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| the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. not all devices/types available in every country. please check with local nec representative for availability and additional information. document no. s12313ej3v0ds00 (3rd edition) date published may 2002 ns cp(k) printed in japan 1997 6-port 25m atm phy lsi data sheet mos integrated circuit pd98408 the mark shows major revised points. the pd98408 is an atm physical layer lsi ic that complies with atm25 (25.6 mbps) and which supports tc sublayer and pmd sublayer functions. interfacing with the atm layer and aal layer lsi is implemented at utopia level 2. detailed descriptions of its functions, etc., are given in the following user's manual. be sure to read it for design purposes. pd98408 user's manual: s11409e features ? provides a 25.6-mbps atm phy (pmd & tc) function for six circuits conforms to the atm forum phy interface specifications (af-phy-0040.000 november 1995). utopia level 2 v1.0 (af-phy-0039.000 june 1995: max. 8 bits/40 mhz) interface three-cell built-in transmit/receive fifos for each circuit pmd sublayer functions: (a) built-in clock recovery. (b) built-in equalizer. tc sublayer functions: (a) nrzi encoder/decoder. (b) command byte insertion/detection. (c) 4b/5b encoder/decoder. (d) cell scrambler/descrambler. (e) hec generation/verification. cpu interface: intel or motorola can be selected. supports stp and utp (categories 3, 4, 5). loopback function: loopback in the pmd and atm layers. operation and maintenance (oam) functions: input failure detection, hec error detection and 4b/5b code error detection. test function: supports jtag. power supply voltage: 3.3 v 5 %. ordering information part number package pd98408gd-lml 208-pin plastic qfp (fine pitch) (28 28) remark this document indicates active low pins in the format of "xxx_b" (_b after the pin name).
data sheet s12313ej3v0ds 2 pd98408 system configuration example (application) nic nic nic atm switching hub cpu atm-sw 25-mbps atm interface using utp (category 3) #0 #5 sonet-if backbone network pd98408 utopia level 2 utopia level 2 utopia level 2 utopia level 2 pd98408 data sheet s12313ej3v0ds 3 pd98408 system configuration example (connection with magnetics) the example of connection with pe-67588 (pulse inc.) magnetics 150 ? 1% 45.3 ? 1% 261 ? 1% tdop0 ts+ tx+ ts ? tu+ tu ? rs+ ru+ rs ? ru ? v dd tdon0 rdip0 rdin0 tx ? rec+ rec ? gnd chsgnd 7 8 1 2 5 16 155 14 154 161 160 15 12 11 17 19 18 3.3 v 6 pe-67588 pd98408 #0 45.3 ? 1% 1.2 h 10% #1 #2 #3 #4 #5 the example of connection with tla-6m102 (tdk tm co.) magnetics 33 ? 1% 240 ? 1% tdop0 tx+ tu+ tu ? ru+ ru ? vcc tdon0 rdip0 rdin0 tx ? rec+ rec ? gnd 1 2 15 16 3 155 154 161 160 7 6 11 10 3.3 v 14 tla-6m102 pd98408 #0 #1 #2 #3 #4 #5 33 ? 1% 130 ? 1% 1 k ? 1% data sheet s12313ej3v0ds 4 pd98408 block diagram receive data transmit data utopia level 2 cpu interface cpu bus transmit clock (32 mhz) utp/stp (cat.3/4/5) jtag interface pd98408 receive fifo transmit fifo pmd tc atm layer lo opback utopia interface test interface descrambler receiver equalizer scrambler transmitter idle/unassigned cell detector magnetic module hec verification 4b/5b decoder (command byte detection) nrzi decoder clock/data recovery pmd loopback 1 pmd loopback 2 hec generation 4b/5b encoder (command byte insertion) nrzi encoder data sheet s12313ej3v0ds 5 pd98408 pin layout ... 8 txdata0 - txdata7 txclk txsoc txenb_b txclav txaddr0 - txaddr4 5 8 rxdata0 - rxdata7 rxclk rxsoc rxclav rxenb_b rxaddr0 - rxaddr4 5 atm layer interface interface for external tc pd98408 (neascot - t20 tm ) timin g marker sin/tdata5 sout transmit clock ( 32 mhz ) reset_b dgnd power supply dv dd av dd av dd av dd av dd av dd av dd ... 3.3 v agnd agnd agnd agnd agnd agnd agn d rdip0 rdin0 tdop0 tdon0 utp/stp interface rdip5 rdin5 tdop5 tdon5 ... jdi/tclk0 jdo/rdata0 jck/tclk1 jms/tclk2 jrst_b/tclk3 ic/tclk5 ic/tclk4 recclk/rdata1 ic/rdata3 ic/rdada2 ic/rclk0 ic/rclk5 ic/rdata4 ic/rdata5 ic/tdata1 ic/tdata2 ic/tdata0 ic/tdata3 ic/tdata4 pmdonly cpu interface data0 - data7 rw_b/wr_b i nt _ b ds_b/rd_b dtack_b/rdy_b addr0 - addr5 busmode sel_b reset tclock 8 6 ... ... ... ... data sheet s12313ej3v0ds 6 pd98408 pin configuration (top view) ? 208-pin plastic qfp (fine pitch) (28 28) pd98408gd-lml dv dd sou t reset_b dgn d tcloc k dgn d rxdata7 rxdata6 dv dd rxdata5 rxdata4 dgn d rxdata3 rxdata2 dgn d rxdata1 rxdata0 dv dd rxcl k dgn d rxaddr4 rxaddr3 dgng rxaddr2 rxaddr1 dv dd dgn d rxaddr0 rxso c dgn d rxcla v rxenb_b ic dv dd txdata7 txdata6 dgn d txdata5 txdata4 dgn d txdata3 txdata2 dv dd txdata1 txdata0 dgn d txcl k dgn d txaddr4 txaddr3 txaddr2 dv dd 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 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 99 100 101 102 103 104 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 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 av dd rdin5 rdip5 agnd ic ic agnd av dd agnd av dd agnd av dd agnd ic ic dv dd dgnd pmdonly ic/rclk0 ic/rclk1 ic/rclk2 dgnd ic/rclk3 ic/rclk4 ic/rclk5 dgnd dv dd jdi/tclk0 jck/tclk1 jms/tclk2 dgnd jrst_b/tclk3 ic/tclk4 ic/tclk5 dv dd jdo/rdata0 recclk/rdata1 ic/rdata2 dgnd ic/rdata3 ic/rdata4 ic/rdata5 dgnd ic/tdata0 ic/tdata1 ic/tdata2 dv dd ic/tdata3 ic/data4 sin/tdata5 dgnd dgnd a v dd tdop0 tdon0 agnd agnd av dd agnd av dd agnd av dd agnd ic ic dv dd dgnd busmode ds_b/rd_b rw_b/wr_b sel_b dtack_b/rdy_b int_b dgnd addr0 addr1 addr2 dgnd dv dd addr3 addr4 addr5 dgnd data0 data1 dgnd data2 data3 dv dd data4 data5 dgnd data6 data7 dgnd cg txenb_b txclav dv dd txsoc txaddr0 txaddr1 dgnd dgnd agnd tdop5 tdon5 agnd av dd av dd agnd rdip4 rdin4 av dd agnd tdop4 tdon4 agnd av dd av dd agnd rdip3 rdin3 av dd agnd tdop3 tdon3 agnd av dd av dd agnd rdip2 rdin2 av dd agnd tdop2 tdon2 agnd av dd av dd agnd rdip1 rdin1 av dd agnd tdop1 tdon1 agnd av dd av dd agnd rdip0 rdin0 av dd agnd av dd data sheet s12313ej3v0ds 7 pd98408 pin names addr0-addr5 : address rxa ddr0-rxaddr4 : receive address agnd : analog ground rxclav : receive cell available av dd : analog supply voltage rxclk : receive data clock busmode : bus mode rxdata0- rxdata7 : receive data cg : connect gnd rxenb_b : receive enable data0-data7 : data rxsoc : receive start address of atm cell dgnd : digital ground sel_b : selector ds_b/rd_b : data strove/read sin/tdata5 : signal in/transmit data dtack_b/rdy_b : data acknowledge/ready sout : signal out dv dd : digital supply voltage tclock : transmit clock ic : internal connect tdon0-tdon5 : transmit data output negative ic/rclk0-ic/rclk5 : internal connect/receive clock tdop0-tdop5 : transmit data output positive ic/rdata2-ic/rdata5: internal connect/receive data txaddr0- txaddr4 : transmit address ic/tclk4, ic/tclk5 : internal connect/transmit clock txclav : transmit cell available ic/tdata0-ic/tdata4 : internal connect/transmit data txclk : transmit data clock int_b : interrupt txdata0-txdata7 : transmit data jck/tclk1 : jtag test clock/transmit clock txenb_b : transmit enable jdi/tclk0 : jtag test data input/transmit clock txsoc : transmit start address of atm cell jdo/rdata0 : jtag test data output/recieve data jms/tclk2 : jtag test mode select/transmit clock jrst_b/tclk3 : jtag test reset/transmit clock pmdonly : pmd only rdin0-rdin5 : receive data input negative rdip0-rdip5 : receive data input positive recclk/rdata1 : recovery clock/receive data reset_b : reset rw_b/wr_b : read write/write data sheet s12313ej3v0ds 8 pd98408 contents 1. pin functions................................................................................................................ .................9 1.1 power supply................................................................................................................ ...............9 1.2 utp/stp interface........................................................................................................... ..........10 1.3 utopia interface ............................................................................................................ ..........11 1.4 cpu interface ............................................................................................................... .............12 1.5 other pins .................................................................................................................. ................13 1.6 handling unused pins ........................................................................................................ .......16 1.7 pin states at reset ......................................................................................................... ...........17 2. electrical characteristics ................................................................................................18 3. package drawing .............................................................................................................. ........30 4. recommended soldering conditions ...............................................................................31 data sheet s12313ej3v0ds 9 pd98408 1. pin functions 1.1 power supply pin name pin no. i/o active level function av dd 1, 8, 10, 12, 147, 149, 151, 156, 157,159, 163, 164, 169,173, 174, 179, 183,184, 189, 193, 194,199, 203, 204 ?? +3.3-v power supply pins for analog circuits. dv dd 16, 27, 35, 47, 53, 61, 70, 78, 86, 95, 104, 110, 120, 130, 143 ?? +3.3-v power supply pins for digital circuits. agnd 4, 7, 9, 11, 13, 146, 148, 150, 152,153, 158, 162, 165,168, 172, 175, 178,182, 185, 188, 192,195, 198, 202, 205, 208 ?? analog circuit grounding pins. dgnd 17, 22, 26, 31, 39, 43, 51, 52, 56, 58, 64, 67, 72, 75, 79, 82, 89, 92, 98, 100, 105, 106, 114, 117, 123, 126, 131, 135, 142 ? digital circuit grounding pins. caution on the pc board layout, agnd and dgnd should be connected to the same, wide plane. on the pc board layout, av dd and dv dd should be connected to the same, wide plane. for details, refer to the user's manual (s11409e). data sheet s12313ej3v0ds 10 pd98408 1.2 utp/stp interface pin name pin no. i/o active level function rdip0 161 i ? receive data inputs from circuit #0 (analog balanced signal rdin0 160 i ? inputs). tdop0 155 o ? transmit data outputs to circuit #0 (analog balanced signal tdon0 154 o ? outputs). rdip1 171 i ? receive data inputs from circuit #1 (analog balanced signal rdin1 170 i ? inputs). tdop1 167 o ? transmit data outputs to circuit #1 (analog balanced signal tdon1 166 o ? outputs). rdip2 181 i ? receive data inputs from circuit #2 (analog balanced signal rdin2 180 i ? inputs). tdop2 177 o ? transmit data outputs to circuit #2 (analog balanced signal tdon2 176 o ? outputs). rdip3 191 i ? receive data inputs from circuit #3 (analog balanced signal rdin3 190 i ? inputs). tdop3 187 o ? transmit data outputs to circuit #3 (analog balanced signal tdon3 186 o ? outputs). rdip4 201 i ? receive data inputs from circuit #4 (analog balanced signal rdin4 200 i ? inputs). tdop4 197 o ? transmit data outputs to circuit #4 (analog balanced signal tdon4 196 o ? outputs). rdip5 3 i ? receive data inputs from circuit #5 (analog balanced signal rdin5 2 i ? inputs). tdop5 207 o ? transmit data outputs to circuit #5 (analog balanced signal tdon5 206 o ? outputs). data sheet s12313ej3v0ds 11 pd98408 1.3 utopia interface pin name pin no. i/o active level function rxdata0- rxdata7 69, 68, 66, 65, 63, 62, 60, 59 o tristate ? 8-bit data bus used for receive data output to the atm layer device. data is output in sync with the positive-going edge of rxclk. rxclk 71 i ? input pin of the clock for receive data transfer to the atm layer device.(max. 40 mhz) rxsoc 81 o tristate h receive cell start address signal output, which outputs the signal for informing the atm layer device of the start byte position of the receive cell. the start byte position is that position where rxsoc = 1. rxenb_b 84 i l rxdata0-rxdata7 and rxsoc output enable signal input. when 0 is input, outputs rxdata0-rxdata7 and rxsoc are enabled. rxaddr0- rxaddr4 80, 77, 76, 74, 73 i ? input pins for the signal indicating the address of the pd98408. rxclav 83 o tristate h cell receive available signal output. becomes 1 when the pd98408 has an output cell. txdata0- txdata7 97, 96, 94, 93, 91, 90, 88, 87 i ? 8-bit data bus used for transmit data input to the atm layer device. data is input in sync with the positive-going edge of txclk. txclk 99 i ? input pin of the clock for the transmit data transfer to the atm layer device. (max. 40 mhz) txsoc 109 i h transmit cell start address signal input, which inputs the signal indicating the start byte position of the transmit cell input from the atm layer device. the start byte position is that position where txsoc = 1. txenb_b 112 i l transmit enable signal input, which inputs a signal indicating that the atm layer device is outputting valid transmit data at txdata0-txdata7. 0 for enable and 1 for disable. txaddr0- txaddr4 108, 107, 103, 102, 101 i ? input pins of the signal indicating the address of the pd98408 which transmits data txclav 111 o tristate h cell transmit available signal output. goes to 1 when the pd98408 is ready to receive a cell. data sheet s12313ej3v0ds 12 pd98408 1.4 cpu interface pin name pin no. i/o active level function busmode 141 i ? selects the cpu interface operation mode. 0: data sheet s12313ej3v0ds 13 pd98408 1.5 other pins (1/3) pin name pin no. i/o active level function jdi/tclk0 28 i ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (jdi): jtag boundary scan data input pin. ? when pmdonly = 1 (tclk0): input pin for transmit clock for the pmd transmitter (circuit 0). jdo/ rdata0 36 o ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (jdo): jtag boundary scan data output pin. ? when pmdonly = 1 (rdata0): output pin for data received from the pmd receiver (circuit 0). jck/tclk1 29 i ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (jck): jtag boundary scan clock input pin. ? when pmdonly = 1 (tclk1): input pin for transmit clock for the pmd transmitter (circuit 1). jms/tclk2 30 i ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (jms): jtag boundary scan mode select signal input pin. ? when pmdonly = 1 (tclk2): input pin for transmit clock for the pmd transmitter (circuit 2). jrst_b/ tclk3 32 i l/ ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (jrst_b): jtag boundary scan reset signal input pin. ? when pmdonly = 1 (tclk3): input pin for transmit clock for the pmd transmitter (circuit 3). remark about the treatment of jtag boundary scan pins for normal operation a pulse input to the reset_b pin does not reset the jtag logic. if the jtag logic has not been reset, the pd98408 may not operate normally. either of the following two methods can be used to reset the jtag logic. if the jrst_b pin is not connected to a ground, be sure to reset the jtag logic, using either method, after the power is switched on. ? resetting the jtag logic without using the jrst_b pin use the jms and jck pins to reset the jtag logic and keep it reset (with the jrst_b pin pulled up). fix the jms pin at 1 (pulled up), and input five or more clock cycles to the jck pin. ? using the jrst_b pin to reset the jtag logic if a low pulse is input to the jrst_b pin, and the jms and jrst_b pins are pulled up and kept at a high level, the jtag logic is kept reset, so it does not affect normal operations. as for the jdi and jck pins, keep the input level pulled down or up. data sheet s12313ej3v0ds 14 pd98408 (2/3) pin name pin no. i/o active level function ic/tclk4 33 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tclk4): input pin for transmit clock for the pmd transmitter (circuit 4). ic/tclk5 34 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tclk5): input pin for transmit clock for the pmd transmitter (circuit 5). recclk/ rdata1 37 o ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (recclk): output pin for the recovery clock on the receive data. the recovery clock of circuit 0 is output. ? when pmdonly = 1 (rdata1): output pin for data received from the pmd receiver (circuit 1). ic/rdata3 40 o ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (rdata3): output pin for data received from the pmd receiver (circuit 3). ic/rdata2 38 o ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (rdata2): output pin for data received from the pmd receiver (circuit 2). ic/ rclk0- rclk5 19, 20, 21, 23, 24, 25 o/i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to these pins. ? when pmdonly = 1 (rclk0-rclk5): output pins for the clock received from the pmd receiver (circuits 0 to 5). ic/tdata0 44 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tdata0): input pin for transmit data for the pmd transmitter (circuit 0). ic/rdata4 41 o ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (rdata4): output pin for the data received from the pmd receiver (circuit 4). data sheet s12313ej3v0ds 15 pd98408 (3/3) pin name pin no. i/o active level function ic/rdata5 42 o ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (rdata5): output pin for the data received from the pmd receiver (circuit 5). ic/tdata1 45 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tdata1): input pin for transmit data for the pmd transmitter (circuit 1). ic/tdata2 46 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tdata2): input pin for transmit data for the pmd transmitter (circuit 2). ic/tdata3 48 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tdata3): input pin for transmit data for the pmd transmitter (circuit 3). ic/tdata4 49 i (with pull- down resistor) ? / ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (ic): no signal should be connected to this pin. ? when pmdonly = 1 (tdata4): input pin for transmit data for the pmd transmitter (circuit 4). sin/tdata5 50 i (with pull- down resistor) h/ ? two pin functions can be selected according to the level of the pmdonly pin. ? when pmdonly = 0 (sin): x_8 command transmit timing signal input pin. ? when pmdonly = 1 (tdata5): input pin for transmit data for the pmd transmitter (circuit 5). sout 54 o h x_8 command receive timing signal output pin. pmdonly 18 i (with pull- down resistor) ? specifies the mode of the pd98408: whether it is operated as pmd + tc or as pmd only. 0: operation as pmd + tc. 1: operation as pmd only. tclock 57 i ? transmit clock (32 mhz) input pin reset_b 55 i l input pin for the reset signal for the entire pd98408. ic 5, 6, 14, 15, 85, 144, 145 ?? no signal should be connected to these pins. cg 113 i ? should be connected to gnd for normal use. data sheet s12313ej3v0ds 16 pd98408 1.6 handling unused pins pin name i/o recommended connection when not in use rdip0-rdip5 i pull up with a resistor (1 k ? ). rdin0-rdin5 i pull up with a resistor (1 k ? ). tdop0-tdop5 o open. tdon0-tdon5 o open. jdi/tclk0 i pull up with a resistor. jdo/rdata0 o open. jck/tclk1 i pull up with a resistor. jms/tclk2 i pull up with a resistor. jrst_b/tclk3 i pull up with a resistor. ic/tclk4 i (with pull-down resistor) open. ic/tclk5 i (with pull-down resistor) open. recclk/rdata1 o open. ic/rdata3 o open. ic/rdata2 o open. ic/rclk0-ic/rclk5 i/o (with pull-down resistor) open. ic/tdata0 i (with pull-down resistor) open. ic/rdata4 o open. ic/rdata5 o open. ic/tdata1 i (with pull-down resistor) open. ic/tdata2 i (with pull-down resistor) open. ic/tdata3 i (with pull-down resistor) open. ic/tdata4 i (with pull-down resistor) open. sin/tdata5 i (with pull-down resistor) open. sout o open. pmdonly i (with pull-down resistor) open. data sheet s12313ej3v0ds 17 pd98408 1.7 pin states at reset pin name i/o pin states at reset tdop0-tdop5 o not defined tdon0-tdon5 o not defined rxdata0-rxdata7 tristate o hi-z rxsoc tristate o hi-z rxclav tristate o hi-z txclav tristate o hi-z data0-data7 i/o hi-z dtack_b/rdy_b o high level int_b o high level jdo/rdata0 o not defined recclk/rdata1 o not defined sout o low level data sheet s12313ej3v0ds 18 pd98408 2. electrical characteristics absolute maximum ratings parameter symbol conditions rating unit power supply voltage v dd ?0.5 to +4.6 v input voltage v i ?0.5 to +6.6 v output voltage v o ?0.5 to +6.6 v output current i o1 note 1 10 ma i o2 note 2 30 ma storage temperature t stg ?65 to +150 c caution absolute maximum ratings are rated values beyond which physical damage will be caused to the product; if the rated value of any of the parameters in the above table is exceeded, even momentarily, the quality of the product may deteriorate. always use the product within its rated values. notes 1 . applies to pins jdo/rdata0, recclk/rdata1, ic/rdata2, ic/rdata3, ic/rdata4, ic/rdata5, sout, and ic/rclk0-ic/rclk5. 2 . applies to pins rxdata0-rxdata7, rxsoc, rxclav, txclav, int_b, dtack_b/rdy_b, and data0-data7. recommended operating conditions parameter symbol conditions min. typ. max. unit power supply voltage v dd 3.135 3.3 3.465 v high-level input voltage v ih 2.0 ? 5.5 v low-level input voltage v il 0?0.8v operating ambient temperature t a ?40 ? +85 c data sheet s12313ej3v0ds 19 pd98408 dc characteristics (t a = ? 40 to +85 c, v dd = 3.3 v 5 %) parameter symbol conditions min. typ. max. unit input leakage current i l v i = v dd or gnd ? ? 2 a high-level output current i oh1 v oh = 2.4 v note 1 ?3.0 ? ? ma i oh2 v oh = 2.4 v note 2 ?8.0 ? ? ma low-level output current i ol1 v ol = 0.4 v note 1 3.0 ? ?ma i ol2 v ol = 0.4 v note 2 9.0 ? ? ma high-level output voltage v oh1 i oh = 0 ma note 3 v dd ? 0.4 ? ? v v oh2 i oh = 0 ma when note 3 is not applied v dd ? 0.2 ? ? v low-level output voltage v ol i ol = 0 ma ? ? 0.1 v supply current i dd in operation note 4 ? 330 460 ma notes 1 . applies to pins jdo/rdata0, recclk/rdata1, ic/rdata2, ic/rdata3, ic/rdata4, ic/rdata5, sout, and ic/rclk0-ic/rclk5. 2 . applies to pins rxdata0-rxdata7, rxsoc, rxclav, txclav, int_b, dtack_b/rdy_b, and data0-data7. 3 . applies to pins ic/rclk0-ic/rclk5 only when 1 is input to the pmdonly pin (only pmd operates). 4. power consumption when resistors and magnetic module components are connected to the utp interface pins (tdopn/tdonn, rdipn/rdinn) (refer to system configuration example (connection with magnetics) ). data sheet s12313ej3v0ds 20 pd98408 capacitance parameter symbol conditions min. typ. max. unit input capacitance c i frequency = 1 mhz ? 10 20 pf output capacitance c o frequency = 1 mhz ? 10 20 pf i/o capacitance c io frequency = 1 mhz ? 10 20 pf ac test i/o waveform ac characteristics (t a = ? 40 to +85 c, v dd = 3.3 v 5 %) tclock parameter symbol conditions min. typ. max. unit tclock frequency t1-1 ? 32 ? mhz tclock duty t1-2 40 ? 60 % tclock frequency accuracy t1-3 ? ? 100 ppm tclock rise time t1-4 measurement of 10 to 90 % transition time ??5ns tclock fall time t1-5 measurement of 10 to 90 % transition time ??5ns tclock input tclock cycle t1-3 t1-2 (min.) t1-2 (max.) t1-1 = 1/cycle tclock t1-4 t1-5 v dd 0 v 0.5v dd test points data sheet s12313ej3v0ds 21 pd98408 cpu interface (1) write operation (when busmode = 1) parameter symbol conditions min. typ. max. unit addr setup time (referred to wr_b ) t2-1 10 ? ? ns sel_b setup time (referred to wr_b ) t2-2 5 ? ? ns wr_b pulse width t2-3 50 ? ? ns data setup time (referred to wr_b ) t2-4 16 ? ? ns addr/data hold time (referred to wr_b ) t2-5 4 ? ? ns rdy_b disable time (referred to wr_b ) t2-6 ? ? 10 ns sel_b hold time (referred to wr_b ) t2-7 0 ? ? ns cpu interface write operation (busmode = 1) t2-1 t2-2 t2-3 t2-4 t2-5 t2-7 t2-6 addr0 - addr5 sel_b wr_b rd_b rdy_b data0 - data7 data sheet s12313ej3v0ds 22 pd98408 (2) read operation (when busmode = 1) parameter symbol conditions min. typ. max. unit addr setup time (referred to rd_b ) t2-10 10 ? ? ns sel_b setup time (referred to rd_b ) t2-11 5 ? ? ns rd_b pulse width t2-12 50 ? ? ns data fixed time (referred to rdy_b ) t2-13 ? ? 10 ns addr hold time (referred to rd_b ) t2-14 4 ? ? ns rdy_b disable time (referred to rd_b ) t2-15 ? ? 10 ns sel_b hold time (referred to rd_b ) t2-16 0 ? ? ns data invalid/tristate time (referred to rd_b ) t2-17 0 ? ? ns cpu interface read operation (busmode = 1) t2-15 t2-13 rdy_b t2-10 t2-12 t2-17 t2-16 t2-14 addr0 -addr5 data0 - data7 rd_b sel_b wr_b t2-11 data sheet s12313ej3v0ds 23 pd98408 (3) write operation (when busmode = 0) parameter symbol conditions min. typ. max. unit addr setup time (referred to ds_b ) t2-1 10 ? ? ns sel_b or rw_b setup time (referred to ds_b ) t2-2 5 ? ? ns ds_b pulse width t2-3 50 ? ? ns data setup time (referred to ds_b ) t2-4 15 ? ? ns addr/data hold time (referred to ds_b ) t2-5 4 ? ? ns dtack_b disable time (referred to ds_b ) t2-6 ? ?10ns sel_b or rw_b hold time (referred to ds_b ) t2-7 0 ? ? ns cpu interface write operation (busmode = 0) addr0 -addr5 sel_b data0 - data7 ds_b rw_b dtack_b t2-1 t2-2 t2-3 t2-4 t2-5 t2-7 t2-6 data sheet s12313ej3v0ds 24 pd98408 (4) read operation (when busmode = 0) parameter symbol conditions min. typ. max. unit addr setup time (referred to ds_b ) t2-10 10 ? ? ns sel_b or rw_b setup time (referred to ds_b ) t2-11 5 ? ? ns ds_b pulse width t2-12 50 ? ? ns data fixed time (referred to dtack_b ) t2-13 ? ? 10 ns addr hold time (referred to ds_b ) t2-14 4 ? ? ns dtack_b disable time (referred to ds_b ) t2-15 ? ? 10 ns sel_b or rw_b hold time (referred to ds_b ) t2-16 0 ? ? ns data invalid/tristate time (referred to ds_b ) t2-17 0 ? ? ns cpu interface read operation (busmode = 0) addr0 -addr5 sel_b data0 -data7 ds_b rw_b dtack_b t2-10 t2-11 t2-12 t2-13 t2-17 t2-16 t2-15 t2-14 data sheet s12313ej3v0ds 25 pd98408 utopia interface (1) transmission parameter symbol conditions min. typ. max. unit txclk frequency t3-1 0 ? 40 mhz txclk duty cycle t3-2 40 ? 60 % txclk jitter (peak to peak) t3-3 ? ? 5 % txclk rise time t3-4 measurement of 10 to 90 % transition time ??3ns txclk fall time t3-5 measurement of 10 to 90 % transition time ??3ns txdata[7:0], txsoc, txenb_b, or txaddr[4:0] setup time t3-6 8 ? ? ns txdata[7:0], txsoc, txenb_b, or txaddr[4:0] hold time t3-7 1 ? ? ns txclav low-impedance delay time (referred to txclk ) t3-8 8 ? ? ns txclav high-impedance delay time (referred to txclk ) t3-9 0 ? ? ns txclav low-impedance delay time (referred to txclk ) t3-10 1 ? ? ns txclav high-impedance delay time (referred to txclk ) t3-11 1 ? ? ns data sheet s12313ej3v0ds 26 pd98408 (2) reception parameter symbol conditions min. typ. max. unit rxclk frequency t3-12 0 ? 40 mhz rxclk duty cycle t3-13 40 ? 60 % rxclk jitter (peak to peak) t3-14 ? ? 5 % rxclk rise time t3-15 measurement of 10 to 90 % transition time ??3ns rxclk fall time t3-16 measurement of 10 to 90 % transition time ??3ns rxenb_b or rxaddr[4:0] setup time t3-17 8 ? ? ns rxenb_b or rxaddr[4:0] hold time t3-18 1 ? ? ns rxdata[7:0], rxsoc, or rxclav low-impedance delay time (referred to rxclk ) t3-19 8 ? ? ns rxdata[7:0], rxsoc, or rxclav high-impedance delay time (referred to rxclk ) t3-20 0 ? ? ns rxdata[7:0], rxsoc, or rxclav low-impedance delay time (referred to rxclk ) t3-21 1 ? ? ns rxdata[7:0], rxsoc, or rxclav high-impedance delay time (referred to rxclk ) t3-22 1 ? ? ns txclk or rxclk timing - 1 t3-2, t3-13 (min.) t3-1, t3-12 = 1/cycle t3-2, t3-13 (max.) t3-3, t3-14 max. max. 2.5 % 2.5 % cycle txclk/rxclk txclk or rxclk timing - 2 t xclk/rxclk t3-4, t3-15 t3-5, t3-16 data sheet s12313ej3v0ds 27 pd98408 input signal setup timing t3-6, t3-17 txclk, rxclk txdata[7:0], txsoc, txenb_b, txaddr[4:0], rxenb_b, rxaddr[4:0] input signal hold timing txclk, rxclk txdata[7:0], txsoc, txe nb_b, txaddr[4:0], rxenb_b, rxaddr[4:0] t3-7, t3-18 output delay time - 1 txclk, rxclk txclav, rxdata[7:0], rxsoc, rxclav t3-10, t3-21 t3-8, t3-19 hi-z output delay time - 2 t3-11, t3-22 txclk, rxclk txclav, rxdata[7:0], rxsoc, rxclav t3-9, t3-20 hi-z data sheet s12313ej3v0ds 28 pd98408 pmdonly mode parameter symbol conditions min. typ. max. unit rxdata delay time (referred to rxclk ) t4-1 0.5 ? 15.0 ns txdata setup time (referred to txclk ) t4-2 8.0 ? ? ns txdata hold time (referred to txclk ) t4-3 0.5 ? ? ns reception data output delay time rxclk0 -rxclk5 rxdata0 -rxdata5 t4-1 hi-z transmission data setup/hold time t4-2 t4-3 txclk0 -txclk5 txdata0 -txdata5 data sheet s12313ej3v0ds 29 pd98408 others parameter symbol conditions min. typ. max. unit sin pulse width t5-1 11 ? ? tclock clock sout pulse width t5-2 ? 15 ? tclock clock reset_b pulse width t5-3 50 ? ? ns sin and sout timings t5-1 11 clocks or more t5-2 t clock sin sout 11 clocks 15 clocks reset_b timing reset_b 50 ns or more t5-3 data sheet s12313ej3v0ds 30 pd98408 3. package drawing 208-pin plastic qfp (fine pitch) (28x28) item millimeters f g 1.25 1.25 b c28.0 0.2 28.0 0.2 h0.22 i0.10 s 3.8 max. k1.3 0.2 l0.5 0.2 m0.17 n 0.10 p 3.2 0.1 + 0.05 ? 0.04 j 0.5 (t.p.) p208gd-50-lml,mml,sml,wml-7 + 0.03 ? 0.07 r5 5 j i ns s detail of lead end q0.4 0.1 m note each lead centerline is located within 0.10 mm of its true position (t.p.) at maximum material condition. 1 208 52 53 156 157 105 104 c a b q r h k m l d p g f s a30.6 0.2 d30.6 0.2 data sheet s12313ej3v0ds 31 pd98408 4. recommended soldering conditions the conditions listed below shall be met when soldering the pd98408. for details of the recommended soldering conditions, refer to our document semiconductor device mounting technology manual (c10535e) . please consult with our sales offices in case any other soldering process is used, or in case soldering is done under different conditions. surface-mount type ? pd98408gd-lml: 208-pin plastic qfp (fine pitch) (28 28) soldering process soldering conditions symbol infrared ray reflow peak package's surface temperature: 235 c reflow time: 30 seconds or less (210 c or more) maximum allowable number of reflow processes: 2 exposure limit: 7 days note (36 hours of pre-baking is required at 125 c afterward) ir35-367-2 data sheet s12313ej3v0ds 32 pd98408 [memo] data sheet s12313ej3v0ds 33 pd98408 [memo] data sheet s12313ej3v0ds 34 pd98408 [memo] data sheet s12313ej3v0ds 35 pd98408 notes for cmos devices 1 precaution against esd for semiconductors note: strong electric field, when exposed to a mos device, can cause destruction of the gate oxide and ultimately degrade the device operation. steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it once, when it has occurred. environmental control must be adequate. when it is dry, humidifier should be used. it is recommended to avoid using insulators that easily build static electricity. semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. all test and measurement tools including work bench and floor should be grounded. the operator should be grounded using wrist strap. semiconductor devices must not be touched with bare hands. similar precautions need to be taken for pw boards with semiconductor devices on it. 2 handling of unused input pins for cmos note: no connection for cmos device inputs can be cause of malfunction. if no connection is provided to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence causing malfunction. cmos devices behave differently than bipolar or nmos devices. input levels of cmos devices must be fixed high or low by using a pull-up or pull-down circuitry. each unused pin should be connected to v dd or gnd with a resistor, if it is considered to have a possibility of being an output pin. all handling related to the unused pins must be judged device by device and related specifications governing the devices. 3 status before initialization of mos devices note: power-on does not necessarily define initial status of mos device. production process of mos does not define the initial operation status of the device. immediately after the power source is turned on, the devices with reset function have not yet been initialized. hence, power-on does not guarantee out-pin levels, i/o settings or contents of registers. device is not initialized until the reset signal is received. reset operation must be executed immediately after power-on for devices having reset function. pd98408 neascot-t20 is a trademark of nec corporation. tdk is a trademark of tdk corporation. m8e 00. 4 the information in this document is current as of may, 2002. the information is subject to change without notice. for actual design-in, refer to the latest publications of nec's data sheets or data books, etc., for the most up-to-date specifications of nec semiconductor products. not all products and/or types are available in every country. please check with an nec sales representative for availability and additional information. no part of this document may be copied or reproduced in any form or by any means without prior written consent of nec. nec assumes no responsibility for any errors that may appear in this document. nec does not assume any liability for infringement of patents, copyrights or other intellectual pr operty rights of third parties by or arising from the use of nec semiconductor products listed in this document or any other liability arising from the use of such pr oducts. no license, express, implied or otherwise, is granted under any patents, copyrights or other intellectual pr operty rights of nec or others. descriptions of circuits, software and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. the incorporation of these circuits, software and information in the design of customer's equipment shall be done under the full responsibility of customer. nec assumes no responsibility for any losses incurred by customers or third parties arising from the use of these circuits, software and information. while nec endeavours to enhance the quality, reliability and safety of nec semiconductor products, customers agree and acknowledge that the possibility of defects thereof cannot be eliminated entirely. to minimize risks of damage to property or injury (including death) to persons arising from defects in nec semiconductor products, customers must incorporate sufficient safety measures in their design, such as redundancy, fire-containment, and anti-failure features. nec semiconductor products are classified into the following three quality grades: "standard", "special" and "specific". the "specific" quality grade applies only to semiconductor products developed based on a customer-designated "quality assurance program" for a specific application. the recommended applications of a semiconductor product depend on its quality grade, as indicated below. customers must check the quality grade of each semiconductor product before using it in a particular application. "standard": computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots "special": tr ansportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) "specific": aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems and medical equipment for life support, etc. the quality grade of nec semiconductor products is "standard" unless otherwise expressly specified in nec's data sheets or data books, etc. if customers wish to use nec semiconductor products in applications not intended by nec, they must contact an nec sales representative in advance to determine nec's willingness to support a given application. (note) (1) "nec" as used in this statement means nec corporation and also includes its majority-owned subsidiaries. (2) "nec semiconductor products" means any semiconductor product developed or manufactured by or for nec (as defined above). ? ? ? ? ? ? |
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