isplsi � 5512va in-system programmable 3.3v superwide? high density pld 1 5512va_08 copyright ? 2002 lattice semiconductor corp. all brand or product names are trademarks or registered trademarks of their respec tive holders. the specifications and information herein are subject to change without notice. lattice semiconductor corp., 5555 northeast moore ct., hillsboro, oregon 97124, u.s.a. january 2002 t el. (503) 268-8000; 1-800-lattice; fax (503) 268-8556; http://www.latticesemi.com features ? superwide high-density in-system programmable logic ? 3.3v power supply ? user selectable 3.3v/2.5v i/o ? 24000 pld gates / 512 macrocells ? up to 288 i/o pins ? 512 registers ? high-speed global interconnect ? superwide 32 generic logic block (glb) size for optimum performance ? superwide input gating (68 inputs) for fast counters, state machines, address decoders, etc. ? pcb efficient ball grid array (bga) package options ? interfaces with standard 5v ttl devices ? high performance e 2 cmos ? technology ? f max = 110 mhz maximum operating frequency ? t pd = 8.5 ns propagation delay ? enhanced t su2 = 7 ns, t su3 (clk0/1) = 4.5ns, t su3 (clk2/3) = 3.5ns ? ttl/3.3v/2.5v compatible input thresholds and output levels ? electrically erasable and reprogrammable ? non-volatile ? programmable speed/power logic path optimization ? in-system programmable ? increased manufacturing yields, reduced time-to- market, and improved product quality ? reprogram soldered devices for faster debugging ? 100% ieee 1149.1 boundary scan testable and 3.3v in-system programmable ? architecture features ? enhanced pin-locking architecture with single- level global routing pool and superwide glbs ? wrap around product term sharing array supports up to 35 product terms per macrocell ? macrocells support concurrent combinatorial and registered functions ? macrocell registers feature multiple control options including set, reset and clock enable ? four dedicated clock input pins plus macrocell product term clocks ? slew and skew programmable i/o (saspi/o) supports programmable bus hold, pull-up, open drain and slew and skew rate options ? six global output enable terms, two global oe pins and one product term oe per macrocell functional block diagram global routing pool� (grp) boundary� scan� interface input bus generic � logic block input bus generic � logic block input bus input bus input bus input bus generic � logic block generic � logic block generic � logic block generic � logic block input bus generic � logic block input bus generic � logic block input bus generic � logic block input bus input bus input bus input bus generic � logic block generic � logic block generic � logic block generic � logic block input bus generic � logic block input bus generic � logic block input bus generic � logic block isplsi 5000v description the isplsi 5000v family of in-system programmable high density logic devices is based on generic logic blocks (glbs) of 32 registered macrocells and a single global routing pool (grp) structure interconnecting the glbs. outputs from the glbs drive the global routing pool (grp) between the glbs. switching resources are pro- vided to allow signals in the global routing pool to drive any or all the glbs in the device. this mechanism allows fast, efficient connections across the entire device. each glb contains 32 macrocells and a fully populated, programmable and-array with 160 logic product terms and five extra control product terms. the glb has 68 inputs from the global routing pool which are available in both true and complement form for every product term. the 160 product terms are grouped in 32 sets of five and sent into a product term sharing array (ptsa) which allows sharing up to a maximum of 35 product terms for a single function. alternatively, the ptsa can be by- passed for functions of five product terms or less. the
specifications isplsi 5512va 2 functional block diagram figure 1. isplsi 5512va functional block diagram (388 bga option) global routing pool� (grp) boundary� scan� interface goe0 goe1 gset/grst 1.� clk2, clk3 and toe signals are multiplexed with i/o signals. which i/o is multiplexed is� � determined by the package type used ? see table below. � tdi tck tms tdo clk 1 clk 0 1 clk 3 1 clk 2 vccio input bus generic � logic block input bus generic � logic block input bus input bus input bus input bus generic � logic block generic � logic block generic � logic block generic � logic block input bus generic � logic block input bus generic � logic block input bus input bus input bus input bus generic � logic block generic � logic block generic � logic block generic � logic block package type�� multiplexed signals� 388 bga� i/o 179 / clk2�� i/o 197 / clk3� i/o 0 / toe� 272 bga� i/o 119 / clk2�� i/o 131 / clk 3� i/o 0 / toe� 208 pqfp� i/o 89 / clk2�� i/o 98 / clk 3� i/o 0 / toe � i/o 161 i/o 160 i/o 159 i/o 158 i/o 147 i/o 146 i/o 145 i/o 144 i/o 72 i/o 73 i/o 74 i/o 75 i/o 86 i/o 87 i/o 88 i/o 89 i/o 90 i/o 91 i/o 92 i/o 93 i/o 104 i/o 105 i/o 106 i/o 107 i/o 233 i/o 232 i/o 231 i/o 230 i/o 219 i/o 218 i/o 217 i/o 216 i/o 251 i/o 250 i/o 249 i/o 248 i/o 237 i/o 236 i/o 235 i/o 234 i/o 269 i/o 268 i/o 267 i/o 266 i/o 255 i/o 254 i/o 253 i/o 252 1 i/o 0 / toe i/o 1 i/o 2 i/o 3 i/o 14 i/o 15 i/o 16 i/o 17 i/o 18 i/o 19 i/o 20 i/o 21 i/o 32 i/o 33 i/o 34 i/o 35 i/o 36 i/o 37 i/o 38 i/o 39 i/o 50 i/o 51 i/o 52 i/o 53 input bus generic � logic block i/o 54 i/o 55 i/o 56 i/o 57 i/o 68 i/o 69 i/o 70 i/o 71 input bus generic � logic block i/o 122 i/o 123 i/o 124 i/o 125 i/o 108 i/o 109 i/o 110 i/o 111 i/o 140 i/o 141 i/o 142 i/o 143 i/o 126 i/o 127 i/o 128 i/o 129 input bus generic � logic block i/o 179/clk2 i/o 178 i/o 177 i/o 176 i/o 165 i/o 164 i/o 163 i/o 162 i/o 197/clk3 i/o 196 i/o 195 i/o 194 i/o 183 i/o 182 i/o 181 i/o 180 i/o 215 i/o 214 i/o 213 i/o 212 i/o 201 i/o 200 i/o 199 i/o 198 input bus generic � logic block i/o 287 i/o 286 i/o 285 i/o 284 i/o 273 i/o 272 i/o 271 i/o 270
specifications isplsi 5512va 3 isplsi 5000v description (continued) five extra product terms are used for shared glb con- trols, set, reset, clock, clock enable and output enable. the 32 registered macrocells in the glb are driven by the 32 outputs from the ptsa or the ptsa bypass. each macrocell contains a programmable xor gate, a pro- grammable register/latch/toggle flip-flop and the necessary clocks and control logic to allow combinatorial or registered operation. the macrocells each have two outputs, which can be fed back through the global routing pool. this dual output capability from the macrocell allows efficient use of the hardware resources. one output can be a registered function for example, while the other output can be an unrelated combinatorial function. a direct register input from the i/o pad facilitates efficient use of this feature to construct high-speed input registers. macrocell registers can be clocked from one of several global or product term clocks available on the device. a global and product term clock enable is also provided, eliminating the need to gate the clock to the macrocell registers. reset and preset for the macrocell register is provided from both global and product term signals. the macrocell register can be programmed to operate as a d- type register, a d-type latch or a t-type flip flop. the 32 outputs from the glb can drive both the global routing pool and the device i/o cells. the global routing pool contains one line from each macrocell output and one line from each i/o pin. the input buffer threshold has programmable ttl/3.3v/ 2.5v compatible levels. the output driver can source 4ma and sink 8ma in 3.3v mode. the output drivers have a separate vccio reference input which is independent of the main vcc supply for the device. this feature allows the output drivers to drive either 3.3v or 2.5v output levels while the device logic and the output current drive is always powered from 3.3v. the output drivers also provide individually programmable edge rates and open drain capability. a programmable pullup resistor is pro- vided to tie off unused inputs and a programmable bus-hold latch is available to hold tristate outputs in their last valid state until the bus is driven again by some device. the isplsi 5000v family features 3.3v, non-volatile in- system programmability for both the logic and the interconnect structures, providing the means to develop truly reconfigurable systems. programming is achieved through the industry standard ieee 1149.1-compliant boundary scan interface. boundary scan test is also supported through the same interface. an enhanced, multiple cell security scheme is provided that prevents reading of the jedec programming file when secured. after the device has been secured using this mechanism, the only way to clear the security is to execute a bulk-erase instruction. isplsi 5000v family members the isplsi 5000v family ranges from 256 macrocells to 512 macrocells and operates from a 3.3v power supply. all family members will be available with multiple pack- age options. the isplsi 5000v family device matrix showing the various bondout options is shown in the table below. the interconnect structure (grp) is very similar to lattice's existing isplsi 1000, 2000 and 3000 families, but with an enhanced interconnect structure for optimal pin locking and logic routing. this eliminates the need for registered i/o cells or an output routing pool. table 1. isplsi 5000va family e p y t e g a k c a p e c i v e ds b l gs l l e c o r c a ma g b p f 8 0 2p f q p 8 0 2a g b 2 7 2a g b 8 8 3 a v 6 5 2 5 i s l p s i 86 5 2o / i 4 4 1o / i 4 4 1o / i 2 9 1? a v 4 8 3 5 i s l p s i 2 14 8 3o / i 4 4 1o / i 4 4 1o / i 2 9 1o / i 8 8 2 a v 2 1 5 5 i s l p s i 6 12 1 5? o / i 4 4 1o / i 2 9 1o / i 8 8 2
specifications isplsi 5512va 4 figure 2. isplsi 5512va block diagram (288 i/o version) 32 18� i/o 160 160� pt 160 32 d q 32 18� i/o 68 dq 160 160 68 160� pt 32 32 18� i/o 160 160� pt 160 32 d q 32 18� i/o 68 dq 160 160 68 160� pt 32 32 18� i/o 160 160� pt 160 32 d q 32 18� i/o 68 dq 160 160 68 160� pt 32 32 18� i/o 160 160� pt 160 32 d q 32 18� i/o 68 dq 160 160 68 160� pt 32 5512_384 18 18 18 18 18 18 18 18 32 18� i/o 160 160� pt 160 32 d q 32 18� i/o 68 dq 160 160 68 160� pt 32 32 32 18 18 800 18 18 32 32 18 18 32 32 18 18 32 32 18 18 32 32 18 18 5 5� pt 5� pt 5 5 5� pt 5� pt 5 5 5� pt 5� pt 5 5 5� pt 5� pt 5 5 5� pt 5� pt 5 set/reset goe1 goe0 toe clk1 clk0 global� routing� p ool� (grp) generic� logic� block� (glb) buffers/pins clk3 clk2
specifications isplsi 5512va 5 figure 3. isplsi 5000v generic logic block (glb) glb_5k 01 26667 macrocell 0 pt 160 pt 161 pt 162 pt 163 macrocell 1 macrocell 15 macrocell 31 pt 9 pt 8 pt 7 pt 6 pt 5 pt 0 pt 1 pt 2 pt 3 pt 4 pt 79 pt 78 pt 77 pt 76 pt 75 pt 159 pt 158 pt 157 pt 156 pt 155 to i/o pad to grp ptsa bypass pt clock pt reset pt preset from ptsa ptoe shared pt clock 0 shared pt (p)reset 0 shared pt clock 1 shared pt (p)reset 1 global ptoe 0 ... 5 6 to i/o pad to grp ptsa bypass pt clock pt reset pt preset from ptsa ptoe shared pt clock 0 shared pt (p)reset 0 shared pt clock 1 shared pt (p)reset 1 global ptoe 0 ... 5 6 to i/o pad to grp ptsa bypass pt clock pt reset pt preset from ptsa ptoe shared pt clock 0 shared pt (p)reset 0 shared pt clock 1 shared pt (p)reset 1 global ptoe 0 ... 5 6 to i/o pad to grp ptsa bypass pt clock pt reset pt preset from ptsa ptoe shared pt clock 0 shared pt (p)reset 0 shared pt clock 1 shared pt (p)reset 1 global ptoe 0 ... 5 6 from global routing pool ptsa programmable� and array global ptoe bus pt 164
specifications isplsi 5512va 6 figure 4. isplsi 5000v macrocell global ptoe 2 global ptoe 3 global ptoe 0 global ptoe 1 global ptoe 4 global ptoe 5 ptsa dq rp ptsa bypass pt clock pt reset clk en r/l ptoe shared pt clock 0 shared pt clock 1 d/t goe0 goe1 dq d d/t clk en clk register/� latch q rp set/reset pt preset shared pt (p)reset 0 shared pt (p)reset 1 programmable� speed/power� option toe clk0 clk1 clk clk2 clk3 vccio vccio vcc slew� rate 2.5v/3.3v� output open� drain i/o pad to grp delay
specifications isplsi 5512va 7 global clock distribution the isplsi 5000v family has four dedicated clock input pins: clk0 - clk3. clk0 input is used as the dedicated master clock that has the lowest internal clock skew with no clock inversion to maintain the fastest internal clock speed. the clock inversion is available on the remaining clk1 - clk3 signals. by sharing the pins with the i/o pins, clk2 and clk3 can not only be inverted but also is available for logic implementation through grp signal routing. figure 5 shows these different clock distribution options. figure 5. isplsi 5000v global clock structure clk0 clk1 clk 0 clk 1 io/clk 2 io/clk 3 clk2 clk3 to grp to grp set/reset gset/grst
specifications isplsi 5512va 8 figure 6. boundary scan register circuit for i/o pins figure 7. boundary scan register circuit for input-only pins normal� function� oe extest update dr scanout� (to next cell) clock dr scanin� (from previous� cell) shift dr normal� function toe dq dq dq d 1 0 1 0 1 0 q dq i/o pin reset bscan� registers bscan� latches highz 0 prog_mode extest 1 0 1 scanout � (to next cell) clock dr scanin� (from previous� cell) shift dr dq input pin 0 1
specifications isplsi 5512va 9 figure 8. boundary scan waveforms and timing specifications tms tdi tck tdo data to be� captured data to be� driven out valid data valid data valid data valid data data captured btsu t bth t btcl t btch t btcp t btvo t btco t btoz t btcpsu t btcph t btuov t btuco t btuoz t symbol p arameter min max units t btcp tck [bscan test] clock pulse width 125 ? ns t btch tck [bscan test] pulse width high 62.5 ? ns t btcl tck [bscan test] pulse width low 62.5 ? ns t btsu tck [bscan test] setup time 25 ? ns t bth tck [bscan test] hold time 25 ? ns t rf tck [bscan test] rise and fall time 50 ? mv/ns t btco tap controller falling edge of clock to valid output ?25ns t btoz tap controller falling edge of clock to data output disable ?25ns t btvo tap controller falling edge of clock to data output enable ?25ns t btcpsu bscan test capture register setup time 25 ? ns t btcph bscan test capture register hold time 25 ? ns t btuco bscan test update reg, falling edge of clock to valid output ?50ns t btuoz bscan test update reg, falling edge of clock to output disable ?50ns t btuov bscan test update reg, falling edge of clock to output enable ?50ns
specifications isplsi 5512va 10 absolute maximum ratings 1, 2 supply voltage v cc .................................. -0.5 to +5.4v input voltage applied ............................... -0.5 to +5.6v tri-stated output voltage applied ........... -0.5 to +5.6v storage temperature ................................ -65 to 150 c case temp. with power applied .............. -55 to 125 c max. junction temp. (t j ) with power applied ... 150 c 1. stresses above those listed under the ?absolute maximum ratings? may cause permanent damage to the device. functional operation of the device at these or at any other conditions above those indicated in the operational sections of this specifica tion is not implied (while programming, follow the programming specifications). 2. compliance with the thermal management section of the lattice semiconductor data book or cd-rom is a requirement. dc recommended operating condition symbol table 2 - 0005/5000 v cc v ccio parameter supply voltage i/o reference voltage commercial t a = 0 c to +70 c min. max. units 3.00 2.3 3.60 3.60 v industrial t a = -40 c to +85 c 3.00 3.60 v v capacitance (t a =25 c,f=1.0 mhz) symbol table 2 - 0006/5384 c parameter clock capacitance 10 units typical test conditions 2 pf v = 3.3v, v = 2.0v cc ck c i/o capacitance 10 1 pf v = 3.3v, v = 2.0v cc i/o c global input capacitance 10 3 pf v = 3.3v, v = 2.0v cc g erase reprogram specification table 2-0008/3320 parameter minimum maximum units isplsi erase/reprogram cycles 10000 ?� cycles
specifications isplsi 5512va 11 switching test conditions input pulse levels table 2 - 0003/5384 input rise and fall time input timing reference levels ouput timing reference levels output load gnd to v ccio min 1.5ns 10% to 90% 1.5v 1.5v see figure 3-state levels are measured 0.5v from steady-state� active level. output load conditions (see figure 8) test condition r1 3.3v 2.5v r2 cl a� � 35pf d� � 35pf b �� 35pf �� 35pf active high slow slew active low c �� 5pf �� 5pf 511 ? � � � 511 ? � 511 ? � � 475 ? � � 475 ? � � � 475 ? � r1 r2 �� �� �� �� �� �� 316 ? � � � 316 ? � 316 ? � � 348 ? � � 348 ? � � � 348 ? � active low to z� at v +0.5v ol active high to z� at v -0.5v oh table 2 - 0004a/5384 dc electrical characteristics for 3.3v range 1 over recommended operating conditions figure 9. test load v ccio r 1 r 2 c l * device� output test� point * c l includes test fixture and probe capacitance. 0213d v ol symbol 1. i/o voltage configuration must be set to vcc. table 2-0007/5512va v oh v ih v il parameter output low voltage output high voltage input high voltage input low voltage i ol = 8 ma i oh = -4 ma v oh v out or v out v ol (max) v oh v out or v out v ol (max) condition min. typ. max. units ? 2.4 2.0 -0.3 ? ? ? ? 0.4 ? 5.25 0.8 v v v ccio i/o reference voltage 3.0 ? 3.6 v v v
specifications isplsi 5512va 12 dc electrical characteristics over recommended operating conditions dc electrical characteristics for 2.5v range 1 over recommended operating conditions v ih symbol 2.5v/5512va v oh parameter input high voltage output high voltage v oh(min) v out or v out v ol(max) v oh(min) v out or v out v ol(max) v ccio=min , v in =v ih or v il , i oh = -2ma v ccio=min , v in =v ih or v il , i ol = 2ma condition min. typ. max. units 1.7 1.7 ? ? 5.25 ? v v ccio v il i/o reference voltage input low voltage 2.3 -0.3 ? ? 2.7 0.7 v v v v ccio=min , v in =v ih or v il , i oh = -100 a 2.1 ? ? v ??0.7v v ccio=min , v in =v ih or v il , i ol = 100 a ??0.2v v ol output low voltage 1. i/o voltage configuration must be set to vccio. symbol 1. pullup is capable of pulling to a minimum voltage of v oh under no-load conditions. dc char_5512va i pu i bhl parameter i bhh i bhlo 1 i/o active pullup current bus hold low sustaining current bus hold high sustaining current bus hold low overdrive current i ih i il input or i/o high leakage current input or i/o low leakage current 0v v v (max.) in il condition min. typ. max. units ? ? ? ? 40 -40 ? ? ? ? ? ? ? ? -10 10 -150 50 ? ? 550 a a a a a a i bhlh i bht bus hold high overdrive current bus hold trip points ? v il ? ? -550 v ih a v i vccio current needed for v ccio pin all i/os pulled-up, (total i/os * i pumax )? ? 45 ma a (v ccio -0.2)v v in v ccio v ccio v in 5.25v 0v v in v il 0v v in v ccio 0v v in v ccio v in = v il(max) v in = v ih(min)
specifications isplsi 5512va 13 external switching characteristics over recommended operating conditions . m a r a p t s e t 3 . d n o c #n o i t p i r c s e d 5 , 4 0 1 1 -0 0 1 -0 7 - s t i n u . n i m. x a m. n i m. x a m. n i m. x a m t 1 d p 6 a1 s s a p y b t p 5 , y a l e d . p o r p a t a d?5 . 8?0 1? 5 1s n t 2 d p 6 a2 y a l e d n o i t a g a p o r p a t a d?0 1? 3 1? 9 1s n f x a m a3 k c a b d e e f l a n r e t n i h t i w y c n e u q e r f k c o l c 1 0 1 1? 0 0 1?0 7? z h m f ) . t x e ( x a m ?4 ) 1 o c t + 2 u s t ( / 1 , k c a b d e e f . t x e h t i w . q e r f k c o l c1 9? 9 6?5 4? z h m f ) . g o t ( x a m ?5 e l g g o t x a m , y c n e u q e r f k c o l c 2 3 4 1? 5 2 1?3 8? z h m t 1 u s ?6 s s a p y b t p 5 , k l c e r o f e b e m i t p u t e s . g e r b l g6?8?2 1? s n t 1 o c 6 a7 y a l e d t u p t u o o t k c o l c . g e r b l g?4?5 . 5?8 s n t 1 h ?8 s s a p y b t p 5 , k c o l c r e t f a e m i t d l o h . g e r b l g0?0 ?0? s n t 2 u s ?9 k c o l c e r o f e b e m i t p u t e s . g e r b l g7?9?4 1? s n t 2 h ?0 1k c o l c r e t f a e m i t d l o h . g e r b l g0?0 ?0? s n t ) 1 / 0 k l c ( 3 u s ?1 1 . g e r t u p n i , k c o l c e r o f e b e m i t p u t e s . g e r b l g ) 1 / 0 k l c ( h t a p 5 . 4?6?9? s n t ) 3 / 2 k l c ( 3 u s ?2 1 . g e r t u p n i , k c o l c e r o f e b e m i t p u t e s . g e r b l g ) 3 / 2 k l c ( h t a p 5 . 3?5? 7? s n t ) 1 / 0 k l c ( 3 h ?3 1 h t a p . g e r t u p n i , k c o l c r e t f a e m i t d l o h . g e r b l g ) 1 / 0 k l c ( 0?0?0? s n t ) 3 / 2 k l c ( 3 h ?4 1 h t a p . g e r t u p n i , k c o l c r e t f a e m i t d l o h . g e r b l g ) 3 / 2 k l c ( 0?0?0? s n t 1 r a5 1y a l e d t u p t u o o t n i p t e s e r . t x e?7 1? 0 2?0 3s n t 1 w r ?6 1n o i t a r u d e s l u p t e s e r . t x e5 . 7?9?4 1? s n t s i d / e o t p c / b7 1e l b a s i d / e l b a n e t u p t u o m r e t t c u d o r p l a c o l?0 1? 2 1? 8 1s n t s i d / e o t p g c / b8 1e l b a s i d / e l b a n e t u p t u o m r e t t c u d o r p l a b o l g?0 2?4 2?0 3s n t s i d / e o g c / b9 1e l b a s i d / e l b a n e t u p t u o o t t u p n i e o l a b o l g?5 . 6?8?2 1s n t h w ?0 2h g i h , n o i t a r u d e s l u p k c o l c . c n y s . t x e5 . 3?4?6? s n t l w ?1 2w o l , n o i t a r u d e s l u p k c o l c . c n y s . t x e5 . 3?4?6? s n . k c a b d e e f p r g g n i s u r e t n u o c t i b - 2 3 d r a d n a t s . 1 . % 0 5 n a h t r e h t o f o e l c y c y t u d k c o l c a r o f w o l l a o t s i s i h t . ) l w t + h w t ( / 1 n a h t s s e l e b y a m ) e l g g o t ( x a m f . 2 . n o i t c e s s n o i t i d n o c t s e t g n i h c t i w s e c n e r e f e r . 3 . 0 k l c d n a , b l g 1 f o d a o l p r g a , t u o n a f a s t p e s a c t s r o w h t i w n e k a t e r a s r e b m u n g n i m i t l l a , e s i w r e h t o d e t o n s s e l n u . 4 . r e v i r d t u p t u o e v i t c a l a m r o n g n i s u d e r u s a e m s r e t e m a r a p g n i m i t . 5 s i o i c c v n e h w d e r r u c n i s i y a l e d s n 5 . 0 l a n o i t i d d a n a . e c n e r e f e r e g a t l o v o / i s a c c v h t i w d e r u s a e m e r a s r e t e m a r a p y a l e d e h t . 6 . e c n e r e f e r e g a t l o v o / i s a d e s u s p e . 0 . 4 / a v 2 1 5 5 . t x e g n i m i t
specifications isplsi 5512va 14 internal timing parameters 1 over recommended operating conditions i/o buffer t idcom 22 input pad and buffer, combinatorial input ? 0.7 ? 0.9 ? 1.4 ns t idreg 23 input pad and buffer, registered input ? 4.7 ? 6.6 ? 9.7 ns t odcom 24 output pad and buffer, combinatorial output ? 2.4 ? 1.7 ? 2.6 ns t odreg 25 output pad and buffer, registered output ? 1.0 ? 2.8 ? 4.6 ns t odz 26 output buffer enable/disable ? 1.7 ? 1.7 ? 2.6 ns t slf 27 slew rate adder, fast slew ?0?0?0 ns t sls 28 slew rate adder, slow slew ? 8.5 ? 10 ? 15 ns t slfd 29 programmable delay adder, fast slew ? 0.5 ? 0.7 ? 1 ns t slsd 30 programmable delay adder, slow slew ? 9.5 ? 10.7 ? 16 ns glb/macrocell delay register t mbp 31 macrocell register/latch bypass ?0?0?0 ns t mlat 32 macrocell latch delay ? 1 ? 1.4 ? 2 ns t mco 33 macrocell register/latch clock to output ? 1.8 ?1?1 ns t msu 34 macrocell register/latch setup time 1 ? 1.1 ? 1.7 ? ns t mh 35 macrocell register/latch hold time 2.5 ? 3.9 ? 5.3 ? ns t msuce 36 macrocell register/latch clken setup time 1 ? 1.4 ? 2 ? ns t mhce 37 macrocell register/latch clken hold time 1 ? 1.4 ? 2 ? ns t mrst 38 macrocell register/latch set/reset time ? 1.8 ? 1.4 ? 2 ns t ftog 39 toggle flip-flop feedback ? 1 ? 1.3 ? 2 ns and array t andhs 40 and array, high speed mode ?3?4?6 ns t andlp 41 and array, low power mode ? 5 ? 6.6 ? 10 ns ptsa t 5ptcom 42 5 product term bypass, combinatorial ? 0.7 ? 1.4 ? 2 ns t 5ptreg 43 5 product term bypass, registered ? 1 ? 1.7 ? 2.3 ns t 5ptxcom 44 5 product term xor, combinatorial ? 2.5 ? 3.6 ? 5 ns t 5ptxreg 45 5 product term xor, registered ? 2.3 ? 2.2 ? 3.3 ns t ptsacom 46 product term sharing array, combinatorial ? 3 ? 4.1 ? 6 ns t ptsareg 47 product term sharing array, registered ? 2 ? 2.7 ? 4.3 ns ptsa controls t pck 48 product term clock delay ? 0.5 ? 0.7 ? 1 ns t pcken 49 product term clken delay ? 1 ? 1.4 ? 2 ns t scken 50 shared product term clken delay ? 1 ? 1.4 ? 2 ns t sck 51 shared product term clock delay ? 0.5 ? 0.7 ? 1 ns t ptsacken 52 product term sharing array clken delay ? 2.0 ? 2.4 ? 4 ns t srst 53 shared product term set/reset delay ? 2.5 ? 3.4 ? 5 ns t prst 54 product term set/reset delay ? 1.5 ?2?3 ns t poe 55 product term output enable/disable ? 2.9 ? 3.4 ? 5 ns t gpoe 56 global pt output enable/disable ? 13.1 ? 15.4 ? 17 ns -110 -100 -70 min max min max min max unit param # 2 description 1. internal timing parameters are not tested and are for reference only. timing rev 4.0 refer to timing model in this data sheet for further details.
specifications isplsi 5512va 15 isplsi 5512va timing model pt controls� � register� � dedicated� � input buffers� � output� � buffer� � i/o � � pad � � i/o� � pad� � input� � output � ptsa� � grp� � t� � grpi� � glb/macrocell� � t� � andhs� � t� � goe� � t� � gclk01 t� � grst� � t� � toe� � t� � andlp� � t� � 5ptcom� � t� � 5ptreg� � t� � 5ptxreg� � t� � 5ptxcom� � t� � ptsacom� � t� � ptsareg� � t� � sck� � t� � pck� � t� � ptsacken� � t� � srst� � t� � poe� � t� � gpoe� � t� � idcom � � � � � � � � � � � t� � grpm� � t � � t slew� � input� pad� � t� � prst� � t� � idreg� � buffer delays� � and array� � t� � gclken1� � t� � gclken0� � input� � buffer� � #22 #23 #58 #40 #41 #42 #46 #44 #45 #47 #43 #51 #48 � � � � #31 t mbp #39 t ftog t� � odcom� � #24 t� � slf� � t� � sls� � #27 #28 t� � slsd t� � slfd #30 #29 t� � odreg� � #25 t� � odz� � #26 � � #32 t mlat � � � � � #34 t msu� � � � � #35 t mh� � #33 t mco� � #37 t mhce #36 t msuce� � � #38 t mrst� � #52 #49 #50 #53 #54 #55 #56 #59 t� � gclk23� � #60 #61 #62 #63 #64 #65 #57 pcken scken� � internal timing parameters 1 over recommended operating conditions -110 -100 -70 min max min max min max unit param # 2 description grp t grpi 57 grp delay from i/o pad ? 1.5 ?2?3 ns t grpm 58 grp delay from macrocell ? 1.2 ? 1.2 ? 1.2 ns global control delays t gclk01 59 global clock 0 or 1 delay ? 1.2 ? 1.7 ? 2.4 ns t gclk23 60 global clock 2 or 3 delay ? 2.2 ? 2.7 ? 4.4 ns t gclken0 61 global clken 0 delay ? 1.7 ? 2.4 ? 3.4 ns t gclken1 62 global clken 1 delay ? 2.7 ? 3.4 ? 5.4 ns t grst 63 global set/reset delay ? 14.2 ? 15.8 ? 23.4 ns t goe 64 global oe delay ? 4.8 ? 6.3 ? 9.4 ns t toe 65 test oe delay ? 4.7 ? 6.2 ? 9.4 ns 1. internal timing parameters are not tested and are for reference only. timing rev 4.0 refer to timing model in this data sheet for further details.
specifications isplsi 5512va 16 power consumption setting operates product terms at their normal full power consumption. for portions of the logic that can tolerate longer propagation delays, selecting the slower ?low- power? setting will significantly reduce the power dissipation for these product terms. figure 10 shows the relationship between power and operating speed. power consumption in the isplsi 5512va device de- pends on two primary factors: the speed at which the device is operating and the number of product terms used. the product terms have a fuse-selectable speed/ power tradeoff setting. each group of four product terms has a single speed/power tradeoff control fuse that acts on the complete group of four. the fast ?high-speed? 200 0 20 40 60 80 100 120 f max (mhz) i cc (ma) notes: configuration of 32 16-bit counters� typical current at 3.3v, 25 c isplsi 5512va� high speed mode isplsi 5512va� low power mode 0127/5512va i cc can be estimated for the isplsi 5512va using the following equation:� � high speed mode: icc = 70 + (# of pts * 0.4592) + (# of nets * max. freq * 0.00391)� low power mode: icc = 70 + (# of pts * 0.160) + (# of nets * max. freq * 0.00391)� # of pts = number of product terms used in design� # of nets = number of signals used in device� max. freq = highest clock frequency to the device� � the i cc estimate is based on typical conditions (v cc = 3.3v, room temperature) and an assumption of 2 glb loads � on average exists. these values are for estimates only. since the value of i cc is sensitive to operating conditions � and the program in the device, the actual i cc should be verified. 300 400 500 550 450 350 250 600 700 750 650 800 figure 10. typical device power consumption vs fmax
specifications isplsi 5512va 17 tms input - this pin is the test mode select input, which is used to control the jtag state machine. tck input - this pin is the test clock input pin used to clock through the jtag state machine. tdi input - this pin is the jtag test data in pin used to load data. tdo output - this pin is the jtag test data out pin used to shift data out. toe / i/o0 input/output - this pin functions as either the test output enable pin or an i/o pin based upon customer's design. toe tristates all i/o pins when a logic low is driven. goe0, goe1 input - these two pins are the global output enable input pins. gset/grst dedicated set/reset input - this pin is available to all registers in the device and can independently be configured as preset, reset or no effect on each register. the global polarity (active high or low input) for this pin is also selectable. i/o input/output ? these are the general purpose i/o used by the logic array. gnd ground nc 1 no connect. vcc vcc clk0, clk1 dedicated clock inputs for all registers. both clocks are muxed before being used as the clock input to all registers in the device. clk2 / i/o, input/output - these pins function as either dedicated clock inputs for all registers or an i/o clk3 / i/o pin based upon customer's design. both clocks are muxed before being used as the clock input to all registers in the device. vccio input - this pin is used if an optional 2.5v output is to be used. every i/o can independently select either 3.3v or the optional voltage as its output level. if the optional output voltage is not required, this pin must be connected to the vcc supply. programmable pull-up resistors and bus-hold latches only draw current from this supply. signal descriptions signal name description 1. nc pins are not to be connected to any active signals, vcc or gnd.
specifications isplsi 5512va 18 goe0, goe1 78, 79 toe / i/o0 32 gset/grst 138 tck 29 tdi 30 tdo 136 tms 28 clk0, clk1 184,185 clk2 / i/o89 162 clk3 / i/o98 173 vccio 137 gnd 3, 12, 19, 27, 39, 48, 58, 69, 77, 88, 99, 113, 121, 128, 135, 150, 164, 170, 179, 191, 199 vcc 7, 14, 22, 31, 41, 61, 80, 90, 110, 123, 139, 152, 156, 177, 186, 201 nc 49, 50, 51, 52, 101, 102, 103, 104, 105, 106, 107, 108, 109, 157, 158, 207, 208 208-pin pqfp signal locations signal pin 1. ncs are not to be connected to any active signals, vcc or gnd. 208-pin pqfp i/o locations i/o # pin i/o # pin i/o # pin i/o # pin i/o # pin i/o # pin * i/o 89 is multiplexed with clk2, i/o 98 is multiplexed with clk3 and i/o 0 is multiplexed with toe. 0* 32 133 234 335 436 537 638 740 842 943 10 44 11 45 12 46 13 47 14 53 15 54 16 55 17 56 18 57 19 59 20 60 21 62 22 63 23 64 24 65 25 66 26 67 27 68 28 70 29 71 30 72 31 73 32 74 33 75 34 76 35 81 36 82 37 83 38 84 39 85 40 86 41 87 42 89 43 91 44 92 45 93 46 94 47 95 48 96 49 97 50 98 51 100 52 111 53 112 54 114 55 115 56 116 57 117 58 118 59 119 60 120 61 122 62 124 63 125 64 126 65 127 66 129 67 130 68 131 69 132 70 133 71 134 72 140 73 141 74 142 75 143 76 144 77 145 78 146 79 147 80 148 81 149 82 151 83 153 84 154 85 155 86 159 87 160 88 161 89* 162 90 163 91 165 92 166 93 167 94 168 95 169 96 171 97 172 98* 173 99 174 100 175 101 176 102 178 103 180 104 181 105 182 106 183 107 187 108 188 109 189 110 190 111 192 112 193 113 194 114 195 115 196 116 197 117 198 118 200 119 202 120 203 121 204 122 205 123 206 124 1 125 2 126 4 127 5 128 6 129 8 130 9 131 10 132 11 133 13 134 15 135 16 136 17 137 18 138 20 139 21 140 23 141 24 142 25 143 26
specifications isplsi 5512va 19 goe0, goe1 af14, ad13 toe / i/o0 t1 gset/grst l25 tck t2 tdi r3 tdo n24 tms r1 clk0, clk1 a13, c14 clk2 / i/o179 a23 clk3 / i/o197 b17 vccio m26 gnd a1, a2, a26, b2, b25, b26, c3, c24, d4, d9, d14, d19, d23, h4, j23, l11, l12, l13, l14, l15, l16, m11, m12, m13, m14, m15, m16, n4, n11, n12, n13, n14, n15, n16, p11, p12, p13, p14, p15, p16, p23, r11, r12, r13, r14, r15, r16, t11, t12, t13, t14, t15, t16, v4, w23, ac4, ac8, ac13, ac18, ac23, ad3, ad24, ae1, ae2, ae25, af1, af25, af26 vcc d6, d11, d16, d21, f4, f23, l4, l23, t4, t23, aa4, aa23, ac6, ac11, ac16, ac21 nc 1 c9, d2, e24, l1, ac25, af19 388-ball bga signal locations signal ball 1. ncs are not to be connected to any active signals, vcc or gnd.
specifications isplsi 5512va 20 388-ball bga i/o locations (sorted by i/o) 0* t1 1r4 2u2 3t3 4u1 5u4 6v2 7u3 8v1 9w2 10 w1 11 v3 12 y2 13 w4 14 y1 15 w3 16 aa2 17 y4 18 aa1 19 y3 20 ab2 21 ab1 22 aa3 23 ac2 24 ab4 25 ac1 26 ab3 27 ad2 28 ac3 29 ad1 30 af2 31 ae3 32 af3 33 ae4 34 ad4 35 af4 36 ae5 37 ac5 38 ad5 39 af5 40 ae6 41 ac7 42 ad6 43 af6 44 ae7 45 af7 46 ad7 47 ae8 48 ac9 49 af8 50 ad8 51 ae9 52 af9 53 ae10 54 ad9 55 af10 56 ac10 57 ae11 58 ad10 59 af11 60 ae12 61 af12 62 ad11 63 ae13 64 ac12 65 af13 66 ad12 67 ae14 68 ac14 69 ae15 70 ad14 71 af15 72 ae16 73 ad15 74 af16 75 ac15 76 ae17 77 ad16 78 af17 79 ac17 80 ae18 81 ad17 82 af18 83 ae19 84 ad18 85 ae20 86 ac19 87 af20 88 ad19 89 ae21 90 ac20 91 af21 92 ad20 93 ae22 94 af22 95 ad21 96 ae23 97 ac22 98 af23 99 ad22 100 ae24 101 ad23 102 af24 103 ae26 104 ad25 105 ad26 106 ac24 107 ac26 108 ab25 109 ab23 110 ab24 111 ab26 112 aa25 113 y23 114 aa24 115 aa26 116 y25 117 y26 118 y24 119 w25 120 v23 121 w26 122 w24 123 v25 124 v26 125 u25 126 v24 127 u26 128 u23 129 t25 130 u24 131 t26 132 r25 133 r26 134 t24 135 p25 136 r23 137 p26 138 r24 139 n25 140 n23 141 n26 142 p24 143 m25 144 m24 145 l26 146 m23 147 k25 148 l24 149 k26 150 k23 151 j25 152 k24 153 j26 154 h25 155 h26 156 j24 157 g25 158 h23 159 g26 160 h24 161 f25 162 g23 163 f26 164 g24 165 e25 166 e26 167 f24 168 d25 169 e23 170 d26 171 c25 172 d24 173 c26 174 a25 175 b24 176 a24 177 b23 178 c23 179* a23 180 b22 181 d22 182 c22 183 a22 184 b21 185 d20 186 c21 187 a21 188 b20 189 a20 190 c20 191 b19 192 d18 193 a19 194 c19 195 b18 196 a18 197* b17 198 c18 199 a17 200 d17 201 b16 202 c17 203 a16 204 b15 205 a15 206 c16 207 b14 208 d15 209 a14 210 c15 211 b13 212 d13 213 b12 214 c13 215 a12 216 b11 217 c12 218 a11 219 d12 220 b10 221 c11 222 a10 223 d10 224 b9 225 c10 226 a9 227 b8 228 a8 229 b7 230 d8 231 a7 232 c8 233 b6 234 d7 235 a6 236 c7 237 b5 238 a5 239 c6 240 b4 241 d5 242 a4 243 c5 244 b3 245 c4 246 a3 247 b1 248 c2 249 c1 250 d3 251 d1 252 e2 253 e4 254 e3 255 e1 256 f2 257 g4 258 f3 259 f1 260 g2 261 g1 262 g3 263 h2 264 j4 265 h1 266 h3 267 j2 268 j1 269 k2 270 j3 271 k1 272 k4 273 l2 274 k3 275 m2 276 m1 277 l3 278 n2 279 m4 280 n1 281 m3 282 p2 283 p4 284 p1 285 n3 286 r2 287 p3 i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball * i/o 179 is multiplexed with clk2, i/o 197 is multiplexed with clk3 and i/o 0 is multiplexed with toe.
specifications isplsi 5512va 21 388-ball bga i/o locations (sorted by ball) 246 a03 242 a04 238 a05 235 a06 231 a07 228 a08 226 a09 222 a10 218 a11 215 a12 209 a14 205 a15 203 a16 199 a17 196 a18 193 a19 189 a20 187 a21 183 a22 179* a23 176 a24 174 a25 247 b01 244 b03 240 b04 237 b05 233 b06 229 b07 227 b08 224 b09 220 b10 216 b11 213 b12 211 b13 207 b14 204 b15 201 b16 197* b17 195 b18 191 b19 188 b20 184 b21 180 b22 177 b23 175 b24 249 c01 248 c02 245 c04 243 c05 239 c06 236 c07 232 c08 225 c10 221 c11 217 c12 214 c13 210 c15 206 c16 202 c17 198 c18 194 c19 190 c20 186 c21 182 c22 178 c23 171 c25 173 c26 251 d01 250 d03 241 d05 234 d07 230 d08 223 d10 219 d12 212 d13 208 d15 200 d17 192 d18 185 d20 181 d22 172 d24 168 d25 170 d26 255 e01 252 e02 254 e03 253 e04 169 e23 165 e25 166 e26 259 f01 256 f02 258 f03 167 f24 161 f25 163 f26 261 g01 260 g02 262 g03 257 g04 162 g23 164 g24 157 g25 159 g26 265 h01 263 h02 266 h03 158 h23 160 h24 154 h25 155 h26 268 j01 267 j02 270 j03 264 j04 156 j24 151 j25 153 j26 271 k01 269 k02 274 k03 272 k04 150 k23 152 k24 147 k25 149 k26 273 l02 277 l03 148 l24 145 l26 276 m01 275 m02 281 m03 279 m04 146 m23 144 m24 143 m25 280 n01 278 n02 285 n03 140 n23 139 n25 141 n26 284 p01 282 p02 287 p03 283 p04 142 p24 135 p25 137 p26 286 r02 1 r04 136 r23 138 r24 132 r25 133 r26 0* t01 3 t03 134 t24 129 t25 131 t26 4 u01 2 u02 7 u03 5 u04 128 u23 130 u24 125 u25 127 u26 8 v01 6 v02 11 v03 120 v23 126 v24 123 v25 124 v26 10 w01 9 w02 15 w03 13 w04 122 w24 119 w25 121 w26 14 y01 12 y02 19 y03 17 y04 113 y23 118 y24 116 y25 117 y26 18 aa01 i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball * i/o 179 is multiplexed with clk2, i/o 197 is multiplexed with clk3 and i/o 0 is multiplexed with toe. 16 aa02 22 aa03 114 aa24 112 aa25 115 aa26 21 ab01 20 ab02 26 ab03 24 ab04 109 ab23 110 ab24 108 ab25 111 ab26 25 ac01 23 ac02 28 ac03 37 ac05 41 ac07 48 ac09 56 ac10 64 ac12 68 ac14 75 ac15 79 ac17 86 ac19 90 ac20 97 ac22 106 ac24 107 ac26 29 ad01 27 ad02 34 ad04 38 ad05 42 ad06 46 ad07 50 ad08 54 ad09 58 ad10 62 ad11 66 ad12 70 ad14 73 ad15 77 ad16 81 ad17 84 ad18 88 ad19 92 ad20 95 ad21 99 ad22 101 ad23 104 ad25 105 ad26 31 ae03 33 ae04 36 ae05 40 ae06 44 ae07 47 ae08 51 ae09 53 ae10 57 ae11 60 ae12 63 ae13 67 ae14 69 ae15 72 ae16 76 ae17 80 ae18 83 ae19 85 ae20 89 ae21 93 ae22 96 ae23 100 ae24 103 ae26 30 af02 32 af03 35 af04 39 af05 43 af06 45 af07 49 af08 52 af09 55 af10 59 af11 61 af12 65 af13 71 af15 74 af16 78 af17 82 af18 87 af20 91 af21 94 af22 98 af23 102 af24
specifications isplsi 5512va 22 goe0, goe1 v11, u11 toe / i/o 0 m2 gset/grst j18 tck l4 tdi m1 tdo j20 tms l3 clk0, clk1 c10, d10 clk2 / i/o 119 a18 clk3 / i/o 131 b13 vccio j19 gnd a1, d4, d8, d13, d17, h4, h17, j9, j10, j11, j12, k9, k10, k11, k12, l9, l10, l11, l12, m9, m10, m11, m12, n4, n17, u4, u8, u13, u17 vcc d6, d11, d15, f4, f17, k4, l17, r4, r17, u6, u10, u15 nc 1 a17, b3, b18, b19, b20, c3, c5, c18, c19, d3, d19, e2, p19, r3, t4, t17, t20, u1, u2, u3, w1, w2, w4, w17, w19, w20, y2, y12, y20 signal locations (272-ball bga) signal ball 1. ncs are not to be connected to any active signals, vcc or gnd.
specifications isplsi 5512va 23 272-ball bga i/o locations (sorted by i/o) * i/o 119 is multiplexed with clk2, i/o 131 is multiplexed with clk3 and i/o 0 is multiplexed with toe. 0* m2 1m3 2m4 3n1 4n2 5n3 6p1 7p2 8r1 9p3 10 r2 11 t1 12 p4 13 t2 14 t3 15 v1 16 v2 17 v3 18 y1 19 w3 20 v4 21 u5 22 y3 23 y4 24 v5 25 w5 26 y5 27 v6 28 u7 29 w6 30 y6 31 v7 32 w7 33 y7 34 v8 35 w8 36 y8 37 u9 38 v9 39 w9 40 y9 41 w10 42 v10 43 y10 44 y11 45 w11 46 w12 47 v12 48 u12 49 y13 50 w13 51 v13 52 y14 53 w14 54 y15 55 v14 56 w15 57 y16 58 u14 59 v15 60 w16 61 y17 62 v16 63 y18 64 u16 65 v17 66 w18 67 y19 68 v18 69 v19 70 u19 71 u18 72 v20 73 u20 74 t18 75 t19 76 r18 77 p17 78 r19 79 r20 80 p18 81 p20 82 n18 83 n19 84 n20 85 m17 86 m18 87 m19 88 m20 89 l19 90 l18 91 l20 92 k20 93 k19 94 k18 95 k17 96 j17 97 h20 98 h19 99 h18 100 g20 101 g19 102 f20 103 g18 104 f19 105 e20 106 g17 107 f18 108 e19 109 d20 110 e18 111 c20 112 e17 113 d18 114 a20 115 a19 116 b17 117 c17 118 d16 119* a18 120 c16 121 b16 122 a16 123 c15 124 d14 125 b15 126 a15 127 c14 i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball 128 b14 129 a14 130 c13 131* b13 132 a13 133 d12 134 c12 135 b12 136 a12 137 b11 138 c11 139 a11 140 a10 141 b10 142 a9 143 b9 144 c9 145 d9 146 a8 147 b8 148 c8 149 a7 150 b7 151 a6 152 c7 153 b6 154 a5 155 d7 156 c6 157 b5 158 a4 159 b4 160 a3 161 d5 162 c4 163 b2 164 a2 165 b1 166 c2 167 d2 168 e4 169 c1 170 d1 171 e3 172 e1 173 f3 174 g4 175 f2 176 f1 177 g3 178 g2 179 g1 180 h3 181 h2 182 h1 183 j4 184 j3 185 j2 186 j1 187 k2 188 k3 189 k1 190 l1 191 l2
specifications isplsi 5512va 24 272-ball bga i/o locations (sorted by ball) * i/o 119 is multiplexed with clk2, i/o 131 is multiplexed with clk3 and i/o 0 is multiplexed with toe. i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball i/o # ball 164 a2 160 a3 158 a4 154 a5 151 a6 149 a7 146 a8 142 a9 140 a10 139 a11 136 a12 132 a13 129 a14 126 a15 122 a16 119* a18 115 a19 114 a20 165 b1 163 b2 159 b4 157 b5 153 b6 150 b7 147 b8 143 b9 141 b10 137 b11 135 b12 131* b13 128 b14 125 b15 121 b16 116 b17 169 c1 166 c2 162 c4 156 c6 152 c7 148 c8 144 c9 138 c11 134 c12 130 c13 127 c14 123 c15 120 c16 117 c17 111 c20 170 d1 167 d2 161 d5 155 d7 145 d9 133 d12 124 d14 118 d16 113 d18 109 d20 172 e1 171 e3 168 e4 112 e17 110 e18 108 e19 105 e20 176 f1 175 f2 173 f3 107 f18 104 f19 102 f20 179 g1 178 g2 177 g3 174 g4 106 g17 103 g18 101 g19 100 g20 182 h1 181 h2 180 h3 99 h18 98 h19 97 h20 186 j1 185 j2 184 j3 183 j4 96 j17 189 k1 187 k2 188 k3 95 k17 94 k18 93 k19 92 k20 190 l1 191 l2 90 l18 89 l19 91 l20 0* m2 1m3 2m4 85 m17 86 m18 87 m19 88 m20 3n1 4n2 5n3 82 n18 83 n19 84 n20 6p1 7p2 9p3 12 p4 77 p17 80 p18 81 p20 8r1 10 r2 76 r18 78 r19 79 r20 11 t1 13 t2 14 t3 74 t18 75 t19 21 u5 28 u7 37 u9 48 u12 58 u14 64 u16 71 u18 70 u19 73 u20 15 v1 16 v2 17 v3 20 v4 24 v5 27 v6 31 v7 34 v8 38 v9 42 v10 47 v12 51 v13 55 v14 59 v15 62 v16 65 v17 68 v18 69 v19 72 v20 19 w3 25 w5 29 w6 32 w7 35 w8 39 w9 41 w10 45 w11 46 w12 50 w13 53 w14 56 w15 60 w16 66 w18 18 y1 22 y3 23 y4 26 y5 30 y6 33 y7 36 y8 40 y9 43 y10 44 y11 49 y13 52 y14 54 y15 57 y16 61 y17 63 y18 67 y19
specifications isplsi 5512va 25 signal configuration isplsi 5512va 272-ball bga 20 19 18 17 16 15 14 13 12 11 10 987654321 a a b b c c d gnd nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 gnd gnd gnd gnd vcc vcc vcc goe1 goe0 nc 1 nc 1 nc 1 nc 1 nc 1 vcc vcc nc 1 nc 1 nc 1 gnd gnd gnd gnd gnd gnd gnd gnd clk1 vcc vcc vcc tms tck tdi vcc vcc vcc clk0 nc 1 nc 1 nc 1 nc 1 nc 1 nc 1 gnd tdo vccio gnd gnd gnd gnd gnd gnd gnd gnd vcc gnd gnd gnd gnd gnd gnd gnd d e e f isplsi 5512va f g bottom view g h h j j k k l l m m n n p p r r t t u u v v w w y y 20 19 18 17 16 15 14 13 12 11 10 987654321 1. ncs are not to be connected to any active signals, vcc or gnd. note: ball a1 indicator dot on top side of package. i/o 164 i/o 165 i/o 169 i/o 170 i/o 166 i/o 162 i/o 172 i/o 176 i/o 179 i/o 178 i/o 190 i/o 191 i/o 90 i/o 89 i/o 91 i/o 187 i/o 188 i/o 94 i/o 95 i/o 93 i/o 92 i/o 185 i/o 186 i/o 189 i/o 184 i/o 183 i/o 96 set/ rst i/o 181 i/o 182 i/o 180 i/o 98 i/o 99 i/o 97 i/o 177 i/o 174 i/o 106 i/o 103 i/o 101 i/o 100 i/o 175 i/o 173 i/o 171 i/o 168 i/o 104 i/o 107 i/o 102 i/o 108 i/o 110 i/o 112 i/o 105 i/o 167 i/o 155 i/o 145 i/o 133 i/o 124 i/o 118 i/o 113 i/o 109 i/o 161 i/o 156 i/o 152 i/o 148 i/o 144 i/o 138 i/o 134 i/o 130 i/o 127 i/o 123 i/o 120 i/o 117 i/o 111 i/o 163 i/o 159 i/o 157 i/o 153 i/o 150 i/o 147 i/o 143 i/o 141 i/o 137 i/o 135 i/o 128 i/o 125 i/o 121 i/o 116 i/o 160 i/o 158 i/o 154 i/o 151 i/o 149 i/o 146 i/o 142 i/o 140 i/o 139 i/o 136 i/o 132 i/o 129 i/o 126 i/o 122 i/o 115 i/o 114 clk2/ i/o 119 clk3/ i/o 131 toe i/o 0 i/o 1 i/o 2 i/o 6 i/o 7 i/o 3 i/o 8 i/o 10 i/o 11 i/o 16 i/o 15 i/o 22 i/o 23 i/o 18 i/o 26 i/o 30 i/o 33 i/o 36 i/o 40 i/o 43 i/o 44 i/o 49 i/o 52 i/o 54 i/o 57 i/o 61 i/o 63 i/o 67 i/o 25 i/o 19 i/o 29 i/o 32 i/o 35 i/o 39 i/o 41 i/o 45 i/o 46 i/o 50 i/o 53 i/o 56 i/o 60 i/o 66 i/o 17 i/o 20 i/o 24 i/o 27 i/o 31 i/o 34 i/o 38 i/o 42 i/o 47 i/o 51 i/o 55 i/o 59 i/o 62 i/o 65 i/o 68 i/o 69 i/o 72 i/o 13 i/o 14 i/o 21 i/o 37 i/o 48 i/o 58 i/o 70 i/o 73 i/o 64 i/o 71 i/o 28 i/o 74 i/o 75 i/o 76 i/o 78 i/o 79 i/o 9 i/o 12 i/o 77 i/o 80 i/o 81 i/o 4 i/o 5 i/o 82 i/o 84 i/o 83 i/o 85 i/o 86 i/o 88 i/o 87 272 bga/5512va
specifications isplsi 5512va 26 signal configuration isplsi 5512va 388-ball bga 1 a b c d e f g h j k l m n p r t u v w y aa ab ac ad ae af a b c d e f g h j k l m n p r t u v w y aa ab ac ad ae af 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 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 i/o 238 i/o 235 i/o 231 i/o 228 i/o 226 i/o 222 i/o 218 i/o 215 i/o 209 i/o 205 i/o 203 i/o 199 i/o 196 i/o 193 i/o 189 i/o 187 i/o 183 i/o 176 i/o 174 i/o 179/ clk2 i/o197/ clk3 i/o 242 i/o 246 i/o 247 i/o 244 i/o 237 i/o 233 i/o 229 i/o 227 i/o 224 i/o 220 i/o 216 i/o 213 i/o 211 i/o 207 i/o 204 i/o 201 i/o 195 i/o 191 i/o 188 i/o 184 i/o 180 i/o 177 i/o 175 i/o 173 i/o 171 i/o 178 i/o 182 i/o 186 i/o 190 i/o 194 i/o 198 i/o 202 i/o 206 i/o 210 i/o 214 i/o 217 i/o 221 i/o 225 i/o 232 i/o 236 i/o 239 i/o 243 i/o 253 i/o 254 i/o 252 i/o 255 i/o 264 i/o 270 i/o 267 i/o 268 i/o 272 i/o 274 i/o 269 i/o 271 i/o 279 i/o 281 i/o 275 i/o 276 i/o 283 i/o 287 i/o 282 i/o 284 i/o 13 i/o 15 i/o 9 i/o 10 i/o 17 i/o 19 i/o 12 i/o 14 i/o 24 i/o 26 i/o 20 i/o 21 i/o 5 i/o 7 i/o 2 i/o 4 i/o 1 i/o 286 i/o 257 i/o 262 i/o 260 i/o 261 i/o 258 i/o 256 i/o 259 i/o 245 i/o 248 i/o 249 i/o 251 i/o 250 i/o 240 clk0 clk1 gnd gnd gnd gnd gnd vcc i/o 266 i/o 263 i/o 265 gnd i/o 285 i/o 278 i/o 280 gnd i/o 11 i/o 6 i/o 8 gnd i/o 22 i/o 16 i/o 18 vcc i/o 3 i/o 0/ toe vcc tck tdi tms i/o 277 i/o 273 vcc i/o 241 i/o 234 i/o 230 i/o 223 i/o 219 i/o 212 vcc gnd vcc i/o 208 gnd i/o 200 i/o 192 gnd vcc i/o 185 i/o 181 i/o 172 i/o 168 i/o 170 i/o 165 i/o 169 i/o 166 vcc gnd gnd gnd gnd gnd i/o 167 i/o 161 i/o 163 i/o 164 i/o 162 i/o 157 i/o 159 i/o 160 i/o 158 i/o 154 i/o 155 i/o 152 i/o 150 i/o 147 i/o 144 i/o 146 i/o 143 i/o 149 i/o 130 i/o 128 i/o 125 i/o 127 i/o 126 i/o 120 i/o 123 i/o 124 i/o 118 i/o 113 i/o 116 i/o 117 i/o 110 i/o 109 i/o 108 i/o 111 i/o 107 i/o 106 i/o 97 i/o 90 i/o 86 i/o 79 i/o 138 i/o 136 i/o 132 i/o 133 i/o 140 i/o 139 i/o 141 vcc i/o 148 set/ rst i/o 145 vcc i/o 134 i/o 129 i/o 131 vcc i/o 114 i/o 112 i/o 115 vcc i/o 122 i/o 119 i/o 121 gnd gnd vcc vcc i/o 64 vcc gnd i/o 75 i/o 68 gnd i/o 56 i/o 41 vcc i/o 37 i/o 28 i/o 23 i/o 25 i/o 27 i/o 34 i/o 38 i/o 42 i/o 46 i/o 50 i/o 54 i/o 58 i/o 62 i/o 66 i/o 70 i/o 73 i/o 77 i/o 81 i/o 84 i/o 88 i/o 92 i/o 95 i/o 99 i/o 101 i/o 104 i/o 105 i/o 103 i/o 100 i/o 96 i/o 93 i/o 89 i/o 85 i/o 83 i/o 80 i/o 76 i/o 72 i/o 69 i/o 67 i/o 63 i/o 60 i/o 57 i/o 53 i/o 51 i/o 47 i/o 44 i/o 40 i/o 36 i/o 33 i/o 31 i/o 30 i/o 32 i/o 35 i/o 39 i/o 43 i/o 45 i/o 49 i/o 52 i/o 55 i/o 59 i/o 61 i/o 65 i/o 71 i/o 74 i/o 78 i/o 82 i/o 87 i/o 91 i/o 94 i/o 98 i/o 102 i/o 29 i/o 48 gnd gnd gnd goe1 gnd gnd gnd gnd gnd gnd gnd goe0 i/o 142 i/o 135 i/o 137 gnd tdo vccio i/o 156 i/o 151 i/o 153 gnd nc 1 nc 1 nc 1 gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd gnd nc 1 nc 1 nc 1 isplsi 5512va bottom view 388 bga/5512va 1. nc pins are not to be connected to any active signals, vcc or gnd. note: ball a1 indicator dot on top side of package.
specifications isplsi 5512va 27 isplsi 5512va� top view 208-pqfp/5512va 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 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� 105 208� 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 1. nc pins are not to be connected to any active signal, vcc or gnd.� 2. pins have dual function capability. i/o 14� i/o 15� i/o 16� i/o 17� i/o 18� gnd� i/o 19� i/o 20� vcc� i/o 21� i/o 22� i/o 23� i/o 24� i/o 25� i/o 26� i/o 27� gnd� i/o 28� i/o 29� i/o 30� i/o 31� i/o 32� i/o 33� i/o 34� gnd� goe0� goe1� vcc� i/o 35� i/o 36� i/o 37� i/o 38� i/o 39� i/o 40� i/o 41� gnd� i/o 42� vcc� i/o 43� i/o 44� i/o 45� i/o 46� i/o 47� i/o 48� i/o 49� i/o 50� gnd� i/o 51� 1 nc� 1 nc� 1 nc� 1 nc nc 1 � nc 1 � i/o 123� i/o 122� i/o 121� i/o 120� i/o 119� vcc� i/o 118� gnd� i/o 117� i/o 116� i/o 115� i/o 114� i/o 113� i/o 112� i/o 111� gnd� i/o 110� i/o 109� i/o 108� i/o 107� vcc� clk1� clk0� i/o 106� i/o 105� i/o 104� i/o 103� gnd� i/o 102� vcc� i/o 101� i/o 100� i/o 99� i/o 98 / clk3 2 i/o 97� i/o 96� gnd� i/o 95� i/o 94� i/o 93� i/o 92� i/o 91� gnd� i/o 90� i/o 89 / clk2 2 i/o 88� i/o 87� i/o 86� nc 1 � nc 1 vcc� i/o 85� i/o 84� i/o 83� vcc� i/o 82� gnd� i/o 81� i/o 80� i/o 79� i/o 78� i/o 77� i/o 76� i/o 75� i/o 74� i/o 73� i/o 72� vcc� gset/grst � vccio� tdo� gnd� i/o 71� i/o 70� i/o 69� i/o 68� i/o 67� i/o 66� gnd� i/o 65� i/o 64� i/o 63� i/o 62� vcc� i/o 61� gnd� i/o 60� i/o 59� i/o 58� i/o 57� i/o 56� i/o 55� i/o 54� gnd� i/o 53� i/o 52� vcc� nc 1 � nc 1 � nc 1 � nc 1 � nc 1 i/o 124� i/o 125� gnd� i/o 126� i/o 127� i/o 128� vcc� i/o 129� i/o 130� i/o 131� i/o 132� gnd� i/o 133� vcc� i/o 134� i/o 135� i/o 136� i/o 137� gnd� i/o 138� i/o 139� vcc� i/o 140� i/o 141� i/o 142� i/o 143� gnd� tms� tck� tdi� vcc� 2 i/o 0 / toe� i/o 1� i/o 2� i/o 3� i/o 4� i/o 5� i/o 6� gnd� i/o 7� vcc� i/o 8� i/o 9� i/o 10� i/o 11� i/o 12� i/o 13� gnd� 1 nc � 1 nc� 1 nc� 1 nc pin configuration isplsi 5512va 208-pin pqfp (with heat spreader)
specifications isplsi 5512va 28 part number description ordering information commercial device number grade blank = commercial i = industrial isplsi 5512va xxx x xxxx speed 110 = 110 mhz f max 100 = 100 mhz f max 70 = 70 mhz f max power l = low package b388 = 388-ball bga (thermally enhanced) b272 = 272-ball bga (thermally enhanced) q208 = 208-pin pqfp (with heat spreader) ? device family x 0212/5512va y l i m a ff x a m t d p r e b m u n g n i r e d r oe g a k c a p i s l p s i 0 1 15 . 82 7 2 b l 0 1 1 - a v 2 1 5 5 i s l p s ia g b l l a b - 2 7 2 0 1 15 . 88 8 3 b l 0 1 1 - a v 2 1 5 5 i s l p s ia g b l l a b - 8 8 3 0 1 15 . 88 0 2 q l 0 1 1 - a v 2 1 5 5 i s l p s ip f q p n i p - 8 0 2 0 0 10 12 7 2 b l 0 0 1 - a v 2 1 5 5 i s l p s ia g b l l a b - 2 7 2 0 0 10 18 8 3 b l 0 0 1 - a v 2 1 5 5 i s l p s ia g b l l a b - 8 8 3 0 0 10 18 0 2 q l 0 0 1 - a v 2 1 5 5 i s l p s ip f q p n i p - 8 0 2 0 75 12 7 2 b l 0 7 - a v 2 1 5 5 i s l p s ia g b l l a b - 2 7 2 0 75 18 8 3 b l 0 7 - a v 2 1 5 5 i s l p s ia g b l l a b - 8 8 3 0 75 18 0 2 q l 0 7 - a v 2 1 5 5 i s l p s ip f q p n i p - 8 0 2 industrial y l i m a ff x a m t d p r e b m u n g n i r e d r oe g a k c a p i s l p s i 0 75 1i 8 8 3 b l 0 7 - a v 2 1 5 5 i s l p s ia g b l l a b - 8 8 3
|
