19-2409; Rev 1; 9/02 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators Features ♦ 500ps Propagation Delay ♦ 30ps Propagation Delay Dispersion ♦ 4Gbps Tracking Frequency ♦ ♦ ♦ ♦ -2.2V to +3V Input Range with +5V/-5.2V Supplies -1.2V to +4V Input Range with +6V/-4.2V Supplies Differential ECL Outputs (MAX9600) Differential PECL Outputs (MAX9601/MAX9602) ♦ Latch Enable (MAX9600/MAX9601) ♦ Adjustable Hysteresis (MAX9600/MAX9601) Ordering Information PART TEMP RANGE PIN-PACKAGE -40°C to +85°C 20 TSSOP MAX9601EUP -40°C to +85°C 20 TSSOP MAX9602EUG -40°C to +85°C 24 TSSOP MAX9600EUP Selector Guide PART PIN-PACKAGE MAX9600EUP 20 TSSOP Dual ECL Output Comparator with Latch Enable and Hysteresis MAX9601EUP 20 TSSOP Dual PECL Output Comparator with Latch Enable and Hysteresis MAX9602EUG 24 TSSOP Quad PECL Output Comparator Applications VLSI and High-Speed Memory ATE High-Speed Instrumentation Scope/Logic Analyzer Front Ends High-Speed Triggering Threshold and Peak Detection SELECTION Pin Configurations appear at end of data sheet. Line Receiving/Signal Restoration Functional Diagrams VCC VEE VCCO_ VCC VEE VCCO_ VCC VEE GND IN_+ Q_ IN_+ ECL OUTPUT 1/2 MAX9600 IN_- Q_ Q_ IN_+ PECL OUTPUT 1/2 MAX9601 IN_- Q_ Q_ PECL OUTPUT 1/4 MAX9602 IN_- Q_ HYS_ HYS_ RL RL RL RL RL RL RHYS_ RHYS_ LE_ LE_ LE_ LE_ VT = -2V VT = VCCO_ - 2V VT = VCCO_ - 2V THE OPEN-EMITTER OUTPUTS REQUIRE EXTERNAL PULLDOWN RESISTORS (RL). USE RESISTORS IN THE RANGE OF 50Ω TO 75Ω CONNECTED TO VT. CURRENT-CONTROLLED HYSTERESIS REQUIRES A SINGLE EXTERNAL RESISTOR (RHYS_) FROM HYS_ TO GND IN THE RANGE OF 10kΩ TO 35kΩ. ________________________________________________________________ Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. 1 MAX9600/MAX9601/MAX9602 General Description The MAX9600/MAX9601/MAX9602 ultra-high-speed comparators feature extremely low propagation delay (500ps). These dual and quad comparators minimize propagation delay skew (10ps) and are designed for low propagation delay dispersion (30ps). These features make them ideal for applications where high-fidelity tracking of narrow pulses and low timing dispersion is critical. The differential input stage accepts a wide range of signals in the common-mode range from (VEE + 3V) to (VCC - 2V). The outputs are complementary digital signals, compatible with ECL and PECL systems, and provide sufficient current to directly drive transmission lines terminated in 50Ω. The MAX9600/MAX9601 dual-channel ECL and dual-channel PECL output comparators incorporate latch enable (LE_, LE_), and hysteresis (HYS_). The complementary latch-enable control permits tracking, track-hold, or samplehold mode of operations. The latch enables can be driven with standard ECL logic for MAX9600 and PECL logic for MAX9601. The MAX9602 quad-channel PECL output comparator is ideal for high-density packaging in limited board space. The MAX9600/MAX9601 are available in 20-pin TSSOP packages, and the MAX9602 is offered in a 24-pin TSSOP package. The MAX9600/MAX9601/MAX9602 are specified for operation from -40°C to +85°C. MAX9600/MAX9601/MAX9602 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators ABSOLUTE MAXIMUM RATINGS Input Current to Any Input Pin.............................................10mA HYS_ Current (MAX9600/MAX9601) ...................................-1mA Continuous Output Current .................................................50mA Continuous Power Dissipation (TA = +70°C) 20-Pin TSSOP (derate 10.9mW/oC above +70°C) ........879mW 24-Pin TSSOP (derate 12.2mW/°C above +70°C) ........975mW Operating Temperature Range ...........................-40°C to +85°C Junction Temperature ......................................................+150°C Storage Temperature Range .............................-65°C to +150°C Lead Temperature (soldering, 10s) .................................+300°C VS = VCC - VEE ...................................................................12.0V VCC to GND (MAX9600) .......................................................6.8V VEE to GND (MAX9600) ......................................................-6.5V Differential Input Voltage ...................................................±6.5V Latch Differential Voltage ......................................................±4V Common-Mode Input Voltage (VCM) .........................VEE to VCC VCCO_ to VEE (MAX9601/MAX9602)....................(VEE - 0.3V) to (VCC + 0.3V) LE_, LE_ to GND MAX9600 ....................................................(VEE - 0.3V) to 0.3V MAX9601 ..................................(VEE - 0.3V) to (VCCO_ + 0.3V) Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. DC ELECTRICAL CHARACTERISTICS (VCC = 5V, VEE = -5.2V, VCM = 0V, HYS_ = open (MAX9600/MAX9601), LE_ = low, LE_ = high (MAX9600/MAX9601), GND = 0V, RL = 50Ω to -2V (MAX9600), VCCO_ = 5V, RL = 50Ω to 3V (MAX9601/MAX9602), TA = TMIN to TMAX. Typical values are at TA = +25°C, unless otherwise noted.) (Note 1) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS INPUT (IN_+, IN_-) Input Differential Voltage Range VID Guaranteed by input bias current tests -5.2 +5.2 V Input Common-Mode Voltage VCM Guaranteed by input bias current tests VEE + 3 VCC - 2 V Input Offset Voltage VOS Input Offset-Voltage Tempco ±1 TA = +25°C TMIN ≤ TA ≤ TMAX ±9 TCVOS Input Offset-Voltage Channel Matching Input Bias Current Input Bias-Current Tempco Input Offset Current Input Resistance IB VID = ±5.2V µV/°C 1 mV 20 10 IOS mV 8 6 TCIB RIN ±5 0.3 µA nA/°C ±5 µA Differential mode (VID ≤ 10mV) 10 kΩ Common mode (VEE + 3V) ≤ VCM ≤ (VCC - 2V) 100 MΩ LATCH INPUT (LE_, LE_) Latch Differential Input Voltage Latch Input Voltage Range Latch Input Current VLD VLR ILE, ILE MAX9600 0.4 2.0 MAX9601 0.25 3.50 MAX9600 -2 0 MAX9601 VCCO_ ≥ 3.5V VCCO_ - 3.5 VCCO_ VCCO_ < 3.5V 0 Guaranteed by latch input current V V VCCO_ MAX9600 5 20 MAX9601 5 20 µA HYSTERESIS INPUT (HYS_) Input-Referred Hysteresis 2 MAX9600/MAX9601 RHYS = ∞ 0 RHYS = 16.4kΩ 30 _______________________________________________________________________________________ mV Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators (VCC = 5V, VEE = -5.2V, VCM = 0V, HYS_ = open (MAX9600/MAX9601), LE_ = low, LE_ = high (MAX9600/MAX9601), GND = 0V, RL = 50Ω to -2V (MAX9600), VCCO_ = 5V, RL = 50Ω to 3V (MAX9601/MAX9602), TA = TMIN to TMAX. Typical values are at TA = +25°C, unless otherwise noted.) (Note 1) PARAMETER SYMBOL CONDITIONS MIN TYP MAX -1.10 -0.94 -0.75 VCCO_ - 1.10 VCCO_ - 0.94 VCCO_ - 0.75 -1.2 -1.02 -0.8 VCCO_ - 1.2 VCCO_ - 1.02 VCCO_ - 0.8 UNITS OUTPUT (Q_, Q_) MAX9600 TA = +25°C MAX9601/MAX9602 MAX9600 Logic Output High Voltage VOH TA = TMIN MAX9601/MAX9602 MAX9600 TA = TMAX MAX9601/MAX9602 MAX9600 TA = +25°C MAX9601/MAX9602 MAX9600 Logic Output Low Voltage VOL TA = TMIN MAX9601/MAX9602 MAX9600 TA = TMAX MAX9601/MAX9602 -1.05 -0.87 -0.70 VCCO_ - 1.05 VCCO_ - 0.87 VCCO_ - 0.70 -1.95 -1.72 -1.55 VCCO_ - 1.95 VCCO_ - 1.72 VCCO_ - 1.55 -2.0 -1.78 -1.6 VCCO_ - 2.0 VCCO_ - 1.78 VCCO_ - 1.6 -1.9 -1.66 -1.50 VCCO_ - 1.9 VCCO_ - 1.66 VCCO_ - 1.5 V V SUPPLY Positive Supply Voltage VCC Guaranteed by output swing tests 4.3 5 6.3 V Negative Supply Voltage VEE Guaranteed by output swing tests -6 -5.2 -4 V Supply Voltage Difference VS VS = (VCC - VEE), guaranteed by output swing tests 9.5 11.5 V MAX9601/MAX9602 2.4 VCC V Logic Supply Voltage Positive Supply Current Negative Supply Current Power-Supply Dissipation VCCO_ ICC IEE PDISS (Note 2) (Note 2) (Note 2) MAX9600 16 24 MAX9601 19 27 MAX9602 28 39 MAX9600 21 28 MAX9601 24 33 MAX9602 38 49 MAX9600 190 266 MAX9601 220 307 MAX9602 338 450 mA mA mW Common-Mode Rejection Ratio CMRR (VEE + 3V) ≤ VCM ≤ (VCC - 2V) 70 dB Power-Supply Rejection Ratio PSRR 4.3V ≤ VCC ≤ 6.3V, -6V ≤ VEE ≤ -4V, 9.5V ≤ VS ≤ 11.5V 65 dB _______________________________________________________________________________________ 3 MAX9600/MAX9601/MAX9602 DC ELECTRICAL CHARACTERISTICS (continued) MAX9600/MAX9601/MAX9602 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators AC ELECTRICAL CHARACTERISTICS (VCC = 5V, VEE = -5.2V, VCM = 0V, HYS_ = open (MAX9600/MAX9601), LE_ = low, LE_ = high (MAX9600/MAX9601), CL = 5pF, GND = 0V, RL = 50Ω to -2V (MAX9600), VCCO_ = 5V, RL = 50Ω to 3V (MAX9601/MAX9602), TA = TMIN to TMAX. Typical values are at TA = +25°C, unless otherwise noted.) (Note 1) PARAMETER SYMBOL Tracking Frequency Toggle Rate fMAX VOUT = 550mVP-P, input overdrive = 100mV tPW VOUT = 550mVP-P, input overdrive = 100mV 250 tPD-, tPD+ Input overdrive = 100mV, Figure 1, (Note 3) 500 Minimum Pulse Width Propagation Delay Propagation Delay Tempco Propagation Delay Skew CONDITIONS MIN MAX 4 TCtPD tPDSKEW TYP 0.5 UNITS Gbps ps 700 ps ps/°C Input overdrive = 100mV (Note 4) 10 ps Propagation Delay Match Input overdrive = 100mV (Note 5) 40 ps Propagation Delay Dispersion Overdrive 10mV to 100mV 100mV to 2V 15 40 ps Propagation Delay Dispersion Common-Mode Voltage Propagation Delay Dispersion Input Slew Rate VIN = 1VP-P input overdrive = 100mV Propagation Delay Dispersion Duty Cycle Propagation Delay Dispersion Pulse Width Unit-to-Unit Propagation Delay Match Output Jitter Input Capacitance (VEE + 3V) ≤ VCM ≤ (VCC - 2V) 10 0.2V/ns to 10V/ns 40 10% to 90% at 250MHz 30 350ps to 1ns 20 ps Input overdrive = 100mV 50 ps VIN = 2VP-P; 50MHz 300 fs 2 pF CIN IN_+ or IN_, with respect to GND Latch Setup Time tLS Figure 1, (Notes 3, 6) 250 80 ps Latch Hold Time tLH Figure 1, (Notes 3, 6) 300 85 ps Minimum Pulse Width tLPW Figure 1 250 ps Latch to Output Delay tLPD Figure 1 200 ps Rise Time and Fall Time tR, tF 20% to 80%, Figure 1 200 ps All devices are 100% production tested at TA = +25°C. Specifications over temperature are guaranteed by design. Does not include output state current in Q_, Q_. Guaranteed by design. Propagation delay skew (tPDSKEW) is for a single channel and is the difference between the propagation delay to the highto-low output transition vs. the low-to-high output transition. Note 5: Propagation delay match is the difference of tPD- or tPD+ of one channel to the tPD- or tPD+ of another channel of the same device. Note 6: Latch setup and hold-timing specifications are for a differentially driven latch signal. Note 1: Note 2: Note 3: Note 4: 4 _______________________________________________________________________________________ Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators 510 500 490 480 500 480 460 440 3000 30 40 50 60 70 90 100 80 1000 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 100 200 300 400 500 INPUT OVERDRIVE (V) SOURCE IMPEDANCE (Ω) PROPAGATION DELAY vs. CAPACITIVE LOAD PROPAGATION DELAY vs. TEMPERATURE PROPAGATION DELAY vs. COMMON-MODE VOLTAGE 1000 750 500 250 540 530 520 510 500 490 470 10 15 20 CAPACITIVE LOAD (pF) 25 30 530 520 510 500 490 480 480 0 600 MAX9600/1/2 toc05 550 PROPAGATION DELAY (ps) MAX9600/1/2 toc04 1250 5 1500 INPUT OVERDRIVE (mV) 1500 0 2000 0 0 PROPAGATION DELAY (ps) 20 2500 500 400 10 MAX9600/1/2 toc03 520 3500 420 470 PROPAGATION DELAY (ps) MAX9600/1/2 toc02 540 MAX9600/1/2 toc05 PROPAGATION DELAY (ps) 520 560 PROPAGATION DELAY (ps) MAX9600/1/2 toc01 530 PROPAGATION DELAY vs. SOURCE IMPEDANCE PROPAGATION DELAY vs. INPUT OVERDRIVE (VOD = 0.1V TO 2V) PROPAGATION DELAY (ps) PROPAGATION DELAY vs. INPUT OVERDRIVE (VCC = 10mV TO 100mV) 470 -50 -25 0 25 50 TEMPERATURE (°C) 75 100 -3 -2 -1 0 1 2 3 COMMON-MODE VOLTAGE (V) _______________________________________________________________________________________ 5 MAX9600/MAX9601/MAX9602 Typical Operating Characteristics (VCC = 5V, VEE = -5.2V, VCM = 0V, HYS _ = open (MAX9600/MAX9601), LE_ = low, LE_ = high (MAX9600/MAX9601), CL = 5pF, GND = 0V, RL = 50Ω to -2V (MAX9600), VCCO_ = 5V, RL = 50Ω to 3V (MAX9601/MAX9602), input slew rate = 2V/ns, duty cycle = 50%, TA = TMIN to TMAX. Typical values are at TA = +25°C, unless otherwise noted.) (Note 1) Typical Operating Characteristics (continued) (VCC = 5V, VEE = -5.2V, VCM = 0V, HYS _ = open (MAX9600/MAX9601), LE_ = low, LE_ = high (MAX9600/MAX9601), CL = 5pF, GND = 0V, RL = 50Ω to -2V (MAX9600), VCCO_ = 5V, RL = 50Ω to 3V (MAX9601/MAX9602), input slew rate = 2V/ns, duty cycle = 50%, TA = TMIN to TMAX. Typical values are at TA = +25°C, unless otherwise noted.) (Note 1) PROPAGATION DELAY vs. INPUT SLEW RATE 520 510 500 490 480 530 520 510 500 490 550 470 520 510 500 490 480 460 450 470 400 500 600 700 800 900 1000 450 0 1 2 3 4 5 6 7 8 9 10 0 10 20 30 40 50 60 70 80 90 100 INPUT SLEW RATE (V/ns) DUTY CYCLE (%) INPUT OFFSET VOLTAGE vs. TEMPERATURE HYSTERESIS vs. RHYS TO GND HYSTERESIS vs. TEMPERATURE 70 MAX9600/1/2 toc10 60 HYSTERESIS (mV) 200 100 0 -100 35 50 40 30 RHYS = 16.4kΩ 34 33 HYSTERESIS (mV) 300 MAX9600/1/2 toc12 PULSE WIDTH (ps) MAX9600/1/2 toc11 300 32 31 30 29 28 20 27 -200 10 -300 0 -50 -25 0 25 50 TEMPERATURE (°C) 6 530 470 480 460 FREQUENCY = 250MHz 540 PROPAGATION DELAY (ps) 530 540 MAX9600/1/2 toc08 PROPAGATION DELAY (ps) 540 PROPAGATION DELAY (ps) MAX9600/1/2 toc07 550 PROPAGATION DELAY vs. DUTY CYCLE MAX9600/1/2 toc09 PROPAGATION DELAY vs. PULSE WIDTH INPUT OFFSET VOLTAGE (µV) MAX9600/MAX9601/MAX9602 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators 75 100 26 25 10 15 20 25 RHYS (kΩ) 30 35 40 -50 -25 0 25 50 TEMPERATURE (°C) _______________________________________________________________________________________ 75 100 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators INPUT BIAS CURRENT vs. INPUT VOLTAGE DIFFERENTIAL 6.5 6.0 5.5 5.0 TA = +85°C 15 10 TA = +25°C 5 0 -0.80 RL = 200Ω -0.85 RL = 100Ω -0.90 -0.95 -1.00 4.5 RL = 50Ω TA = -40°C -5 4.0 0 25 50 75 -4 -2 0 2 4 6 -50 -25 0 25 50 75 100 TEMPERATURE (°C) INPUT VOLTAGE DIFFERENTIAL (V) TEMPERATURE (°C) OUTPUT VOLTAGE LOW vs. TEMPERATURE OUTPUT RESPONSE TO 100MHz INPUT OUTPUT RESPONSE TO 4Gbps INPUT -1.60 MAX9600/1/2 toc16 -1.55 RL = 100Ω -1.65 -1.05 -6 100 VIN 50mV/div MAX9600/1/2 toc18 -25 MAX9600/1/2 toc17 -50 OUTPUT VOLTAGE LOW (V) -0.75 MAX9600/1/2 toc15 7.0 MAX9600/1/2 toc14 INPUT BIAS CURRENT (µA) 7.5 20 INPUT BIAS CURRENT (µA) MAX9600/1/2 toc13 8.0 OUTPUT VOLTAGE HIGH vs. TEMPERATURE OUTPUT VOLTAGE HIGH (V) INPUT BIAS CURRENT vs. TEMPERATURE VIN 50mV/div RL = 200Ω -1.70 QOUT - QOUT 200mV/div QOUT 200mV/div RL = 50Ω -1.75 -1.80 -50 -25 0 25 50 75 100 2ns/div 200ps/div TEMPERATURE (°C) _______________________________________________________________________________________ 7 MAX9600/MAX9601/MAX9602 Typical Operating Characteristics (continued) (VCC = 5V, VEE = -5.2V, VCM = 0V, HYS _ = open (MAX9600/MAX9601), LE_ = low, LE_ = high (MAX9600/MAX9601), CL = 5pF, GND = 0V, RL = 50Ω to -2V (MAX9600), VCCO_ = 5V, RL = 50Ω to 3V (MAX9601/MAX9602), input slew rate = 2V/ns, duty cycle = 50%, TA = TMIN to TMAX. Typical values are at TA = +25°C, unless otherwise noted.) (Note 1) MAX9600/MAX9601/MAX9602 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators Timing Diagram LATCH LATCH COMPARE VLR (MAX) LE_ VLE + VLE 2 VLD LE_ VLR (MIN) tLPW tLPD tFW(MIN) tLS tLH IN_VID VCM IN_+ tPD- tPD+ Q_ 80% 80% VOH + VOL 2 VOH – VOL 20% Q_ 20% tR tF Figure 1. MAX9600/MAX9601/MAX9602 Timing Diagram Pin Descriptions MAX9600/MAX9601 PIN 8 NAME FUNCTION MAX9600 MAX9601 1 1 QA Channel A Output 2 2 QA Channel A Complementary Output 3 — GND — 3 VCCOA 4 4 LEA Channel A Latch-Enable Input 5 5 LEA Channel A Latch-Enable Complementary Input 6, 15 6, 15 VEE Negative Supply Voltage 7, 14 7, 14 VCC Positive Supply Voltage 8 8 HYSA 9 9 INA- Channel A Minus Input 10 10 INA+ Channel A Plus Input 11 11 INB+ Channel B Plus Input 12 12 INB- Channel B Minus Input 13 13 HYSB 16 16 LEB Channel B Latch-Enable Complementary Input 17 17 LEB Channel B Latch-Enable Input Channel A Output Ground Channel A Output Driver Positive Supply Channel A Hysteresis Input Channel B Hysteresis Input 18 — GND — 18 VCCOB Channel B Output Ground 19 19 QB Channel B Complementary Output 20 20 QB Channel B Output Channel B Output Driver Positive Supply _______________________________________________________________________________________ Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators MAX9602 PIN NAME FUNCTION 1 INA+ Channel A Plus Input 2 INA- Channel A Minus Input 3, 9 VEE Negative Supply Voltage 4 INB+ Channel B Plus Input 5 INB- Channel B Minus Input 6, 12 VCC Positive Supply Voltage 7 INC+ Channel C Plus Input 8 INC- Channel C Minus Input 10 IND+ Channel D Plus Input 11 IND- Channel D Minus Input 13 QD Channel D Complementary Output 14 QD Channel D Output 15 VCCOD 16 QC Channel C Complementary Output 17 QC Channel C Output 18 VCCOC Channel D Output Driver Positive Supply Channel C Output Driver Positive Supply 19 QB Channel B Complementary Output 20 QB Channel B Output 21 VCCOB Channel B Output Driver Positive Supply 22 QA Channel A Complementary Output 23 QA Channel A Output 24 VCCOA Channel A Output Driver Positive Supply Detailed Description The MAX9600/MAX9601/MAX9602 ultra-high-speed comparators feature extremely low propagation delay (500ps). These dual and quad comparators minimize channel-to-channel skew (10ps) and are designed for low propagation delay dispersion. These features make them ideal for applications where high-fidelity tracking of narrow pulses and low timing dispersion is critical. The devices operate from either standard supply levels of -5.2V/+5V or shifted levels of -4.2V/+6V. The differential input stage accepts a wide range of signals in the common-mode range from (VEE + 3V) to (VCC - 2V) with a CMRR of 70dB (typ). The outputs are complementary digital signals, compatible with ECL and PECL systems, and provide sufficient current to directly drive transmission lines terminated in 50Ω. The ultra-fast operation makes signal processing possible at a data rate up to 4Gbps. Figure 2 shows a 1Gbps (500MHz) example with an input-signal level of 100mVP-P. 0V INPUT 50mV/div -0.9V OUTPUT 200mV/div -1.7V 500ps/div Figure 2. Signal Processed at 500MHz with Input-Signal Level of 100mVRMS. _______________________________________________________________________________________ 9 MAX9600/MAX9601/MAX9602 Pin Descriptions (continued) MAX9600/MAX9601/MAX9602 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators The MAX9600/MAX9601 incorporate latch-enable and hysteresis control. Hysteresis rejects noise and prevents oscillations on low-slew input signals. The latchenable control permits tracking or sampling mode of operations. Drive the complementary latch enable with standard ECL logic for MAX9600 and PECL logic for MAX9601. The MAX9602 quad-channel PECL output comparator does not include the latch-enable or hysteresis control functions. Applications Information Layout Special layout precautions exist due to the large gainbandwidth characteristic of the MAX9600/MAX9601/ MAX9602. Use a printed circuit board with a good, lowinductance ground plane. Mount 0.01µF ceramic decoupling capacitors as close to the power-supply inputs as possible. Minimize lead lengths on the inputs and outputs to avoid unwanted parasitic feedback around the comparators. Use surface-mount chip components to minimize lead inductance. Pay close attention to the bandwidth of the decoupling and terminating components. Use microstrip layout and terminations at the input and output. Avoid discontinuities in differential impedance. Maximize common-mode noise immunity by maintaining the distance between differential traces and avoid sharp corners. Minimize the number of vias to prevent impedance discontinuities. Match the electrical length of the traces to minimize skew. Input Slew-Rate Requirements As with all high-speed comparators, the high gainbandwidth product of these devices can create oscillation problems when the input goes through the threshold region. This is typically due to parasitic paths, which cause positive feedback to occur. For clean switching without oscillation or steps in the output waveform for the MAX9600/MAX9601, use an input with a slew rate of 5V/µs or faster. For the MAX9602, use a slew rate of 25V/µs or faster. The tendency of the part to oscillate is a function of the layout and source impedance of the circuit employed. Poor layout and larger source impedance increases the minimum slew-rate requirement. Adding hysteresis accommodates slower inputs (see the Hysteresis section). Hysteresis (MAX9600/MAX9601) Hysteresis can be introduced to prevent oscillation or multiple transitions due to noise. The MAX9600/ MAX9601 feature current-controlled hysteresis, which is set by placing a resistor between HYS_ and GND. The value of the current-setting resistor is determined by the 10 output voltage of 2.5V at HYS_ divided by the desired hysteresis current level in the range of 0 to 200µA. RHYS of 10kΩ to 35kΩ resistors provides hysteresis of 60mV to 5mV (see the Hysteresis vs. R HYS to GND graph in the Typical Operating Characteristics section). For a zero hysteresis (0µA hysteresis current), leave HYS_ open or connect it to VCC. Propagation Delay Dispersion Propagation delay dispersion is defined as a variation in propagation delay as a function of change in input conditions. In an automatic test system pin-driver electronics, for example, the dispersion determines the maximum edge resolution. Many factors can affect the dispersion, such as commonmode voltage, overdrive, input slew rate, duty cycle, and pulse width. The typical propagation delay dispersions of the MAX9600/MAX9601/MAX9602 are less than 10ps to 40ps (see the Typical Operating Characteristics and Electrical Characteristics sections). Comparators with Latch Enable (MAX9600/MAX9601) The latch-enable function allows the comparator to be used in a sampling mode. When LE_ is low (LE_ is high), the comparator tracks the input signal. When LE_ is driven high (LE_ is low), the outputs are forced to an unambiguous logic state, dependent on the input conditions at the time of the latch input transition. If the latch-enable function is not used, connect the appropriate LE_ input to a low ECL/PECL logic, and its complementary LE_ input to a high ECL/PECL logic level (see Table 1). The input range of the MAX9600 differential latchenable inputs is 400mV to 2V. The logic-input swing excursion must fall within an input-voltage range (VLR) of -2V to 0 to work properly. The input range of the MAX9601 differential latch-enable inputs is 250mV to 3.5V. The logic-input swing excursion must fall within an input-voltage range (VLR) of 0 to 3.5V for (VCCO_ < 3.5V) or VLR of (VCCO_ - 3.5V) to VCCO_ for (VCCO_ ≥ 3.5V) to work properly. Table 1. Latch-Enable Truth Table LATCH-ENABLE INPUT LE_ LE_ 0 1 1 0 0 1 0 1 OPERATION Compare Mode. Output follows input state. Latch Mode. Output latches to last known output state. Invalid condition, output is in unknown state. ______________________________________________________________________________________ Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators ECL/PCL The MAX9600/MAX9601/MAX9602 outputs are emitter followers that require external resistive connections to a voltage source (VT) more negative than the lowest VOL for proper static and dynamic operation. When properly terminated, the outputs provide appropriate levels, VOL or V OH , for ECL (MAX9600) or PECL (MAX9601/ MAX9602). Output-current polarity always sinks into the termination scheme during proper operation. ECL-output signal levels are referenced to GND, and PECL-output signals are referenced to VCCO_. Chip Information MAX9600 TRANSISTOR COUNT: 558 MAX9601 TRANSISTOR COUNT: 600 MAX9602 TRANSISTOR COUNT: 608 PROCESS: Bipolar Pin Configurations TOP VIEW QA 1 20 QB QA 1 20 QB INA+ 1 24 VCCOA QA 2 19 QB QA 2 19 QB INA- 2 23 QA VEE 3 22 QA GND 3 18 GND VCCOA 3 LEA 4 17 LEB LEA 4 16 LEB LEA 5 LEA 5 MAX9600 18 VCCOB MAX9601 17 LEB INB+ 4 16 LEB INB- 5 21 VCCOB MAX9602 20 QB VEE 6 15 VEE VEE 6 15 VEE VCC 6 VCC 7 14 VCC VCC 7 14 VCC INC+ 7 18 VCCOC HYSA 8 13 HYSB INC- 8 17 QC 16 QC 19 QB HYSA 8 13 HYSB INA- 9 12 INB- INA- 9 12 INB- VEE 9 INA+ 10 11 INB+ INA+ 10 11 INB+ IND+ 10 15 VCCOD IND- 11 14 QD VCC 12 13 QD TSSOP-20 TSSOP-20 TSSOP-24 ______________________________________________________________________________________ 11 MAX9600/MAX9601/MAX9602 Timing Information (MAX9600/MAX9601) The timing diagram (Figure 1) illustrates the operation of a comparator with latch enable. The top line of the diagram illustrates a latch-enable pulse. Initially, the latch-enable input (LE, LE_) is differentially high, which places the comparator in latch mode. When the input signal (IN_+, IN_-) switches from low to high, the output (Q_, Q_) remains latched to the previous low state. When the latch-enable input goes differentially low, starting the compare function, the output responds to the input and transitions to high after a time (tLPD). The leading edges of the subsequent input signal switch the comparator after time interval tPD+ or tPD- (depending on the direction of the input transitions) until a high latch-enable pulse places the device in latch mode again. The input signal must occur at minimum time (tLS) before the latch rising edge, and must maintain its state for at least tLH after the rising edge. A minimum latch-pulse width (tLPW) of 250ps (typ) is needed for proper latch operation. Package Information (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to www.maxim-ic.com/packages.) TSSOP4.40mm.EPS MAX9600/MAX9601/MAX9602 Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 12 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 © 2002 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products.