Application Specification Dual In- Line Memory Module 114-13087 (DIMM) Sockets- DDR2 Solder Tail 05 APR 11 Rev D

Application Specification Dual In- Line Memory Module 114-13087 (DIMM) Sockets- DDR2 Solder Tail 05 APR 11 Rev D NOTE i All numerical values are in metric units [with U.S. customary units in brackets]. Dimensions are in millimeters. Unless otherwise specified, dimensions have a tolerance of +0.13 and angles have a tolerance of +2_. Figures and illustrations are foridentification only and are not drawn to scale. 1. INTRODUCTION This specification covers the requirements for application of Dual In--Line Memory Module (DIMM) Sockets--DDR2--Solder Tail for main memory applications in networking equipment. The sockets are available in a standard and low profile 240--position and a standard 276--position with contact spacing on 1.00 mm centerlines (1--mm pitch). The sockets are designed to connect processor modules (daughterboard) to printed circuit (pc) boards (motherboard). The socket consists of a polarized housing containing pre--installed through hole contacts. Each contact is a solid one--piece construction with a tapered lead--in solder tine. The socket features module support towers and extractors designed to support and hold the module in the mating position, and a card slot which contains a molded--in voltage key and function key to ensure polarization with the mating daughterboard (which must be slotted to accept the keys). The socket also features boardlocks to provide retention for the socket during soldering, standoffs to allow easy pc board cleaning after soldering, and molded--in circuit identification on the mating face. The sockets are designed for manual placement on the pc board. When corresponding with TE Connectivity 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. Module Support Tower (2 Places) Housing Circuit Identification Voltage Key Card Slot for Mating PC Board Module Extractor (2 Places) (Closed Position) Socket Standoff (3 Places) Contact Solder Tine Figure 1 Boardlock/Alignment Post (3 Places) E2011 Tyco Electronics Corporation, a TE Connectivity Ltd. Company TOOLING ASSISTANCE CENTER 1-800 -722-1111 All Rights Reserved PRODUCT INFORMATION 1-800 -522-6752 TE Connectivity, TE connectivity (logo), and TE (logo) are trademarks. *Trademark. Other logos, product and/or Company names may be trademarks of their respective owners. This controlled document is subject to change. For latest revision and Regional Customer Service, visit our website at www.te.com 1 of 13 LOC B

2. REFERENCE MATERIAL 2.1. Revision Summary S Updated document to corporate requirements S New logo 2.2. Customer Assistance Reference Base Product Part Numbers 1489841 (Standard 240--position), 1489965 (Standard 276--position), 1888427 (Low Profile 240--Position), 1888669 (Very Low Profile 240--Position), and Product Code H952 are representative numbers of DIMM--DDR2 Sockets. Use of these numbers will identify the product line and expedite your inquiries through a service network established to help you obtain product and tooling information. Such information can be obtained through a local TE Representative or, after purchase, by calling the Product Information Center 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, the Customer Drawing takes preference. 2.4. Manuals Manual 402--40 is available upon request and 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 Product Specification 108--2111 and Test Report 501--605 provide product performance requirements and test information. Test Specification 109--11 provides solderability requirements and evaluation methods. Workmanship Specification 101--21 provides solder fillet requirements. 3. REQUIREMENTS 3.1. Safety Do not stack socket packages so high that the shipping containers buckle or deform. 3.2. Special Feature The socket supports memory capacity to 256 MB. 3.3. Limitations Socket assemblies are designed to operate in a temperature range of --55_ to 105_C [--67_ to 221_F]. 3.4. Material The housing is made of high temperature nylon. The contacts are made of phosphor bronze; solder tines are plated with matte tin over nickel. Extractors are made of high temperature thermoplastic, and boardlocks are made of stainless steel. 3.5. Storage A. Shelf Life The sockets should remain in the shipping containers until ready for use to prevent deformation to the contacts. The sockets should be used on a first in, first out basis to avoid storage contamination that could adversely affect performance. B. Chemical Exposure Do not store sockets 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 2 of 13 Rev D

3.6. PC Board A. Material and Thickness The pc board material must be glass epoxy (FR--4 or G--10). Refer to the customer drawing for pc board thicknesses and corresponding contact tail lengths. NOTE i Contact the Product Information Center at the number listed at the bottom of page 1 for suitability of other pc board materials and thicknesses. B. Tolerance Maximum allowable bow of the pc board must be 0.08 mm over each 25.4 mm of length of the socket. C. Hole Dimensions The pc board holes for the socket contact solder tines must be plated through. The drilled hole size, plating types, and plating thickness will depend on application requirements. The finished hole size must be as stated to provide unrestricted insertion and ensure adequate application of solder to the solder tines. SeeFigure2. Trace Width (As Required) Pad Width (Equals Finished Hole Diameter Plus 0.51) Drilled Hole Diameter (As Required) 0.70+0.08 Finished Hole Diameter After Plating Tin/Lead Plating (As Required) D. Layout (Motherboard) Figure 2 The contact holes and boardlock holes in the pc board must be precisely located to ensure proper placement and optimum performance of the socket. The pc board layout dimensions and tolerances shown in Figure 3 must be observed when preparing pc boards for the socket styles. The layout shows the top (component) side of the pc board. Rev D 3 of 13

240 -Position Solder Tail Standard and Low Profile (DIMM) Double Data Rate 2 Socket (DDR2) PC Board Layout 276 -Position Solder Tail Standard (DIMM) Double Data Rate 2 Socket (DDR2 PC Board Layout 2.85 0.95 11.50 REF 2.85 PIN 1 2.00 2.45 + 0.05 3 0.12 F D --E-- PIN 139 PIN 140 PIN 1 PIN 2 1.00 TYP 2.45 + 0.05 3 0.12 FD --E-- PIN 121 PIN 122 142.00 0.70 + 0.08 3 0.10 FD--E 240 PLC 1 2 MAX PCB FOOTPRINT 165.00 MAX OPEN LATCH 1.80 +0.05 3 0.12 FD--E 2.450 + 0.075 3 0.12 FD--E --D-- 2.45 +0.05 PIN 240 PIN 2 PIN 120 1.00 TYP 2.50 RFULL 5.00 7.50 63.00 55.00 73.00 65.00 182.00 MAX OPEN LATCH 1 160.00 MAX PCB FOOTPRINT 0.65 + 0.018 DRILLED HOLE 0.56 + 0.05 FINISHED HOLE 2 3 0.10 F D--E 276 PLC 3 PIN 214 PIN 215 2.45 + 0.05 6 9 0.12 F D--E --D-- 2.45 + 0.05 PIN 276 PIN 76 PIN 77 PIN 138 2.50 5.00 7.50 75.00 61.00 85.00 71.00 7.75 1 MAX EXTRACTOR SHADOWAREA SEE SHEET 1 7.75 MAX 1 EXTRACTOR SHADOW AREA SEE SHEET 1 1 2 0.95 Keep out zone Finished hole size 0.15 maximum angular ring REF 11.00 2.85 2.85 0.95 2.00 3 Datum -F - is connector side surface of pc board Figure 3 0.95 4 of 13 Rev D

3.7. Socket Spacing Care must be used to avoid interference between adjacent sockets and other components. The minimum allowable distance between sockets, measured from housing end to housing end, to ensure proper assembly is provided in Figure 4. 25.4 Min. Allowable Distance Socket Socket PC Board Figure 4 3.8. Socket Placement When placing sockets on the pc board, make sure that the socket number one position is aligned with the number one position board hole. Boardlocks or alignment posts must be aligned and started into the matching holes before inserting the contact solder tines into respective holes. Avoid applying in--line force which could cause irreparable damage to the boardlocks and contact solder tines. The socket must be kept parallel to the full length of the pc board. CAUTION! Sockets should be handled only by the housing to avoid deformation, contamination, or damage to the contact solder tines. 3.9. Soldering NOTE i The boardlocks should be the only means of retaining the socket to the board during soldering. Clinching is not recommended as a method of retention. The pc board pads must be solderable in accordance with Test Specification 109--11. Observe guidelines and procedures when soldering contacts. Solder, clean, and dry contacts according to the following: A. Flux Selection Contact solder tines must be fluxed prior to soldering with a no--clean, 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. Call Product Information at the number at the bottom of page 1 for consideration of other types of flux. Flux that is compatible with these sockets are provided in Figure 5. COMMERCIAL DESIGNATION FLUX TYPE ACTIVITY RESIDUE ALPHA High Noncorrosive RF800 NO -CLEAN Mild Noncorrosive EF -9301 Figure 5 ALPHA is a trademark. Rev D 5 of 13

B. Process The sockets should be soldered using wave, non--focused infrared (IR) reflow, or equivalent soldering technique. Refer to Manual 402--40 for soldering guidelines. The reflow temperature and time to which the housing can be subjected is specified in Figure 6. SOLDERING PROCESS TEMPERATURE (Max) TIME EXPOSED (Max) Wave 260_C [500_F] 5 Seconds IR Oven Peak 225_C [437_F] Ramp 1-3_C [33.8-37.4_F] Figure 6 40 Seconds 1 Second 3.10. Checking Installed Socket All solder joints should conform to those specified in Workmanship Specification 101--21 and all other requirements specified in this document. The housing standoffs must be seated on the pc board not exceeding thedimensionshowninfigure7. NOTE i Due to the 28 -ohm system impedance requirement for the Rambus channel, it is important to minimize tilt of the socket and adhere to the seating requirement. 0.13 (Max) Housing Standoff (3 Places) to PC Board Contact Solder Tine Contact Solder Tines Boardlock (3 Places) Solder Must Be Evenly Formed Around Each Contact Tine Without Skips or Voids Figure 7 3.11. Daughterboard Configuration Daughterboard configuration must be in accordance with the dimensions and tolerances provided in Figure 8. 6 of 13 Rev D

Standard 240 -Position Solder Tail (DIMM) Double Data Rate 2 Socket (DDR2) Daughtercard Layout Figure 8 (cont d) Rev D 7 of 13

Standard 276 -Position Solder Tail (DIMM) Double Data Rate 2 Socket (DDR2) Daughtercard Layout Figure 8 (cont d) 8 of 13 Rev D

133.35 + 0.15 0.10 CBA 4.00 0.10 CBA 1.00 REF 6PLC 69.68 OF MODULE BOARD 4.00 R 2.00 OF -A - 3.00 REF 4PLC 4PLC 61.68 17.80 10.00 1.00 + 0.10 17.90 + 0.10 - B - PAD 1 1.00 TYP 4.00 63.00 MIN 2.50 5.00 SEE DETAIL 55.00 E PAD 120 5.175 REF R0.50 MAX 4.00 MIN RECOMMENDED MODULE LAYOUT CONTACT MICRON TECHNOLOGY REGARDING ULP PROPOSAL MODULE Low Profile 240 -Position Solder Tail (DIMM) Double Data Rate 2 Socket (DDR2) Daughtercard Layout 2.70 4.00 MAX (COMPONENT AREA) 0.50 MIN 0.80+ 0.05 0.10 C B A 0.05 C 240 PLC RFULL 3.80+ 0.15 2.50+ 0.20 0.20+ 0.15 DETAIL E 1.50 + 0.10 -A - 0.20-0.05 X 45 5OPTIONAL MUST NOT HIT GOLD CONTACTS -C - 1.27 + 0.10 0.40 (ACROSS CONTACT PADS) Figure 8 (cont d) Rev D 9 of 13

133.35 0.15 0.10 CBA 4X 4.00 0.15 0.10 CBA 4X ( 1.00 ) OF 133.35 4.00 OF -A - 4X ( 3.00 ) 2X 17.80 18.30 0.15 2X 10.00 - B - PAD 1 1.00 TYP 4.00 MIN 2.50 5.00 SEE DETAIL E PAD 120 2X ( 5.175 ) 63.00 55.00 NOTE: REFER TO JEDEC MO -237 VARIATIONS DB, EB, FB, GB FOR COMPLETE MODULE RECOMMENDED MODULE LAYOUT Very Low Profile 240 -Position Solder Tail (DIMM) Double Data Rate 2 Socket (DDR2) Daughtercard Layout 240X 0.80 0.05 0.10 CBA 0.05 C RFULL 2.70 2.50 0.20 3.80 0.15 4.00 (COMPONENT AREA) 0.50 MIN 0.20 0.15 DETAIL E 1.50 0.10 -- A-- 0.20--0.05 X 45 OPTIONAL MUST NOT HIT GOLD CONTACTS -- C-- 1.27 0.10 0.40 (ACROSS CONTACT PADS) Figure 8 (end) 10 of 13 Rev D

3.12. Processor Module Mating and Unmating CAUTION! When mating or unmating module, care should be taken to prevent longitudinal rocking of the module with respect to the socket. Angles greater than 3_ could cause damage to the housing or misregistration of the contacts and module circuit pads. Refer to Figure 9. The module must be mated to the socket according to the following requirements: 1. The socket extractors must be moved to the open position. See Figure 9. 2. The keying slots of the module must align with the keys of the socket. 3. The module must be slid along the interior walls of the module support towers of the socket and into the card slot. The extractors must rotate inward until there is an audible click. The module must be fully seated, and the extractors must be in the closed position. The module must be removed from the socket according to the following requirements: 1. The extractors must be simultaneously rotated away from the module. As the extractors rotate outward, the module must move out of the socket. When the extractors are fully rotated (25_ away from end of housing), the module must be completely disengaged from the socket. 2. The module must be carefully slid straight out of the module support towers. Socket Extractors in Open Position Module Card Card Slot Module Inserted Along Socket Module Support Towers Module Keying Slots Aligned with Socket Keys Socket Key Prevent Longitudinal Rocking of Module 3_ (Max) Figure 9 Rev D 11 of 13

3.13. Repair Damaged sockets must be removed, discarded, and replaced. The contact solder tines and boardlocks will require desoldering. 4. QUALIFICATION DIMM--DDR2 Sockets are Recognized by Underwriters Laboratories Inc. (UL) in File E28476, and Certified by CSA International in File LR 7189. DIMM--DDR2 Sockets are qualified to INTEL 240 Memory Connector Specification Version 1.00. 5. TOOLING No tooling is required for placement of the sockets onto the pc board. A pc board support must be used to prevent damage to the socket components during the placement of socket on the board. It should have flat surfaces with holes or a channel large enough and deep enough to receive the socket contact solder tines and boardlocks/alignment posts. See Figure 10. PC Board Support (Customer Supplied) Holes (Ref) Channel (Ref) Figure 10 12 of 13 Rev D

6. VISUAL AID Figure 11 shows a typical application of DIMM--DDR2 Sockets. 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. EXTRACTORS MUST BE IN CLOSED POSITION EXTRACTORS MUST FULLY ENGAGE NOTCHES IN MODULE MODULE MUST BE VERTICAL AND FULLY SEATED THEREMUSTBENO DAMAGE TO MODULE SUPPORT TOWERS SOCKET STANDOFFS MUST BE SEATED ON PC BOARD SOCKET HOUSING MUST NOT BE DAMAGED OR CRACKED SOLDER MUST BE EVENLY FORMED AROUND ALL CONTACT SOLDER TINES WITH NO VISIBLE SKIPS OR VOIDS FIGURE 11. VISUAL AID Rev D 13 of 13