industrial temperature range IDT74ALVCH162820 3.3v cmos 10-bit flip-flop with dual outputs 1 january 2004 industrial temperature range the idt logo is a registered trademark of integrated device technology, inc. ? 2004 integrated device technology, inc. dsc-4497/2 features: ? 0.5 micron cmos technology ? typical t sk(o) (output skew) < 250ps ? esd > 2000v per mil-std-883, method 3015; > 200v using machine model (c = 200pf, r = 0) ?v cc = 3.3v 0.3v, normal range ?v cc = 2.7v to 3.6v, extended range ?v cc = 2.5v 0.2v ? cmos power levels (0.4 w typ. static) ? rail-to-rail output swing for increased noise margin ? available in tssop package functional block diagram drive features: ? balanced output drivers: 12ma ? low switching noise IDT74ALVCH162820 3.3v cmos 10-bit flip- flop with dual outputs c 1 d 1 to nine other channels 1 oe 1 56 28 3 1 q 2 2 oe clk d 1 55 1 q 1 2 description: this 10-bit flip-flop is built using advanced dual metal cmos technology. the alvch162820 is an edge-triggered d-type flip-flop. on the positive transition of the clock (clk) input, the device provides true data at the q outputs. a buffered output-enable ( oe ) input can be used to place the ten outputs in either a normal logic state (high or low logic level) or a high-impedance state. in the high impedance state, the outputs neither load nor drive the bus lines significantly. the high-impedance state and increased drive provide the capability to drive bus lines without the need for interface or pullup components. oe input does not affect the internal operation of the flip-flops. old data can be retained or new data can be entered while the outputs are in the high-impedance state. the alvch162820 has series resistors in the device output structure which will significantly reduce line noise when used with light loads. this driver has been designed to drive 12ma at the designated threshold levels. the alvch162820 has ?bus-hold? which retains the inputs? last state whenever the input goes to a high impedance. this prevents floating inputs and eliminates the need for pull-up/down resistors. applications: ? sdram modules ? pc motherboards ? workstations
industrial temperature range 2 IDT74ALVCH162820 3.3v cmos 10-bit flip-flop with dual outputs tssop top view pin configuration function table (each flip-flop) (1) pin names description dx data inputs (1) clk clock input x q x 3-state outputs xoe 3-state output enable inputs pin description note: 1. as applicable to the device type. symbol parameter (1) conditions typ. max. unit c in input capacitance v in = 0v 5 7 pf c out output capacitance v out = 0v 7 9 pf c out i/o port capacitance v in = 0v 7 9 pf capacitance (t a = +25c, f = 1.0mhz) symbol description max unit v term (2) terminal voltage with respect to gnd ?0.5 to +4.6 v v term (3) terminal voltage with respect to gnd ?0.5 to v cc +0.5 v t stg storage temperature ?65 to +150 c i out dc output current ?50 to +50 ma i ik continuous clamp current, 50 ma v i < 0 or v i > v cc i ok continuous clamp current, v o < 0 ?50 ma i cc continuous current through each 100 ma i ss v cc or gnd absolute maximum ratings (1) notes: 1. stresses greater than those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect reliability. 2. v cc terminals. 3. all terminals except v cc . 1 oe 1 q 1 gnd 1 q 2 v cc 3 q 1 3 q 2 gnd 4 q 1 4 q 2 5 q 1 5 q 2 2 q 2 6 q 1 gnd 6 q 2 7 q 1 7 q 2 v cc 8 q 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 48 49 50 51 52 53 54 55 56 1 clk d 1 gnd v cc gnd gnd 10 q 1 gnd 9 q 1 2 oe 25 26 27 28 32 31 30 29 gnd 9 q 2 2 q 1 8 q 2 v cc nc 10 q 2 nc nc d 3 d 2 d 4 nc nc nc d 5 d 6 nc nc d 7 d 8 nc nc d 9 d 10 nc notes: 1. h = high voltage level l = low voltage level x = don?t care z = high impedance = low-to-high transition 2. output level before the indicated steady-state input conditions were established. inputs output xoe clk dx xqx l hh l ll l h or l x q 0 (2) hxx z note: 1. these pins have "bus-hold". all other pins are standard inputs, outputs, or i/os.
industrial temperature range IDT74ALVCH162820 3.3v cmos 10-bit flip-flop with dual outputs 3 symbol parameter test conditions min. typ. (1) max. unit v ih input high voltage level v cc = 2.3v to 2.7v 1.7 ? ? v v cc = 2.7v to 3.6v 2 ? ? v il input low voltage level v cc = 2.3v to 2.7v ? ? 0.7 v v cc = 2.7v to 3.6v ? ? 0.8 i ih input high current v cc = 3.6v v i = v cc ?? 5a i il input low current v cc = 3.6v v i = gnd ? ? 5a i ozh high impedance output current v cc = 3.6v v o = v cc ?? 10 a i ozl (3-state output pins) v o = gnd ? ? 10 v ik clamp diode voltage v cc = 2.3v, i in = ?18ma ? ?0.7 ?1.2 v v h input hysteresis v cc = 3.3v ? 100 ? mv i ccl quiescent power supply current v cc = 3.6v ? 0.1 40 a i cch v in = gnd or v cc i ccz ? i cc quiescent power supply current one input at v cc - 0.6v, other inputs at v cc or gnd ? ? 750 a variation dc electrical characteristics over operating range following conditions apply unless otherwise specified: operating condition: t a = ?40c to +85c note: 1. typical values are at v cc = 3.3v, +25c ambient. bus-hold characteristics symbol parameter (1) test conditions min. typ. (2) max. unit i bhh bus-hold input sustain current v cc = 3v v i = 2v ? 75 ? ? a i bhl v i = 0.8v 75 ? ? i bhh bus-hold input sustain current v cc = 2.3v v i = 1.7v ? 45 ? ? a i bhl v i = 0.7v 45 ? ? i bhho bus-hold input overdrive current v cc = 3.6v v i = 0 to 3.6v ? ? 500 a i bhlo notes: 1. pins with bus-hold are identified in the pin description. 2. typical values are at v cc = 3.3v, +25c ambient.
industrial temperature range 4 IDT74ALVCH162820 3.3v cmos 10-bit flip-flop with dual outputs note: 1. v ih and v il must be within the min. or max. range shown in the dc electrical characteristics over operating range table for the appropriat e v cc range. t a = ? 40c to + 85c. output drive characteristics symbol parameter test conditions (1) min. max. unit v oh output high voltage v cc = 2.3v to 3.6v i oh = ? 0.1ma v cc ? 0.2 ? v v cc = 2.3v i oh = ? 4ma 1.9 ? i oh = ? 6ma 1.7 ? v cc = 2.7v i oh = ? 4ma 2.2 ? i oh = ? 8ma 2 ? v cc = 3v i oh = ? 6ma 2.4 ? i oh = ? 12ma 2 ? v ol output low voltage v cc = 2.3v to 3.6v i ol = 0.1ma ? 0.2 v v cc = 2.3v i ol = 4ma ? 0.4 i ol = 6ma ? 0.55 v cc = 2.7v i ol = 4ma ? 0.4 i ol = 8ma ? 0.6 v cc = 3v i ol = 6ma ? 0.55 i ol = 12ma ? 0.8 operating characteristics, t a = 25c v cc = 2.5v 0.2v v cc = 3.3v 0.3v symbol parameter test conditions typical typical unit c pd power dissipation capacitance per flip flop outputs enabled c l = 0pf, f = 10mhz 68 66 pf c pd power dissipation capacitance per flip flop outputs disabled 39 47 switching characteristics (1) v cc = 2.5v 0.2v v cc = 2.7v v cc = 3.3v 0.3v symbol parameter min. max. min. max. min. max. unit f max 150 ? 150 ? 150 ? mhz t plh propagation delay 1 4.5 ? 4.5 1 4.3 ns t phl clk to xqx t pzh output enable time 1 6.9 ? 6.8 1 5.6 ns t pzl oe to xqx t phz output disable time 1 6.2 ? 5.5 1 5 ns t plz oe to xqx t su set-up time, high or low, data before clk 1.7 ? 1.8 ? 1.4 ? ns t h hold time, high or low, data after clk 1.1 ? 1.1 ? 1 ? ns t w pulse width, clk high or low 3.3 ? 3.3 ? 3.3 ? ns t sk(o) output skew (2) ????? 500 ps notes: 1. see test circuits and waveforms. t a = ? 40c to + 85c. 2 skew between any two outputs of the same package and switching in the same direction.
industrial temperature range IDT74ALVCH162820 3.3v cmos 10-bit flip-flop with dual outputs 5 open v load gnd v cc pulse generator d.u.t. 500 ? 500 ? c l r t v in v out (1, 2) alvc link input v ih 0v v oh v ol t plh1 t sk (x) output 1 output 2 t phl1 t sk (x) t plh2 t phl2 v t v t v oh v t v ol t sk (x) = t plh2 - t plh1 or t phl2 - t phl1 alvc link same phase input transition opposite phase input transition 0v 0v v oh v ol t plh t phl t phl t plh output v ih v t v t v ih v t alvc link data input 0v 0v 0v 0v t rem timing input synchronous control t su t h t su t h v ih v t v ih v t v ih v t v ih v t alvc link asynchronous control low-high-low pulse high-low-high pulse v t t w v t alvc link control input t plz 0v output normally low t pzh 0v switch closed output normally high enable disable switch open t phz 0v v lz v oh v t v t t pzl v load/2 v load/2 v ih v t v ol v hz alvc link test circuits and waveforms propagation delay test circuit for all outputs enable and disable times set-up, hold, and release times notes: 1. for t sk (o) output1 and output2 are any two outputs. 2. for t sk (b) output1 and output2 are in the same bank. definitions: c l = load capacitance: includes jig and probe capacitance. r t = termination resistance: should be equal to z out of the pulse generator. notes: 1. pulse generator for all pulses: rate 1.0mhz; t f 2.5ns; t r 2.5ns. 2. pulse generator for all pulses: rate 1.0mhz; t f 2ns; t r 2ns. output skew - t sk ( x ) pulse width note: 1. diagram shown for input control enable-low and input control disable-high. symbol v cc (1) = 3.3v0.3v v cc (1) = 2.7v v cc (2) = 2.5v0.2v unit v load 6 6 2 x vcc v v ih 2.7 2.7 vcc v v t 1.5 1.5 vcc / 2 v v lz 300 300 150 mv v hz 300 300 150 mv c l 50 50 30 pf test conditions switch position test switch open drain disable low v load enable low disable high gnd enable high all other tests open
industrial temperature range 6 IDT74ALVCH162820 3.3v cmos 10-bit flip-flop with dual outputs ordering information idt xx alvc xxx xx package device type temp. range pa 162 74 thin shrink small outline package 10-bit flip flop with dual outputs, 3-state outputs ?40c to +85c xxx family bus-hold 820 bus-hold double-density with resistors, 12ma h corporate headquarters for sales: for tech support: 2975 stender way 800-345-7015 or 408-727-6116 logichelp@idt.com santa clara, ca 95054 fax: 408-492-8674 (408) 654-6459 www.idt.com
|
