Serial adapters: Difference between revisions

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[[File:Serial_adapter_3.png|400px|thumb]]The serial kit has:
[[File:Serial_adapter_3.png|400px|thumb]]The serial kit has:
* an adapter, with a USB type B socket at one end, and four header pins at the other,
* an adapter, with a USB type B socket at one end, and four header pins at the other,
* a short cable with four coloured wires,
* a short 210mm cable with four coloured wires,
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The [[XO-4]] has three serial ports:
The [[XO-4]] has three serial ports:
* UART 1, CN23, connected to the CPU, has the usual white connector pinout, and is used by CForth and Open Firmware,
* UART 1, CN18, connected to the CPU, has the usual white connector pinout, and is used by CForth and Open Firmware,
* UART 2, CN18, connected to the CPU, is usually not populated, is used by CForth and potentially for kernel debugging,
* UART 2, CN23, connected to the CPU, is usually not populated, is used by CForth and potentially for kernel debugging,
* CN19, under the heat spreader, connected to the embedded controller, has the usual white connector pinout, is used by the EC firmware only.
* CN19, under the heat spreader, connected to the embedded controller, has the usual white connector pinout, is used by the EC firmware only.


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[[Image:serial adapter.jpg|thumb|First gen serial adapter]]
[[Image:serial adapter.jpg|thumb|First gen serial adapter]]
The original adapter that came with the XO-1 ´´ATest´´ boards was very simple and only does +3.3V serial to RS232 voltage level conversion. This only works on the XO-1.
The original adapter that came with the XO-1 ´´ATest´´ boards was very simple and only does +3.3V serial to RS232 voltage level conversion. It must be supplied 3.3V from the laptop. Of the XO laptop models, this adapter only works on the XO-1, because only the XO-1 supplies 3.3V on pin 1 of the connector.

There is nothing else about this adapter that is useful, and modern USB adapters are recommended now.


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Similar adapters are available from third-parties at low cost. Some examples include:
Similar adapters are available from third-parties at low cost. Some examples include:
* Adafruit [http://www.adafruit.com/products/284 FTDI Friend + extras]
* Adafruit [http://www.adafruit.com/products/70 FTDI Serial TTL-232 USB Cable] 178cm (but do not use 5V pin)
* Adafruit [http://www.adafruit.com/products/954 USB to TTL Serial Cable - Debug / Console Cable for Raspberry Pi] 91cm
* Adafruit [http://www.adafruit.com/products/1588 Bluefruit EZ-Link - Bluetooth Serial Link & Arduino Programmer]
* DLP EVAL232R (EVAL232R)
* DLP EVAL232R (EVAL232R)
* Sparkfun [https://www.sparkfun.com/products/9873 FTDI Basic Breakout - 3.3V (DEV-09873)]
* [https://jim.sh/ftx/ MicroFTX] serial adapter (must add pins)
* Pololu [http://www.pololu.com/product/391 USB-to-Serial Adapter] (must add pins)
* Sparkfun [https://www.sparkfun.com/products/9716 FTDI Basic Breakout - 5V (DEV-09716)] (but reconfigure the traces for 3.3V)
* Pololu [http://www.pololu.com/product/1308 CP2104 USB-to-Serial Adapter Carrier] (must add pins)
* Sparkfun [https://www.sparkfun.com/products/9873 FTDI Basic Breakout - 3.3V (DEV-09873)] (has female pin sockets)
* Sparkfun [https://www.sparkfun.com/products/9716 FTDI Basic Breakout - 5V (DEV-09716)] (but reconfigure the traces for 3.3V) (has female pin sockets)
* Sparkfun [https://www.sparkfun.com/products/retired/8772 FTDI Basic Breakout - 3.3V (DEV-08772)] (retired product)
* Sparkfun [https://www.sparkfun.com/products/retired/8772 FTDI Basic Breakout - 3.3V (DEV-08772)] (retired product)
* Sparkfun [https://www.sparkfun.com/products/retired/10009 (DEV-10009)] (retired product)
* Sparkfun [https://www.sparkfun.com/products/retired/10009 (DEV-10009)] (retired product)
* Sparkfun [https://www.sparkfun.com/products/718 FTDI Breakout Board (BOB-00718)]
* Sparkfun [https://www.sparkfun.com/products/718 FTDI Breakout Board (BOB-00718)] (must add pins)
* Sparkfun [https://www.sparkfun.com/products/12977 USB to TTL serial cable - 3.3V (CAB-12977)] (has female pin sockets)
* [https://jim.sh/ftx/ MicroFTX] serial adapter
* Sparkfun [https://www.sparkfun.com/products/12577 Bluetooth Modem - BlueSMiRF Silver] WRL-12577 (must add 3.3V supply, must add pins)
* Sparkfun [https://www.sparkfun.com/products/12576 Bluetooth Mate Silver] WRL-12576 (must add 3.3V supply, must add pins)

A serial cable is still needed, or experts can tack solder fine wire to pads.


See also:
= See Also =
* [[Serial adapters/Arduino|How to use an Arduino as a Serial Adapter]]
* [[Serial adapters/Arduino|How to use an Arduino as a Serial Adapter]]
* [[Bluetooth/Serial|How to use an XO-4 laptop as a serial console for another XO laptop via a Bluetooth modem]]


[[Category:Hardware]]
[[Category:Hardware]]

Latest revision as of 20:45, 21 October 2015

Serial connectors are exposed on the XO laptop motherboard, allowing advanced diagnostics. When hooked up to another computer, a serial console allows you to:

  • View firmware messages as the system is booting (even before the display is initialized)
  • Interrupt the booting process at the firmware level and execute forth commands
  • View kernel messages as Linux is booting (even before the display is initialized)
  • Access a root shell

A cable and adapter are needed for this. If your development efforts would benefit from having this available, please ask your OLPC technical contact, or ask on the devel@ mailing list.

Alternatively, you can construct your own adapter from adapters made by third-parties based on the specifications here.


Ingredients

You will need:

Recipe

Serial kit

Serial adapter 3.png

The serial kit has:

  • an adapter, with a USB type B socket at one end, and four header pins at the other,
  • a short 210mm cable with four coloured wires,


Where to get it?

Serial kits are available for a small charge from http://iLoveMyXO.com directly from their blog at http://iLoveMyXO.wordpress.com

See Spare Parts as well as http://twitter.com/iLoveMyXO for availability announcements.

You may also use other adapters.

Locate the Connectors

See the subsection below for the laptop model.

Reminder: while the laptop is open, follow the precautions to prevent electrostatic damage.

XO-4

XO-4 UART 1, is in the same position as XO-1.75 UART 3 was so this photograph applies

The XO-4 has three serial ports:

  • UART 1, CN18, connected to the CPU, has the usual white connector pinout, and is used by CForth and Open Firmware,
  • UART 2, CN23, connected to the CPU, is usually not populated, is used by CForth and potentially for kernel debugging,
  • CN19, under the heat spreader, connected to the embedded controller, has the usual white connector pinout, is used by the EC firmware only.

The XO-4 has two additional serial ports that are not available for use:

  • UART 3, is not configured and has no connector,
  • UART 4, is connected to the touchscreen controller for reprogramming.


XO-1.75

XO-1.75 UART 3

The XO-1.75 has five serial ports:

  • UART 1, is connected to the CPU, has a difficult to access pinout on a diagnostics port, is generally not used,
  • UART 2, is not connected,
  • UART 3, CN8, connected to the CPU, has the usual white connector pinout, and is used by CForth and Open Firmware,
  • UART 4, CN23, connected to the CPU, has the usual white connector pinout, is used by CForth and potentially for kernel debugging,
  • CN14 connected to the embedded controller, has the usual white connector pinout, is used by the EC firmware only.


XO-1.5

XO-1.5 J4 Close-up
XO-1.5 J1 Close-up

The XO-1.5 laptop has two serial ports:

  • J4, connected to the CPU, is a white 4-pin header at the top left of the motherboard near a USB socket and the DCON RAM chip. Note: plug it in before turning on the laptop, see XO-1.5 Caveats below.
  • J1, connected to the embedded controller, is generally not used, and is solder pads with no header connector.


XO-1

XO-1 J1 Close-up
XO-1 with cable to J1

The XO-1 laptop has two serial ports:

  • J1, is a white 4-pin header (picture) located just below the yellow block labelled "+3.3V Supply" on the photo at XO Motherboard, is connected to the serial console on the AMD CS5536 Southbridge processor,
  • CN24, connected to the embedded controller, is generally not used, and is solder pads with no header connector. A connector can be added, see photograph.


Attach Cables

The small white end of the cable is to be attached to the connector identified above.

The large black end of the cable is to be attached to the pins on the adapter. Take care to line up the connector to match the names of the cable colours printed on the adapter.

3rd generation serial adapter, showing colour annotations and matching cable connector with wires


On the other end of the adapter is a USB type B socket. Use a USB type A to type B cable. These are not provided in the kit, but you can find them at any computer shop, they are the same cables used for USB printers. Connect the other end of the USB cable to the USB port of another computer where you will be performing the diagnosis. The device will then be recognised as a USB-serial port.

Reminder: while the laptop is open, follow the precautions to prevent electrostatic damage.

Avoid Shorting

serial adapter with heatshrink

Take care not to allow contact between the serial adapter circuit board and metal objects. For regular use in a crowded workspace, enclose the adapter in heatshrink. For example, this adapter is enclosed in 20mm diameter yellow, and 13mm diameter clear, so that the indicators D2 and D1 can be seen.

Software

The serial adapter contains an FT232R chip made by FTDI, and there are drivers for all major operating systems. The serial console can then be operated through any standard terminal application using the following settings:

  • 115200 baud
  • 8 data bits
  • No parity
  • 1 stop bit
  • Handshake disabled
  • Hardware flow control disabled
    • In the USB modes the hardware flow control pins are wired so that they are de-asserted. Therefore the hardware flow control setting does not matter. The RS232 flow control lines on the DB9 were left unconnected and can float such that the flow control is asserted. So in RS232 modes hardware flow control must be disabled.
  • Initialization string: none
  • Reset string: none

Linux

Plug in the adapter and the kernel will create a device /dev/ttyUSB0, or later.

To connect to the serial console, use screen:

screen -L /dev/ttyUSB0 115200
  • the -L flag creates a log file, such as screenlog.0,
  • replace /dev/ttyUSB0 with whatever device is appropriate,
  • the 115200 specifies the baud rate,

When screen is running:

  • what you type is sent to the serial console,
  • incoming serial console data is displayed,

Several keyboard shortcuts can be used:

  • use ctrl+a ctrl+d to detach from the screen, then to reattach: screen -r,
  • use ctrl+a ctrl+b to send a BREAK. Open Firmware responds to a BREAK by interrupting the currently executing code. Linux can be configured to respond to a BREAK.
  • use ctrl+a ctrl+a to send a ctrl+a,
  • use ctrl+a K to close the screen "window" for the connection and terminate screen.

Some things that might go wrong:

  • if you use an XO as the host, screen may be missing because it is not included in our builds, you may install it using yum.
  • screen is configured slightly differently across our builds with respect to the terminate key, ctrl+a \ works on 11.2.0, but not 10.1.3, but ctrl+a K works with both.
  • some hosts, including XOs with OLPC OS, may have trouble using a serial adapter, see more detail.
  • if you use an XO as the host, with power management enabled, the /dev/ttyUSB0 device may disappear as a result of suspend. This will terminate screen. Either turn off power management, or prevent it from interfering by prefixing the command with olpc-nosleep, or just restart screen if you can afford to lose output.
  • when you have many serial adapters, it can be difficult to figure out which one is which. Look for device aliases at /dev/serial/by-path or /dev/serial/by-id. The by-path aliases are quite long, but are unique by USB socket.

An older option is to use minicom, however this adds complex configuration and menus. minicom is also packaged in major Linux distributions. Run "minicom -s" to configure it with the settings suggested above. Adjust the device path (e.g. /dev/ttyUSB0). Exit minicom. Then connect the adapter and run "minicom" again.

If you are running minicom on Fedora and get "Device /dev/ttyUSB0 lock failed: Operation not permitted" errors, re-create the /var/lock/lockdev directory -- more info at https://bugzilla.redhat.com/show_bug.cgi?id=722814 .

Next, move on to testing.

Windows

Download and install the driver using the instructions.

The serial adapter will appear as a COM device and can be operated through HyperTerminal, which is included in a standard Windows install.

It is possible that COM1 and COM2 are already present and that the adapter will appear as a new COM port, COM3 (or above) when connected and the driver is loaded. If so, configure HyperTerminal for this device.

Fdti3.JPG

Next, move on to testing.

Macintosh

The FTDI driver is not included in Mac OS X. Download and install the driver using the instructions.

The hardware will appear as /dev/tty.usbserial-SN, where SN is the serial number.

screen is also included in Mac OS X, and works well. The default settings are adequate, with the exception of the baud rate. To connect, identify the name of the device in /dev, and start screen like this:

screen /dev/tty.usbserial-A6008ShI 115200

(A6008Shl is the serial number in this example, shell autocomplete makes this unimportant, because you may typically press tab after the letters usb)

Use ctrl-a k to kill window, which causes screen to terminate.

Next, move on to testing.

Remote Linux

How to provide remote serial adapter access to someone on the internet. On the host that has the serial adapter USB side plugged into it:

  • install the ser2net package,
  • configure /etc/ser2net.conf, deleting unnecessary entries and adding
8097:telnet:0:/dev/ttyUSB0:115200
  • start ser2net
service ser2net start
  • ssh to some remote host that both people have an account on, using a reverse port forward,
ssh -R 8097:localhost:8097 $REMOTE_HOST

Then tell the other person to type "telnet 0 8097" on that remote host.

Open Firmware

See Firmware/Serial_Terminal, then move on to testing.

Testing

You may check that the serial adapter, driver and terminal software are working.

With the serial adapter connected to the computer running the software, but not connected to anything else, type on the keyboard and watch the adapter; one LED, D1 should blink, and there should be nothing displayed on screen.

Testing the adapter is working, bridge TX and RX.

With the TX and RX terminals temporarily connected, using a screwdriver tip, coin, or jumper leads, type on the keyboard and watch the adapter and the screen; both LEDs, D1 and D2, should blink, and what you type should be displayed on the screen.

If both tests pass, you can have confidence that the host and the serial adapter are ready for use.

Reassemble

After connecting and testing the serial console, you might want to reassemble the system. If you want to have the serial cable still accessible for quick connection of the serial board, you have a few options:

Run it through the side

Cable exposed through side

There are some holes in the white plastic where the green side-bumper normally gets hooked on (directly to the right of the power button and game keys). You can run the cable through here. You will not be able to properly reattach the side-bumper, you can leave it off or attach it loosely at an angle.

Jam it under the back cover

Cable exposed through cover

If you look carefully you will see that in some places, the back cover of the laptop does not make as forceful contact with the rest of the laptop in some places. You can run the cable through here.

When re-attaching the back cover, you'll have to apply some force and screw it in well. The cable will probably break at some point due the pressure here. However, it served well on an XO after 2 years.

Modify the laptop

Socket mounted in plastic

If you expect the serial cable to be used frequently, and yet you need a child to be able to use the laptop, you might also modify the plastic case.

XO-1.5 Caveats

On the XO-1.5, the adapter must be connected before the laptop boots. If it is connected later, it will not work until the laptop is rebooted.

This is because the serial port shares resources with the camera. Only one can be used at a time. If the adapter is detected at boot time, it will be used. The via-camera Linux driver detects that an adapter is being used and does not load. If this check is not working, you will see random data on the serial console when the driver loads.

This exclusivity between serial port and camera prevents use of a an adapter to diagnose camera issues on the XO-1.5. You can use telnet instead.

The XO-1.5 requires the 3rd generation adapter.

Adapters

Unless otherwise stated, OLPC will always ship the most recent serial adapter generation.

Third generation serial adapter

Third gen serial adapter

The current generation of serial adapter is USB-only and does not have any jumper for configuration - just connect it up and go. It works on XO-1, XO-1.5, XO-1.75 and XO-4.

Second generation serial adapter

(this section is for historical reference only)

Second gen serial adapter

The second generation adapters are able to do the conversion from LVTTL (3.3V TTL) to RS232 and USB. The also have a mode for converting RS232 to USB. In the RS232 modes they are able to work with both straight and NULL modem cables. Because of this they are a bit more complicated than the first generation adapters. They only work on XO-1.

This complexity is in the form of 2 jumper blocks on the adapters. Blocks J4 and J6.

J4: Mode select block

J4: Mode select block

J4 selects between the 3 modes of operation.

Mode 1: TTL<->USB

  • Jumper 1&2, 5&6

Mode 2: RS232<->USB

  • Jumper 3&4, 7&8

Mode 3: TTL<->RS232

  • Jumper 2&4, 6&8

Note: in the same PCB this conventions are clearly marked

J6: Null Modem block

In the RS232 modes 2 & 3, J6 will swap the TX and RX lines. Normally changing these jumpers is not necessary.

  • RS232 NULL Modem: 1&2, 5&6
  • RS232 Normal: 3&4, 7&8

To make the adapter appear like a serial port you would find on a PC you would use normal wiring. Connection between the adapter and the PC would use a NULL modem or crossover cable. Just like you would use if you were connecting 2 PC's to each other.

If you are using a serial cable that is wired to be straight through then you would use NULL modem wiring.

If you are using Mode 1 then the settings for J6 do not make any difference because the DB9 is not used.

First generation serial adapter

(this section is for historical reference only)

First gen serial adapter

The original adapter that came with the XO-1 ´´ATest´´ boards was very simple and only does +3.3V serial to RS232 voltage level conversion. It must be supplied 3.3V from the laptop. Of the XO laptop models, this adapter only works on the XO-1, because only the XO-1 supplies 3.3V on pin 1 of the connector.

There is nothing else about this adapter that is useful, and modern USB adapters are recommended now.


Electrical details

If you want to understand more about these connectors or if you want to construct your own serial adapter board, the following information will be of use.

The signals levels are 0v/3.3volt TTL.

Pinout

The pinout of the serial connector on the laptop is:

PinFunction
1varies by model, see below
marked on PCB with white circle near the connector designator.
2TX transmit serial data
3RX receive serial data
4GND return
marked with a small number 4.

XO-4

Pin 1 is not connected.

XO-1.75

Pin 1 is not connected.

XO-1.5

Pin 1 is an input SERIAL_EN to the VX855, used to sense whether a serial adapter is present, and if so enable the serial port and disable the camera. As a result, the camera indicator is lit.

In Open Firmware use enable-serial to enable the serial adapter if either this mechanism doesn't work, or if an adapter is connected after Open Firmware is started.

The mechanism can be tested also by connecting pin 3 (RX) to pin 1 (SERIAL_EN), since RX has a pullup resistor inside the laptop.

XO-1

Pin 1 is +3.3V supply provided by the laptop for use by the serial adapter.

In addition, the EC serial connector (CN24) has an additional pin (5), used to provide a clock for programming the serial ROM in recovery mode. This pin expects a +3.3V compatible 65 MHz clock signal, if used. The EC serial port may be used for monitoring by connecting a serial adapter cable to the first four pins of the connector.

The Pinout of the EC serial connector is identical to that of J1 except for the extra pin 5. The 4 pin connector works fine when plugged up to the EC serial port if its justified to Pin 1. See photograph.

Mechanical

Both connectors are very close (though not quite identical) to a 1.25 pitch MOLEX picoblade. The latter will fit perfectly.

The authoritative drawing for from the manufacturer can be found at File:J1 CN24 male.pdf and File:J1 CN24 female.pdf. The dimensions are listed as CKT 4 for the J1 and CKT 5 for CN21 - both one row.

Generally the plastic connector is sold separate from the metal socket. And you assemble those by crimping a wire to the socket and then inserting it into the connector. The type of socket used requires a special crimping tool.

Some vendors sell ready made 150mm or 300mm cables; with a socket on one and and a tinned lead on the other - which means you can postpone buying the expensive crimp tool for a bit.

Molex numbers

Datasheets: http://www.molex.com/molex/products/datasheet.jsp?part=active/0530470410_PCB_HEADERS.xml (wire to board header) and http://www.molex.com/molex/products/datasheet.jsp?part=active/0510210400_CRIMP_HOUSINGS.xml (terminal and receptacle).

Right angle Molex Pico Blade 1.24 (0.49") PCB 90 degree headers (male, connector) and matching cable sockets (female); SMD is used on the board; the non SMD version can be made to fit and is slightly easier to solder; and much easier to source.

Connectorpinsboard header (male)receptacle on cable (female)
J1 4 53048-0410 (non SMD) 51021-0400
4 53261-0471 (SMD) 51021-0400
CN24 5 53048-0510 (non SMD) 51021-0500
5 53261-0571 (SMD) 51021-0500

Along with matching sockets (above female connectors are just the 'plastic receptacles'), see item 50125/50133 (http://www.molex.com/catalog/pdf/MX51021.pdf) depending on wire thickness.

Technical drawings of the board socket: http://www.molex.com/pdm_docs/sd/532610271_sd.pdf and for the receptacle http://www.molex.com/pdm_docs/sd/510210400_sd.pdf (J1) or http://www.molex.com/pdm_docs/sd/510210500_sd.pdf (CN24)

Digikey numbers

Equivalent digikey numbers (of above MOLEX-es):

Connectorpinsboard header (male)receptacle on cable (female)
J1 4 WM7622CT-ND WM1722-ND
CN24 5 WM7623CT-ND WM1723-ND

See DigiKey page 1 and DigiKey page 2 for more details.

Depending on the wire thickness - you will need 4 or 5 sockets to wire things up - which have digikey number WM1775-ND (22AW) or WM1142CT-ND (24AQ). The Crimp tools are WM9931-ND, WM9978-ND, WM9932-ND or WM9933-ND depending on the wire.

RS-Component numbers

RS Components only has the receptacles:

Connectorpinsreceptacle on cable (female)
J1 4 279-9162 (http://nl.rs-online.com/web/2799162.html)
CN24 5447-6580(http://nl.rs-online.com/web/4476580.html)

And a 300mm socket to socket premade wire can be found at # 279-9522 (http://nl.rs-online.com/web/2799522.html) - or alternatively you can order individual sockets and crimp these.

Power

  • The 2nd gen device is powered from either the 3.3V from the laptop or by USB. Both may be plugged up at the same time.
  • The 3rd gen device is only powered from the USB host.

Schematics and Board Layout

3nd Generation

2nd Generation

Other Adapters

Similar adapters are available from third-parties at low cost. Some examples include:

A serial cable is still needed, or experts can tack solder fine wire to pads.

See Also