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| 19-0379; Rev 0; 3/95 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector _______________General Description The MAX3270 is a complete Clock Recovery and Data Retiming IC for 155Mbps and 622Mbps SDH/SONET and ATM applications. The MAX3270 meets Bellcore and CCITT jitter tolerance specifications ensuring errorfree data recovery. Recovered clock and data are phase aligned using a fully integrated phase-locked loop (PLL). An output frequency monitor (FM) is included to detect loss of PLL acquisition or a loss of input data. The MAX3270 has differential ECL input and output interfaces, so it is less susceptible to noise in a highfrequency environment. The fully integrated PLL includes an integrated phase-frequency detector that eliminates the need for external references. ____________________________Features o Supports Both 155Mbps and 622Mbps Clock Recovery and Data Retiming o Fully Integrated Phase/Frequency Detector o Capable of Switching to an External Clock o Differential 100K ECL Data and Clock I/Os o Output Monitor Provides Lock Detection o No External Reference Clock Required MAX3270 ________________________Applications 155Mbps (STM-1/OC-3)/622Mbps (STM-4/ OC-12) SDH/SONET Transmission Systems 155Mbps/622Mbps ATM/SONET Access Nodes Add/Drop Multiplexers Cross-Connects ______________Ordering Information PART MAX3270EMH TEMP. RANGE -40C to +85C PIN-PACKAGE 44 MQFP Pin Configuration appears at end of data sheet. ___________________________________________________Typical Operating Circuit -2V +5V 11 VTTL 3 50 -2V 50 -2V +5V 4 41 42 13 18 20 14 SDIP 39 DVCC 17 19 DVCC DVCC 38 DVCC 7 AVCC 16 AVCC 15 AVCC 5 AVCC 24 OVCC 27 OVCC 29 OVCC 32 OVCC RDOP RDON RCOP RCON SDIN PHADJ VR EXCS CRS RST EXC 2 -2V EXCS AND CRS ARE CONNECTED FOR 622Mbps OPERATION. -4.5V -4.5V -4.5V ANALOG SUPPLY CRP 26 25 31 30 28 50 50 50 50 450 -4.5V MAX3270 FILP FILG AVEE1 AVEE2 GVEE DVEE DVEE DVEE DVEE DVEE FILN FM 9 8 10 6 2.2F 20 2.2F 20 50 12 1 35 36 22 21 34 -4.5V DIGITAL SUPPLY BYPASS SUPPLIES WITH 0.1F AND 0.01F CAPACITORS. DECOUPLE AVEE1, AVEE2, AND GVEE SUPPLY PINS. ________________________________________________________________ Maxim Integrated Products 1 Call toll free 1-800-998-8800 for free samples or literature. 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector MAX3270 ABSOLUTE MAXIMUM RATINGS Supply Voltages VTTL to GND .....................................................-0.5V to +8.0V VCC to GND .......................................................-0.5V to +8.0V VEE to GND........................................................-8.0V to +0.5V SDIP, SDIN, EXC ...................................................-8.0V to +0.5V RDOP, RDON, RCOP, RCON, CRP.......................-8.0V to +0.5V EXCS, RST, CRS....................................................-0.5V to +8.0V FILP, FILG, FILN ....................................................-8.0V to +0.5V PHADJ, VR ............................................................-8.0V to +8.0V FM .........................................................................-8.0V to +8.0V Input Differential Voltage Level, SDIP, SDIN ......................+3.0V Continuous Power Dissipation (TA = +85C) .......................1.3W Operating Temperature Range ...........................-40C to +85C Storage Temperature Range .............................-55C to +150C Lead Temperature (soldering, 10sec) .............................+300C 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. ELECTRICAL CHARACTERISTICS (VEE = -4.5V 5%, VTTL = 5V 5%, TA = -40C to +85C, unless otherwise noted.) PARAMETER Positive Voltage Supply (with respect to ground) Negative Voltage Supply (with respect to ground) Static Supply Current from VTTL Static Supply Current from VEE ECL INPUTS: EXC, SDIP, SDIN Input High Voltage Input Low Voltage Input High Current Input Low Current Output High Voltage Output Low Voltage LOW-POWER ECL OUTPUT: CRP Output High Voltage Output Low Voltage TTL INPUTS: CRS, RST, EXCS Input High Voltage Input Low Voltage Input High Current Input Low Current PHASE ADJUST INPUTS: PHADJ, VR Input Bias Current IBIAS VR = PHADJ = 0, TA = +25C 0 10 A VIH VIL IIH IIL VTTL = 5.00V, VIN = 2V VTTL = 5.00V, VIN = 0.8V 0 0 2 0.8 40 40 V V A A VOH VOL Loaded with 470 to VEE Loaded with 470 to VEE -1025 -1830 -955 -1705 -870 -1620 mV mV VIH VIL IIH IIL VOH VOL VIN = VOH (typ) VIN = VOL (typ) Loaded with 50 to -2V Loaded with 50 to -2V -1165 -1830 0 -100 -1025 -1830 -955 -1705 -870 -1475 100 100 -870 -1550 mV mV A nA mV mV SYMBOL VTTL VEE ITTL IVEE CONDITIONS MIN 4.75 -4.725 TYP 5.00 -4.50 2.4 150 MAX 5.25 -4.275 5 210 UNITS V V mA mA ECL OUTPUTS: RCOP, RCON, RDOP, RDON 2 _______________________________________________________________________________________ 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector AC ELECTRICAL CHARACTERISTICS (continued) (VEE = -4.5V, VTTL = 5V, TA = 25C, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS Loaded with 50 to -2V and 5pF to GND Loaded with 50 to -2V and 5pF to GND MIN TYP MAX UNITS MAX3270 ECL OUTPUTS: RDOP, RDON, RCOP, RCON Transition Time 20% to 80% Time Difference between RDO and RCO tr, tf TD 600 100 ps ps PFD AND FILTER AMPLIFIER TEST LEVELS Output Offset Voltage of the Monitor Amplifier Gain of the Monitor Amplifier Filter Amplifier Open-Loop Voltage Gain VCO TEST PARAMETERS; CPR OUTPUT Center Frequency Frequency Range Mean Frequency Sensitivity Frequency Sensitivity to Power-Supply Voltage PLL ELECTRICAL SPECIFICATIONS Frequency of VCO Incremental Tuning Sensitivity (Incremental Slope, f/Vt) Phase-Detector Gain Transconduction Gain of Filter Amplifier Phase Offset Sensitivity, /PHADJ FO DFO KO KOV FILP and FILN shorted, PFD = neutral state FILP - FILN = 1.6V FILP - FILN = 1.6V FILP and FILN shorted 38.00 6 3.75 39.50 10 6 550 MHz MHz MHz/V kHz/V VO GFM GOL PHADJ = 0, FILP and FILN shorted PHADJ = 0 FILP and FILN open -35 0.95 21 26 35 1.05 mV V/V dB FO KO KD Gm KPHADJ ft = 622.08MHz 622.08 75 192 1.25 2 MHz MHz/V mV/rad mA/V rad/V __________________________________________Typical Operating Characteristics VEE SUPPLY CURRENT vs. TEMPERATURE MAX3270-TOC9 CRP FREE-RUNNING FREQUENCY (VCO/16) vs. DIE TEMPERATURE MAX3270-TOC5 190 185 VEE SUPPLY CURRENT (mA) 180 175 170 165 160 155 150 -40 -20 0 20 40 60 80 -4.25V -4.5V -4.75V 39.0 38.9 FREQUENCY (MHz) 38.8 38.7 38.6 38.5 38.4 38.3 MEASURED 100 0 10 20 30 40 50 60 70 80 90 100 TEMPERATURE (C) TEMPERATURE (C) _______________________________________________________________________________________ 3 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector MAX3270 __________________________________________Typical Operating Characteristics JITTER TOLERANCE (155Mbps, 223-1 PRBS) MAX3270-TOC1 10.0 AMPLITUDE (UI p-p) 1.0 DATA 0.1 10 100 1k FREQUENCY (Hz) 10k 100k BELLCORE MASK 1M JITTER TOLERANCE (622Mbps, 223-1 PRBS) MAX3270-TOC2 10.0 AMPLITUDE (UI p-p) 1.0 DATA BELLCORE MASK 0.1 10 100 1k FREQUENCY (Hz) 10k 100k 1M 4 _______________________________________________________________________________________ 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector __________________________________________Typical Operating Characteristics 155Mbps RECOVERED CLOCK AND RETIMED DATA (SINGLE ENDED) 622Mbps RECOVERED CLOCK AND RETIMED DATA (SINGLE ENDED) MAX3270 DATA DATA CLOCK CLOCK 2ns/div 500ps/div RECOVERED CLOCK JITTER (155Mbps, 27-1 PRBS, 5.1ps RMS) RECOVERED CLOCK JITTER (155Mbps, 1-0 PATTERN, 4.7ps RMS) RECOVERED CLOCK JITTER (622Mbps 27-1 PRBS 9.0ps RMS) RF = 20 CF = 2.2F RF = 20 CF = 2.2F RF = 20 CF = 2.2F 10ps/div Mean 40.61ns RMS 5.13ps PkPk 45.6ps 1 2 3 68.961% 95.844% 99.717% Mean 40.65ns RMS 4.7ps PkPk 38.4ps 10ps/div 1 2 3 69.674% 95.558% 99.698% Mean 38.68ns RMS 9.049ps PkPk 79.4ps 10ps/div 1 2 3 69.747% 95.453% 99.582% _______________________________________________________________________________________ 5 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector MAX3270 ______________________________________________________________Pin Description PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15, 16 17, 19, 38, 39 18 20 21, 22, 34, 35, 36 23, 33, 37, 40, 43, 44 24, 27, 29, 32 25 26 28 30 31 41 42 NAME GVEE AVEE1 SDIP SDIN AVCC FM AVCC FILG FILP FILN VTTL AVEE2 EXCS EXC AVCC DVCC CRS RST DVEE N.C. OVCC RDON RDOP CRP RCON RCOP PHADJ VR Negative Supply for Input Buffers: -4.5V Serial Data Input: 155Mbps or 622Mbps. Differential ECL Positive. Serial Data Input: 155Mbps or 622Mbps. Differential ECL Negative. Ground for Input Buffers: 0V Frequency Monitor Output. This pin monitors the input voltage to the VCO. When the PLL is locked, the pin will be 0V. Guard-Ring Positive Supply to Epi: 0V Loop Filter Ground. This pin connects to an external filter. Loop Filter Positive. This pin connects to an external filter. Loop Filter Negative. This pin connects to an external filter. TTL Positive Supply: +5.0V Negative Supply for VCO: -4.5V External Clock-Select TTL Input. A logical high selects the external clock. External Clock. Single-ended ECL input. Ground for VCO: 0V Digital Ground for Mux: 0V Clock-Rate Select TTL Input. This selects the clock rate to be either 155Mbps or 622Mbps. A logichigh level selects the 622Mbps mode. Resets all digital flip-flops, TTL input. Reset is assert when low. Digital Negative Supply: -4.5V No Connection Output Driver Ground: 0V Negative Recovered Data Output, differential ECL output: 155Mbps or 622Mbps. Positive Recovered Data Output, differential ECL output: 155Mbps or 622Mbps. Clock-Reference Output Divide-by-4. ECL low-power single-ended: 38Mbps or 155Mbps. Negative Recovered Clock Output, differential ECL output: 155Mbps or 622Mbps. Positive Recovered Clock Output, differential ECL output: 155Mbps or 622Mbps. Phase Adjust. This is an analog adjustment that varies the static phase between the input data and the recovered clock. If not used, this input should be grounded. The range is from -1V to 1V. Phase Reference Voltage: 0V. The PHADJ pin compares to this voltage. Set to ground. FUNCTION Guard-Ring Negative Supply to Substrate: -4.5V 6 _______________________________________________________________________________________ 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector _______________Detailed Description The block diagram of Figure 1 shows the MAX3270's architecture. The phase-locked loop (PLL) consists of a phase/frequency detector (PFD), a loop filter amplifier, and a voltage-controlled oscillator (VCO). bandwidth. The input data stream is sampled by quadrature components of the VCO clock, generating a difference frequency. Depending on the rotation of the difference frequency, the PFD will drive the VCO so that the difference frequency is driven to zero. Once frequency acquisition is obtained, the frequency detector will return to a neutral state. MAX3270 Phase Detector The phase detector produces a voltage proportional to the phase difference of the incoming data and the output of the recovered clock. Because of its feedback nature, the PLL will drive the error voltage to zero, making the phase difference zero and aligning the recovered clock to the incoming data. An external phase-adjustment pin (PHADJ) allows the user to vary phase alignment. Loop Filter and VCO The PLL is a second-order transfer function whose bandwidth is set by the loop filter. The VCO is integrated into the PLL and always operates at 622MHz. The center frequency is tightly controlled by laser trimming, limiting frequency drift when lock is lost. 155Mbps or 622Mbps mode is selected by the clock-rate select (CRS) pin. CRS selects the inputs to multiplexer MUX2. The internal VCO can be bypassed with an external clock applied to the EXC input. The external clock select (EXCS) controls the input selections to multiplexers MUX1 and MUX2. Frequency Detector A frequency detector is also incorporated into the PLL. Frequency detection aids in the acquisition of the input data; this frequency-aided acquisition is necessary during start-up conditions, since the input data stream and VCO difference frequency may be outside the PLL PHADJ VR FILP FILN FM 100k ECL D Q CLK 100k ECL CRP 38/155MHz 100k ECL RCOP RECOVERED CLOCK RCON EXCS SDIP SDIN PHASE/FREQ DETECTOR CLK RST FILTER AMP VCO 622.08MHz RDOP RECOVERED DATA RDON DIVIDEBY-4 MUX 2 MUX 3 1 0 0 1 155MHz INPUT 622MHz MUX 1 0 OUTPUT 1 EXC MAX3270 RST CRS Figure 1. Block Diagram _______________________________________________________________________________________ 7 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector MAX3270 __________________Design Procedure Selecting the Data Rate The MAX3270 is intended for use in SDH/SONET systems operating at 155.52Mbps or 622.08Mbps data rates. TTL inputs (CRS and EXCS) are provided for selecting the recovered clock rate (Table 1). It is also possible to switch to an externally supplied clock by enabling the EXC input. The EXC input is a high-speed single-ended ECL interface capable of handling serial clock rates of 155MHz and 622MHz. MAX3270 Gm F(s) FILP Rf FILG Rf FILN s Gm ( ___ + 1) wz F(s) = ____________ Cf s 1 wz = ____ Rf Cf Rf = 20 Cf = 2.2F Table 1. MAX3270 Logic Table EXCS 0 0 1 1 CRS 1 0 0 1 RCOP/RCON 155.52Mbps 622.08Mbps EXC EXC/4 CRP 38.88Mbps 155.52Mbps EXC/4 EXC/16 Cf Cf Figure 2. Loop Filter RECOVERED DATA OUTPUT (213-1 PRBS WITH 200 CONSECUTIVE ONES BER <10-12, 622Mbps) Setting the Loop Filter The loop filter within the PLL consist of a transconductance amplifier and the external filter elements Rf and Cf (Figure 2). The closed-loop bandwidth of a PLL can be approximated by: KD KO Gm Rf where KD is the gain of the phase detector, KO is the gain of the VCO, and Gm is the transconductance of the filter amplifier. Because this filter is an integrator, a zero in the open-loop gain is required for stability. This zero is set by the following equation: wz = 1 / (Rf Cf) where the recommended external values are Rf = 20 and Cf = 2.2F. To decrease the PLL's closed-loop bandwidth, reduce the value of Rf. Decreasing this bandwidth will improve the MAX3270's jitter transfer performance but reduce jitter tolerance. The MAX3270 has been designed (using the recommended values of Rf and Cf) to meet the Bellcore and CCITT specifications for jitter tolerance of a Network Element. Carefully consider the application if a reduction in loop bandwidth is desired. By reducing Rf an order of magnitude, the PLL's bandwidth becomes more sensitive to the internal tolerances of the IC. As a result, the loop bandwidth may have a wider variation. If Rf is reduced, then Cf should also be increased to maintain loop stability and minimize jitter peaking. 200 ONES PRBS 1.532s 100ns/div 2.532s Figure 3. Recovered Data Output The MAX3270 is optimally designed to acquire lock and to provide a bit-error rate (BER) of less than 10-12 for long strings of consecutive zeros or ones. Using the recommended external values for Rf = 20 and Cf = 2.2F, measured results show that the MAX3270 can tolerate more than 200 consecutive ones or zeros. Figure 3 shows a bit stream of 213 - 1 PRBS with 200 consecutive ones. 8 _______________________________________________________________________________________ 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector Input and Output Termination The MAX3270 data and clock I/Os (SDIP, SDIN, RDOP, RDON, RCOP, RCON, and EXC) are open emitters, designed to interface with ECL signal levels. It is important to bias these ports appropriately. A circuit that provides a Thevenin equivalent of 50 to -2V should be used with fixed-impedance transmission lines for proper termination. Figure 4 shows some typical input and output termination methods. The serial data input signals (SDIP and SDIN) are the differential inputs to an emitter coupled pair. As a result, the MAX3270 can accept differential input signal levels as low as 250mV. The serial input (SDIP) can also be driven single-ended by externally biasing SDIN to the center of the voltage swing (approximately -1.3V). Make sure that the differential inputs and outputs each see the same termination impedance for balanced operation. CRP is also an open-emitter ECL output, but it requires a termination resistor of 450 to -4.5V. If this output is not used, reduce power by connecting CRP to V EE through a resistor valued at 10k or more. The MAX3270's performance can be greatly affected by circuit board layout and design. Use good high-frequency design techniques, including minimizing ground inductances and using fixed-impedance transmission lines on the data and clock signals. Powersupply decoupling should be placed as close to the VEE and VTTL pins as possible. AVEE1, AVEE2 and GVEE should each have their own bypass/decoupling elements, independent of each other and any other 4.5V supply. Make sure to isolate the inputs from the outputs to reduce feedthrough. MAX3270 __________Applications Information Lock Detection The MAX3270 has an output (FM) that monitors the input voltage to the VCO. FM is an analog output that can be used as a flag to indicate that the PLL is locked. Under normal operation, the loop is locked and the FM output is approximately equal to 0V. When the PLL is unlocked, the VCO will drift. The FM output monitors this drift and will equal approximately 1V in the limit. Phase Adjust In some applications, the optimum alignment point between the recovered clock and the serial data is not at the center of the eye diagram. The MAX3270 has a PHADJ input that can be used in these applications to introduce a phase difference between the recovered clock and the serial data. When no phase difference is desired, this input should be set to 0V. The VR pin is the reference input for PHADJ and is normally tied to GND. Zo = 50 Zo = 50 ECL INPUTS ECL OUTPUTS Zo = 50 Zo = 50 90.9 Zo = 50 50 50 -2V Zo = 50 111 90.9 MAX3270 ECL INPUTS ECL OUTPUTS 90.9 Zo = 50 Zo = 50 90.9 MAX3270 50 -2V CRP 50 -4.5V 450 -4.5V 111 CRP 450 -4.5V 111 111 -4.5V 50 to -2V TERMINATION THEVENIN EQUIVALENT TERMINATION Figure 4. Typical Input and Output Terminations _______________________________________________________________________________________ 9 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector MAX3270 __________________Pin Configuration TOP VIEW N.C. N.C. VR PHADJ N.C. DVCC DVCC N.C. DVEE DVEE DVEE 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 GVEE AVEE1 SDIP SDIN AVCC FM AVCC FILG FILP FILN VTTL 1 2 3 4 5 6 7 8 9 10 11 MAX3270 N.C. OVCC RCOP RCON OVCC CRP OVCC RDOP RDON OVCC N.C. 10 ______________________________________________________________________________________ AVEE2 EXCS EXC AVCC AVCC DVCC CRS DVCC RST DVEE DVEE 12 13 14 15 16 17 18 19 20 21 22 MQFP 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector ________________________________________________________Package Information DIM MILLIMETERS MIN MAX 2.032 2.388 0.102 0.254 1.930 2.134 0.305 0.457 0.102 0.254 12.954 13.462 9.906 10.109 3.429 REF 12.954 13.462 9.906 10.109 3.429 REF 0.800 REF 0.660 0.940 0 10 INCHES MIN MAX 0.080 0.094 0.004 0.010 0.076 0.084 0.012 0.018 0.004 0.010 0.510 0.530 0.390 0.398 0.315 REF 0.510 0.530 0.390 0.398 0.315 REF 0.315 REF 0.025 0.037 0 10 21-0826A MAX3270 SEE DETAIL "A" C DETAIL "A" A2 L A1 A D D1 D3 E E1 E3 A A1 A2 b C D D1 D3 E E1 E3 e L 44-PIN MQFP METRIC QUAD FLAT PACK b e ______________________________________________________________________________________ 11 155Mbps/622Mbps Clock Recovery and Data Retiming IC with Fully Integrated Phase/Frequency Detector MAX3270 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 (c) 1995 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. |
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