The understanding ribbon cable is no difficult task, so long as you have an eye for details. Information is power, which is especially true as it concerns following instructions and doing the right thing.

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There are quite many factors that help you understand how to make use of ribbon cable assembly. These factors are a determinant factor in using ribbon cable and getting maximum output from its use.

Now, you may wonder, &#;How do I understand ribbon cable?&#;

This article provides you with the seven points that provide an in-depth understanding of ribbon cable assembly.

1. Description of Ribbon Cable Assembly (Physical attributes/ qualities)

Ribbon cable assembly is also known as flat ribbon cable assembly.

To some others, it is also a planar cable assembly. Whatever name you choose to call it, it is all the same. It simply reveals that it means different things to various individuals.

One thing the ribbon cable is notable for is insulation displacement connector (IDC) terminations. It is also very significant in effectively maximizing different types of wires.

To achieve the very best form of using these wires, you need to place the wires in a parallel manner side by side. In doing this, you are sure of achieving a flat and parallel outlook. The resultant effect of this is that it produces a ribbon-like shape.

One quality ribbon cable possesses the fact that it is very flexible. Its flat-like nature makes it very easy to use in confined spaces. For this reason, ribbon cable assemblies are not known to take up too much space.

Interestingly, the flexibility of the ribbon cable makes it easy for the cable to change positions. It means that it is easy to achieve any shape or form using the ribbon cable. That is, if you want a right-angled way, you only need to fold an edge of the cable assembly over itself.

In making the ribbon cable assembly, there is usually use a common material. It is known as stranded copper wire. It ranges in various sizes from 18AWG and gets to 34AWG.

Additionally, in making ribbon cables,  you need to be aware of using the insulating material. The majority of the content that is relevant in the insulation process is mostly PVC-based.  Though, there are situations where the PVC material may substitute for Teflon or Olefin material.

2. Specification of the Ribbon Cable Assembly

The specification of the ribbon cable assembly takes two values. It is either the specification specified by using spacing or the number of conductors on the ribbon cable.

Another name for spacing is pitch. The pitch of the ribbon cable assembly is usually made available in distances that are over reasonably length. It comes in various measures such as 0.025, 0.156 and even extends to 1mm pitch.

The number of connectors of the ribbon cable assembly links easily with the positions of the ribbon cable. Usually, the connectors are in a standard form and are mostly in even numbers. They include 4, 6, 8, 9, 30, 50, and even 80 different positions.

The ribbon cable assembly also makes use of color-coding. For an easier understanding of the ribbon cable assembly, could you pay attention to its color-coding? The ribbon cable termination is either edge marked or sometimes in color-coding.

The advantage of this color coding is that it aligns the pins on the ribbon cable&#;s connector and makes it averts occurrences of a poor connection.

One notable feature of the ribbon cable assembly is that one edge of the ribbon cable always has one color different from the other part of the ribbon cable.  When made the color on the ribbon cable is, it gives a mark that makes it easy to identify.

If the ribbon cable assembly is such that it possesses different colors, the conductors for the ribbon cable are usually with shades of various sorts. The colors are generally multiple colors that are green, blue, red and some other colors. In cases where the colors are above ten, the colors of the conductors repeat.

3. The Benefits of the Ribbon Cable Assembly

There are quite a handful of advantages that are associated with using the ribbon cable assembly. Among all the advantages of using ribbon cable, a notable benefit is its ease of termination.

If you use the IDC connector, you are certain of getting the termination across many spaces. The IDC connector structure in a manner that possesses fork-like attributes that make it easy for you to pierce the insulation and come in contact with the connector.

Additionally, the ribbon cable assembly is flexible. Its flexibility makes it easy to use and allows room for space. The flat surface of the ribbon cable makes it easy for individuals to make use of it.

Another advantage of the ribbon cable assembly is that it makes room for space. Organizing wires for various purposes is not an easy task, especially for large bodies. The ribbon cable helps to organize wires and protects the environment from hazards.

The ribbon cable is also very light and doesn&#;t consume a lot of space wherever they keep. In this vein, it is capable of working well. It is also capable of accommodating large equipment and tools.

Furthermore, the ribbon cable assembly possesses good traits of electrical equipment. They are reliable and are also consistent. For this reason, the ribbon cable also carries a greater capacity of current.

The flat shape of the ribbon cable assembly makes it possible for a reasonable level of temperature to go through the conductor and makes it easy for the conductor to dissipate heat.

It is also easy to use the ribbon cable because it is easy to organize it. Of the truth, it isn&#;t easy to manage individual wires, especially when they are in bulk. So, the ribbon cable helps to keep the individual together in one piece.

4. Applications of the Ribbon Cable Assembly

Ribbon cable assembly is relevant for numerous applications. They are most significant for use in the internal components of computers. Some equipment such as floppy disks, CD drives, and hard drives use ribbon cables.

Furthermore, a ribbon cable assembly is also relevant for connecting medical equipment, test equipment, print head, and consumer electronic products.

The diversity of ribbon cable is such that many commercial sectors use it for various purposes. They are also very relevant for various components such as computers and printers. More so, multiple industries make use of ribbon cables.

 A majority of electrical products use ribbon cables because of the simplicity of their design and size. The beauty of the ribbon cable is that even the aviation and automobile industries build various products using a ribbon cable.

Interestingly, ribbon cable plays a significant role in various industries and helps produce outstanding works and projects.

5. Ribbon Cable Assembly Connectors

These connectors are usually very compatible with IDC termination. There are varied types of ribbon cable connectors and their various applications as well. Some of these connectors include:

The BT 224 connector: This is otherwise known as the IDC connector. This connector type comes in various standards, such as BS - Foo23, DIN , and the last but the least, MIL-C- . These connector standards of the BT 224 connector type are suitable with ATA cables.

The D- subminiature connector: This is a unique type of ribbon cable connector. It is not as common as the crimp connector type. This connector type is suitable for various ports of printers and serial ports.

The DIN connector: This is mostly suitable for electrical suppliers that work in harmony &#; Euro card bus, Future bus, NU bus, etc.

PCB transition headers: PCB is an acronym for the printed circuit boards. It is a reliable and cost-effective way of linking various applications to PCB. This connector type helps to connect the wire and secure it to the board.

More so, it works both ways and performs dual applications.

DIL headers: These connector types work well with two PCB headers. In the same vein, they work with the DIL socket to produce a workable socket and plug.

6. Factors That Affect The Ribbon Cable Assembly

Are there factors that affect the ribbon cable? Of course, certain elements are likely to affect the performance of your ribbon cable. So, you must pay heed to these factors and understand how to go about the ribbon cable assembly.

The type of construction of the ribbon cable is most likely to affect its performance. To get the best use of ribbon cable assembly, you must use good quality to construct the cable assembly.

It is impossible to get optimum results from the use of ribbon cable when you make use of inferior material.

Another factor is the firmness of the cable assembly. When you want to use your ribbon cable, it is important that you securely place the wires and make them firm. It is firm; you are certain of using the ribbon cable assembly with little or no risk attached to it.

It doesn&#;t suggest that the cable becomes too tight. When the cable assembly becomes too close, it also poses some dangers, which may be disastrous. In some cases, it amounts to the inability of the ribbon cable assembly to function properly or as expected.

Another factor that affects the performance of the ribbon cable is the type of material you use in its production.

Hence, it is important to understand the material suitable for high temperatures and those that are not. Understanding the various elements will assure you of getting nothing but the best in using the ribbon cable assembly.

7. Any Disadvantages?

The question that you are very likely going to ask is, &#;Are there any disadvantages in the use of ribbon cable assembly?&#; Well, it is near impossible to come across a product that bears only advantages without any form of disadvantage attached to it.

The ribbon cable is almost an exception considering its numerous advantages, especially its flexibility and the ability to function well in a given space.

There are no proven disadvantages to the use of a ribbon cable. So long as you understand the material type to use and the suitable environment, there are no disadvantages to its use. Additionally, it is also important to understand the situation that works best with the ribbon cable.

Conclusion

Ribbon cable assembly is one of the easiest cable assemblies to get. They are straightforward to use when you possess the right understanding of their use.

To get the best from using the ribbon cable that is safe to get good material and use the right connectors. How do you determine the factors responsible for a proper ribbon cable?

CLOOM Tech is readily available to lead you through the process of discovering the type of material to make use of and how to go about it.

Additionally, if you require assistance with the ribbon cable, CLOOM Tech is one of the few tech organizations that offer top-notch tech services. You are certainly sure to get good services with CLOOM Tech.

What are you waiting for? Contact us for further inquiries and assistance.

Contents

Introduction

As someone who builds a lot of electrical things, one of the perhaps most unexciting yet fundamental subject areas is connectors. The range of connectors available and in-use today is trully astonishing. Big sellers like Digi-key/Farnell/Mouser literally have tens of thousands of product lines in their connectors category!

With so many different types of connectors available, it&#;s often difficult to know what to buy, especially when you&#;re buying for general use and/or personal stock. On this page I&#;ll cover some of the most common connectors in use today, and detail crimping/tooling considerations.

Every connector system ever conceived has its own official crimp tool, in most cases the cost of these is over and above what any hobbyist could and would want to pay for a crimp tool.

I personally own many of the official tools but for cost reasons don&#;t necessarily recommend them.

Engineer PA-09 and PA-21

For the past 5 years this page has been focused on comparisons with the above tools. Note that I do not recommend buying these. They are expensive, poorly finished, causing contacts to stick in the jaw, and the scissor type action makes it difficult to get sufficient force on the conductor part.

My recommended budget tools

My preferred budget tools: IWISS SN- and Engineer PAD-11

• IWISS SN-. A 4 die tool for smaller contacts. It&#;s good for most medium sized power connector families on this page i.e. Microfit, Mini-Fit Jr, E.I., KK .156, Mate-n-Lok, .187 FASTON, JST PH. It has a cleanly machined jaw, so contacts won&#;t get stuck in it. It crimps the conductor and insulation in a single action, with the ratchet double hinge mechanism providing good force on the conductor part. It tends to apply too much force to the insulation part, but one cannot have it all on a budget. Here is a 3D printed locator which may be of interest for some terminal types.
• IWISS SN-58B. Another good 4 die tool from IWISS, however all significantly larger than the SN-. Recommended if you work with larger contacts.
• Engineer PAD-11. Unlike the PA-09/21 its jaw is cleanly machined, allowing easy removal of contacts after crimping. It is a little pricey but definitely wins for crimping smaller contacts i.e. PH, XH, Picoblade, SL, KK 100 etc.
• IWISS IWS-M. A copy of the Engineer PAD-11. Not as well made but for the significantly lower price, it could be forgiven.

For those with a little more to spend

Hozan P-707

Several readers have written to me about this tool over the years &#; it&#;s generally well spoken of. I recently obtained a sample myself and can confirm that it&#;s a good option for those happy to spend a bit more. It tends to cost around $70-80 and has to be ordered from Japan.

It has two features which many generic tools lack:

• Lots of conductor crimping force. Its compound hinge amplifies the crimping force, meaning you can have as much as you like, you can even crush the contact into two if you so desire. Single hinge tools like the Engineer PA-XX models cannot achieve this unless one has an extremely strong grip, or the tool is compressed in a vice.
• It has two &#;O&#; shaped crimping dies, something that is rarely seen on generic tools. This means it does good &#;DuPont&#; crimps. More about that here.
• The above two features are combined in a tool which crimps conductor and insulation separately. This gets around another common problem with generic tools where these are combined, in that one may be under or over crimped. You can crimp both separately to whatever extent you require.

It&#;s not a clear-cut winner however as it is more effort to use than the IWISS ratcheting tools and gets less consistent results, owing to the fact that crimping force is controlled by your hand.

IWISS have added an exact copy of this tool to their catalogue &#; IWS-L. Don&#;t expect it to be made to the same standard as the Hozan. Personally I would prefer they spent their efforts improving the mediocre results of their own designed crimp tools, rather than copying others.

Do your own research too. There are thousands of generic crimp tools out there. I cannot test them all.

What differences can I expect using original tools versus generic tools?

These are four main differences:

• Single action: All original tools allow insertion of the contact and crimping in one go. Generic tools will often require the insulation and wire crimp to be performed as separate actions
• Correct crimping force: When using generic tools, it can often be difficult to get sufficient crimping force, especially when crimping thin / small gauge wire into contacts . It is also equally easy to over crimp contacts, damaging the wire in the process.
• Locator: All original tools have a &#;locator&#; which holds the contacts in place during crimping, this means that your crimps are perfect every time. Using generic tools, it can be frustrating trying to line the contacts up correctly.
• Insulation crimp accuracy: Original tools are designed to not piece the insulation, whereas generic tools do most of the time. This means that terminations subject to continual mechanical stress are going to last a lot longer.
• Cost: Original tools are all extremely expensive.  Unless like me you&#;re happy to prowl eBay looking for deals on second hand original tools, expect to be paying hundreds to over a thousand dollars (USD) / £ (GBP) for an original tool, only to have it work on a single connector family! To rub additional salt into your wounded wallet, it&#;s not uncommon to find that the connector manufacturer has a different tool for every single wire size, each costing $500+

What&#;s wrong with just soldering contacts?

Before I get started, let&#;s cover this one briefly with a simple diagram:

Correctly crimped contact

When crimped properly, the strands remain individual even upon entering the insulation crimp, making the chances of strands breaking low.

Soldered contact

When soldering, there is a very high chance that the solder will wick up the conductor, beyond the insulation crimp, making it very vulnerable to mechanical damage. In this situation, it only takes a small amount of movement to start snapping the strands at the invisible weak point.

Soldering doesn&#;t have any disadvantage in electrical terms, only mechanical. That make this method non-viable for production use; except under very controlled conditions with connectors that are designed for soldering. This having been said, I would recommend soldering in scenarios where connectors are carrying significant current, and the manufacturer tool is unavailable (see below).

Below is an interesting graphic from TE, from this video. On the left a cross section of a &#;gas tight&#; crimp, typical from a manufacturer original tool. The graphic on the right is the typical result of an off-brand tool. It&#;s important to put this into context however &#; gas tight crimps are only needed where contacts are used near their current rating, are expected to last a very long time, and/or the consequences of failure are serious.

Source: TE Connectivity

Branded vs no-brand contacts

Back when I first started using crimp connectors, almost everything I built made use of cheap no-brand contacts with no particular care as to what they were plated with (not that it was ever specified anyway). Why waste money on name brand contacts when no-brand contacts work just fine?

Fast forward a few years, and I find that some of that equipment I built 3-5 years ago begins to malfunction. The problem was that I had mated contacts from two different eBay sellers with differing plating. The dissimilar metals in use corroded over the years ending in failure.

Attempts to save a few quid back then have now resulted in hours of profanities as all of those connectors have had to be re-crimped with name brand gold contacts.

If you are not on a tight budget, and building something that has to be reliable, and last &#; go straight for manufacturer original gold plated contacts . If buying Molex: 0.38µm &#;Selective&#; plated contacts are good enough (unless your creation is a life support system, or going to the moon).

Alternatively, if you don&#;t want to stump up for gold plated contacts &#; Tin plated contacts from known brands i.e. Molex / TE/ Amphenol / JST will last a lot longer than no-brand contacts.

Brass vs Phosphor bronze contacts

Phosphor bronze and brass are both alloys of copper, however with different ingredients. Phosphor bronze contacts are generally regarded as superior as they are harder and retain their tension for significantly longer. Smaller brass contacts may need to be re-tensioned after 5-10 mating cycles. If a contacts material is not specified (i.e. it&#;s a cheap no-brand type) assume it&#;s brass.

There are other exotic materials used in contacts i.e. beryllium alloy however these tend to only be found in very expensive contacts (for example genuine Mini-PV).

Mini-PV &#; Amphenol, M20 &#; Harwin (and other &#;DuPont&#; clones)

Mini-PV housings, and a variety of contact sizes and plating options

These (and look-a-likes) are the most commonly used type by hobbyists. I have a separate page with a lot of detail relating to these.

Common JST Connectors

Another range of common types used by hobbyists. There are quite a few to cover. I&#;ve detailed them on a separate page.

KK 254 / KK .100 (Molex)

Various KK.254 and compatible components. The design of the polarisation on Molex types is inferior to that of other manufacturers, with two small protrusions at the base of the housing, instead of the usual ribs which run at least half of the length of the housing. Because of this, smaller 2 and 3 position connectors skew to one side when the wire is pulled on. The one exception is the special type with fan style polarisation.

Connectors resembling these are produced by many manufacturers, most of whom are anonymous factories in mainland China, whose product is sold under a plethora of different brand names. For the most part, headers and housings mate and latch fairly well across brands.

If you are looking for more details, kindly visit RHT.

As explained in the caption above, Molex/TE&#;s housing design is different to most no-name types of this connector. I&#;ve not been able to identify a well-known manufacturer who produces these with the longer (superior) polarising ribs.

Despite my dislike of Molex&#;s polarisation design &#; I don&#;t use the more common no-brand types anymore as several years ago I had a bunch of them fail after 18 months due to corrosion on the mating surface. I have since replaced all them with Molex Gold plated types which have now been running for 4 years without incident.

Example part numbers (Molex)

Numbers in bold can be changed to order connectors with a different number of positions.

Contact AWG 22-30 (Tin plated)08-50-Contact AWG 22-30 (Selective gold plated, mating surface only)08-55-Housing 3 position22-01-2035Housing 4 position (PC fan style polarisation)-Header 3 position (Tin)22-27-2031Header 3 position (Gold plated)22-29-2031Header 4 position (Tin plated, PC fan style polarisation)-Header right angle 3 position (Gold plated)22-12-4032Header right angle 3 position (Tin plated)22-05-7038Hand crimp tool AWG 22-- Molex KK100 crimp tool (mfg&#;d by Pressmaster Sweden)Crimped KK 254 contacts. Left: Contact crimped with PA-09, Right: Contact crimped with Original molex tool.

Unofficial male connectors

Unfortunately there is no standard male connector in the KK 254 family, but this hasn&#;t stopped a slew of unofficial connectors from being produced. These connectors bear and extraordinary resemblance to the Molex SPOX series (SPOX is a similar, but incompatible type, which does have a wire-to-wire male).

Compatible KK 254 male connectors

Above is a variety of Chinese manufactured connectors I&#;ve purchased off eBay and Alibaba which are designed to mate with KK 254 female connectors. They are only found in 2, 3 and 4 positions, because, these are the variants used for PC fans.

The quality of these is not comparable to that of the mating connectors, but perhaps this is not so surprising, given the intended market of these connectors.

SL (Molex), AMPMODU MTE (TE Connectivity)

Molex SL contacts and connectors

A common 0.1&#; (2.54mm) pitch connector which is similar in appearance to Mini-PV / &#;DuPont&#; types, even mates with them but is quite different in design, in that the retention mechanism is part of the contacts, where as with Mini-PV it is part of the housing. It is manufactured by both TE and Molex with some minor differences. Chinese reproductions of this type are common.

If I were to start over, I would probably use these connectors in place of several others I commonly use, this is because it is truly a &#;do-it-all&#; connector family.

With 2.54mm pitch, they&#;re good for breadboard, strip board and anything else like it, they have a reliable and practical wire-to-wire male connector, they&#;re polarised, latching and contact positioning is very good i.e. in male housings they don&#;t flop around risking bending on mating. There&#;s even panel mounting options!

They&#;re not particularly cheap, but if not on a budget, well worth considering.

The downside is that PCB headers have a large footprint. Mini-PV is a connector family with comparable versatility including polarised PCB headers of significantly smaller footprint, and better quality contacts, however at slightly higher cost.

Example part numbers (Molex)

Numbers in bold can be changed to order connectors with a different number of positions. Non latched, and dual row types are also available.

Female contact AWG 24-30 (Gold plated)16-02-Female contact AWG 24-30 (Tin plated)16-02-Male contact AWG 24-30 (Gold plated)16-02-Male contact AWG 24-30 (Tin plated)16-02-Housing 4×1 position female (with latch)50-57-9404Housing 2×1 position male (with latch)-0001Housing 4×1 position male (with latch)-0003PCB Header 2 position (Gold plated, with latch)-0001PCB Header 4 position (Gold plated, with latch)-0003PCB Header 2 position (Tin plated, with latch)-0036PCB Header 4 position (Tin plated, with latch)-0038Hand crimp tool AWG 24, AWG 26, AWG 28, AWG -Hand crimp tool AWG 22, AWG 32, AWG 34, AWG -Hand crimp tool AWG 24-30 (Historic)11-01-Hand crimp tool AWG 22-24, AWG 30-36 (Historic)11-01- Current Molex SL crimp tools. Left: - (Pressmaster), right - (Wezag). Older tools exist and are likely to be found inexpensively on eBay.Left: SL contact crimped by -. Right: SL contact crimped by Engineer PA-09

Unlike Mini-PV which almost no generic tools can crimp properly &#; SL Contacts crimp pretty well with off-brand tools.

As we can see from the picture above we have a familiar problem of not being able to apply the same kind of force. The original tool is designed in such a way that a large amount of pressure can be applied to a small area, but on the Engineer tool this just isn&#;t possible short of jamming the jaw into a vice every time, which&#;d be a little time consuming.

M22 (Harwin), Milli-Grid (Molex)

A common 2.0mm pitch grid type connector. Available in single and dual row configurations. Similar types are made by both Harwin and Molex. Harwin&#;s type is cloned by Chinese manufacturers and is significantly more common.

Example part numbers (Harwin)

Numbers in bold can be changed to order connectors with a different number of positions.

Contact AWG 24-30M22-Blank polarising plugM22-Housing 4×1 positionM22-3010400Housing 4×2 positionM22-3020400PCB Header 4×1 positionM22-2010405PCB Header 4×2 positionM22-2020446Hand crimp toolZ22-020 Left: Harwin M22 housing and contacts. Right: Molex Mill-Grid housing and contacts. The housings and contacts are slightly different &#; Both are 4.0mm thick at the mating end however Molex&#;s are fatter (4.75mm) at the wire entry. Contacts and housings aren&#;t interchangeable.

M22 Crimp tool Z22-020. Made by Pressmaster in Sweden. It crimps Molex Milli-Grid contacts perfectly too. This tool also crimps &#;M22-308&#; contacts which are for a completely different type of connector.

M22 and Milli-Grid contacts crimp easily and cleanly with tools like the Engineer PAD-11, however with the usual problem of significantly less force on the conductor part, which means cable assembles have to be pulled from the connector body (not the wire) to avoid wire pulling from the contacts.

Tiger Eye 2.0mm (Samtec)

A exceptionally rare example of a two row wire-to-wire connector system. In total I have only ever identified two such types of connector, other other being dual row Mini-PV. If you come across any more, please let me know!

CGrid III (Molex)

Very similar to the SL series mentioned above, except cheaper, lower quality and lacking latching options. These are an option for those looking for something in the form of &#;DuPont&#; style connectors, but better quality, and cheaper than genuine Mini-PV connectors.

The design of the contacts is distinctly different to SL. They crimp more like Mini-PV contacts with an &#;O&#; crimp on the insulation.

If seeking a CGrid III crimp tool &#; the old version (-, mfg&#;d by pressmaster) is a better bet for hobbyist use as it often seen cheap on eBay and covers both contact sizes in a single tool. With the current offering two different tools are required.

AMPMODU MOD IV (TE Connectivity)

Various AMPMODU MOD IV components

Tired of reading about 0.1&#; wire to board connectors yet? AMPMODU MOD IV is yet another example, but one from the ark. The newest equipment I&#;ve ever found one in was manufactured in . They remain in full production to this day, for some reason or other.

The housings are quite a bit thicker than most other types. The two row housing has the same thickness as a 0.1&#; IDC connector. To me the only interesting thing about this family is the housing on the left. It&#;s got the exact dimensions and polarisation of an IDC connector. Quite handy when in situations when mating a non-IDC cable assembly to a shrouded IDC header. Agreed, an unlikely use-case. Beyond this, these are an expensive relic.

The old tool for AMPMODU MOD IV contacts

KK 396 / KK .156 (Molex)

Molex KK 156 compatible connectors

Effectively a jumbo version of the KK .100 connector, this is another very common wire-to-board connector of which compatible connectors are made by a large number of manufacturers. Pitch spacing is 0.156&#; (3.96mm). The most likely place you will encounter them is inside of switching power supplies, almost certainly on the primary side, and possibly on the secondary side too.

As with KK .100/.254, connectors with this same 0.156&#; pitch, which mate with these are available from many other manufacturers.

There are two varieties of contact: basic and &#;trifurcon&#; &#; a special variant which contacts the pin on three surfaces for increased current carrying capability.

• -: Official crimp tool (This has now apparently been replaced by a new tool)

Molex -: KK .156/396 crimp tool (mfg&#;d by Wezag Germany)KK 396 Trifurcon contacts

• Left: Crimped by Molex -
• Centre: Crimped by Generic tool (HT-225D)
• Right: Crimped by Engineer PA-21

KK 396 Standard contacts

As expected, the original tool is effortless to use and gets absolutely perfect results. The IWISS SN-025 is a tool I found crimps these very well despite it not being inteded for this purpose.

Mini-Fit Jr (Molex)

Molex Mini-Fir Jr connectors

Used for 20 and 24-pin ATX power supply connectors, and for the 4, 6 and 8 pin +12V connections found in modern PCs.

Example part numbers (read notes below first)

All of the part numbers specified below are for the &#;natural&#; colour types as pictured above. They are also available in black and white (left, above).

If supplied by Molex, black housings are for &#;glow wire&#; compatibility (they don&#;t spontaneously ignite in the event of a connection overloaded to glowing point). White housings are for UL94-0 fire safety compliance, i.e. they&#;re less flammable than the &#;natural&#; coloured types, however more expensive.

No-brand (non Molex) types are often coloured black for aesthetic reasons typically for use in PCs, and are made of low quality plastics which do not feature the improved fire safety ratings of Molex types.

Contact and header part numbers are for the most common Tin plated types. Gold plated types are also available however these should not be used unless both mating sides are gold plated.

Numbers in bold can be changed to order connectors with a different number of positions.

Female contact AWG 18--00-Male contact AWG 18--00-Female contact AWG 22--00-Male contact AWG 22--00-Housing 2×1 position (female receptacle)39-01-4020Housing 4×1 position (female receptacle)39-01-4040Housing 1×2 position (female receptacle)39-01-2020Housing 2×2 position (female receptacle)39-01-2040Housing 2×1 position (male plug, no panel mount)-Housing 2×1 position (male plug, panel mount)-Housing 2×2 position (male plug, no panel mount)39-01-3043Housing 2×2 position (male plug, panel mount)39-01-2041PCB Header 3×1 position (with mounting peg)39-30-1039PCB Header 4×1 position (with mounting peg)39-30-1049PCB Header 2×1 position (no mounting peg)39-28-1023PCB Header 2×2 position (no mounting peg)39-28-1043PCB Header 2×2 position (with mounting peg)39-29-9023PCB Header 4×2 position (with mounting peg)39-29-9043Budget hand crimp tool AWG 16--Premium hand crimp tool AWG 16-24 (Historic)-Premium hand crimp tool AWG 18-24 (Historic)11-01-Premium hand crimp tool AWG 18-24 (Current)-Premium hand crimp tool AWG 16 (Current)-Premium hand crimp tool AWG 22-28 (Current)-Contact extractor11-03-

The extraction tool

Sold separately. If you&#;ve ever found yourself trying to remove already inserted contacts, you&#;ll appreciate one. Instead of potentially hours of uttering profanities attempting to extract contacts with sewing needles, the contacts will pop straight out with one of these.

Crimp tool considerations

Above is a selection of crimps by various tools, including Molex original and some others which do a fairly decent job, with the exception of the IWISS SN-28B on AWG16, which is too loose for serious use.

For AWG24+ wire sizes, smaller contacts i.e. 39-00- are used. Note that both -/ and - both support AWG 24 but in each case, contacts for appropriately sized for the tool must be used.

There are of course many other possible combinations. I cannot cover them all. I wrote a bit more about Mini-Fit Jr on this page.

Molex Mini-Fit Jr crimp tools - and - (mfg&#;d by Pressmaster Sweden) with extraction tool.

Universal Mate-n-Lok &#; 6.35mm pitch (TE Connectivity)

Also known as Universal Mate-n-Lok. At 600V it is the highest voltage rated connector I cover here. Contact rating is 19A.

Its contacts are remarkably similar to the 5.08mm pitch Mate-n-Lok connectors mentioned below, but not quite the same. They&#;re not interchangeable. As you may have predicted, officially there&#;s a different tool for them too, so that&#;s another months spending money if you aren&#;t keen to crimp them with off-brand tools.

I keep a small stock of these for high voltage applications, as they safely handle a 230V 13A load (UK max socket outlet) without breaking a sweat. They crimp perfectly with the -1 tool mentioned below, despite it not being intended for this purpose.

Example part numbers

Female contact AWG 14--1Male contact AWG 14--1Housing 2 position (receptacle)1--0&#;Housing 2 position (plug / &#;cap&#;)1--0Current AWG 14-20 crimp tool-1Historic AWG 14-20 crimp tool-2Contact extractor-1 The old Universal Mate-n-Lok crimp tool -2.

Contact extraction tool

Universal Mate-n-Lok extractor tool -1

This tool is well made and effective. Extracting contacts from receptacles (pictured above on the left) is tremendously difficult without one. Unfortunately at $60 it&#;s not cheap. I got mine off eBay for a song. It also works with 5.08mm pitch Mate-n-Lok connectors pictured later on this page.

Crimping with unofficial tools

I went through all my cheap eBay tools on these. The one that came out on top is labelled SN-48B. The engineer tools aren&#;t suitable for contacts this large.

Top: Crimped with -1 tool. Bottom: Crimped with SN-48B tool. Wire size: AWG 16 / 1.5mm

Not too bad of a result, however not quite enough force on the conductor part, this is a bit of an issue under heavy load as the thermal camera image at the top of this article shows.

Universal Mate-n-Lok &#;High Current&#; variant

High Current Universal Mate-n-Lok header -1 (I don&#;t have one to photograph at present)

These connectors come in an unadvertised variation which increases the contact rating to 31A with wire sizes up to a massive AWG 10. Contacts are incompatible with regular types. PCB headers are loaded with large female contacts which look distinctly different. They also require different housings and a different crimp tool (Daniels M310).

&#;High Current&#; male contact AWG 12--1&#;High Current&#; female contact AWG 12--1&#;High Current&#; 2 position housing-1&#;High Current&#; 2 position PCB header-1

Commercial Mate-n-Lok (5.08mm pitch) &#; TE, Formerly Tyco, Formerly AMP

Also known as Commercial Mate-n-Lok. Not a particularly popular connector family anymore but notable as the 4 position variety of these were used on 5.25&#; floppy disks as far back as , they were also adopted on 5.25&#; PC hard drives, CD-ROM drives and 3.5&#; parallel ATA hard disk drives, plus a veritable arseload of other PC related applications. The two and three position varieties are sometimes found on very old computer equipment in design specific applications only.

This connector family includes a rather uncommon member: A single position housing. The contact&#;s circular mating surface allows them to swivel 360°

There is a hoard of different tools for Commercial Mate-n-Lok, Pictured below are -1 and -1 which crimp sizes AWG14 to AWG24.

Mate-n-Lok crimp tools -1 and -1. There are a few unlikely-to-be-used others too.

Example part numbers (TE)

Female contact AWG 14--1Male contact AWG 14--1Housing female 4 position (Disk drive style polarisation)1--0Housing male 4 position (Disk drive style polarisation)1--0AWG 18 / AWG 20-24 crimp tool-1AWG 14-20¹ / 2x AWG18² crimp tool-1

¹ Although the singe wire die states AWG 14-20, it&#;s more like an AWG 14-16 in practice.

² Special contacts with longer tabs are required when crimping two wires into a single contact.

Contact extraction tool

Commercial Mate-n-Lok extraction tool -1

Is a piece of rubbish made of some kind of brittle metal. It broke about 10 minutes after I received it. I&#;m normally a sucker for a good contact extractor but this was a waste of $20. The Universial Mate-n-Lok (6.35mm pitch) extractor pictured earlier is significantly better quality, and works perfectly on these connectors.

&#;Molex&#; connector

Molex introduced a compatible connector (for the 4 position variety only) in imaginatively named &#;Disk Drive Power Connection System&#;, making them a second supplier of what was by then a very popular connector in the PC industry. Despite (somehow?) their name becoming the vernacular term for this type of connector, they have since exited this market, with all parts either discontinued or near end of life.

In practice it is unlikely that one would ever encounter a Molex branded connector. Where quality parts are utilised; Mate-n-Lok is the more common choice given AMP&#;s long term commitment to this family.

Molex original Disk Drive Power Connection System crimp tool, housings and contacts. Molex&#;s distinct &#;four eyed sunglasses&#; design can be seen here on the female housing. Male contacts and housings were discontinued 20 or more years ago, were eye-wateringly expensive when they were made, and are almost never seen in the wild.

Molex contacts have a special retention feature for the locator in the tool, which makes both the tool and the contacts incompatible with anything else. Male Molex contacts are larger at the throat than other makes, meaning they fit very tightly in the housing, so one does not have to manually line up the pins before mating, however because of this they do not interchange with other branded parts. Unless like me you have a propensity for collecting crimp tools and connectors I would not recommend attempting to obtain any of the above.

There was a predecessor to the - tool show above with the part number 11-01- &#; in the unlikely event you are seeking a tool for these connectors.

Crimping with unofficial tools

The IWISS SN-58B does a good job of crimping Mate-n-Lok.

Mini-Fit Sr (Molex)

Mini-Fit Sr connectors

A commonly used heavy (50 amp) power connector. It has no frequent consumer uses, but is often used industrially for battery connectors, chargers, large motor controllers, DC power supplies etc.

Despite the similarity of the name to Mini-Fit Jr, that&#;s about where it ends &#; these connectors are big. They would make a very a reliable replacement for cigar plugs in marine/automotive applications.

There are three official crimp tools for this family:

• -: AWG 8
• -: AWG 10, 12
• -: AWG 14, 16

Given the amount of force required to crimp these, I&#;m doubtful there is much in the way of good unofficial crimp tools. Even with - &#; large enough to bludgeon someone to death with, crimping requires significant elbow grease.

Half measures aren&#;t generally a good idea when you&#;re dealing with something that carries the kind of power these are designed for. If you don&#;t have the tool, I would suggest carefully soldering contacts &#; unless you&#;re looking to start a fire. Mini-Fit Sr contacts are near impossible to reliably manually crimp with pliers.

Mini-Fit Sr crimp tools - (top) - (middle) and - (bottom). All mfg&#;d by Wezag Germany.

Mini-FIt Sr in recent years has become my go-to for big DC power connections. The one gripe I have is that in the case of the AWG8 contacts &#; Molex appeared to have forgone the possibility of an insulation crimp. Instead those larger contacts are crimped entirely onto the conductor, leaving nothing restraining the insulation, which isn&#;t as robust as what we end up with on AWG10+ sized contacts.

The AWG 14/16 tool understandably requires smaller contacts. I find it a little difficult to insert the contacts into the tool, so not so great for usability, In any case, these wire sizes are far too puny for the monster size and carrying capacity of these connectors. If you are using AWG 14/16,  it&#;s because everything else in your system uses a bigger size, and you want something smaller on this one particular occasion. That can make splashing out on this tool hard to justify.

AWG 10/12 are the optimum wire sizes for Mini-Fit Sr.

Crimped Mini-Fit Sr contactsMini-Fit Sr Extraction tool

Micro-Fit (Molex)

Molex Micro-Fit connectors

These look similar to Mini-Fit Jr, but scaled down. Not often seen in consumer products but has occasional use in small &#;DC&#; / ITX / Automotive PC power supply applications. I&#;ve also seen them in other unusual applications such as the connector on the DC end of the plug pack for HP Printers and Cisco routers.

• -: AWG 20-30 crimp tool
• -: AWG 18 crimp tool

Molex Micro-Fit crimp tools - and - with extraction tool

Molex have recently added an AWG 18 option to Micro-Fit, which I very much welcome however note that a new tool, and different contacts is required. The AWG 18 tool also has a 0.75mm² die with barely a fag paper of difference.

The extraction tool

Similar in appearance to the Mini-Fit Jr extraction tool, but used quite differently. Read the manual.

Microfit 3.0 contacts crimp fairly well with generic tools:

Left: Crimped with Engineer PA-09 Right: Crimped with original toolLeft: Crimped with Engineer PA-09 Right: Crimped with original tool

As always when using generic tools, results are usable but not entirely ideal. The insulation crimp has clearly pierced the insulation, meaning it would be at risk of tearing under mechanical stress. Another issue I noticed is that the contact ends up bent vertically a little too, due to the awkward un-crimped shape of the contact. This means that you&#;ll have to bend each contact straight again before insertion into the housing.

Due to their small size and high current capacity, these have become one of my favourite connectors.

.250 FASTON, .187 FASTON &#; TE Connectivity

&#;Proper&#; FASTON contacts. 0.187&#; (top). 0.25&#; (bottom)

PIDG terminals a bit too cheap for you? Fear not&#;

FASTON is a proper connector family, yielding very professional looking terminations, with a proper $ tool to match. They crimp OK in common tools like the SN-48B tools for wire sizes AWG18+.

Example part numbers

0.250&#; AWG 14-18 Female terminal.250&#; AWG 18-22 Female terminal-20.250&#; Clear sleeve1--80.250&#; Male tab terminal (requires a large AWG 10/12 tool to crimp).187&#; Female terminal-20.187&#; Clear sleeve1--3.250&#; Hand crimp tool AWG 14--1.250&#; Hand crimp tool AWG 18-22 (Historic)-1.187&#; Hand crimp tool AWG 16--1.187&#; Hand crimp tool AWG 16-22 (Historic)-1

Annoyingly (and predictably) there is a brace of different tools for FASTON contacts, for example, there are at least four tools for .250 contacts, and .187 contacts have a different tool too. The IWISS SN- crimps these very nicely. Male &#;tab&#; contacts require the massive AWG 10-14 tool due to the material thickness. I use my Mini-Fit Sr - tool for these.

A variety of FASTON Crimp tools. -1 is the old crimp tool for .187 terminals. Also shown is an older example the current $ -1 .250 tool.

E.I. &#; Economical Interconnect &#; TE, Formerly Tyco, Formerly AMP

AMP E.I. Connectors

E.I. is most commonly known by its 4 position variant which became the de-facto standard power connection for PC 3 ½&#; floppy drives, and various other peripherals which installed into 3 ½&#; drive bays.

Despite its ostensible obsolescence by its original floppy drive use-case, this type of connector lives on as a sundry power connection for a variety of items which people install into their PCs requiring only a small amount of power.  Contemporary power supplies still also include this type of connector and adapters to it from other types of connector are still sold in reasonable quantities. Unless some kind of new standardised power connection surfaces which meets this need, it isn&#;t going away. Clearly someone is still using the other types for some unknown purpose as well, as this product line and all its variants remain in full production.

Economical Interconnect crimp tool -1

There is a swag of different tools for E.I. as one would expect for an AMP connector family, but the one most commonly used is -1 which crimps AWG 20-26 wire, with the corresponding sized contacts.

Molex / series

Molex / connectors

The IBM PC was the first type of computer to use a connector compatible with these for the power supply connection to the mainboard, and also internally inside the power supply &#; but from a different manufacturer. It may have been Berg who originally introduced this type but considerable research efforts by myself have failed to confirm this.

They were used for the power supply to mainboard connection for PCs up to the Pentium I era. Starting around they were gradually replaced by Mini-Fit Jr connectors, which are specified in the ATX standard. They made a brief re-appearance in the early s with AMD&#;s supplementary CPU power connector however this was quickly supplanted by Intel&#;s 4-position 12V CPU power connector.

The original series came in a number of different positions. On this page I show an obscure 4 position example from the original mystery manufacturer &#; &#;P4&#; which was used for the AC Fan.

Molex only ever produced a 6 position variety of this connector, as this was the only one which came to be incorporated into the XT/AT standard.

The most useful housing is - which comes with all polarising ribs attached, allowing one to snip off the remainder to achieve the desired polarisation. Unfortunately for anyone needing them, they&#;re now rather difficult to come by.

Sub series

• : PCB Headers
• : Housings
• : Crimp contacts
• -: Official crimp tool

AMPLIMITE &#; TE, Formerly Tyco, Formerly AMP

There are quite a few manufacturers of crimp D-Sub connectors. I ended up with the tools for these from a job lot, so that&#;s what I&#;ve mentioned here. D-Sub&#;s are normally soldered, however there are some scenarios where it is desirable to crimp them:

• Where large numbers of connectors are terminated by hand &#; crimping is easier
• In applications of significant mechanical stress &#; crimped terminations are more robust
• In my case &#; I can&#;t be bothered with backshells most of the time, and found that even heat-shrink covered terminations were constantly breaking, so switched to crimping, resulting in easier-to-make longer-lasting cable assemblies.

Example part numbers

Female contact (with insulation support)-4Male contact (with insulation support)-4Female housing size E / 9 position-3Male housing size E / 9 position-4Hand crimp tool for contacts with insulation support-1Hand crimp tool for contacts with insulation support (historic)-1

There is a plenitude of current and former crimp tools for these connectors, supporting various different wire sizes, as well as contacts with and without insulation support.

Two of the many AMPLIMITE hand crimp tools. I have others too, which I&#;ll probably never use.

Unsurprisingly the current tools are very expensive. eBay is awash with the older tools for reasonable prices. Unless working with large wire sizes, -1 is probably the only one worth bothering with. The -1 tool I&#;ve pictured is for contacts which don&#;t have an insulation support. I am unsure why anyone would choose such an arrangement.

In terms of crimping these with budget tools, there&#;s nothing particularly special about them. Tools like the Hozan P-707 or Engineer PAD-11 will suffice for hobbyist applications.

Picoblade (Molex)

Molex Picoblade connectors

A very small (1.25mm) pitch connector.

Old Picoblade crimp tool -. Manufactured by Pressmaster Sweden. This tool has been replaced with a newer version (-).

Picoblade is a type connector whose contacts are so tiny that they are quite difficult to crimp with generic tools. The Engineer PAD-11 does well with these.

IWS-02B and SN-B. Two handy tools I don&#;t use for their intended purpose

Pictured above are the only two generic tools I that I still use (since I have the manufacturer tools for everything else).

I use the SN-B for &#;fixing&#; insulation crimps which I&#;m not happy with, for example, all of the FASTON tools crimp the insulation too lightly on smaller wire sizes, so I re-crimp those with this tool afterwards if needed. It&#;s not designed for this, but having a set of single large dies, it works well for it.

The IWS-02B is designed for &#;buckle&#; crimps (un-insulated wire joiners), but I found it does very nice crimps on pre-insulated contacts:

Top: &#;Yellow&#; fork contact crimped in the IWS-02B (insulation has to be removed first). Bottom: Crimped in the &#;yellow&#; die of a generic pre-insulated terminal crimp tool (insulation removed after crimping).Above two crimps, cut open

The above image demonstrates why I&#;ve abandoned my pre-insulated crimp terminal tool. When I cut open the contact crimped with the IWS-02B, contact and conductor are crimped nicely into a solid mass of copper. I then finish this with a layer of glue-lined heat-shrink, making an inexpensive but excellent termination.

When I cut open the contact crimped with the recommended tool, all of the conductor strands fell out. Hardly a termination I feel I could trust.

You&#;ve got a type of connector which I haven&#;t listed here

Over the years I have received hundreds of emails from people asking me to identify obscure connectors. I didn&#;t know what any of them were. In summary: If it&#;s not here, I don&#;t know what it is. I would have to spend hours looking through thousands of pictures of connectors on re-sellers websites to identify it. I do not have time for this!

From time to time I come across obscure rarely used connectors too. Because we live in a world where there are tens of thousands of different types if connectors, it can take (even me) days to identify these. My general approach is to measure the pitch between the contacts with calipers. You should be able to work out its spacing i.e. 1.0mm 1.5mm 0.1&#; 0.2&#; (2.54mm, 5.08mm) etc. Enter this measurement as well as the number of contacts (any other visibly obvious features) into either Mouser or Digi-key&#;s parametric search on their connectors category. You may just find it.

Molex have a good web page with pictures summing up their wire-to-board connector products.

The most likely bet however are JST who have a very large range of products. They have reasonable product listing too.

If you are looking for more details, kindly visit Idc Connector Types.