The SparkFun 16-Pin SSOP to DIP Adapter is a small PCB that lets you adapt 14 and 16-pin SSOP packages to a DIP footprint. These are useful for modding and upgrading devices that use 16-pin DIP ICs, when the upgraded IC is only available in a SSOP footprint. You can also use it for prototyping, to make SSOP packages compatible with solderless breadboards.
The updated version of this adapter comes as a dual array of PCBs -- if you're adapting one chip, you're likely to adapt more than one. The PCBs easily snap apart, resulting in two individual boards.
The SSOP-16 land pattern on the board has also been improved from its predecessor. First, the SSOP and DIP pin numbering matches -- both packages count counterclockwise from their respective pin 1. The board also fits in a standard 0.3" wide DIP footprint. The pads are very long, to accomodate 3.9mm, 4.4mm and 5.3mm package widths. They are on 0.635mm centers, but, with careful installation, an IC with 0.65mm leads will also fit. The board is contained entirely within the DIP outline, for situations with no extra clearance around the IC. Finally, if you leave two pads disconnected, SSOP-14 packages also fit.
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Assembling the adapter is fairly straightforward, but there are a couple of tricks that make it easier.
To build up an adapter, you'll need the following pieces.
The following tools are also recommended.
The array of boards was scored when it was manufactured. If you bend along the scores, the boards snap apart easily.
It's easiest to solder the IC in place before you mount the headers, so you don't have to work around the protruding pins.
If this is your first time soldering surface mount ICs, patience and a steady hand are the key to good solder joints.
To install the IC, we'll be using a technique known as "drag soldering." In drag soldering, we drag a blob of solder across the IC pins, depositing some on each as it goes by. If there's too much solder after dragging, we'll remove it with wick.
First, apply flux to the PCB. Flux cleans off the thin layer of oxidation the forms on the pads and allows molten solder to flow onto them.
Pin 1 of the IC is usually marked with a small dimple or notch in the IC body. Line these marks up with the corresponding marks in the PCB silkscreen. The silkscreen actually has three marks: a notch at one end of the IC, a dot within the IC outline, and a dot just outside the IC (which remains visible once the IC is soldered down).
To get started, flow a tiny bit of solder onto pads on opposite corners of the SSOP footprint.
Grab the IC with the tweezers, and orient it over the footprint. Reheat one of the solder blobs from the previous step so the IC lead adheres to it. The solder should flow onto the IC legs, tacking the part in place. Press the IC down flat before the solder cools.
Then repeat this on the opposite leg, to hold the IC in place for the rest of the soldering operation.
When it's in place, doublecheck that the rest of the pins are reasonably aligned with their pads. If the placement needs adjustment, reheat one corner, and move the IC.
If you're careful and have a dainty soldering iron, you can proceed around the chip, soldering down each lead individually.
Of course, we're not especially dainty. The tip of our iron is gigantic compared to the lead pitch of an SSOP, so we're going to use a different technique, known as drag soldering.
To start drag soldering, heat a pin with the iron, then flow a blob of solder onto it. Once the solder flows, use the iron to drag the blob across the remaining leads.
As you drag the blob, it will adhere each pin to the corresponding pad.
When you reach the end of the line of pins, there might be some blob remaining, and there will probably be some excess solder bridging adjacent pins.
Use the solder wick to clean these up.
Repeat the process down the other side of the IC.
When you're done, take a moment to inspect your work. Check that each lead has a solder fillet to the pad underneath and that leads aren't shorted to their neighbors. It gets harder to touch things up once the pins have been soldered on.
With the IC in place, now you can solder on the pins. We'll demonstrate using both plain break-sway headers and flip pins. Flip-pins are special pins that are the size and shape of regular DIP-IC legs. They fit in breadboards and IC sockets better than plain square-pin headers.
Soldering in regular headers is easier if you have a jig that can hold the pins while you solder. It turns out that a solderless breadboard has a bunch of holes with the proper alignment!
Start by breaking 8-pin segments off the header. Insert them into the breadboard, two rows apart.
Set the PCB over the headers. Take care to keep the pins aligned straight up and down.
Work your way around the PCB, soldering each pin from the top of the board.
Flip pins come packaged in a black plastic shroud, which keeps them aligned until they have been installed. The shroud also works as an assembly jig.
To start, stand two sets of flip pins up on your workbench. Then place the PCB on top of the pins. The tail on flip pins is as long as the PCB is thick -- they won't protrude above the PCB.
Work your way around the board, soldering in each pin. Take care to keep the pins aligned perpendicular to the plane of the bench top. Once the pins have been soldered on, carefully slide the plastic pin aligner off, revealing the IC-type pins.
Once you've finished soldering, look at the solder joints. If they appear to have a yellow or brown coating on or around them, the board has flux residue (under a magnifying glass, it might look like amber or burnt sugar). Flux is acidic and can cause problems with long-term reliability, so it's best to clean it off.
You'll have to check the documentation for your solder for the proper cleaning methodology. Some flux is water soluble, while some requires a solvent like isopropyl alcohol or acetone.
Before we jump into applications of the SSOP-to-DIP adapter board, let's take a moment to doublecheck our work.
A quick visual inspection can help spot solder bridges or solder joints that didn't flow properly. It's also a good time for one last check, to make certain that pin one of the SSOP is properly oriented.
For a little extra confidence, you can also use a multimeter in continuity mode to verify that the legs of the SSOP are connected to the pads but not bridged to their neighbors.
The pins of the DIP footprint are rotated 90° in relation to the pins of the SSOP. We covered the pin-1 markings for the SSOP in the assembly section.
Pin 1 of the DIP footprint is marked two ways. The solder pad for pin 1 is square, while the others are round. It also has a small
1 in the silkscreen near the pad.
Pins 1 and 9 are also marked in the legend silkscreened on the bottom of the board.
This adapter is useful when you want to build a breadboard prototype using a chip that's only available in SSOP. It allows the chip to properly fit the rows of the breadboard.
Another common use of a SSOP-to-DIP adapter is upgrading or modifying existing equipment...or, as in this case, saving your bacon when you've purchased components with the wrong footprint.
We're working on restoring an old SparkFun Function Generator Kit and needed a 74HC04 logic chip. When we ordered it, we didn't read the description carefully enough, and we got a 14-pin SSOP IC. Unfortunately, it needed to fit it into a DIP footprint on the board. Thankfully, we've got an adapter board to help.
If you look closely, you'll notice two things in the above photo: first, the IC only has 14 pins on a 16-pin adapter board. Second, it is a wider SSOP package than we've seen in the other examples. Thankfully, the land pattern on the PCB has extra-long pads to accommodate it.
Since the PCB already had a socket, we opted to use flip pins on the adapter. We're fitting a 14-pin chip on a 16-pin adapter, so we opted to keep pin-1 aligned on both pieces. This also means that the chip is two pins short -- we're not using pins 8 and 9 on the adapter, and pins 10 through 16 on the adapter are off by two, connected to IC pins 8 to 14.
This board is a redesign of the now retired 16-Pin SSOP-DIP adapter.
We also offer a number of other surface mount to through-hole conversion boards:
For legs on the adapter, we have two options.
If you're interested in the history of IC packaging, check out the Wikipedia article about package types.
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