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| 5V/3.3V 1:9 DIFFERENTIAL CLOCK DRIVER (w/ENABLE) ClockWorksTM SY10E111AE/LE SY100E111AE/LE FEATURES s s s s s s s s s s 5V and 3.3V power supply options 200ps part-to-part skew 50ps output-to-output skew Differential design VBB output Enable Input Voltage and temperature compensated outputs 75K input pulldown resistors Fully compatible with Motorola MC10/100E111 Available in 28-pin PLCC package DESCRIPTION The SY10/100E111AE/LE are low skew 1-to-9 differential drivers designed for clock distribution in mind. The SY10/ 100E111AE/LE's function and performance are similar to the popular SY10/100E111, with the improvement of lower jitter and the added feature of low voltage operation. It accepts one signal input, which can be either differential or single-ended if the VBB output is used. The signal is fanned out to 9 identical differential outputs. An enable input is also provided such that a logic HIGH disables the device by forcing all Q outputs LOW and all Q outputs HIGH. The E111AE/LE is specifically designed, modeled and produced with low skew as the key goal. Optimal design and layout serve to minimize gate to gate skew within a device, and empirical modeling is used to determine process control limits that ensure consistent tpd distributions from lot to lot. The net result is a dependable, guaranteed low skew device. To ensure that the tight skew specification is met it is necessary that both sides of the differential output are terminated into 50, even if only one side is being used. In most applications, all nine differential pairs will be used and therefore terminated. In the case where fewer that nine pairs are used, it is necessary to terminate at least the output pairs on the same package side as the pair(s) being used on that side, in order to maintain minimum skew. Failure to do this will result in small degradations of propagation delay (on the order of 10-20ps) of the output(s) being used which, while not being catastrophic to most designs, will mean a loss of skew margin. The E111AE/LE, as with most other ECL devices, can be operated from a positive VCC supply in PECL mode. This allows the E111AE/LE to be used for high performance clock distribution in +5V/+3.3V systems. Designers can take advantage of the E111AE/LE's performance to distribute low skew clocks across the backplane or the board. In a PECL environment, series or Thevenin line terminations are typically used as they require no additional power supplies. For systems incorporating GTL, parallel termination offers the lowest power by taking advantage of the 1.2V supply as terminating voltage. BLOCK DIAGRAM Q0 Q0 Q1 Q1 Q2 Q2 Q3 Q3 IN IN Q4 Q4 Q5 EN Q5 Q6 Q6 Q7 Q7 Q8 VBB Q8 Rev.: D Amendment: /0 October, 1998 1 Rev. Date: Micrel ClockWorksTM SY10E111AE/LE SY100E111AE/LE PIN CONFIGURATION Q0 Q0 Q1 VCCO PIN NAMES Pin Q1 Q2 Q2 Function Differential Input Pair Enable Input Differential Outputs VBB Output VCC to Output IN, IN EN 25 24 23 22 21 20 19 VEE EN IN VCC IN VBB NC Q0, Q0 -- Q8, Q8 18 17 26 27 28 1 2 3 4 5 6 7 8 9 10 11 Q3 Q3 Q4 VCCO Q4 Q5 Q5 VBB VCCO PLCC TOP VIEW J28-1 16 15 14 13 12 Q8 Q8 Q7 VCCO Q7 ECL DC ELECTRICAL CHARACTERISTICS VEE = VEE (Min.) to VEE (Max.); VCC = GND TA = -40C Symbol VOH Parameter Min. Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. -890 -880 Min. -1020 -1025 TA = 0C Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. -840 -880 TA = +25C Min. -980 -1025 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. -810 -880 TA = +85C Min. -910 -1025 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. -720 -880 mV -1650 -1950 -1550 -1810 -890 -880 -1170 -1165 -1630 -1950 -1620 -1810 -840 -880 -1130 -1165 -1630 -1950 -1620 -1810 -810 -880 -1060 -1165 -1595 -1620 mV -720 -880 mV -1500 -1950 -1475 -1810 -1.30 -1.26 150 -- -- 66 66 -1.38 -1.38 -- 0.5 0.5 -- -- -1480 -1950 -1475 -1810 -1.27 -1.26 150 -- -- 66 66 -1.35 -1.38 -- 0.5 0.5 -- -- -1480 -1950 -1475 -1810 -1.25 -1.26 150 -- -- 66 66 -1.31 -1.38 -- 0.3 0.5 -- -- -1445 -1475 V -1.43 -1.38 -- 0.5 0.5 -- -- -1.19 -1.26 150 -- -- mA 66 78 A A Unit mV Output HIGH Voltage 10EL -1080 100EL -1085 Output LOW Voltage 10EL -1950 100EL -1830 Input HIGH Voltage 10EL -1230 100EL -1165 Input LOW Voltage 10EL -1950 100EL -1810 Output Reference Voltage 10EL 100EL Input HIGH Current Input LOW Current 10EL 100EL Power Supply Current 10EL 100EL VOL VIH VIL VBB IIH IIL IEE NOTE: 1. Parametric values specified at: 5 volt Power Supply Range 3 volt Power Supply Range Q6 Q6 100E111AE Series: -4.2V to -5.5V. 10E111AE Series -4.75V to -5.5V. 10/100E111LE Series: -3.0V to -3.8V. 2 Micrel ClockWorksTM SY10E111AE/LE SY100E111AE/LE 3.3V PECL DC ELECTRICAL CHARACTERISTICS(1) VCC = +3.0V to +3.8V, VEE = GND TA = -40C Symbol VOH TA = 0C Min. 2280 2275 1350 1490 2130 2135 1350 1490 1.92 1.92 -- 0.5 0.5 -- -- TA = +25C Max. 2460 2420 1670 1680 2460 2420 1820 1825 2.03 2.04 150 -- -- 66 66 TA = +85C Min. 2390 2275 1350 1490 2240 2135 1350 1490 1.99 1.92 -- 0.3 0.5 -- -- Parameter Output HIGH Voltage(2) 10EL 100EL Output LOW Voltage(2) 10EL 100EL Input HIGH Voltage(2) 10EL 100EL Input LOW Voltage(2) 10EL 100EL Output Reference Voltage(2) 10EL 100EL Input HIGH Current Input LOW Current 10EL 100EL Power Supply Current 10EL 100EL Min. 2220 2215 1350 1470 2070 2135 1350 1490 1.87 1.92 -- 0.5 0.5 -- -- Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 2110 2120 1650 1750 2410 2420 1800 1825 2.00 2.04 150 -- -- 66 66 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Min. 2320 2275 1350 1490 2170 2135 1350 1490 1.95 1.92 -- 0.5 0.5 -- -- Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 2490 2420 1670 1680 2490 2420 1820 1825 2.05 2.04 150 -- -- 66 66 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 2580 2420 Unit mV VOL mV 1705 1680 mV 2580 2420 mV 1855 1825 V 2.11 2.04 150 -- -- mA 66 78 A A VIH VIL VBB IIH IIL IEE NOTES: 1. Parametric values specified at: 3 volt Power Supply Range 10/100E111LE Series: 2. These values are for VCC = 3.3V. Level specifications will vary 1:1 with VCC. +3.0V to +3.8V. 5V PECL DC ELECTRICAL CHARACTERISTICS(1) VCC = VCC (Min.) to VCC (Max.); VEE = GND TA = -40C Symbol VOH TA = 0C Min. 3980 3975 3050 3190 3830 3835 3050 3190 3.62 3.62 -- 0.5 0.5 -- -- TA = +25C Max. 4160 4120 3370 3380 4160 4120 3520 3525 3.73 3.74 150 -- -- 66 66 TA = +85C Min. 4090 3975 3050 3190 3940 3835 3050 3190 3.69 3.62 -- 0.3 0.5 -- -- Parameter Output HIGH Voltage(2) 10EL 100EL Output LOW Voltage(2) 10EL 100EL Input HIGH Voltage(2) 10EL 100EL Input LOW Voltage(2) 10EL 100EL Output Reference Voltage(2) 10EL 100EL Input HIGH Current Input LOW Current 10EL 100EL Power Supply Current 10EL 100EL Min. 3920 3915 3050 3170 3770 3835 3050 3190 3.57 3.62 -- 0.5 0.5 -- -- Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 4110 4120 3350 3450 4110 4120 3500 3525 3.70 3.74 150 -- -- 66 66 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Min. 4020 3975 3050 3190 3870 3835 3050 3190 3.65 3.62 -- 0.5 0.5 -- -- Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 4190 4120 3370 3380 4190 4120 3520 3525 3.75 3.74 150 -- -- 66 66 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 4280 4120 Unit mV VOL mV 3405 3380 mV 4280 4120 mV 3555 3525 V 3.81 3.74 150 -- -- mA 66 78 A A VIH VIL VBB IIH IIL IEE NOTES: 1. Parametric values specified at: 5 volt Power Supply Range 100E111AE Series: 10E111AE Series +4.2V to +5.5V. +4.75V to +5.5V. 2. These values are for VCC = 5V. Level specifications will vary 1:1 with VCC. 3 Micrel ClockWorksTM SY10E111AE/LE SY100E111AE/LE AC ELECTRICAL CHARACTERISTICS(1) VEE = VEE (Min.) to VEE (Max.); VCC = GND TA = -40C Symbol tPLH tPHL Parameter Propagation Delay to Output IN (differential)(2) IN (single-ended)(3) Enable(4) Disable(4) Within-Device Skew(5) Part-to-Part Skew (Diff.) Set-up Time, EN to IN(6) Hold Time, IN to Minimum Input EN(7) IN(8) Release Time, EN to Common Mode Rise/Fall Times 20% to 80% Min. Typ. 380 280 400 400 -- -- 250 0 350 250 -1.5 200 -- -- -- -- -- -- -- -- -- -- -- -- Max. 680 780 900 900 75 250 0 -200 100 -- -0.4 650 TA = 0C Min. Typ. 430 330 450 450 -- -- 200 0 300 250 -1.5 200 -- -- -- -- -- -- 0 -200 100 -- -- -- Max. 630 730 850 850 50 200 -- -- -- -- -0.4 600 TA = +25C Min. Typ. 430 330 450 450 -- -- 200 0 300 250 -1.5 200 -- -- -- -- -- -- 0 -200 100 -- -- -- TA = +85C Max. 630 730 850 850 50 200 -- -- -- -- -0.4 600 ps ps ps ps mV V ps Unit ps 630 730 850 850 50 200 -- -- -- -- -0.4 600 430 330 450 450 -- -- 200 0 300 250 -1.5 200 -- -- -- -- -- -- 0 -200 100 -- -- -- Max. Min. Typ. tskew tS tH tR VPP VCMR tr tf Swing(9) Range(10) NOTES: 1. Parametric values specified at: 100E111AE Series: -4.2V to -5.5V. 10E111AE Series -4.75V to -5.5V. 3 volt Power Supply Range 10/100E111LE Series: -3.0V to -3.8V. 2. The differential propagation delay is defined as the delay from the crossing points of the differential input signals to the crossing point of the differential output signals. 3. The single-ended propagation delay is defined as the delay from the 50% point of the input signal to the 50% point of the output signal. 4. Enable is defined as the propagation delay from the 50% point of a negative transition on EN to the 50% point of a positive transition on Q (or a negative transition on Q). Disable is defined as the propagation delay from the 50% point of a positive transition on EN to the 50% point of a negative transition on Q (or a positive transition on Q). 5. The within-device skew is defined as the worst case difference between any two similar delay paths within a single device. 6. The set-up time is the minimum time that EN must be asserted prior to the next transition of IN/IN to prevent an output response greater than 75mV to that IN/IN transition (see Figure 1). 7. The hold time is the minimum time that EN must remain asserted after a negative going IN or a positive going IN to prevent an output response greater than 75mV to that IN/IN transition (see Figure 2). 8. The release time is the minimum time that EN must be de-asserted prior to the next IN/IN transition to ensure an output response that meets the specified IN to Q propagation delay and output transition times (see Figure 3). 9. VPP (min) is defined as the minimum input differential voltage which will cause no increase in the propagation delay. The VPP (min) is AC limited for the E111AE/LE, as a differential input as low as 50mV will still produce full ECL levels at the output. 10. VCMR is defined as the range within the VIH level may vary, with the device still meeting the propagation delay specification. the VIL level must be such that the peak-to-peak voltage is less than 1.0V and greater than or equal to VPP (min). For PECL operation: VCMR (max) = VCC - |VCMR (max)| and VCMR (min) = VCC - |VCMR (min)| 5 volt Power Supply Range 4 Micrel ClockWorksTM SY10E111AE/LE SY100E111AE/LE TIMING DIAGRAMS IN IN ts 50% EN Q Q 75 mV Figure 1. Set-up Time IN IN EN th 50% 75 mV Q Q 75 mV Figure 2. Hold Time IN IN tr EN 50% 75 mV Q Q Figure 3. Release Time PRODUCT ORDERING CODE 5V Ordering Code SY10E111AEJC SY10E111AEJCTR SY100E111AEJC SY100E111AEJCTR Package Type J28-1 J28-1 J28-1 J28-1 Operating Range Commercial Commercial Commercial Commercial VEE Range (V) -4.75 to -5.5 -4.75 to -5.5 -4.2 to -5.5 -4.2 to -5.5 5V Ordering Code SY10E111AEJI SY10E111AEJITR SY100E111AEJI SY100E111AEJITR Package Type J28-1 J28-1 J28-1 J28-1 Operating Range Industrial Industrial Industrial Industrial VEE Range (V) -4.75 to -5.5 -4.75 to -5.5 -4.2 to -5.5 -4.2 to -5.5 3.3V SY10E111LEJC SY10E111LEJCTR SY100E111LEJC SY100E111LEJCTR J28-1 J28-1 J28-1 J28-1 Commercial Commercial Commercial Commercial -3.0 to -3.8 -3.0 to -3.8 -3.0 to -3.8 -3.0 to -3.8 3.3V SY10E111LEJI SY10E111LEJITR SY100E111LEJI SY100E111LEJITR J28-1 J28-1 J28-1 J28-1 Industrial Industrial Industrial Industrial -3.0 to -3.8 -3.0 to -3.8 -3.0 to -3.8 -3.0 to -3.8 5 Micrel ClockWorksTM SY10E111AE/LE SY100E111AE/LE 28 LEAD PLCC (J28-1) Rev. 03 MICREL-SYNERGY TEL 3250 SCOTT BOULEVARD SANTA CLARA CA 95054 USA FAX + 1 (408) 980-9191 + 1 (408) 914-7878 WEB http://www.micrel.com This information is believed to be accurate and reliable, however no responsibility is assumed by Micrel for its use nor for any infringement of patents or other rights of third parties resulting from its use. No license is granted by implication or otherwise under any patent or patent right of Micrel Inc. (c) 2000 Micrel Incorporated 6 |
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