dovetail · 2018-07-20 · compression force extension force compression resistance extension...
TRANSCRIPT
DOVETAIL CONNECTOR SERIES
INTRODUCTION
HOW THEY WORK
SPRING CONTACT PROBES
CONTACT VARIATIONS
SUMMARY
CONTACT
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2
3
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CONTENTS
INTRODUCTIONAgile Product Development through Flexible ConnectorsThe Dovetail Connector Series
The field of specialized high-reliability electronics – unique devices for military, medical, and industrial applications – is defined by its demand for the very agile deployment of performance. Customers in these markets require flawless products quickly, leaving the companies who serve them feeling as if they are sprinting down a tightrope. The Dovetail Connector Series from Smiths Connectors IDI provides the traction needed to fulfill these expectations.
Some of the most troubling and limiting engineering challenges in these applications lie in the interconnection of one element to another. Because they are themselves innovative, these products often demand a greater degree of connector performance and customization than can be found in the catalog offerings of typical connector suppliers. However, the cycle times in these markets, and the limited investment possible in start-up scenarios, usually make a truly custom solution untenable.
Dovetail connectors, because of their configurable nature, allow designers to solve problems with an innovative contact technology packaged in a field-configurable, commercial-off-the-shelf (COTS) solution – instantly, easily, and securely.
This paper describes the value, characteristics, and application of Dovetail connectors. Through its review, designers can learn how to take advantage of this technology to be faster, more innovative, and deliver value to their customers.
PROBE DIVERSITYA variety of termination styles,signal path lengths and performance functions are accommodated within a uniform block design
CUSTOM CONFIGURATIONSAvailable individually or pre-configured to meet application specific requirements
DOVETAIL DESIGNInterlocking features permitpopulation to a wide range of footprints
IMMEDIATE DELIVERYIdeal for high mix, low to medium volume manufacturing scales
3.78mm(.149”)
HEIGHT WILL VARY BASED
ON PROBE
.25mm(.010”)
BLOCK
C SERIESPROBE
2.84mm(.112”)
1.02mm(.040”)
1.57mm(.062”)
HOW THEY WORKDovetail connectors allow designers to position an array of spring contact probes – the world’s most advanced blind mate contact technology – in precisely the pattern their device demands.
A single connector consists of a spring contact probe – one of a wide array of types – pressed into a plastic block. The block supports the spring contact probe prior to the soldering process, and positions it relative to its fellow contacts. Two sides of the square plastic block feature a male dovetail while the remaining two feature a female. This allows them to interlock to form any X-Y configuration.
The features mate with each other easily allowing Dovetail connectors to be linked together in the field, without the use of tools or fixtures. Additionally, IDI can configure assemblies of multiple connectors per customer request without tooling fees or significant lead times.
SPRING CONTACT PROBES
Dovetail connectors allow the designer to deploy spring contact probe technology. Probes are a unique and innovative contact media which are rapidly gaining acceptance as the most reliable and advantageous blind-mate approach available.
Spring contact probes consist of a helical coil spring, a cylindrical plunger, which contacts the mating surface; and a tubular barrel. Probes conduct signal from the plunger to the barrel. If properly designed, the spring does not normally form part of the current path. Where DC signal integrity is particularly critical, this may be ensured by a technique called ‘biasing’ – the intentional introduction of non-axial force to the plunger by the spring. A basic approach to this is the bias plunger; an angle on its internal face translates spring force in a non-axial direction, forcing the plunger to tilt and driving reliable contact between the plunger and barrel. For the most critical applications, this may be enhanced through the addition of a ball, interposed between the plunger and spring. The ball acts as a fulcrum and a backup current path, greatly enhancing DC stability.
3.78mm(.149”)
HEIGHT WILLVARY BASED
ON PROBE
.25mm(.010”) 2.84mm
(.112”)
1.02mm(.040”)
1.57mm(.062”)
2.0mm(.079”)
STROKE
1.96mm(.077”)
1.52mm(.060”)
STROKE
1.96mm(.077”)
6.00mm(.236”)
6.00mm(.236”)
PLUNGER
BIAS BALL
BARREL
SPRING
CRIMP
ANATOMY OF BIAS BALL PROBE
BIASED PLUNGER BIASED PLUNGER WITH BIAS BALL
IDI Test Number: 2012-04-063 FDR2
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25.0
30.0
35.0
40.0
45.0
50.0
0.00
0.50
1.00
1.50
2.00
2.50
3.00
3.50
4.00
4.50
5.00
0.000 0.010 0.020 0.030 0.040 0.050 0.060 0.070
RES
ISTA
NC
E (m
Ohm
s)
FOR
CE
(oz)
STROKE (in)
DYNAMIC FORCE DEFECTION RESISTANCEAverage Force and Resistance vs StrokeDOVETAIL ASSEMBLY D-CP-2.5-SM-BB
Compression Force Extension Force
Compression Resistance Extension Resistance Test# 2012-04-063 FDR2
SPRING CONTACT PROBESThis DC stability may be seen in the behavior of contacts during their compression. Probes have a flat and stable hysteresis, both mechanical and electrical. It also may be viewed as the repeatability of that resistance in cycle after cycle, as may be understood from our life cycle graph (Graph 1). Not only does this demonstrate the longevity of spring probes, but also their repeatability. Probes may be expected to last hundreds of thousands of insertions, and to have standard deviations of resistance as low as 4 milliohms in the case of advanced designs .
Their low contact resistance permits the probes used in Dovetail connectors to handle remarkable amounts of current. The constant current carrying capacity for bias ball C Series probes is shown in the accompanying graph (Graph 2). Details of how IDI creates its current ratings, as well as insight into behavior with pulse current, are available from IDI upon request.
The quality of design and manufacture of a spring probe is best illustrated in a single chart that captures the force of a probe and its internal contact resistance as it is compressed from full extension to its rated stroke (Graph 3). For comparison, these measurements are taken again as the probe is allowed to extend to its uncompressed state. The smooth, mirror image lines of the force during compression and extension are evident in only well designed and quality built probes. Likewise, the gradually decreasing, stable and parallel resistance measurements are reflective of a high quality probe as well.
DYNAMIC FORCE DEFLECTION RESISTANCE | DOVETAIL ASSEMBLY D-CP-2.5-6-SM-BB Graph 3
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80.0
90.0
0 5 10 15 20 25
MAX
T R
ISE
(C)
CURRENT (Amps)
CURRENT CAPACITY TESTMax T-Rise (C) Vs Current (Amps)
DOVETAIL ASSEMBLY D-CP-2.5-SM-BB
Max Temperature Rise Test #: 2012-04-064 HCT
CURRENT CARRYING CAPACITY TEST | DOVETAIL ASSEMBLY D-CP-2.5-6-SM-BB Graph 2
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5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
45.0
50.0
0 10000 20000 30000 40000 50000
RES
ISTA
NC
E (m
Ohm
s)
NUMBER OF CYCLES
LIFE CYCLE TEST RESULTSDOVETAIL ASSEMBLY D-CP-2.5-6-TH-BB
AVERAGE RESISTANCE AND STDEV. VS NUMBER OF CYCLES
Average Std Dev Test# 2012-03-139 LCT3
LIFE CYCLE TEST | DOVETAIL ASSEMBLY D-CP-2.5-6-TH-BBGraph 1
SPRING CONTACT PROBES
Spring contact probes are columnar, and provide an extraordinary amount of compliance in relation to their length. They thus permit a significant amount of tolerance in the ‘Z’ position of the two application elements which they interconnect, while remaining compact and capable of being mounted in very dense arrays. The Dovetail connector is robust to crushing forces, as shown in the above illustration.
Probes may be engaged from a wide range of angles deviating from axial. They are robust to sideload and will withstand thousands of insertions in a ‘wiping’ fashion.
In addition to their tolerance absorption capabilities in the Z and Θ axes, spring contact probes can be used to make up for significant misalignment in X and Y. The mating surface for a probe caneither be a hard flat terminal pin head, or
more conveniently (and economically) a pad on a printed circuit board. The radius of this contact target, simply, is the permissible X-Y misalignment between the two halves of a spring probe connector, and is limited only by the pitch of the contact array.
Spring probes withstand shock and vibration better than any blind mate contact medium (Pg. 6, Graphs 4 & 5). The constant force of their coil springs and the high inertia of their plungers ensure that they remain engaged with their target. The various biasing mechanisms described prevent the plunger from losing contact with the barrel, and the probe designs available in the Dovetail Series will withstand up to 50G shock and 15G vibration without Nano interruption. A detailed dissertation on probe behavior
under conditions of shock and vibration is available on IDI’s website, www.idinet.com.
Spring probes feature remarkable signal integrity in both analog and digi-tal applications. The greatest influence on their behavior is their characteristic impedance, which is a function of their proximity, the pattern of return contacts, and the dielectric properties of their insulators. A considered approach to design in concert with IDI’s engineers can produce outstanding signal integ-rity. A coarse example of both single-ended and differential behavior may be seen in the accompanying graphs (Pg. 6, Graphs 6 & 7), but each layout and probe height will have different prop-erties. Contact IDI today to learn how to maximize the signal integrity of your specific application.
5 AXES OF DESIGN FLEXIBILITY
ROTATIONALMISALIGNMENT
ANGULARMISALIGNMENT
Z MISALIGNMENT
Y MISALIGNMENT
X MISALIGNMENT
SPRING CONTACT PROBES
INSERTION & RETURN LOSS
SHOCK IMPULSEGraph 5
FREQUENCY (Hz)
CO
NTA
CT
RES
ISTA
NC
E
BIAS BALL BIASED PLUNGER Fc1 Fc2 Fc3 Fc48
7
6
5
4
3
20 200 400 600 800 1000 1200 1400 1600 1800 2000
INSERTION LOSS | -1 dB @ 29 GHzGraph 6
0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0Freq [GHz]
-3.0
-2.5
-2.0
-1.5
-1.0
-0.5
0.0
dB(S
t(2,1
))
CH_series_6mm_4A_SE_40GHzInsertion Loss
Curve Info
dB(St(2,1))Setup1 : Sweep
0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0Freq [GHz]
-60.00
-50.00
-40.00
-30.00
-20.00
-10.00
0.00
dB(S
t(1,1
))
CH_series_6mm_4A_SE_40GHzReturn Loss
Curve Info
dB(St(1,1))Setup1 : Sweep
SHOCK & VIBRATION
RETURN LOSS | -10 dB @ 7.5 GHz
DYNAMIC CONTACT RESISTANCE DURING FREQUENCY SWEEPING: X AXIS -15G INPUTGraph 4
PERFORMANCE TESTING
CONTACT VARIATIONS
Dovetail connectors employ IDI’s C Series of spring contact probes. This design family has the core advantage of an incredibly wide range of variations, which can accommodate any purpose.
The C Series is available in two board-to-board heights (Figure 1), allowing designers to make the interconnection as compact as possible while still
having clearance for features on both PCBs.
All options are offered as either Ground or Power (Figure 2). Power probes have a gold-plated plunger and bias plunger design, which grants them stable power delivery and a high current carrying capacity. While Ground and Power probes share the same internal structure, the Ground features an extra plunger extension and stroke so they may be used in first-mate-last-break configurations. The bias ball variants have a special construction for the best performance in higher shock and vibration environments.
Three termination types are also available in the C Series: surface mount, thru hole, and solder cup (Figure 3). The thru hole variant may also be positioned at each end of a
single-row surface mount array, to act as locator pins and prevent tipping of the connector during reflow.
A double-ended variant exists for solderless compression-mount appli-cations; it requires different housing approaches than the Dovetail permits. Details are available from IDI upon request.
6 mm BIAS BALL6 mm4 mm
0.94mm(.037”)
STROKE
0.67mm(.026”)
STROKE
2.50mm(.098”)
STROKE
1.96mm(.077”)
2.0mm(.079”)
STROKE
1.96mm(.077”)
1.98mm(.078”)
STROKE
1.96mm(.077”)
1.52mm(.060”)
STROKE
1.96mm(.077”)
GROUND POWER GROUND POWER GROUND POWER
COMPRESSED HEIGHT COMPRESSED HEIGHT COMPRESSED HEIGHT
6.00mm(.236”)
4.00mm(.157”)
6.00mm(.236”)
4mm
6mm
6.00mm(.236”)
4.00mm(.157”)
POWERGROUND
2.49mm(.098”)
2.49mm(.098”)
SURFACE MOUNTTHRU HOLE
SOLDER CUP
1.42mm(.056”)
1.88mm(.074”)
0.64mm(.025”)
Figure 1
Figure 3
Figure 2
SUMMARYThe versatile and adaptable nature of the Dovetail connector is intended to allow users to design precisely the configuration they need into their product. Users may then purchase the contact types they require in bulk and assemble them to suit their purposes. Customers may also contact IDI and describe a specific configuration. With a very small minimum order requirement and a short lead time, IDI will then assemble the contacts as required.
This is intended to permit users of the Dovetail connector not only to prototype, but to use Dovetail through moderate production ramp scales. To maximize economy, the designer may then work with IDI to create a custom-tooled version of their connector which would use a molded housing. Tooling fees are thus delayed until the product is fully funded and secure, and there is no risk of launch delay due to issues with the production connector.
The Dovetail connector represents a unique improvement to the design cycle of high performance specialized electronics. Through its application, designers are able to bring their products to market faster, with less risk and initial investment, using the most innovative and enabling contact technology on the market.
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