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M54HC393 RAD-HARD DUAL BINARY COUNTER s s s s s s s s s s s HIGH SPEED: fMAX = 79 MHz (TYP.) at VCC = 6V LOW POWER DISSIPATION: ICC =4A(MAX.) at TA=25C HIGH NOISE IMMUNITY: VNIH = VNIL = 28% VCC (MIN.) SYMMETRICAL OUTPUT IMPEDANCE: |IOH| = IOL = 4mA (MIN) BALANCED PROPAGATION DELAYS: tPLH tPHL WIDE OPERATING VOLTAGE RANGE: VCC (OPR) = 2V to 6V PIN AND FUNCTION COMPATIBLE WITH 54 SERIES 393 SPACE GRADE-1: ESA SCC QUALIFIED 50 krad QUALIFIED, 100 krad AVAILABLE ON REQUEST NO SEL UNDER HIGH LET HEAVY IONS IRRADIATION DEVICE FULLY COMPLIANT WITH SCC-9204-074 DILC-14 FPC-14 ORDER CODES PACKAGE DILC FPC FM M54HC14D M54HC14K EM M54HC14D1 M54HC14K1 DESCRIPTION The M54HC393 is an high speed CMOS DUAL BINARY COUNTER fabricated with silicon gate C2MOS technology. This counter circuit contains independent ripple carry counters and two 4-bit ripple carry binary counters, which can be cascaded to create a single divide by 256 counter. Each 4-bit counter is increases during the high to low transition (negative edge) of the clock input, and each has an independent clear input. When CLEAR is set to low, all four bits of each counter are set to a low level. This enables count truncation and allows the implementation of divide by N counter configurations. All inputs are equipped with protection circuits against static discharge and transient excess voltage. PIN CONNECTION May 2004 Rev. 1 1/12 M54HC393 Figure 1: IEC Logic Symbols Figure 2: Input And Output Equivalent Circuit Table 1: Pin Description PIN N 1, 13 2, 12 3, 4, 5, 6 11, 10, 9, 8 7 14 SYMBOL 1 CLOCK 2 CLOCK NAME AND FUNCTION Clock Input Divide by 2 Section (HIGH to LOW Edge-Triggered) 1 CLEAR Asynchronous Master 2 CLEAR Reset Inputs 1QA to 1QD Flip Flop Outputs 2QA to 2QD Flip Flop Outputs GND Ground (0V) VCC Positive Supply Voltage 2/12 M54HC393 Table 2: Truth Table INPUTS CLOCK X CLEAR H L L X : Don't Care OUTPUTS QD L QC L COUNT UP NO CHANGE QB L QA L OUTPUTS COUNT QD 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 L L L L L L L L H H H H H H H H QC L L L L H H H H L L L L H H H H QB L L H H L L H H L L H H L L H H QA L H L H L H L H L H L H L H L H 3/12 M54HC393 Figure 3: Logic Diagram This logic diagram has not be used to estimate propagation delays Figure 4: Timing Chart 4/12 M54HC393 Table 3: Absolute Maximum Ratings Symbol VCC VI VO IIK IOK IO PD Tstg TL Supply Voltage DC Input Voltage DC Output Voltage DC Input Diode Current DC Output Diode Current DC Output Current Power Dissipation Storage Temperature Lead Temperature (10 sec) Parameter Value -0.5 to +7 -0.5 to VCC + 0.5 -0.5 to VCC + 0.5 20 20 25 50 300 -65 to +150 265 Unit V V V mA mA mA mA mW C C ICC or IGND DC VCC or Ground Current Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is not implied Table 4: Recommended Operating Conditions Symbol VCC VI VO Top tr, tf Supply Voltage Input Voltage Output Voltage Operating Temperature Input Rise and Fall Time VCC = 2.0V VCC = 4.5V VCC = 6.0V Parameter Value 2 to 6 0 to VCC 0 to VCC -55 to 125 0 to 1000 0 to 500 0 to 400 Unit V V V C ns ns ns 5/12 M54HC393 Table 5: DC Specifications Test Condition Symbol Parameter VCC (V) 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 4.5 6.0 VOL Low Level Output Voltage 2.0 4.5 6.0 4.5 6.0 II ICC Input Leakage Current Quiescent Supply Current 6.0 6.0 IO=-20 A IO=-20 A IO=-20 A IO=-4.0 mA IO=-5.2 mA IO=20 A IO=20 A IO=20 A IO=4.0 mA IO=5.2 mA VI = VCC or GND VI = VCC or GND TA = 25C Min. 1.5 3.15 4.2 0.5 1.35 1.8 1.9 4.4 5.9 4.18 5.68 2.0 4.5 6.0 4.31 5.8 0.0 0.0 0.0 0.17 0.18 0.1 0.1 0.1 0.26 0.26 0.1 4 1.9 4.4 5.9 4.13 5.63 0.1 0.1 0.1 0.33 0.33 1 40 Typ. Max. Value -40 to 85C Min. 1.5 3.15 4.2 0.5 1.35 1.8 1.9 4.4 5.9 4.10 5.60 0.1 0.1 0.1 0.40 0.40 1 80 A A V V Max. -55 to 125C Min. 1.5 3.15 4.2 0.5 1.35 1.8 Max. V Unit VIH High Level Input Voltage Low Level Input Voltage High Level Output Voltage VIL V VOH 6/12 M54HC393 Table 6: AC Electrical Characteristics (CL = 50 pF, Input tr = tf = 6ns) Test Condition Symbol Parameter VCC (V) 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 2.0 4.5 6.0 TA = 25C Min. Typ. 30 8 7 50 15 13 70 20 17 90 25 21 120 30 26 55 18 15 17 67 79 28 7 6 28 7 6 Max. 75 15 13 120 24 20 160 32 27 195 39 33 230 46 39 150 30 26 6.8 34 40 75 15 13 75 15 13 25 5 5 95 19 16 95 19 16 30 6 5 Value -40 to 85C Min. Max. 95 19 16 150 30 26 200 40 34 245 49 42 290 58 49 190 38 32 5.6 28 33 110 22 19 110 22 19 35 7 6 -55 to 125C Min. Max. 110 22 19 180 36 31 240 48 41 295 59 50 345 69 59 225 45 38 ns Unit tTLH tTHL Output Transition Time tPLH tPHL Propagation Delay Time (CLOCK - QA) tPLH tPHL Propagation Delay Time (CLOCK - QB) tPLH tPHL Propagation Delay Time (CLOCK - QC) tPLH tPHL Propagation Delay Time (CLOCK - QD) tPHL Propagation Delay Time (CLEAR - Qn) Maximum Clock Frequency Minimum Pulse Width (CLOCK) Minimum Pulse Width (CLEAR) Minimum Removal Time ns ns ns ns ns fMAX 8.4 42 50 MHz tW(H) tW(L) tW(H) ns ns tREM ns Table 7: Capacitive Characteristics Test Condition Symbol Parameter VCC (V) TA = 25C Min. Typ. 5 35 Max. 10 Value -40 to 85C Min. Max. 10 -55 to 125C Min. Max. 10 pF pF Unit CIN CPD Input Capacitance Power Dissipation Capacitance (note 1) 1) CPD is defined as the value of the IC's internal equivalent capacitance which is calculated from the operating current consumption without load. (Refer to Test Circuit). Average operating current can be obtained by the following equation. ICC(opr) = CPD x VCC x fIN + ICC/4 (per FLIP FLOP) 7/12 M54HC393 Figure 5: Test Circuit CL = 50pF or equivalent (includes jig and probe capacitance) RT = ZOUT of pulse generator (typically 50) Figure 6: Waveform - Minimum Removal And Propagation Delay Times, Minimum Pulse Width (f=1MHz; 50% duty cycle) 8/12 M54HC393 DILC-14 MECHANICAL DATA mm. DIM. MIN. A a1 a2 B b b1 D e e1 e2 e3 F I K L 10.90 1.14 1.27 15.11 7.62 7.11 2.1 3.00 0.63 1.82 0.40 0.20 18.79 7.36 0.88 2.03 0.45 0.254 19.00 7.62 2.54 15.24 7.87 15.37 8.12 7.75 3.70 12.1 1.5 0.429 0.045 0.050 0.595 0.300 0.280 TYP MAX. 22.54 3.70 1.14 2.39 0.50 0.30 19.20 7.87 MIN. 0.083 0.118 0.025 0.072 0.016 0.008 0.740 0.290 0.035 0.080 0.018 0.010 0.748 0.300 0.100 0.600 0.310 0.605 0.320 0.305 0.146 0.476 0.059 TYP. MAX. 0.100 0.146 0.045 0.094 0.020 0.012 0.756 0.310 inch 0016173H 9/12 M54HC393 FPC-14 MECHANICAL DATA mm. DIM. MIN. A B C D E F G H L M N 18.75 0.38 4.31 0.38 6.75 9.76 1.49 0.10 7.50 0.127 7.62 1.27 0.43 6.0 22.0 0.738 0.015 0.170 0.48 0.015 TYP 6.91 9.95 MAX. 7.06 10.14 1.95 0.15 7.75 MIN. 0.266 0.384 0.059 0.004 0.295 0.005 0.300 0.050 0.017 0.236 0.866 0.019 TYP. 0.272 0.392 MAX. 0.278 0.399 0.077 0.006 0.305 inch F G D H 14 8 A N L 1 7 H E B M C 016029E 10/12 M54HC393 Table 8: Revision History Date 10-May-2004 Revision 1 First Release Description of Changes 11/12 M54HC393 Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners (c) 2004 STMicroelectronics - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States. http://www.st.com 12/12 |
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