Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200)

Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200)
Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200) thumbnail 1Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200) thumbnail 2Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200) thumbnail 3Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200) thumbnail 4Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200) thumbnail 5Raspberry Pi 3 Model B / 2 Model B / Model B+ Expansion Board (X200) thumbnail 6
รหัสสินค้า BR00083
หมวดหมู่ Expansion Board / GPIO
ราคาปกติ 1,800.00 บาท
ลดเหลือ 1,685.00 บาท
แก้ไขล่าสุด 30 พ.ย. 2560
ความพึงพอใจ ยังไม่มีความคิดเห็น
ขออภัย สินค้าหมดค่ะ
Scan this!

Raspberry Pi 3 Model B/ 2 Model B / Model B+ Expansion Board (X200)  


  • 1 x X200 expansion board
  • 1 x HDMI adapter
  • 1 x USB adapter
  • 1 x 2.4GHz WIFI antenna
  • 4 x nylon spacers (M3 x 20mm)
  • 8 x nylon screws  (M3 x 6mm)

  A. Fitting the expansion board
  B. Download and install the pre-built image - Optional
Power supply
HDMI to VGA converter
Microphone input and audio output
Audio input and output interface
Setting RTC time
Setting up the IR remote
ULN2803 8-channel RC servo port

SupTronics has produced a publicly available SD image of Raspbian that is bootable on Raspberry Pi hardware and Xseries expansion board.

Image Notes

  • Based on RASPBIAN (Release date: 2014-06-20)
  • Rpi-update is included
  • Updated to the latest Raspberry Pi firmware and kernel as of July 5th  2014
  • Alsamixer is included and configured
  • RTC time is configured
  • IR remote is configured
  • WringPi is included

Download the Image

The 884 MB image can be downloaded from this link 2014-06-20-wheezy-raspbian-X200_V01.zip 

Image Install

To install the image file, you will need to unzip it and write it to a suitable 4G or larger SD card using the UNIX tool dd. Windows users should use Win32DiskImager. Do not try to drag and drop or otherwise copy over the image without using dd or Win32DiskImager – it won’t work. If you’re still not clear on what to do, the community on the Raspberry Pi Wiki has written a guide for beginners on how to set up your SD card.

Set RTC Time

 Get the right time set on the Pi ,
pi@raspberrypi ~ $ sudo date mmddhhmmyyyy.ss 
 (mm= Month, dd= Date, hh= Hour, mm= Minute, yyyy= Year, ss= Second ) 
 example: 2013 Jan 4 , 11:39:00 , sudo date 010411392013.00

 Write the system time to the RTC ,
pi@raspberrypi ~ $   sudo hwclock -w
 Verify the time ,
pi@raspberrypi ~ $   sudo hwclock -r

Xseries expansion board supplies the RPi with a regulated +5V through the GPIO header using a 2A poly-resettable (PTC) fuse. With the wide voltage input range (6~21Vdc), the RPi can be powered from a wide variety of external sources such as batteries, 12V power adapters, solar battery sources, etc. 

Recommended Power Adapter : 110~240VAC input, 12VDC 2A output   
Dimension of input plug (Unit: mm)

Warning: do not connect a +5V supply through the Raspberry Pi micro-USB connector when used with this expansion board. 
See description on http://elinux.org/RPi_Screens#RGB_analog.2FVGA 
Any HDMI to VGA adapter without external PSU might work for a time, but then burn out D1, therefore Do not use HDMI converters powered by the HDMI port! The solution is to either only use externally powered converters.

Xseries expansion board do not use power from RPi HDMI port and has many features that enable it to perform in a superior manner. Among those features you will find:  
  • Easy to Use: No need of cable and setting

  • Conversion: It can convert complete HDMI into VGA video

  • Supports 165MHz/1.65Gbps per channel (6.75Gbps all channel) bandwidth for HDMI Input

  • Supports Analogue Video output up to UXGA and 1080p with 10-bit DAC


HDMI to VGA resolution setting

 Open the Config.txt
pi@raspberrypi ~ $   sudo nano /boot/config.txt
 Uncomment following three lines in config.txt by removing '#' located at start of the line. (check Images below)

hdmi_force_hotplug=1      pretends that HDMI device is always attached
hdmi_group                            specifies whether monitor is DMT type (Computers) or CEA type (TV)
hdmi_mode                            specifies the resolution of monitor.

 For hdmi_group value selection : If you’re using output as Computer monitor then replace value ’1′ with ’2′, so the new config will be like :

(Select value 1 for TV, Select value 2 for monitor)

 For hdmi_mode value selection :  Now open eLinux RPi config scroll down, there in hdmi_mode two tables are given, select the correct resolution as per your monitor. (Table1 if you’re using TV & Table2 if you’re using Monitor)
Since my monitor’s resolution is 1440×900 px, hdmi_mode=47 fits me the best. So, the modified config.txt will be like.

Overall my uncommented lines will look something like : 

 Save your changes by pressing Ctrl-x then Y

 Reboot your Raspberry Pi 
pi@raspberrypi ~ $   sudo reboot

  There is an issue with the Pi’s USB that meant it could become overwhelmed with data which causes popping and bubbling noises to be included in your recordings, and sometimes, no output whatsoever. This can be fixed with an update of the Pi’s firmware: 
pi@raspberrypi ~ $ sudo apt-get update 
pi@raspberrypi ~ $ sudo apt-get upgrade 
pi@raspberrypi ~ $ sudo apt-get install rpi-update
pi@raspberrypi ~ $ sudo rpi-update 
 After the update is complete, Reboot your Raspberry Pi, 
pi@raspberrypi ~ $   sudo shutdown -r now

 This will install a package of ALSA utilities if you don't already have them (ALSA stands for Advances Linux Sound Architecture). 
pi@raspberrypi ~ $   sudo apt-get install alsa-utils   

<10 This will run the AlsaMixer application in a LXTerminal window: 
pi@raspberrypi ~ $   alsamixer

This shows the on-board audio device's playback control (note that the chip is called "Broadcom Mixer"). 

 Press "F6" and you should see a small pop-up "window" with all the available sound cards listed. The item "0 bcm2835 ALSA" is the on-board audio device, and the item "1 C-Media USB Audio Device" is the USB audio device. Use the arrow keys to select the "1 C-Media USB Audio Device" item and press Enter: 

 This shows the playback controls for the USB audio device. Use the right and left arrow keys to select the control you wish to adjust and then use the up and down arrow keys to adjust the level. With "Speaker" selected, pressing "m" key on your keyboard will toggle the mute function on the audio output (when muted, "MM" appears instead of "OO" at the bottom of the control). Likewise, the "Mic" control  (which actually refers to the level of microphone input fed back through to the audio output) can be muted, and is shown so in the above screenshot (note the "MM" at the bottom of the control). The "Auto Gain Control" item can not be adjusted with the arrow keys, but can be turned on and off by pressing the "m" key. 

 Press "F4" the display will change to show the audio capture control for the USB audio device: 

This control is used to adjust the level of audio input from the audio device to the Raspberry Pi, and may be muted by pressing the space bar on your keyboard (but this will not mute the audio fed back through to the audio output). 

  Press "F5" you will be able to see and adjust the playback and capture controls together in the same window: 

The above screenshot shows the "Speaker" playback control set to 80%, the "Mic" playback control is muted (and also reduced to zero), the "Mic" capture control set to 50% and the "Auto Gain Control" is turned on. 

The following final section of this post is optional.... 

 There is a "proper" graphical user interface available for the AlsaMixer application. To download and install it type the following at the command line prompt and press Enter: 
pi@raspberrypi ~ $   sudo apt-get install alsamixergui

Once installed, you will find the "Alsamixergui" application under the "Sound & Vision" submenu of the "Start Menu" in the LXDE GUI. 

This application works in a similar way to the AlsaMixer application (although note that in the above screenshot the "Mic" controls have been swapped over). In practice I actually found the basic AlsaMixer application (when run in a LXTerminal window) easier to use than the AlsaMixerGUI version, not least of all because the GUI version does not allow you to choose which audio device you want to control - you can only control the "default" ALSA audio device. 

 To make the USB audio device the default ALSA audio device, you need to create a file called ".asoundrc" in the "/home/pi" folder containing the following text: 
pi@raspberrypi ~ $   sudo nano .asoundrc
pcm.!default {
       type hw
       card 1
ctl.!default {
       type hw
       card 1

Save your changes by pressing Ctrl-x then Y. Y
ou should be able to control the USB audio device using the AlsaMixerGUI application. The above procedure assumes that the on-board audio device is designated "card 0" and that the Xseries expansion board audio device is designated "card 1", but this should be the case as long as you do not have any other audio devices connected to your Raspberry Pi. 

 Let's record the sound now.
pi@raspberrypi ~ $   arecord -D plughw:1 --duration=10 -f cd -vv rectest.wav

The -vv option displays extra information on the screen as well as a volume meter, this should be peaking at around 95% on the loudest sounds, if it is at 100% all a lot of the time then you are probably recording distortion. 

 Playback the recording with aplay: 
pi@raspberrypi ~ $   aplay rectest.wav
 Add the RTC kernel module to the /etc/modules list, so its loaded when the machine boots.  
pi@raspberrypi ~ $   sudo nano /etc/modules
And add: 

 Save your changes by pressing Ctrl-x then Y

 Create the DS1307 device creation at boot, edit /etc/rc.local by running 
pi@raspberrypi ~ $   sudo nano /etc/rc.local
And add: 
echo ds1307 0x68 > /sys/class/i2c-adapter/i2c-1/new_device
sudo hwclock -s

 Save your changes by pressing Ctrl-x then Y

 Reboot your Raspberry Pi 
pi@raspberrypi ~ $   sudo reboot
Get the right time set on the Pi ,
pi@raspberrypi ~ $ sudo date MMDDHHMMYYYY.SS 
 (MM= Month, DD= Date, HH= Hour, MM= Minute, YYYY= Year, SS= Second ) 
 example: 2013 Jan 4 , 11:39:00 , sudo date 010411392013.00 

 Write the system time to the RTC ,
pi@raspberrypi ~ $   sudo hwclock -w
 Verify the time ,
pi@raspberrypi ~ $   sudo hwclock -r
Installing LIRC 
pi@raspberrypi ~ $   sudo apt-get install lirc

 Add the two lines below to /etc/modules . This will start the modules up on boot. Pin 8 bellow will be used to take the output from the IR sensor. 
pi@raspberrypi ~ $   sudo nano /etc/modules
lirc_rpi gpio_in_pin=8

 Save your changes by pressing Ctrl-x then Y

 Edit /etc/lirc/hardware.conf and have it appear exactly as shown below. 
pi@raspberrypi ~ $   sudo nano /etc/lirc/hardware.conf

# /etc/lirc/hardware.conf # # Arguments which will be used when launching lircd LIRCD_ARGS="--uinput# Don't start lircmd even if there seems to be a good config file # START_LIRCMD=false # Don't start irexec, even if a good config file seems to exist. # START_IREXEC=false # Try to load appropriate kernel modules LOAD_MODULES=true # Run "lircd --driver=help" for a list of supported drivers. DRIVER="default# usually /dev/lirc0 is the correct setting for systems using udev DEVICE="/dev/lirc0"MODULES="lirc_rpi# Default configuration files for your hardware if any LIRCD_CONF="" LIRCMD_CONF="" 

The highlighted text are the parts that will need changing, though it’s worth checking the rest of the text incase you have a different initial configuration.

 Save your changes by pressing Ctrl-x then Y

Download the lircd.conf  (For the remote supplied by SupTronics) file and save to /home/pi  

Replace the existing conf file (which is most likely empty) with the you just downloaded. 
pi@raspberrypi ~ $   sudo cp lircd.conf /etc/lirc/lircd.conf

pi@raspberrypi ~ $   sudo reboot

Test your remote,
pi@raspberrypi ~ $   irw

Your commands will appear in the console when you press buttons on your remote. Press Ctrl-c to exit this.

Bring in some muscle to your output pins with 8 mighty Darlingtons! This driver chip contains 8 drivers that can sink 500mA from a selectable 5V or DC input voltage supply and has kickback diodes included inside for driving coils. This will let your little microcontroller or microcomputer power solenoids, DC motors (in one direction) and unipolar stepper motors. The GPIO Pins are connected to ULN2803 inputs through a DIP switch, with the its outputs going to two array of Wire-to-Board header. Alternatively, these ports can be used to supply +5V or input voltage to other external circuitry, or embedded devices. 

Please note that this is an 'open collector' driver - it can only be used to connect the load to ground and there will be a 1 Volt (or more) 'drop' across the internal transistors. 

Schematic diagram            Raspberry Pi GPIO Pin numbering             ULN2803 Datasheet


Optional driver to install - WiringPi 

Install GIT
pi@raspberrypi ~ $   sudo apt-get install git-core
 Download WiringPi 
pi@raspberrypi ~ $   git clone git://git.drogon.net/wiringPi
 Enter the directory of wiringPi
pi@raspberrypi ~ $   cd wiringPi

 Install wiringPi
pi@raspberrypi ~ $   ./build

 Test GPIO port
pi@raspberrypi ~ $   gpio mode x out (x = 0~7)
pi@raspberrypi ~ $   gpio write x 1 (x=0~7, 1=On)
pi@raspberrypi ~ $   gpio write x 0 (x=0~7, 0=off)


ข้อมูลสำหรับการติดต่อกลับ (ไม่เปิดเผย เห็นเฉพาะเจ้าของร้าน)
  • ถาม

ชำระเงินค่าสินค้าโดยการโอนเงินเข้าบัญชีธนาคาร KBANK, SCB, BBL,TMB



ท่านสามารถแจ้งการชำระเงินผ่านระบบอัตโนมัติได้โดย Click Link ข้างล่างค่ะ



ธ.กสิกรไทย สาขาโลตัส รัตนาธิเบศร์ ออมทรัพย์
ธ.ไทยพาณิชย์ สาขาโลตัส รัตนาธิเบศร์ ออมทรัพย์
ธ.กรุงเทพ สาขาเซ็นทรัล พระราม 3(2) ออมทรัพย์
ธ.ทหารไทย สาขาศูนย์การค้าวรรัตน์ ออมทรัพย์
  • ค่าธรรมเนียม 3.9% + 11 THB
  • การชำระผ่าน PayPal คุณไม่จำเป็นต้องแจ้งชำระเงิน เนื่องจากระบบจะจัดการให้คุณทันที ที่คุณชำระเงินเสร็จสมบูรณ์
เพื่อความเข้าใจตรงกันระหว่างผู้ซื้อและผู้ขายและมิตรภาพที่ดีต่อกัน กรุณาทำความเข้าใจเงื่อนไข


รหัสสินค้า BA00001
270.00 บาท
  • สั่งซื้อ
รหัสสินค้า SG00001
50.00 บาท
  • สั่งซื้อ
รหัสสินค้า BA00002
440.00 บาท
  • สั่งซื้อ
รหัสสินค้า AG00014
98.00 บาท
  • สั่งซื้อ
รหัสสินค้า AG00023
44.50 บาท
  • สั่งซื้อ
รหัสสินค้า BA00021
210.00 บาท
  • สั่งซื้อ
รหัสสินค้า SG00086
80.00 บาท
  • สั่งซื้อ
รหัสสินค้า AG00006
68.00 บาท
  • สั่งซื้อ
รหัสสินค้า SG00207
75.00 บาท
  • สั่งซื้อ


รหัสสินค้า BR00034
60.00 บาท
120.00 บาท
  • สั่งซื้อ
150.00 บาท
300.00 บาท
  • สั่งซื้อ
รหัสสินค้า BR00072
199.00 บาท
385.00 บาท
  • สั่งซื้อ
รหัสสินค้า AS00075
420.00 บาท
700.00 บาท
  • สั่งซื้อ
รหัสสินค้า BR00007
50.00 บาท
80.00 บาท
รหัสสินค้า BR00028
120.00 บาท
190.00 บาท
375.00 บาท
590.00 บาท
  • สั่งซื้อ
รหัสสินค้า BR00059
600.00 บาท
920.00 บาท
  • สั่งซื้อ
รหัสสินค้า BR00079
190.00 บาท
290.00 บาท


Sensors / Modules [626]


มือถือ0887823467 แฟกซ์02-0153201


รหัสสินค้า BR00034
60.00 บาท
120.00 บาท
  • สั่งซื้อ
150.00 บาท
300.00 บาท
  • สั่งซื้อ
รหัสสินค้า BR00072
199.00 บาท
385.00 บาท
  • สั่งซื้อ
รหัสสินค้า AS00075
420.00 บาท
700.00 บาท
  • สั่งซื้อ


รหัสสินค้า SG20205
95.00 บาท
  • สั่งซื้อ
รหัสสินค้า AG00022
20.00 บาท
  • สั่งซื้อ
รหัสสินค้า AG10075
280.00 บาท
  • สั่งซื้อ
รหัสสินค้า ระบุที่สินค้าย่อย
475.00 บาท
รหัสสินค้า SD00098
35.00 บาท
  • สั่งซื้อ
รหัสสินค้า AG00272
120.00 บาท
  • สั่งซื้อ
รหัสสินค้า RU20015
225.00 บาท
  • สั่งซื้อ


สมัครสมาชิกร้านนี้ เพื่อรับสิทธิพิเศษ


หน้าที่เข้าชม6,759,272 ครั้ง
ผู้ชมทั้งหมด2,105,765 ครั้ง
เปิดร้าน21 พ.ค. 2556
ร้านค้าอัพเดท24 มิ.ย. 2561



ยังไม่มีบัญชีเทพ สร้างบัญชีใหม่ ไม่เกิน 5 นาที
สมัครสมาชิก (ฟรี)
Go to Top
พูดคุย-สอบถาม คลิก