ht6116-70 cmos 2k 8-bit sram pin assignment block diagram general description the ht6116-70 is a 16384-bit static random access memory. it is organized with 2048 words of 8 bits in length, and operates with a single 5v power supply. the ic is built with a high per- formance cmos 0.8 m m process in order to ob- tain a low standby current and high reliability. the ic contains six-transistor full cmos mem- ory cells and ttl compatible inputs and out- puts, which are easily interface with common system bus structures. the data bus of the ht6116-70 is designed as a tri-state type. the ic is in the standby mode if the cs pin is set to high. features single 5v power supply low power consumption C operating: 400mw (typ.) C standby: 5 m w (typ.) 70ns (max.) high speed access time power down by pin cs ttl compatible interface levels fully static operation memory expansion by pin oe common i/o using tri-state outputs pin-compatible with standard 2k 8 bits of eprom/mask rom 24-pin dip/sdip/sop package 1 3rd july 97
pin description pin no. pin name i/o description 8~1, 23, 22, 19 a0~a7 a8, a9, a10 i address inputs 9~11 13~17 d0~d2 d3~d7 i/o data inputs and outputs 12 vss i negative power supply, usually connected to the ground 18 cs i chip select signal pin when this signal is high, the chip is in the standby mode. the chip is in the active mode, if cs is low. 20 oe i output enable signal pin 21 we i write enable signal pin 24 vdd i positive power supply absolute maximum ratings* supply voltage ............................C0.3v to +7.0v storage temperature...............C50 c to +125 c input voltage................. v ss C0.3v to v dd +0.3v operating temperature.............C40 c to +85 c *note: stresses above those listed under absolute maximum ratings may cause permanent damage to the device. these are stress ratings only. functional operation of this device at these or any other conditions above those indicated in the operational sections of this specification is not implied and exposure to absolute maximum rating conditions for extended periods may affect device reliability. d.c. characteristics (ta=25c) symbol parameter test conditions min. typ. max. unit v dd conditions v dd operating voltage 4.5 5.0 5.5 v i li input leakage current 5v v in =0 to v dd 0.110 m a i lo output leakage current 5v v o =0 to v dd 0.110 m a i dd operating current 5v v ih =2.2v, v il =0.8v in write mode, t wc =1 m s. 4590ma 5v v ih =2.2v, v il =0.8v in read mode, t rc =1 m s. 8090ma i stb standby current 5v v ih =2.2v, v il =0.8v (ttl input) 0.8 1.5 ma 5v v ih =4.8v, v il =0.2v (cmos input) 0.1 3 m a ht6116-70 2 3rd july 97
symbol parameter test conditions min. typ. max. unit v dd conditions v ih input voltage 5v 2.2 2 5.3 v v il 5v C0.3 0.2 0.8 v i oh output source current 5v v oh =4.5v C1.2 C6.2 ma i ol output sink current 5v v ol =0.5v 4.8 14.5 ma a.c. test conditions item condition input pulse high level v ih =3v input pulse low level v il =0v input and output reference level 1.5v output load see figures below ht6116-70 3 3rd july 97
a.c. characteristics read cycle (v dd =5v 10%, gnd=0v, ta=C40 c to +85 c) symbol parameter min. typ. max. unit t rc read cycle time 70 36 ns t aa address access time 35 70 ns t acs chip select access time 35 70 ns t oe output enable to output valid 12 40 ns t oh output hold from address change 10 12 ns t clz chip enable to output in low-z 10 ns t olz output enable to output in low-z 10 ns t ohz output disable to output in highCz 0 30 ns t chz chip disable to output in high-z 0 30 ns note: 1. a read occurs during the overlap of a low cs and a high we 2. t chz and t ohz are specified by the time when data out is floating write cycle (v dd =5v 10%, gnd=0v, ta=C40 c to +85 c) symbol parameter min. typ. max. unit t wc write cycle time 70 36 ns t dw data set up time 20 18 ns t dh data hold time from write time 5 0 ns t aw address valid to end of write 50 15 ns t as address setup time 20 14 ns t wp write pulse width 25 0 ns t wr write recovery time 5 ns t cw chip selection to end of write 35 ns t ow output active from end of write 5 ns t ohz output disable to output in high-z 0 40 ns t whz write to output in high-z 0 50 ns note: 1. a write cycle occurs during the overlap of a low cs and a low we 2. oe may be both high and low in a write cycle 3. t as is specified from cs or we, whichever occurs last 4. t wp is an overlap time of a low cs and a low we 5. t wr , t dw and t dh is specified from cs or we, whichever occurs first 6. t whz is specified by the time when data out is floating, not defined by output level 7. when i/o pins are data output mode, dont force inverse signals to those pins ht6116-70 4 3rd july 97
timing diagrams read cycle (1) functional description the ht6116-70 is a 2k 8 bit sram. when the cs pin of the chip is set to low, data can be written in or read from eight data pins; other- wise, the chip is in the standby mode. during a write cycle, the data pins are defined as the input state by setting the we pin to low. data should be ready before the rising edge of the we pin according to the timing of the writing cycle. while in the read cycle, the we pin is set to high and the oe pin is set to low to define the data pins as the output state. all data pins are de- fined as a three-state type, controlled by the oe pin. in both cycles (namely, write and read cy- cles), the locations are defined by the address pins a0~a10. the following table illustrates the relations of we, oe, cs and their correspond- ing mode. cs oe we mode d0~d7 h x x standby highCz ll hreaddout l h h read highCz l x l write din where x stands for dont care. h stands for high level l stands for low level. ht6116-70 5 3rd july 97
read cycle (1, 2, 4) read cycle (1, 3, 4) notes: (1) we is high during the read cycle (2) device is continuously enabled, cs=v il (3) address is valid prior to or coincident with the cs transition low. (4) oe=v il (5) transition is measured 500mv from the steady state. ht6116-70 6 3rd july 97
write cycle 1 (1) write cycle 2 (1, 6) notes: (1) we must be high during all address transitions. (2) a write occurs during the overlap (t wp ) of a low cs and a low we. (3) t wr is measured from the earlier of cs or we going high to the end of the write cycle. (4) during this period, i/o pins are in the output state, so the input signals of the opposite phase to the outputs must not be applied. (5) if the cs low transition occurs simultaneously with the we low transitions or after the we transition, outputs remain in a high impedance state. ht6116-70 7 3rd july 97
(6) oe is continuously low ( oe=v il ). (7) d out is at the same phase of the write data of this write cycle. (8) d out is the read data of the next address. (9) if cs is low during this period, i/o pins are in the output state; then the data input signals of the opposite phase to the outputs must not be applied to them. (10) transition is measured 500mv from the steady state. data rentention characteristics (ta=C40 c to +85 c) symbol parameter conditions min. max. unit v dr v dd for data retention cs 3 v dd -0.2v 25.5v i ccdr data retention current v dd =3v, cs 3 v dd -0.2v v in 3 v dd -0.2v or v in 0.2v 50 m a t cdr chip disable data retention time see retention timing 0 ns t r operation recovery time see retention timing t rc * ns *t rc =read cycle time low v dd data retention timing ht6116-70 8 3rd july 97
characteristic curves ht6116-70 9 3rd july 97
ht6116-70 10 3rd july 97
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