Difference between revisions of "Big Digit Driver Assembly Instructions"

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Here's what the bare circuit board looks like:
 
Here's what the bare circuit board looks like:
  
(Photo here.)
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_001.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_002.jpg
  
 
We'll be adding components to the labeled locations there.
 
We'll be adding components to the labeled locations there.
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=== 2. Decimal Point Current Sense Resistor ===
 
=== 2. Decimal Point Current Sense Resistor ===
Let's start with an easy one!
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Let's start with an easy one! Locate the 24 ohm resistor (color code: Red/Yellow/Black/Gold).
  
Locate the 24 ohm resistor (color code: Red/Yellow/Black/Gold). This will go in location R25 - it's right above the power jack footprint on the right-hand side of the board.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_003.jpg
  
 
Bend the leads as shown.
 
Bend the leads as shown.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_004.jpg
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 +
This will go in location R25 - it's right above the power jack footprint on the right-hand side of the board.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_005.jpg
  
 
Drop it in place (location R25), and bend the leads over by about forty-five degrees on the back of the board. With these resistors the orientation doesn't matter.
 
Drop it in place (location R25), and bend the leads over by about forty-five degrees on the back of the board. With these resistors the orientation doesn't matter.
  
Solder the excess and clip off the extra wire.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_006.jpg
 +
 
 +
Solder the leads and clip off the extra wire.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_007.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_008.jpg
  
 
This is the general procedure we'll follow for all the parts in this kit.
 
This is the general procedure we'll follow for all the parts in this kit.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_009.jpg
  
  
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Let's finish off the decimal point resistors.
 
Let's finish off the decimal point resistors.
  
We'll be installing 68 ohm resistors (color code: Blue/Gray/Black/Gold) in locations R1 through R5. All of these locations are immediately to the left of the power jack footprint on the right-hand side of the board.
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We'll be installing 68 ohm resistors (color code: Blue/Gray/Black/Gold) in locations R1 through R5.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_010.jpg
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 +
All of these locations are immediately to the left of the power jack footprint on the right-hand side of the board.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_012.jpg
  
 
Bend the leads...
 
Bend the leads...
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_011.jpg
  
 
Drop in place, bend the leads over on the backside...
 
Drop in place, bend the leads over on the backside...
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_013.jpg
  
 
Solder and clip!
 
Solder and clip!
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_014.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_015.jpg
  
  
  
 
=== 4. Other Current Sense Resistors ===  
 
=== 4. Other Current Sense Resistors ===  
Next, let's install the current sense resistors for all the other segments. These will go in locations R11, R13, R15, R17, R19, R21, and R23 (in a big line across the middle of the board) and are 16 ohms resistors (color code: Brown/Blue/Black/Gold).
+
Getting the hang of this? Great!
 +
 
 +
Next, let's install the 16 ohms (color code: Brown/Blue/Black/Gold) current sense resistors. These come as a segment from a large spool. Just pull them straight out and straighten the leads as needed.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_016.jpg
 +
 
 +
Installation procedure for these is exactly the same as the resistors above. These will go in locations R11, R13, R15, R17, R19, R21, and R23 (in a big line across the middle of the board).
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_017.jpg
  
  
  
 
=== 5.  Base resistors ===
 
=== 5.  Base resistors ===
Getting the hang of this? Great!
+
Next, locate all the 1k ohm resistors (color code: Brown/Black/Red/Gold) and install them into locations R12, R14, R16, R18, R20, R22, R24, and R26 (again, in a big line across the middle of the board).
  
Next, locate all the 1k ohm resistors (color code: Brown/Black/Red/Gold) and install them into locations R12, R14, R16, R18, R20, R22, R24, and R26 (again, in a big line across the middle of the board).
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_018.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_019.jpg
  
You may have noticed that we didn't use all the 1k ohm resistors available. Thats okay, we'll use it in step 6!
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You may have noticed that we didn't use all the 1k ohm resistors available. Thats okay, we'll use the last one in step 6!
  
  
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It's a 1k ohm (Brown/Black/Red/Gold), exactly like the resistors in step five. This resistor goes in location R27, between the large IC footprint near the top-middle of the board.
 
It's a 1k ohm (Brown/Black/Red/Gold), exactly like the resistors in step five. This resistor goes in location R27, between the large IC footprint near the top-middle of the board.
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 +
This is what your board should look like now:
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_020.jpg
  
  
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Look at the board for a second, and locate locations D1 and D2 (upper left-hand side of the board). Notice the thick white lines inside the footprint, on the left of the box?
 
Look at the board for a second, and locate locations D1 and D2 (upper left-hand side of the board). Notice the thick white lines inside the footprint, on the left of the box?
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_022.jpg
  
 
Take a look at the diodes. See how they have black lines wrapped around one end of the glass cylinder?
 
Take a look at the diodes. See how they have black lines wrapped around one end of the glass cylinder?
  
These are polarity markings - when installing these parts you need to match up the black line on the diode with the white line on the footprint. Installing the diode backward could cause your Big Digit Driver to be damaged when you plug it in!
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_021.jpg
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 +
These are polarity markings - when installing these parts you need to match up the black line on the diode with the white line on the footprint, like so:
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_023.jpg
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 +
Installing the diode backward could cause your Big Digit Driver to be damaged when you plug it in! Double check the orientation of your diodes before you solder them.
  
Other than keeping an eye on the polarity, installing the diodes in very similar to the resistors above: bend the leads, drop them in place, bend the leads over by about forty-five degrees, solder, and clip off the excess.
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Other than keeping an eye on the polarity, installing the diodes is pretty much the same as the resistors we installed above.
  
  
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Big Digit Drivers can be linked in series via the SPI ports on either side of the board. For long runs of digits (three or more) we've included a footprint for a Schmitt trigger - this IC will 'boost' the signals that run down the series of drivers and helps eliminate synchronization issues due to noise and attenuation.
 
Big Digit Drivers can be linked in series via the SPI ports on either side of the board. For long runs of digits (three or more) we've included a footprint for a Schmitt trigger - this IC will 'boost' the signals that run down the series of drivers and helps eliminate synchronization issues due to noise and attenuation.
  
If, for whatever reason, you don't want to use the Schmitt trigger you can instead install four jumpers in locations JP1, JP2, and JP3 (look in the upper right-hand side of the board). For this we'll use zero-ohm 'resistors' - they have no real color code, they look like resistors with a single black stripe instead of five or more. They're not really resistors either (well, they do have a resistance - like all wire - but it is very low!) and each could actually be replaced with a length of wire if you prefer.
+
If, for whatever reason, you don't want to use the Schmitt trigger you can instead install four jumpers in locations JP1, JP2, and JP3 (look in the upper right-hand side of the board).
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_025.jpg
 +
 
 +
For this we'll use zero-ohm 'resistors' - they have no real color code, they look like resistors with a single black stripe instead of five or more. They're not really resistors either (well, they do have a resistance - like all wire - but it is very low!) and each could actually be replaced with a length of wire if you prefer.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_030.jpg
 +
 
 +
They go in like the resistors and diodes in the steps above.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_032.jpg
  
They go in like the resistors in the steps above: bend the leads, drop in place, bend leads on back to hold them in place, solder, and clip off the excess.
+
(Note that in the photo above, jumper JP4 is also installed. Jumper JP4 is covered in step 9 - in this step we're only discussing the jumpers above it.)
  
 
There is no harm is using the Schmitt trigger on short runs of digits and using the bypass jumpers may work just fine for longer runs, but DO NOT use both at the same time! Using both shouldn't cause any damage, but the behavior of digits down the line will be strange and unpredictable.
 
There is no harm is using the Schmitt trigger on short runs of digits and using the bypass jumpers may work just fine for longer runs, but DO NOT use both at the same time! Using both shouldn't cause any damage, but the behavior of digits down the line will be strange and unpredictable.
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We recommend that you install these jumpers unless you are positive that you need to isolate drivers for some reason. Isolating the ground lines will only be useful to people who are driving a large number of digits for two or more power supplies.
 
We recommend that you install these jumpers unless you are positive that you need to isolate drivers for some reason. Isolating the ground lines will only be useful to people who are driving a large number of digits for two or more power supplies.
  
Once again we'll be using zero ohm 'resistors' - just like above in step 8. We'll be installing them in locations JP4 (upper right-hand side of the board, below the Schmitt trigger bypass) and JP5 (upper left-hand side of the board, just below the diodes).
+
Once again we'll be using zero ohm 'resistors' - just like above in step 8. We'll be installing them in locations JP5 (upper left-hand side of the board, just below the diodes) and JP4 (upper right-hand side of the board, below the Schmitt trigger bypass).
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_031.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_032.jpg
  
  
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=== 10. Shift Register and Schmitt Trigger Sockets  ===
 
=== 10. Shift Register and Schmitt Trigger Sockets  ===
 
We don't recommend soldering chips directly to the board, and the kit include sockets for your convenience.
 
We don't recommend soldering chips directly to the board, and the kit include sockets for your convenience.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_024.jpg
  
 
There are two IC footprint (U9 and U10) and they are slightly different sizes (U9 is 16 pins, and U10 is 14 pins). Make sure you have the right socket for the right footprint! If it doesn't drop in, or if the socket doesn't seem to cover the entire footprint, double check that you have the correct socket.
 
There are two IC footprint (U9 and U10) and they are slightly different sizes (U9 is 16 pins, and U10 is 14 pins). Make sure you have the right socket for the right footprint! If it doesn't drop in, or if the socket doesn't seem to cover the entire footprint, double check that you have the correct socket.
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Take a look at the board - notice the 'notch'/semicircle on one end of the footprint? This is a polarity marking. Match this mark with the notch in the end of of the socket.
 
Take a look at the board - notice the 'notch'/semicircle on one end of the footprint? This is a polarity marking. Match this mark with the notch in the end of of the socket.
  
Drop the socket into its respective footprint and flip the board over (you can either hold the socket in place or use the surface of a table/desk/bench to hold it in place).
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_025.jpg
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 +
Drop the socket into its respective footprint and flip the board over (you can either hold the socket in place or use the surface of a table/desk/bench to hold it in place). Now there is a bit of a trick to getting the socket flush the with the board. First, we bend over two pins in order to hold the socket mostly in place - notice how the bent pins are on opposite rows and opposite ends of the footprint.
  
Now there is a bit of a trick to getting the socket flush the with the board. First, we bend over two pins in order to hold the socket mostly in place - notice how the bent pins are on opposite rows and opposite ends of the footprint.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_026.jpg
  
 
Then, solder TWO pins - either the two bent pins or the pins directly across from them. Flip the board over and check that the socket is flush with the board. If not, apply light pressure to the socket on the 'high' end and reheat the solder joint. The socket should 'snap' into place. Remember to give the solder a moment to cool before you take your hand away!
 
Then, solder TWO pins - either the two bent pins or the pins directly across from them. Flip the board over and check that the socket is flush with the board. If not, apply light pressure to the socket on the 'high' end and reheat the solder joint. The socket should 'snap' into place. Remember to give the solder a moment to cool before you take your hand away!
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At this point you can solder the rest of the pins. Trim what excess you can - it'll save wear-and-tear on the insulators when you mount the display.
 
At this point you can solder the rest of the pins. Trim what excess you can - it'll save wear-and-tear on the insulators when you mount the display.
  
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_027.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_028.jpg
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Then repeat for the other socket.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_029.jpg
  
  
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These transistors are little black cylinders with one side flattened and have three leads coming out one end. They should come attached to a strip of paper tape, but double check their markings just to be sure. They should have the number '2N3904' on the flattened side of the cylinder.
 
These transistors are little black cylinders with one side flattened and have three leads coming out one end. They should come attached to a strip of paper tape, but double check their markings just to be sure. They should have the number '2N3904' on the flattened side of the cylinder.
  
We will be installing these into locations Q1, Q2, Q3, Q4, Q5, Q6, Q7, and Q8 (in a line across the middle of the board). Note that orientation matters! Take a peek at the board.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_033.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_034.jpg
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 +
We will be installing these into locations Q1, Q2, Q3, Q4, Q5, Q6, Q7, and Q8 (in a line across the middle of the board). Note that orientation matters! Take a peek at the board. See how the footprint is a circle with a flat side? That flat side matches up with the flat side on the part itself (the side with the text on it) - in other words, the flat side of the part should be facing toward the top of the board.
  
See how the footprint is a circle with a flat side? That flat side matches up with the flat side on the part itself (the side with the text on it) - in other words, the flat side of the part should be facing toward the top of the board.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_035.jpg
  
 
You may have noticed that the transistors also come with pre-bent leads - all you need to do is cut them loose from the paper strip and drop them in place.
 
You may have noticed that the transistors also come with pre-bent leads - all you need to do is cut them loose from the paper strip and drop them in place.
 
Like the other parts in the kit, bend the leads over on the back side of the board, solder, and clip off the excess.
 
  
  
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=== 12. Five Volt Linear Regulator ===
 
=== 12. Five Volt Linear Regulator ===
 
These will look similar to the transistors in step 11, except: they will have the number '750L05' on them, do not come attached to paper tape, and do not have their leads pre-bent.
 
These will look similar to the transistors in step 11, except: they will have the number '750L05' on them, do not come attached to paper tape, and do not have their leads pre-bent.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_038.jpg
  
 
Make sure you have the right part! There is only one voltage regulator and it will look very similar to the current regulators used in step 13. We will install this part in location U11 (upper left-hand side of the board, look for the words '5 Volt Regulator').
 
Make sure you have the right part! There is only one voltage regulator and it will look very similar to the current regulators used in step 13. We will install this part in location U11 (upper left-hand side of the board, look for the words '5 Volt Regulator').
  
Like with the transistors in step 11, orientation matter! Again, line up the flat side of the regulator with the flat side of the footprint on the board (the flat side should be facing toward the top of the board).
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_039.jpg
 +
 
 +
Like with the transistors in step 11, orientation matters! Again, line up the flat side of the regulator with the flat side of the footprint on the board (the flat side should be facing toward the top of the board). Getting the leads into the proper holes may prove a bit tricky - you may want to pre-bend them yourself before attempting to install the part.
  
Getting the leads into the proper holes may prove a bit tricky - you may want to pre-bend them yourself before attempting to install the part. Otherwise, follow the same procedure here as will the other parts: install, bend the leads over on the back side of the board, solder, and clip off the excess.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_040.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_041.jpg
  
  
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=== 13. Current Regulators  ===
 
=== 13. Current Regulators  ===
 
These regulators will look very similar to the 5 Volt Regulator in step 12. Identical, in fact, except that they will have the number 'LM317' on them.
 
These regulators will look very similar to the 5 Volt Regulator in step 12. Identical, in fact, except that they will have the number 'LM317' on them.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_036.jpg
  
 
Install these in locations U1, U2, U3, U4, U5, U6, U7, and U8. Once again, orientation matter! Be sure to line up the flat side of the regulator with the flat side of the footprint on the board (the flat side should be facing toward the top of the board).
 
Install these in locations U1, U2, U3, U4, U5, U6, U7, and U8. Once again, orientation matter! Be sure to line up the flat side of the regulator with the flat side of the footprint on the board (the flat side should be facing toward the top of the board).
  
As usual, install, bend the leads on the back, solder, and trim off the excess wire.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_037.jpg
  
  
  
 
=== 14.  Linear Regulator Output Capacitor  ===
 
=== 14.  Linear Regulator Output Capacitor  ===
This part will be a little blue blob with two leads coming out of it. We'll be installing it in location C2 (look in the upper left-hand side of the board, under the '5 Volt Regulator' label).
+
This part will be a little blue blob with two leads coming out of it.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_042.jpg
 +
 
 +
We'll be installing it in location C2 (look in the upper left-hand side of the board, under the '5 Volt Regulator' label). Don't worry about orientation.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_043.jpg
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_044.jpg
  
Orientation doesn't matter with this part, so you can just drop it in, bend the leads, solder, and trim any excess.
 
  
 +
=== 15. Other Capacitors ===
 +
These parts will be yellow brown blobs with two wires coming out of them, and come on paper tape (similar to the tape the transistors came in).
  
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_046.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_047.jpg
  
=== 15. Other Capacitor ===
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These will go in locations C1, C3, and C4. Orientation doesn't matter with these parts, so you can just drop them in.
These parts will be yellow brown blobs with two wires coming out of them, and come on paper tape (similar to the tape the transistors came in). These will go in locations C1, C3, and C4.
 
  
Orientation doesn't matter with these parts, so you can just drop it in, bend the leads, solder, and trim any excess.
+
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_048.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_049.jpg
  
  
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=== 16. Power Indicator Lamp ===
 
=== 16. Power Indicator Lamp ===
 
The Big Digit Driver board has a power light. Nothing fancy, just a yellow LED. It goes in location LED1 - between the two IC footprint in the upper middle of the board.
 
The Big Digit Driver board has a power light. Nothing fancy, just a yellow LED. It goes in location LED1 - between the two IC footprint in the upper middle of the board.
 +
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_050.jpg
  
 
Note that orientation matters for this part: the ''long lead'' goes into the ''square hole''.
 
Note that orientation matters for this part: the ''long lead'' goes into the ''square hole''.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_051.jpg
  
  
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These are the green plastic blocks with screws in the top of them. You can install them in any orientation, but it's probably better to install them with the wire slots facing outwards.
 
These are the green plastic blocks with screws in the top of them. You can install them in any orientation, but it's probably better to install them with the wire slots facing outwards.
  
These go in locations J2 and J3, on either sides of the board. Getting them to stay in place when solder is a bit tricky - we recommend placing the connector pins-up on a flat surface and laying the board onto it.
+
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_052.jpg
 +
 
 +
These go in locations J2 and J3, on either sides of the board.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_055.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_054.jpg
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 +
Getting them to stay in place when solder is a bit tricky - we recommend placing the connector pins-up on a flat surface and laying the board onto it.
 +
 
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_053.jpg
  
 
Only solder one pin at first. Check to make sure the connector is lined up correctly before soldering the other pin.
 
Only solder one pin at first. Check to make sure the connector is lined up correctly before soldering the other pin.
 +
 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_057.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_056.jpg
  
  
  
 
=== 18. SPI headers ===
 
=== 18. SPI headers ===
These are also a bit tricky. The SPI header is a two by three block of straight pins. These should drop right into locations J5 and J6, on the left-hand and right-hand side of the board.
+
These are also a bit tricky. The SPI header is a two by three block of straight pins. These should drop right into locations J5 and J6, on the left-hand and right-hand side of the board. Solder one pin on the back and then flip the board over. Make sure that the header is perpendicular to the board and the black plastic block is seated on the board. Once you're sure the header is seated properly, solder the rest of the pins on the back.  
 
 
Solder one pin on the back and then flip the board over. Make sure that the header is perpendicular to the board and the black plastic block is seated on the board.
 
  
Once you're sure the header is seated properly, solder the rest of the pins on the back.  
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_060.jpg
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_059.jpg
  
  
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=== 19. DC Power Barrel Jack ===
 
=== 19. DC Power Barrel Jack ===
 
This part goes in location J4, on the right-hand side of the board.
 
This part goes in location J4, on the right-hand side of the board.
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 +
http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_062.jpg
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Use the solder sparingly - just enough to tack it down. Flooding the holes may cause solder to bridge the gap between the holes and cause a short circuit.
 
Use the solder sparingly - just enough to tack it down. Flooding the holes may cause solder to bridge the gap between the holes and cause a short circuit.
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=== 20. Insert Shift Register ===
 
=== 20. Insert Shift Register ===
The shift register is a 16 pin IC that has '74HCT595N' on it. You may need to fiddle with the pins a bit to get it to plug into the socket at U9. Carefully pressing the side of the pins against a flat, hard surface is a good way to do this.
+
The shift register is a 16 pin IC that has '74HCT595N' on it. It is the top chip in this photo:
 +
 
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_065.jpg
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 +
You may need to fiddle with the pins a bit to get it to plug into the socket at U9. Carefully pressing the side of the pins against a flat, hard surface is a good way to do this.
  
 
Orientation matters with this part! See that notch on one end of the IC? That should line up with the notch/semi-circle on the IC footprint on the board.
 
Orientation matters with this part! See that notch on one end of the IC? That should line up with the notch/semi-circle on the IC footprint on the board.
  
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_067.jpg
  
 
=== 21. Optional: Insert Schmitt Trigger ===
 
=== 21. Optional: Insert Schmitt Trigger ===
 
If you didn't install the Schmitt trigger bypass jumpers in step 8 you should install the Schmitt trigger at this point.
 
If you didn't install the Schmitt trigger bypass jumpers in step 8 you should install the Schmitt trigger at this point.
  
The Schmitt trigger is the 14 pin IC that has 'SN74ACT14N' written on it, and it goes in location U10. Like the shift register, Orientation matters: the notch on one end of the IC should line up with the notch/semi-circle on the IC footprint on the board.
+
The Schmitt trigger is the 14 pin IC that has 'SN74ACT14N' written on it. It is the bottom chip in this photo.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_065.jpg
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 +
The schmitt trigger and it goes in location U10. Like the shift register, Orientation matters: the notch on one end of the IC should line up with the notch/semi-circle on the IC footprint on the board.
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_068.jpg
  
  
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This part is the huge blue card edge socket with pins at a right angle. It goes in location J1.
 
This part is the huge blue card edge socket with pins at a right angle. It goes in location J1.
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Make sure you put it in the correct side of the board! The socket actually sits on the ''back'' of the board, not the front (i.e. not the side with all the other components).
 
Make sure you put it in the correct side of the board! The socket actually sits on the ''back'' of the board, not the front (i.e. not the side with all the other components).
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Make sure the socket is completely seated on the board before you solder it down. Clip off any excess wire.
 
Make sure the socket is completely seated on the board before you solder it down. Clip off any excess wire.
  
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Good work, the board is finished. Now lets get it attached to a display, eh?
 
Good work, the board is finished. Now lets get it attached to a display, eh?
  
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The driver board slides onto the back of the display. The card edge connector at location J1 should be sufficient to align.
 
The driver board slides onto the back of the display. The card edge connector at location J1 should be sufficient to align.
  
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_080.jpg
  
 
=== 15. Delrin Insulator ===
 
=== 15. Delrin Insulator ===
 
The plastic insulator goes between the driver board and display. Note that the insulator has two holes - these line up with the middle pair of holes on the driver board (specifically, the holes that are slightly farther from the edges than the other four and line up with the mounting holes in the display).
 
The plastic insulator goes between the driver board and display. Note that the insulator has two holes - these line up with the middle pair of holes on the driver board (specifically, the holes that are slightly farther from the edges than the other four and line up with the mounting holes in the display).
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http://evilmadscience.s3.amazonaws.com/wiki/bdd/v0.9/assy/bdd_081.jpg
  
 
Be careful with the insulator! It is resistant against punctures, but is actually rather brittle. Don't twist or warp it unnecessarily.
 
Be careful with the insulator! It is resistant against punctures, but is actually rather brittle. Don't twist or warp it unnecessarily.
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=== 18. Really done this time! ===
 
=== 18. Really done this time! ===
 
That's it, you're completely done! Hang it on a wall and plug it in! The kit includes four extra 1/2 inch 6-32 screws for mounting purposes.
 
That's it, you're completely done! Hang it on a wall and plug it in! The kit includes four extra 1/2 inch 6-32 screws for mounting purposes.
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Revision as of 14:54, 14 June 2011

This page walks through the basic assembly process for building the Big Digit Driver.

Bill of Materials, or, "What's in the kit?"

Line Ref Des Description Type Vendor Vendor Part Number Quantity per Board
1 N/A PCB Big Digit Driver board EMS N/A 1
2 R25 Current Sense Resistor for DP 22 ohm, substituting 24 ohm 1/4 watt carbon film resistor Digikey 24QBK-ND 1
3 R1 through R5 DP Load Resistors 68 ohm 1/4 watt carbon film resistors DigiKey 68QBK-ND 5
4 R11,R13,R15,R17,R19,R21,R23 Current Sense Resistors 16 ohm 1/4 watt carbon film resistors Digikey 16QBK-ND 7
5 R12,R14,R16,R18,R20,R22,R24,R26,R27 Base Resistors, Power LED Resistor 1k ohm 1/4 watt carbon film resistors Digikey 1.0KQBK-ND 9
6 D1, D2 Linear Regulator Load, DP Load (Diodes) 1N4740A, 10V, 1 watt Digikey 1N4740A-ND 2
7 U9 Shift Register Socket 16 pin 0.3" Socket Digikey A100206-ND 1
8 U10 Schmitt Trigger Socket 14 pin 0.3" Socket Digikey 3M5462-ND 1
9 JP1 thru JP5 Data Out Schmitt Trigger Bypass Zero ohm 'Resistors' Digikey 0.0QTR-ND 5
10 Q1 thru Q8 Digital Control Transistors 2N3904, NPN Transistor, 40V, TO-92 Digikey 2N3904-APCT-ND 8
11 U1 thru U8 Current Regulators LM317L, Adjustable Linear Regulator, 0.1A, TO-92 Digikey LM317LZ-ND 8
12 U11 Linear Regulator TL750L05, 5V, 150mA, TO-92 Digikey 296-8002-5-ND 1
13 C2 Bypass Capacitor 10uF Ceramic Capacitor Digikey 445-4816-ND 1
14 C1, C3, C4 Bypass Capacitors 0.1uF Ceramic Capacitor Digikey BC1148TR-ND 3
15 LED1 Power LED 3mm Yellow LED Digikey 754-1212-ND 1
16 J2, J3 Screw Terminal 2 position euro-style screw terminal DigiKey ED2635-ND 2
17 J5, J6 SPI Headers 6 pin (2x3 DIL) 0.1" Header Digikey 609-3202-ND 2
18 J4 Power Jack 2.1mm ID Barrel Jack Digikey CP-002AH-ND 1
19 U9 Shift Register 74HCT595, 8-bit 16DIP Digikey 568-1560-5-ND 1
20 U10 Schmitt Trigger 74ACT14, 16DIP Digikey 296-4368-5-ND 1
21 J1 Display Connector 11 Position/22 Contact 0.156" pitch board edge connector Digikey EBM11DSAN-ND 1
22 N/A Display Top Standoffs Standoff, 7/8" round Digikey 1848K-ND 2
23 N/A Display Bottom Standoffs Standoff, round, 3/4" DigiKey 3488K-ND 2
24 N/A Display Top Standoff Washers 1/16" thick Nylon Washers, #6 screw McMaster 90295A090 2
25 N/A Display Bottom/Driver Board Standoffs 1/8" tall Nylon standoff McMaster 94639A407 2
26 N/A Display Bottom/Driver Board/Mounting Screws Screw, Button Socket Cap 6-32 x 1/2" McMaster 92949A148 6
27 N/A Display Top Screw, Button socket Cap 6-32 x 3/8" McMaster 92949A146 2
28 N/A Delrin Insulator Delrin Insulator EMS N/A 1


Assembly procedure

Looks a bit imposing, huh? Don't worry, looks can be deceiving. We'll show you where each part goes.

This guide assumes that you have had some soldering experience. If not, or it's been a while, you may also want to look at pages 2 and 5-7 of the Bulbdial clock assembly instructions, which go over basic tools and technique. And, if you really are a beginner, there are plenty of good tutorials on line, like this one.


1. The circuit board

Here's what the bare circuit board looks like:

bdd_001.jpg bdd_002.jpg

We'll be adding components to the labeled locations there.

When we refer to locations on the board and say things like 'look on the left-hand side of the board', we assume the board is being held with the silk-screen side up (we'll be calling this the 'front side') and with the text right side up.


2. Decimal Point Current Sense Resistor

Let's start with an easy one! Locate the 24 ohm resistor (color code: Red/Yellow/Black/Gold).

bdd_003.jpg

Bend the leads as shown.

bdd_004.jpg

This will go in location R25 - it's right above the power jack footprint on the right-hand side of the board.

bdd_005.jpg

Drop it in place (location R25), and bend the leads over by about forty-five degrees on the back of the board. With these resistors the orientation doesn't matter.

bdd_006.jpg

Solder the leads and clip off the extra wire.

bdd_007.jpg bdd_008.jpg

This is the general procedure we'll follow for all the parts in this kit.

bdd_009.jpg


3. Decimal Point Load Resistors

Let's finish off the decimal point resistors.

We'll be installing 68 ohm resistors (color code: Blue/Gray/Black/Gold) in locations R1 through R5.

bdd_010.jpg

All of these locations are immediately to the left of the power jack footprint on the right-hand side of the board.

bdd_012.jpg

Bend the leads...

bdd_011.jpg

Drop in place, bend the leads over on the backside...

bdd_013.jpg

Solder and clip!

bdd_014.jpg

bdd_015.jpg


4. Other Current Sense Resistors

Getting the hang of this? Great!

Next, let's install the 16 ohms (color code: Brown/Blue/Black/Gold) current sense resistors. These come as a segment from a large spool. Just pull them straight out and straighten the leads as needed.

bdd_016.jpg

Installation procedure for these is exactly the same as the resistors above. These will go in locations R11, R13, R15, R17, R19, R21, and R23 (in a big line across the middle of the board).

bdd_017.jpg


5. Base resistors

Next, locate all the 1k ohm resistors (color code: Brown/Black/Red/Gold) and install them into locations R12, R14, R16, R18, R20, R22, R24, and R26 (again, in a big line across the middle of the board).

bdd_018.jpg bdd_019.jpg

You may have noticed that we didn't use all the 1k ohm resistors available. Thats okay, we'll use the last one in step 6!


6. LED Resistor

Last resistor, we promise!

It's a 1k ohm (Brown/Black/Red/Gold), exactly like the resistors in step five. This resistor goes in location R27, between the large IC footprint near the top-middle of the board.

This is what your board should look like now:

bdd_020.jpg


7. Zener Diodes

Be careful with these - the resistors we installed above could be installed in any orientation, but not so with these diodes!

Look at the board for a second, and locate locations D1 and D2 (upper left-hand side of the board). Notice the thick white lines inside the footprint, on the left of the box?

bdd_022.jpg

Take a look at the diodes. See how they have black lines wrapped around one end of the glass cylinder?

bdd_021.jpg

These are polarity markings - when installing these parts you need to match up the black line on the diode with the white line on the footprint, like so:

bdd_023.jpg

Installing the diode backward could cause your Big Digit Driver to be damaged when you plug it in! Double check the orientation of your diodes before you solder them.

Other than keeping an eye on the polarity, installing the diodes is pretty much the same as the resistors we installed above.


8. Optional: Schmitt Trigger Bypass

Big Digit Drivers can be linked in series via the SPI ports on either side of the board. For long runs of digits (three or more) we've included a footprint for a Schmitt trigger - this IC will 'boost' the signals that run down the series of drivers and helps eliminate synchronization issues due to noise and attenuation.

If, for whatever reason, you don't want to use the Schmitt trigger you can instead install four jumpers in locations JP1, JP2, and JP3 (look in the upper right-hand side of the board).

bdd_025.jpg

For this we'll use zero-ohm 'resistors' - they have no real color code, they look like resistors with a single black stripe instead of five or more. They're not really resistors either (well, they do have a resistance - like all wire - but it is very low!) and each could actually be replaced with a length of wire if you prefer.

bdd_030.jpg

They go in like the resistors and diodes in the steps above.

bdd_032.jpg

(Note that in the photo above, jumper JP4 is also installed. Jumper JP4 is covered in step 9 - in this step we're only discussing the jumpers above it.)

There is no harm is using the Schmitt trigger on short runs of digits and using the bypass jumpers may work just fine for longer runs, but DO NOT use both at the same time! Using both shouldn't cause any damage, but the behavior of digits down the line will be strange and unpredictable.


9. Optional: SPI header ground connections

Since Big Digit Drivers can be wired in series essentially indefinitely, we also include the option of isolating the board from the the ground line on the SPI headers.

We recommend that you install these jumpers unless you are positive that you need to isolate drivers for some reason. Isolating the ground lines will only be useful to people who are driving a large number of digits for two or more power supplies.

Once again we'll be using zero ohm 'resistors' - just like above in step 8. We'll be installing them in locations JP5 (upper left-hand side of the board, just below the diodes) and JP4 (upper right-hand side of the board, below the Schmitt trigger bypass).

bdd_031.jpg bdd_032.jpg


10. Shift Register and Schmitt Trigger Sockets

We don't recommend soldering chips directly to the board, and the kit include sockets for your convenience.

bdd_024.jpg

There are two IC footprint (U9 and U10) and they are slightly different sizes (U9 is 16 pins, and U10 is 14 pins). Make sure you have the right socket for the right footprint! If it doesn't drop in, or if the socket doesn't seem to cover the entire footprint, double check that you have the correct socket.

Take a look at the board - notice the 'notch'/semicircle on one end of the footprint? This is a polarity marking. Match this mark with the notch in the end of of the socket.

bdd_025.jpg

Drop the socket into its respective footprint and flip the board over (you can either hold the socket in place or use the surface of a table/desk/bench to hold it in place). Now there is a bit of a trick to getting the socket flush the with the board. First, we bend over two pins in order to hold the socket mostly in place - notice how the bent pins are on opposite rows and opposite ends of the footprint.

bdd_026.jpg

Then, solder TWO pins - either the two bent pins or the pins directly across from them. Flip the board over and check that the socket is flush with the board. If not, apply light pressure to the socket on the 'high' end and reheat the solder joint. The socket should 'snap' into place. Remember to give the solder a moment to cool before you take your hand away!

At this point you can solder the rest of the pins. Trim what excess you can - it'll save wear-and-tear on the insulators when you mount the display.

bdd_027.jpg bdd_028.jpg

Then repeat for the other socket.

bdd_029.jpg


11. Digital Control Transistors

These transistors are little black cylinders with one side flattened and have three leads coming out one end. They should come attached to a strip of paper tape, but double check their markings just to be sure. They should have the number '2N3904' on the flattened side of the cylinder.

bdd_033.jpg bdd_034.jpg

We will be installing these into locations Q1, Q2, Q3, Q4, Q5, Q6, Q7, and Q8 (in a line across the middle of the board). Note that orientation matters! Take a peek at the board. See how the footprint is a circle with a flat side? That flat side matches up with the flat side on the part itself (the side with the text on it) - in other words, the flat side of the part should be facing toward the top of the board.

bdd_035.jpg

You may have noticed that the transistors also come with pre-bent leads - all you need to do is cut them loose from the paper strip and drop them in place.


12. Five Volt Linear Regulator

These will look similar to the transistors in step 11, except: they will have the number '750L05' on them, do not come attached to paper tape, and do not have their leads pre-bent.

bdd_038.jpg

Make sure you have the right part! There is only one voltage regulator and it will look very similar to the current regulators used in step 13. We will install this part in location U11 (upper left-hand side of the board, look for the words '5 Volt Regulator').

bdd_039.jpg

Like with the transistors in step 11, orientation matters! Again, line up the flat side of the regulator with the flat side of the footprint on the board (the flat side should be facing toward the top of the board). Getting the leads into the proper holes may prove a bit tricky - you may want to pre-bend them yourself before attempting to install the part.

bdd_040.jpg bdd_041.jpg


13. Current Regulators

These regulators will look very similar to the 5 Volt Regulator in step 12. Identical, in fact, except that they will have the number 'LM317' on them.

bdd_036.jpg

Install these in locations U1, U2, U3, U4, U5, U6, U7, and U8. Once again, orientation matter! Be sure to line up the flat side of the regulator with the flat side of the footprint on the board (the flat side should be facing toward the top of the board).

bdd_037.jpg


14. Linear Regulator Output Capacitor

This part will be a little blue blob with two leads coming out of it.

bdd_042.jpg

We'll be installing it in location C2 (look in the upper left-hand side of the board, under the '5 Volt Regulator' label). Don't worry about orientation.

bdd_043.jpg bdd_044.jpg


15. Other Capacitors

These parts will be yellow brown blobs with two wires coming out of them, and come on paper tape (similar to the tape the transistors came in).

bdd_046.jpg bdd_047.jpg

These will go in locations C1, C3, and C4. Orientation doesn't matter with these parts, so you can just drop them in.

bdd_048.jpg bdd_049.jpg


16. Power Indicator Lamp

The Big Digit Driver board has a power light. Nothing fancy, just a yellow LED. It goes in location LED1 - between the two IC footprint in the upper middle of the board.

bdd_050.jpg

Note that orientation matters for this part: the long lead goes into the square hole.

bdd_051.jpg


17. Screw Terminal Power Connectors

These are the green plastic blocks with screws in the top of them. You can install them in any orientation, but it's probably better to install them with the wire slots facing outwards.

bdd_052.jpg

These go in locations J2 and J3, on either sides of the board.

bdd_055.jpg bdd_054.jpg

Getting them to stay in place when solder is a bit tricky - we recommend placing the connector pins-up on a flat surface and laying the board onto it.

bdd_053.jpg

Only solder one pin at first. Check to make sure the connector is lined up correctly before soldering the other pin.

bdd_057.jpg bdd_056.jpg


18. SPI headers

These are also a bit tricky. The SPI header is a two by three block of straight pins. These should drop right into locations J5 and J6, on the left-hand and right-hand side of the board. Solder one pin on the back and then flip the board over. Make sure that the header is perpendicular to the board and the black plastic block is seated on the board. Once you're sure the header is seated properly, solder the rest of the pins on the back.

bdd_060.jpg bdd_059.jpg


19. DC Power Barrel Jack

This part goes in location J4, on the right-hand side of the board.

bdd_062.jpg bdd_061.jpg

Use the solder sparingly - just enough to tack it down. Flooding the holes may cause solder to bridge the gap between the holes and cause a short circuit.

bdd_063.jpg bdd_064.jpg

bdd_065.jpg


20. Insert Shift Register

The shift register is a 16 pin IC that has '74HCT595N' on it. It is the top chip in this photo:

bdd_065.jpg

You may need to fiddle with the pins a bit to get it to plug into the socket at U9. Carefully pressing the side of the pins against a flat, hard surface is a good way to do this.

Orientation matters with this part! See that notch on one end of the IC? That should line up with the notch/semi-circle on the IC footprint on the board.

bdd_067.jpg

21. Optional: Insert Schmitt Trigger

If you didn't install the Schmitt trigger bypass jumpers in step 8 you should install the Schmitt trigger at this point.

The Schmitt trigger is the 14 pin IC that has 'SN74ACT14N' written on it. It is the bottom chip in this photo.

bdd_065.jpg

The schmitt trigger and it goes in location U10. Like the shift register, Orientation matters: the notch on one end of the IC should line up with the notch/semi-circle on the IC footprint on the board.

bdd_068.jpg


12. Display connector

Almost done!

This part is the huge blue card edge socket with pins at a right angle. It goes in location J1.

bdd_069.jpg bdd_070.jpg

Make sure you put it in the correct side of the board! The socket actually sits on the back of the board, not the front (i.e. not the side with all the other components).

bdd_071.jpg

Make sure the socket is completely seated on the board before you solder it down. Clip off any excess wire.

bdd_072.jpg


13. You're done with the electrical stuff!

Good work, the board is finished. Now lets get it attached to a display, eh?

bdd_079.jpg


14. Attach The Display

The driver board slides onto the back of the display. The card edge connector at location J1 should be sufficient to align.

bdd_080.jpg

15. Delrin Insulator

The plastic insulator goes between the driver board and display. Note that the insulator has two holes - these line up with the middle pair of holes on the driver board (specifically, the holes that are slightly farther from the edges than the other four and line up with the mounting holes in the display).

bdd_081.jpg

Be careful with the insulator! It is resistant against punctures, but is actually rather brittle. Don't twist or warp it unnecessarily.


16. Board Spacers And Standoffs - Bottom of Display

To secure the driver board to the display we use a 1/8 inch nylon washer, 1/2 inch long 6-32 screw, and a 3/4 inch threaded standoff. The washer goes between the display and the driver board, either on top of or under the Delrin insulator (your choice). Pass the 1/2 inch screw through the display board, insulator, washer, and driver board. Screw the standoff onto it.


17. Board Spacers And Standoffs - Top of Display

To match the height of the stack-up on the bottom of the display, use the 1/16 inch nylon washer, 7/8 inch threaded standoff, and 3/8 inch 6-32 threaded screw. Pass the 3/8 inch screw through the display board and washer, and screw the standoff onto it.


18. Really done this time!

That's it, you're completely done! Hang it on a wall and plug it in! The kit includes four extra 1/2 inch 6-32 screws for mounting purposes.

bdd_082.jpg bdd_083.jpg