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AZ100EL16VOD

AZ100EL16VOD

  • 厂商:

    ETC2

  • 封装:

  • 描述:

    AZ100EL16VOD - ECL/PECL Oscillator Gain Stage and Buffer with Enable - List of Unclassifed Manufactu...

  • 数据手册
  • 价格&库存
AZ100EL16VOD 数据手册
ARIZONA MICROTEK, INC. AZ10EL16VO AZ100EL16VO ECL/PECL Oscillator Gain Stage and Buffer with Enable FEATURES • • • • • • • Green and RoHS Compliant Available 250ps Propagation Delay on Q Output ¯ High Voltage Gain vs. Standard EL16 For Oscillator Applications Available in 2x2 or 3x3mm MLP Package 75kΩ Enable Pull-Down Resistor S–Parameter (.s2p) and IBIS Model Files Available on Arizona Microtek Website DESCRIPTION The AZ10/100EL16VO is an oscillator gain stage with a high gain output buffer including an enable. The QHG/QHG outputs have a voltage gain several times greater than the Q/Q outputs. An enable input (EN) allows ¯ ¯ ¯¯ continuous oscillator operation. When EN is LOW or floating (NC), input data is passed to both sets of outputs. ¯¯ When EN is HIGH, the QHG/QHG outputs will be forced LOW/HIGH respectively, while input data will continue to ¯¯ ¯ be passed to the Q/Q outputs. The EN input can be driven with an ECL/PECL signal or a CMOS logic signal. ¯ ¯¯ The input impedance of the D/D inputs remain constant for all operating modes since forcing the outputs via the ¯ EN pin does not power-down the chip but only disables the high gain QHG/QHG outputs. ¯¯ ¯ Input protection diodes are included on the D/D inputs for enhanced ESD protection. ¯ The EL16VO 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). NOTE: Specifications in ECL/PECL tables are valid when thermal equilibrium is established. PIN/PAD DESCRIPTION Q Q D D EN VBB QHG QHG PIN D/D ¯ Q/Q ¯ QHG/QHG ¯ VBB EN ¯¯ VCC VEE FUNCTION Data Inputs Data Outputs Data Outputs w/High Gain Reference Voltage Output Enable Input Positive Supply Negative Supply 1630 S. STAPLEY DR., SUITE 127 • MESA, ARIZONA 85204 • USA • (480) 962-5881 • FAX (480) 890-2541 www.azmicrotek.com AZ10EL16VO AZ100EL16VO PACKAGE AVAILABILITY PACKAGE MLP 8 (2x2) Green / RoHS Compliant / Lead (Pb) Free MLP 8 (2x2) MLP 8 (2x2) RoHS Compliant / Lead (Pb) Free MLP 8 (2x2x0.75) Green / RoHS Compliant / Lead (Pb) Free MLP 16 (3x3) MLP 16 (3x3) Green / RoHS Compliant / Lead (Pb) Free SOIC 8 SOIC 8 TSSOP 8 TSSOP 8 RoHS Compliant / Lead (Pb) Free TSSOP 8 TSSOP 8 RoHS Compliant / Lead (Pb) Free TSSOP 10 RoHS Compliant / Lead (Pb) Free TSSOP 10 RoHS Compliant / Lead (Pb) Free DIE DIE 1 2 3 4 5 6 PART NUMBER AZ100EL16VONG AZ100EL16VONB AZ100EL16VONB+ AZ100EL16VONBG AZ10/100EL16VOL AZ10/100EL16VOLG AZ10EL16VOD AZ100EL16VOD AZ10EL16VOT AZ10EL16VOT+ AZ100EL16VOT AZ100EL16VOT+ AZ10EL16VOU+ AZ100EL16VOU+ AZ10/100EL16VOXP AZ10/100EL16VOXR MARKING P0G P4 P4+ P4G AZM 16J AZMG 16J AZM10 EL16VO AZM100 EL16VO AZT 16VO AZT+ 16VO AZH 16VO AZH+ 16VO AZT+ 16VOU AZH+ 16VOU N/A N/A NOTES 1,2 1,2,3 1,2 1,2 1,2 1,2 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 5 6 Add R1 at end of part number for 7 inch (1K parts), R2 for 13 inch (2.5K parts) Tape & Reel. Date code format: “Y” or “YY” for year followed by “WW” for week. Parts marked JNB for date codes prior to 4WW (prior to 2004). Date code “YWW” or “YYWW” on underside of part. Waffle Pack. Die thickness 180 μm. Die on 7 inch Tape & Reel, 3k parts per reel. Die thickness 180 μm. June 2007 * REV - 23 www.azmicrotek.com 2 AZ10EL16VO AZ100EL16VO TIMING DIAGRAM TRUTH TABLE EN ¯¯ Q/Q ¯ LOW or NC Data HIGH Data NC = No Connect QHG Data LOW QHG ¯ Data HIGH D EN Q QHG Absolute Maximum Ratings are those values beyond which device life may be impaired. Characteristic PECL Power Supply (VEE = 0V) PECL Input Voltage (VEE = 0V) ECL Power Supply (VCC = 0V) ECL Input Voltage (VCC = 0V) Differential Input Voltage D/D ¯ Output Current — Continuous IOUT — Surge TA Operating Temperature Range TSTG Storage Temperature Range VI_DIFF is the voltage difference between D and D ¯ Symbol VCC VI VEE VI VI_DIFF Rating 0 to +6.0 0 to +6.0 -6.0 to 0 -6.0 to 0 0 to ±1.6 50 100 -40 to +85 -65 to +150 Unit Vdc Vdc Vdc Vdc Vpp1 mA °C °C 1. June 2007 * REV - 23 www.azmicrotek.com 3 AZ10EL16VO AZ100EL16VO 10K ECL DC Characteristics (VEE = -3.0V to -5.5V, VCC = GND) Symbol VOH VOL VIH VIL VBB IIH IIL IEE 1. Characteristic 1 Output HIGH Voltage Output LOW Voltage1 Input HIGH Voltage D/D -1230 ¯ -430 EN -1230 ¯¯ VCC Input LOW Voltage -1500 D/D -2300 ¯ -1500 EN ¯¯ VEE Reference Voltage -1430 -1300 Input HIGH Current D/D ¯ 60 EN ¯¯ 150 Input LOW Current 0.5 Power Supply Current 40 Each output is terminated through a 50Ω resistor to VCC – 2V. Min -1080 -1950 -40°C Typ Max -890 -1650 Min -1020 -1950 -1170 -1170 -2260 VEE -1380 0° C Typ Max -840 -1630 -380 VCC -1480 -1480 -1260 60 150 Min -980 -1950 -1130 -1130 -2240 VEE -1360 25° C Typ Max -810 -1630 -360 VCC -1480 -1480 -1240 60 150 Min -910 -1950 -1060 -1060 -2190 VEE -1310 85° C Typ Max -720 -1595 -310 VCC -1445 -1445 -1190 60 150 Unit mV mV mV mV mV μA μA mA 0.5 40 0.5 40 0.5 40 10K LVPECL DC Characteristics (VEE = GND, VCC = +3.3V) Symbol VOH VOL VIH VIL VBB IIH IIL IEE 1. 2. 3. Characteristic 1,2 Output HIGH Voltage Output LOW Voltage1,2 Input HIGH Voltage 2870 2130 2920 2170 D/D1 ¯ 2070 VCC 21301 VCC 21701 EN 20701 ¯¯ Input LOW Voltage 1800 1040 1820 1060 D/D1 ¯ 1000 18001 VEE 18201 VEE EN ¯¯ VEE Reference Voltage1 1870 2000 1920 2040 1940 Input HIGH Current D/D ¯ 60 60 EN ¯¯ 150 150 Input LOW Current D/D ¯ 0.5 0.5 0.5 EN3 ¯¯ -300 -300 -300 Power Supply Current 40 40 For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value. Each output is terminated through a 50Ω resistor to VCC – 2V. Specified with EN forced to VEE. ¯¯ Min 2220 1350 -40°C Typ Max 2410 1650 Min 2280 1350 0° C Typ Max 2460 1670 Min 2320 1350 25°C Typ Max 2490 1670 2940 VCC 1820 18201 2060 60 150 Min 2390 1350 2240 22401 1110 VEE 1990 85°C Typ Max 2580 1705 2990 VCC 1855 18551 2110 60 150 Unit mV mV mV mV mV μA μA 0.5 -300 40 40 mA June 2007 * REV - 23 www.azmicrotek.com 4 AZ10EL16VO AZ100EL16VO 10K PECL DC Characteristics (VEE = GND, VCC = +5.0V) Symbol VOH VOL VIH VIL VBB IIH IIL IEE 1. 2. 3. Characteristic 1,2 Output HIGH Voltage Output LOW Voltage1,2 Input HIGH Voltage 4570 3830 4620 3870 D/D1 ¯ 3770 VCC 38301 VCC 38701 EN 37701 ¯¯ Input LOW Voltage 3500 2740 3520 2760 D/D1 ¯ 2700 35001 VEE 35201 VEE EN ¯¯ VEE Reference Voltage1 3570 3700 3620 3740 3640 Input HIGH Current D/D ¯ 60 60 EN ¯¯ 150 150 Input LOW Current 0.5 0.5 0.5 D/D ¯ -1400 -1400 EN3 -1400 ¯¯ Power Supply Current 40 40 For supply voltages other that 5.0V, use the ECL table values and ADD supply voltage value. Each output is terminated through a 50Ω resistor to VCC – 2V. Specified with EN forced to VEE. ¯¯ Min 3920 3050 -40°C Typ Max 4110 3350 Min 3980 3050 0° C Typ Max 4160 3370 Min 4020 3050 25°C Typ Max 4190 3370 4640 VCC 3520 35201 3760 60 150 Min 4090 3050 3940 39401 2810 VEE 3690 85°C Typ Max 4280 3405 4690 VCC 3555 35551 3810 60 150 Unit mV mV mV mV mV μA μA 0.5 -1400 40 40 mA 100K ECL DC Characteristics (VEE = -3.0V to -5.5V, VCC = GND) Symbol VOH VOL VIH VIL VBB IIH IIL IEE 1. Characteristic 1 Output HIGH Voltage Output LOW Voltage1 Input HIGH Voltage D/D -1165 ¯ -390 EN -1165 ¯¯ VCC Input LOW Voltage -1475 D/D -2250 ¯ -1475 EN ¯¯ VEE Reference Voltage -1390 -1250 Input HIGH Current D/D ¯ 60 EN ¯¯ 150 Input LOW Current 0.5 Power Supply Current 40 Each output is terminated through a 50Ω resistor to VCC – 2V. Min -1085 -1900 -40°C Typ Max -880 -1555 Min -1025 -1900 -1165 -1165 -2250 VEE -1390 0° C Typ Max -880 -1620 -390 VCC -1475 -1475 -1250 60 150 Min -1025 -1900 -1165 -1165 -2250 VEE -1390 25° C Typ Max -880 -1620 -390 VCC -1475 -1475 -1250 60 150 Min -1025 -1900 -1165 -1165 -2250 VEE -1390 85° C Typ Max -880 -1620 -390 VCC -1475 -1475 -1250 60 150 Unit mV mV mV mV mV μA μA mA 0.5 40 0.5 40 0.5 46 June 2007 * REV - 23 www.azmicrotek.com 5 AZ10EL16VO AZ100EL16VO 100K LVPECL DC Characteristics (VEE = GND, VCC = +3.3V) Symbol VOH VOL VIH VIL VBB IIH IIL IEE 1. 2. 3. Characteristic 1,2 Output HIGH Voltage Output LOW Voltage1,2 Input HIGH Voltage 2910 2135 2910 2135 D/D1 ¯ 2135 VCC 21351 VCC 21351 EN 21351 ¯¯ Input LOW Voltage 1825 1050 1825 1050 D/D1 ¯ 1050 18251 VEE 18251 VEE EN ¯¯ VEE Reference Voltage1 1910 2050 1910 2050 1910 Input HIGH Current D/D ¯ 60 60 EN ¯¯ 150 150 Input LOW Current 0.5 0.5 0.5 D/D ¯ -300 -300 -300 EN3 ¯¯ Power Supply Current 40 40 For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value. Each output is terminated through a 50Ω resistor to VCC – 2V. Specified with EN forced to VEE. ¯¯ Min 2215 1400 -40°C Typ Max 2420 1745 Min 2275 1400 0° C Typ Max 2420 1680 Min 2275 1400 25°C Typ Max 2420 1680 2910 VCC 1825 18251 2050 60 150 Min 2275 1400 2135 21351 1050 VEE 1910 85°C Typ Max 2420 1680 2910 VCC 1825 18251 2050 60 150 Unit mV mV mV mV mV μA μA 0.5 -300 40 46 mA 100K PECL DC Characteristics (VEE = GND, VCC = +5.0V) Symbol VOH VOL VIH VIL VBB IIH IIL IEE 1. 2. 3. Characteristic 1,2 Output HIGH Voltage Output LOW Voltage1,2 Input HIGH Voltage 4610 3835 4610 3835 D/D1 ¯ 3835 VCC 38351 VCC 38351 EN 38351 ¯¯ Input LOW Voltage 3525 2750 3525 2750 D/D1 ¯ 2750 35251 VEE 35251 VEE EN ¯¯ VEE Reference Voltage1 3610 3750 3610 3750 3610 Input HIGH Current D/D ¯ 60 60 EN ¯¯ 150 150 Input LOW Current 0.5 0.5 0.5 D/D ¯ -1400 -1400 EN3 -1400 ¯¯ Power Supply Current 40 40 For supply voltages other that 5.0V, use the ECL table values and ADD supply voltage value. Each output is terminated through a 50Ω resistor to VCC – 2V. Specified with EN forced to VEE. ¯¯ Min 3915 3100 -40°C Typ Max 4120 3445 Min 3975 3100 0° C Typ Max 4120 3380 Min 3975 3100 25°C Typ Max 4120 3380 4610 VCC 3525 35251 3750 60 150 Min 3975 3100 3835 38351 2750 VEE 3610 85°C Typ Max 4120 3380 4610 VCC 3525 35251 3750 60 150 Unit mV mV mV mV mV μA μA 0.5 -1400 40 46 mA June 2007 * REV - 23 www.azmicrotek.com 6 AZ10EL16VO AZ100EL16VO AC Characteristics (VEE = -3.0V to -5.5V; VCC = GND or VEE = GND, VCC = +3.0V to +5.5V) Symbol tPLH/tPHL Characteristic Min -40°C Typ Max Min 0° C Typ Max Min 25° C Typ Max Min 85° C Typ Max Unit ps ps mV ps Propagation Delay 100 300 100 300 100 200 300 100 300 D to Q/Q Outputs ¯ (SE) ¯ 150 450 150 450 150 290 450 150 450 D to QHG/QHG Outputs (SE) tSKEW Duty Cycle Skew1 (SE) 5 20 5 20 5 20 5 20 VPP (AC) Input Swing2 80 1000 80 1000 80 1000 80 1000 Output Rise/Fall Times tr/tf 80 240 80 240 80 135 240 80 240 (20% – 80%) 1. Duty cycle skew is the difference between a tPLH and tPHL propagation delay through a device. ¯ 2. VPP is the peak-to-peak differential input swing for which AC parameters are guaranteed. The device has a voltage gain of ≈20 to Q/Q outputs ¯ and a voltage gain of ≈100 to QHG/QHG outputs. AC PP INPUT D D V PP ( AC) Typical Large Signal Outputs, QHG/QHG ¯ 1000 900 800 VOUTpp (mV) 700 600 500 400 300 200 100 0 0 500 1000 1500 2000 2500 3000 3500 4000 FREQUENCY (MHz) Measured with 750mv differential input, VEEP NC, QHG/QHG each terminated to VCC-2V via 50 Ω ¯ resistors. Q HG Q HG V OUTpp June 2007 * REV - 23 www.azmicrotek.com 7 AZ10EL16VO AZ100EL16VO 2.05 0.00 2 -5.00 Magnitude 1.95 -10.00 Phase S11 MAG S11 PH 1.9 -15.00 1.85 -20.00 1.8 50 150 250 350 450 550 650 750 850 950 1050 1150 1250 1350 -25.00 FREQUENCY (MHz) S11, D to Q, 50 Ω load to VCC – 2V ¯ 200 250 180 160 200 140 Magnitude 120 150 Phase 100 S12 MAG S12 PH 80 100 60 40 50 20 0 50 150 250 350 450 550 650 750 850 950 1050 1150 1250 1350 0 FREQUENCY (MHz) S12, D to Q, 50 Ω load to VCC – 2V ¯ June 2007 * REV - 23 www.azmicrotek.com 8 AZ10EL16VO AZ100EL16VO 40 200.00 35 180.00 160.00 30 140.00 25 Magnitude 120.00 Phase 20 100.00 S21 MAG S21 PH 15 80.00 60.00 10 40.00 5 20.00 0 50 150 250 350 450 550 650 750 850 950 1050 1150 1250 1350 0.00 FREQUENCY (MHz) S21, D to Q, 50 Ω load to VCC – 2V ¯ 0.6 45.00 40.00 0.5 35.00 0.4 30.00 Magnitude Phase 25.00 0.3 20.00 S22 MAG S22 PH 0.2 15.00 10.00 0.1 5.00 0 50 150 250 350 450 550 650 750 850 950 1050 1150 1250 1350 0.00 FREQUENCY (MHz) S22, D to Q, 50 Ω load to VCC – 2V ¯ June 2007 * REV - 23 www.azmicrotek.com 9 AZ10EL16VO AZ100EL16VO Application Circuit for CMOS Inputs R11 Input Type AC Coupled (C2 in circuit) DC Coupled (C2 shorted) 3.3 V 430 Ω 750 Ω CMOS 5 V CMOS 910 Ω 1.8K Ω 1 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. Recommended Component Values for CMOS Single Ended Inputs June 2007 * REV - 23 www.azmicrotek.com 10 AZ10EL16VO AZ100EL16VO AZ10EL16VOU AZ100EL16VOU 10 VCC 9 QHG Q1 D2 VBB / D 3 EN 4 8 VCC AZ10EL16VOD AZ100EL16VOD AZ10EL16VOT AZ100EL16VOT Q1 Q2 D3 D4 VBB 5 TSSOP 10 8 QHG 7 6 VEE EN TSSOP 8 SOIC 8 7 QHG 6 QHG 5 VEE AZ100EL16VON AZ100EL16VONB MLP 8, 2x2mm Q D VBB / D EN 1 2 3 4 8 7 6 5 VCC QHG QHG VEE MLP 8, 2x2mm D VBB / D EN VEE 1 2 3 4 8 7 6 5 Q VCC QHG QHG TOP VIEW TOP VIEW MLP 8: Bottom Center Pad may be left open or tied to VEE. Pin 4 is the VEE return. AZ10/100EL16VOL Q 16 NC 1 Q 15 NC 14 VCC 13 12 NC QHG QHG NC MLP 16 (L) Package and DIE: 10K/100K Selection Connect pin/pad 10K to VEE to select 10K operation. Float (NC) pin/pad 10K to select 100K operation. VEE connection must be less than 1Ω. Pin 6 of the MLP 16 package may be connected to pin 7 (VEE) with no effect on the circuit. D D VBB 2 3 4 5 MLP 16, 3x3 mm 11 10 9 6 7 8 EN NC VEE 10K MPL 16: Bottom Center Pad may be left open or tied to VEE. Pin 7 is the VEE return. June 2007 * REV - 23 www.azmicrotek.com 11 AZ10EL16VO AZ100EL16VO DIE PAD COORDINATES AZ10/100EL16VO DIE: EL16VO A B C D M L K J DIE SIZE: 950u X 940u DIE THICKNESS: 180u BOND PAD: 85u X 85u I H G E F Note: Other die thicknesses available. Contact factory for further information. PAD CENTER COORDINATES NAME A B C D E F G H I J K L M NC = No connect, leave open. PAD DESIGNATION D D ¯ VBB ¯¯¯ EN VEE 10K QHG ¯ QHG NC VCC VCC Q Q ¯ X(Microns) -342.5 -342.5 -342.5 -342.5 -33.5 126.5 312.5 312.5 312.5 312.5 302.5 142.5 -140.5 Y(Microns) 312.5 144.5 -87.0 -255.0 -312.5 -312.5 -248.5 -98.5 51.5 201.5 342.5 342.5 342.5 June 2007 * REV - 23 www.azmicrotek.com 12 AZ10EL16VO AZ100EL16VO PACKAGE DIAGRAM MLP 8 2x2mm Pin 1 Dot By Marking 2.000±0.050 2.000±0.050 MLP 8 (2x2mm) TOP VIEW 0.350±0.050 0.250±0.050 8 7 0.500 bsc 6 5 1 Pin 1 Identification R0.100 TYP 2 1.200±0.050 exp. pad 3 4 0.600±0.050 exp. pad BOTTOM VIEW 1.750 Ref. 0.750±0.050 0.000-0.050 1 2 34 0.203±0.025 SIDE VIEW Note: All dimensions are in mm June 2007 * REV - 23 www.azmicrotek.com 13 AZ10EL16VO AZ100EL16VO PACKAGE DIAGRAM SOIC 8 MILLIMETERS DIM MIN 0.10 1.25 0.25 0.36 0.19 4.8 3.8 1.27 5.80 1.05 0.40 0.60 0.25 0.25 0.10 0.30 0O NOTES: 1. DIMENSIONS D AND E DO NOT INCLUDE MOLD PROTRUSION. 2. MAXIMUM MOLD PROTRUSION FOR D IS 0.15mm. 3. MAXIMUM MOLD PROTRUSION FOR E IS 0.25mm. A A1 A2 A3 bp c D E e HE L Lp Q v w y Z θ MAX 0.75 0.25 1.45 0.49 0.25 5.0 4.0 6.20 1.00 0.70 0.70 8O INCHES MIN MAX 0.069 0.004 0.010 0.049 0.057 0.01 0.014 0.019 0.0075 0.0100 0.19 0.20 0.15 0.16 0.050 0.228 0.244 0.041 0.016 0.039 0.024 0.028 0.01 0.01 0.004 0.012 0.028 0O 8O June 2007 * REV - 23 www.azmicrotek.com 14 AZ10EL16VO AZ100EL16VO PACKAGE DIAGRAM TSSOP 8 NOTES: 1. DIMENSIONS D AND E DO NOT INCLUDE MOLD PROTRUSION. 2. MAXIMUM MOLD PROTRUSION FOR D IS 0.15mm. 3. MAXIMUM MOLD PROTRUSION FOR E IS 0.25mm. DIM A A1 A2 A3 bp c D E e HE L Lp v w y Z θ MILLIMETERS MIN MAX 1.10 0.05 0.15 0.80 0.95 0.25 0.25 0.45 0.15 0.28 2.90 3.10 2.90 3.10 0.65 4.70 5.10 0.94 0.40 0.70 0.10 0.10 0.10 0.35 0.70 6O 0O June 2007 * REV - 23 www.azmicrotek.com 15 AZ10EL16VO AZ100EL16VO PACKAGE DIAGRAM TSSOP 10 MILLIMETERS MIN MAX A A1 A2 A3 bp c D1 E2 e HE L Lp v w y Z θ 0.05 0.80 0.25 0.15 0.15 2.90 2.90 0.50 4.80 0.95 0.40 0.10 0.10 0.10 0.34 0O 0.67 6O 0.70 5.00 0.30 0.23 3.10 3.10 1.10 0.15 0.95 NOTES: 1. DIMENSIONS D AND E DO NOT INCLUDE MOLD PROTRUSION. 2. MAXIMUM MOLD PROTRUSION FOR D IS 0.15mm. 3. MAXIMUM MOLD PROTRUSION FOR E IS 0.25mm. June 2007 * REV - 23 www.azmicrotek.com 16 AZ10EL16VO AZ100EL16VO PACKAGE DIAGRAM MLP 16 3x3mm D 2. INDEX AREA (D/2 x E/2) A D 2 E 2 E 3x e e B D2 D2/2 E2/2 E2 2 1 5. 2x 2x aaa C aaa C TOP VIEW bbb M C A B 16 x b 3. 3x e BOTTOM VIEW L ccc C A 4. 0.08 C SIDE VIEW A3 C SEATING PLANE A1 NOTES: 1. DIMENSIONING AND TOLERANCING CONFORM TO ASME T14-1994. 2. THE TERMINAL #1 AND PAD NUMBERING CONVENTION SHALL CONFORM TO JESD 95-1 SPP-012. 3. DIMENSION b APPLIES TO METALLIZED PAD AND IS MEASURED BETWEEN 0.25 AND 0.30 mm FROM PAD TIP. 4. COPLANARITY APPLIES TO THE EXPOSED PADS AS WELL AS THE TERMINALS. 5. INSIDE CORNERS OF METALLIZED PAD MAY BE SQUARE OR ROUNDED MILLIMETERS DIM A A1 A3 b D D2 E E2 e L aaa bbb ccc MIN MAX 0.80 1.00 0.05 0.00 0.25 REF 0.18 0.30 3.10 2.90 1.95 0.25 3.10 2.90 1.95 0.25 0.50 BSC 0.50 0.30 0.25 0.10 0.10 June 2007 * REV - 23 www.azmicrotek.com 17 AZ10EL16VO AZ100EL16VO 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. June 2007 * REV - 23 www.azmicrotek.com 18
AZ100EL16VOD 价格&库存

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