Assemble a Spiffie.org MPGuino Kit

Now that you have the required parts and tools, lets solder!

a_5v_zeners.jpg Place the 5.1v Zener diodes. Place the two 5.1v Zener diodes into their respective locations (marked 5.1v). Ensure you align the diodes' stripes with the silk screen stripes on the PCB.
b_4004_diode.jpg Place the 1N4004 diode. Place one of the 1N4004 diodes into the location marked 'D1'. Ensure you align the diode's stripe with the silk screen stripe marked on the PCB.
c_10k_resistor.jpg Place the 10KΩ resistor. Place the 10K resistor (Brown-Black-Orange-Gold) into the location marked '10K'. You may install the resistor in either direction.
d_220_resistor.jpg Place the 220Ω resistor. Place the 220R resistor (Red-Red-Brown-Gold) into the location marked '220'. Like most resistors, you may install it in either direction.
e_1k_resistors.jpg Place the 1KΩ resistors. Place the two 1K resistors (Brown-Black-Red-Gold) into the locations marked 1K.
f_100k_resistors.jpg Place the 100KΩ resistors. Place the two 100K resistors (Brown-Black-Yellow-Gold) into the locations marked 100K.
Solder and trim the resistors and diodes. Flip the board over and solder each of the leads from the resistors and diodes that have been inserted. When you're done soldering, use side-clippers to trim the leads flush with the back of the PCB.
g_7805.jpg Place, solder, and trim the 7805. Place the 7805 into the location outlined on the PCB's silkscreen (metal tab against the pcb). Lining up the 7805's hole and the pcb hole is only critical if you're going to install a heatsink. Solder and trim the 7805's leads.
h_28p_socket.jpg Place and solder the 28pin socket. Place the 28pin socket into the silkscreened location on the PCB. Make sure to line-up the notch in the socket with the notch in the PCB silkscreen! Flip the board over and solder the socket in place.
i_crystal.jpg Place, solder, and trim the 16MHz crystal. Place the crystal into it's location (identified by a silkscreened oval). You may install it in either orientation. Solder the leads, then trim them flush.
j_100nf_caps.jpg Place, solder, and trim the 0.1µF ceramic capacitors. Place all 4 ceramic capacitors into their silkscreened locations on the PCB. (Identified by a rectangular box with two holes inside, not the two labeled 18pF though.) You may install the caps in either direction. Solder all 8 leads, then trim flush.
k_18pf_caps.jpg Place, solder, and trim the 18pF ceramic capacitors. Place both 18pF capacitors into their silkscreened locations on the PCB. (Identified by a rectangular box with two holes inside and the label '18pF' underneath.) Solder the leads and trim flush.
l_transistor.jpg Place, solder, and trim the transistor. Orient the transistor so it's flat-side matches the flat side of the silkscreened outline. Depending on your transistor, you may need to bend the leads slightly to match the hole layout. Insert the transistor, solder all three leads, and trim them flush.
m_other_4004.jpg m_other_4004_top.jpg Install the other 1N4004 diode. With the other 1N4004 diode, locate the end without a band. Bend-over the lead on this end until it is parallel to the other lead. Now insert the diode into the position beside the FTDI chip as pictured. (The diode side should be close to the capacitor outline, the lead side close to the 28pin socket.) Solder both leads and trim them flush.
n_buttons_placement.jpg Place the tactile switches/buttons. Flip the board over, so your looking at the solder side. Place the three switches through the holes, they're wider then they are long, orient them with their leads closest to the other switches. Their legs should snap into place holding the switches in the PCB.
o_buttons_trim_leads.jpg Trim the switches for the USB connector, then solder. As shown in the picture, the four legs immediately in-front of the USB connector must be trimmed to allow the USB connector to sit flush. Trim these four legs, then solder them all in place.
p_usb_place.jpg Place and solder the USB connector. Place the USB connector into the holes outlined by the silkscreen. It's mounting lugs/legs should snap into place and hold the connector loosely to the PCB. Solder the four leads. Now apply plenty of solder to the two mounting lugs.
q_large_cap.jpg Place, solder, and trim the 470µF electrolytic capacitor. Locate the negative lead on the capacitor either by the stripe on the body or the shorter lead. Align the capacitor so this lead is inserted in the hole not denoted by the '+' symbol. Solder and trim the leads.
r_small_cap.jpg Place, solder, and trim the smaller electrolytic capacitor. Locate the negative lead in the same manner (by the stripe or shorter lead). Insert the capacitor with the negative lead in the negative hole (not denoted with a '+'). Solder and trim.
s_rj11_con.jpg Install the RJ11 connector. Place the RJ11 connector into it's location. You may require a slight amount of force to push the mounting lugs through; they will hold the connector in place quite firmly. Solder the for pins.
t_setup_lcd_header.jpg Setup the 16 pin header. Place the 16pin header, long side down, into a breadboard.
u_lcd_con_into_pcb.jpg Solder the 16 pin header to the MPGuino board. Place the board over the header (solder/button side down) and solder the 16 pins. Remove the board and header from the breadboard.
v_solder_lcd.jpg w_assembled_front.jpg Solder the LCD into place. Orient the LCD onto the header pins. (The white tab on the LCD should be beside the buttons – see photo.) Solder the pins into place. You may add spacers between the board and LCD as you wish.
x_place_atmega.jpg Install the ATmega µC. From the factory, the ATmega's pins are bent slightly outwards; gently bend them to a 90° angle to the body using a hard-surface like a table-top. (LadyAda demonstrates.) Making sure you align the IC's notch with the notch in the socket and silkscreen (or align notch near the buttons), push the IC into its socket.
y_setup_upload.jpg MPGuino Done! You've built the MPGuino part of the project. Now head over to the setup page to figure out where to go next.