Whilst looking to build some breakout boards we remembered the Sick of Beige (SoB) “standard” of PCB footprints designed by Dangerous Prototypes. DP have made a really cool set of PCB footprints in various sizes with the added bonus of being designed to be case friendly.
Dangerous Prototypes have a great page describing the various PCB sizes here:
Our first Sick of Beige (SoB) board is SoB DB9, using the DP5050 footprint. This is a handy little breakout board for those wanting to build their own 9-way D-Type interfaces be it for RS232, RS485, CAN bus or any other project.
A standard 9-way D-Type (Male) connector provides the interface with 3.5mm Screw Terminals connections provided for easy interfacing. In addition a Male Pin Header connections is also provided. Two small circuit prototyping areas are also provided.
– 9-Pin D-Type connector (Male)
– Easy to Connect Headers
– 3.5mm Screw Terminals
– 2.54mm Pin Header
– small circuit prototyping area x2
– Compatible with Sick of Beigh DP5050 footprint
– Board Dimensions: 50 x 50 mm
– 3.2mm Mounting Holes x4
– Industrial Control
As usual you can find them on our Tindie page here
Despite USB being everywhere, we still use a lot of industrial and embedded interfaces, such as RS232 and RS485 interfaces, in my projects. Legacy equipment especially and even new industrial equipment still use RS232 for programming and monitoring. While RS485 interfaces can still be found a lot in industrial communications such as factory automation.
So with this in mind we felt the needed an Raspberry Pi add-on board to simplify a lot of these connections. So here is the Raspberry PIIO FieldBus add-on board. It is a multi-communications board RS232 or RS485 and CAN Bus interfaces.
The board uses 3.3V components and is completely voltage compatible with the Raspberry Pi.
The board connects directly to the Raspberry Pi’s SPI to provide CAN Bus communications and also to the UART Rx and Tx to provide RS232 or RS485 communications.
CAN Bus interface uses MCP2515 CAN controller and MCP2551 CAN transceiver IC provides CAN Bus v2.0 A/B at 1 Mb/s. It is connected the Pi’s SPI Interface. Connection is provided via a 3-Way screw terminals.
RS232 interface uses a 3.3V MAX3232 (or Equivalent IC) chip and CTS (GPIO16) & RTS (GPIO17) signals are provided. Connection is provided via an industry standard 9-Way D Connector (Male).
RS485 interface uses 3.3V MAX3485 (or Equivalent IC) chip with DE (GPIO27) & !RE (GPIO22) used to control the RS485 transceiver control signals. Connection is provided via a 3-Way screw terminals to the outside world.
The Raspberry Pi expansion port has only on UART interface available for serial communications. So where both circuits are fitted, only one RS232 or one RS485 interface may be connected to the UART, therefore only one interface can be used at any time.
You can find them on our Tindie store
Relay2 is our latest RPi Zero add-on board. It’s designed to control low voltage and small-ish current devices such as DC motors, servos etc.
Relay2 is a 2-ch Relay board with two Change-Over (CO) relays. Each relay is good for 30V AC/DC at 1A. The relays can handle a greater voltage than 30V but given the close proximity of the actually RPi Zero board we would not recommend going above 30V. The relays are easy to select via GPIO headers and they use 3-way Screw Terminals.
You’ll find them on our Tindie store.
We are very pleased to show off our latest Raspberry Pi Zero add-on boards.
The board in the top of the picture is PIOO UserP0rt which features a 16-ch port expander and 8-ch ADC using the MCP23S17 and MCP3008 ic’s.
While the board in the bottom of the picture is PIIO ADC16 which is a 16-ch ADC board and features 2x MCP3008 ADC’s (each 8-ch, 10-bit).
You’ll find them on our Tindie store real soon.
This last month we’ve been working on some new add-on boards for the Raspberry Pi Zero.
In no particular order:
ADC16 – 16-ch ADC board (2x MCP3008 8-ch, 10-bit)
UserP0rt – 16-ch port expander and 8-ch ADC (MCP23S17 and MCP3008)
Relay2 – 2-ch Relay board (2x Relays 30V, 1A)
We’ve just sent these off to be manufactured, so we’ll post an update when we’ve got them back.
Following our earlier announcement we’re added the following Raspberry Pi Zero add-on boards to our Tindie store.
Available on Tindie here:
Break0ut (I2C, SPI, UART and GPIO)
Available on Tindie here:
We forgot to mention, you can also find build details on hackaday.io:
We’ve built a number of Raspberry Pi based arcade systems over the last few years starting in 2012 with R-Kade, last year with R-Kade Mini and now with our latest endeavour R-Kade Zero which fits into the palm of your hand.
So after receiving encouragement from a number of members at our local Maker Space we’ve took the plunge and started our first kickstarter for the R-Kade Zero mini arcade platform.
You can check it out at:
Another bunch of new PCB’s. This time for the Raspberry Pi Zero.
In no particular order, there’s a serial RS232 board, a GVS I/O board with ULN2803 for servo’s etc., a Breakout board (I2C, SPI, UART and GPIO) and another MIDI interface ;-).
More details/info shortly.
As usually you’ll find them on our Tindie store.
A bumper box of 10 new (yes 10 designs) PCB’s arrived this week.
In it were 5 new (and updated) add-on boards for the Raspberry PC and 5 new boards for the Guitar Effect pedal designs we’ve been working on.
For the Raspberry Pi, we have a new revision for our popular PIIO ULNB803/GVS board which now features 2 stepper motor connectors for the popular 5v 28YBJ-48 stepper motor. A new revision for the PIAC with new screw terminals. A brand new Digi-IO which is a real world interfacing board with RS485, two relays and some level shifter for inputs. Another brand new PIIO design called “RasPellar” which is a IO co-processor board using the Parallax 32-bit 8-core Propeller CPU and a new HAT sized prototyping board that can be used by it’s self or with RasPeller.
For the guitar effects we have two designs for a “modular electronic effects pedal” or MEEP to its friend. The MEEP board design gives you access to the audio In and Out jack sockets, 9V power and Vb (4.5V) as well as the foot switch and features a true bypass while the effects are added via a smaller daughter board. So if you get sick of using one guitar effect you can simply swap it out with a new effects daughter board for a lot less than buying a new pedal. MEEP BB3 (base board – 3 pots) has three Potentiometers (pots) and MEEP BB4 (base board – 4 pots) has 4 pots. To go with the MEEP base boards there is a prototyping board, MEEP Screamer a clone of the awesome Ibanez Tube Screamer pedal and MEEP Fuzzy yet another clone of the just as awesome Arbiter Fuzz Face.