Standard Products UT699 32-bit Fault-Tolerant SPARCTM V8/LEON 3FT Processor Data Sheet June 25, 2012 INTRODUCTION FEATURES Implemented on a 0.25mCMOS technology Flexible static design allows up to 66MHz clock rate 89 DMIPS throughput via 66MHz base clock frequency Internally configured clock network On-board programmable timers and interrupt controllers High-performance fully pipelined IEEE-754 FPU Power saving 2.5V core power supply 3.3V I/O compatibility Hardened-by-design flip-flops and memory cells Separate instruction and data cache architecture 10/100 Base-T Ethernet port for VxWorks development Integrated PCI 2.2 compatible core Four integrated multi-protocol SpaceWire nodes with two supporting the RMAP protocol Two CAN-compliant 2.0 bus interfaces Multifunctional memory controller The UT699 is a pipelined monolithic, high-performance, faulttolerant SPARCTM V8/LEON 3FT Processor. The UT699 provides a 32-bit master/target PCI interface, including a 16 bit user I/O interface for off-chip peripherals. A compliant 2.0 AMBA bus interface integrates the on-chip LEON 3FT, SpaceWire, Ethernet, memory controller, cPCI, CAN bus, and programmable interrupt peripherals. The UT699 is SPARC V8 compliant; compilers and kernels for SPARC V8 can therefore be used industry standard development tools. A full software development suite is available including a C/C++ cross-compiler system based on GCC and the Newlib embedded C-library. BCC includes a small run-time kernel with interrupt support and Pthreads library. For multi-threaded applications, a SPARCTM compliant port of the eCos real-time kernel, RTEMS 4.6.5, and VxWorks 6.x is supported. -40oC to +105oC operating case temperature range Operational environment: - Intrinsic total-dose: 100 krad(Si) and 300 krad(Si) - SEL Immune >108 MeV-cm2/mg Packaging options: - 352-pin Ceramic Quad Flatpack, weight 31.5 grams - 484-pin Ceramic Land Grid, Column Grid and Ball Grid Array packages Standard Microcircuit Drawing 5962-08228 - QML Q and V Applications - Nuclear power plant controls - Critical transportation systems - High-altitude avionics - Medical electronics - X-Ray cargo scanning 1 1.0 Introduction The UT699 LEON 3FT processor is based upon the industry-standard SPARC V8 architecture. The system-on-chip incorporates the SPARC V8 core and the peripheral blocks indicated below. The core and peripherals communicate internally via the AMBA (Advanced Microcontroller Bus Architecture) backplane. This bus is comprised of the AHB (Advanced High-speed Bus) which is used for high-speed data transfer, and the APB (Advanced Peripheral Bus) which is used for low-speed data transfer. IEEE754 FPU LEON 3FT Debug Support Unit MUL/DIV 2x4K D-cache MMU 2x4K I-cache Serial/JTAG Debug Link 4x SpW PCI Bridge CAN-2.0 AHB interface AMBA AHB AHB Ctrl AMBA APB AHB/APB Bridge Memory Controller UART Timers IrqCtrl 8/32-bits memory bus 512 MB PROM 512 MB I/O Up t o1GB SRAM Up to 1GB SDRAM Figure 1. UT699 Functional Block Diagram The LEON 3FT architecture includes the following peripheral blocks: * LEON3 SPARC V8 integer unit with 8kB instruction cache and 8kB of data cache * IEEE-754 floating point unit * Debug support unit * UART and JTAG debug links * 8/16/32-bit memory controller with EDAC for external PROM and SRAM * 32-bit SDRAM controller with EDAC for external SDRAM * Timer unit with three 32-bit timers and watchdog * Interrupt controller for 15 interrupts in two priority levels * 16-bit general purpose I/O port (GPIO) which can be used as external interrupt sources * AMBA AHB status register * Up to four SpaceWire links with RMAP on channels 3and 4 * Up to two CAN controllers * Ethernet with support for MII * cPCI interface with 8-channel arbiter 2 I/O port Ethernet MAC 2.0 Pin Identification and Description Pin Function I IS O I/O OD PCI-I PCI-O PCI-I/O PCI-3 Description CMOS input CMOS input Schmitt CMOS output CMOS bi-direct CMOS open drain PCI input PCI output PCI bi-direct PCI three-state 2.1. System Signals Pin Number Pin Name Function 352 CQFP 484 CLGA Reset Value Description SYSCLK I 88 Y20 -- Main system clock RESET IS 136 L19 -- System reset ERROR1 OD 142 K19 -- Processor error mode indicator. This is an active low output. WDOG1 OD 145 J19 -- Watchdog indicator. This is an active low output. Notes: 1. This pin is actively driven low and must be tied to VDD through a pull-up resistor. 2.2 Address Bus Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description ADDR[0] O 1 W5 low Bit 0 of the address bus ADDR[1] O 2 Y5 low Bit 1 of the address bus ADDR[2] O 4 W6 low Bit 2 of the address bus ADDR[3] O 5 AA5 low Bit 3 of the address bus ADDR[4] O 6 Y6 low Bit 4 of the address bus ADDR[5] O 7 AB5 low Bit 5 of the address bus ADDR[6] O 9 W7 low Bit 6 of the address bus ADDR[7] O 10 AA6 low Bit 7 of the address bus ADDR[8] O 11 Y7 low Bit 8 of the address bus ADDR[9] O 12 AA7 low Bit 9 of the address bus 3 Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description ADDR[10] O 16 AB6 low Bit 10 of the address bus ADDR[11] O 17 W8 low Bit 11 of the address bus ADDR[12] O 18 AB7 low Bit 12 of the address bus ADDR[13] O 19 Y8 low Bit 13 of the address bus ADDR[14] O 21 AA8 low Bit 14 of the address bus ADDR[15] O 22 W9 low Bit 15 of the address bus ADDR[16] O 23 AB8 low Bit 16 of the address bus ADDR[17] O 24 Y9 low Bit 17 of the address bus ADDR[18] O 26 W10 low Bit 18 of the address bus ADDR[19] O 27 AB9 low Bit 19 of the address bus ADDR[20] O 28 Y10 low Bit 20 of the address bus ADDR[21] O 29 AA9 low Bit 21 of the address bus ADDR[22] O 31 W11 low Bit 22 of the address bus ADDR[23] O 32 AA10 low Bit 23 of the address bus ADDR[24] O 33 Y11 low Bit 24 of the address bus ADDR[25] O 34 AB10 low Bit 25 of the address bus ADDR[26] O 38 AB11 low Bit 26 of the address bus ADDR[27] O 39 AA11 low Bit 27 of the address bus 2.3 Data Bus Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description DATA[0] I/O 43 W12 high-Z Bit 0 of the data bus DATA[1] I/O 45 W13 high-Z Bit 1 of the data bus DATA[2] I/O 46 Y12 high-Z Bit 2 of the data bus DATA[3] I/O 47 AA13 high-Z Bit 3 of the data bus DATA[4] I/O 48 AA12 high-Z Bit 4 of the data bus DATA[5] I/O 50 AB13 high-Z Bit 5 of the data bus DATA[6] I/O 51 W14 high-Z Bit 6 of the data bus 4 Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description DATA[7] I/O 52 AA14 high-Z Bit 7 of the data bus DATA[8] I/O 53 Y13 high-Z Bit 8 of the data bus DATA[9] I/O 57 W15 high-Z Bit 9 of the data bus DATA[10] I/O 58 AB15 high-Z Bit 10 of the data bus DATA[11] I/O 59 Y14 high-Z Bit 11 of the data bus DATA[12] I/O 60 AB14 high-Z Bit 12 of the data bus DATA[13] I/O 62 W16 high-Z Bit 13 of the data bus DATA[14] I/O 63 AA18 high-Z Bit 14 of the data bus DATA[15] I/O 64 Y15 high-Z Bit 15 of the data bus DATA[16] I/O 66 AB16 high-Z Bit 16 of the data bus DATA[17] I/O 67 AA15 high-Z Bit 17 of the data bus DATA[18] I/O 68 AB17 high-Z Bit 18 of the data bus DATA[19] I/O 69 AA16 high-Z Bit 19 of the data bus DATA[20] I/O 71 AA19 high-Z Bit 20 of the data bus DATA[21] I/O 72 W17 high-Z Bit 21 of the data bus DATA[22] I/O 73 AB18 high-Z Bit 22 of the data bus DATA[23] I/O 74 Y16 high-Z Bit 23 of the data bus DATA[24] I/O 78 Y17 high-Z Bit 24 of the data bus DATA[25] I/O 79 AA17 high-Z Bit 25 of the data bus DATA[26] I/O 80 W18 high-Z Bit 26 of the data bus DATA[27] I/O 81 AB19 high-Z Bit 27 of the data bus DATA[28] I/O 83 Y19 high-Z Bit 28 of the data bus DATA[29] I/O 84 AB20 high-Z Bit 29 of the data bus DATA[30] I/O 85 Y18 high-Z Bit 30 of the data bus DATA[31] I/O 86 AA20 high-Z Bit 31 of the data bus 5 2.4 Check Bits Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description CB[0] I/O 89 V19 high-Z Bit 0 of EDAC checkbits CB[1] I/O 90 AA21 high-Z Bit 1 of EDAC checkbits CB[2] I/O 91 Y21 high-Z Bit 2 of EDAC checkbits CB[3] I/O 92 W19 high-Z Bit 3 of EDAC checkbits CB[4] I/O 93 Y22 high-Z Bit 4 of EDAC checkbits CB[5] I/O 94 W20 high-Z Bit 5 of EDAC checkbits CB[6] I/O 96 W22 high-Z Bit 6 of EDAC checkbits CB[7] I/O 97 W21 high-Z Bit 7 of EDAC checkbits 2.5 Memory Control Signals Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description WRITE O 98 V21 high PROM and I/O write enable strobe OE O 99 U19 high PROM and I/O output enable IOS O 102 T20 high I/O area chip select ROMS[0] O 103 V22 high PROM chip select ROMS[1] O 104 U20 high PROM chip select RWE[0] O 105 U22 high SRAM write enable strobe RWE[1] O 108 T19 high SRAM write enable strobe RWE[2] O 109 T22 high SRAM write enable strobe RWE[3] O 110 T21 high SRAM write enable strobe RAMOE[0] O 111 V20 high SRAM output enable RAMOE[1] O 112 R21 high SRAM output enable RAMOE[2] O 113 R20 high SRAM output enable RAMOE[3] O 114 R22 high SRAM output enable RAMOE[4] O 115 R19 high SRAM output enable RAMS[0] O 117 P22 high SRAM chip select RAMS[1] O 118 P20 high SRAM chip select 6 Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description RAMS[2] O 119 P21 high SRAM chip select RAMS[3] O 120 P19 high SRAM chip select RAMS[4] O 123 N19 high SRAM chip select READ O 139 K20 high SRAM, PROM, and I/O read indicator BEXC I 140 K22 -- Bus exception BRDY I 141 K21 -- Bus ready 2.6 SDRAM Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description SDCLK O 41 AB12 high SDRAM clock SDRAS O 124 N22 high SDRAM row address strobe SDCAS O 125 N20 high SDRAM column address strobe SDWE O 126 N21 high SDRAM write enable SDCS[0] O 128 M21 high SDRAM chip select SDCS[1] O 129 M22 high SDRAM chip select SDDQM[0] O 131 L21 high SDRAM data mask SDDQM[1] O 132 M20 high SDRAM data mask SDDQM[2] O 133 L20 high SDRAM data mask SDDQM[3] O 134 L22 high SDRAM data mask 2.7 CAN 2.0 Interface Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description CAN_RXD[0] I 146 J20 -- CAN receive data CAN_TXD[0] O 147 J22 high CAN transmit data CAN_RXD[1] I 148 J21 -- CAN receive data CAN_TXD[1] O 150 H22 high CAN transmit data 7 2.8 Debug Support Unit (DSU) Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description DSUACT O 151 H19 low DSUmode indicator DSUBRE I 152 H20 -- DSU break DSUEN I 153 G19 -- DSU enable DSURX I 154 G20 -- DSU UART receive data DSUTX O 155 G21 high DSU UART transmit data 2.9 JTAG Interface Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description TRST I 156 F20 -- JTAG reset TMS I 157 F21 -- JTAG test mode select TCK I 160 G22 -- JTAG clock TDI I 161 F22 -- JTAG test data input TDO O 162 F19 undef JTAG test data output 2.10 Ethernet Interface Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description EMDC O 163 E22 low ERX_CLK I 166 D22 -- EMDIO I/O 167 D20 high-Z ERX_COL I 168 E21 -- Ethernet collision error ERX_CRS I 169 E20 -- Ethernet carrier sense detect ERX_DV I 171 D21 -- Ethernet receiver data valid ERX_ER I 172 C21 -- Ethernet reception error ERXD[0] I 173 C22 -- Ethernet receive data ERXD[1] I 174 B21 -- Ethernet receive data ERXD[2] I 175 C20 -- Ethernet receive data 8 Ethernet media interface clock Ethernet RX clock Ethernet media interface data Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description ERXD[3] I 176 B20 -- Ethernet receive data ETXD[0] O 177 C19 low Ethernet transmit data ETXD[1] O 178 C18 high Ethernet transmit data ETXD[2] O 179 B18 low Ethernet transmit data ETXD[3] O 180 B19 high Ethernet transmit data ETX_CLK I 182 A19 -- ETX_EN O 184 A18 low Ethernet transmit enable ETX_ER O 185 A20 low Ethernet transmit error. Always driven low. Ethernet TX clock 2.11 General Purpose I/O Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description GPIO[0] I/O 191 B17 high-Z Bit 0 of general purpose I/O GPIO[1] I/O 192 C17 high-Z Bit 1 of general purpose I/O GPIO[2] I/O 193 A17 high-Z Bit 2 of general purpose I/O GPIO[3] I/O 194 D17 high-Z Bit 3 of general purpose I/O GPIO[4] I/O 196 C16 high-Z Bit 4 of general purpose I/O GPIO[5] I/O 197 D16 high-Z Bit 5 of general purpose I/O GPIO[6] I/O 198 C15 high-Z Bit 6 of general purpose I/O GPIO[7] I/O 199 D15 high-Z Bit 7 of general purpose I/O GPIO[8] I/O 254 C7 high-Z Bit 8 of general purpose I/O GPIO[9] I/O 255 B5 high-Z Bit 9 of general purpose I/O GPIO[10] I/O 256 D7 high-Z Bit 10 of general purpose I/O GPIO[11] I/O 257 A5 high-Z Bit 11 of general purpose I/O GPIO[12] I/O 259 D6 high-Z Bit 12 of general purpose I/O GPIO[13] I/O 260 C5 high-Z Bit 13 of general purpose I/O GPIO[14] I/O 261 C6 high-Z Bit 14 of general purpose I/O GPIO[15] I/O 262 D5 high-Z Bit 15 of general purpose I/O 9 2.12 SpaceWire Interface Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description SPW_CLK I 221 A11 -- SpaceWire clock SPW_RXS[0] I 205 A16 -- SpaceWire receive strobe SPW_RXD[0] I 206 A15 -- SpaceWire receive data SPW_TXS[0] O 207 B16 low SpaceWire transmit strobe SPW_TXD[0] O 208 B15 low SpaceWire transmit data SPW_RXS[1] I 212 A14 -- SpaceWire receive strobe SPW_RXD[1] I 213 A13 -- SpaceWire receive data SPW_TXS[1] O 214 B14 low SpaceWire transmit strobe SPW_TXD[1] O 215 B13 low SpaceWire transmit data SPW_RXS[2] I 234 A9 -- SpaceWire receive strobe SPW_RXD[2] I 235 A8 -- SpaceWire receive data SPW_TXS[2] O 236 B9 low SpaceWire transmit strobe SPW_TXD[2] O 237 B8 low SpaceWire transmit data SPW_RXS[3] I 242 A7 -- SpaceWire receive strobe SPW_RXD[3] I 243 A6 -- SpaceWire receive data SPW_TXS[3] O 244 B7 low SpaceWire transmit strobe SPW_TXD[3] O 245 B6 low SpaceWire transmit data 2.13 UART Interface Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description RXD I 223 C12 -- UART receive data TXD O 224 C11 high UART transmit data 2.14 PCI Address and Data Bus Pin Number Pin Name PCI_AD[0] Direction PCI-I/O 352 CQFP 484 CLGA 266 AA2 Reset Value high-Z 10 Description Bit 0 of PCI address and data bus Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description PCI_AD[1] PCI-I/O 267 AA3 high-Z Bit 1 of PCI address and data bus PCI_AD[2] PCI-I/O 268 Y1 high-Z Bit 2 of PCI address and data bus PCI_AD[3] PCI-I/O 269 Y2 high-Z Bit 3 of PCI address and data bus PCI_AD[4] PCI-I/O 270 Y3 high-Z Bit 4 of PCI address and data bus PCI_AD[5] PCI-I/O 272 W1 high-Z Bit 5 of PCI address and data bus PCI_AD[6] PCI-I/O 273 W2 high-Z Bit 6 of PCI address and data bus PCI_AD[7] PCI-I/O 274 W3 high-Z Bit 7 of PCI address and data bus PCI_AD[8] PCI-I/O 279 V2 high-Z Bit 8 of PCI address and data bus PCI_AD[9] PCI-I/O 280 V3 high-Z Bit 9 of PCI address and data bus PCI_AD[10] PCI-I/O 281 U1 high-Z Bit 10 of PCI address and data bus PCI_AD[11] PCI-I/O 284 U2 high-Z Bit 11 of PCI address and data bus PCI_AD[12] PCI-I/O 285 U3 high-Z Bit 12 of PCI address and data bus PCI_AD[13] PCI-I/O 286 T1 high-Z Bit 13 of PCI address and data bus PCI_AD[14] PCI-I/O 287 R2 high-Z Bit 14 of PCI address and data bus PCI_AD[15] PCI-I/O 288 R1 high-Z Bit 15 of PCI address and data bus PCI_AD[16] PCI-I/O 305 J1 high-Z Bit 16 of PCI address and data bus PCI_AD[17] PCI-I/O 306 K2 high-Z Bit 17 of PCI address and data bus PCI_AD[18] PCI-I/O 307 K1 high-Z Bit 18 of PCI address and data bus PCI_AD[19] PCI-I/O 308 G1 high-Z Bit 19 of PCI address and data bus PCI_AD[20] PCI-I/O 309 H3 high-Z Bit 20 of PCI address and data bus PCI_AD[21] PCI-I/O 310 H2 high-Z Bit 21 of PCI address and data bus PCI_AD[22] PCI-I/O 312 F1 high-Z Bit 22 of PCI address and data bus PCI_AD[23] PCI-I/O 313 F2 high-Z Bit 23 of PCI address and data bus PCI_AD[24] PCI-I/O 317 E1 high-Z Bit 24 of PCI address and data bus PCI_AD[25] PCI-I/O 318 E2 high-Z Bit 25 of PCI address and data bus PCI_AD[26] PCI-I/O 321 F3 high-Z Bit 26 of PCI address and data bus PCI_AD[27] PCI-I/O 322 D1 high-Z Bit 27 of PCI address and data bus PCI_AD[28] PCI-I/O 323 D2 high-Z Bit 28 of PCI address and data bus PCI_AD[29] PCI-I/O 324 E3 high-Z Bit 29 of PCI address and data bus PCI_AD[30] PCI-I/O 326 D3 high-Z Bit 30 of PCI address and data bus 11 Pin Number Pin Name PCI_AD[31] Direction PCI-I/O 352 CQFP 484 CLGA 327 C1 Reset Value high-Z Description Bit 31 of PCI address and data bus 2.15 PCI Control Signals Pin Number Pin Name Direction 352 CQFP 484 CLGA Reset Value Description PCI_RST PCI-I 265 C3 -- PCI reset input PCI_CLK PCI-I 293 C2 -- PCI clock input PCI_C/BE[0] PCI-I/O 275 V1 high-Z PCI bus command and byte enable PCI_C/BE[1] PCI-I/O 289 P2 high-Z PCI bus command and byte enable PCI_C/BE[2] PCI-I/O 302 H1 high-Z PCI bus command and byte enable PCI_C/BE[3] PCI-I/O 316 G2 high-Z PCI bus command and byte enable PCI_PAR PCI-I/O 290 P1 high-Z PCI parity checkbit PCI_FRAME1 PCI-3 301 L1 high-Z PCI cycle frame indicator PCI_IRDY1 PCI-3 300 L2 high-Z PCI initiator ready indicator PCI_TRDY1 PCI-3 299 M1 high-Z PCI target ready indicator PCI_STOP1 PCI-3 295 N1 high-Z PCI target stop request PCI_DEVSEL1 PCI-3 296 M2 high-Z PCI device select PCI_IDSEL PCI-I 315 G3 -- PCI_REQ PCI-O 329 A4 high-Z PCI_GNT PCI-I 328 B2 -- PCI bus access indicator in point to point configuration PCI_HOST PCI-I 330 AB3 -- PCI host enable input (Connect to SYSEN in PCI bus) PCI initialization device select PCI request to arbiter in point to point configuration Notes: 1. This pin must be tied to VDD through a pull-up resistor as specified in the PCI Local Bus Specification Revision 2.1 Section 4.3.3. 12 2.16 PCI Arbiter Pin Number Pin Name Reset Value Direction 352 CQFP 484 CLGA Description PCI_ARB_REQ[0] PCI-I 331 B4 -- PCI arbiter bus request PCI_ARB_REQ[1] PCI-I 332 AB4 -- PCI arbiter bus request PCI_ARB_REQ[2] PCI-I 337 Y4 -- PCI arbiter bus request PCI_ARB_REQ[3] PCI-I 339 T3 -- PCI arbiter bus request PCI_ARB_REQ[4] PCI-I 343 P3 -- PCI arbiter bus request PCI_ARB_REQ[5] PCI-I 344 M3 -- PCI arbiter bus request PCI_ARB_REQ[6] PCI-I 348 K3 -- PCI arbiter bus request PCI_ARB_REQ[7] PCI-I 350 C4 -- PCI arbiter bus request PCI_ARB_GNT[0] PCI-O 333 B3 high-Z PCI arbiter bus grant PCI_ARB_GNT[1] PCI-O 336 AA4 high-Z PCI arbiter bus grant PCI_ARB_GNT[2] PCI-O 338 W4 high-Z PCI arbiter bus grant PCI_ARB_GNT[3] PCI-O 342 R3 high-Z PCI arbiter bus grant PCI_ARB_GNT[4] PCI-O 345 N3 high-Z PCI arbiter bus grant PCI_ARB_GNT[5] PCI-O 347 L3 high-Z PCI arbiter bus grant PCI_ARB_GNT[6] PCI-O 349 J3 high-Z PCI arbiter bus grant PCI_ARB_GNT[7] PCI-O 351 A3 high-Z PCI arbiter bus grant 2.17 Power and Ground Pins (352 CQFP) Pin Number Pin Name VDD Description 352 CQFP 484 CLGA 3, 15, 25, 35, 40, 44, 54, 65, 75, 87, 95, 106, 116, 127, 135, 137, 149, 158, 170, 181, 190, 200, 203, 211, 217, 222, 226, 229, 233, 241, 247, 251, 263, 271, 283, 292, 294, 304, 314, 325, 335, 346 B1, B10, B12, B22, E7, E9, E14, E16, F6, F10, F13, F17, G5, G9, G14, H6, H8, H10, H13, H15, J7, J16, J18, K5, K8, K15, K17, L6, M6, N5, N8, N15, N17, P7, P16, P18, R6, R8, R10, R13, R15, T5, T9, T14, U6, U9, U11, U12, U14, U17, V10, V13, AA1, AA22 13 I/O supply voltage Pin Number Pin Name Description 352 CQFP 484 CLGA 8, 20, 30, 42, 49, 61, 70, 82, 107, 130, 138, 159, 183, 187, 195, 204, 216, 219, 225, 230, 238, 246, 250, 258, 264, 278, 282, 303, 311, 334, 352 A1, A12, A22, B11, C8, C10, C13, D4, D9, D14, D18, D19, E4, E6, E10, E13, E17, E19, F4, G4, G8, G11, G12, G15, G17, H4, H7, H16, H18, J2, J4, J9, J14, K4, K10, K13, L7, L11, L12, L17, M7, M11, M12, M17, N4, N10, N13, P4, P9, P14, R4, R7, R16, R18, T2, T4, T8, T15, T17, U4, U10, U13, V4, V5, V8, V11, V12, V15, V18, AB1, AB22 I/O supply ground (pins 187/D19 and 264/D4 must be tied to VSS) VDDC 14, 37, 56, 77, 101, 122, 144, 165, 186, 188, 201, 209, 220, 227, 232, 239, 249, 252, 276, 297, 319, 340 A2, A21, D10, D13, E5, E11, E12, E18, F8, F15, G7, G10, G13, G16, G18, H5, H9, H11, H12, H14, H17, J6, J8, J15, K7, K16, L4, L8, L15, L18, M4, M8, M15, M18, N7, N16, P6, P8, P15, R5, R9, R11, R12, R14, R17, T7, T10, T13, T16, T18, U8, U15, V6, V17, AB2, AB21 Core supply voltage VSSC 13, 36, 55, 76, 100, 121, 143, 164, 189, 202, 210, 218, 228, 231, 240, 253, 277, 298, 320, 341 A10, C9, C14, D11, D12, E8, E15, F5, F7, F9, F11, F12, F14, F16, F18, G6, H21, J5, J10, J11, J12, J13, J17, K6, K9, K11, K12, K14, K18, L5, L9, L10, L13, L14, L16, M5, M9, M10, M13, M14, M16, M19, N6, N9, N11, N12, N14, N18, P5, P10, P11, P12, P13, P17, T6, T11, T12, U5, U7, U16, U18, U21, V7, V9, V14, V16 Core supply ground N/C 248 D8 This pin must be left floating Unused 291 N2 This pin must be tied to VDD through a 10k pull-up resistor VSS 14 3.0 AC and DC Electrical Specifications 3.1 Absolute Maximum Ratings1 Symbol Description Min Max Units VDDC Core supply voltage -0.3 3.6 V VDD I/O supply voltage -0.3 4.3 V VIN Input voltage any pin VSS - 0.3 VDD + 0.3 V PD2 Maximum power dissipation permitted @ TC = 105oC -- 9 W TJ3 Junction temperature -- 150 JC Thermal resistance, junction to case 352 CQFP -- 5 484 CLGA/CCGA/CBGA -- 5 -65 150 2000 -- TSTG ESDHBM Storage temperature ESD protection (human body model) Class 2 Notes: 1. Stresses greater than those listed in the following table can result in permanent damage to the device. These parameters cannot be violated. 2. Per MIL-STD-883, Method 1012, Section 3.4.1, PD = (TJ(max)-Tc(max))/JC 3. Maximum junction temperature may be increased to 175oC during burn-in and steady-static life testing. 15 o C oC/W o C V 3.2 Recommended Operating Conditions VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Min Max Units VDDC Core supply voltage 2.3 2.7 V VDD I/O supply voltage 3.0 3.6 V VIN Input voltage any pin 0 VDD V TC Case operating temperature -40 105 oC tR Rise time, all CMOS and PCI inputs -- 20 ns tF Fall time, all CMOS and PCI inputs -- 20 ns 16 3.3 Power Supply Operating Characteristics (pre- and post-radiation) VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description IDDC1,2 Active core power supply current IDD1,3 IDDCS Conditions Max Units VDDC = 2.7V, VDD= 3.6V For 25MHz < fSYSCLK < 66MHz All other clock inputs running at fSYSCLK 27 mA/MHz Active I/O power supply current VDDC = 2.7, VDD = 3.6V For 25MHz < fSYSCLK < 66MHz All other clock inputs running at fSYSCLK 0.75 mA/MHz Standby core power supply current VDDC = 2.7V, VDD= 3.6V fSYSCLK = 0MHz, fETH_CLK = 0MHz fPCI_CLK = 0MHz, fSPW_CLK = 0MHz 2 mA TC = -40oC and 25oC TC = 105oC 20 IDDS Standby I/O power supply quiescent current VDDC = 2.7V, VDD = 3.6V fSYSCLK = 0MHz, fETH_CLK = 0MHz, fPCI_CLK = 0MHz, fSPW_CLK = 0MHz 0.75 mA IPDC4 Core power supply current power-down mode VDDC = 2.7V, VDD = 3.6V fSYSCLK = 66MHz, fETH_CLK = 0MHz fPCI_CLK = 0MHz, fSPW_CLK = 0MHz 2.75 mA/MHz 300k post rad IPD4 I/O power supply current power-down mode VDDC = 2.7V, VDD = 3.6V fSYSCLK = 66MHz, fETH_CLK = 0MHz fPCI_CLK = 0MHz, fSPW_CLK = 0MHz Notes: 1. During this measurement the processor is executing the Dhrystone benchmark. 2. This measurement includes the contribution due to IDDCS. 3. This measurement includes the contribution due to IDDS. 4. Power-down mode is entered by performing a WRASR instruction wr %g0, %asr19. 17 5 0.75 mA/MHz 3.4 DC Characteristics for LVCMOS3 Inputs (pre- and post-radiation) (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Conditions Min Max Units VIH High-level input voltage 0.7VDD -- V VIL Low-level input voltage -- 0.3VDD V VT+ Positive going threshold voltage for Schmitt inputs -- 0.7VDD V VT- Negative going threshold voltage for Schmitt inputs 0.3VDD -- V VH Hysteresis voltage for Schmitt inputs 0.4 -- V IIN Input leakage current VIN = VDD -- 1 A VIN = VSS -1 -- 352 CQFP -- 19 484 CLGA -- 16 CIN1 Input pin capacitance f = 1MHz; VDD = 0V, VDDC = 0V Notes: 1. Capacitance is measured for initial qualification and when design changes might affect the input/output capacitance. 18 pF 3.5 DC Characteristics for LVCMOS3 Outputs (pre- and post-radiation) (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol VOH1 VOL Description High-level output voltage Conditions Min Max IOH = -100A VDD-0.25 -- IOH = -12mA 2.4 -- IOL = 100A -- 0.25 IOL = 12mA -- 0.4 VO = VDD -10 10 VO = VSS -10 10 VO = VDD; VDD = 3.6V -- 130 VO = VSS; VDD = 3.6V -65 -- 352 CQFP -- 16 484 CLGA -- 16 Units V Low-level output voltage V IOZ IOS2 COUT3 Three-state output current Short-circuit output current Output pin capacitance f = 1MHz; VDD = 0V, VDDC = 0V Notes: 1. Except open-drain output. 2. Supplied as a design limit. Neither guaranteed nor tested. 3. Capacitance is measured for initial qualification and when design changes might affect the input/output capacitance. 19 A mA pF 3.6 AC Electrical Characteristics for LVCMOS3 Inputs and Outputs (pre- and post-radiation) (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Conditions Min Max Units fCLK System clock frequency -- 66 MHz tHIGH System clock high time 6.67 -- ns tLOW System clock low time 6.67 -- ns tDSD1 System clock to SDRAM clock propagation delay 2 5 ns tRSD2 SDRAM clock rise time fCLK = 66MHz VO transitioning between VOH (min) and VOL (max) -- 2 ns tFSD2 SDRAM clock fall time fCLK = 66MHz VO transitioning between VOH (min) and VOL (max) -- 2 ns SDRAM clock cycle-cycle jitter fCLK = 66MHz -- 500 ps tJCCSD2 Notes: 1. Tested as shown in Figure 14. 2. Supplied as a design limit. Neither guaranteed nor tested. 1/fCLK tHIGH tLOW SYSCLK tDSD tDSD SDCLK Figure 2. System Clock and SDCLK Timing Diagram 20 3.7 DC Electrical Characteristics for PCI Inputs (pre- and post-radiation) (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Conditions Min Max Units VIH High-level input voltage 0.5VDD -- V VIL Low-level input voltage -- 0.3VDD V IIN Input leakage current VIN = VDD -- 10 A VIN = VSS -10 -- 352 CQFP -- 19 484 CLGA -- 22 Min Max Units CIN1 Input pin capacitance f = 1MHz; VDD = 0V, VDDC = 0V pF Notes: 1. Capacitance is measured for initial qualification and when design changes might affect the input/output capacitance. 3.8 DC Electrical Characteristics for PCI Outputs (pre- and post-radiation) (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Conditions VOH High-level output voltage IOH = -500A 0.9VDD -- V VOL Low-level output voltage IOL = 1500A -- 0.1VDD V IOZ Three-state output current VO = VDD -10 10 A VO = VSS -10 10 VO = VDD; VDD = 3.6V -- 270 VO = VSS; VDD = 3.6V -130 -- 352 CQFP -- 19 484 CLGA -- 22 IOS1 COUT2 Short-circuit output current Output pin capacitance f = 1MHz; VDD = 0V, VDDC = 0V Notes: 1. Supplied as a design guideline. Neither guaranteed nor tested. 2. Capacitance is measured for initial qualification and when design changes might affect the input/output capacitance. 3.9 AC Electrical Characteristics for PCI Inputs (pre- and post-radiation) 21 mA pF (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description fPCI_CLK Conditions Min Max Units PCI clock frequency -- 33 MHz tHIGH PCI clock high time 11 -- ns tLOW PCI clock low time 11 -- ns 1/fPCI_CLK tHIGH tLOW PCI_CLK Figure 3. PCI Clock Timing Diagram 22 4.0 Timing Specifications 4.1 Power Sequencing and Reset (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Conditions Min Max Units tVCD1 VDD valid to VDDC delay VDD > 3.0V; VDDC > 2.30V 0 -- ns tVHBZ1 VDD valid to control signals high-Z (WRITE, OE, IOS, ROMS[1:0], RWE[3:0], RAMOE [4:0], READ SDWE, and SDCS[1:0]) VDD > 1.5V; VDDC = 0V -- 4 tCLK VDD valid to outputs high-Z ([DATA[31:0], CB[7:0], and GPIO[15:0]) tCHBV1 VDDC valid to control signals valid-inactive (WRITE, OE, IOS, ROMS[1:0], RWE[3:0], RAMOE [4:0], READ SDWE, and SDCS[1:0]) VDD > 3.0V; VDDC > 2.30V -- 4 tCLK tRESET11 VDDC valid to RESET deassert VDDC > 2.30V 4 -- tCLK tRESET2 RESET deasserted to outputs valid-active (ROMS[0] and OE) -- 12 tCLK tRESET32 RESET asserted to control signals validinactive (WRITE, OE, IOS, ROMS[1:0], RWE[3:0], RAMOE [4:0], READ SDWE, and SDCS[1:0]) -- 4 tCLK RESET asserted to outputs high-Z (DATA[31:0], CB[7:0], and GPIO[15:0]) Notes: 1. Guaranteed by design. 2. Guaranteed by design for control signals. 23 SYSCLK VDD 3.3V OV tVCD VDDC 2.5V OV tRESET1 RESET tCHBV tVHBZ tRESET2 VALID-INACTIVE Memory Bus Control Signals VALID-ACTIVE tVHBZ tRESET3 VALID-INACTIVE tRESET3 VALID-ACTIVE Tri-State Outputs Figure 4. Power Sequencing and Reset Timing Diagram 4.1.1. Power Sequencing Proper power sequencing of the UT699 is achieved by bringing up VDD to its recommended minimum operating voltage of 3.0V, and then delaying tVCD clock cycles before bringing up the VDDC supply. If power is applied to the VDDC supply pins while VDD is less than 3.0V, excessive current or damage to the device could occur. 4.1.2 Bus Control and Bi-Direct Fail-Safe Circuitry In order to prevent bus contention on the external memory interface while VDDC is ramping up, the UT699 has functionality to ensure that the bi-direct and memory bus control signals described in Section 4.1 will be in a high-Z state tVHBZ clock cycles after VDD reaches 1.5V. The core logic will then put these signals into their valid-inactive states tCHBV clock cycles after VDDC reaches 2.3V. It is recommended that users place pull-up resistors on the indicated output enable, write enable, and chip select pins, and a pulldown resistor on the READ pin, if there will be a significant delay between when VDD and VDDC reach their recommended operating voltages. This will prevent bus capacitance or transients from inadvertently placing these pins in an active state, which could result in external memory devices driving the address and data buses. 4.1.3 Reset Circuitry The reset circuitry is controlled by the core logic; therefore, the circuitry is functional only after VDDC reaches its minimum operating voltage of 2.3V. After VDDC is stable, the system must continue to assert RESET for a minimum of tRESET1 clock cycles before it can be de-asserted. Asserting RESET for less time could result in the RESET signal not being recognized. 24 The UT699 will begin fetching code from external memory no more than tRESET2 clock cycles after RESET is de-asserted. Control signals ROMS[0] and OE will be driven to their valid-active states in order for the UT699 to begin fetching code from PROM. During normal operation, the indicated bus control signals will go to a valid-inactive state, and the bi-directs will go to a high-Z state, within tRESET3 clock cycles after the assertion of RESET. 4.1.4 Programming Pins GPIO[2:0] Data on pins GPIO[2:0] are latched on the rising edge of reset. The states of these pins determine the data width of the PROM area, and enable EDAC for the PROM area. Chapter 3 of the User's Manual describes the value of these inputs to achieve the required operation. In order for the state of GPIO[2:0] to be properly latched, it is recommended to place pull-up or pull-down resistors on these pins to ensure that the setup and hold timing is met. The states of these pins should be statically set prior to the rising edge of RESET. 4.2 Output Timing Characteristics for Memory Interface, ERROR, and WDOG (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Min Max Units t11 SDCLK to output valid (ADDR[27:0], WRITE, OE, IOS, ROMS[1:0], RWE [3:0], RAMOE [4:0], RAMS[4:0], READ, SDRAS, SDCAS, SDWE, SDCS[1:0], and SDDQM[3:0]) 2 8 ns t21 SDCLK to output valid (DATA[31:0] and CB[7:0]) 2 8 ns t31,2 SDCLK to output high-Z (DATA[31:0] and CB[7:0]) 2 8 ns SDCLK to signal low (ERROR and WDOG) 2 9 ns 2.5 - ns - 2 ns t41 t81,2 t91 WRITEor RWE[3:0]to output high-Z (DATA [31:0] and CB[7:0]) Skew from first memory output signal transition to last memory output signal transition Notes: 1. All outputs are measured using the load conditions shown in Figure 15. 2. High-Z defined as +/-300mV change from steady state. 25 SDCLK t1 t9 All Outputs (Except Bi-Directs and Open-Drains) WRITE and RWE[3:0] t8 t2 t3 DATA[31:0] and CB[7:0] (Bi-Direct Outputs) t4 ERROR and WDOG (Open-Drain Outputs) Figure 5. Memory Interface, ERROR, and WDOG Output Timing Diagram 4.3 Input Timing Characteristics for Memory Interface (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Min Max Units t51 Setup time to SDCLK (DATA[31:0], CB[6:0], BEXC, and synchronous BRDY) 0 - ns t61 Hold time from SDCLK (DATA[31:0], CB[6:0], BEXC, and synchronous BRDY) 1 - ns t72 Asynchronous BRDY pulse width 1.5 - tCLK Notes: 1. CB[7] is not used for EDAC and is not tested 2. Guaranteed by design. . SDCLK t5 t6 All Inputs (Except Async BRDY) t7 Asynchronous BRDY Figure 6. Memory Interface Input Timing Diagram 26 4.4 Timing Characteristics for General Purpose Input / Output (GPIO) (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol t101 Description SDCLK to GPIO output valid (GPIO[15:0]) Notes: 1. All outputs are measured using the load conditions shown in Figure 15. SDCLK t10 GPIO[15:0] Figure 7. General Purpose I/O Timing Diagram 27 Min Max Units 2 8 ns 4.5 Timing Characteristics SpaceWire Interface (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Min Max Units t111 SPW_CLK period 5 -- ns t122 SPW_CLK to data delay (SPW_TXD[3:0]) 3 7 ns t132 SPW_CLK to strobe delay (SPW_TXS[3:0]) 3 7 ns t143 Transmit data and strobe bit width variation (SPW_TXD[3:0] and SPW_TXS[3:0]) UI-6004 UI+600 ps t153 Receive data and strobe bit width (SPW_RXD[3:0] and SPW_RXS[3:0]) 2.5 -- ns t16 Receive data and strobe edge separation (SPW_RXD[3:0] and SPW_RXS[3:0]) 2.5 -- ns Notes: 1. The SPW_CLK frequency must be less than 4x the SYS_CLK frequency. For example, if SPW_CLK is running at 200MHz, the SYS_CLK frequency must be greater than 50MHz. 2. All outputs are measured using the load conditions shown in Figure 15. 3. Applies to both high pulse and low pulse. 4. A unit interval (UI) is defined as the nominal, or ideal, bit width. t11 SPW_CLK t14 t12 t12 SPW_TXD t14 t13 t13 SPW_TXS Figure 8. SpaceWire Transmit Timing Diagram t t15 SPW_RXD t16 t16 t t15 SPW_RXS Figure 9. SpaceWire Receive Timing Diagram 28 4.6 Timing Characteristics for PCI Interface (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Min Max Units t171 PCI_CLK to output valid (PCI_AD[31:0], PCI_C/BE[3:0], PCI_PAR, PCI_FRAME, PCI_IRDY, PCI_TDRY, PCI_STOP, PCI_DEVSEL, PCI_REQ, and PCI_ARB_GNT[7:0]) 2 13 ns t181,2 PCI_CLK to output valid from high-Z (PCI_AD[31:0], PCI_C/BE[3:0], PCI_PAR, PCI_FRAME, PCI_IRDY, PCI_TDRY, PCI_STOP, and PCI_DEVSEL) 2 13 ns t191,2 PCI_CLK to output high-Z (PCI_AD[31:0], PCI_C/BE[3:0], PCI_PAR, PCI_FRAME, PCI_IRDY, PCI_TDRY, PCI_STOP, and PCI_DEVSEL) -- 14 ns t20 Setup time to PCI_CLK (PCI_AD[31:0], PCI_C/BE[3:0], PCI_PAR, PCI_FRAME, PCI_IRDY, PCI_TDRY, PCI_STOP, PCI_DEVSEL, PCI_IDSEL, PCI_GNT, and PCI_ARB_REQ[7:0]) 3 -- ns t21 Hold time from PCI_CLK (PCI_AD[31:0], PCI_C/BE[3:0], PCI_PAR, PCI_FRAME, PCI_IRDY, PCI_TDRY, PCI_STOP, PCI_DEVSEL, and PCI_IDSEL) 1 -- ns t223 PCI_CLKto RESET deassertion 10 -- PCI Clocks t23a3 PCI_CLKto PCI_RST deassertion 10 -- PCI Clocks t23b3 PCI_RST assertion to PCI_CLK idle 10 -- PCI Clocks t243 PCI_RST assertion to output high-Z (PCI_AD[31:0], PCI_C/BE[3:0], PCI_PAR, PCI_FRAME, PCI_IRDY, PCI_TDRY, PCI_STOP, and PCI_DEVSEL) -- 40 ns Notes: 1. All outputs are measured using the load conditions shown in Figure 15. 2. High-Z defined as +/-300mV change from steady state. 3. Guaranteed by design. 29 PCI_CLK t17 All Outputs t18 t19 Bi-Direct and Tri-State Outputs t21 t20 All Inputs Figure 10. PCI Timing Diagram SYSCLK PCI_CLK t23a t23b PCI_RST t22 RESET t24 Bi-Direct and Tri-State Outputs Figure 11. Timing Relationships of Clock and Reset for PCI Core Utilization SYSCLK PCI_CLK t22 RESET PCI_RST Figure 12. Timing Relationships of Clock and Reset for Unused PCI Core 30 4.7 Timing Characteristics for Ethernet Interface (VDD = 3.3V + 0.3V; VDDC = 2.5V + 0.2V; TC = -40oC to 105oC) Symbol Description Conditions Min Max Units t251 ETX_CLK to output valid (ETXD[3:0], and ETX_EN) 2 8 ns t262 Setup time to ERX_CLK (ERX_DV4ERX_ER, and ERXD[3:0]) 1 -- ns t272 Hold time from ERX_CLK (ERX_DV4ERX_ER, and ERXD[3:0]) 1 -- ns t281 EMDCto output valid (EMDIO) 2 11 ns t294 Setup time to EMDC(EMDIO) 10 -- ns t304 Hold time from EMDC(EMDIO) 5 -- ns fEMDC= 123KHz3; fSYSCLK = 25MHz Notes: 1. All outputs are measured using the load conditions shown in Figure 15. 2. ERX_COL and ERX_CRS are asynchronous inputs and are not tested. 3. fEMDC = fSYSCLK / 202. 4. Guaranteed by design. ETX_CLK t25 All Outputs ERX_CLK t26 t27 All Inputs Figure 13. Ethernet Transmit and Receive Timing 31 EMDC t28 EMDIO (Output) t29 t30 EMDIO (Input) Figure 14. Ethernet MDIO Interface Timing 4.8 Test Conditions for Timing Specifications VDD VDD CL Figure 15. Equivalent Load Circuit for Timing Characteristics Tests CL = 50 pF for ATE test load CL =15 pF for benchtop test load 32 5.0 Operational Environment The UT699 processor includes the following SEU mitigation features: * Register file SEU error-correction of up to 1 error per 32-bit word * Cache memory error-detection of up to 4 errors per tag or 32-bit word * Autonomous and software transparent error handling * No timing impact due to error detection or correction. Table 1. Operational Environment Parameter Limit Units Total Ionizing Dose (TID) 3E5 rads(Si) Single Event Latchup (SEL) 1, 2 >108 MeV-cm2/mg 1.0E14 n/cm2 Neutron Fluence Notes: 1. The UT699 is latchup immune to particle LETs >108 MeV-cm2/mg. 2. Worst case temperature and voltage of TC = +105oC, VDD = 3.6V, VDDC = 2.7V. 3. Contact factory for error rate information. 33 6.0 Packaging Figure 16. 352-lead Ceramic Quad Flatpack with Top-Brazed Leads 34 Figure 17. 484-lead Ceramic Land Grid Array 35 Figure 18. 484-lead Ceramic Column Grid Array 36 Figure 19. 484-lead Ceramic Ball Grid Array 37 7.0 Ordering Information UT699 LEON 3FT UT699 - * * * Lead Finish: (NOTE 1) (C) = Gold (A) = Hot Solder Dipped or Tinned Screening Level: (NOTE 2 & 3) (P) = Prototype (Temperature Range: 25oC only) (E) = HiRel (Temperature Range: -40oC to +105oC) Case Outline: (X) = 352-Ceramic Quad Flat Package, Top Brazed (Z) = 484-Ceramic Land Grid Array (S) = 484-Ceramic Column Grid Array (C) = 484-Ceramic Ball Grid Array UT699 32-bit LEON 3FT Notes: 1. Lead finish (A or C) must be specified. 2. Prototype Flow per Aeroflex Manufacturing Flows Document. Devices are tested at 25oC only. Radiation is neither tested nor guaranteed. 3. HiRel Flow per Aeroflex Manufacturing Flows Document. Radiation is neither tested nor guaranteed. Package Option Associated Lead Finish (X) 352-CQFP (C) Gold (Z) 484-CLGA (C) Gold (S) 484-CCGA (A) Hot Solder Dipped (C) 484-CBGA (A) Hot Solder Dipped 38 UT699 LEON 3FT: SMD 5962 * 08228 ** * * * Lead Finish: (NOTE 1) (C) = Gold Case Outline: (NOTE 2) (X) = 352-Ceramic Quad Flat Package, Top Brazed (Y) = 484-Ceramic Land Grid Array Package Screening Level: (Q) = QML Class Q (V) = QML Class V Device Type: (01) = UT699 (Temperature range: -40oC to +105oC) Drawing Number: 08228 Total Dose: (R) = 1E5 rad(Si) (F) = 3E5 rad(Si) Federal Stock Class Number: No Options Notes: 1. Lead finish is "C" (gold) only. 2. Aeroflex offers Column Attachment as an additional service for the Ceramic Land Grid Array (Case outline "Y"). If needed, please ask for COLUMN ATTACHMENT when submitting your request for quotation. 39 Aeroflex Colorado Springs - Datasheet Definition Advanced Datasheet - Product In Development Preliminary Datasheet - Shipping Prototype Datasheet - Shipping QML & Reduced Hi-Rel COLORADO Toll Free: 800-645-8862 Fax: 719-594-8468 INTERNATIONAL Tel: 805-778-9229 Fax: 805-778-1980 NORTHEAST Tel: 603-888-3975 Fax: 603-888-4585 SE AND MID-ATLANTIC Tel: 321-951-4164 Fax: 321-951-4254 WEST COAST Tel: 949-362-2260 Fax: 949-362-2266 CENTRAL Tel: 719-594-8017 Fax: 719-594-8468 www.aeroflex.com info-ams@aeroflex.com Aeroflex Colorado Springs, Inc., reserves the right to make changes to any products and services herein at any time without notice. Consult Aeroflex or an authorized sales representative to verify that the information in this data sheet is current before using this product. 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