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Application Specification MULTI- BEAM XL* Connectors
NOTE
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13 JUL 09 Rev H
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All numerical values are in metric units [with U.S. customary units in brackets]. Dimensions are in millimeters [and inches]. Unless otherwise specified, dimensions have a tolerance of +0.13 [+.005] and angles have a tolerance of +2_. Figures and illustrations are for identification only and are not drawn to scale.
1. INTRODUCTION
This specification covers the requirements for application of MULTI--BEAM XL connectors onto printed circuit (pc) boards for use in power supplies. These connectors consist of vertical receptacle assemblies, right--angle receptacle assemblies, vertical header assemblies, and right--angle header assemblies. The connectors are available with either precision formed press--fit (compliant pin) contacts or solder type contacts. Each connector consists of a housing with power modules containing one power contact and signal modules containing 4 rows of signal contacts, either pin or socket. The signal pin contacts (only in header assemblies) are available in two contact mating lengths: standard and mate--last break--first (MLBF) (post mate), and the power contacts (only in receptacles) are available in two contact mating lengths: standard and mate--first break--last (MFBL) (pre--mate) for sequencing applications. NOTE
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The amount of power and signal contacts in a connector is customer specified. Any connector configuration can be designed to meet customer requirements--provided it is within the limitations stated in this document.
When corresponding with personnel, use the terminology provided in this specification to facilitate your inquiries for information. Basic terms and features of this product are provided in Figure 1. Vertical Receptacle Assembly (2P+24S+2P)G Guide Post (2 Places) End Module Right- Angle Receptacle Assembly (5P+24S+1M+6P)G Convection Window (1 Per Power Module) Housing Standoff (1 Per Contact) Power Module Hold-- Down Clip (2 Places, Typ) Signal (Socket) Contact With Latch Receivers (24S+6P)G Signal (Pin) Contact Power Contact Press-- Fit Contact
Cored Lance (1 Per Power Module)
Solder Contact
Signal Module With Guide Holes (2P+24S+2P)G Housing
Vertical Header Assembly Key Slot (2 Places) Standoff (1 Per Contact)
End Module Guide Hole (2 Places)
Latch Receiver (2 Places) Mounting Hole (2 Places)
Power Contact Signal (Pin) Contact
Hold-- Down Clip (2 Places, Typ)
G `P' stands for power module, `S' stands for signal contacts, `ACP' stands for power module with contact centerline spacing of 7.62 [.300],
`HDP' stands for high density power module with contact centerline spacing of 5.08 [.200], and `M' stands for center module.
Figure 1 (Cont'd)
TOOLING ASSISTANCE CENTER 1-- 800-- 722-- 1111 E2009 Tyco Electronics Corporation, Harrisburg, PA PRODUCT INFORMATION 1-- 800-- 522-- 6752 All International Rights Reserved TE logo and Tyco Electronics are trademarks. *Trademark. Other products, logos, and company names used are the property of their respective owners. This controlled document is subject to change. For latest revision and Regional Customer Service, visit our website at www.tycoelectronics.com
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MULTI- BEAM XL Connectors
Right- Angle Header Assembly
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End Module Guide Hole (2 Places)
With Guide Holes (2P+24S+2P)G Cored Lance (1 Per Power Module) Solder Contact
With Latch Receivers (2P+24S+2P)G Housing Latch Receiver (2 Places)
Convection Window (1 Per Power Module) Power Contact
Power Contact Signal (Pin) Contact
Hold-- Down Clip (2 Places, Typ)
Signal (Pin) Contact
Key Slot (2 Places)
G `P' stands for power module, `S' stands for signal contacts, `ACP' stands for power module with contact centerline spacing of 7.62 [.300],
`HDP' stands for high density power module with contact centerline spacing of 5.08 [.200], and `M' stands for center module.
Figure 1 (End)
The maximum overall length allowed for the connector is 203 [8]. Combinations of up to 36 power contacts and 148 signal contacts can be used--provided the maximum allowable length is not exceeded. Power modules are available with contact centerline spacing of 5.08 [.200], 6.35 [.250], 7.62 [.300], 9.53 [.375], and 10.8 [.425], and signal modules have a contact centerline spacing of 2.54 [.100]. End modules and center modules are available with features that provide blind mating, misalignment, and polarization. End modules contain a guide post, guide hole, or latch receiver with key slot and a hold--down clip, and/or mounting hole, and center modules contain a hold--down clip or mounting hole. End modules without guides are also available. Guides (posts on receptacles and holes in headers) have rounded edges for ease of mating and are offset to prevent improper mating of connectors. The latch receiver with key slot ensures proper orientation of connectors when mating and that the connectors do not accidentally back--out. The hold--down clips help to align the connector to the pc board for installation then secure the connector for soldering. The mounting holes (which accept commercially--available standard screws) are also used to secure the connector to the pc board. The mounting holes are available with 3.10 [.122] or 3.81 [.150] diameter. The connectors feature standoffs (one located at each contact) to facilitate pc board cleaning after soldering. Convection windows and cored lances located on the housing provide air flow for power modules. The connectors are supplied in tray form for manual placement. These connectors mate with MULTI--BEAM XL cable receptacle assemblies (covered in Application Specification 114--13112) and MULTI--BEAM XL cable plug assemblies (covered in 114--13164).
2. REFERENCE MATERIAL 2.1. Revision Summary
Revisions to this application specification include:
S S S S S
Updated document to corporate requirements Replaced part number in Paragraph 2.2 Added contact centerline spacing for power modules Removed centerline spacing indicator from `P' in Figure 1 Removed voltage rating for primary to secondary circuits of 7.62 and 9.53 centerline spacing for power contacts from Figure 2
2.2. Customer Assistance
Reference Product Part Number 6450120 and Product Code E655 are representative of MULTI--BEAM XL connectors. Use of these numbers will identify the product line and expedite your inquiries through a service
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network established to help you obtain product and tooling information. Such information can be obtained through a local Representative or, after purchase, by calling PRODUCT INFORMATION at the number at the bottom of page 1.
2.3. Drawings
Customer Drawings for product part numbers are available from the service network. If there is a conflict between the information contained in the Customer Drawings and this specification or with any other technical documentation supplied, call PRODUCT INFORMATION at the number at the bottom of page 1.
2.4. Manuals
Manual 402--40 can be used as a guide to soldering. This manual provides information on various flux types and characteristics with the commercial designation and flux removal procedures. A checklist is included in the manual as a guide for information on soldering problems.
2.5. Specifications
Design Objective (status at time of publication) 108--1973 provides expected product performance and test information. Test Specification 109--11 provides solderability requirements and evaluation methods. Workmanship Specification 101--21 provides solder fillet requirements. Application Specifications (114--series) provides product description and application requirements. Application specifications available which pertain to this product are: 114--13112 114--13164 MULTI--BEAM XL Cable Receptacle Assemblies MULTI--BEAM XL Cable Plug Assemblies
2.6. Instructional Material
Instruction Sheets (408--series) provide assembly instructions and Customer Manuals (409--series) provide machine setup and operation procedures. Documents available which pertain to this product are: 408--8883 Seating Tool Assembly 1725769--[ ]
2.7. Standards
These connectors comply to Electronic Industries Alliance (EIA)--364, "Electrical Connector Test Procedures Including Environmental Classifications." These connectors are compatible with Military Standard (MIL--STD)--2166, "Connectors, Electrical, Compliant Pin."
3. REQUIREMENTS 3.1. Safety
Do not stack product shipping containers so high that the containers buckle or deform.
3.2. Limitations
The connectors are designed to operate in a temperature range of --20_ to 105_C [--4_ to 221_F]. Voltage ratings for these connectors are based upon a circuit pad diameter of 1.60+0.064 [.063+.0025] and UL Material Group IIIb. This material group has a comparative tracking index (CTI) of 1003.3. Material
The housing is made of glass filled high temperature nylon, UL 94--V--0, with an oxygen index of 49%. The contacts are made of high--conductivity copper alloy underplated with nickel and plated with gold; solder tails are plated with tin over nickel. Hold--down clips are made of plated copper alloy.
3.4. Storage A. Ultraviolet Light
Prolonged exposure to ultraviolet light may deteriorate the chemical composition used in the connector material.
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MODULE TYPE Signal CONTACT CENTERLINE SPACING 2.54 [.100] 5.08 [.200] 6.35 [.250] Power 7.62 [.300] 9.53 [.375] 10.8 [.425]
D Safety Extra Low Voltage (SELV) Circuits
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MAXIMUM VOLTAGE RATING IN AC (RMS) OR DC Within Primary Circuits -- 60D 200 300 520 630 Figure 2 Primary to Secondary Circuits -- 60D -- -- -- -- Primary to Ground Circuits -- 60D 200 300 520 630 Within Secondary Circuits 60D 60D 200 300 520 630
B. Shelf Life
The connectors should remain in the shipping containers until ready for use to prevent deformation to the contacts. The connectors should be used on a first in, first out basis to avoid storage contamination that could adversely affect performance.
C. Chemical Exposure
Do not store connectors near any chemical listed below as they may cause stress corrosion cracking in the contacts. Alkalies Ammonia Citrates Phosphates Citrates Sulfur Compounds Amines Carbonates Nitrites Sulfur Nitrites Tartrates
3.5. PC Board A. Material and Thickness
The pc board material shall be glass epoxy (FR--4 or G--10). The pc board thickness shall be as stated in Figure 3.
PC BOARD THICKNESS CONNECTOR WITH PRESS-- FIT CONTACTS 1.35 [.053] Min CONNECTOR WITH SOLDER TYPE CONTACTS 2.28+0.38 [.090+.015] Contact Tail Length 1.40--1.75 [.055--.069] Figure 3 3.43+0.38 [.135+.015] Contact Tail Length 2.11--2.62 [.083--.103]
B. Hole Dimensions and Durability
The contact holes must be drilled and plated through to specific dimensions to prevent stubbing during placement of the connector on the pc board and to ensure optimum continuity for circuits after soldering. If applicable, holes for the hold--down clips or mounting hardware may be used with or without plated through holes. The drilled hole size, plating types, plating thickness, and finished hole size must be as stated to provide unrestricted insertion. See Figure 4. For connectors with press--fit contacts, the pc board holes cannot withstand connector removal more than three times. The radius of any board hole must not increase more than 0.038 [.0015] or decrease less than 0.0508 [.002].
C. Pads
The pc board circuit pads must be solderable in accordance with Test Specification 109--11.
D. Layout
The holes in the pc board must be precisely located to ensure proper placement and optimum performance of the connector. The pc board layout must be designed using the dimensions provided on the customer drawing for the specific connector. A sample of the recommended pc board layout is shown in Figure 5.
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Contact Hole
1.60+0.064 [.063+.0025] Pad Diameter Trace Width (As Required)
1.151+0.025 [.0453+.001] Drilled Hole Diameter 0.051+0.025 [.002+.001] Copper Plating (Max Hardness 150 Knoop) 0.008 [.0003] (Min) Tin Plating 1.016+0.08 [.040+.003] Finished Hole Diameter (After Plating)
Hold- Down Clip Hole or Mounting Hardware Hole
2.49+0.051 [.098+.002] Finished Hole Diameter (If Plated, Type and Thickness Same as for Contact Hole)
Figure 4
Sample Recommended PC Board Layout Right--Angle Header With 2 Hold--Down Clips
Mechanical Connector Keep Out Zone Datum and Basic Dimensions Established by Customer
Figure 5
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MULTI- BEAM XL Connectors E. Spacing
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Care must be used to avoid interference between adjacent connectors and other components. In addition, space allowed between pc boards for mating of connectors must be considered when determining distance between pc boards. The minimum allowable distance needed between connectors to ensure full mating of connectors and the allowable distance between pc boards with connectors fully mated is provided in Figure 6. Allowable Distance Between Connectors End View 6.86 [.270] Min Space Between Connectors Side View 0.76 [.030] Min Space Between Connectors
Right-- Angle Receptacle
Right-- Angle Receptacle
Vertical Header
Vertical Header
Allowable Distance Between PC Boards Note: Connectors must be fully mated. End View Vertical Header End View Vertical Header
Right-- Angle Receptacle
1.47 [.058] Nominal Centerline of Contact to Top of PC Board
Vertical Receptacle
0.76 [.030] Nominal Centerline of Contact to Centerline of Contact
13.21+0.48 [.520+.019] Space Between PC Boards End View Right-- Angle Receptacle Right-- Angle Header Vertical Receptacle End View Right-- Angle Header
17.15+0.23 [.675+.009] Space Between PC Boards
0.800 [.0315] Nominal Centerline of Signal Contact to Top of PC Board
10.8+0.46 [.425+.018] Space Between PC Boards
Figure 6
14.73+0.46 [.580+.018] Space Between PC Boards
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MULTI- BEAM XL Connectors 3.6. Connector Placement
CAUTION
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Connectors should be handled only by the housing to avoid deformation, contamination, or damage to the contacts.
!
A. Registration
When placing connectors on the pc board, contacts and, if applicable, hold--down clips or mounting screws must be aligned and started into the matching holes before seating the connector onto the board.
B. Insertion Force
The force required to seat the connector with press--fit contacts or hold--down clips onto the pc board can be calculated by: Number of connector press--fit contacts maximum insertion force per contact N [lb] = insertion force N [lb] Number of connector hold--down clips maximum insertion force per hold--down clip N [lb] = insertion force N [lb] The maximum amount of insertion force per press--fit contact and hold--down clip is given in Figure 7.
MAXIMUM INSERTION FORCE (N [lb]) PER PRESS-- FIT POWER CONTACT 890 [200] PER PRESS-- FIT SIGNAL CONTACT Receptacles and Right--Angle Header Vertical Header Figure 7 111 [25] 178 [40] PER HOLD-- DOWN CLIP
27 [6]
3.7. Mounting Hardware
Connectors with mounting holes can be secured to the pc board before soldering using commercially--available standard screws. The screw size and maximum torque (applied to the mating face of the connector) is provided in Figure 8. NOTE Typically, this method of mounting (or hold--down) serves connectors with solder type contacts and without hold--down clips.
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MOUNTING HOLE DIAMETER 3.10 [.122] 3.81 [.150]
SCREW SIZE No. 4 No. 6 Figure 8 HEAD DIAMETER (Maximum) 7.37 [.290] 7.37 [.290]
MAXIMUM TORQUE Nm [in.-- lb] (Applied to Mating Face) 0.57 [5] 0.23 [2]
3.8. Soldering
Observe guidelines and procedures when soldering contacts. Contact solder tails must be soldered, cleaned, and dried according to the following:
A. Flux Selection
Contact solder tails must be fluxed prior to soldering with a mildly active, rosin base flux. Selection of the flux will depend on the type of pc board and other components mounted on the board. Additionally, the flux must be compatible with the wave solder line, manufacturing, health, and safety requirements. Flux that is compatible with these connectors are provided in Figure 9.
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COMMERCIAL DESIGNATION KESTER 186 ALPHA 611
FLUX TYPE RMA
ACTIVITY Mild
RESIDUE Noncorrosive Figure 9
B. Process
The connectors can be soldered using wave soldering or equivalent soldering techniques. It is recommended using tin or tin--lead solder for these connectors. Refer to Manual 402--40 for soldering guidelines. The temperatures and exposure time shall be as specified in Figure 10.
SOLDERING PROCESS Wave WAVE TEMPERATURE 265_C [509_F] Figure 10 TIME (At Maximum Temperature) 10 Seconds
C. Cleaning
After soldering, removal of fluxes, residues, and activators is necessary. Consult with the supplier of the solder and flux for recommended cleaning solvents. Cleaners must be free of dissolved flux and other contaminants. Common cleaning solvents that will not the affect connectors for the time and temperature specified are listed in Figure 11. DANGER Consideration must be given to toxicity and other safety requirements recommended by the solvent manufacturer. Refer to the manufacturer's Material Safety Data Sheet (MSDS) for characteristics and handling of cleaners. Trichloroethylene and Methylene Chloride is not recommended because of harmful occupational and environmental effects. Both are carcinogenic (cancer--causing). Even when using "no clean" solder paste, it is imperative that the contact interface be kept clean of flux and residue, since it acts as an insulator. Flux may migrate under certain conditions with elevated temperatures and therefore, cleaning is necessary.
CAUTION
!
CLEANER NAME BIOACT EC--7 BIOACT EC--7 Butyl CARBITOL Isopropyl Alcohol KESTER 5778 KESTER 5779 LONCOTERGE 520 LONCOTERGE 530 Terpene Solvent TYPE Solvent Solvent Solvent Solvent Aqueous Aqueous Aqueous Aqueous Solvent Figure 11
TIME (Minutes) 5 5 1 5 5 5 5 5 5
TEMPERATURE (Maximum) 100_C [212_F] 100_C [212_F] Ambient Room 100_C [212_F] 100_C [212_F] 100_C [212_F] 100_C [212_F] 100_C [212_F] 100_C [212_F]
NOTE
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If you have a particular solvent that is not listed, contact PRODUCT INFORMATION at the number at the bottom of page 1.
ALPHA is a trademark of Cookson Group, Inc. BIOACT is a trademark of Petroferm, Inc. CARBITOL and LONCOTERGE are trademarks of Union Carbide Corp. KESTER is a trademark of Kester, Inc.
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When drying cleaned connectors and pc boards, make certain that temperature limitations are not exceeded: --55_ to 105_C [--68_ to 221_F]. Excessive temperatures may cause housing degradation.
3.9. Checking Installed Connector A. With Press- Fit Contacts
The entire "eye" of each press--fit contact must be within the pc board hole. All standoffs must be seated on the pc board within the dimension provided in Figure 12, Detail A.
B. With Solder Type Contacts
All solder joints should conform to those specified in Workmanship Specification 101--21 and all other requirements specified in this document. Solder fillets must be evenly formed around each contact solder tail. There must be no visible skips or voids. All standoffs must be seated on the pc board within the dimension provided in Figure 12, Detail B. Checking Installed Connector Note: Requirements apply equally to all connectors. Vertical Header With Press--Fit Contacts 0.13 [.005] Max Standoffs Seated on PC Board
Detail A
Entire "Eye" of Each Contact Within PC Board Hole
See Detail A Vertical Receptacle With Solder Type Contacts 0.13 [.005] Max Standoffs Seated on PC Board
Detail B
Solder Fillets Evenly Formed Around Each Contact Tail
See Detail B
Figure 12
3.10. Connector Mating
CAUTION Connectors should be handled only by the housing to avoid deformation, contamination, or damage to the contacts.
!
A. Polarization
For connectors with guides, polarization is provided by matching the guides of mating connectors. For connectors with latch receivers or without guides, polarization is provided by matching the mating alignment keys with the key slots of mating connectors.
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MULTI- BEAM XL Connectors B. Mating Force
The maximum amount of mating force per contact is given in Figure 13.
CONTACT Power Signal Figure 13 MAXIMUM MATING FORCE PER CONTACT (N [oz]) 9 [32]. 1 [3.5]
114- 13038
C. Mating Length
Contact mating lengths available for the connectors are listed in Figure 14.
CONNECTOR Receptacle Header CONTACT MATING LENGTH Power Contact Standard and MFBL (Pre--Mate) Standard Figure 14 Signal Contact Standard Standard and MLBF (Post Mate)
D. Wipe Length
Wipe length for these connectors is defined as that portion (length) of the mating contacts that touches (wipes) from the point of engagement to the point of being fully mated. The wipe length depends on the contact (power or signal) and mating length (standard, MFBL, or MLBF) of each individual contact. The minimum wipe length at the level of mating for power and signal contacts is listed in Figure 15. Point of Engagement Power Contact Header Signal (Pin) Contact Point of Engagement
CONTACT Power Signal MATING LENGTH MFBL (Pre--Mate) Standard Standard MLBF (Post Mate) Figure 15
Fully Mated Wipe Length (See Table) Power Contact Receptacle Signal (Socket) Contact Wipe Length (See Table)
Fully Mated
MATING LEVEL 1 2 2 3
WIPE LENGTH (Min) 5.08 [.200] 3.81 [.150] 3.81 [.150] 2.54 [.100]
E. Sequencing
The connectors provide sequencing among contacts with 3 mating levels. The offset distance, measured from the receptacle mating face to the header mating face at the point of electrical engagement, depends on the contact (power or signal) and mating length (standard, MFBL, or MLBF) of the mating connectors. The offset distance at the level of mating for power and signal contacts is listed in Figure 16.
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Mating Level 1 Power Contacts Point of First Electrical Engagement MFBL Power Contact Mating Level 2 Power Contacts [ Standard Power Contact
114- 13038
Receptacle
Receptacle
Header A
Header B
Note: For clarity, the header housing shroud is not shown. Mating Level 2 Signal Contacts [ Point of Second Electrical Engagement Point of Second Electrical Engagement Mating Level 3 Signal Contacts Point of Third Electrical Engagement
Receptacle
Receptacle
Header C Standard Signal Contact
Header D MLBF Signal Contact
[ The offset distance between Mating Level 2 for power contacts and Mating Level 2 for signal contacts is not enough to consider these as separate levels.
CONTACT Power Signal MATING LENGTH MFBL (Pre--Mate) Standard Standard MLBF (Post Mate) MATING LEVEL 1 2 2 3 Figure 16 OFFSET DISTANCE Dimension A B C D Nominal 6.15 [.242] 5.18 [.204] 4.72 [.186] 3.45 [.136]
F. Misalignment
When mating connectors, side--to--side and up--and--down misalignment is allowed to the dimensions given in Figure 17. There is no misalignment for connectors with latch receivers. NOTE Connectors with guides should be used in applications requiring blind mating. Connectors with latch receivers and connectors without guides should not be used in applications requiring blind mating.
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Misalignment for Connectors With Guides Side--to--Side Guide Post +1.91 [+.075] Guide Hole +0.25 [+.010]
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Misalignment for Connectors Without Guides Side--to--Side
Up--and--Down Guide Post +1.91 [+.075] Up--and--Down +0.56 [+.022] Guide Hole
Figure 17
3.11. Circuit Testing
Unmated receptacles and mated headers must be tested against hazardous voltages using the test probe specified in UL 1950. Specific areas of the connector must be tested as indicated in Figure 18. Cored Lance (Power Contact) Convection Window (Power Contact) Probe Probe Contact Cavity (Signal Contact) Probe Receptacle PC Board
Receptacle
PC Board
AREA TO BE TESTED
Header
CO CONNECTOR CO Vertical Receptacle Right--Angle Receptacle Vertical Header Right--Angle Header
Unmated Receptacle Contact Cavities
Mated Header Convection Windows Cored Lances
-- -- Figure 18 --
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MULTI- BEAM XL Connectors 3.12. Connector Unmating
The minimum amount of unmating force per contact is given in Figure 19.
CONTACT Power Signal Figure 19 MINIMUM UNMATING FORCE PER CONTACT (N [oz]) 2.22 [8] .0973 [.35]
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3.13. Connector Removal A. Solder Type Contacts
Connectors with solder type contacts must be removed from the pc board by standard de--soldering methods. After removal from the board, the connector MUST NOT be re--used.
B. Press- Fit Contacts
Connectors with press--fit contacts must be removed from the pc board using a push bar (or flat rock) and pc board support. CAUTION For repairability, the tips of the contacts must extend below the surface of the pc board by at least 1.02 [.040]; if not, the connector MUST NOT be removed from the pc board.
!
C. Retention Force
The force retaining the connector with press--fit contacts or hold--down clips on the pc board can be calculated by: Number of connector press--fit contacts minimum retention force per contact N [lb] = retention force N [lb] Number of connector hold--down clips minimum retention force per hold--down clip N [lb] = retention force N [lb] The minimum amount of retention force per press--fit contact and hold--down clip is given in Figure 20.
MINIMUM RETENTION FORCE (N [lb]) PER PRESS-- FIT POWER CONTACT 178 [40] PER PRESS-- FIT SIGNAL CONTACT 6.7 [1.5] Figure 20 PER HOLD-- DOWN CLIP 13.3 [3]
3.14. Repair
These connectors are not repairable. Damaged or defective connectors must not be used.
4. QUALIFICATION
MULTI--BEAM XL connectors are Recognized by UL under File E28476 and Certified by CSA International under Certificate 1191639 (File 164196).
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MULTI- BEAM XL Connectors 5. TOOLING 5.1. Connectors with Solder Type Contacts
No tooling is required for placement of the connectors with solder type contacts onto the pc board.
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5.2. Vertical Headers with Press- Fit Contacts
Tooling for seating vertical headers having press--fit contacts is available. A pc board support and application tooling (such as an arbor press) that provides sufficient amount of downward force to insert the contacts into the pc board holes must be used with the seating tool. Part numbers and instructional material packaged with the seating tooling are given in Figure 21.
5.3. Receptacles and Right- Angle Headers with Press- Fit Contacts A. Application Tooling
The application tooling (such as an arbor press) used to seat these connectors must provide sufficient amount of downward force to insert the contacts into the pc board holes.
B. PC Board Support
A pc board support must be used to prevent bowing of the pc board during the placement of these connectors on the board. The board support must have a flat surface with holes or a channel large enough and deep enough to receive any protruding components. The pc board must be secured to the board support to prevent movement of the board during seating. Refer to Figure 21. The board support must also be used when removing these connectors from the pc board.
C. Flat Rock Tooling
Commercially available bar stock (flat rock tooling) with a flat surface large enough to cover all contacts must be used with the application tooling to seat these connectors. For vertical receptacles with guides, the flat rock tooling must be sized to fit between the guides. For removing these connectors from the pc board, it is suggested that the pc board be supported from the connector side and that the connector be removed using flat rock tooling. Seating Receptacles and Right- Angle Headers With Press- Fit Contacts Arbor Press Connector Flat Rock Guide Post
Arbor Press
Flat Rock
PC Board Support PC Board Right- Angle Receptacle
PC Board Support
PC Board
Vertical Receptacle
Seating Vertical Headers Having ONLY Press- Fit Power Contacts
Seating Vertical Headers Having Press- Fit Power AND Signal Contacts
Seating Tool Assemblies 1725769-- [ ] (408-- 8883)
Seating Tool Assemblies 1804872-- [ ], 1901220-- [ ], and 1901221-- 1 (408-- 10047)
Figure 21
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The illustration below shows a typical application of MULTI--BEAM XL connectors. This illustration should be used by production personnel to ensure a correctly applied product. Applications which DO NOT appear correct should be inspected using the information in the preceding pages of this specification and in the instructional material shipped with the product or tooling. ALL STANDOFFS MUST BE VISUALLY SEATED ON PC BOARD HOUSINGS MUST NOT BE DAMAGED IN ANY WAY
CONNECTORS WITH SOLDER TYPE CONTACTS
CONNECTORS MUST BE FULLY MATED
ALL STANDOFFS MUST BE VISUALLY SEATED ON PC BOARD
SOLDER FILLETS MUST BE EVENLY FORMED AROUND EACH CONTACT POST WITH NO VISIBLE SKIPS OR VOIDS
CONNECTORS WITH PRESS- FIT CONTACTS
ALL STANDOFFS MUST BE VISUALLY SEATED ON PC BOARD
CONNECTORS MUST BE FULLY MATED
HOUSINGS MUST NOT BE DAMAGED IN ANY WAY
ALL STANDOFFS MUST BE VISUALLY SEATED ON PC BOARD
ENTIRE "EYE" OF EACH CONTACT MUST BE WITHIN PC BOARD HOLE
FIGURE 22.
VISUAL AID
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