MM54HC34 MM74HC34 Non-Inverter
January 1988
MM54HC34 MM74HC34 Non-Inverter
General Description
The MM54HC34 MM74HC34 are logic functions fabricated by using advanced silicon-gate CMOS technology which provides the inherent benefits of CMOS low quiescent power and wide power supply range but are functionally as well as pin-out compatible with standard DM54LS 74LS devices The MM54HC34 MM74HC34 feature low power dissipation and fast switching times All inputs are protected from static discharge by internal diodes to VCC and ground
Features
Y Y
Fast switching tPLH tPHL e 10 ns (typ) High fanout t 10 LS loads
Connection Diagram
Dual-In-Line Package
TL F 9389 – 1
Top View Order Number MM54HC34 or MM74HC34
C1995 National Semiconductor Corporation
TL F 9389
RRD-B30M105 Printed in U S A
Absolute Maximum Ratings (Notes 1
2)
Operating Conditions
Supply Voltage (VCC) DC Input or Output Voltage (VIN VOUT) Operating Temp Range (TA) MM74HC MM54HC Input Rise or Fall Times (tr tf) VCC e 2 0V VCC e 4 5V VCC e 6 0V Min 2 0 Max 6 VCC Units V V
If Military Aerospace specified devices are required please contact the National Semiconductor Sales Office Distributors for availability and specifications
b 0 5V to a 7 0V Supply Voltage (VCC) b 1 5V to VCC a 1 5V DC Input Voltage (VIN) b 0 5V to VCC a 0 5V DC Output Voltage (VOUT) g 20 mA Clamp Diode Current (IIK IOK) g 25 mA DC Output Current per pin (IOUT) g 50 mA DC VCC or GND Current per pin (IICC) b 65 C to a 150 C Storage Temperature Range (TSTG) Power Dissipation (PD) (Note 3) 600 mW S O Package only 500 mW Lead Temperature (TL) (Soldering 10 seconds) 260 C
b 40 b 55
a 85 a 125
C C ns ns ns
1000 500 400
DC Electrical Characteristics (Note 4)
Symbol Parameter Conditions VCC TA e 25 C Typ VIH Minimum High Level Input Voltage Maximum Low Level Input Voltage Minimum High Level Output Voltage VIN e VIL lIOUTl s 20 mA 2 0V 4 5V 6 0V 2 0V 4 5V 6 0V 2 0V 4 5V 6 0V 4 5V 6 0V 2 0V 4 5V 6 0V 4 5V 6 0V 6 0V 6 0V 20 45 60 42 57 0 0 0 02 02 15 3 15 42 05 1 35 18 19 44 59 3 98 5 48 01 01 01 0 26 0 26
g0 1
74HC TA e b40 to a 85 C
54HC TA e b55 to a 125 C
Units
Guaranteed Limits 15 3 15 42 05 1 35 18 19 44 59 3 84 5 34 01 01 01 0 33 0 33
g1 0
15 3 15 42 05 1 35 18 19 44 59 37 52 01 01 01 04 04
g1 0
V V V V V V V V V V V V V V V V mA mA
VIL
VOH
VIN e VIL lIOUTl s 4 0 mA lIOUTl s 5 2 mA VOL Maximum Low Level Output Voltage VIN e VIH lIOUTl s 20 mA
VIN e VIH lIOUTl s 4 0 mA lIOUTl s 5 2 mA IIN ICC Maximum Input Current Maximum Quiescent Supply Current VIN e VCC or GND VIN e VCC or GND IOUT e 0 mA
20
20
40
Note 1 Absolute Maximum Ratings are those values beyond which damage to the device may occur Note 2 Unless otherwise specified all voltages are referenced to ground Note 3 Power Dissipation temperature derating plastic ‘‘N’’ package b 12 mW C from 65 C to 85 C ceramic ‘‘J’’ package b 12 mW C from 100 C to 125 C Note 4 For a power supply of 5V g 10% the worst case output voltages (VOH and VOL) occur for HC at 4 5V Thus the 4 5V values should be used when designing with this supply Worst case VIH and VIL occur at VCC e 5 5V and 4 5V respectively (The VIH value at 5 5V is 3 85V ) The worst case leakage current (IIN ICC and IOZ) occur for CMOS at the higher voltage and so the 6 0V values should be used VIL limits are currently tested at 20% of VCC The above VIL specification (30% of VCC) will be implemented no later than Q1 CY’89
2
AC Electrical Characteristics VCC e 5V
Symbol tPHL tPLH Parameter Maximum Propagation Delay
TA e 25 C CL e 15 pF tr e tf e 6 ns Conditions Typ 10 Guaranteed Limit Units ns
AC Electrical Characteristics VCC e 2 0V to 6 0V
Symbol Parameter Conditions VCC TA e 25 C Typ tPHL tPLH Minimum Propagation Delay 2 0V 4 5V 6 0V 2 0V 4 5V 6 0V (per gate) 30 10 8 50 10 8 26 5 10 80 16 14 75 75 13
CL e 50 pF tr e tf e 6 ns (unless otherwise specified) 74HC 54HC TA e b40 C to a 85 C TA e b55 C to a 125 C Units Guaranteed Limits 100 20 17 95 19 16 120 24 20 110 22 19 ns ns ns ns ns ns pF 10 10 pF
tTLH tTHL Maximum Output Rise and Fall Time CPD CIN Power Dissipation Capacitance (Note 5) Maximum Input Capacitance
Note 5 CPD determines the no load dynamic power consumption PD e CPD VCC2 f a ICC VCC and the no load dynamic current consumption IS e CPD VCC f a ICC
3
MM54HC34 MM74HC34 Non-Inverter
Physical Dimensions inches (millimeters)
14 Lead Cerdip (J) Order Number MM54HC34J or MM74HC34J NS Package Number J14A
LIFE SUPPORT POLICY
14 Lead Molded Dip (N) Order Number MM74HC34N NS Package Number N14A
NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL SEMICONDUCTOR CORPORATION As used herein 1 Life support devices or systems are devices or systems which (a) are intended for surgical implant into the body or (b) support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury to the user
National Semiconductor Corporation 1111 West Bardin Road Arlington TX 76017 Tel 1(800) 272-9959 Fax 1(800) 737-7018
2 A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system or to affect its safety or effectiveness
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National does not assume any responsibility for use of any circuitry described no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications
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