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| T NT DUC PRO LACEME r at (R) TE O LE REP rt Cente tsc O B S EN D ED / o M S u pp l.com COM chnical w.intersi E NO R our Te Sheetw Data December 1995, Rev. E rw tact ERSIL o con -INT 8 1-88 EL2252 FN7062 Dual 50MHz Comparator/Pin Receiver The EL2252 dual comparator replaces the traditional input buffer + attenuator +ECL comparator +ECL to TTL translator circuit blocks used in digital equipment. The EL2252 provides a quick 7ns propagation delay while complying with 10V inputs. Input accuracy and propagation delay is maintained even with input signal Slew Rates as great as 4000V/s. The EL2252 can run on supplies as low as -5.2V and +9V and comply with ECL and CMOS inputs, or use supplies as great as 18V for much greater input range. The EL2252 has a /TTL pin which, when grounded, restricts the output VOH to a TTL swing to minimize propagation delay. When left open, the output VOH increases to a valid CMOS level. The comparators are well behaved and have little tendency to oscillate over a variety of input and output source and load impedances. They do not oscillate even when the inputs are held in the linear range of the device. To improve output stability in the presence of input noise, an internal 60mV of hysteresis is available by connecting the HYS pin to V-. Elantec's products and facilities comply with MIL-I-45208A, and other applicable quality specifications. For information on Elantec's processing, see Elantec document, QRA-1; "Elantec's Processing, Monolithic Integrated Circuits". Features * Fast response -- 7ns * Inputs tolerate large overdrives with no speed nor bias current penalties * Propagation delay is relatively constant with variations of input Slew Rate, overdrive, temperature, and supply voltage * Output provides proper CMOS or TTL logic levels * Hysteresis is available on-chip * Large voltage gain -- 8000V/V * Not oscillation-prone * Can detect 4ns glitches * MIL-STD-883 Rev. C compliant Applications * Pin receiver for automatic test equipment * Data communications line receiver * Frequency counter input * Pulse squarer Ordering Information PART NUMBER EL2252CN EL2252CM TEMP. RANGE 0C to +75C 0C to +75C PACKAGE 14-Pin PDIP 20-Pin SOL PKG. NO. MDP0031 MDP0027 Pinouts EL2252 (14-PIN PDIP) TOP VIEW EL2252 (20-PIN SOL) TOP VIEW 1 CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures. 1-888-INTERSIL or 321-724-7143 | Intersil (and design) is a registered trademark of Intersil Americas Inc. Copyright (c) Intersil Americas Inc. 2003. All Rights Reserved. Elantec is a registered trademark of Elantec Semiconductor, Inc. All other trademarks mentioned are the property of their respective owners. EL2252 Absolute Maximum Ratings (TA = 25C) Voltage between V+ and V- . . . . . . . . . . . . . . . . . . . . . . . . . . . . .36V Voltage at V+ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18V Voltage between -IN and +IN pins . . . . . . . . . . . . . . . . . . . . . . . .36V Output Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12mA Current into +IN,-IN, HYS or /TTL . . . . . . . . . . . . . . . . . . . . . . . 5mA Internal Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . See Curves Operating Ambient Temperature Range . . . . . . . . . .-25C to +85C Operating Junction Temperature . . . . . . . . . . . . . . . . . . . . . . . 150C Storage Temperature Range . . . . . . . . . . . . . . . . . . . . -65 to +150C CAUTION: Stresses above those listed in "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. IMPORTANT NOTE: All parameters having Min/Max specifications are guaranteed. Typical values are for information purposes only. Unless otherwise noted, all tests are at the specified temperature and are pulsed tests, therefore: TJ = TC = TA DC Electrical Specifications PARAMETER VOS VS = 15V; HYS and /TTL grounded; TA = 25C unless otherwise specified. DESCRIPTION TEMP 25C Full MIN TYP 1 MAX 9 13 7 6 16 21 0.2 1 2 30 10 2 10 -9 4000 3000 70 70 60 4.0 2.4 -0.2 -0.2 16 17 4.6 2.7 0.2 0.4 19 20 95 90 II II V 5.1 3.2 0.8 0.8 II II V V V V 13 -12 8000 UNITS mV mV V/C A A A A k M pF V V V/V V/V Input Offset Voltage TCVOS IB Average Offset Voltage Drift Input Bias Current at Null Full 25C Full IOS Input Offset Current 25C Full RIN, diff RIN, comm CIN VCM+ VCMAVOL Input Differential Resistance Input Common-Mode Resistance Input Capacitance Positive Common-Mode Input Range Negative Common-Mode Input Range Large Signal Voltage Gain VO = 0.8V to 2.0V Common-Mode Rejection Ratio (Note 1) Power-Supply Rejection Ratio (Note 2) Peak-to-Peak Input Hysteresis with HYS connected to VHigh Level Output CMOS Mode TTL Mode 25C 25C 25C Full Full 25C Full Full Full 25C Full Full Full Full Full Full CMRR PSRR VHYS VOH VOL Low Level Output I1 = 0 I1 = 5mA IS+ ISNOTES: Positive Supply Current Negative Supply Current 1. Two tests are performed with VCM = 0V to -9V and VCM = 0V to 10V. 2. Two tests are performed with V+ = 15V, V- changed from -10V to -15V; V- = -15V, V+ changed from 10V to 15V. 2 EL2252 AC Electrical Specifications PARAMETER TPD+, TPDVS = 15V; CL = 10pF; TA = 25C; TTL output threshold is 1.4V, CMOS output threshold is 2.5V; unless otherwise specified. DESCRIPTION Input to Output Propagation Delay, TTL Output Swing 0 < VIN < 5V, 500mV Overdrive, CMOS Output Swing 2000V/s Input Slew Rate Input to Output Propagation Delay, TTL Output Swing -2V < VIN < -1V, 500mV Overdrive, CMOS Output Swing 2ns Input Rise Time Propagation Delay Change between Positive and Negative Input Slopes MIN TYP 6 8 5 9 1.25 9 MAX 9 UNITS ns ns ns ns ns TPD+, TPD- TPDSYM AC Test Circuit Burn-In Circuit 3 EL2252 Typical Performance Curves Input Bias Current vs Small Overdrives Input Bias Current vs Large Overdrives Bias Current vs Temperature Inputs Balanced Input Hysteresis Voltage vs Temperature Input/Output Transfer Function - HYS Open Input/Output Transfer Function - HYS Connected to V /TTL open /TTL grounded # OV(/TTL open) -Gnd -Gnd 4 EL2252 Typical Performance Curves (Continued) Supply Current vs Supply Voltage Supply Current vs Temperature (Vs = 15V) Output Delay -- 0.5V Overdrive Output Delay -- 0.5V Overdrive CMOS out CMOS out TTL out 1v/div 1v/div TTL out Input Gnd Gnd Output with 50MHz CMOS Input Output with 50MHz ECL Input 1v/div Gnd 1v/div Gnd 4ns TTL Glitch Detection 1v/div Gnd 5 EL2252 Typical Performance Curves Gain vs Frequency (Continued) Propagation Delay vs Temperature, CMOS Input Propagation Delay vs Temperature, ECL Input Propagation Delay vs Overdrive, CMOS Input Propagation Delay vs Input Slew Rate, CMOS Input Propagation Delay vs Power Supply Voltage Propagation Delay vs Load Capacitance 14-Pin Plastic DIP Maximum Power Dissipation vs Ambient Temperature 20-Pin SOL Maximum Power Dissipation vs Ambient Temperature 6 EL2252 Simplified Schematic ONE COMPARATOR Applications Information The EL2252 is very easy to use and is relatively oscillationfree, but a few items must be attended. The first is that both supplies should be bypassed closely. 1F tantalums are very good and no additional smaller capacitors are necessary. The EL2252 requires V- to be at least 5V to preserve AC performance. V+ must be at least 6V for a TTL output swing, 8V for CMOS outputs. The input voltage range will be referred to the more positive of the two inputs. That is, bringing an input as negative as Vwill not cause problems; it's the other input's level that must be considered. The typical input range is +13/-12V when the supplies are 15V. This range diminishes over temperature and varies with processing; it is wise to set power supplies such that V+ is 5V more positive than the most positive input signal and V- more negative than 6V below the most negative input. 12V supplies will easily encompass all CMOS and ECL logic inputs. If the input exceeds the device's common-mode input capability, the EL2252 propagation delay and input bias current will increase. Fault currents will occur with inputs a diode below V- or above V+. No damage nor VOS shift will occur even when fault currents within the absolute maximum ratings. One of the few ways in which oscillations can be induced is by connecting a high-Q reactive source impedance to the EL2252 inputs. Such sources are long wires and unterminated coaxial lines. The source impedance should be de-Q'ed. One method is to connect a series resistor to the EL2252 input of around 100 value. More resistance will calm the system more effectively, but at the expense of 7 comparator response time. Another method is to install a "snubber" network from comparator input to ground. A snubber is a resistor in series with a small capacitor, around 100 and 33pF. Each physical and electrical environment will require different treatments, although many need none. The major use of the HYS pin is to suppress noise superimposed on the input signal. By shorting the HYS pin to V- a 30mV hysteresis is placed around the VOS of the comparator input. Leaving the pin open, or more appropriately, grounding the HYS pin removes all hysteresis. Connecting a resistor between HYS and V- allows an adjustment of the peak-to-peak hysteresis level. Unfortunately, an external resistor cannot track the internal devices properly, so temperature and unit-to-unit variations of hysteresis are increased. The relationship between the resistor and resulting hysteresis level is not linear, but a 1.5k resistor will approximately halve the nominal value. The time delay of the EL2252 will increase by about 0.7ns when using full hysteresis. The EL2252 is specifically designed to be tolerant of large inputs. It will exhibit very much increased delay times for input overdrives below 100mV. If very small overdrives must be sensed, the EL2018 or EL2019 comparators would be good choices, although they lose accuracies with signal input Slew Rates above 400V/s. The EL2252 keeps its timing accuracy with input Slew Rates between 100V/s and 4000V/s of input Slew Rate. The output stage drives tens of pF load capacitances without increased overshoot, but propagation delay increases about EL2252 1ns per 10pF. The output circuit is not a traditional TTL stage, and using an external pullup resistor will not change the VOH. In general setting the output swing to TTL (by grounding the /TTL pin) will optimize overall propagation delay and swing symmetry. EL2252 Macromodel * Connections: +input * | -input * | | +V * || | -V * || | | HYS * || || | TTL * || || || output * || || || | .subckt M2252 2 3 14 7 4 5 13 .* Application Hints: * * Connect pin 4 to ground through 1000M resistor to inhibit * Hysteresis; to invoke Hysteresis, connect pin 4 to V-. * * Connect pin 5 to ground to invoke TTL VOH; pin 5 may left open * for CMOS VOH. * * To facilitate .OP, set itl1=200, itl2=200, set node 27 to 13.8V, * and node 30 to -12V. * *Input Stage * i1 22 7 1.7mA r1 14 20 300 r2 14 21 300 q1 20 2 22 qn q2 21 3 22 qn q3 20 26 23 qn q4 21 25 23 qn q13 25 27 20 qp q14 26 27 21 qp v1 14 27 1.2V r3 23 24 1.4k d1 24 4 ds r4 25 33 700 r5 26 33 700 q16 33 33 34 qn q17 34 34 37 qn v4 37 7 1.2V * * 2nd Stage * i2 30 7 3mA i3 14 28 1.5mA q7 0 35 28 qp v2 44 0 1.2V s1 44 35 5 0 swa s2 45 35 5 0 swb rsw 14 5 10k v3 45 0 2.5V q5 0 26 30 qn q6 28 25 30 qn d3 0 28 ds 8 EL2252 * * Output Stage * i4 14 38 1mA q8 38 38 39 qn q9 32 32 39 qp q10 7 28 32 qp q11 14 38 40 qn 2 q12 7 28 13 qp 2 r6 40 13 50 c1 28 0 3pF * * Models * .model qn npn (is=2e-15 bf=120 tf=0.2nS cje=0.2pF cjc=0.2pF ccs=0.2pF) .model qp pnp (is=0.6e-15 bf=60 tf=0.2nS cje=0.5pF cjc=0.3pF ccs=0.2pF) .model ds d(is=3e-12 tt=0.05nS eg=0.72V vj=0.58) .model swa vswitch (von=0v voff=2.5V) .model swb vswitch (von=2.5 voff=0V) .ends All Intersil U.S. products are manufactured, assembled and tested utilizing ISO9000 quality systems. Intersil Corporation's quality certifications can be viewed at www.intersil.com/design/quality Intersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements 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 Intersil or its subsidiaries. For information regarding Intersil Corporation and its products, see www.intersil.com 9 |
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