This video shows how to use CircuitWorks within SolidWorks to convert a printed circuit board file into a SolidWorks assembly. CircuitWorks is able to convert a number of different file types. This tool is very useful when trying to design models that contain circuit boards. You are able to input the height of each component that is on the circuit board which lets you adjust you design to allow acquit air flow and clearance around the components.
If you are a student or educator check out our website at http://www.solidworks.com/education
Four Suggestions for Picking a Small-run PCB Assembly Producer
Working with small-quantity PCB assemblies has its upsides and cons. As the purchaser, there are a few hints that will help you get the most from your assembly. In this post, we shall show you how to make use of the pluses and the ways to get around the negative aspects.
Tips to Select a Small-run PCB Assembly Producer?
The guidelines mentioned in this article can help you maximum benefit out of your small-quantity PCB assembly order.
1. Single Supplier
Pick out a small-quantity PCB manufacturer who can be a one-stop provider for all your PCB needs. The main benefit of working with a small order is that you don’t have to coordinate with several organizations or individuals. Your order can be handled by a single point of contact.
2. Incredible importance of Prototypes
Even when working with small orders, you must insist upon using prototypes – even though it comes at an additional cost. Prototypes will permit you to evaluate your design and fine-tune it, when necessary.
3. Small-run PCB Producer
Manufacturing small-quantity PCB assemblies could be a task when using an unskilled manufacturer. For the reason that order quantity is low, expense of production is going to be a bit higher. As a consequence, any mistake from the PCB manufacturer will bring on increased losses for the consumer.
4. Standard PCB Practices
Standard best practices associated with PCB making really should be followed although working with a small-quantity PCB assembly. This can include design, fabricating, assembly, and PCBA testing steps.
Working with a small-quantity PCB assembly has its own list of advantages. Implementing standard tips will let you build an order that can help you eventually.
In this tutorial I show you how to set up your brand new, official Raspberry Pi Camera Module… By the end of the video you will be able to take pictures and full HD video with your Raspberry Pi! No detail is left unexplained, everything is covered; from unboxing your module to installing the required software… I hope you enjoy this video and please take the time to subscribe and like! Watch more of my tutorials and videos here:
Information and commands:
You can buy your Camera Module (in the UK) from either RS components or Element14 (I would go for Element14):
Here is the original unveil post: http://www.raspberrypi.org/archives/3890
To update your Pi: sudo apt-get update && sudo apt-get upgrade
To access RaspiConfig: sudo raspi-config (Make sure to reboot aferwards!)
To take a photo: raspistill -o image.jpg
To take a 10s video: raspivid -o video.h264 -t 10000
I put a lot of time into these videos, so it would be awfully nice to hear any feedback from you guys! Do that by commenting below or emailing me at: firstname.lastname@example.org
Raspberry Pi Compute Module 3 (CM3) targets electronic gadgets
Sort of announced in July 2016, the most up to date Raspberry Pi Compute Module 3 (CM3) is considered to go to the market quickly. Last October computer system equipment manufacturer NEC already announced a new spread of professional P and V Series large format displays that gracefully include the RPi CM3 module. The new module, available in two versions – CM3 and CM3L (lite) – will complement the CM1 module launched a few years ago.
Specifications for the CM1, CM3 and CM3L SODIMM modules may be found in the data sheet readily available on the RPi web-site https://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was based upon a BCM2835 CPU (as utilized on the original RPi and RPi B+ models), the CM3 contains a quad-core 1.2 GHz BCM2837 central processing unit, like the RPi 3. It offers 1 GB of LPDDR2 RAM and 4 GB eMMC Flash. The ‘L’ version is a CM3 lacking eMMC Flash, permitting the customer to install his/her very own SD/eMMC unit. The pinout of the CM1 and CM3 modules are exactly the same but the CM3 module is one mm higher (31 millimeters).
The cost of the new modules isn’t known yet, but because a CM1 sells at about ￡20, a comparable price might be predicted for the CM3.
The CM3 is based upon the Raspberry Pi 3 hardware and is designed for industrial use to supply a cost-effective means for consumers to make tailored products based upon the Pi hardware and software system. The Compute Module line is smaller and has less attributes and ports than a regular Raspberry Pi, that makes it suitable for Internet of Things (IoT) products.
“The module utilizes a standard DDR2 SODIMM form factor, sockets for which are made by several manufacturers, are easily available, and additionally are reasonable,” Raspberry Pi COO and hardware lead James Adams claimed in a post.
There are two versions of the CM3. The following are the specs for both:
BCM2837 central processing unit at up to 1.2GHz
4Gigabyte of on-module eMMC flash
BCM2837 processor at up to 1.2GHz
SD card interface on Module pins thus a person can connect it up to an eMMC or SD card that they pick
Both models can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which helps you to carry out the following:
Provides needed power to the CM3
Permits you to program the CM3 Standard’s flash memory or to make use of an SD card on the Lite version.
Access the processor interfaces in a a tad bit more friendly fashion (pin headers and flexi connectors, similar to the Pi)
Offers the essential HDMI and USB connectors so that you have an full system that can boot Raspbian (or maybe the OS that you pick).
“This board delivers both a starting template for those who want to design with the Compute Module, and a quick way to begin tinkering with the hardware, and building and testing a system, before you go to the cost of making a custom-made board,” Adam said.
The older Compute Module model will continue to be offered, for many who wouldn’t like the CM3’s performance increasing. As per the Raspberry Pi official magazine The MagPi:
“With a few caveats, the CM3 may be used a drop-in substitute for the CM1 being that they are pin compatible; the CM3 is 1mm taller, nonetheless, while the CPU can pull a lot more current from the VBAT power source line and will definitely generate far more heat under heavy load.”