CLC005 CLC005 ITU-T G.703 Cable Driver with Adjustable Outputs Literature Number: SNLS031A CLC005 ITU-T G.703 Cable Driver with Adjustable Outputs General Description Key Specifications National's Comlinear CLC005 is a monolithic, high-speed cable driver designed for the ITU-T G.703 serial digital data transmission standard. The CLC005 drives 75 transmission lines (Belden 8281 or equivalent) at data rates from DC to over 622 Mbps. Output signal waveforms produced by the CLC005 comply with G.703 specifications. Controlled output rise and fall times (650 ps typical) minimize transitioninduced jitter. The output voltage swing, typically 2.0V, set by an accurate, low-drift internal bandgap reference, delivers a 1.0V swing to back-matched and terminated 75 cable. Output swing is adjustable from 0.7 Vp-p to 2.2 Vp-p using external resistors. The CLC005's class AB output stage consumes less power than other designs, 185 mW with both outputs terminated, and requires no external bias resistors. The differential inputs accept a wide range of digital signals from 200 mVp-p to G.703 levels within the specified common-mode limits. All this make the CLC005 an excellent general purpose high speed driver for digital applications. The CLC005 is powered from a single +5V or -5.2V supply and comes in an 8-pin SOIC package. n n n n 650 ps rise and fall times Data rates to 622 Mbps 200 mV differential input Low residual jitter (25 pspp ) Features n n n n n No external pull-down resistors Adjustable output amplitude Differential input and output Low power dissipation Single +5V or -5.2V supply Applications n n n n n ITU-T G.703, Sonet/SDH, and ATM compatible driver Digital routers and distribution amplifiers Coaxial cable driver for digital transmission line Twisted pair driver Buffer applications Typical Application DS100144-2 (c) 2001 National Semiconductor Corporation DS100144 www.national.com CLC005 ITU-T G.703 Cable Driver with Adjustable Outputs August 1998 CLC005 Typical Performance Characteristic DS100144-1 Connection Diagram (8-Pin SOIC) DS100144-3 Order Number CLC005AJE See NS Package Number M08A www.national.com 2 Package Thermal Resistance JA Surface Mount AJE JC Surface Mount AJE Reliability Information Transistor count MTTF If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Supply Voltage Output Current Maximum Junction Temperature Storage Temperature Range Lead Temperature (Soldering 10 seconds) ESD Rating (Human Body Model) 6V 30 mA +125C -65C to +150C 72 254 Mhr Recommended Operating Conditions +300C 1000V Electrical Characteristics 125C/W 105C/W Supply Voltage Range (V CC -VEE) +4.5V to +5.5V (VCC = 0V, VEE = -5V; unless otherwise specified). Parameter Condition Typ +25C Min/Max +25C Min/Max 0C to +70C Min/Max -40C to +85C Units STATIC DC PERFORMANCE Supply Current, Loaded 150 @ 270 Mbps (Notes 5, 7) 37 - - - mA Supply Current, Unloaded (Note 3) 34 28/37 26/39 26/39 mA V Output HIGH Voltage (VOH ) (Note 3) -1.7 -2.0/1.4 -2.0/1.4 -2.0/1.4 Output LOW Voltage (VOL ) (Note 3) -3.7 -4.0/3.4 -4.0/3.4 -4.0/3.4 V Input Bias Current (Note 4) 10 30 50 50 A Output Swing REXT = (Note 3) 2.0 1.86/2.14 1.86/2.14 1.86/2.14 V Output Swing REXT = 10 k (Note 5) 1.30 - - - V Common Mode Input Range Upper Limit -0.7 -0.8 -0.8 -0.8 V Common Mode Input Range Lower Limit -2.6 -2.5 -2.5 -2.5 V Minimum Differential Input Swing (Note 5) 200 200 200 200 mV Power Supply Rejection Ratio (Note 3) 26 20 20 20 dB 650 425/825 400/850 400/850 ps AC PERFORMANCE Output Rise and Fall Time (Notes 3, 6, 7) Overshoot (Note 5) 5 % Propagation Delay (Note 5) 1.0 ns Duty Cycle Distortion (Note 5) 50 ps Residual Jitter (Note 5) 25 Input Capacitance (Note 5) 1.0 Output Resistance (Note 5) 10 Output Inductance (Note 5) 6 nH - - - pspp MISCELLANEOUS PERFORMANCE pF Note 1: "Absolute Maximum Ratings" are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices should be operated at these limits. The table of "Electrical Characteristics" specifies conditions of device operation. Note 2: Min/Max ratings are based on product characterization and simulation. Individual parameters are tested as noted. Outgoing quality levels are determined from tested parameters. Note 3: Spec is 100% tested at +25C, sample tested at +85C. Note 4: Spec is 100% tested at +35C at wafer probe. Note 5: Spec is guaranteed by design. Note 6: Measured between the 20% and 80% levels of the waveform. Note 7: Measured with both outputs driving 150, AC coupled at 270 Mbps. 3 www.national.com CLC005 Absolute Maximum Ratings (Note 1) CLC005 Operation INPUT INTERFACING The CLC005 has high impedance, emitter-follower buffered, differential inputs. Single-ended signals may also be input. Transmission lines supplying input signals must be properly terminated close to the CLC005. Either A.C. or D.C. coupling as in Figure 2 or Figure 3 may be used. Figures 2, 4 and Figure 5 show how Thevenin-equivalent resistor networks Load Type Resistor to V CC are used to provide input termination and biasing. The input D.C. common-mode voltage range is 0.8V to 2.5V below the positive power supply (VCC). Input signals plus bias should be kept within the specified common-mode range. For an 800 mVP-P input signal, typical input bias levels range from 1.2V to 2.1V below the positive supply. (R1) Resistor to V ECL, 50, 5V, VT=2V 82.5 124 ECL, 50, 5.2V, VT=2V 80.6 133 ECL, 75, 5V, VT=2V 124 187 ECL, 75, 5.2V, VT=2V 121 196 800mVP-P, 50, 5V, VT=1.6V 75.0 154 800mVP-P, 75, 5V, VT=1.6V 110 232 800mVP-P, 2.2K, 5V, VT=1.6V 3240 6810 EE (R2) DS100144-4 FIGURE 1. Input Stage DS100144-5 FIGURE 2. AC Coupled Input www.national.com 4 CLC005 Operation (Continued) DS100144-6 FIGURE 3. DC Coupled Input OUTPUT INTERFACING The CLC005's class AB output stage, Figure 6, requires no standing current in the output transistors and therefore requires no biasing or pull-down resistors. Advantages of this arrangement are lower power dissipation and fewer external components. The output may be either D.C. or A.C. coupled to the load. A bandgap voltage reference sets output voltage levels which are compatible with F100K and 10K ECL when correctly terminated. The outputs do not have the same output voltage temperature coefficient as 10K. Therefore, noise margins will be reduced over the full temperature range when driving 10K ECL. Noise margins will not be affected when interfacing to F100K since F100K is fully voltage and temperature compensated. DS100144-7 FIGURE 4. Single Ended 50 ECL Input DS100144-8 FIGURE 5. Differential 50 ECL Input DS100144-9 FIGURE 6. Output Stage 5 www.national.com CLC005 Operation (Continued) DS100144-10 FIGURE 7. Differential Input DC Coupled Output OUTPUT AMPLITUDE ADJUSTMENT The high and low output levels of the CLC005 are set by a circuit shown simplified in Figure 8. Output high and low levels may be set independently with external resistor networks connected between REXT-H (pin 3), REXT-L (pin 4) and the power supplies. The resistor networks affect the high and low output levels by changing the internally generated bias voltages, VH and V L. The nominal high and low output levels are VCC-1.7V and VCC-3.7V, respectively, when the pins REXT-H and REXT-L are left unconnected. Though the internal components which determine output voltage levels have accurate ratios, their absolute values may be controlled only within about 15% of nominal. Even so, without external adjustment, output voltages are well controlled. A final design should accommodate the variation in externally set output voltages due to the CLC005's part-to-part and external component tolerances. Output voltage swing may be reduced with the circuit shown in Figure 9. A single resistance chosen with the aid of the graph, Figure 10, is connected between pins 3 and 4. Output voltage swing may be increased with the circuit of Figure 11. Figure 12 is used to estimate a value for resistor R. Note that both of these circuits and the accompanying graphs assume that the CLC005 is loaded with the standard 150. Be aware that output loading will affect the output swing and the high www.national.com and low levels. It may be necessary to empirically select resistances used to set output levels when the D.C. loading on the CLC005 differs appreciably from 150. DS100144-11 FIGURE 8. Equivalent Bias Generation Circuit 6 CLC005 Operation (Continued) DS100144-12 FIGURE 9. Differential Input Reduced Output DS100144-13 FIGURE 10. Resistance Pins 3 to 4 vs Output Voltage Reduced Output @ 150 Load DS100144-14 FIGURE 11. Differential Input Increased Output 7 www.national.com CLC005 Operation (Continued) DS100144-15 FIGURE 12. Resistance Pins 3 to 4 vs Output Voltage Increased Output @ 150 Load OUTPUT RISE AND FALL TIMES Output load capacitance can significantly affect output rise and fall times. The effect of load capacitance, stray or otherwise, may be reduced by placing the output back-match resistor close to the output pin and by minimizing all interconnecting trace lengths. Figure 13 shows the effect on risetime of parallel load capacitance across a 150 load. DS100144-16 FIGURE 13. Rise Time vs CL www.national.com 8 A schematic, parts list and layout for a suitable evaluation board are given on the following page. The artwork includes trace, silk screen and ground layers. The individual printed circuit board is available unassembled from National Semiconductor. To order this evaluation board, part number CLC730056, contact your local sales representative or the National Semiconductor Customer Response Center in your area. (This evaluation board is identical to that for the CLC007 for which some of the listed parts are not required.) The evaluation board is a guide to proper circuit layout and makes prototyping and measurement-taking easy. Since the board is designed to accommodate many of the application circuits possible with the CLC005, your particular application may not require all of the listed parts or may require different values. The evaluation board may be powered from standard ECL supply voltages by installing the two jumpers in the locations labeled "-5". For PECL supply voltages, install the jumpers in the locations labeled "+5". Printed circuit board layout affects the performance of the CLC005. The following guidelines will aid in achieving satisfactory device performance. * Use a ground plane or power/ground plane sandwich design for optimum performance. * Bypass device power with a 0.01 F monolithic ceramic capacitor in parallel with a 6.8 F tantalum electrolytic capacitor located no more than 0.1' (2.5 mm) from the device power pins. * Provide short, symmetrical ground return paths for: -- inputs, -- supply bypass capacitors and -- the output load. * Provide short, grounded guard traces located -- under the centerline of the package, -- 0.1' (2.5 mm) from the package pins -- on both top and bottom of the board with connecting vias. DS100144-17 CLC005 Evaluation Board Schematic 9 www.national.com CLC005 EVALUATION BOARD PCB Layout Recommendations CLC005 PCB Layout Recommendations Item (Continued) Reference Designator Part Description Qty 1 C1, C2, C8, C9 0.1 F SMD Capacitor, Size 1206 4 2 C5, C60 33 pF SMD Capacitor, Size 1206 2 3 C7, C10, C13, C14 0.01 F SMD Tantalum Capacitor, Size 12062 4 4 C11, C12 6.8 F SMD Tantalum Capacitor, Size 6032 2 5 J1, J2 BNC PC Amphenol #31-5329-52RFX 2 6 J3, J4 BNC PC Amphenol #31-5329-72RFX 2 7 R3, R1 124 SMD Resistor, Size 1206 2 8 R4, R5 82.5 SMD Resistor, Size 1206 2 9 R6,R7 75 SMD Resistor, Size 1206 2 10 R11 2.4 k SMD Resistor, Size 1206 1 11 R12 3 k SMD Resistor, Size 1206 1 12 U1 CLC005AJE Cable Driver 1 13 +5, -5 Jumper 4 14 VR1 10 k Potentiometer, Bourns 3299 1 www.national.com 10 CLC005 PCB Layout Recommendations (Continued) DS100144-18 DS100144-19 DS100144-20 DS100144-21 11 www.national.com CLC005 ITU-T G.703 Cable Driver with Adjustable Outputs Physical Dimensions inches (millimeters) unless otherwise noted Order Number CLC005AJE NS Package Number M08A LIFE SUPPORT POLICY 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 AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. 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