまうという欠点がありました。そこで、従来は受光部の前に配置されていた配線を、受光部の裏側に設置したことで、センサーの感度を上げることに成功しました。皆さんがスマートフォンで綺麗な夜景を撮ることができるのも、このCMOSセンサーのおかげなのです！

・ダイシングソー（半導体ウェハー切断装置）（ディスコ）

ダイシングソーとは、半導体素材であるシリコンウェハー（写真中央）を、写真右下のようにチップ上に切断するための装置です。ブレード（写真左下）という円状の砥石を高速回転させることで半導体を切断します。その精密さはなんと、髪の毛の断面（直径0.05mm～0.15mm）を35分割、シャープペンの芯（直径0.5mm）を850分割できるとのことです！ダイシングソーの世界シェアは約9割を日本企業が占めており、世界中の電子機器生産を支えているのです。

・積層セラミックコンデンサ（株式会社　村田製作所）

積層セラミックコンデンサ（MLCC）は、皆さんにも非常になじみ深い素子だと思います。こちらに展示されていた世界最小の積層セラミックコンデンサは、なんと0.25mm×0.125mmという小ささで、肉眼で見るとまるで点のようでした。最新のスマートフォンには、MLCCが500～700個も搭載されているそうです。

・超極小ボールベアリング（ミネベア）

こちらは、精密機器で摩擦を低減するために使われているボールベアリングです。写真に写っているのは、2009年に開発された、世界最小（外径1.5mm）の超極小ボールベアリングです。医療機器やマイクロマシンなどの精密機器への利用が提案されています。映画「ミクロの決死圏」の世界が現実になる日も近いかもしれません。

------------------------------------------------------------------------------------------

様々な技術を取り上げてきましたが、いずれの技術からも日本人が持っている「器用さ」「きめ細やかさ」が伝わってきます。普段暮らしている中では、家電や車などの既に出来上がっている製品しか目にすることができませんが、その背景には今回取り上げたような、目立たないけれど非常に繊細・重要な技術が詰まっているのです。

今回の記事では半導体関連の技術しか取り上げませんでしたが、その他にも下の写真のように様々なものが展示されていましたので、あまり細かい技術に興味がない方でも十分に楽しめると思います。こちらの企画展は今年の5月6日まで開催されているので、興味を持った方は是非、日本科学未来館を訪れてみてください！

【リンク】

• 日本科学未来館公式サイト
• 「THE 世界一展～極める日本！モノづくり～」特設サイト

Your DesignSpark Mechanical v1.0 update

This update fixes stability issues reported by some of our users. It is important to apply this update to avoid potential loss of design work so please update as soon as possible. The download file is a very small size (~400KB) and the update process is straight forward.

Note: you only need to apply this patch if your Welcome screen (on DSM startup) displays an update warning. If this is not the case, your software is already up to date.

Click here to download the 32-bit version update zip file

Click here to download the 64-bit version update zip file

Update steps:

1. Save the relevant zip file to your hard drive

2. unpack the zip file

3. Double-click the *.msi file and follow the standard Windows installtion process

When the update is complete you will see this screen:

Simply click 'Close' and start DesignSpark Mechanical. You're now ready to enjoy your updated software!

DesignSpark Mechanicalの使い方を一覧でまとめました。

【はじめに】

• ダウンロード・インストール・アクティベーション方法
  • DesignSpark Mechanicalユーザ登録でお困りの方へ
• ユーザーインターフェース紹介
• オブジェクトと基本ツール
• 基本操作入門編

【DesignSpark Mechanical 使い方（基本編）】

1. ダイレクトモデリングの作成方法
2. ファイルのインポート形式
3. RSからDSMechに3Dモデルをダウンロード・管理する方法
4. プリント基盤の設計図のインポート方法
5. 回路設計図への3Dモデルの挿入
6. パネル設計への3Dモデルの挿入
7. 部品表（BOM Quote）の使い方
8. ファイルのエクスポート形式について
9. 回路設計ソフトへの寸法のエクスポート方法

【DesignSpark PCBとの連携機能】

• DesignSpark Mechanical専用エクスポート機能（DesignSpark PCB Ver.6）

【その他の機能について】

• よくある質問
• ソリッドのサイズ変更・中空のボディ作成
• 組合せツールの操作
• DesignSpark Mechanicalでねじ山を設計する方法

【参考・外部リンク】

• 30分で作る3Dモデリング（海外ブログより）
• 無料3DCAD/モデリングソフトで3Dプリンタデータ作成
• オープンＣＡＥコンサルタントOCSE^2
• ちいさなラボ
• Monoist
• Lunrun studio
• exc!amation(Youtubeチャンネル）

We're always telling everyone just how great our free tools are! Don't just take our word for it, here are some great comments that we've collated from some of our DesignSpark PCB and DesignSpark Mechanical users.

DesignSpark PCB; The view of the Community

With the launch of DesignSpark PCB Version 6, in January 2014, we thought it was a good time to share some of the positive feedback we’ve had from users of our free electronics design software.

DS PCB has become a trusted tool for many different designers, from hobbyists to professional engineers. And the reviews have come from many different sectors, from education to aerospace.

Take a look at the comments below to see how the software could save you time and money. Plus, discover people’s favourite features and get some helpful tips from these seasoned users.

_________________________________________________________________

“I am a complete novice and I am trying to teach myself how to design simple PCBs. I worked through the DesignSpark tutorial and I found it very easy to understand. I particularly liked how easily a schematic could be drawn and then transformed into a PCB. The 3D viewing capability is also very useful. Other free packages that I tried seemed to have many useful features disabled.”

- S.C DesignSpark user

“Before using DesignSpark PCB, I had to send my PCB designs out to a firm using PADS2000, which was too expensive to own. With DS PCB, I can now do them myself and check them immediately, rather than sending designs back for corrections.”

- Dave Sheppard, First Design Consultants

 
“Staff on our electronics courses are interested in using DesignSpark as it links with the RS catalogue (from which we order our components) and students can install the software on their home computers. We’re really pleased there is a version aimed at educational institutions, and we’ll give this a go.”

- Richard Manley, IT Manager, University of the West of England

 "I’ve used DS PCB from the earliest time it was published and am currently using Version 5. I’m very impressed with the continuing development and quality of the product. I have a number of designs on the market created using the software. Well done RS!”

- Simon Tullett, Product Manager Analytical Automation, TTP Labtech Ltd.

 
Do you have some feedback on DesignSpark PCB you would like to share with the community? Contact RS Technical Support with your thoughts.

Download the latest version of DesignSpark PCB

DesignSpark Mechanical; The view of the Community

At DesignSpark we love helping engineers create world-changing products. It's why we've made our new 3D Design Tool available to all engineers and designers as a FREE download. 

DesignSpark Mechanical is packed with time-saving features to help you design more easily, quickly and creatively than ever before.
_______________________________________________________________

"I finally got round to having a "play" with Designspark Mechanical and I am still of the opinion that this is the easiest to use 3D-CAD software out there!"

"Unlike other software of a similar type, DesignSpark is ridiculously simple to use. It's intuitive and, in my humble opinion, works the way 3D-CAD software should work, if I want to create a cube, I draw a square and drag it to make it thicker how much more simple could it be?" (read full article...)

- Sean Goddard - Test & Design Solutions Ltd 

Download the latest version of DesignSpark Mechanical

東京・大阪・福岡にてDesignSpark PCB無料セミナーを開催します。本セミナーはプリント基板ネット通販のP板.com 殿との共同セミナーとなります。

東京------------------------------------------------------------
■日時：　      ３月４日　(火)　　開場 9:30　　　
　　　　　　　　第一回目：10:00 - 12:00、　　　
　　　　　　　　第二回目：14:00 - 16:00
■場所：　　　関東ITソフトウェア健保会館　
　　　　　　　　（JR総武線「大久保駅」北口改札より徒歩1分、　JR山手線「新大久保駅」徒歩5分）
■受講人数：　各30名

大阪------------------------------------------------------------
■日時：　      ３月１０日　(月)　　　　開場 12:30　　
　　　　　　　　　第一回目：13:00 - 15:00　　　
　　　　　　　　　第二回目：16:00 - 18:00
■場所：　　　大阪産業創造館　5F　人材育成センター　パソコン実習室　
　　　　　　　　（地下鉄「中央線」、「堺筋線」の「堺筋本町駅」から、徒歩約5分）
■受講人数：　各25名

福岡------------------------------------------------------------
■日時：　      ３月１１日　(火)　　開場 12:30　　
A　13:00 - 14:30　3DCAD「DesignSpark Mechanical」講習会
B　15:00 - 17:00　基板CAD「DesignSparkPCB」講習会
■場所：　　　リファレンス貸会議室P(4F)　（JR博多駅筑紫口より約4分）
■受講人数：　各30名
------------------------------------------------------------

 
■講習会内容：
　　　　　　　　基板設計初心者の方を対象とした初級レベルのセミナーです。
　　　　　　　　無料の基板ＣＡＤ「DesignSpark PCB」を用いたオリジナル基板
　　　　　　　　設計について、簡単な回路を用い、受講者も実際にPCで操作
　　　　　　　　しながらWorkshop形式で行います。
　　　　　　　　・基板の設計手順
　　　　　　　　・回路図作成
　　　　　　　　・基板レイアウト作成
　　　　　　　　・基板発注
　　　　　　　　・部品発注
　　　　　　　　・ライブラリ作成方法
　　　　　　　　・機構設計CADとの連携
■受講料：      無料
■持参品：
　　・ラップトップPC （こちらを参照の上、DesignSparkPCBのインストール・アクティベーションを完了しておいてください。）
　　・マウス（必須となります。できればホイールマウスを推奨します）
■申込方法：  こちらのWebページよりお申込み頂けます。

無料の3D CAD「DesignSpark Mechanical」の無料セミナーを、福岡にて開催します。

■日時：　      ３月１１日　(火)　　開場 12:30　　
　　　　　　　　　　　　　　　　　　　　開演  13:00 - 14:30　3DCAD「DesignSpark Mechanical」講習会
■場所：　　　リファレンス貸会議室P(4F)　（JR博多駅筑紫口より約4分）
■受講人数：　30名
------------------------------------------------------------

■講習会内容：
無料の3D CAD「DesignSpark Mechanical」の使い方や3Dプリンタへの出力方法について、デモを交えて説明いたします。DesignSpark Mechanicalを使用している方はもちろん、今後3Dプリンタや3D CADの導入を考えている方は、ぜひご参加ください。

■受講料：      無料
■持参品：　　特にございません。
■申込方法：  こちらのWebページよりお申込み頂けます。

Upgrading the Z runner mount on an early kit, lessons learned and thoughts on RepRap.

As I mentioned in my previous post which covered commissioning and a first print, I received one of the very earliest Ormerod kits — number 005, no less! — and since then there have been a number of improvements made to the design, with one of these being to the Z runner mount.

One of the great things about RepRap's self-replicating approach is that not only can you print out parts for a new printer, but you can also print improved parts for use in upgrades. Above can be seen a new adjustable Z runner mount in white PLA, alongside the original non-adjustable mount.

The print quality of the new part isn't quite up to that of the one supplied with the kit, but that's actually the point here; the new mount removes play in the X arm by allowing the runner bearing to be adjusted closer to the Z axis extrusion, which will result in smoother prints from now on.

At this point I should make clear that new kits include the improved Z runner mount.

The countersunk screw pointing to the bottom-right corner is used to adjust the mount to bring the Z runner bearing closer to the axis.

Lessons learned

Although I was previously involved in putting together a predecessor of the Ormerod, I would consider myself anything but a 3D printing expert; while perfectly comfortable with the electronics and firmware etc. side of things, I am much less so when it came to the mechanics of machine and printing.

Here are some of the most important lessons I've learned so far and tips for those embarking on constructing their own RepRap.

Construction

• Ensure that you have all the required tools to hand before starting

• Make sure you have somewhere comfortable to work and plenty of light, as it can get quite fiddly

• It's worthwhile taking the time to prepare the parts required for each stage of construction before starting

• Use a file to clean up any printed parts (and never force them!)

• Check and re-check at each stage (to avoid having to later dismantle and reassemble)

• If you're not sure about something, consult the forums as it may have previously been discussed — don't just stare at the documentation and get frustrated!

Commissioning and printing

• Ensure that you have the latest version of the firmware (on the controller board and SD card)

• If you get stuck during commissioning, as with construction, consult the forums!

• Clean the print bed with alcohol or similar, even if it doesn't look like it needs it, and in particular where you experience any issues with prints not sticking

• Setting the Z probe and bed compensation (or levelling the bed) is vital and if these steps are not completed you are extremely unlikely to succeed in getting successful prints

Needless to say that I'm sure I will learn much more as I spend more time with the machine.

Kits vs. ready to use printers

The most obvious benefit of assembling a 3D printer from a kit is cost. However, this is only part of the story with a RepRap, and you also end up with a machine that has a dedicated and passionate community developing modifications and upgrades, and which is only too happy to provide help to those who are new to 3D printing and/or the RepRap family of machines.

I have to say that it felt pretty amazing to be able to clone the Ormerod GitHub repository, identify an upgraded part and then slice and print this, before using it to upgrade the machine that printed it! And I am sure that this was only the first of numerous upgrades that I will apply to the Ormerod over the course of its lifetime. Indeed, it's even possible that one day I'll be using it to print out a set of parts for a new RepRap design, to which the Ormerod will be donor for steppers motors etc...

— Andrew Back

Hopefully, by now you’ve all heard of our rapid electronics prototyping tool, DesignSpark PCB!

We recently released the sixth update to this powerful software, adding in new functionality and making significant improvements across the board.  If you are yet to try our powerful free design tool, David Taylor an amateur inventor and rookie PCB designer has written a great in-depth account of starting out with the software. 

We decided to post it here in the hope that you get the insight into what it’s like to start using DesignSpark PCB (and DesignSpark Mechanical too) and encourage you to get involved and have a go yourselves.  

By David Taylor

I am a great fan of DesignSpark PCB, and I’d like to tell you about how I came to use it. It’s not a short story; choosing an ECAD package involves a lot of difficult tradeoffs. But I think if I walk you through the process I went through, it might help you speed up your own choice.

I’m an amateur inventor with a strong background in software and occasional forays into hardware. My current project is to create a new kind of musical keyboard that arranges notes in a more natural pattern than a traditional piano keyboard, allowing a player to create rich chords with up to seven notes spanning two octaves or more... using just the four fingers of one hand. After building a couple of small prototypes and trying to manage the nasty tangle of wires under the keyboard, it became clear that my next step would be building a custom PC board. I wasn’t eager to do this because I’ve never designed a printed circuit board before and found the prospect intimidating. But it was clearly time to take the plunge.

Choices, choices…

The first step – and in some ways the most frustrating one –was choosing an ECAD package. There were many to choose from, they all offered a different mix of features and their prices ranged from free to several thousand dollars. Being new to ECAD, I didn’t know exactly what features I would need, so I wanted to choose a full-featured product. I also knew that I didn’t want to spend more than a couple hundred dollars given that this might be a one-off usage, so the high-end packages were out of the running. But I didn’t want to adopt a product that might be abandoned in the future, leaving my design stuck in proprietary file formats, so I was a little wary of the free packages.

As I began my comparison shopping, I quickly learned of two other constraints I wanted to avoid. Many of the free packages were crippled versions of expensive products I was very unlikely to buy, and others locked me into using a specific production house for fabricating the board. Since I didn’t want to be either crippled or captive, I decided to avoid products with these restrictions.

After spending way more time on the search than I wanted to, I decided to try DesignSpark PCB first. The descriptions were pretty compelling and the reviews were quite favorable. 

Too good to be true?

My first experience with DesignSpark was quite positive: The interface was pretty intuitive, even for a total newbie to the process -- which is saying a lot for any CAD program. Also, the support for importing standard libraries of components was excellent, and the overall flow of work to get from an idea to a board design immediately made sense to me. I especially liked the 3D viewer. Somehow, the ability to see the finished board in 3D and view it from all angles gave me more confidence that I could actually design a PCB and make it work.

Then I got cold feet. The one negative that came up in the reviews and discussion forums was a general suspicion of the motives of DesignSpark for giving away such a full-featured product. It wasn’t a crippled version of a “real” ECAD package, and it didn’t hold you captive to a single board house. So why were they giving it away for free? Would they get lots of people using it and then start charging big bucks for it? It just felt like there had to be a catch in there somewhere. 

Returning to the first choice

With this in mind I went looking for more information about DesignSpark, eventually finding a detailed user review. This deeper review confirmed my earlier impressions: It was a full-featured product that wasn’t crippled in any way; it supported all the standard output files so there was no problem with vendor capture; it included extensive libraries of standard components, including their 3D form factors and the 3D viewer gave me excellent insights into how the finished board would look. I also picked up on another feature: DS PCB would automatically produce a bill of materials for all the parts required to build the board, including price quotes, which would really help me make the difficult tradeoffs between cost and function in generating a production-ready design. There was even a “Buy Now” button that would automatically place an order for exactly the mix of components required by the design.

Now “all” I had to do was learn how to use an ECAD program and design an actual board. This is a daunting prospect to an ECAD newbie like me, but I soon discovered that, compared to other ECAD systems I’d looked at or tried out, DS PCB has a much shallower learning curve. My experience of using it was that rather than having to study the process in a manual and then figure out what to do next at every step, DS just led me naturally through the process. Better still, it kept simple things simple and it kept the complex things out of sight when I didn’t need them. I also found the instructional materials to be very well written (a rarity, as you no doubt know), I received immediate support from DesignSpark when I needed it, and I got lots of help from their on-line forums. My guess is that for the current state of ECAD, that was about as easy an introduction as I was likely to find. It might help if I add here that I am a cognitive psychologist who has done a fair amount of user interface design over the years, and I have also managed documentation and training groups. So you can consider my assessment of these particular qualities to be a professional appraisal as well as personal one.

After several weeks of learning and doing trial designs, I created a design that I thought should work. Then I stalled for another couple of weeks because it felt like the process had been too easy and I didn’t quite believe I had created a design that would work. But I wasn’t able to find any flaws, so I finally sent the files off to a production house and waited for the boards. When I got them, I was delighted to find that my first PCB design worked perfectly the first time out. Okay, it wasn’t a very complicated board, and there are a few things I’d do differently the next time around, but for a first attempt it came out pretty nice and it works perfectly. I don’t know if I could have gotten the same happy result with one of the other products I looked at, but my feeling is that DS played a strong role in my getting that design right the first time.

More tools from DesignSpark

Now that I have the electronics up and running, I am designing the housing. It’s a fairly complex shape because it has to enclose several PC boards, various knobs and buttons, and a few other internal components. And I want a very specific form factor, so I can’t just buy an existing enclosure. For the prototypes, I am hand-fabricating a temporary housing out of aluminum and wood. But once I have a shape that I’m happy with, I plan to turn to DesignSpark’s latest offering: DesignSpark Mechanical. This program will take my existing board designs, including the dimensions of the mounted components, and let me “draw” a smoothly shaped cabinet around them that precisely fits. The output of this program can be sent out for injection molding, allowing me to have a simple, two piece enclosure that has all the curves and crannies I desire. Assuming my prototypes work well and there is interest in my invention, moving to DS Mechanical will be my next step.

So, based on my experience as an ECAD newbie, I highly recommend that you give DesignSpark PCB a try. The company has asked me for feedback on the product and ideas for improvements, and I have offered a few small suggestions, but the product is really solid just the way it is.

I really hope this story helps some of you to streamline your own choice of an ECAD product.

Wondering whether DesignSpark Mechanical wil run on your machine with no problems? Check the below hardware and software requirements to make sure you're getting best 3D design experience:

Hardware Requirements

 CPU: Pentium® 4 2.0 GHZ or Athlon® 2000+ or faster, 32-bit (x86) or 64-bit (x64) processor

RAM: Minimum:512MB RAM (32-bit) 1Gb RAM (64-bit) Recommended: 2GB RAM or higher Video Card:

Video Card: Full DirectX® 9c, Shader Model 3.0 hardware support, 256 MB of graphics memory or higher, 32 bits per pixel, 1024x768 minimum resolution.

Please ensure that you have the latest graphics driver for your card and that Direct3D Acceleration is enabled.

Software Requirements

Operating Systems: Microsoft® Windows XP with Service Pack 3, Microsoft® Windows Vista™, Microsoft® Windows 7, Microsoft® Windows 8

DesignSpark Mechanical is not supported on virtual platforms.

Intel-based Apple hardware running native Windows using Boot Camp is subject to the same hardware requirements as other Intel-based hardware and will require special licensing.

 
4.3in. LCD Starter Kit for Raspberry Pi from 4D Systems

The display module can be programmed in a number of ways, using the 4D Systems Workshop 4 IDE Software. By default the display module will come loaded with the Serial application.

The uLCD-43-PT has a comprehensive range of serial commands ready to be received from the Raspberry Pi, to draw primitives such as lines, rectangles, circles and text, to displaying images, playing sound and logging data to uSD card.  Communication to the Display Module is performed via the Raspberry Pi’s serial port (RX and TX).
 
Power for the display is supplied from the Raspberry Pi’s 5V bus. No external power is required for the Display Module as all power is supplied from the Raspberry Pi, via the Adaptor.

For more details or to buy this product, visit RS-Onlne
 

SparqEE is a California-based company that has come up with the concept of a tiny cellular development board that provides the opportunity to developers to add worldwide wireless coverage. Initially launched back in August via the Kickstarter crowd-funding programme, the CELLv1.0 enables worldwide wireless Internet access for projects using Arduino and Raspberry Pi platforms. Although Bluetooth and WIFI offer high-speed data transfer, relatively speaking, there are clear limitations in terms of distance, operating over a few meters or a few tens of metres; whereas cellular enables significantly greater range and is ideal for ‘small data’ projects that need to operate over distances such as a few streets or a town or even a country away.

Measuring only 36 x 42 x 7mm, the CELLv1.0 is currently the smallest, least expensive and easiest to-use cellular module on the market for popular development platforms. The device uses 2G/3G technology, meaning that it will primarily use 3G worldwide and will only employ 2G where 3G connectivity is unavailable. Clearly, a SIM card is required to communicate over a cellular network and the CELLv1.0 allows any SIM to be used, such as that from a mobile phone or a pre-paid SIM. However,SparqEE can also provide low-cost SIM cards via its website that works pretty much anywhere in the world.

Applications

The increase in range permitted by cellular communications enables a number of potential applications for developers. Given bandwidth constraints versus say WIFI or Bluetooth, suitable project are more likely to be sensor-based low-
bandwidth-data projects that will send low amounts of data over the Internet. Connected to the developer’s favourite development board such as the Raspberry Pi or Arduino, example projects could be relatively simple ones like remote help devices to open a door,turn on a light or the power for an air-conditioning unit or setting an alarm in a remote office. Another project could be creating a vehicle tracker that allows car owners to know where their vehicle is directly from any smartphone or computer, or possibly even adding a ‘kill switch’ in case the vehicle is stolen. The same basic idea could be applicable to making a tracking device for a dog or another pet. More ambitious and grander projects could include flying a small solar-powered remote-control helicopter across town with a camera to make aerial movies and shoot cityscape pictures; or using remote sensor networks to provide early warning systems by monitoring bridge harmonics for evidence of impending danger, or heat signatures in a forest for fires, or sea levels off the coast looking for floods or tsunamis.

Making Cellular Easy

As there are many potential stumbling blocks in cellular technology for developers to consider, the company provides help along every step of the way to easily get data from a device. For example, as cellular connectivity via the CELLv1.0 is over the Internet, data servers will need to be set up. Developers can of course set up their own servers to use the CELLv1.0, but very helpfully SparqEE is also providing freely available servers via a standard RESTful implementation and also provides examplesfor enabling this feature. All this enables users to easily get data from a device, through the cloud, and back out to a computer, smartphone or any Internet enabled device, see figure 1. A completely open-source project, also included in the CELLv1.0 package by SparqEE along with the board, antenna and power cable are open-source development aids including code, schematics, PCB files including EAGLE and DesignSpark PCB formats, design files, examples,pictures and other useful facilities. SparqEE also provide a forum on its website at www.sparqee.com dedicated to projects from developers.

Originally, when launched via Kickstarter, the CELLv1.0 was a two-piece design consisting of a cellular and a breakout/jumper board. However, the new design is a single-board design, shown in Figure 2, which has been simplified to a USB cable to supply the power and using the appropriate Arduino or Raspberry Pi shield. In the move to the single-board design, all that was required essentially was four connection wires:TX, RX, ground (GND) and voltage reference (Vref),allowing usage of either a 3.3 or 5V system.



CELLv1.0 Specifications

Electrical specifications of the CELLv1.0 cellular module include: input voltage of 3.7 to 5V, powered via USB cable or via the header pins; current draw of less than 5mA in standby, less than 75mA (average,w/o services), less than 500mA (average)and 2.3A maximum.

Connectivity specifications are:

WCDMA/HSDPA 2100/1900/900MHz, delivering 384Kbps or DL3.6Mbps HSDPA; GSM/GPRS/EDGE 850/900/1800/1900MHz;serial Interface (UART, any voltage such as 3.3V or 5V)and USB 2.0 interface (power, USART, and modem). And finally, Windows, Linux, and Android drivers are available.

The SparqEE is available soon exclusively from RS Components.

This article is by Mark Cundule, and can be found in Issue 4 of DesignSpark Magazine

こちらの記事の翻訳です。

This page provides an overview of file formats associated with DesignSpark PCB software

1. Importing designs from other PCB Tools

DesignSpark PCB is intended primarily for prototype/concept creation, sitting at the beginning of the design process (read more here). DesignSpark PCB is therefore not intended as a tool for editing and modifying designs that originated in other tools. There is however one exception:DesignSpark PCB allows importing designs from CadSoft EAGLEPCB software. Full import of Eagle component libraries, Eagle schematic designs and Eagle PCB designs is supported. Check this tutorial to learn about Eagle design files import and check this tutorial to learn about Eagle component library import. We've made it very easy to switch from Eagle so we recommend you try it now if you're an Eagle user

2. Input formats

*.dxf - AutoCAD file format (can also be used to import dimensions from DesignSpark Mechanical)

*.net, *.edn - OrCAD Netlist

*.prj - DesignSpark PCB Project file

*.sch, *.pcb - DesignSpark PCB schematic and PCB design files

*.stf, *.ptf - DesignSpark PCB schematic and pcb technlology files

*.eis, *.eip - Eagle import files (intermediate)

3. Output formats

• Manufacturing plots

*.gbr - Gerber files, e.g. RS-274-X (fully configurable, output file extension can be defined by user)

*.drl - NC Drill file, Excellon (fully configurable, output file extension can be defined by user)

*.pen - Pen Plot file (fully configurable, output file extension can be defined by user)

• Simulation outputs

*.net - B2 Spice

*.cir - IsSpice, LTSpice, TINA

*.spn - basic spice netlist

• Mechanical design outputs

*.dxf- AutoCAD file format 

*.idf - Intermediate Data Format file (standard configurable format and also a simplifiedDesignSpark Mechanical version)

• Built-in Reports
  

*.csv, *.txt - A series of useful reports built-in to DesignSpark PCB as ready-to-use templates: Bill of Materials (BOM), Component Height, Dangling Tracks, Design Rule Check, Design Status, Schematic/PCB Check, Layers Report, Net Completion, Unconneced Pins, Component Positions. These reports can be customised to suit your requirements

• User Reports

*.csv, *.txt- built-in reports can be customised as user reports but also user can create/combine any of the available design/component values/properties into a report. There is a high degree of flexibility in making these selections and configuration

• Workflow outputs

*.pdf - Adobe Reader file, for example save schematics or artwork

Windows output - send schematics or artwork to your standard Windows printer (fully configurable)

3D View - 3D visualisation, no formal output file but screenshots of 3D View are a popular input into user documentation. 3D View colors and properties can be customised

*.bmp - exports the current view to a bitmap file

*.emf - Enhanced Meta File image

4. Further information

For more information on DesignSpark PCB input and output formats please refer to Help file in DesignSpark PCB, available from Help>Help Contents (Shift+F1). Further help is available through our Support