MOTOROLA Order this document by MC100EP111/D SEMICONDUCTOR TECHNICAL DATA MC100EP111 Low-Voltage 1:10 Differential ECL/PECL/HSTL Clock Driver The MC100EP111 is a low skew 1-to-10 differential driver, designed with clock distribution in mind. It accepts two clock sources into an input multiplexer. The ECL/PECL input signals can be either differential or single-ended if the VBB output is used. HSTL inputs can be used when the EP111 is operating under PECL conditions. The selected signal is fanned out to 10 identical differential outputs. LOW-VOLTAGE 1:10 DIFFERENTIAL ECL/PECL/HSTL CLOCK DRIVER * 100ps Part-to-Part Skew typical * 35ps Output-to-Output Skew typical * Differential Design * VBB Output * Low Voltage VEE Range of -2.25 to -3.8V for ECL * Low Voltage VCC Range of +2.25 to +3.8V for PECL and HSTL * 75k Input Pulldown Resistors * ECL/PECL Outputs FA SUFFIX 32-LEAD LQFP PACKAGE CASE 873A-02 The EP111 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 ten differential pairs will be used and therefore terminated. In the case where fewer than ten 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 MC100EP111, as with most other ECL devices, can be operated from a positive VCC supply in PECL mode. This allows the EP111 to be used for high performance clock distribution in +3.3V or +2.5V systems. Designers can take advantage of the EP111'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 more information on using PECL, designers should refer to Motorola Application Note AN1406/D. The MC100EP111 may be driven single-endedly utilizing the VBB bias output with the CLK0 input. If a single-ended signal is to be used, the VBB pin should be connected to the CLK0 input and bypassed to ground via a 0.01 F capacitor. The VBB output can only source/sink 0.2mA; therefore, it should be used as a switching reference for the MC100EP111 only. Part-to-Part Skew specifications are not guaranteed when driving the MC100EP111 single-endedly. This document contains information on a new product. Specifications and information herein are subject to change without notice. 06/00 Motorola, Inc. 2000 1 REV 1 MC100EP111 Q3 Q3 Q4 Q4 Q5 Q5 Q6 PIN NAMES Q6 Function Pins 24 23 22 21 20 19 18 VCCO 25 16 VCCO Q2 26 15 Q7 Q2 27 14 Q7 Q1 28 13 Q8 Q1 29 12 Q8 Q0 30 11 Q9 Q0 31 10 Q9 VCCO 32 Differential ECL/PECL Input Pair Differential HSTL Input Pair Differential PECL Outputs Active Clock Select Input VBB Output CLK0, CLK0 CLK1, CLK1 Q0:9, Q0:9 CLK_SEL VBB 17 FUNCTION MC100EP111 2 VCC CLK_SEL 9 1 3 4 5 6 7 CLK_SEL Active Input 0 1 CLK0, CLK0 CLK1, CLK1 VCCO 8 CLK0 CLK0 VBB CLK1 CLK1 VEE Figure 1. 32-Lead TQFP Pinout (Top View) CLK0 CLK0 CLK1 10 0 Q0:9 Q0:9 1 CLK1 VBB CLK_SEL Figure 2. Logic Symbol ABSOLUTE MAXIMUM RATINGS* Symbol Parameter Min Max Unit VCC Supply Voltage -0.3 4.6 V VI Input Voltage -0.3 VCC + 0.3 V IIN Input Current 20 mA TStor Storage Temperature Range 125 C -40 * Absolute maximum continuous ratings are those values beyond which damage to the device may occur. Exposure to these conditions or conditions beyond those indicated may adversely affect device reliability. Functional operation under absolute-maximum-rated conditions is not implied. THERMAL CHARACTERISTICS Proper thermal management is critical for reliable system operation. This is especially true for high fanout and high drive capability products. Generic thermal information is available for the Motorola Clock Driver products. The means of calculating die power, the corresponding die temperature and the relationship to longterm reliability is addressed in the Motorola application note AN1545. MOTOROLA 2 TIMING SOLUTIONS MC100EP111 AAAAAAAA AAAAAAAAAAAAAAAAAAAA AAA AAAAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAAAA AAAAAAAAAAAAAAAAAAAA AAAAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAAAAA AAA AAAAAA AAA AAAAAA AAA AAA AAAAAA AAA AAAA AAA AAAA AAA AAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAAAAA AAAAAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAAAA A AAAAA A AAAAAAAAAAAAAAAAAAAA AA A AAA A AA A AA A AAA A AA A AA A AAA A AAA AA A AAAAAAAA AA A AAAAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAAAAAAA AAAAAAAAAAAAAAAAAAAA AAAAAAAA AAA AAAAAA AAA A AAA AAA AAA A AAA AAA AAA A AAA AAA AAA A AAAAA AAAA AAAA AAAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAAAAA AAA AAAAAA AAA AAAAAA AAA AAA AAAAAA AAA AAAA AAA AAAA AAA AAAA AAA AAAAAA AAAAAA AAA AAAAAA AAA AAAAAA AAA AAA AAAAAA AAA AAAAAA AAAAAA AAA AAAAAA AAA AAAAAA AAA AAA AAAAAA AAA AAAAAA AAAAAAAA AAAAAAAA AAAAAAAA AAA AAAAAA AAAAAA AAA AAAAAA AAA AAAAAA AAA AAA AAAAAA AAAAAAAA AAAAAAAA AAAAAAAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAAAAAAA AAAAAAAA AAAAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAAAAA AAA AAA AAAA AAA AAAAAA AAA AAA AAAAAA AAA AAAA AAA AAAA AAA AAAAAA AAAAAA AAA AAAA AAA AAA AAAA AAAA AAA AAA A AAA AAAAA AAAA AAA AAA AAAAAA AAAAAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAA A AA A AAA A AA A AA A AAA A AA A AA A AAA A AA A AA A AAAAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA DC CHARACTERISTICS Symbol IEE ICC Characteristic Internal supply current Output and Internal supply current Vsupply : VCC=VCC0 = 0.0 volts, VEE = -2.25 to -3.80 volts -40C typ Min Max Min 45 85 270 360 25C typ 70C typ Max Min Max Unit Condition 60 95 65 105 mA 290 380 300 380 mA 150 A Absolute value of current All outputs terminated 50 to VCC-2.0V Includes pullup/pulldown resisters IIN Input current VBB Internally generated bias voltage Internally generated bias voltage -1.38 -1.26 -1.38 -1.26 -1.38 -1.26 V -1.38 -1.16 -1.38 -1.16 -1.38 -1.16 V Input HIGH voltage (CLK_SEL) Input LOW voltage (CLK_SEL) -1.165 -0.880 -1.165 -0.880 -1.165 -0.880 V -1.810 -1.475 -1.810 -1.475 -1.810 -1.475 V Input amplitude (CLK0,CLK0) Common mode voltage (CLK0,CLK0) 0.5 1.3 0.5 1.3 0.5 1.3 V Difference of input VIH - VIL1 -0.3 V Cross point of input average (VIH,VIL) VBB VIH VIL VPP VCMR VOH VOL VOUTpp Output HIGH voltage Output LOW voltage Differential output swing 150 VEE+1.0 -1.30 -1.85 350 DC CHARACTERISTICS Symbol IEE ICC Characteristic Internal supply current Output and Internal supply current -0.3 150 VEE+1.0 -0.3 -0.95 -1.40 VEE+1.0 -1.20 -1.90 500 -0.90 -1.50 IOH = -30 mA IOL = -5 mA mV Vsupply : VCC=VCC0 = 2.25 to 3.80 volts, VEE = 0.0 volts Min -40C typ Max Min 45 85 270 360 25C typ 70C typ Max Min Max Unit Condition 60 95 65 105 mA 290 380 300 380 mA 150 A Absolute value of current All outputs terminated 50 to VCC-2.0V Includes pullup/pulldown resisters IIN Input current VBB Internally generated bias voltage Internally generated bias voltage VCC-1.38 VCC-1.26 VCC-1.38 VCC-1.26 VCC-1.38 VCC-1.26 V VCC-1.38 VCC-1.16 VCC-1.38 VCC-1.16 VCC-1.38 VCC-1.16 V Input HIGH voltage (CLK_SEL) Input LOW voltage (CLK_SEL) VCC-1.165 VCC-0.880 VCC-1.165 VCC-0.880 VCC-1.165 VCC-0.880 V VCC-1.810 VCC-1.475 VCC-1.810 VCC-1.475 VCC-1.810 VCC-1.475 V VBB VIH VIL VPP VCMR Vdif Vx for VEE= -3.0 to -3.8 volts for VEE= -2.25 to -2.75 volts 150 150 for VCC= 3.0 to 3.8 volts for VCC= 2.25 to 2.75 volts Difference of input VIH - VIL1 Cross point of input average (VIH,VIL) Input amplitude (CLK0,CLK0) Common mode voltage (CLK0,CLK0) 0.5 1.3 0.5 1.3 0.5 1.3 V 1 VCC-0.3 1 VCC-0.3 1 VCC-0.3 V Differential input voltage (CLK1,CLK1) Input crossover voltage (CLK1,CLK1) 0.4 1.9 0.4 1.9 0.4 1.9 V Difference of input VIH - VIL 0.68 0.9 0.68 0.9 0.68 0.9 V Cross point of input average (VIH,VIL) VOH VOL VOUTpp Output HIGH voltage Output LOW voltage Differential output swing Note 1. VPP minimum and maximum required to maintain AC specifications. Actual device function will tolerate minimum VPP of 100 mV. ECLinPS and ECLinPS Lite DL140 -- Rev 3 VCC-1.30 VCC-1.85 350 VCC-0.95 VCC-1.40 VCC-1.20 VCC-1.90 500 3 VCC-0.90 VCC-1.50 IOH = -30 mA IOL = -5 mA mV MOTOROLA MC100EP111 AAAAAAAA AAAAAAAAAAAAAAAAAAAAAA AAAAAAAA AAAAAAAA AAAAAAAAAAAAAAAAAAAAAA AAAAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAAAA AAAAAAAAAAAAAAAAAAAAAA AAAAAAAA AAA AAAAAA AAA A AAA AAA AAA A AAA AAA AAA A AAA AAA AAA AAAAAA AAAA AAAA AAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAAAA A AAAAA A AAAAAAAAAAAAAAAAAAAA AA A AAA A AA AAAA AA A AAA A AA A AA A AAA AAA AAA A AAAAAAAA AA A AAAAA AAAAAA AAA AAAA AAA AAAA AAA AAA AAAA AAA AAAAAA AAAAAAAA AAAAAAAAAAAAAAAAAAAA AAA AAAAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAAAAA AAAAAAAA AAAAAAAAAAAAAAAAAAAA AAA AAAAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA A AAA A AAA A AAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAA AAA AAAA AAA AAA AAAA AAA AAA AAAA AAA AAA AAAAAA AAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AC CHARACTERISTICS - PECL Input Symbol Tpd Tsk(part) Tsk(output) Tpd Characteristic Vsupply : VCC=VCC0 = 2.25 to 3.80 volts, VEE = 0.0 volts -OR- VCC=VCC0 = 0.0 volts, VEE = -2.25 to -3.80 volts Min CLK0,CLK0 to all Q0,Q0 thru Q9,Q9 Part to part skew Output to output skew for given part Part to part skew Output to output skew for given part Fmax Maximum frequency Tr / Tf Output rise and fall times (20%, 80%) 350 Tpd 500 35 280 25C typ 380 Max 530 150 70 Characteristic 600 35 30 300 Min 70C typ 450 150 65 620 320 70 30 1500 100 AC CHARACTERISTICS - HSTL Input Tsk(part) Tsk(output) Min Max Unit Condition 600 ps Nominal (single input condition VPP = 0.650V, VCMR = VCC-0.800V Note 2 30 150 60 ps ps Note 2 Note 2 700 ps Note 2 330 60 ps ps Note 2 Note 2 1500 MHz 300 ps Max Unit Condition 650 ps Nominal (single input condition Vdif = 1.000V, Vx = VEE+0.750V Note 2 150 60 ps ps Note 2 Note 2 750 ps All input conditions (full input range) Note 2 320 60 ps ps Note 2 Note 2 250 MHz 300 ps Differential propagation delay Tsk(part) Tsk(output) Tpd Max Differential propagation delay CLK0,CLK0 to all Q0,Q0 thru Q9,Q9 Symbol -40C typ 300 370 320 65 30 1500 100 300 100 Differential propagation delay CLK1,CLK1 to all Q0,Q0 thru Q9,Q9 All outputs terminated 500 to VCC-2.0V Vsupply : VCC=VCC0 = 2.25 to 3.8 volts, VEE = 0.0 volts Min -40C typ Max Min 25C typ Max Min 70C typ Differential propagation delay CLK1,CLK1 to all Q0,Q0 thru Q9,Q9 Part to part skew Output to output skew for given part Functional to 1.5 GHz Timing specifications apply up to 1.0 GHz 380 530 35 300 420 570 150 70 600 30 350 150 65 650 30 430 Tsk(part) Tsk(output) Part to part skew Output to output skew for given part Fmax Maximum frequency Tr / Tf Output rise and fall times (20%, 80%) Note 2. For operation with 2.5 volt supply, the output termination is 50 to VEE. For operation at 3.3 volt supply, the output termination is 50 to VCC-2v. MOTOROLA 35 300 70 500 30 250 100 300 300 65 30 250 100 300 4 100 Functional to 250 MHz Timing specifications apply up to 250 MHz All outputs terminated 500 to VCC-2.0V TIMING SOLUTIONS MC100EP111 OUTLINE DIMENSIONS A -T-, -U-, -Z- FA SUFFIX PLASTIC LQFP PACKAGE CASE 873A-02 ISSUE A 4X A1 32 0.20 (0.008) AB T-U Z 25 1 -U- -T- B V AE P B1 DETAIL Y 17 8 V1 AE DETAIL Y 9 4X -Z- 9 0.20 (0.008) AC T-U Z S1 S DETAIL AD G -AB- 0.10 (0.004) AC AC T-U Z -AC- BASE METAL EE EE EE EE F 8X M_ R J M N D 0.20 (0.008) SEATING PLANE SECTION AE-AE W K X DETAIL AD ECLinPS and ECLinPS Lite DL140 -- Rev 3 Q_ GAUGE PLANE H 0.250 (0.010) C E 5 NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: MILLIMETER. 3. DATUM PLANE -AB- IS LOCATED AT BOTTOM OF LEAD AND IS COINCIDENT WITH THE LEAD WHERE THE LEAD EXITS THE PLASTIC BODY AT THE BOTTOM OF THE PARTING LINE. 4. DATUMS -T-, -U-, AND -Z- TO BE DETERMINED AT DATUM PLANE -AB-. 5. DIMENSIONS S AND V TO BE DETERMINED AT SEATING PLANE -AC-. 6. DIMENSIONS A AND B DO NOT INCLUDE MOLD PROTRUSION. ALLOWABLE PROTRUSION IS 0.250 (0.010) PER SIDE. DIMENSIONS A AND B DO INCLUDE MOLD MISMATCH AND ARE DETERMINED AT DATUM PLANE -AB-. 7. DIMENSION D DOES NOT INCLUDE DAMBAR PROTRUSION. DAMBAR PROTRUSION SHALL NOT CAUSE THE D DIMENSION TO EXCEED 0.520 (0.020). 8. MINIMUM SOLDER PLATE THICKNESS SHALL BE 0.0076 (0.0003). 9. EXACT SHAPE OF EACH CORNER MAY VARY FROM DEPICTION. DIM A A1 B B1 C D E F G H J K M N P Q R S S1 V V1 W X MILLIMETERS MIN MAX 7.000 BSC 3.500 BSC 7.000 BSC 3.500 BSC 1.400 1.600 0.300 0.450 1.350 1.450 0.300 0.400 0.800 BSC 0.050 0.150 0.090 0.200 0.500 0.700 12_ REF 0.090 0.160 0.400 BSC 1_ 5_ 0.150 0.250 9.000 BSC 4.500 BSC 9.000 BSC 4.500 BSC 0.200 REF 1.000 REF INCHES MIN MAX 0.276 BSC 0.138 BSC 0.276 BSC 0.138 BSC 0.055 0.063 0.012 0.018 0.053 0.057 0.012 0.016 0.031 BSC 0.002 0.006 0.004 0.008 0.020 0.028 12_ REF 0.004 0.006 0.016 BSC 1_ 5_ 0.006 0.010 0.354 BSC 0.177 BSC 0.354 BSC 0.177 BSC 0.008 REF 0.039 REF MOTOROLA MC100EP111 NOTES MOTOROLA 6 TIMING SOLUTIONS MC100EP111 NOTES ECLinPS and ECLinPS Lite DL140 -- Rev 3 7 MOTOROLA MC100EP111 Motorola reserves the right to make changes without further notice to any products herein. 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