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| 74ACQ241 Octal Buffer/Line Driver with 3-STATE Outputs January 1990 Revised September 1998 74ACQ241 Octal Buffer/Line Driver with 3-STATE Outputs General Description The ACQ241 is an octal buffer and line driver designed to be employed as a memory address driver, clock driver and bus oriented transmitter or receiver which provides improved PC board density. The ACQ utilizes Fairchild FACT Quiet SeriesTM technology to guarantee quiet output switching and improved dynamic threshold performance. FACT Quiet Series features GTOTM output control and undershoot corrector in addition to a split ground bus for superior performance. Features s ICC and IOZ reduced by 50% s Guaranteed simultaneous switching noise level and dynamic threshold performance s Guaranteed pin-to-pin skew AC performance s Improved latch-up immunity s 3-STATE outputs drive bus lines or buffer memory address registers s Outputs source/sink 24 mA s Faster prop delays than the standard AC Ordering Code: Order Number 74ACQ241SC 74ACQ241PC Package Number M20B N20A Package Description 20-Lead Small Outline Integrated Circuit, JEDEC MS-013, 0.300" Wide Body 20-Lead Plastic Dual-In-Line Package, JEDEC MS-001, 0.300" Wide Device also available in Tape and Reel. Specify by appending suffix letter "X" to the ordering code. Logic Symbol IEEE/IEC Pin Descriptions Pin Names OE1, OE2 I0-I7 O0-O7 Description 3-STATE Output Enable Inputs Inputs Outputs Truth Tables Inputs OE1 In L H X Inputs OE2 H H H H = HIGH Voltage Level L = LOW Voltage Level Outputs (Pins 12, 14, 16, 18) L H Z Outputs In L H X X = Immaterial Z = High Impedance Connection Diagram Pin Assignment for DIP and SOIC L L H (Pins 3, 5, 7, 9) L H Z FACTTM, FACT Quiet SeriesTM, and GTOTM are trademarks of Fairchild Semiconductor Corporation. (c) 1998 Fairchild Semiconductor Corporation DS010642.prf www.fairchildsemi.com 74ACQ241 Absolute Maximum Ratings(Note 1) Supply Voltage (VCC ) DC Input Diode Current (IIK) VI = -0.5V VI = VCC + 0.5V DC Input Voltage (VI) DC Output Diode Current (IOK) VO = -0.5V VO = VCC + 0.5V DC Output Voltage (VO) DC Output Source or Sink Current (IO) DC VCC or Ground Current per Output Pin (ICC or IGND) Storage Temperature (TSTG) DC Latch-Up Source or Sink Current Junction Temperature (TJ) PDIP 140C 300 mA 50 mA -65C to +150C 50 mA -20 mA +20 mA -0.5V to VCC + 0.5V -20 mA +20 mA -0.5V to VCC + 0.5V -0.5V to +7.0V Recommended Operating Conditions Supply Voltage (VCC) Input Voltage (VI) Output Voltage (VO) Operating Temperature (TA) Minimum Input Edge Rate V/t VIN from 30% to 70% of VCC VCC @ 3.0V, 4.5V, 5.5V Note 1: Absolute maximum ratings are those values beyond which damage to the device may occur. The databook specifications should be met, without exception, to ensure that the system design is reliable over its power supply, temperature, and output/input loading variables. Fairchild does not recommend operation of FACTTM circuits outside databook specifications. 2.0V to 6.0V 0V to VCC 0V to VCC -40C to +85C 125 mV/ns www.fairchildsemi.com 2 74ACQ241 DC Electrical Characteristics Symbol Parameter VCC (V) VIH Minimum High Level Input Voltage VIL Maximum Low Level Input Voltage VOH Minimum High Level Output Voltage 3.0 4.5 5.5 3.0 4.5 5.5 3.0 4.5 5.5 3.0 4.5 5.5 VOL Maximum Low Level Output Voltage 3.0 4.5 5.5 3.0 4.5 5.5 IIN (Note 4) IOLD IOHD ICC (Note 4) IOZ Maximum Input Leakage Current Minimum Dynamic Output Current (Note 3) Maximum Quiescent Supply Current Maximum 3-STATE Leakage Current VOLP VOLV VIHD VILD Quiet Output Maximum Dynamic VOL Quiet Output Minimum Dynamic VOL Minimum High Level Dynamic Input Voltage Maximum Low Level Dynamic Input Voltage Note 2: All outputs loaded; thresholds on input associated with output under test. Note 3: Maximum test duration 2.0 ms, one output loaded at a time. Note 4: IIN and ICC @ 3.0V are guaranteed to be less than or equal to the respective limit @ 5.5V VCC. Note 5: DIP package. Note 6: Max number of outputs defined as (n). Data Inputs are driven 0V to 5V. One output @ GND. Note 7: Max number of Data Inputs (n) switching. n-1 Inputs switching 0V to 5V . Input-under-test switching: 5V to threshold (VILD), 0V to threshold (VIHD), f = 1 MHz. TA = +25C Typ 1.5 2.25 2.75 1.5 2.25 2.75 2.99 4.49 5.49 2.1 3.15 3.85 0.9 1.35 1.65 2.9 4.4 5.4 2.56 3.86 4.86 0.002 0.001 0.001 0.1 0.1 0.1 0.36 0.36 0.36 0.1 TA = -40C to +85C Guaranteed Limits 2.1 3.15 3.85 0.9 1.35 1.65 2.9 4.4 5.4 Units Conditions VOUT = 0.1V V or VCC - 0.1V VOUT = 0.1V V or VCC - 0.1V IOUT = -50 A V VIN = VIL or VIH 2.46 3.76 4.76 0.1 0.1 0.1 V V IOH = -12 mA IOH = -24 mA IOH = -24 mA (Note 2) IOUT = 50 A VIN = VIL or VIH 0.44 0.44 0.44 1.0 75 -75 4.0 0.25 40.0 2.5 A mA mA A A V IOL = 12 mA IOL = 24 mA IOL = 24 mA (Note 2) VI = VCC, GND VOLD = 1.65V Max VOHD = 3.85V Min VIN = VCC or GND VI (OE) = VIL, VIH VI = VCC, GND VO = VCC, GND 5.0 5.0 5.0 5.0 1.1 -0.6 3.1 1.9 1.5 -1.2 3.5 1.5 V V V V Figures 1, 2 (Note 5)(Note 6) Figures 1, 2 (Note 5)(Note 6) (Note 5)(Note 7) (Note 5)(Note 7) 5.5 5.5 5.5 5.5 5.5 3 www.fairchildsemi.com 74ACQ241 AC Electrical Characteristics Symbol Parameter VCC (V) (Note 8) tPHL tPLH tPZL tPZH tPHZ tPLZ tOSHL tOSLH Output to Output Skew Data to Output (Note 9) Output Disable Time Propagation Delay Data to Output Output Enable Time 3.3 5.0 3.3 5.0 3.3 5.0 3.3 Min 2.0 1.5 2.5 1.5 1.0 1.0 TA = +25C CL = 50 pF Typ 6.5 4.5 8.0 5.5 8.5 5.5 1.0 Max 9.0 6.0 13.0 8.5 14.5 9.5 1.5 TA = -40C to +85C CL = 50 pF Min 2.0 1.5 2.5 1.5 1.0 1.0 Max 9.5 6.5 13.5 9.0 15.0 10.0 1.5 ns ns ns ns Units Note 8: Voltage Range 5.0 is 5.0V 0.5V. Voltage Range 3.3 is 3.3V 0.3V. Note 9: Skew is defined as the absolute value of the difference between the actual propagation delay for any two separate outputs of the same device. The specification applies to any outputs switching in the same direction, either HIGH to LOW (tOSHL) or LOW to HIGH (tOSLH). Parameter guaranteed by design. Capacitance Symbol CIN CPD Parameter Input Capacitance Power Dissipation Capacitance Typ 4.5 70 Units pF pF VCC = OPEN VCC = 5.0V Conditions www.fairchildsemi.com 4 74ACQ241 FACT Noise Characteristics The setup of a noise characteristics measurement is critical to the accuracy and repeatability of the tests. The following is a brief description of the setup used to measure the noise characteristics of FACT. Equipment: Hewlett Packard Model 8180A Word Generator PC-163A Test Fixture Tektronics Model 7854 Oscilloscope Procedure: 1. Verify Test Fixture Loading: Standard Load 50 pF, 500. 2. Deskew the HFS generator so that no two channels have greater than 150 ps skew between them. This requires that the oscilloscope be deskewed first. It is important to deskew the HFS generator channels before testing. This will ensure that the outputs switch simultaneously. 3. Terminate all inputs and outputs to ensure proper loading of the outputs and that the input levels are at the correct voltage. 4. Set the HFS generator to toggle all but one output at a frequency of 1 MHz. Greater frequencies will increase DUT heating and effect the results of the measurement. 5. Set the word generator input levels at 0V LOW and 3V HIGH for ACT devices and 0V LOW and 5V HIGH for AC devices. Verify levels with an oscilloscope VOLP/VOLV and VOHP/VOHV: * Determine the quiet output pin that demonstrates the greatest noise levels. The worst case pin will usually be the furthest from the ground pin. Monitor the output voltages using a 50 coaxial cable plugged into a standard SMB type connector on the test fixture. Do not use an active FET probe. * Measure VOLP and VOLV on the quiet output during the worst case transition for active and enable. Measure VOHP and VOHV on the quiet output during the worst case active and enable transition. * Verify that the GND reference recorded on the oscilloscope has not drifted to ensure the accuracy and repeatability of the measurements. VILD and VIHD: * Monitor one of the switching outputs using a 50 coaxial cable plugged into a standard SMB type connector on the test fixture. Do not use an active FET probe. * First increase the input LOW voltage level, VIL, until the output begins to oscillate or steps out a min of 2 ns. Oscillation is defined as noise on the output LOW level that exceeds VIL limits, or on output HIGH levels that exceed VIH limits. The input LOW voltage level at which oscillation occurs is defined as VILD. * Next decrease the input HIGH voltage level, VIH, until the output begins to oscillate or steps out a min of 2 ns. Oscillation is defined as noise on the output LOW level that exceeds VIL limits, or on output HIGH levels that exceed VIH limits. The input HIGH voltage level at which oscillation occurs is defined as VIHD. * Verify that the GND reference recorded on the oscilloscope has not drifted to ensure the accuracy and repeatability of the measurements. FIGURE 1. Quiet Output Noise Voltage Waveforms Note 10: VOHV and VOLP are measured with respect to ground reference. Note 11: Input pulses have the following characteristics: f = 1 MHz, tr = 3 ns, tf = 3 ns, skew < 150 ps. FIGURE 2. Simultaneous Switching Test Circuit 5 www.fairchildsemi.com 74ACQ241 Physical Dimensions inches (millimeters) unless otherwise noted 20-Lead Small Outline Integrated Circuit, JEDEC MS-013, 0.300" Wide Body Package Number M20B www.fairchildsemi.com 6 74ACQ241 Octal Buffer/Line Driver with 3-STATE Outputs Physical Dimensions inches (millimeters) unless otherwise noted (Continued) 20-Lead Plastic Dual-In-Line Package, JEDEC MS-001, 0.300" Wide Package Number N20A LIFE SUPPORT POLICY FAIRCHILD'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 FAIRCHILD SEMICONDUCTOR CORPORATION. As used herein: 2. A critical component in any component of a life support 1. Life support devices or systems are devices or systems device or system whose failure to perform can be reawhich, (a) are intended for surgical implant into the sonably expected to cause the failure of the life support body, or (b) support or sustain life, and (c) whose failure device or system, or to affect its safety or effectiveness. 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 www.fairchildsemi.com user. Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and Fairchild reserves the right at any time without notice to change said circuitry and specifications. |
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