SI3402BISO-EVB

Si3402BISO-EVB I S O L AT E D E VAL UATI O N B O A R D F O R TH E S i 3 4 0 2 B 1. Description The Si3402B isolated evaluation board (Si3402BISO-EVB Rev 2) is a reference design for power supplies in Power over Ethernet (PoE) Powered Device (PD) applications. The Si3402B is described more completely in the data sheet and application notes. This document describes only the Si3402BISO-EVB evaluation board. An evaluation board demonstrating the non-isolated application is described in the Si3402B-EVB User’s Guide. 2. Planning for Successful Designs Skyworks Solutions strongly recommends the use of the schematic and layout databases provided with the evaluation boards as the starting point for your design. Use of external components other than those described and recommended in this document is generally discouraged. Refer to Table 2 on page 9 for more information on critical component specifications. Careful attention to the recommended layout guidelines is required to enable robust designs and full specification compliance. To help ensure design success, please submit your schematic and layout databases to the Power group for review and feedback. 3. Si3402B Board Interface Ethernet data and power are applied to the board through the RJ-45 connector (J1). The board itself has no Ethernet data transmission functionality, but, as a convenience, the Ethernet transformer secondary is brought out to the test points. Power may be applied in the following ways: Connecting a dc source to Pins 1, 2 and 3, 6 of the Ethernet cable (either polarity). Connecting a dc source to Pins 4, 5 and 7, 8 of the Ethernet cable (either polarity). Using an IEEE 802.3-2015-compliant, PoE-capable PSE, such as Trendnet TPE-1020WS. The Si3402BISO-EVB board schematics and layout are shown in Figures 1 through 6. The dc output is at connectors J11(+) and J12(–). Boards are generally shipped configured to produce +5 V output voltage but can be configured for +3.3 V or other output voltages as shown in Table 2 on page 9. The preconfigured Class 3 signature also can be modified according to Table 3 on page 10. The D8–D15 Schottky-type diode bridge bypass is recommended only for higher power levels (Class 3 operation). For lower power levels, such as Class 1 and Class 2, the diodes can be removed. When the Si3402B is used in external diode bridge configuration, it requires at least one pair of the CTx and SPx pins to be connected to the PoE voltage input terminals (to the input of the external bridge). The feedback loop compensation has been optimized for 3.3, 5, 9, and 12 V output as well as with standard and low ESR capacitors in the output filter section (Table 2 on page 9). The use of low ESR capacitors is recommended for lower output ripple, improved load transient response and low temperature (below 0 °C) operation. Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 anode cathode K2 11 LED_K2 PWR5 A2 LED_A2 K1 MX0+ CT MX0- L4 330 Ohm Vposs NI TP1 11 12 13 14 C18 0.1uF SP1 12uF + C2 Vpos CT2 CT1 U1 1uF C1 0 Vss 1uF C3 1uF C4 Connect transformer and input filter caps together minimizing area of return loop and then connect to Vpos plane. Si3402B NC Vdd NC EROUT 4 3 2 1 1nF 2 1 NI Vss TP2 swo FA2924 T1 10:3 secondary C19 Figure 1. Si3402B Schematic—5 V, Class 3 PD Vneg is a thermal plane as well as ESD and EMI. Use thermal vias to at least 1 inch square plane on backside 1 to 1.2mm pitch 0.3 to 0.33mm diameter. Capacitors C10-C17 are for ESD immunity.. Place optional bypass diodes for high power applications (>7W) in parallel. L2 330 Ohm L3 330 Ohm TP6 NI TP7 NI TP3 NI TP4 NI TP5 NI R2 49.9K At least one pair of CT1/CT2 or SP1/SP2 should be connected. TDP TDN 4 5 6 7 RDP CT RDN 1 2 3 RJ-45 J1 GNDI L5 330 Ohm PWR1 MX1+ CT/MX1MX1- PWR3 9 PWR4 10 LED_K1 A1 LED_A1 PWR2 8 D1 D2 J1:A1, K1 must be isolated from A2,K2 D15 SS2150 1nF C14 D11 SS2150 1nF C10 D14 SS2150 1nF C15 D10 SS2150 1nF C11 1nF C13 15 Vssa 16 9 SP2 10 NC R3 Vneg 17 RCL 8 D13 SS2150 D9 SS2150 1nF C16 7 48.7 1N4148W DFLT30A-7 Vpos is an EMI and ESD plane. Use top layer. R4 NC 18 SWO HSO 19 VSS2 20 5 RDET 6 FB nploss 24.3k 1nF C12 D8 SS2150 0.1uF C22 D12 SS2150 1nF C17 R12 0 15nF 10 9 7 8 C20 C21 R1 330 3.3nF C9 GNDI 0 R8 + J12 C5 1000uF 5V BND_POST R5 36.5K R6 12.1K BND_POST VO618A-3X017T U2 C6 100uF 1uH L1 J11 400 W Cesar Chavez St, Austin, TX 78701, United States 1nF U3 TLV431 R11 4.99K R7 2.05K 10 470pF GNDI R10 C7 PDS1040 D3 Vout pos plane for EMI Si3402BISO-EVB 2 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Figure 2. Si3402B Layout (Top Layer) Si3402BISO-EVB Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com 3 Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Figure 3. Primary Side (Layer 2) Si3402BISO-EVB 4 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Figure 4. Internal 1 (Layer 3) Si3402BISO-EVB Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com 5 Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Figure 5. Internal 2 (Layer 4) Si3402BISO-EVB 6 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Figure 6. Secondary Side (Bottom Layer) Si3402BISO-EVB Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com 7 Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Si3402BISO-EVB 4. Bill of Materials The following bill of materials is for a 5 V Class 3 design. For Class 1 and Class 2 designs, in addition to updating the classification resistor (R3), the external diode bridge (D8–D15) can be removed to reduce BOM costs. Tables 2 and 3 list changes to the bill of materials for other output voltages and classification levels. Refer to “AN956: Using the Si3402B PoE PD Controller in Isolated and Non-Isolated Designs” for more information. Table 1. Si3402BISO-EVB Bill of Materials Qty Value Ref Voltage Tol Type PCB Footprint Mfr Part Number Mfr 3 1 µF C1, C3, C4 Rating 100 V ±10% X7R C1210 C1210X7R101-105K Venkel 1 12 µF C2 100 V ±20% Alum_Elec C2.5X6.3MM-RAD EEUFC2A120 Panasonic 1 1000 µF C5 6.3 V ±20% Alum_Elec C3.5X8MM-RAD ECA0JM102 Panasonic 1 100 µF C6 6.3 V ±10% X5R C1210 C1210X5R6R3-107K Venkel 1 470 pF C7 50 V ±10% X7R C0805 C0805X7R500-471K Venkel 1 3.3 nF C9 16 V ±10% X7R C0805 C0805X7R160-332K Venkel 8 1 nF C10, C11, C12, C13, C14, C15, C16, C17 100 V ±10% X7R C0603 C0603X7R101-102K Venkel 1 0.1 µF C18 100 V ±10% X7R C0805 C0805X7R101-104K Venkel 2 1 nF C19, C20 3000 V ±10% X7R C1808 C1808X7R302-102K Venkel 1 15 nF C21 16 V ±10% X7R C0805 C0805X7R160-153K Venkel 1 0.1 µF C22 16 V ±10% X7R C0805 C0805X7R160-104K Venkel 1 1N4148W D1 2A 100 V Fast SOD123 1N4148W Diodes Inc 1 DFLT30A-7 D2 4.65 A 30 V Zener POWERDI-123 DFLT30A-7 Diodes Inc. 1 PDS1040 D3 10 A 40 V Schottky POWERDI-5 PDS1040-13 Diodes Inc. 8 SS2150 D8, D9, D10, D11, D12, D13, D14, D15 2A 150 V Single DO-214AC SS2150-LTP MCC 1 RJ-45 J1 Receptacle RJ45-SI-52004 SI-52003-F Bel 2 BND_POST J11, J12 15 A Banana Banana-Jack 101 ABBATRON HH SMITH 1 1 µH L1 2.9 A ±20% Shielded IND-6.6X4.45MM DO1608C-102ML_ Coilcraft 4 330  L2, L3, L4, L5 1500 mA SMT L0805 BLM21PG331SN1 MuRata 1 330  R1 1/10 W ±1% ThickFilm R0805 CR0805-10W-3300F Venkel 1 49.9 k R2 1/10 W ±1% ThickFilm R0805 CR0805-10W-4992F Venkel 1 48.7  R3 1/8 W ±1% ThickFilm R0805 CRCW080548R7FKTA Vishay 1 24.3 k R4 1/8 W ±1% ThickFilm R0805 CRCW080524K3FKEA Vishay 1 36.5 k R5 1/10 W ±1% ThickFilm R0805 CR0805-10W-3652F Venkel 1 12.1 k R6 1/10 W ±1% ThickFilm R0805 CR0805-10W-1212F Venkel 1 2.05 k R7 1/16 W ±1% ThickFilm R0603 CR0603-16W-2051F Venkel 2 0 R8, R12 2A ThickFilm R0805 CR0805-10W-000 Venkel 1 10  R10 1/10 W ±1% ThickFilm R0805 CR0805-10W-10R0F Venkel 1 4.99 k R11 1/10 W ±1% ThickFilm 1 FA2924 T1 1 Si3402B U1 1 VO618A-3X017T U2 1 TLV431 U3 TP1, TP2, TP3, TP4, TP5, TP6, TP7 100 R0805 CR0805-10W-4991F Venkel XFMR-FA2924 FA2924-AL Coilcraft QFN20N5X5P0.8 Si3402B Skyworks Solutions SO4N10.16P2.54-AKEC VO618A-3X017T Vishay Shunt TLV431-DBZ TLV431BCDBZR TI Loop Testpoint 5001 Keystone PD Not Installed Components 7 Black 8 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Si3402BISO-EVB Table 2. Component Selection for other Output Voltages and Filter Types 3.3 V Output Transformer* EP10 FA2671 EP13FA2924AL Output Rectifier: PDS1040 Snubber: R10, C7 10 W, 470 pF R5 R6 C6 C5 Panasonic R7, R8, R12 C9,C21 Standard ESR Output Filter 24.3 k 14.7 k 100 µF X5R 1000 µF 6.3 V ECA0JM102 500 , 1.1 k, 475  10 nF, 33 nF, Low ESR Output Filter 24.3 k 14.7 k 100 µF X5R 560 µF 6.3 V 5.0 V Output Transformer* EP10 FA2671 EP13FA2924CL Reference Any TLV431 EEUFM0J561 324 , 2 k, 820  10 nF, 100 nF Output Rectifier PDS1040 Snubber: R10, C7 10Ω, 470 pF Reference Any TLV431 R5 R6 C6 C5 Panasonic R7, R8, R12 C9, C21 Standard ESR Output Filter 36.5 k 12.1 k 100 µF X5R 1000 µF 6.3 V ECA0JM102 2.05 k, 0 , 0  3.3nF, 15 nF Low ESR Output Filter 36.5 k 12.1 k 100 µF X5R 560 µF 6.3 V EEUFM0J561 2.05 k, 0 , 0  3.3nF, 33 nF 9.0 V Output Transformer* EP10 FA2672 EP13FA2805CL Output Rectifier: PDS5100 Snubber: R10, C7 20 , 68 pF R5 R6 C5 Panasonic R1,R7, R8, R12 C9,C21 C6 Reference Higher voltage e.g., TLV431ASNT1G Standard ESR Output Filter 66.5 k 22 µF X5R 10.5 k 16 V 470 µF 16 V ECA1M471 1.3 k3 k, 0 , 0  10 nF, 15 nF Low ESR Output Filter 66.5 k 22 µF X5R 10.5 k 16 V 330 µF 16 V EEUFM1C331 3 k, 0 , 0  10 nF, 15 nF 12.0 V Output Transformer* EP10 Output rectifier: PDS5100 FA2672 Snubber: R10, C7 EP13FA2805CL 20 , 68 pF R5 R6 C6 Reference Higher Voltage e.g., TLV431ASNT1G C5 Panasonic R1,R7, R8, R12 C9,C21 Standard ESR Output Filter 88.7 k 22 µF X5R 10.2 k 16 V 470 µF 16 V ECA1M471 1.3 k3 k, 0 , 0  10 nF, 15 nF Low ESR Output Filter 88.7 k 22 µF X5R 10.2 k 16 V 330 µF 16 V EEUFM1C331 1.3 k3 k, 0 , 0  10 nF, 15 nF *Note: Coilcraft part number. EP13 core is recommended for >10 W output power. Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com 9 Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Si3402BISO-EVB Table 3. Component Selection for Different Classification Levels Class R3 (1%) 0 Open 1 140 2 75 3 45.3 10 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Si3402BISO-EVB A PPEN DIX — S i 3 4 0 2 B I S O D E S I G N A N D L AYO UT C H EC K LI S T Introduction Although all four EVB designs are preconfigured as Class 3 PDs with 5 V outputs, the schematics and layouts can easily be adapted to meet a wide variety of common output voltages and power levels. The complete EVB design databases for the standard 5 V/Class 3 configuration are included in the EVB kit and can also be requested through Skyworks Solutions customer support at https://www.skyworksinc.com/support-ia under the “Documentation” link. Skyworks Solutions strongly recommends using these EVB schematics and layout files as a starting point to ensure robust performance and to help avoid common mistakes in the schematic capture and PCB layout processes. Following are recommended design checklists that can assist in trouble-free development of robust PD designs: Refer also to the Si3402B data sheet and AN956 when using the checklists below. 1. Design Planning Checklist: a. Skyworks Solutions strongly recommends using the EVB schematics and layout files as a starting point as you begin integrating the Si3402B into your system design process. b. Determine your load’s power requirements (i.e., VOUT and IOUT consumed by the PD, including the typical expected transient surge conditions). In general, to achieve the highest overall efficiency performance of the Si3402, choose the highest voltage used in your PD and then post regulate to the lower supply rails, if necessary. c. If your PD design consumes >7 W, make sure you bypass the Si3402’s on-chip diode bridges with external Schottky diode bridges or discrete Schottky diodes. Bypassing the Si3402’s on-chip diode bridges with external bridges or discrete diodes is required to help spread the heat generated in designs dissipating >7 W. d. Based on your required PD power level, select the appropriate class resistor value by referring to Table 3 of AN956. This sets the Rclass resistor (R3 in Figure 1 on page 2). e. The feedback loop stability has been checked over the entire load range for the specific component choices in Table 1. Low ESR filter capacitors will give better load transient response and lower output ripple so they are generally preferred. For the standard ESR capacitor, the ESR increase at very low temperatures may cause a loop stability issue. A typical evaluation board has been shown to exhibit instability under very heavy loads at –20 °C. Due to self-heating, this condition is not a great concern. However, using a low ESR filter capacitor solves this problem (but requires some recompensation of the feedback loop). Skyworks Solutions recommends against component substitution in the filtering and feedback path as this may result in unstable operation. Also, use care in situations that have additional capacitive loading as this will also affect loop stability. 1. General Design Checklist Items: a. ESD caps (C10–C17 in Figure 1) are strongly recommended for designs where system-level ESD (IEC6100-4-2) must provide >15 kV tolerance. b. If your design uses an AUX supply, make sure to include a 3  surge limiting resistor in series with the AUX supply for hot insertion. Refer to AN956 when AUX supply is 48 V. c. Skyworks Solutions strongly recommends the inclusion of a minimum load (250 mW) to avoid switcher pulsing when no load is present, and to avoid false disconnection when less than 10 mA is drawn from the PSE. If your load is not at least 250 mW, add a resistor load to dissipate at least 250 mW. d. If using PLOSS function, make sure it’s properly terminated for connection in your PD subsystem. If PLOSS is not needed, leave this pin floating. Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com 11 Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Si3402BISO-EVB 1. Layout Guidelines: a. Make sure the VNEG pin of the Si3402B is connected to the backside of the QFN package with an adequate thermal plane, as noted in the data sheet and AN956. b. Keep the trace length from connecting to SWO and retuning to Vss1 and Vss2 as short as possible. Make all of the power (high current) traces as short, direct, and thick as possible. It is a good practice on a standard PCB board to make the traces an absolute minimum of 15 mils (0.381 mm) per Ampere. c. Usually one standard via handles 200 mA of current. If the trace will need to conduct a significant amount of current from one plane to the other use multiple vias. d. Keep the circular area of the loop from the Switcher FET output to the inductor or transformer and returning from the input filter capacitors (C1–C4) to Vss2 as small a diameter as possible. Also, minimize the circular area of the loop from the output of the inductor or transformer to the Schottky diode and returning through the fist stage output filter capacitor back to the inductor or transformer as small as possible. If possible, keep the direction of current flow in these two loops the same. e. Connect the sense points to the output terminals directly to avoid load regulation issues related to IR drops in the PCB traces. The sense points are the output side of R5 and Pin 3 of TLV431. f. Keep the feedback and loop stability components as far from the transformer/inductor and noisy power traces as possible. g. If the outputs have a ground plane or positive output plane, do not connect the high current carrying components and the filter capacitors through the plane. Connect them together and then connect to the plane at a single point. h. As a convenience in layout, please note that the IC is symmetrical with respect to CT1, CT2, SP1 and SP2. These leads can be interchanged. At least one pair of CT1/CT2 or SP1/SP2 should be connected. To help ensure first pass success, please submit your schematics and layout files to the Power group for review. Other technical questions may be submitted as well. 12 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Si3402BISO-EVB DOCUMENT CHANGE LIST Revision 1.1 to Revision 1.2 Initial release of Si3402BISO-EVB User’s Guide, modified from Si3402-ISO-EVB User’s Guide Revision 1.1. Revision 1.2 to Revision 1.3 Updated layers in Figures 2 through 6. Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com 13 Rev. 1.3 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 26, 2021 Connecting Everyone and Everything, All the Time Portfolio Quality Support & Resources www.skyworksinc.com www.skyworksinc.com/quality www.skyworksinc.com/support Copyright © 2021 Skyworks Solutions, Inc. All Rights Reserved. Information in this document is provided in connection with Skyworks Solutions, Inc. (“Skyworks”) products or services. These materials, including the information contained herein, are provided by Skyworks as a service to its customers and may be used for informational purposes only by the customer. Skyworks assumes no responsibility for errors or omissions in these materials or the information contained herein. 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