AOZ8300 Ultra-Low Capacitance TVS Diode Array General Description Features The AOZ8300 is a transient voltage suppressor array designed to protect high speed data lines from ESD and lightning. ESD protection for high-speed data lines: This device incorporates eight surge rated, low capacitance steering diodes and a TVS in a single package. During transient conditions, the steering diodes direct the transient to either the positive side of the power supply line or to ground. They AOZ8300 may be used to meet the ESD immunity requirements of IEC 61000-4-2, Level 4. The TVS diodes provide effective suppression of ESD voltages: ±15 kV (air discharge) and ±8 kV (contact discharge). The AOZ8300 comes in a Halogen Free and RoHS compliant, SOT-23 package and is rated over a -40 °C to +85 °C ambient temperature range. Both packages are compatible with lead free and SnPb assembly techniques. The small size, low capacitance, and high ESD protection makes the AOZ8300 ideal for protecting high speed video and data communication interfaces. – IEC 61000-4-2, level 4 (ESD) immunity test – ±30 kV (air discharge) and ±30 kV (contact discharge) – IEC 61000-4-5 (Lightning) 25 A (8/20 µs) (AOZ8300-03) – IEC 61000-4-5 (Lightning) 20 A (8/20 µs) (AOZ8300-05) – IEC 61000-4-4 (EFT) 40 A (5/50 ns) – Human Body Model (HBM) ±24 kV Protects four I/O lines Low clamping voltage Applications Low-Voltage Differential Signaling (LVDS) USB 2.0 power and data line protection Video graphics cards Monitors and flat panel displays Digital Video Interface (DVI) 10/100/1000 Ethernet Notebook computers Typical Application AOZ8300 TP1+ TP1TP2+ 1 2 3 RJ45 Connector TP2- 4 TP3+ 5 GbE Ethernet PHY 6 7 TP3- 8 TP4+ AOZ8300 TP4- Figure 1. 10/100/1000 Ethernet Port Connection Rev. 2.0 August 2015 www.aosmd.com Page 1 of 8 AOZ8300 Ordering Information Part Number Ambient Temperature Range Package Environmental -40 °C to +85 °C SOT23-6 Green Product AOZ8300CI-03 AOZ8300CI-05 AOS Green Products use reduced levels of Halogens, and are also RoHS compliant. Please visit www.aosmd.com/media/AOSGreenPolicy.pdf for additional information. Pin Configuration CH1 1 6 CH4 VN 2 5 NC CH2 3 4 CH3 SOT23-6 (Top View) Absolute Maximum Ratings Exceeding the Absolute Maximum ratings may damage the device. Parameter Peak Pulse Current (IPP), tP = 8/20 µs Peak Power Dissipation (8 x 20 µs @ 25 °C) AOZ8300CI-03 AOZ8300CI-05 25 A 20 A 450 W Storage Temperature (TS) -65 °C to +150 °C ESD Rating per IEC61000-4-2, Contact(1) ±30 kV ESD Rating per IEC61000-4-2, Air(1) ±30 kV Model(2) ±30 kV ESD Rating per Human Body Notes: 1. IEC 61000-4-2 discharge with CDischarge = 150 pF, RDischarge = 330 Ω. 2. Human Body Discharge per MIL-STD-883, Method 3015 CDischarge = 100 pF, RDischarge = 1.5 kΩ. Maximum Operating Ratings Parameter Rating Junction Temperature (TJ) Rev. 2.0 August 2015 -40 °C to +125 °C www.aosmd.com Page 2 of 8 AOZ8300 Electrical Characteristics TA = 25°C unless otherwise specified. Symbol Parameter Conditions Min. Max. Units 0.1 µA 0.85 1.0 V 2.5 3.5 pF VR = 0 V, f = 1 MHz, between I/O pins 0.2 pF Between I/O and VIN(4) 3.3 V IR Reverse Leakage Current VRWM = 2.5 V, between I/O and VIN VF Diode Forward Voltage IF = 15 mA Cj Junction Capacitance VR = 0 V, f = 1 MHz, any I/O pin to Ground ΔCj Channel Input Capacitance Matching 0.70 Typ. (3) AOZ8300CI-03 VRWM Reverse Working Voltage (5) VBR Reverse Breakdown Voltage IT = 100 µA, between I/O and VIN VCL Channel Clamp Voltage Positive Transients Negative Transient IPP = 5 A, tp = 100 ns, any I/O pin to Ground(3)(6) Channel Clamp Voltage Positive Transients Negative Transient IPP = 10 A, tp = 100 ns, any I/O pin to Ground(3)(6) Channel Clamp Voltage Positive Transients Negative Transient IPP = 30 A, tp = 100 ns, any I/O pin to Ground(3)(6) 5.0 V 3.5 -2.8 V V 4.5 -4 V V 9 -9.6 V V 2.5 V AOZ8300CI-05 VRWM Reverse Working Voltage Between I/O and VIN(4) VIN(5) VBR Reverse Breakdown Voltage IT = 100 µA, between I/O and VCL Channel Clamp Voltage Positive Transients Negative Transient IPP = 5 A, tp = 100 ns, any I/O pin to Ground(3)(6) Channel Clamp Voltage Positive Transients Negative Transient IPP = 10 A, tp = 100 ns, any I/O pin to Ground(3)(6) Channel Clamp Voltage Positive Transients Negative Transient IPP = 30 A, tp = 100 ns, any I/O pin to Ground(3)(6) 2.8 V 3.5 -3.5 V V 4.5 -5 V V 9 -12 V V Notes: 3. These specifications are guaranteed by design. 4. The working peak reverse voltage, VRWM, should be equal to or greater than the DC or continuous peak operating voltage level. 5. VBR is measured at the pulse test current IT. 6. Measurements performed using a 100 ns Transmission Line Pulse (TLP) system. Rev. 2.0 August 2015 www.aosmd.com Page 3 of 8 AOZ8300 Typical Performance Characteristics Forward Current vs. Forward Voltage (tperiod = 100ns, tr = 1ns) 30 0 25 -5 Forward Current (A) TLP Current (A) TLP Current vs. Clamping Voltage 20 15 10 5 -10 -15 -20 -25 -30 0 -35 0 1 2 Rev. 2.0 August 2015 3 4 5 6 Clamping Voltage (V) 7 8 -10 -8 -6 -4 -2 0 Forward Voltage (V) www.aosmd.com Page 4 of 8 AOZ8300 Application Information The AOZ8300 TVS is design to protect up to four data lines from damaging transient over-voltage by clamping the voltage to a reference. When the transient on a protected data line exceeds the reference voltage, the steering diode is forward bias thereby conducting the harmful ESD transient away from the sensitive circuitry under protection. PCB Layout Guidelines Printed circuit board layout is key to achieving the highest level of surge immunity on power and data lines. The location of the protection devices on the PCB is the most important design consideration. The AOZ8300 devices should be located as close as possible to the noise source. AOZ8300 devices should be used on all data and power lines that enter or exit the PCB at the I/O connector. In most systems, surge pulses occur on data and power lines that enter the PCB through the I/O connector. Placing the AOZ8300 devices as close as possible to the noise source ensures that a surge voltage will be clamped before the pulse is coupled into adjacent PCB traces. In addition, the PCB should use the shortest possible traces. A short trace length equates to low impedance, which ensures that the surge energy will be dissipated by the AOZ8300 device. Long signal traces will act as antennas and receive energy from fields that are produced by the ESD pulse. By keeping line lengths as short as possible, the efficiency of the line to act as an antenna for ESD related fields is reduced. Minimize interconnecting line lengths by placing devices with the most interconnects as close together as possible. The protection circuits should shunt the surge voltage to either the reference or chassis ground. Shunting the surge voltage directly to the IC’s signal ground may cause ground bounce. The clamping performance of the TVS diodes on a single ground PCB can be improved by minimizing the impedance with relatively short and wide ground traces. The PCB layout and IC package parasitic inductances can cause significant overshoot to the TVS’s clamping voltage. Rev. 2.0 August 2015 The inductance of the PCB can be reduced by using short trace lengths and multiple layers with separate ground and power planes. One effective method to minimize loop problems is to incorporate a ground plane in the PCB design. The AOZ8300 ultra-low capacitance TVS is designed to protect four high speed data transmission lines from transient over-voltages by clamping them to a fixed reference. The low inductance and construction minimizes voltage overshoot during high current surges. When the voltage on the protected line exceeds the reference voltage the internal steering diodes are forward biased, conducting the transient current away from the sensitive circuitry. Good circuit board layout is critical for the suppression of ESD induced transients. The following guidelines are recommended: 1. Place the TVS near the IO terminals or connectors to restrict transient coupling. 2. Fill unused portions of the PCB with ground plane. 3. Minimize the path length between the TVS and the protected line. 4. Minimize all conductive loops including power and ground loops. 5. The ESD transient return path to ground should be kept as short as possible. 6. Never run critical signals near board edges. 7. Use ground planes whenever possible. 8. Avoid running critical signal traces (clocks, resets, etc.) near PCB edges. 9. Separate chassis ground traces from components and signal traces by at least 4mm. 10. Keep the chassis ground trace length-to-width ratio < 5:1 to minimize inductance. 11. Protect all external connections with TVS diodes. www.aosmd.com Page 5 of 8 AOZ8300 Package Dimensions, SOT23, 6L Gauge Plane Seating Plane D 0.25mm e1 C E E1 L θ1 e b A2 A 0.10mm A1 Dimensions in millimeters RECOMMENDED LAND PATTERN 1.20 0.80 2.40 0.95 0.63 Symbols A A1 A2 b C D E E1 e e1 L θ Min. 0.90 0.00 0.70 0.30 0.08 2.70 2.50 1.50 Nom. — — 1.10 0.40 0.13 2.90 2.80 1.60 0.95 BSC 1.90 BSC 0.30 — 0° — Max. 1.25 0.15 1.20 0.50 0.20 3.10 3.10 1.70 0.60 8° Dimensions in inches Symbols A A1 A2 b C D E E1 e e1 L θ Min. 0.035 0.000 0.028 0.012 0.003 0.106 0.098 0.059 Nom. Max. — 0.049 — 0.006 0.043 0.047 0.016 0.020 0.005 0.008 0.114 0.122 0.110 0.122 0.063 0.067 0.037 BSC 0.075 BSC 0.012 — 0.024 0° — 8° UNIT: mm Notes: 1. Package body sizes exclude mold flash and gate burrs. Mold flash at the non-lead sides should be less than 5 mils each. 2. Dimension “L” is measured in gauge plane. 3. Tolerance 0.100mm (4 mil) unless otherwise specified. 4. Followed from JEDEC MO-178C & MC-193C. 6. Controlling dimension is millimeter. Converted inch dimensions are not necessarily exact. Rev. 2.0 August 2015 www.aosmd.com Page 6 of 8 AOZ8300 Tape and Reel Dimensions, SOT23, 6L P2 Tape A P1 A–A D1 D0 E1 K0 E2 B0 A0 P0 T E A Feeding Direction Unit: mm Package A0 B0 K0 D0 D1 E E1 E2 P0 P1 P2 T SOT-23 3.15 ±0.10 3.20 ±0.10 1.40 ±0.10 1.50 ±0.05 1.00 ±0.10/-0.0 8.00 ±0.30 1.75 ±0.10 3.50 ±0.05 4.00 ±0.10 4.00 ±0.10 2.00 ±0.05 0.23 ±0.03 Reel W1 S R K M J H N Unit: mm Tape Size Reel Size M N W1 H S K R J 8 mm ø177.80 ø177.80 MAX. ø55.00 MIN. 8.40 +1.50/-0.00 ø13.00 +0.50 / -0.20 1.50 MIN. 10.10 MIN. 12.70 4.00 +0.10/-0.10 Leader/Trailer and Orientation Unit Per Reel: 3000pcs Trailer Tape 300mm min. Rev. 2.0 August 2015 Components Tape Orientation in Pocket www.aosmd.com Leader Tape 500mm min. Page 7 of 8 AOZ8300 Part Marking AOZ8300CI-03 XXOW Part Number Code LT (SOT-23) Assembly Lot Code Week & Year Code Option & Assembly Location Code AOZ8300CI-05 ALOW Part Number Code LT (SOT-23) Assembly Lot Code Week & Year Code Option & Assembly Location Code LEGAL DISCLAIMER Alpha and Omega Semiconductor makes no representations or warranties with respect to the accuracy or completeness of the information provided herein and takes no liabilities for the consequences of use of such information or any product described herein. Alpha and Omega Semiconductor reserves the right to make changes to such information at any time without further notice. This document does not constitute the grant of any intellectual property rights or representation of non-infringement of any third party’s intellectual property rights. LIFE SUPPORT POLICY ALPHA AND OMEGA SEMICONDUCTOR PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury of the user. Rev. 2.0 August 2015 2. A critical component in any component of a life support, device, or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. www.aosmd.com Page 8 of 8