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| ql5030 quickpci data sheet rev c 1 ? ? ql5030 quickpci data sheet 33 mhz/32-bit pci target with embedded programmable logic and dual port sram 1.0 device highlights high performance pci controller 32-bit / 33 mhz pci target zero-wait state pci target provides 132 mb/s transfer rates programmable back-end interface to optional local processor independent pci bus ( 33 mhz) and local bus (up to 160 mhz) clocks fully customizable pci configuration space configurable fifos with depths up to 128 reference design with driver code (win 95/98/win 2000/nt4.0) available pci v2.2 compliant supports type 0 configuration cycles 3.3v, 5v tolerant pci signaling supports universal pci adapter designs 3.3v cmos in 144-pin tqfp supports endian conversions unlimited/continuous burst transfers supported extendable pci functionality support for configuration space from 0x40 to 0x3ff multi-function, expanded capabilities, & expansion rom capable power management, compact pci, hot-swap/hot-plug compatible pci v2.2 power management spec compatible pci v2.2 vital product data (vpd) configuration support programmable interrupt generator i2o support with local processor mailbox register support programmable logic 24k system gates / 266 logic cells 9,216 ram bits, 71 i/o pins 250 mhz 16-bit counters, 275 mhz datapaths, 160 mhz fifos all back-end interface and glue-logic can be implemented on chip 4 64-deep fifos (2 rams each) or 2 128- deep fifos (4 rams each) or a combination that requires 8 or less quicklogic ram modules (2) 32-bit busses interface between the pci controller and the programmable logic figure 1: ql5030 block diagram programmable logic pci controller interface 32 32 71 user i/o pci bus - 33 mhz 32 bits (data and address) target controller high speed data path 160 mhz fiofs config space high speed logic cells 24k gates
2 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet 2.0 architecture overview the ql5030 device in the quicklog ic quickpci esp (embedded standa rd product) family provides a complete and customizable pci in terface solution combined with 24 ,000 system gates of programmable logic. this device eliminates any need for the designer to worry ab out pci bus compli ance, yet allows for the maximum 32-bit pci bus bandwidth (132 mb/s). the programmable logic portion of the device cont ains 266 quicklogic logic cells, and 8 quicklogic dual-port ram blocks. these configurable ram blocks can be configured in many width/depth combinations. they can also be comb ined with logic cells to form fifo s, or be initialized via serial eeprom on power-up and used as roms. see the ram section of this data sh eet for more information. the ql5030 device meets pci 2.2 electrical and timi ng specifications and ha s been fully hardware- tested. this device also supports the win'98 and pc '98 standards. the ql5030 device features 3.3-volt operation with multi-volt compatible i/os. thus it can easily operate in 3.3-volt systems and is fully compatible with 3.3v, 5v or universal pci card development. 2.1 pci interface the pci target is pci 2.2 compliant and supports 32-bi t/33 mhz operation. it is capable of zero wait- state infinite-length read and write transactions (132 mbytes /second). transaction control is available via the user interface as retries, wait-states, or pr emature transaction termin ation may be induced if necessary. the pci configuration registers are implemented in the programmable region of the device, leaving the designer with ample flexib ility to support optional features. the ql5030 device supports maximum 32-bit pci transf er rates, so many appl ications exist which are ideally suited to the device's high performance. high-speed data communicat ions, telecommunications, and computing systems are just a few of the broad range of applications areas that can benefit from the high speed pci interface and programmable logic. 2.2 pci configuration space the ql5030 supports customization of required configuration registers such as vendor id, device id, subsystem vendor id, etc.. quicklogic provides a reference configuration space design block. since the pci configuration registers are implemen ted in the programmable region of the ql5030, the designer can implement optional features such as multiple 32-bit base address registers (bars) and multiple functions, as well as support the followin g pci commands: i/o read, i/o write, memory read, memory write, config read (required), configurati on write (required), memory read multiple, memory read line, and memory write and invalidate. additi onally, the device support s extended capabilities registers, expansion roms, powe r management, compactpci hot-plu g/hot-swap, vital product data, i 2 0, and mailbox registers. 2.3 address and command decode pci address and command decoding is performed by logic in the programmable section of the device. this allows support for any size of memory or i/o sp ace for back-end logic. it also allows the user to implement any subset of the pc i commands supported by the ql5030. quicklogic provides a reference address register/count er and command decode block. ql5030 quickpci data sheet rev c 3 ql5030 quickpci data sheet 3.0 ram architecture overview the ram modules in the programmable region can be used to create configurable 32-bit fifos. each 32-bit fifo can be independently assigned to target address space for read pre-fetch or write posting. using the 8 quicklogic ram modul es, the combinations include: 4 independent 64-deep fifo (2 rams each), or 2 independent 128-deep fi fos (4 rams each), or a combination of the above that requir es 8 or less quicklogic ram modules asynchronous fifos (with independent read and write clocks) are also supported. figure 2: graphical interface to create fifo 4 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet 4.0 internal pci interface the symbol used to connect to the pci interface of the ql5030 is shown below. th is symbol is used in schematic or mixed schematic/hdl desi gn flows in the quickworks software. figure 3: pci interface symbol pcit32 pci pads pci signals target ad[31:0] trdyn devseln stopn pa r pern serrn pci_clock pci_reset pci_irdyn_d1 pci_framen_d1 pcidevseln_d1 pci_trdyn_d1 pci_stopn_d1 pci_idsel_d1 usr_write cfg_write usr_addr_wrdata[31:0] usr_cbe[3:0] usr_adr_valid usr_adr_inc usr_last_cycle_d1 usr_trdyn usr_stopn usr_devsel cfg_perr_det cfg_serr_sig usr_rdpipe_stat[1:0] clk rstn idsel cben[3:0] framen irdyn usr_rddata[31:0] usr_select usr_stop usr_rdy usr_rddecode usr_wrdecode cfg_rddata[31:0] cfg_cmdreg6 cfg_cmdreg8 ql5030 quickpci data sheet rev c 5 ql5030 quickpci data sheet 5.0 internal interface signal descriptions signals used to connect to the pc i interface in the ql5030 are descri bed below. the direction of the signal indicates if it is an input provided by the local interface (i) or an ou tput provided by the pci interface (o). table 1: internal interface signal descriptions signal i/o description usr_addr_wrdata[31:0] o target address, and data from target writes. duri ng all target accesses, the address will be presented on usr_addr_wrdata[31:0] and simultaneously, usr_ adr_valid will be active. during target write transactions, this port wi ll also present write data to the pc i configuration spac e or user logic. usr_cbe[3:0] o pci command and byte enables. during target accesses, the pci command will be presented on usr_cbe[3:0] and simultaneously, usr_adr_valid wi ll be active. during target read or write transactions, this port will present active-low byte-enables to the pci configuration spac e or user logic. usr_adr_valid o indicates the beginning of a pci transaction, and that a target address is valid on usr_addr_wrdata[31:0] and the pci command is vali d on usr_cbe[3:0]. when this signal is active, the target address must be latched and decoded to deter mine if this address belongs to the device's memory space. also, the pci command must be decoded to determine the type of pci transaction. on subsequent clocks of a target access, this si gnal will be low, indicating that an address is not present on usr_addr_wrdata[31:0]. usr_adr_inc o indicates that the target address should be incr emented, because the previous data transfer has completed. during burst target accesses, the ta rget address is only presented to the back-end logic at the beginning of the transaction (when usr_adr_ valid is active), and must therefore be latched and incremented (by 4) for subsequent data transfers. note that during write transactions, usr_adr_inc indicates valid data on usr_addr_wrdata[31:0] that must be accepted by the back-end logic (regardless of the state of usr_rdy). during read tr ansactions, usr_adr_inc will signal to the back-end that the pci core is ready to accept data. usr_adr_inc and usr_rdy both active during a read transaction signals a data transfer between the fpga and the pci core (and that the address counter must be incremented). usr_rddecode i this signal should be driven active when a "user read" command has been decoded from the usr_cbe[3:0] bus (while usr_adr_ valid is active). this command may be mapped from any of the pci "read" commands, such as memory read, memory read line, memory read multiple, i/o read, etc. usr_wrdecode i this signal should be driven active when a "user write" command has been decoded from the usr_cbe[3:0] bus (while usr_adr_ valid is active). this command may be mapped from any of the pci "write" commands, such as memory write or i/o write. usr_select i this signal should be driven active when the address on usr_addr_wrdata[31:0] has been decoded and determined to be within the address space of the device. usr_addr_wrdata[31:0] must be compared to each of the valid base address registers in the pci configuration space. also, this signal must be gated by the memory access enable or i/o ac cess enable registers in the pci configuration space (command register bits 1 or 0 at offset 04h). usr_write o this signal will be active throughout a "user write" transaction, which has been decoded by usr_wrdecode at the beginning of the transaction. the write-enable for individual double-words of data (on usr_addr_wrdata[31:0]) during a user wr ite transaction should be generated by logically anding this signal with usr_adr_inc. cfg_write o this signal will be active throughout a configurati on write transaction. the write-enable for individual double-words of data (on usr_addr_wrdata[31:0]) during a configuration write transaction should be generated by logically anding th is signal with usr_adr_inc. cfg_rddata[31:0] i data from the pci configuration registers, r equired to be presented to the pci core during pci configuration reads. usr_rddata[31:0] i data from the back-end user l ogic, required to be presented during pci reads. cfg_cmdreg8cfg_cmdreg6 i bits 6 and 8 from the command register in the pci configuration space (offset 04h). (sheet 1 of 2) 6 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet cfg_perr_det o parity error detected on the pci bus. when this signal is active, bit 15 of the status register must be set in the pci configuration space (offset 04h). cfg_serr_sig o system error asserted on the pci bus. when this signal is active, the signal ed system error bit, bit 14 of the status register, must be set in the pci configuration space (offset 04h). usr_trdyn o copy of the trdyn signal as driven by the pci target interface. usr_stopn o copy of the stopn signal as driven by the pci target interface. usr_devsel o inverted copy of the devseln signal as driven by the pci target interface. usr_last_cycle_d1 o indicates that the last transfer in a pci transaction is occurring. rdpipe_stat[1:0] o indicates the number of dwords currently in the read pipeline ("00" = 0 elements, "01" = 1 element, "11" = 2 elements). this value is important at the end of a transaction (i .e. when usr_last_cycle_d1 is active) if non-prefetchable memory is being read . non-prefetchable memory is defined as registers or memory elements whose value changes when they are read. examples are status registers which are cleared when they are read, or fifo memories , since consecutive reads from the same address in these elements may not produce the same data values. usr_rdy i used to delay (add wait states to) a pci trans action when the back end needs additional time. subject to pci latency restrictions. usr_stop i used to prematurely stop a pci target access on the next pci clock. table 1: internal interface signal descriptions (continued) signal i/o description (sheet 2 of 2) ql5030 quickpci data sheet rev c 7 ql5030 quickpci data sheet 6.0 array of logic cells a wide range of additional features complements the ql5030 device. the fpga portion of the device is 5-volt and 3.3-volt pci-compliant and can pe rform high-speed logic functions such as 160 mhz fifos. i/o pins provide individually controlled output enables, dedicated input/feedback registers, and full jtag capability for boundary scan and test. in addition, the ql5030 device provides the benefits of non-volatility, high design security, immediate func tionality on power-up, and a single chip solution. the ql5030 programmable logic archit ecture consists of an array of user-configurable logic building blocks, called logic cells, set beneath a grid of metal wiring channels similar to those of a gate array. through vialink? elements located at the wire in tersections, the output(s) of any cell may be programmed to connect to the inpu t(s) of any other cell. using the programmable logic in the ql5030, designers can quickly and easily customize their ?b ack-end? design for any number of applications. figure 4: logic cell a1 a2 a3 a4 a5 a6 os op b1 b2 c1 c2 mp ms d1 d2 e1 e2 np ns f1 f2 f3 f4 f5 f6 qc qr qs az oz qz nz fz 8 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet 7.0 ram module features the ql5030 device has eight 1,152-bit ram module s, for a total of 9,216 ram bits. using two ?mode? pins, designers can configur e each module into 64 (deep) x18 (wide), 128x9, 256x4, or 512x2 blocks. see figure 5 . the blocks are also easily cascadable to increase their effective width or depth. figure 5: ram module the ram modules are ?dual-ported?, with comp letely independent read and write ports and separate read and write clocks. the read ports support asynchronous and synchronous operation, while the write ports support synchronous operation. each port has 18 data lines and 9 address lines, allowing word lengths of up to 18 bits and address spaces of up to 512 words. depending on the mode selected, however, some higher order da ta or address lines may not be used. the write enable (we) line acts as a clock enable for synchronous write operation. the read enable (re) acts as a clock enable for synchronous read operation (asyncrd input low), or as a flow-through enable for asynchronous read operation (asyncrd input high). designers can cascade multiple ram modules to increa se the depth or width allowed in single modules by connecting corresponding addr ess lines together and dividing the words between modules. this approach allows up to 512-deep configurations as large as 16 bits wide in the ql5030 device. a similar technique can be used to create depths gr eater than 512 words. in th is case, address signals higher than the eighth bit are encoded onto the write enable (we) input for write operations. the read data outputs are multiplexed together using encoded higher read address bits for the multiplexer select signals. table 2: ram mode mode: address buses [a:0] data buses [w:0] 64x18 [5:0] [17:0] 128x9 [6:0] [8:0] 256x4 [7:0] [3:0] 512x2 [8:0] [1:0] mode[1:0] wa[a:0] wd[w:0] we wclk ram module asyncrd ra[a:0] rd[w:0] re rclk ql5030 quickpci data sheet rev c 9 ql5030 quickpci data sheet 8.0 jtag support jtag pins support ieee standard 1149.1a to provid e boundary scan capability for the ql5030 device. six pins are dedicated to jtag and programming fu nctions on each ql5030 de vice, and are unavailable for general design input and output signals. tdi, tdo, tck, tms, and trstb are jtag pins. a sixth pin, stm, is used only for programming. 9.0 development tools software support for the ql5030 device is available through the quickworks tm development package. this turnkey pc-based quickworks package, shown in figure 6 , provides a complete esp software solution with design entry, logic synthesis, place and route, and simulation. quickworks includes vhdl, verilog, schematic, and mixed-mode entry with fa st and efficient logic synthesis provided by the integrated synplicity synplify lite tm tool, specially tuned to take ad vantage of the ql5030 architecture. quickworks also provides functi onal and timing simulation for gua ranteed timing and source-level debugging. the unix-based quicktools tm and pc-based quickworks-lite tm packages are a subset of quickworks and provide a solution for designers who use schema tic-only design flow third-party tools for design entry, synthesis, or simulation. qu icktools and quickworks-lite read edif netlists and provide support for all quicklogic devices. quickt ools and quickworks-lite also support a wide range of third-party modeling and simulation tools. in addition, the pc-based package combines all the features of quickworks-lite with the scs schematic capture en vironment, providing a low-cost design entry and compilation solution. figure 6: quickworks tool suite schematic schematic turbo writer hdl editor third party design entry & synthesis third party simulation vhdl/ vhdl/ verilog verilog scs schematic tools silos simulators quick tools /quick chip : optimize, place, & route mixed-mode design mixed-mode design synplify-lite hdl synthesis quick works design software & 10 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet 10.0 dc characteristics the dc specifications are provided in the tables below. table 3: absolute maximum ratings v cc voltage -0.5 to 4.6v dc input current 20 ma v ccio voltag e -0.5 to 7.0v esd pad protection 2000v input voltage -0.5v to v ccio +0.5v storage temperature -65c to +150c latch-up immunity 200 ma lead temperature 300c table 4: operating range symbol parameter industrial commercial unit min max min max v cc supply voltage 3.0 3.6 3.0 3.6 v v ccio i/o input tolerance voltage 3.0 5.5 3.0 5.25 v ta ambient temperature -40 85 0 70 c k delay factor -a speed grade 0.43 0.90 0.46 0.88 table 5: dc characteristics symbol parameter conditions min max unit vih input high voltage 0.5vcc vccio+0.5 v vil input low voltage -0.5 0.3vcc v voh output high voltage ioh = -12 ma 2.4 v ioh = -500 ma 0.9vcc v vol output low voltage iol = 16 ma 0.45 v iol = 1.5 ma 0.1vcc v ii i or i/o input leakage current vi = vccio or gnd -10 10 ma ioz 3-state output leakage current vi = vccio or gnd -10 10 ma ci input capacitance [a] a. capacitance is sample tested only. 10 pf ios output short circuit current [b] b. only one output at a time. duration should not exceed 30 seconds. vo = gnd -15 -180 ma vo = vcc 40 210 ma icc d.c. supply current [c] c. see application note 32: power calculations for quicklogic devices. vi, vio = vccio or gnd 0.50 (typ) 2 ma iccio d.c. supply current on vccio 0 100 ma ql5030 quickpci data sheet rev c 11 ql5030 quickpci data sheet 11.0 ac characteristics at vcc = 3.3v, ta = 25c (k = 1.00) to calculate delays, multiply the appropriate k factor in the ?operating range? section by the following numbers. table 6: logic cells symbol parameter propagation delays (ns) fanout [a] a. these limits are derived from a representative selection of the slowest paths through the quick- ram logic cell including typical net delays. worst case delay values for specific paths should be determined from timing analysis of your particular design. 1 2 3 4 8 tpd combinatorial delay 1.4 1.7 1.9 2.2 3.2 tsu setup time 1.7 1.7 1.7 1.7 1.7 th hold time 0.0 0.0 0.0 0.0 0.0 tclk clock to q delay 0.7 1.0 1.2 1.5 2.5 tcwhi clock high time 1.2 1.2 1.2 1.2 1.2 tcwlo clock low time 1.2 1.2 1.2 1.2 1.2 tset set delay 1.0 1.3 1.5 1.8 2.8 treset reset delay 0.8 1.1 1.3 1.6 2.6 tsw set width 1.9 1.9 1.9 1.9 1.9 trw reset width 1.8 1.8 1.8 1.8 1.8 table 7: ram cell synchronous write timing symbol parameter propagation delays (ns) fanout [a] a. stated timing for worst case propagation delay over process variation at vcc=3.3v and ta=25c. multiply by the appropriate delay factor, k, for speed grade, voltage and temperature settings as specified in the operating range. 1 2 3 4 8 tswa wa setup time to wclk 1.0 1.0 1.0 1.0 1.0 thwa wa hold time to wclk 0.0 0.0 0.0 0.0 0.0 tswd wd setup time to wclk 1.0 1.0 1.0 1.0 1.0 thwd wd hold time to wclk 0.0 0.0 0.0 0.0 0.0 tswe we setup time to wclk 1.0 1.0 1.0 1.0 1.0 thwe we hold time to wclk 0.0 0.0 0.0 0.0 0.0 twcrd wclk to rd (wa=ra) [4] 5.0 5.3 5.6 5.9 7.1 12 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet table 8: ram cell synchronous read timing symbol parameter propagation delays (ns) fanout 1 2 3 4 8 tsra ra setup time to rclk 1.0 1.0 1.0 1.0 1.0 thra ra hold time to rclk 0.0 0.0 0.0 0.0 0.0 tsre re setup time to rclk 1.0 1.0 1.0 1.0 1.0 thre re hold time to rclk 0.0 0.0 0.0 0.0 0.0 trcrd rclk to rd [5] 4.0 4.3 4.6 4.9 6.1 table 9: ram cell asynchronous read timing symbol parameter propagation delays (ns) fanout 1 2 3 4 8 rpdrd ra to rd [5] 3.0 3.3 3.6 3.9 5.1 table 10: input-only cells symbol parameter propagation delays (ns) fanout [a] a. these limits are derived from a representative selection of the slowest paths through the quick- ram logic cell including typical net delays. worst case delay values for specific paths should be determined from timing analysis of your particular design. 1 2 3 4 8 12 24 tin high drive input delay 1.5 1.6 1.8 1.9 2.4 2.9 4.4 tini high drive input, inverting delay 1.6 1.7 1.9 2.0 2.5 3.0 4.5 tisu input register set-up time 3.1 3.1 3.1 3.1 3.1 3.1 3.1 tih input register hold time 0.0 0.0 0.0 0.0 0.0 0.0 0.0 tlclk input register clock to q 0.7 0.8 1.0 1.1 1.6 2.1 3.6 tlrst input register reset delay 0.6 0.7 0.9 1.0 1.5 2.0 3.5 tlesu input register clock enable setup time 2.3 2.3 2.3 2.3 2.3 2.3 2.3 tleh input register clock enable hold time 0.0 0.0 0.0 0.0 0.0 0.0 0.0 ql5030 quickpci data sheet rev c 13 ql5030 quickpci data sheet table 11: clock cells symbols parameter propagation delays (ns) loads per half column [a] a. the array distributed networks consist of 40 half columns and the global distributed networks con- sist of 44 half columns, each driven by an i ndependent buffer. the number of half columns used does not affect clock buffer delay. the array clock has up to 8 loads per half column. the global clock has up to 11 loads per half column. 1 2 3 4 8 10 12 15 tack array clock delay 1.2 1.2 1.3 1.3 1.5 1.6 1.7 1.8 tgckp global clock pin delay 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 tgckb global clock buffer delay 0.8 0.8 0.9 0.9 1.1 1.2 1.3 1.4 table 12: i/o cell input delays symbol parameter propagation delays (ns) fanout [5] 1 2 3 4 8 10 ti/o input delay (bidirectional pad) 1.3 1.6 1.8 2.1 3.1 3.6 tisu input register set-up time 3.1 3.1 3.1 3.1 3.1 3.1 tih input register hold time 0.0 0.0 0.0 0.0 0.0 0.0 tloclk input register clock to q 0.7 1.0 1.2 1.5 2.5 3.0 tlorst input register reset delay 0.6 0.9 1.1 1.4 2.4 2.9 tlesu input register clock enable set-up time 2.3 2.3 2.3 2.3 2.3 2.3 tleh input register clock enable hold time 0.0 0.0 0.0 0.0 0.0 0.0 14 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet note: the following loads are used for tpxz: table 13: i/o cell output delays symbol parameter propagation delays (ns) output load capacitance (pf) 30 50 75 100 150 toutlh output delay low to high 2.1 2.5 3.1 3.6 4.7 touthl output delay high to low 2.2 2.6 3.2 3.7 4.8 tpzh output delay tri-state to high 1.2 1.7 2.2 2.8 3.9 tpzl output delay tri-state to low 1.6 2.0 2.6 3.1 4.2 tphz output delay high to tri-state 2.0 tplz output delay low to tri-state 1.2 5 pf 1k ? 5 pf 1k ? tphz tplz ql5030 quickpci data sheet rev c 15 ql5030 quickpci data sheet 12.0 ql5030 external device pins the ql5030 device pins are indicated in table 14 and table 15 below. these are pins on the device, some of which connect to th e pci bus, and others that are programmable as user i/o. note: *see quicknote 65 on the quicklogic websit e for information on ram initialization. table 14: pin type descriptions type description in input. a standard input-only signal out totem pole output. a standard active output driver t/s tri-state. a bi-directional, tri-state input/output pin s/t/s sustained tri-state. an active lo w tri-state signal driven by one pci agent at a time. it must be driven high for at least one clock before being disabled (set to hi-z). a pull-up needs to be provided by the pci system central resource to sustain the inacti ve state once the active driver has released the signal. o/d open drain. allows multiple device s to share this pin as a wired-or. table 15: device pins pin/bus name type function vcc in supply pin. tie to 3.3v supply. vccio in supply pin for i/o. set to 3.3v for 3.3v i/o, 5v for 5.0v compliant i/o gnd in ground pin. tie to gnd on the pcb. i/o t/s programmable input/output/tri-state/bi-directional pin. glck/i in programmable global network or input-only pin. tie to vcc or gnd if unused. aclk/i in programmable array network or input-only pin. tie to vcc or gnd if unused. tdi/rsi* in jtag data in/ram init. serial data in. tie to vcc if unused. connect to serial eprom data for ram init. tdo/rco* out jtag data out/ram init clock. leave unconnected if unused. connect to serial eprom clock for ram init. tck in jtag clock. tie to gnd if unused. tms in jtag test mode select. tie to vcc if unused. trstb/rro * in jtag reset/ram init. reset out. tie to gnd if unused. connect to serial eprom reset for ram init. stm in quicklogic reserved pin. tie to gnd on the pcb. 16 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet 13.0 external device pins 14.0 ordering information table 16: external device pins pin/bus name type function ad[31:0] t/s pci address and data: 32 bit multiplexed address/data bus. cben[3:0] t/s pci bus command and byte enables: multiplexed bus which contains byte enables for ad[31:0] or the bus command during the address phase of a pci transaction. pa r t / s pci parity: even parity across ad[31:0] and c/ ben[3:0] busses. driven one clock after address or data phases. master drives par on address cycles and pci writes. the target drives par on pci reads. framen s/t/s pci cycle frame: driven active by current pci mast er during a pci transaction. driven low to indicate the address cycle, driven high at the end of the transaction. devseln s/t/s pci device select. driven by a target that has decoded a valid base address. clk in pci system clock input. rstn in pci system reset input perrn s/t/s pci data parity error. driven active by the initiato r or target two clock cycles after a data parity error is detected on the ad and c/ben busses. serrn o/d pci system error: driven active when an address cy cle parity error, data parity error during a special cycle, or other catastrophic error is detected. idsel in pci initialization device select. use to select a specific pci agent during system initialization. irdyn s/t/s pci initiator ready. indicates the initiator?s ability to complete a read or write transaction. data transfer occurs only on clock cycles where both irdyn and trdyn are active. trdyn s/t/s pci target ready. indicates the target?s ability to complete a read or write transaction. data transfer occurs only on clock cycles where both irdyn and trdyn are active. stopn s/t/s pci stop. used by a pci target to end a burst transaction. ql 5030 - 4 tq144 c quicklogic device quickpci device part number speed grade 4 = quick operating range c = commercial i = industrial package code tq144 = 144-pin tqfp ql5030 quickpci data sheet rev c 17 ql5030 quickpci data sheet 15.0 144 tqfp pinout diagram 16.0 144 tqfp pinout table table 17: 144 tqfp pinout table pf144 function pf144 function pf144 function pf144 function 1 i/o 37 ad[21] 73 ad[4] 109 tck 2 i/o 38 tdi/rsi 74 ad[3] 110 stm 3 i/o 39 ad[20] 75 ad[2] 111 i/o 4 i/o 40 ad[19] 76 ad[1] 112 i/o 5 i/o 41 ad[18] 77 ad[0] 113 i/o 6 i/o 42 vcc 78 i/o 114 vcc 7 vcc 43 ad[17] 79 vcc 115 i/o 8 i/o 44 ad[16] 80 i/o 116 i/o 9 i/o 45 cben[2] 81 i/o 117 i/o 10 i/o 46 framen 82 i/o 118 i/o 11 i/o 47 irdyn 83 i/o 119 i/o 12 i/o 48 trdyn 84 i/o 120 i/o 13 i/o 49 devseln 85 i/o 121 i/o 14 i/o 50 gnd 86 i/o 122 gnd 15 gnd 51 stopn 87 gnd 123 i/o 16 i/o 52 perrn 88 i/o 124 i/o 17 gclk/i 53 serrn 89 gclk/i 125 i/o 18 aclk/i 54 gnd 90 aclk/i 126 gnd 19 vcc 55 par 91 vcc 127 i/o 20 rstn 56 cben[1] 92 gclk/i 128 i/o 21 clk 57 ad[15] 93 gclk/i 129 i/o 22 vcc 58 vccio 94 vcc 130 vccio 23 i/o 59 ad[14] 95 i/o 131 i/o 24 ad[31] 60 ad[13] 96 i/o 132 i/o 25 ad[30] 61 ad[12] 97 i/o 133 i/o 26 ad[29] 62 ad[11] 98 i/o 134 i/o 27 ad[28] 63 ad[10] 99 i/o 135 i/o 28 ad[27] 64 ad[9] 100 i/o 136 i/o 29 ad[26] 65 ad[8] 101 i/o 137 i/o 30 gnd 66 gnd 102 gnd 138 gnd 31 ad[25] 67 cben[0] 103 i/o 139 i/o 32 ad[24] 68 ad[7] 104 i/o 140 i/o 33 cben[3] 69 ad[6] 105 i/o 141 i/o 34 idsel 70 ad[5] 106 i/o 142 i/o 35 ad[23] 71 trstb/rro 107 i/o 143 tdo/rco 36 ad[22] 72 tms 108 i/o 144 i/o quickpci ql5030-33apf144c pin #109 pin #73 pin #37 pin #1 18 www.quicklogic.com ? 2002 quicklogic corporation ql5030 quickpci data sheet 17.0 revision history copyright ? 2002 quicklogic corporation. all rights reserved. the information contained in this product brief, and the accompanying software programs are protected by copyright. all rights are reserved by quicklogic corporation. quicklogic co rporation reserves the right to make periodic modifications of this product without obligation to notify any person or entity of such revision. copying, duplicating, selling, or otherwise distributing any part of this product without the prior written consent of an authorized representative of quicklogic is prohibited. quicklogic, pasic, and vialink are registered trademarks, and spde and quick works are trademarks of quicklogic corporation. verilog is a registered trademark of cadence design systems, inc. table 18: revision history revision date comments a sept 1999 first release. b march 2001 update of electrical specs c jan 2002 re-formatted and re-organized for better clarity |
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