Actel CQFP - FBGA484 Adapter Boards (SI-SX32-ACQ256SFG484 and SI-SX72-ACQ256SFG484) Contents 1). Introduction 2). Appendix A - SI-SX32-ACQ256SFG484 Mechanical Drawing and Assembly instructions 3). Appendix B - SI-SX72-ACQ256SFG484 Mechanical Drawing and Assembly instructions 4). Appendix C -- Gull Wing Surface mount Foot Soldering Instructions 5). Appendix D - CQ256 Package Pin Assignment List 6). Appendix E - FG484 Package Pin Assignment List 1). Introduction Actel CQFP- FBGA Adapter Boards Introduction Actel's expanded Adapter Board offering allows for easy prototyping. The CQFP to FBGA Adapter boards (SI-SX32-ACQ256SFG484 and SI-SX72ACQ256SFG484) are specifically built for prototyping for the SXA and SXS families. This solution allows a customer to prototype with an A54SX32A-FG484 device and then for production switch to either an A54SX32A-CQ256 or an RT54SX32S-CQ256 device. Likewise, customers can prototype with an A54SX72A-FG484 device and then for production switch to either an A54SX72ACQ256 or an RT54SX72S-CQ256 device. Figure 1. CQ256 to FG484 via CQFP to FBGA adapter board Figure 2. Assembled "CQFP to FBGA adapter socket" Adapter Board with socket (SI-SX32ACQ256SFG484) 1 Figure 3. Before assembly of "CQFP to FBGA adapter socket" (SI-SX32-CQ256SFG484) Top from left - adapter board, top frame Bottom from left - compression plate, top lid Assembly Procedure The bottom piece of the adapter board should be soldered either reflow soldered or manual soldered to the customer's board based on Ironwood "Gull Wing Surface mount Foot Soldering Instructions" in Appendix C (Figure 4). The top frame can then be tightened to the bottom piece using a .05" wrench (figure 5). The programmed FG484 packaged part can then be placed on the top frame (figure 6). Place the compression plate and top lid on top (figure 7 & 8). Secure the top lid by tightening down with a .05" wrench (figure 9). Use the Pre-Set 3 inlabs Torque-Limiting Screw Driver to apply force to compress the package (figure 10) Figure 4. Assembly step 1- solder adapter board bottom to PCB 2 Figure 5. Assembly step 2 - tighten top frame with 0.5" wrench Figure 6. Assembly step 3 - place in FG484 in socket Figure 7. Assembly step 4 -place the compression plate on top of device 3 Figure 8. Assembly step 5 - put on top lid Figure 9. Assembly step 6 - tighten top lid with .05" wrench Figure 10. Assembly step 7 - tighten top compression screw using Pre-Set 3 lbf-in Torque Limiting Screw driver During prototyping, if the design code changes and a new FPGA device is needed, it is very easy to remove the top lid and compression plate to replace the FPGA. To insert a new-programmed part, just place it on the top frame and replace the compression plate and top lid. This can be repeated multiple times during the prototyping design phase. 4 NOTE: 1). For more detailed assembly information also refer to Ironwood Electronics C4002 & C4228 assembly Instructions, online at www.ironwoodelectronics.com 2). Torque Limiting Screw Driver can be Mountz, Inc product. Refer Mountz, Inc products online at www.mountztorque.com Mountz part # Torque Limiting Screw Driver part #: 020066 (preset 3 lbf-in) Hex Power Bit #: 120841 5 2). Appendix A - SI-SX32-ACQ256SFG484 Mechanical Drawing and Assembly instructions Note: Tighten top compression screw using preset 3 lbf-in Torque Limiting Screwdriver. Torque Limiting Screw Driver can be Mountz, Inc product Refer Mountz, Inc products online at www.mountztorque.com Mountz part# Torque Limiting Screw Driver part #: 020066 (preset 3 lbf-in) Hex Power Bit #: 120841 3.16mm [0.124"] 3.54mm [0.139"] 1 39.3mm [1.547"] 41.9mm [1.650"] 32.23mm [1.269"] 41.9mm [1.650"] 27mm 15.67mm [0.617"] DETAIL A Lead coplanarity 0.005" max. Side View 0.5mm Description: BGA to QFP package converter 484 position BGA surface mount GHz BGA socket (1.00mm centers, 26X26 array, 27X27mm body) to 256 QFP, 0.5mm gull-wing leads. Pin assignment: A54Sx32A CQ256 to A54SX72A FG484 PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4228 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released 10:4 Scale: ______ 1 of 5 ____ Rev: B Drawing: M. Tully Date: 10/2/01 File: C4228 Dwg.mcd Modified: 1/29/02, MT DETAIL A 0.91mm [0.036"] max. 2.03mm [0.080"] 0.28mm [0.011"] 1 2 0.18mm [0.007"] 0.49mm [0.019"] 1.3mm [0.051"] 1 Substrate: 1.59mm 0.18mm [0.0625" 0.007"] FR4/G10 or equivalent high temp material. 17m [1/2 oz.] Cu clad. SnPb plating. 2 Leads: material- BeCu Alloy 194; plating- 80/20 SnPb. Specifications: Operating Temperature Range (1) -40 C. to 55 C Storage Temperature Range (1) -62 C. to 85 C Solderability (2) 260 C, 55 sec. sec.maximum maximum 260 C, Maximum Temperature, Substrate 290 C, 5 sec. maximum Through path Resistance 10 milliohms at 200 mA Packaging (3) Best commercial practices (1) per Mil-STD-202, method 107, test condition A (2) per Mil-STD-202, method 208 (soldering heat per Method 210, condition B) (3) Packaging contains Ironwood Electronics part number, Ironwood Electronics name and quantity of parts per shipment PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4228 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released 15:1 Scale: ______ 2 of 5 ____ Rev: B Drawing: M. Tully Date: 10/2/01 File: C4228 Dwg.mcd Modified: 1/29/02, MT C4228 Assembly Instructions 1. Install the socket base assembly (A) on the target PCB using the Gullwing Surface Mount Soldering Instruction document. Solder procedure #2 or #3 are recommended to induce the least amount of thermal stresses on the base adaptor 2. Place the Socket/Elastomer assembly (B) onto the socket base, aligning the orientation mark on the assembly with the A1 indicator on the adaptor board (see page 4 for details). WARNING: ASSEMBLY (B) MUST BE REMOVED IF THE BASE WILL BE SUBJECT TO REFLOW AGAIN. THE ELASTOMER WILL NOT WITHSTAND TEMPERATURES ABOVE 100 degrees C. 3. Using the 4 Hex head screws (C), attach the Socket/ Elastomer assembly onto the socket base . 4. Place BGA package (solder ball side down) into the socket. NOTE: BGA orientation into socket is critical. 5. Place the compession plate (D), on top of the BGA package, orientation is not important. 6. Install the Socket Top assembly (E) by placing it over the socket lid screws and rotating. 7. Turn the compression screw (F) clockwise, until it makes contact with the compression plate. 8. Using a torque limiting screw driver or wrench set to 3 in-lbs, tighten the compression screw. Compression Screw Socket Top Assembly E F Socket Lid Compression plate D C BGA Package Hex head screw Socket lid screws, DO NOT ADJUST B Socket / Elastomer assembly A Socket Base Assembly 63/37 SnPB Eutictic or equivalent low temperature solder TARGET PCB PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4228 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released 10:4 Scale: ______ 3 of 5 ____ Rev: B Drawing: M. Tully Date: 10/2/01 File: C4228 Dwg.mcd Modified: 1/29/02, MT BGA pin A1 1 Socket / Elastomer assembly with orientation mark Noting BGA pin A1 orientation (white silkscreen) on the adaptor board and Socket / Elastomer assembly orientation mark, attach the assembly onto the socket base Top view: Lid in initial attachment position Note: The socket base assembly will have to be assembled to the Gull-wing adaptor board only once. In use, the complete adaptor will only require the lid and compression plate to be removed to exchange BGA IC's Side view PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4228 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released 10:4 Scale: ______ 4 of 5 ____ Rev: B Drawing: M. Tully Date: 10/2/01 File: C4228 Dwg.mcd Modified: 1/29/02, MT 4 3 1 9 8 2 7 6 5 Materials: 1 Socket Lid: Black anodized 6061 Aluminum. Thickness = 2.0mm. 2 Socket base: Black anodized 6061 Aluminum. Thickness = 5mm. 3 Compression Plate: Black anodized 6061 Aluminum. Thickness = 2.5mm. 4 Compression screw: Black anodized 6061 Aluminum. Thickness = 5mm, Hex socket = 5mm. 5 Elastomer: 30 micron dia gold plated brass filaments arranged symmetrically in a silicone rubber (63.5 degree angle). Thickness = 1.00mm. 6 Elastomer Guide: Non-clad FR4. Thickness = 0.75mm. 7 Ball Guide: Kapton polyimide. 8 Socket base screw: Socket head cap, 18-8 Stainles steel, 0-80 fine thread , 9.00mm long. 9 Socket lid screw: Socket head cap, 18-8 Stainless steel, 0-80 fine thread , 5.85mm long. PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4228 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released 10:4 Scale: ______ 5 of 5 ____ Rev: B Drawing: M. Tully Date: 10/2/01 File: C4228 Dwg.mcd Modified: 1/29/02, MT 3). Appendix B - SI-SX72-ACQ256SFG484 Mechanical Drawing and Assembly instructions Note: Tighten top compression screw using preset 3 lbf-in Torque Limiting Screwdriver. Torque Limiting Screw Driver can be Mountz, Inc product Refer Mountz, Inc products online at www.mountztorque.com Mountz part# Torque Limiting Screw Driver part #: 020066 (preset 3 lbf-in) Hex Power Bit #: 120841 3.16mm [0.124"] 3.54mm [0.139"] 1 39.3mm [1.547"] 41.9mm [1.650"] 32.23mm [1.269"] 41.9mm [1.650"] 27mm 15.67mm [0.617"] DETAIL A Lead coplanarity 0.005" max. Side View 0.5mm Description: BGA to QFP package converter 484 position BGA surface mount GHz BGA socket (1.00mm centers, 26X26 array, 27X27mm body) to 256 QFP, 0.5mm gull-wing leads. PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4002 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released Scale: 1:0.4 1 of 5 ____ Rev: E Drawing: M. Tully Date: 6/5/01 File: C4002 Dwg.mcd Modified: 1/28/02. MT DETAIL A 0.91mm [0.036"] max. 2.03mm [0.080"] 0.28mm [0.011"] 1 2 0.18mm [0.007"] 0.49mm [0.019"] 1.3mm [0.051"] 1 Substrate: 1.59mm 0.18mm [0.0625" 0.007"] FR4/G10 or equivalent high temp material. 17m [1/2 oz.] Cu clad. SnPb plating. 2 Leads: material- BeCu Alloy 194; plating- 80/20 SnPb. Specifications: Operating Temperature Range (1) -40 C. to 55 C Storage Temperature Range (1) -62 C. to 85 C Solderability (2) 260 C, 55 sec. sec.maximum maximum 260 C, Maximum Temperature, Substrate 290 C, 5 sec. maximum Through path Resistance 10 milliohms at 200 mA Packaging (3) Best commercial practices (1) per Mil-STD-202, method 107, test condition A (2) per Mil-STD-202, method 208 (soldering heat per Method 210, condition B) (3) Packaging contains Ironwood Electronics part number, Ironwood Electronics name and quantity of parts per shipment PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4002 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released Scale: 1:0.4 2 of 5 ____ Rev: E Drawing: M. Tully Date: 6/5/01 File: C4002 Dwg.mcd Modified: 1/28/02. MT C4002 Assembly Instructions 1. Install the socket base assembly (A) on the target PCB using the Gullwing Surface Mount Soldering Instruction document. Solder procedure #2 or #3 are recommended to induce the least amount of thermal stresses on the base adaptor 2. Place the Socket/Elastomer assembly (B) onto the socket base, aligning the orientation mark on the assembly with the A1 indicator on the adaptor board (see page 4 for details). WARNING: ASSEMBLY (B) MUST BE REMOVED IF THE BASE WILL BE SUBJECT TO REFLOW AGAIN. THE ELASTOMER WILL NOT WITHSTAND TEMPERATURES ABOVE 100 degrees C. 3. Using the 4 Hex head screws (C), attach the Socket/ Elastomer assembly onto the socket base . 4. Place BGA package (solder ball side down) into the socket. NOTE: BGA orientation into socket is critical. 5. Place the compession plate (D), on top of the BGA package, orientation is not important. 6. Install the Socket Top assembly (E) by placing it over the socket lid screws and rotating. 7. Turn the compression screw (F) clockwise, until it makes contact with the compression plate. 8. Using a torque limiting screw driver or wrench set to 3 in-lbs, tighten the compression screw. Compression Screw Socket Top Assembly E F Socket Lid Compression plate D C BGA Package Hex head screw Socket lid screws, DO NOT ADJUST B Socket / Elastomer assembly A Socket Base Assembly 63/37 SnPB Eutictic or equivalent low temperature solder TARGET PCB PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4002 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released Scale: 1:0.4 3 of 5 ____ Rev: E Drawing: M. Tully Date: 6/5/01 File: C4002 Dwg.mcd Modified: 1/28/02. MT BGA pin A1 1 Socket / Elastomer assembly with orientation mark Noting BGA pin A1 orientation (white silkscreen) on the adaptor board and Socket / Elastomer assembly orientation mark, attach the assembly onto the socket base Top view: Lid in initial attachment position Note: The socket base assembly will have to be assembled to the Gull-wing adaptor board only once. In use, the complete adaptor will only require the lid and compression plate to be removed to exchange BGA IC's Side view PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4002 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released Scale: 1:0.4 4 of 5 ____ Rev: E Drawing: M. Tully Date: 6/5/01 File: C4002 Dwg.mcd Modified: 1/28/02. MT 4 3 1 9 8 2 7 6 5 Materials: 1 Socket Lid: Black anodized 6061 Aluminum. Thickness = 2.0mm. 2 Socket base: Black anodized 6061 Aluminum. Thickness = 5mm. 3 Compression Plate: Black anodized 6061 Aluminum. Thickness = 2.5mm. 4 Compression screw: Black anodized 6061 Aluminum. Thickness = 5mm, Hex socket = 5mm. 5 Elastomer: 30 micron dia gold plated brass filaments arranged symmetrically in a silicone rubber (63.5 degree angle). Thickness = 1.00mm. 6 Elastomer Guide: Non-clad FR4. Thickness = 0.75mm. 7 Ball Guide: Kapton polyimide. 8 Socket base screw: Socket head cap, 18-8 Stainles steel, 0-80 fine thread , 9.00mm long. 9 Socket lid screw: Socket head cap, 18-8 Stainless steel, 0-80 fine thread , 5.85mm long. PAGE Tolerances: diameters 0.03mm [0.001"], PCB perimeters 0.13mm [0.005"], PCB thicknesses 0.18mm [0.007"], pitches (from true position) 0.08mm [0.003"], all other tolerances 0.13mm [0.005"] unless stated otherwise. Materials and specifications are subject to change without notice. C4002 Drawing (c) 2001 IRONWOOD ELECTRONICS, INC. PO BOX 21151 ST. PAUL, MN 55121 Tele: (651) 452-8100 www.ironwoodelectronics.com Status: Released Scale: 1:0.4 5 of 5 ____ Rev: E Drawing: M. Tully Date: 6/5/01 File: C4002 Dwg.mcd Modified: 1/28/02. MT 4). Appendix C -- Gull Wing Surface mount Foot Soldering Instructions Gull Wing Surface mount Foot Soldering Instructions The gull wing style, surface mount foot (parts with a 'SF-' prefix and a '-G' suffix) is designed to solder to a quad flat pack (QFP) surface mount land pattern. The emulator foot emulates the physical characteristics of a QFP gull wing package very closely, allowing the foot to be soldered to a target board land pattern using the methods commonly employed in attaching actual QFP packages. The recommended method is explained below with visual aids showing the step-by-step process. This method has produced very good results. Figure 1 shows the surface mount emulator foot and a clean target printed circuit board. The steps involved in the soldering process follow. CAUTION: During secondary reflow (i.e. mounting the emulator foot to a board), the temperature profile should be tightly controlled. The gull wing leads are attached to Figure 1: Target PCB/Emulator Foot the emulator foot with 95/5 tin/silver solder(melting point 245C). If the temperature during reflow exceeds 245C, it will cause bridging between the leads or create opens at the clip head. The peak temperature during reflow should not reach more than 240C. Peaks to 260C are allowed only if the residence time is less that 40 seconds above 240C. If you are attaching the emulator board to a target board using a hot soldering iron, this can easily happen. We strongly recommend that furnaces are profiled every day. REFLOW OVEN - Soldering method #1 (a) Determine an appropriate temperature solder paste for your application. (b) Apply a continuous bead of paste to the target PCB Figure 2: Apply Solder Paste pads as shown in Figure 2. Cover approximately 1/3 of the pad between the center of the pad and the outer edge. Begin with this amount and add additional paste after reflow, if necessary (excessive paste on an initial trial will be difficult to remove). (c) Note the target PCB QFP land pattern and the emulator foot Pin 1 locations. (d) Align and place the emulator foot onto the solder paste and land pattern as shown in Figure 3. 'Pick and place' equipment or a vacuum pen, are recommended (if they will accommodate the foot), but, handling the foot by the gold pins and placing on the land pattern by hand will suffice. (e) Reflow target PCB with emulator foot in reflow oven (convection, IR, etc.). The recommended reflow profile is shown in the Figure 5. Time and temperature settings will be determined by the manufactures of the solder paste and Figure 3: Align foot on the lands Gull wing Surface mount Foot Soldering Instructions (continued) reflow oven. The Ironwood gull wing foot has a larger thermal mass than an actual QFP package, and therefore, may require longer reflow time and/or higher temperature settings. (f) Inspect solder fillets. Add additional solder paste to solder deficient areas as needed or remove excess with small tip solder iron and copper desoldering braid (Figure 4). If the solder has not completely reflowed, add solder flux and repeat step (e). Because of the construction of the emulator foot, a Low Temperature solder paste must be used. Set reflow equipment to the lowest setting that will reflow the solder paste. Reflow the emulator foot with target assembly in a temperature range of 185 - 210 degree C. This can be varied depending upon the profile of the oven and the customer assemblies. The above temperature range is safe Figure 4: Removing excess solder for soldering the emulator foot without thermal damage to the foot. It is recommended that reflow oven be set for a minimum time initially. If reflow was not complete, reflux and reflow for a longer duration. 250 Maximum Package Body Temperature Solder Temperature Melting Point 1 to 3C per Second 150 150 - 180 Seconds <2C per Second (C) Temperature 200 100 <2C per Second 50 Preheat 0 Flux Activation 100 Reflow 200 300 Cool-Down 400 500 Time (seconds) Figure 5: Recommended Convection Oven Reflow Profile HOT AIR TOOL - Soldering method #2 Repeat steps (a) through (d) in method #1. The surface tension present between the solder and the emulator foot in method #1 will not be present in method #2, due to the fact that only a small portion of the solder in this method will be liquid at one time. It is necessary therefore, to align the foot over the land pattern with greater accuracy. Page 2 of 4 reflow instruction, Rev. C Gull wing Surface mount Foot Soldering Instructions (continued) (e) Reflow, with a hot air wand/gun, the solder over a few of the pads in opposite corners (diagonally) of the land pattern (Figure 6). (f) Check the foot alignment. (g) Continue by reflowing the remaining solder paste. Add or remove solder as needed (see step (f) in method 1.). SOLDERING IRON - Soldering method #3 This method has produced very good results but may be more time consuming than the other two methods. Caution must be used when touching the soldering iron tip to the emulator foot. Excessive heat or pressure may damage the pads on the side of the foot. (a) Using a small diameter solder wire (approx. 0.015" or smaller) and a very fine tipped soldering iron, add enough solder to two opposite corner (diagonal) pads to cover them. (b) Align and place the emulator foot over the QFP land pattern (see steps (c) and (d) in method 1). (c) Holding the foot in place, by pressing down gently on the gold terminal pins, place the iron tip on the two pads to reflow the solder. This will tack and keep the foot in Figure 6: Reflow using hot air tool alignment. (d) Under a microscope or magnifying lens, if available, solder the remaining edge pads of the foot to the target PCB land pattern using a liberal amount of solder (shorts between adjacent pads can be removed later). (e) Apply a generous amount of flux along the side of the foot. (f) Tilt the PCB and emulator foot at 30 - 45 degree angle. Start at one corner and pull the tip of the iron along the side of the foot to remove excess solder deposits. Clean the tip of the iron often. Repeat this step several times starting at a point on the foot ahead of the excess solder. Continue along the side of the foot until shorts are removed and a fillet is present between feet and target PCB pads. (g) Repeat steps (e) and (f) for the remaining three sides. The finished solder connections are shown in Figure 7. Figure 7: Finished Solder Fillets Removing or Desoldering Conventional methods can be used to remove a surface mount foot from your target board, however we recommend the use of PRB Line(R) D'SOLDERTM.; This SMT device removal product avoids the use of excessive heat that can compromise the integrity of our product and your target board. The specially Page 3 of 4 reflow instruction, Rev. C Gull wing Surface mount Foot Soldering Instructions (continued) formulated alloy and flux make desoldering quick and easy. This solution can be a time and money saver for many applications. (P/N TL-DS123) 3. filename: GSI.doc, Rev C" with footer autotext filename, Rev. C.Replaced pcb with PCB. Page 4 of 4 reflow instruction, Rev. C 5). Appendix D - CQ256 Package Pin Assignment List HiR e l S X -A F a m il y F P GA s Pa c ka ge P i n A s si g nm e n t s (continued) 256- P in CQF P (T op Vie w) 256 255 254 253 252 251 250 249 248 200 199 198 197 196 195 194 193 Pin #1 Index 1 192 2 191 3 190 4 189 5 188 6 187 7 186 8 185 256-Pin CQFP 56 137 57 136 58 135 59 134 60 133 61 132 62 131 63 130 64 129 65 66 67 68 69 70 71 72 73 34 121 122 123 124 125 126 127 128 Preliminary v1.0 HiR e l S X -A F a m ily F P GA s 256-Pin CQFP Pin Number HiRel A54SX32A Function HiRel A54SX72A Function Pin Number HiRel A54SX32A Function HiRel A54SX72A Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 GND TDI, I/O I/O I/O I/O I/O I/O I/O I/O I/O TMS I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCI GND VCCA GND I/O I/O TRST, I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCA I/O I/O I/O I/O I/O I/O GND TDI, I/O I/O I/O I/O I/O I/O I/O I/O I/O TMS I/O I/O I/O I/O I/O VCCI I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCI GND VCCA GND I/O I/O TRST, I/O I/O VCCA GND I/O I/O I/O I/O I/O I/O I/O I/O VCCA VCCI I/O I/O I/O I/O I/O 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 I/O I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O PRB, I/O GND VCCI GND VCCA I/O HCLK I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O GND I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCI I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O QCLKA PRB, I/O GND VCCI GND VCCA I/O HCLK I/O QCLKB I/O I/O I/O I/O I/O I/O Preliminary v1.0 35 HiR e l S X -A F a m il y F P GA s 256-Pin CQFP (Continued) 36 Pin Number HiRel A54SX32A Function HiRel A54SX72A Function Pin Number HiRel A54SX32A Function HiRel A54SX72A Function 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O TDO, I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCA I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCI I/O I/O I/O I/O I/O TDO, I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCA VCCI GND VCCA I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 I/O GND NC GND VCCI I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCA GND GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O GND NC GND VCCI VCCA I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCA GND GND I/O I/O I/O I/O I/O I/O VCCI I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O VCCI I/O I/O I/O I/O I/O I/O Preliminary v1.0 HiR e l S X -A F a m ily F P GA s 256-Pin CQFP (Continued) Pin Number HiRel A54SX32A Function HiRel A54SX72A Function Pin Number HiRel A54SX32A Function HiRel A54SX72A Function 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O CLKA CLKB VCCI GND NC GND PRA, I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O QCLKD CLKA CLKB VCCI GND NC GND PRA, I/O I/O I/O VCCA I/O I/O QCLKC I/O 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 I/O I/O I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O TCK, I/O I/O I/O I/O I/O I/O I/O I/O GND I/O I/O I/O I/O I/O I/O I/O I/O VCCI I/O I/O I/O I/O I/O I/O TCK, I/O Preliminary v1.0 37 6). Appendix E - FG484 Package Pin Assignment List S X -A F a m il y F P GA s P a c ka ge P i n A s si g nm e n t s (Continued) 484- P in FBG A ( To p V iew ) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 A B C D E F G H J K L M N P R T U V W Y AA AB AC AD AE AF 74 v3.0 SX - A F a m ily F P GA s 484- P in FBG A Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function A1 NC NC AB11 A2 NC NC AB12 I/O I/O AD5 I/O I/O PRB, I/O PRB, I/O AD6 I/O I/O A3 NC I/O AB13 VCCA VCCA AD7 I/O I/O A4 NC I/O AB14 I/O I/O AD8 I/O I/O A5 NC I/O AB15 I/O I/O AD9 VCCI VCCI A6 I/O I/O AB16 I/O I/O AD10 I/O I/O A7 I/O I/O AB17 I/O I/O AD11 I/O I/O A8 I/O I/O AB18 I/O I/O AD12 I/O I/O A9 I/O I/O AB19 I/O I/O AD13 VCCI VCCI A10 I/O I/O AB20 TDO, I/O TDO, I/O AD14 I/O I/O I/O A11 NC I/O AB21 GND GND AD15 I/O A12 NC I/O AB22 NC I/O AD16 I/O I/O A13 I/O I/O AB23 I/O I/O AD17 VCCI VCCI A14 NC NC AB24 I/O I/O AD18 I/O I/O A15 NC I/O AB25 NC I/O AD19 I/O I/O A16 NC I/O AB26 NC I/O AD20 I/O I/O A17 I/O I/O AC1 I/O I/O AD21 I/O I/O A18 I/O I/O AC2 I/O I/O AD22 I/O I/O A19 I/O I/O AC3 I/O I/O AD23 VCCI VCCI A20 I/O I/O AC4 NC I/O AD24 NC I/O A21 NC I/O AC5 VCCI VCCI AD25 NC I/O A22 NC I/O AC6 I/O I/O AD26 NC I/O A23 NC I/O AC7 VCCI VCCI AE1 NC NC A24 NC I/O AC8 I/O I/O AE2 I/O I/O A25 NC NC AC9 I/O I/O AE3 NC I/O A26 NC NC AC10 I/O I/O AE4 NC I/O AA1 NC I/O AC11 I/O I/O AE5 NC I/O AA2 NC I/O AC12 I/O QCLKA AE6 NC I/O AA3 VCCA VCCA AC13 I/O I/O AE7 I/O I/O AA4 I/O I/O AC14 I/O I/O AE8 I/O I/O AA5 I/O I/O AC15 I/O I/O AE9 I/O I/O AA22 I/O I/O AC16 I/O I/O AE10 I/O I/O AA23 I/O I/O AC17 I/O I/O AE11 NC I/O AA24 I/O I/O AC18 I/O I/O AE12 I/O I/O AA25 NC I/O AC19 I/O I/O AE13 I/O I/O AA26 NC I/O AC20 VCCI VCCI AE14 I/O I/O AB1 NC NC AC21 I/O I/O AE15 NC I/O AB2 VCCI VCCI AC22 I/O I/O AE16 NC I/O AB3 I/O I/O AC23 NC I/O AE17 I/O I/O AB4 I/O I/O AC24 I/O I/O AE18 I/O I/O AB5 NC I/O AC25 NC I/O AE19 I/O I/O AB6 I/O I/O AC26 NC I/O AE20 I/O I/O AB7 I/O I/O AD1 I/O I/O AE21 NC I/O AB8 I/O I/O AD2 I/O I/O AE22 NC I/O AB9 I/O I/O AD3 GND GND AE23 NC I/O AB10 I/O I/O AD4 I/O I/O AE24 NC I/O v3.0 75 S X -A F a m il y F P GA s 484- P in FBG A ( Cont i nued) Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function AE25 NC NC B19 I/O I/O D13 I/O I/O AE26 NC NC B20 I/O I/O D14 I/O I/O AF1 NC NC B21 NC I/O D15 I/O I/O AF2 NC NC B22 NC I/O D16 I/O I/O AF3 NC I/O B23 NC I/O D17 I/O I/O AF4 NC I/O B24 NC I/O D18 I/O I/O AF5 NC I/O B25 I/O I/O D19 I/O I/O AF6 NC I/O B26 NC NC D20 I/O I/O AF7 I/O I/O C1 NC I/O D21 VCCI VCCI AF8 I/O I/O C2 NC I/O D22 GND GND 76 AF9 I/O I/O C3 NC I/O D23 I/O I/O AF10 I/O I/O C4 NC I/O D24 I/O I/O AF11 NC I/O C5 I/O I/O D25 NC I/O AF12 NC NC C6 VCCI VCCI D26 NC I/O AF13 HCLK HCLK C7 I/O I/O E1 NC I/O AF14 I/O QCLKB C8 I/O I/O E2 NC I/O AF15 NC I/O C9 VCCI VCCI E3 I/O I/O AF16 NC I/O C10 I/O I/O E4 I/O I/O AF17 I/O I/O C11 I/O I/O E5 GND GND AF18 I/O I/O C12 I/O I/O E6 TDI, IO TDI, IO AF19 I/O I/O C13 PRA, I/O PRA, I/O E7 I/O I/O AF20 NC I/O C14 I/O I/O E8 I/O I/O AF21 NC I/O C15 I/O QCLKD E9 I/O I/O AF22 NC I/O C16 I/O I/O E10 I/O I/O AF23 NC I/O C17 I/O I/O E11 I/O I/O AF24 NC I/O C18 I/O I/O E12 I/O I/O AF25 NC NC C19 I/O I/O E13 VCCA VCCA AF26 NC NC C20 VCCI VCCI E14 CLKB CLKB B1 NC NC C21 I/O I/O E15 I/O I/O B2 NC NC C22 I/O I/O E16 I/O I/O B3 NC I/O C23 I/O I/O E17 I/O I/O B4 NC I/O C24 I/O I/O E18 I/O I/O B5 NC I/O C25 NC I/O E19 I/O I/O B6 I/O I/O C26 NC I/O E20 I/O I/O B7 I/O I/O D1 NC I/O E21 I/O I/O B8 I/O I/O D2 TMS TMS E22 I/O I/O B9 I/O I/O D3 I/O I/O E23 I/O I/O B10 I/O I/O D4 VCCI VCCI E24 I/O I/O B11 NC I/O D5 NC I/O E25 VCCI VCCI B12 NC I/O D6 TCK, I/O TCK, I/O E26 GND GND B13 VCCI VCCI D7 I/O I/O F1 VCCI VCCI B14 CLKA CLKA D8 I/O I/O F2 NC I/O B15 NC I/O D9 I/O I/O F3 NC I/O B16 NC I/O D10 I/O I/O F4 I/O I/O B17 I/O I/O D11 I/O I/O F5 I/O I/O B18 VCCI VCCI D12 I/O QCLKC F22 I/O I/O v3.0 SX - A F a m ily F P GA s 484- P in FBG A ( Cont i nued) Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function F23 I/O I/O K17 GND GND N5 I/O I/O F24 I/O I/O K22 I/O I/O N10 GND GND F25 I/O I/O K23 I/O I/O N11 GND GND F26 NC I/O K24 NC NC N12 GND GND G1 NC I/O K25 NC I/O N13 GND GND G2 NC I/O K26 NC I/O N14 GND GND G3 NC I/O L1 NC I/O N15 GND GND G4 I/O I/O L2 NC I/O N16 GND GND G5 I/O I/O L3 I/O I/O N17 GND GND G22 I/O I/O L4 I/O I/O N22 VCCA VCCA I/O G23 VCCA VCCA L5 I/O I/O N23 I/O G24 I/O I/O L10 GND GND N24 I/O I/O G25 NC I/O L11 GND GND N25 I/O I/O G26 NC I/O L12 GND GND N26 NC NC H1 NC I/O L13 GND GND P1 NC I/O H2 NC I/O L14 GND GND P2 NC I/O H3 I/O I/O L15 GND GND P3 I/O I/O H4 I/O I/O L16 GND GND P4 I/O I/O H5 I/O I/O L17 GND GND P5 VCCA VCCA H22 I/O I/O L22 I/O I/O P10 GND GND H23 I/O I/O L23 I/O I/O P11 GND GND H24 I/O I/O L24 I/O I/O P12 GND GND H25 NC I/O L25 I/O I/O P13 GND GND H26 NC I/O L26 I/O I/O P14 GND GND J1 NC I/O M1 NC NC P15 GND GND J2 NC I/O M2 I/O I/O P16 GND GND J3 I/O I/O M3 I/O I/O P17 GND GND J4 I/O I/O M4 I/O I/O P22 I/O I/O J5 I/O I/O M5 I/O I/O P23 I/O I/O J22 I/O I/O M10 GND GND P24 VCCI VCCI J23 I/O I/O M11 GND GND P25 I/O I/O J24 I/O I/O M12 GND GND P26 I/O I/O J25 VCCI VCCI M13 GND GND R1 NC I/O J26 NC I/O M14 GND GND R2 NC I/O K1 I/O I/O M15 GND GND R3 I/O I/O K2 VCCI VCCI M16 GND GND R4 I/O I/O K3 I/O I/O M17 GND GND R5 TRST, I/O TRST, I/O K4 I/O I/O M22 I/O I/O R10 GND GND K5 VCCA VCCA M23 I/O I/O R11 GND GND K10 GND GND M24 I/O I/O R12 GND GND K11 GND GND M25 NC I/O R13 GND GND K12 GND GND M26 NC I/O R14 GND GND K13 GND GND N1 I/O I/O R15 GND GND K14 GND GND N2 VCCI VCCI R16 GND GND K15 GND GND N3 I/O I/O R17 GND GND K16 GND GND N4 I/O I/O R22 I/O I/O v3.0 77 S X -A F a m il y F P GA s 484- P in FBG A ( Cont i nued) Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function Pin Number A54SX32A Function A54SX72A Function R23 I/O I/O U3 I/O I/O V25 NC I/O R24 I/O I/O U4 I/O I/O V26 NC I/O 78 R25 NC I/O U5 I/O I/O W1 I/O I/O R26 NC I/O U10 GND GND W2 I/O I/O T1 NC I/O U11 GND GND W3 I/O I/O T2 NC I/O U12 GND GND W4 I/O I/O T3 I/O I/O U13 GND GND W5 I/O I/O T4 I/O I/O U14 GND GND W22 I/O I/O T5 I/O I/O U15 GND GND W23 VCCA VCCA T10 GND GND U16 GND GND W24 I/O I/O T11 GND GND U17 GND GND W25 NC I/O T12 GND GND U22 I/O I/O W26 NC I/O T13 GND GND U23 I/O I/O Y1 NC I/O T14 GND GND U24 I/O I/O Y2 NC I/O T15 GND GND U25 VCCI VCCI Y3 I/O I/O T16 GND GND U26 I/O I/O Y4 I/O I/O T17 GND GND V1 NC I/O Y5 NC I/O T22 I/O I/O V2 NC I/O Y22 I/O I/O T23 I/O I/O V3 I/O I/O Y23 I/O I/O T24 I/O I/O V4 I/O I/O Y24 VCCI VCCI T25 NC I/O V5 I/O I/O Y25 I/O I/O T26 NC I/O V22 VCCA VCCA Y26 I/O I/O U1 I/O I/O V23 I/O I/O U2 VCCI VCCI V24 I/O I/O v3.0