EMI4182MU Product Preview Common Mode Filter with ESD Protection Functional Description http://onsemi.com The EMI4182MU is an integrated common mode filter providing both ESD protection and EMI filtering for high speed digital serial interfaces such as HDMI or MIPI D-PHY. The EMI4182MU provides protection for two differential data line pairs in a small RoHS-compliant UDFN10 package. Features • Highly Integrated Common Mode Filter (CMF) with ESD Protection • • • • • • provides protection and EMI reduction for systems using High Speed Serial Data Lines with cost and space savings over discrete solutions Large Differential Mode Bandwidth with Cutoff Frequency > 2 GHz High Common Mode Stop Band Attenuation: >25 dB at 700 MHz, >30 dB at 800 MHz Provides ESD Protection to IEC61000-4-2 Level 4, ±15 kV Contact Discharge Low Channel Input Capacitance Provides Superior Impedance Matching Performance Low Profile Package with Small Footprint in UDFN10 2 x 2.5 mm Pb−Free Package These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS Compliant Applications • HDMI/DVI Display in Mobile Phones • MIPI D-PHY (CSI-2, DSI, etc) in Mobile Phones and Digital Still MARKING DIAGRAMS XXMG G UDFN10 CASE 517CJ XX = Specific Device Code M = Date Code G = Pb−Free Package (*Note: Microdot may be in either location) PIN CONNECTIONS In_1+ 1 10 Out_1+ In_1− 2 9 Out_1− GND 3 8 GND In_2+ 4 7 Out_2+ In_2− 5 6 Out_2− Cameras 1 10 2 External (Connector) 4 9 5 6 7 ORDERING INFORMATION Internal (ASIC) Device Package Shipping† EMI4182MUTAG UDFN10 (Pb−Free) 3000/Tape & Reel †For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D. 3, 8 Figure 1. EMI4182 Electrical Schematic This document contains information on a product under development. ON Semiconductor reserves the right to change or discontinue this product without notice. © Semiconductor Components Industries, LLC, 2012 July, 2012 − Rev. P1 1 Publication Order Number: EMI4182MU/D EMI4182MU PIN FUNCTION DESCRIPTION Pin Name Pin No. Type In_1+ 1 I/O CMF Channel 1+ to Connector Description In_1− 2 I/O CMF Channel 1− to Connector Out_1+ 10 I/O CMF Channel 1+ to ASIC Out_1− 9 I/O CMF Channel 1− to ASIC In_2+ 4 I/O CMF Channel 2+ to Connector In_2− 5 I/O CMF Channel 2− to Connector Out_2+ 7 I/O CMF Channel 2+ to ASIC Out_2− 6 I/O CMF Channel 2− to ASIC VN 3, 8 GND Ground ABSOLUTE MAXIMUM RATINGS (TA = 25°C unless otherwise noted) Parameter Symbol Value Unit Operating Temperature Range TOP −40 to +85 °C Storage Temperature Range TSTG −65 to +150 °C ESD Discharge IEC61000−4−2 Contact Discharge VPP ±15 kV TL 260 °C ILINE 100 mA Maximum Lead Temperature for Soldering Purposes (1/8” from Case for 10 seconds) DC Current per Line Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) Symbol Parameter Test Conditions ILEAK Channel Leakage Current TA = 25°C, VIN = 5 V, GND = 0 V Min Typ VF Channel Negative Voltage TA = 25°C, IF = 10 mA CIN Channel Input Capacitance to Ground (Pins 1, 2, 4, 5 to Pins 3, 8) TA = 25°C, At 1 MHz, GND = 0 V, VIN = 1.65 V RCH Channel Resistance (Pins 1−10, 2−9, 4−7 and 5−6) f3dB Differential Mode Cut−off Frequency 50 W Source and Load Termination Fatten Common Mode Stop Band Attenuation @ 800 MHz VESD ESD Protection − Peak Discharge Voltage at any channel input, in system: Contact discharge per IEC61000−4−2 standard TA = 25°C (Notes 1 and 2) Pins 1, 2, 4, 5 TLP Clamping Voltage (See Figure 12) Forward IPP = 8 A Forward IPP = 16 A Forward IPP = −8 A Forward IPP = −16 A 12 18 −6 −12 RDYN Dynamic Resistance Positive Transients Negative Transients TA = 25°C, IPP = 1 A, tP = 8/20 ms Any I/O pin to Ground; Notes 1 and 3 1.36 0.6 VRWM Reverse Working Voltage (Note 3) Breakdown Voltage IT = 1 mA; (Note 4) VCL VBR 0.1 0.8 Max Unit 1.0 mA 1.5 V 1.3 pF 8.0 W 2.0 GHz 30 dB kV ±15 5.6 V V V V 5.0 V 9.0 V 1. Standard IEC61000−4−2 with CDischarge = 150 pF, RDischarge = 330, GND grounded. 2. These measurements performed with no external capacitor. 3. TVS devices are normally selected according to the working peak reverse voltage (VRWM), which should be equal to or greater than the DC or continuous peak operating voltage level. 4. VBR is measured at pulse test current IT. http://onsemi.com 2 EMI4182MU TYPICAL CHARACTERISTICS 0 0 −1 −5 −2 −10 dB (SCC21) dB (SCC21) −3 −4 −5 −6 −15 −20 −25 −7 −30 −8 −35 −9 −40 1E5 1E6 1E7 1E8 1E9 6E9 1E5 Frequency, Hz Figure 2. Differential Mode Attenuation vs. Frequency (Zdiff = 100 W) 1E6 1E7 1E8 Frequency, Hz 1E9 Figure 3. Common Mode Attenuation vs. Frequency (Zcomm = 50 W) 0 −5 −10 dB(SDD22) dB(SDD11) −15 −20 −25 −30 −35 −40 1E5 1E6 1E7 1E8 Frequency, Hz 1E9 6E9 Figure 4. Differential Return Loss vs. Frequency (Zdiff=100 W) Figure 5. Differential Inter−Lane Cross−Coupling Figure 6. Common Mode Inter−Lane Cross−Coupling http://onsemi.com 3 6E9 EMI4182MU MIPI DSI (D−PHY) Host MIPI DSI (D−PHY) Client EMI4182 Evaluation Board Figure 7. MIPI D−PHY LP Mode Test Setup Figure 8. EMI4182 MIPI D−PHY LP Mode Measured Results http://onsemi.com 4 EMI4182MU Figure 9. EMI4182 Eye Diagram Test Setup Figure 10. EMI4182 Measured Eye Diagram @ 3.4Gbps (EVB through on left, EVB with EMI4182 on right) http://onsemi.com 5 EMI4182MU Transmission Line Pulse (TLP) Measurements Transmission Line Pulse (TLP) provides current versus voltage (I-V) curves in which each data point is obtained from a 100 ns long rectangular pulse from a charged transmission line. A simplified schematic of a typical TLP system is shown in Figure 11. TLP I-V curves of ESD protection devices accurately demonstrate the product’s ESD capability because the 10 s of amps current levels and under 100 ns time scale match those of an ESD event. This is illustrated in Figure 12 where an 8 kV IEC61000-4-2 current waveform is compared with TLP current pulses at 8 and 16 A. A TLP curve shows the voltage at which the device turns on as well as how well the device clamps voltage over a range of current levels. Typical TLP I-V curves for the EMI4182 are shown in Figure 13. L SW 50 W Coax Cable Attenuator 50 W Coax Cable ÷ IM VM 10 MW VC DUT Oscilloscope Figure 11. Simplified Schematic of a Typical TLP System Figure 12. Comparison Between 8 kV IEC61000−4−2 and 8 A and 16 A TLP Waveforms Figure 13. Positive and Negative TLP Waveforms http://onsemi.com 6 EMI4182MU ESD Voltage Clamping For sensitive circuit elements it is important to limit the voltage that an IC will be exposed to during an ESD event to as low a voltage as possible. The ESD clamping voltage is the voltage drop across the ESD protection diode during an ESD event per the IEC61000−4−2 waveform. Since the IEC61000−4−2 was written as a pass/fail spec for larger systems such as cell phones or laptop computers it is not clearly defined in the spec how to specify a clamping voltage at the device level. ON Semiconductor has developed a way to examine the entire voltage waveform across the ESD protection diode over the time domain of an ESD pulse in the form of an oscilloscope screenshot, which can be found on the datasheets for all ESD protection diodes. For more information on how ON Semiconductor creates these screenshots and how to interpret them please refer to On Semiconductor Application Notes AND8307/D and AND8308/D. IEC61000−4−2 Waveform IEC61000−4−2 Spec. Ipeak Level Test Voltage (kV) First Peak Current (A) Current at 30 ns (A) Current at 60 ns (A) 1 2 7.5 4 2 2 4 15 8 4 3 6 22.5 12 6 4 8 30 16 8 100% 90% I @ 30 ns I @ 60 ns 10% tP = 0.7 ns to 1 ns Oscilloscope TVS 50 W Cable 50 W Figure 14. Diagram of ESD Test Setup 100 % OF PEAK PULSE CURRENT ESD Gun PEAK VALUE IRSM @ 8 ms tr 90 PULSE WIDTH (tP) IS DEFINED AS THAT POINT WHERE THE PEAK CURRENT DECAY = 8 ms 80 70 60 HALF VALUE IRSM/2 @ 20 ms 50 40 30 tP 20 10 0 0 20 40 t, TIME (ms) 60 Figure 15. 8 x 20 ms Pulse Waveform http://onsemi.com 7 80 EMI4182MU Figure 16. ESD Clamping Voltage +8 kV per IEC6100−4−2 (external to internal pin) Figure 17. ESD Clamping Voltage −8 kV per IEC6100−4−2 (external to internal pin) http://onsemi.com 8 EMI4182MU HDMI Type−A Connector EMI4182 TMDS Data 2+ D2+ TMDS Data 2− GND D2− TMDS Data 1+ D1+ TMDS Data 1− GND 1 10 D1− EMI4182 TMDS Data 0+ D0+ TMDS Data 0− GND D0− TMDS Clock+ CLK + TMDS Clock− GND 1 10 CEC CLK− CEC SCL HEC DATA SDA SCL Hot Plug Detect SDA GND +5V Power NUP4114 5V HTP _D Black = Top layer Red = other layer Figure 18. EMI4182 HDMI Type – A Connector Application Diagram HDMI Type −D Connector EMI4182 TMDS Data 2+ PIN 1 TMDS Data 2− HTP _D Util D2+ GND TMDS Data 1+ TMDS Data 1− D 2− D 1+ GND 1 10 D 1− D0+ GND TMDS Data 0+ D 0− CLK + TMDS Data 0− GND CLK − CEC GND SCL TMDS Clock + TMDS Clock − SDA 5V 1 10 EMI4182 Black = Top layer Red = other layer CEC SCL +5V Power SDA NUP4114 Figure 19. EMI4182 HDMI Type − D Connector Application Diagram http://onsemi.com 9 EMI4182MU PACKAGE DIMENSIONS UDFN10 2.5x2, 0.5P CASE 517CJ ISSUE O PIN ONE REFERENCE 2X 0.10 C 0.10 C 2X L A B D L NOTES: 1. DIMENSIONING AND TOLERANCING PER ASME Y14.5M, 1994. 2. CONTROLLING DIMENSION: MILLIMETERS. 3. DIMENSIONS b APPLIES TO PLATED TERMINAL AND IS MEASURED BETWEEN 0.15 AND 0.30 MM FROM TERMINAL TIP. 4. COPLANARITY APPLIES TO THE EXPOSED PAD AS WELL AS THE TERMINALS. L1 ÇÇÇ ÇÇÇ ÇÇÇ E DETAIL A ALTERNATE TERMINAL CONSTRUCTIONS ÉÉ ÉÉ ÇÇ EXPOSED Cu TOP VIEW DETAIL B A (A3) 0.05 C ÉÉ ÇÇ ÇÇ A3 MOLD CMPD A1 DETAIL B DIM A A1 A3 b D E e L L1 ALTERNATE CONSTRUCTIONS 0.05 C NOTE 4 A1 SIDE VIEW C SEATING PLANE RECOMMENDED MOUNTING FOOTPRINT* DETAIL A 1 5 8X 8X 8X 0.30 1.07 L 0.10 MIN 10 BOTTOM VIEW PACKAGE OUTLINE 2.30 6 e MILLIMETERS MIN MAX 0.45 0.55 0.00 0.05 0.13 REF 0.15 0.25 2.50 BSC 2.00 BSC 0.50 BSC 0.70 0.90 0.05 0.15 9X 1 b 0.10 M C A B 0.05 M C 0.45 NOTE 3 0.50 PITCH DIMENSIONS: MILLIMETERS *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. 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