XO Stick: Difference between revisions

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=Background=
The [[XOrduino|XOrduino!]] and XO Stick are [http://arduino.cc/en/ Arduino] compatible single board computers. A blank circuit board for each is included with every XO-4 touchscreen computer. These boards can be populated with inexpensive (US$5 approximately) components. Some soldering skills are required, the XOstick is recommended for beginners because it has no surface mount components.

The boards can be used in robotics experiments in two ways:
* Install the [http://arduino.cc/en/Main/Software Arduino IDE] in Gnome or [http://wiki.sugarlabs.org/go/Activities/Terminal Terminal] and use it to program the Arduinos as stand alone robotics experiments
* Load the Arduino with [[Arduino#Firmata|Firmata]] software (once only using the Arduino IDE) and use the Arduino as an Input/Output board for [http://wiki.sugarlabs.org/go/Activities/TurtleArt#Arduino Turtle Art]

[[File:Xostick-with-xo.JPG|300px]]

The XO Stick includes a USB type A plug and can be plugged in to an XO, as shown in this photograph.

A USB type B socket can be added; it is the metal rectangle in the photograph. This USB type B socket can be used with a USB type A to B cable, allowing the XO Stick to be further from the XO, and reducing the risk of the XO Stick breaking off in the XO socket.

= Out of Date =

The assembly notes and parts list here are somewhat out of date.

[[Image:xostick_xorduino.png|400px]]

This image shows the newer XOrduino and XOstick boards. The latest version of the XOstick board (v8) has no surface mount parts, and is an entirely PTH (through-hole) design.

=Parts list=
Required: (pick 1 of U1/U2)
*1,[http://www.digikey.com/product-detail/en/UMA1C100MDD/493-5946-ND/2598617 493-5946-ND],C1 10uF
*1,[http://www.digikey.com/product-detail/en/SR295E104MAR/478-5741-ND/2136301 478-5741-ND],C2 0.1uF
*2,[http://www.digikey.com/product-detail/en/1N5226BTR/1N5226BFSCT-ND/1992218 1N5226BFSCT-ND],D1 D2 3.3V Zener
*2,[http://www.digikey.com/product-detail/en/CF14JT68R0/CF14JT68R0CT-ND/1830323 CF14JT68R0CT-ND],R1 R2 68 ohm
*1,[http://www.digikey.com/product-detail/en/CF14JT1K50/CF14JT1K50CT-ND/1830354 CF14JT1K50CT-ND],R3 1.5k ohm
*1,[http://www.digikey.com/product-detail/en/ATTINY85-20PU/ATTINY85-20PU-ND/735469 ATTINY85-20PU-ND],U1
*1,[http://www.digikey.com/product-detail/en/ATTINY861-20PU/ATTINY861-20PU-ND/1245922 ATTINY861-20PU-ND],U2

Recommended:
*1,[http://www.digikey.com/product-detail/en/WP3A8GD/754-1217-ND/1747616 754-1217-ND],LED1 T1 Green
*1,[http://www.digikey.com/product-detail/en/WP3A8HD/754-1218-ND/1747617 754-1218-ND],LED2 T1 Red
*2,[http://www.digikey.com/product-detail/en/CF14JT470R/CF14JT470RCT-ND/1830342 CF14JT470RCT-ND],R4 R4 470 ohm
*1,[http://www.digikey.com/product-detail/en/FSM6JH/450-1652-ND/1632538 450-1652-ND],SW1 6mm
As seen in the photo, if you use a socket for the ICs(U1 & U2), you can get both and swap them.

= Assembly notes =
= Assembly notes =
* Break off the 2 tabs and glue them to the plug on the non copper side to make the board thick enough to plug into a USB connector. Cyanoacrylate, commonly known as "superglue", works well. Use as '''little''' glue as possible -- together, the three layers of board (at .8mm each) exactly match the nominal USB specification for the plug thickness (i.e., 2.4mm). Too much glue will make the connector not fit. In addition, clamp the three layers tightly while the glue dries, to keep the gaps small.
- LEDs are polarized, flat side should be down (towards big USB port)

- Zener diodes are polarized, make the black stripe match the stripe on the board
[[File:Xostick-tabs.JPG|200px]]

* When choosing components, note that the holes for the component leads are sized for modern, tiny, components. The old 1/4W resistors in your junk tray, or the LEDs you've been saving for 10 years until you have a use for them, might not fit.
* LEDs are polarized, flat side should be down (towards big USB port). The LEDs are optional, but at least one can be quite useful.
* Zener diodes are polarized, make the black stripe match the stripe on the board. If the USB will never be used, for programming or in operation, then the zeners are optional.
* The large capacitor is polarized, observe the +- marks.
* The IC's are 'polarized' the notch on the PCB and socket match the dot (pin 1) of the IC.
* The board supports either the Attiny 85 (8 pin) or 861 (20 pin) IC, but not both plugged in at once.
* All the components are mounted on the board top (the side with the white labels)
* You probably will want to [http://arduino.cc/en/Tutorial/ArduinoISP install the Arduino boot loader] on the IC

[[File:Xostick-assembled.JPG|500px]]

''The assembled board (an early version, lacking the prototyping area of later editions). Note the orientation of the IC, LEDs, diodes and big capacitor - IC dot top right, LED flat sides bottom, diode bar to the right and capacitor "-" to the bottom.''

= Burning the bootloader =
There is no stable bootloader yet but in theory you can burn the bootloader onto an unprogrammed ATTiny IC (8 or 20 pin) with another Arduino
[[XO_Stick/Bootloader]]


= Programming =
= Programming =
Line 27: Line 83:


- ATtiny261A should be at least ATtiny461a if not ATtiny861a, since USB library takes up 2496 bytes.
- ATtiny261A should be at least ATtiny461a if not ATtiny861a, since USB library takes up 2496 bytes.

(similarities: introduced in 2006, uses 'avr25' GCC arch id, 16 I/O Pins, 1 USI,1 8-bit counter, 1 16-bit counter, 2x2 PWM, 8ch/11b ADC, 20 MHZ max clock speed)
{| class="wikitable" border="1"
|-
! ATTINY
! Bytes of Flash
! Bytes of RAM
! Bytes of EEPROM
|-
| 261A
| 2048
| 128
| 128
|-
| 461A
| 4096
| 256
| 256
|-
| 861A
| 8192
| 512
| 512
|}

(cost: from 85 cents to 1.72 $ based upon qty)


- full size USB convert to mini or micro? (no through-hole micro-B connectors?)
- full size USB convert to mini or micro? (no through-hole micro-B connectors?)
Line 75: Line 157:


= See also =
= See also =

[[Arduino]]


[[XOrduino]]
[[XOrduino]]

[[XOrduino/bootloader]]

[[XO_Stick/Bootloader]]


= Links =
= Links =
Line 85: Line 173:
http://www.atmel.com/Images/doc2586.pdf datasheet Attiny85 (the 8 pin chip)
http://www.atmel.com/Images/doc2586.pdf datasheet Attiny85 (the 8 pin chip)
http://www.atmel.com/Images/doc2588.pdf datasheet Attiny861 (the 20 pin chip)
http://www.atmel.com/Images/doc2588.pdf datasheet Attiny861 (the 20 pin chip)
https://github.com/cscott/xostick circuit board artwork, drill table and notes
https://github.com/cscott/xostick circuit board artwork, drill table, bill of materials and notes
https://groups.google.com/forum/?hl=en&fromgroups#!forum/xorduino Google interest group
http://cananian.livejournal.com/66129.html and http://cananian.livejournal.com/66654.html blog
http://www.sparkfun.com/tutorials/106 a soldering tutorial
http://digistump.com/wiki/ The XO Stick should be roughly compatible with the "DigiSpark"

Latest revision as of 07:50, 24 February 2014

Background

The XOrduino! and XO Stick are Arduino compatible single board computers. A blank circuit board for each is included with every XO-4 touchscreen computer. These boards can be populated with inexpensive (US$5 approximately) components. Some soldering skills are required, the XOstick is recommended for beginners because it has no surface mount components.

The boards can be used in robotics experiments in two ways:

  • Install the Arduino IDE in Gnome or Terminal and use it to program the Arduinos as stand alone robotics experiments
  • Load the Arduino with Firmata software (once only using the Arduino IDE) and use the Arduino as an Input/Output board for Turtle Art

Xostick-with-xo.JPG

The XO Stick includes a USB type A plug and can be plugged in to an XO, as shown in this photograph.

A USB type B socket can be added; it is the metal rectangle in the photograph. This USB type B socket can be used with a USB type A to B cable, allowing the XO Stick to be further from the XO, and reducing the risk of the XO Stick breaking off in the XO socket.

Out of Date

The assembly notes and parts list here are somewhat out of date.

Xostick xorduino.png

This image shows the newer XOrduino and XOstick boards. The latest version of the XOstick board (v8) has no surface mount parts, and is an entirely PTH (through-hole) design.

Parts list

Required: (pick 1 of U1/U2)

Recommended:

As seen in the photo, if you use a socket for the ICs(U1 & U2), you can get both and swap them.

Assembly notes

  • Break off the 2 tabs and glue them to the plug on the non copper side to make the board thick enough to plug into a USB connector. Cyanoacrylate, commonly known as "superglue", works well. Use as little glue as possible -- together, the three layers of board (at .8mm each) exactly match the nominal USB specification for the plug thickness (i.e., 2.4mm). Too much glue will make the connector not fit. In addition, clamp the three layers tightly while the glue dries, to keep the gaps small.

Xostick-tabs.JPG

  • When choosing components, note that the holes for the component leads are sized for modern, tiny, components. The old 1/4W resistors in your junk tray, or the LEDs you've been saving for 10 years until you have a use for them, might not fit.
  • LEDs are polarized, flat side should be down (towards big USB port). The LEDs are optional, but at least one can be quite useful.
  • Zener diodes are polarized, make the black stripe match the stripe on the board. If the USB will never be used, for programming or in operation, then the zeners are optional.
  • The large capacitor is polarized, observe the +- marks.
  • The IC's are 'polarized' the notch on the PCB and socket match the dot (pin 1) of the IC.
  • The board supports either the Attiny 85 (8 pin) or 861 (20 pin) IC, but not both plugged in at once.
  • All the components are mounted on the board top (the side with the white labels)
  • You probably will want to install the Arduino boot loader on the IC

Xostick-assembled.JPG

The assembled board (an early version, lacking the prototyping area of later editions). Note the orientation of the IC, LEDs, diodes and big capacitor - IC dot top right, LED flat sides bottom, diode bar to the right and capacitor "-" to the bottom.

Burning the bootloader

There is no stable bootloader yet but in theory you can burn the bootloader onto an unprogrammed ATTiny IC (8 or 20 pin) with another Arduino XO_Stick/Bootloader

Programming

AVR Stick firmware will work unmodified (for the ATtiny85 version): http://www.sparkfun.com/products/9147

Sample programming command:

avrdude -c usbtiny -pattiny85 -U flash:w:main.hex  -U hfuse:w:0xdd:m -U lfuse:w:0xe1:m

Or "make fuse program" from the AVR Stick source distribution.

Do this as root if you need to (then go fix your udev by adding something like the following as /etc/udev/rules.d/10-usbtiny.rules

SUBSYSTEM!="usb|usb_device", GOTO="usbtiny_rules_end"
ACTION!="add", GOTO="usbtiny_rules_end"

ATTRS{idVendor}=="1781", ATTRS{idProduct}=="0c9f", MODE="0664", GROUP="plugdev"

LABEL="usbtiny_rules_end"

Would be nice to eventually have an assembly guide as detailed as the one for http://www.sparkfun.com/products/10547

C. Scott's other notes

Notes on v5:

- ATtiny261A should be at least ATtiny461a if not ATtiny861a, since USB library takes up 2496 bytes.

(similarities: introduced in 2006, uses 'avr25' GCC arch id, 16 I/O Pins, 1 USI,1 8-bit counter, 1 16-bit counter, 2x2 PWM, 8ch/11b ADC, 20 MHZ max clock speed)

ATTINY Bytes of Flash Bytes of RAM Bytes of EEPROM
261A 2048 128 128
461A 4096 256 256
861A 8192 512 512

(cost: from 85 cents to 1.72 $ based upon qty)

- full size USB convert to mini or micro? (no through-hole micro-B connectors?)

- LED1/LED2 need better polarity mark (flat side is down, towards big usb port)

- use '-kit' suffixed versions of footprints (solder mask on component side)

- break off tab appears to work well.

- island between tabs should be anchored to body, not tabs?

- can we avoid anchors on break off tabs, instead use central anchor?

  ie.
    T
 ------------
|            |
 --          \--
TXT|            |
 --          \--
|            |
 ------------
    T
where T indicates tabs.

- remove symmetry from USB connector placement to allow two tabs on XOrduino board. (ie, move connector all the way down)

Distribution

1. cjb
2. cjb
3. Steve Pomeroy
4. Quozl
5. Mike Lee
6. Pippin Wallace
7. Pippin Wallace
8. Sridhar Dhanapalan
9. Tony Forster
10. Javier Andres Galaz Jeria
11. Alan Jhonn Aguiar Schwyn
12. Stephen Thomas
13. Ricardo Moran
14. George Hunt
15. Juan Cubillo
19. cscott (no pcb)

Sources

http://github.com/cscott/xostick -- look at the "A1" tag for the schematics for the A1 boards. Latest XO Stick is at HEAD, targetted for the B1 build.

See also

Arduino

XOrduino

XOrduino/bootloader

XO_Stick/Bootloader

Links

http://www.sparkfun.com/datasheets/Widgets/AVR-Stick-v12.pdf indicative circuit diagram XOstick1
https://github.com/cscott/xostick/blob/master/XO-Stick2-sch.pdf circuit diagram XOstick2
http://arduino.cc/en/Tutorial/ArduinoISP programming the bootloader with another Arduino
https://www.sparkfun.com/products/9825 pocket programmer
http://www.atmel.com/Images/doc2586.pdf datasheet Attiny85 (the 8 pin chip)
http://www.atmel.com/Images/doc2588.pdf datasheet Attiny861 (the 20 pin chip)
https://github.com/cscott/xostick circuit board artwork, drill table, bill of materials and notes
https://groups.google.com/forum/?hl=en&fromgroups#!forum/xorduino Google interest group
http://cananian.livejournal.com/66129.html and http://cananian.livejournal.com/66654.html blog
http://www.sparkfun.com/tutorials/106 a soldering tutorial
http://digistump.com/wiki/ The XO Stick should be roughly compatible with the "DigiSpark"