AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable www.azmicrotek.com FEATURES DESCRIPTION • 3V to 5.5V Power Supply • High Voltage Gain vs. Standard EL16 • 75kΩ Enable Pull-Down Resistor • High Bandwidth for ≥1GHz • -147 dBc/Hz Typical Noise Floor The AZ100EL16VO is an oscillator gain stage with a high gain output buffer including an enable. The QHG/Q ¯ HG outputs have a voltage gain several times greater than the Q/Q ¯ outputs. An enable input (EN ¯¯ ) allows continuous oscillator operation. The enable can be controlled by ECL or CMOS signals BLOCK DIAGRAM APPLICATIONS • Crystal or SAW oscillators PACKAGE AVAILABILITY Order Number • • • • MLP8 MLP16 MSOP8 MSOP10 • Green/RoHS Compliant/Pb-Free Package Marking MLP8 P0G <Date Code> 2 AZ100EL16VONBG 1 MLP8 P4G <Date Code> 2 AZ10/100EL16VOLG 1 MLP16 AZMG16J <Date Code> 2 AZ100EL16VOT+ 1 MSOP8 HVO+ <Date Code> 2 AZ100EL16VOU+ 1 MSOP10 AZH+ 16VOU 2 AZ100EL16VONG 1 1 Tape & Reel - Add 'R1' at end of order number for 7in (1k parts), 'R2' (2.5k) for 13in 2 See www.azmicrotek.com for date code format www.azmicrotek.com +1-480-962-5881 Request a Sample 1630 S Stapley Dr, Suite 127 Mesa, AZ 85204 USA May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable PIN DESCRIPTION AND CONFIGURATION Table 1 - Pin description for MLP8 package Pin Name Type Function 1 Q ¯ Output Inverting PECL Output 2 D Input Data Input 3 VBB Output Reference Voltage 4 EN ¯¯ Input Output Enable 5 VEE Power Negative Supply 6 Q ¯ HG Output High Gain Inverting PECL Output 7 QHG Output High Gain PECL Output 8 VCC Power Positive Supply D 1 VBB 2 EN 3 VEE 4 Leave Pad open or connect to VEE 8 Q 7 VCC 6 QHG 5 QHG Figure 1 – Pin configuration for AZ100EL16VON (MLP8) Table 2 - Pin description for MLP8 package Pin Name Type Function 1 D Input Data Input 2 VBB Output Reference Voltage 3 EN ¯¯ Input Output Enable 4 VEE Power Negative Supply 5 Q ¯ HG Output High Gain Inverting PECL Output 6 QHG Output High Gain PECL Output 7 VCC Power Positive Supply 8 Q ¯ Output Inverting PECL Output Q 1 D 2 VBB 3 EN 4 Leave Pad open or connect to VEE 8 VCC 7 QHG 6 QHG 5 VEE Figure 2 – Pin configuration for AZ100EL16VONB (MLP8) Table 3 - Pin description for MSOP8 package Pin Name Type Function 1 Q ¯ Output Inverting PECL Output 2 D Input Data Input 3 VBB Output Reference Voltage 4 EN ¯¯ Input Output Enable 5 VEE Power Negative Supply 6 Q ¯ HG Output High Gain Inverting PECL Output 7 QHG Output High Gain PECL Output 8 VCC Power Positive Supply Q 1 8 VCC D 2 7 QHG VBB 3 6 QHG EN 4 5 VEE Figure 3 – Pin configuration for AZ100EL100VOT (MSOP8) www.azmicrotek.com +1-480-962-5881 Request a Sample 2 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable Table 4 - Pin description for MSOP10 package Pin Name Type Function 1 Q Output PECL Output 2 Q ¯ Output Inverting PECL Output 3 D Input Data Input 4 D ¯ Input Inverting Data Input 5 VBB Output Reference Voltage 6 EN ¯¯ Input Output Enable 7 VEE Power Negative Supply 8 Q ¯ HG Output High Gain Inverting PECL Output 9 QHG Output High Gain PECL Output 10 VCC Power Positive Supply Q 1 10 VCC Q 2 9 QHG D 3 8 QHG D 4 7 VEE VBB 5 6 EN Figure 4 - Pin configuration for AZ100EL16VOU (MSOP10) Table 5 - Pin description for MLP16 package Pin Name Type Function 1 NC 2 D Input Data Input 3 D ¯ Input Inverting Data Input 4 VBB Output Reference Voltage 5 EN ¯¯ Input Output Enable 6 NC 7 VEE Power Negative Supply 8 10k Input 10k Enable 9 NC 10 Q ¯ HG Output High Gain Inverting PECL Output 11 QHG Output High Gain PECL Output 12 NC 13 VCC Power Positive Supply 14 NC 15 Q Output PECL Output 16 Q ¯ Output Inverting PECL Output www.azmicrotek.com +1-480-962-5881 Request a Sample NC 1 D 2 D 3 VBB 4 Q Q NC VCC 16 15 14 13 12 Leave Pad Open or Connect to VEE NC 11 QHG 10 QHG 9 5 6 7 8 EN NC VEE 10k NC Figure 5 - Pin configuration for AZ100EL16VOL (MLP16) 3 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable ENGINEERING NOTES The AZ100EL16VO provides an active low enable (EN ¯¯ ) which can be driven with an ECL/PECL signal or a CMOS logic signal. When EN ¯¯ is LOW or floating (NC), input data is passed to both sets of outputs. When EN ¯¯ is HIGH, the QHG/Q ¯ HG outputs will be forced LOW/HIGH respectively, while input data will continue to be passed to the Q/Q ¯ outputs. The AZ100EL16VO also provides a VBB output that supports 1.5mA sink/source current. When used, the VBB pin should be bypassed to ground or VCC via a 0.01µF capacitor. Any used output must have an external pull down resistor. For 3.3V operation, an 180Ω resistor to VEE is recommended if an AC coupled load is present. At 5.0V, a 330Ω resistor is recommended for the AC load case. Alternately, a 50Ω load terminated to VCC - 2V or the Thevenin equivalent may be driven directly. Unused outputs may be left floating (NC). 10k temperature compensation is offered on the AZ100LVEL16VOL. If this mode is desired, connect the 10k pin to VEE. The connection must be less than 1Ω. NOTE: Specifications in ECL/PECL tables are valid when thermal equilibrium is established. D EN Q Q QHG QHG Figure 6 - AZ100EL16VO Timing Diagram www.azmicrotek.com +1-480-962-5881 Request a Sample 4 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable AC Coupling Capacitor C2 R1 See table EL16VO Front End 3.3 or 5 V CMOS D R2 470 Ω D VBB C1 0.01 μF Figure 7 – Application circuit for CMOS Inputs Recommended Component Values for CMOS Single Ended Inputs R11 Value AC Coupled (C2 in circuit) DC Coupled (C2 shorted) 3.3V CMOS 430Ω 750Ω 5.0V CMOS 910Ω 1.8kΩ R1 should be chosen so that the input swing on the D input with respect to D ¯ is in the range of ±80 to ±1000 mV, per the AC Characteristics table and the D input is < ±750 mV with respect to VBB. Input Type 1. www.azmicrotek.com +1-480-962-5881 Request a Sample 5 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable Figure 8 - S11, 50Ω load to VCC - 2V Figure 9 - S12, 50Ω load to VCC - 2V www.azmicrotek.com +1-480-962-5881 Request a Sample 6 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable Figure 10 – S21, 50Ω load to VCC - 2V Figure 11 - S22, 50Ω load to VCC - 2V www.azmicrotek.com +1-480-962-5881 Request a Sample 7 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable PERFORMANCE DATA Table 6 – Absolute Maximum Ratings Absolute Maximum Ratings are those values beyond which device life may be impaired. Symbol Characteristic Condition Rating Unit VCC PECL Power Supply VEE = 0V 0 to + 6.0 V VI_PECL PECL Input Voltage VEE = 0V 0 to + 6.0 V IOUT Output Current Continuous 50 Surge 100 TA Operating Temperature Range - -40 to +85 °C TSTG Storage Temperature Range - -65 to +150 °C ESDHBM Human Body Model Electro Static Discharge - 2500 V ESDMM Machine Model Electro Static Discharge - 200 V ESDCDM Charged Device Model Electro Static Discharge - 2000 V mA Table 7 - 100K ECL DC Characteristics 100K ECL DC Characteristics (VEE = -3.0V to -5.5V, VCC = GND) Symbol Characteristic VOH VOL Output LOW Voltage VBB VIH VIL IIH 1. -40°C 0°C 25°C 85°C Unit Min Max Min Max Min Max Min Max Output HIGH Voltage1 -1085 -880 -1025 -880 -1025 -880 -1025 -880 mV 1 -1900 -1555 -1900 -1620 -1900 -1620 -1900 -1620 mV Reference Voltage -1390 -1250 -1390 -1250 -1390 -1250 -1390 -1250 mV Input HIGH Voltage D/D ¯ -1165 -390 -1165 -390 -1165 -390 -1165 -390 mV Input HIGH Voltage EN ¯¯ -1165 VCC -1165 VCC -1165 VCC -1165 VCC mV Input LOW Voltage D/D ¯ -2250 -1475 -2250 -1475 -2250 -1475 -2250 -1475 mV Input LOW Voltage EN ¯¯ VEE -1475 VEE -1475 VEE -1475 VEE -1475 mV Input HIGH Current D/D ¯ 60 60 60 60 µA Input HIGH Current EN 150 150 150 150 µA IIL Input LOW Current D/D ¯ IEE Power Supply Current 0.5 0.5 40 0.5 40 0.5 40 µA 46 mA Specified with each output terminated through 50Ω resistors to VCC - 2V. www.azmicrotek.com +1-480-962-5881 Request a Sample 8 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable Table 8 - 100K LVPECL DC Characteristics 100K LVPECL DC Characteristics (VEE = GND, VCC = +3.3V) Symbol Characteristic VOH VOL VBB VIH -40°C IIH IIL IEE 1. 2. 3. 25°C 85°C Unit Min Max Min Max Min Max Min Max Output HIGH Voltage1,2 2215 2420 2275 2420 2275 2420 2275 2420 mV Output LOW Voltage1,2 1400 1745 1400 1680 1400 1680 1400 1680 mV 1910 2050 1910 2050 1910 2050 1910 2050 mV 2135 2910 2135 2910 2135 2910 2135 2910 mV VCC mV Reference Voltage 1 Input HIGH Voltage D/D ¯1 Input HIGH Voltage EN ¯¯ 2135 1 VIL 0°C Input LOW Voltage D/D ¯ Input LOW Voltage EN ¯¯ 1 1050 VEE VCC 2135 1825 1825 1 1050 1 VCC 2135 1825 VEE 1825 1 1 VCC 1050 VEE 2135 1825 1825 1 1 1050 VEE 1825 mV 1 mV 1825 Input HIGH Current D/D ¯ 60 60 60 60 µA Input HIGH Current EN 150 150 150 150 µA Input LOW Current D/D ¯ Input LOW Current EN ¯¯ 3 0.5 0.5 0.5 0.5 µA -300 -300 -300 -300 µA Power Supply Current 40 40 40 46 mA For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value. Specified with each output terminated through 50Ω resistors to VCC - 2V. Specified with EN ¯¯ forced to VEE. Table 9 - 100K PECL DC Characteristics 100K PECL DC Characteristics (VEE = GND, VCC = +5.0V) Symbol Characteristic VOH VOL Output LOW Voltage VBB Reference Voltage1 -40°C VIL IIH IIL IEE 1. 2. 3. 25°C 85°C Unit Min Max Min Max Min Max Min Max Output HIGH Voltage1,2 3915 4120 3975 4120 3975 4120 3975 4120 mV 1,2 3100 3445 3100 3380 3100 3380 3100 3380 mV 3610 3750 3610 3750 3610 3750 3610 3750 mV Input HIGH Voltage D/D ¯ 3835 4610 3835 4610 3835 4610 3835 4610 mV Input HIGH Voltage EN ¯¯ 3835 1 VCC mV Input LOW Voltage D/D ¯1 2270 1 VIH 0°C Input LOW Voltage EN ¯¯ VEE VCC 3835 3525 3525 1 2270 1 VEE VCC 3835 3525 3525 1 1 2270 VEE VCC 3835 3525 3525 1 1 2270 VEE 3525 mV 1 mV 3525 Input HIGH Current D/D ¯ 60 60 60 60 µA Input HIGH Current EN 150 150 150 150 µA Input LOW Current D/D ¯ Input LOW Current EN ¯¯ Power Supply Current 3 0.5 0.5 0.5 0.5 µA -1400 -1400 -1400 -1400 µA 40 40 40 46 mA For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value. Specified with each output terminated through 50Ω resistors to VCC - 2V. Specified with EN ¯¯ forced to VEE. www.azmicrotek.com +1-480-962-5881 Request a Sample 9 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable Table 10 - 10K ECL DC Characteristics 10K ECL DC Characteristics (VEE = -3.0V to -5.5V, VCC = GND) Symbol Characteristic VOH 0°C 25°C 85°C Unit Min Max Min Max Min Max Min Max Output HIGH Voltage1 -1080 -890 -1020 -840 -980 -810 -910 -720 mV VOL Output LOW Voltage1 -1950 -1650 -1950 -1630 -1950 -1630 -1950 -1595 mV VBB Reference Voltage -1430 -1300 -1380 -1260 -1360 -1240 -1310 -1190 mV Input HIGH Voltage D/D ¯ -1230 -430 -1170 -380 -1130 -360 -1060 -310 mV Input HIGH Voltage EN ¯¯ -1230 VCC -1170 VCC -1130 VCC -1060 VCC mV Input LOW Voltage D/D ¯ -2300 -1500 -2260 -1480 -2240 -1480 -2190 -1445 mV Input LOW Voltage EN ¯¯ VEE -1500 VEE -1480 VEE -1480 VEE -1445 mV VIH VIL IIH 1. -40°C Input HIGH Current D/D ¯ 60 60 60 60 µA Input HIGH Current EN 150 150 150 150 µA IIL Input LOW Current D/D ¯ IEE Power Supply Current 0.5 0.5 0.5 40 0.5 40 µA 40 40 mA Specified with each output terminated through 50Ω resistors to VCC - 2V. Table 11 - 10K LVECL DC Characteristics 10K LVPECL DC Characteristics (VEE = GND, VCC = +3.3V) Symbol Characteristic VOH VOL Output LOW Voltage VBB Reference Voltage1 -40°C IIH IIL IEE 1. 2. 3. 85°C Unit Max Min Max Min Max Min Max Output HIGH Voltage1,2 2220 2410 2280 2460 2320 2490 2390 2580 mV 1,2 1350 1650 1350 1670 1350 1670 1350 1705 mV 1870 2000 1920 2040 1940 2060 1990 2110 mV Input HIGH Voltage D/D ¯ 2070 2870 2130 2920 2170 2940 2240 2990 mV Input HIGH Voltage EN ¯¯ 1 VCC mV 1 VIL 25°C Min 1 VIH 0°C Input LOW Voltage D/D ¯ Input LOW Voltage EN ¯¯ 2070 1000 VEE VCC 2130 1800 1800 1 1040 1 VEE VCC 2170 1820 1820 1 1 1060 VEE VCC 2240 1820 1820 1 1 1110 VEE 1855 mV 1 mV 1825 Input HIGH Current D/D ¯ 60 60 60 60 µA Input HIGH Current EN 150 150 150 150 µA Input LOW Current D/D ¯ Input LOW Current EN ¯¯ Power Supply Current 3 0.5 0.5 0.5 0.5 µA -300 -300 -300 -300 µA 40 40 40 46 mA For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value. Specified with each output terminated through 50Ω resistors to VCC - 2V. Specified with EN ¯¯ forced to VEE. www.azmicrotek.com +1-480-962-5881 Request a Sample 10 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable Table 12 - 10 PECL DC Characteristics 10K PECL DC Characteristics (VEE = GND, VCC = +5.0V) Symbol Characteristic VOH VOL VBB VIH -40°C IIH IIL IEE 1. 2. 3. 25°C 85°C Unit Min Max Min Max Min Max Min Max Output HIGH Voltage1,2 3920 4110 3980 4160 4020 4190 4090 4280 mV Output LOW Voltage1,2 3050 3350 3050 3370 3050 3370 3050 3405 mV 3570 3700 3620 3740 3640 3760 3690 3810 mV 3770 4570 3830 4620 3870 4640 3940 4690 mV VCC mV Reference Voltage 1 Input HIGH Voltage D/D ¯1 Input HIGH Voltage EN ¯¯ 3770 1 VIL 0°C 1 2700 Input LOW Voltage D/D ¯ Input LOW Voltage EN ¯¯ VEE VCC 3830 3500 3500 1 VCC 2740 1 3870 3520 VEE 3520 1 1 2760 VEE VCC 3940 3520 3520 1 2810 1 VEE 3555 mV 1 mV 3555 Input HIGH Current D/D ¯ 60 60 60 60 µA Input HIGH Current EN 150 150 150 150 µA Input LOW Current D/D ¯ Input LOW Current EN ¯¯ 3 0.5 0.5 0.5 0.5 µA -1400 -1400 -1400 -1400 µA Power Supply Current 40 40 40 46 mA For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value. Specified with each output terminated through 50Ω resistors to VCC - 2V. Specified with EN ¯¯ forced to VEE. Table 13 - AC Characteristics AC Characteristics (VEE = -3.0V to -5.5V; VCC=GND or VEE=GND; VCC = +3.0V to +5.5V) Symbol -40°C Characteristic Min Typ 0°C Max Min 100 300 150 450 Typ 25°C 85°C Typ Max Unit Max Min Typ Max Min 100 300 100 200 300 100 300 ps 150 450 150 290 450 150 450 ps 5 20 20 ps Propagation Delay tPLH/tPHL D to Q/Q ¯1 D to QHG/Q ¯ HG2 tSKEW 3 Duty Cycle Skew 5 20 5 20 5 4 Input Swing Vpp (AC) tr/tf 1. 2. Differential 80 1000 80 1000 80 1000 80 1000 mV Single Ended 150 2000 150 2000 150 2000 150 2000 mV Output Rise/Fall1,2 (20%-80%) 80 240 80 240 80 240 80 240 ps 135 Duty cycle skew is the difference between a tPLH and tPHL propagation delay through a device. VPP is the peak-to-peak differential input swing for which AC parameters are guaranteed. The device has a voltage gain of ≈20 to ¯ HG outputs. Q/Q ¯ outputs and a voltage gain of ≈100 to QHG/Q www.azmicrotek.com +1-480-962-5881 Request a Sample 11 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable PACKAGE DIAGRAM MLP8 Green/RoHS compliant/Pb-Free MSL=1 www.azmicrotek.com +1-480-962-5881 Request a Sample 12 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable PACKAGE DIAGRAM MLP16 Green/RoHS compliant/Pb-Free MSL=1 www.azmicrotek.com +1-480-962-5881 Request a Sample 13 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable PACKAGE DIAGRAM MSOP8 Green/RoHS compliant/Pb-Free MSL=1 www.azmicrotek.com +1-480-962-5881 Request a Sample 14 May 2012, Rev 2.0 Arizona Microtek, Inc. AZ100EL16VO LVPECL Oscillator Gain Stage & Buffer with Enable PACKAGE DIAGRAM MSOP10 Green/RoHS compliant/Pb-Free MSL=1 Arizona Microtek, Inc. reserves the right to change circuitry and specifications at any time without prior notice. Arizona Microtek, Inc. makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Arizona Microtek, Inc. assume any liability arising out of the application or use of any product or circuit and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Arizona Microtek, Inc. does not convey any license rights nor the rights of others. Arizona Microtek, Inc. products are not designed, intended or authorized for use as components in systems intended to support or sustain life, or for any other application in which the failure of the Arizona Microtek, Inc. product could create a situation where personal injury or death may occur. Should Buyer purchase or use Arizona Microtek, Inc. products for any such unintended or unauthorized application, Buyer shall indemnify and hold Arizona Microtek, Inc. and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Arizona Microtek, Inc. was negligent regarding the design or manufacture of the part. www.azmicrotek.com +1-480-962-5881 Request a Sample 15 May 2012, Rev 2.0