Sanguinololu
Release status: working
Description | Release Version 1.1
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License | unknown
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Author | |
Contributors | |
Based-on | [[]]
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Categories | |
CAD Models | Eagle
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External Link |
Contents
Introduction
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Sanguinololu is a low-cost all-in-one electronics solution for Reprap and other CNC devices. It features an onboard Sanguino clone using the ATMEGA644P though a ATMEGA1284 is easily dropped in. Its four axises are powered by Pololu pin compatible stepper drivers.
The board features a developer friendly expansion port supporting I2C, SPI, UART, as well as a few ADC pins. All 14 expansion pins can be used as GPIO as well.
The board is designed to be flexible in the user's power source availability, allowing for an ATX power supply to power the board, or the user can chose to install the voltage regulator kit for use with any power supply 7V-30V.
Latest Updates
Latest revision: 1.1 Updated May 9, 2011 Boards and kits are now available on eMAKERshop.
Latest posts in the Forum
Features
- Small design - board is 100mm x 50mm (4" x 2") - barely an inch longer than a business card!
- Sanguino clone, Atmel's ATmega644P - ATmega1284 drop-in compatible!!
- Up to 4 Pololu (or Pololu compatible) on-board (X,Y,Z,Extruder) (A4983 without voltage regulator)
- Supports multiple power configurations
- -- Logic & Motors supplied by ATX power supply (needs molex harddrive connector, and optional 4pin atx connector for additional 12v)
- -- Motors supplied by 5mm screw terminal 7-35V
- -- Logic supplied by USB bus
- -- Logic supplied by optional on-board voltage regulator (molex harddrive connector cannot be installed at the same time)
- Supports multiple communication configurations
- -- FT232RL on-board for USB connectivity
- -- USB2TTL header is available for FTDI cable, or BlueSMIRF bluetooth module
- 2 thermistor connectors with circuitry
- 2 N-MOSFETs for extruder/bed, or whatever
- Selectable 12v/5v endstop voltage
- Edge connectors enabling right-angle connections
- Silkscreen for connectors on both sides of the board, facilitating bottom cable connections
- 14 Extra pins available for expansion and development - 6 analog and 8 digital, with the following capabilities
- -- UART1 (RX and TX)
- -- I2C (SDA and SCL)
- -- SPI (MOSI, MISO, SCK)
- -- PWM pin (1)
- -- Analog I/O (6)
- All through-hole components (except FTDI chip) for easy DIY soldering
Schematic & Board Images
Renders
Photos
Where to get it?!
You can get the bare pcb or a complete kit at eMAKERshop
(if any other resellers have this available, please add to this section)
You will also need Pololu or Pololu compatible stepper drivers such as StepStick
EAGLE files, parts list
Schematics, board, images: https://github.com/mosfet/Sanguinololu/tree/master/rev1.1
Parts: https://github.com/mosfet/Sanguinololu/tree/master/rev1.1/parts.txt
Mouser part projects
Everything you need except the PCB!
Project Name | Project Description | Price (as of 4-7-2011) |
---|---|---|
Sanguino Core (all versions) | The base project. Does not include FTDI implementation or power connectors. Chose this and then chose add-ons from below. | $21.95 (USD) |
ATX power connector kit | Vertical plugs for using the ATX power supply's ATX+4 12V connector and 4 pin HDD connector. If you install this, you can't install the Screw terminal & Voltage regulator kit... but why would you want to anyway. | $1.86 (USD) |
Screw terminal & Voltage regulator kit | 5mm Screw terminal and voltage regulator (and supporting parts) for those not wanting to use an ATX power supply, or would rather use a single volt power supply, 7-24V (25v if you install larger caps). If you've been following along, you know that if you install this, you can't install the ATX power connector kit. | $1.55 (USD) |
FTDI & USB plug kit | This kit includes a USB type B connector and a SSOP FTDI FT232RL chip (and supporting parts) commonly used for serial communication over USB. | $5.30 (USD) |
Polarized Connector Kit | Polarized right-angle connectors for the edge, and matching cable housings. Cable side is easy pinch type connectors, so no soldering or crimping is needed. | $4.30 (USD) |
If you expect your heated bed to use a lot of current (say more than 5A) you may care to use an IRF2804PbF MOSFET in place of the RFP30N06LE one specified for Q2. The RFP30N06LE has an on resistance of 47 mohms, but the IRF2804PbF has an on resistance of only 2 mohms.
Assembly Instructions (Version 0.7 - 1.1)
For older versions see Sanguinololu_0.6
Introduction
Gather the tools you will need to perform push through hole soldering, and if you opted for the on-board FTDI kit, some SMT soldering as well. Soldering pencil and/or iron, solder, and most importantly: flux! I can't stress how much easier flux makes soldering the SMT device.
Carefully inspect carefully inspect your board for defects. Look for strange connections between traces. Become familiar with the locations of devices from the back as well as the front.
Gather your components and ensure you have the complete parts list for your selection. This photo shows enough parts for two Sanguinololus - one with ATX connectors and the other with screw terminal and voltage regulator.
Soldering the FTDI
Install the FT232RL FTDI IC. Note the orientation of the silkscreen. Solder using your favorite SMT soldering method. The board pictured was tinned from the fabrication shop. After applying flux to the pads, and carefully placing the chip, it was easily soldered by touching the tip of the soldering pencil to the end of pad to tack the chip down, and then on the pin it self to flow the solder correctly.
Parts:
IC100 FT232RL FT232RLSSOP
Next install the FTDI components. mind the polarization on the electrolytic (C16).
Parts:
J1 USB USBPTH C7 0.1uF CAPPTH2 C8 0.1uF CAPPTH2 C11 0.1uF CAPPTH2 C15 0.1uF CAPPTH2 C16 4.7uF CAP_POLPTH2
Now is a good time to test the FTDI chip. Plug a USB cable into the port. The device should show up as a COM port or a TTY device and allow it to be opened. TODO: Add loopback test info here
Soldering Sanguinololu Core
Next, solder female headers, make sure they're straight and completely seated on the PCB.
Parts:
4x Female Pin Header 16 Pin
Solder ms1 jumper headers. I find that it is easier to solder the 2 pin header if the jumper shunt is installed. Ensure they're completely seated and straight.
Parts:
12x Male Pin Header 2 Pin 12x Jumper Shunt
Install the led current limiting resisitor and the MS1 pulldown resistors.
Parts:
R1 1.5k RESISTORPTH1 R2 100k RESISTORPTH1 R3 100k RESISTORPTH1 R4 100k RESISTORPTH1 R5 100k RESISTORPTH1
Solder the driver decoupling caps. Before soldering, bend the leads to the side so the capacitor lays down. Mind the polarization!
Parts:
C1 100uf CAP_POLPTH1 C2 100uf CAP_POLPTH1 C3 100uf CAP_POLPTH1 C4 100uf CAP_POLPTH1
Install the MOSFET pulldown resistors as well as the UART current limiting resistors. Install the thermistor high pass filters. Mind the polarization.
Parts:
R6 10k RESISTORPTH1 R11 10k RESISTORPTH1 R7 1k RESISTORPTH1 R8 1k RESISTORPTH1 C9 10uF CAP_POLPTH2 C10 10uF CAP_POLPTH2 R9 4.7k RESISTORPTH1 R10 4.7k RESISTORPTH1
Install the dip socket and resonator. Before soldering, bend the resonator leads so that it lays down in the dip socket.
Parts:
DIP-40 SOCKET Y1 16MHz 22pF RESONATORPTH
Install the two ceramic caps for the ATMEGA and the reset pull up resistor.
Parts:
C14 0.1uF CAPPTH2 C13 0.1uF CAPPTH2 R12 100k RESISTORPTH1
Solder the MOSFET, the large charge capacitor, reset button, and the power led. The power led's negative lead is the flat side, or short lead. The negative lead goes to the left in the picture immediately below.
Parts:
Q1 RFP30N06LE MOSFET-NCHANNELPTH2 Q2 RFP30N06LE MOSFET-NCHANNELPTH2 C12 1000uF CAP_POLPTH4 S1 RESET TAC_SWITCHPTH LED1 POWER LED3MM
ATX Power Supply Source
If you are using the ATX power supply kit, install those connectors.
Parts:
ATX1 ATX-4VERTICAL ATX-4VERTICAL HDDPWR 5v/12v DRIVEPWRVERTICAL
Voltage Regulator & Screw Terminal
If you are using the voltage regulator and screw terminal kit, install those parts now. Note the orientation of the LM7805. Label the screw terminal with a felt tip marker which side is + and which is -. Note - on later versions of this board the screw terminals mount at right angles to the way shown so the wire they connect comes out parallel to the USB lead.
Parts:
IC1 LM7805 VREG C5 0.33uF CAPPTH2 C6 0.1uF CAPPTH2 JP23 SCREW M025MM
Connectors
Finally, solder your motor, end stop, thermistor, and bed/tip connectors. Optionally solder the 12v connectors on the top of the board, and the ISP 6 pin header (for programming the ATMEGA) Various parts.
Pololus
When you solder the pin strips onto the Pololus you will find it easiest to put the strips in the appropriate place in the Sanguinololu. Then just drop the Pololu boards on top and solder them in place. You can then unplug them later if you want.
Endstops
The power to the endstop connectors can be either 5v or 12v depending on what endstop device you want to use. This is selected by soldering a little link labeled "Stop Volt" on the back of the board. With the text the right way up, joining the left pad to the middle one gives 12v; right-to-middle gives 5v. Take care not to short all three together...
Sanguinololu Firmware
While there isn't a specific firmware for Sanguinololu, you can program the ATMEGA644P with Sanguino's [bootloader] for easy firmware loading.
Some are using the Sprinter firmware on this board successfully.
For RepRap firmware, you'll need to customize your firmware for correct pin layout. Please note that this layout is for Sanguinololu 0.7 and up.
Pin Assignments
stepper-enable D4 PB4 e-dir D0 PB0 e-step D1 PB1 z-dir D2 PB2 z-step D3 PB3 y-dir D23 PC7 y-step D22 PC6 x-dir D21 PC5 x-step D15 PD7 hotbed D13 PD5 hotend D14 PD6 b-therm D25 AI6 PA6 e-therm D24 AI7 PA7 x-stop D18 PC2 y-stop D19 PC3 z-stop D20 PC4
Revision 0.5 / 0.6 Info
See Sanguinololu_0.6 for assembly instructions, board files, etc.
Revision History
Rev 1.1 Corrected silkscreen mistake. Added open hardware logo
Rev 1.0 Release revision, tighter DRC rules, and updated screw terminal footprint. Looks like there is one tiny mistake on the 1.0 board: the leftmost 5v pin on the expansion header is actually 12v.
Revision 1.0 is here with only a few tiny changes from 0.7 - the screw terminal pads have been rotated so that they face the closest edge, and the design rules have become more strict to be compliant with more board fab shops. I've included gerber files in git so that you can easily have your own boards fabbed.
Rev 0.7 Added more pins to the expansion header, made I2C and SPI available for use. Combined all stepper motor enable nets into one pin.
Added footprints for voltage regulator for those wanting to use laptop power brick, etc. The vreg component footprints are hidden under the ATX power supply for space saving and to prevent both from being in use.
Enabled USB bus power for logic side.
Connected the 5v pin on the USB2TTL header so that either a: ftdi cable can power the board, or b: The board can power a bluetooth serial module (bluesmirf).
See Sanguinololu_0.6 for older revision history