MICROCHIP EV96C70A 55W Dual Output Converter from 36V-54V Input EVB User Guide

MICROCHIP EV96C70A 55W Dual Output Converter from 36V-54V Input EVB

Introduction

This document provides the description and operating procedures for Microchip’s dual output 55V/30W and 5V/25W board from 36V–54V input EV96C70A. This board type is used for evaluating the performance of Microchip PoE systems and the Microchip PWM controller LX7309, which is an integral part of Microchip PoE PD controllers PD70201 and PD70211.

Microchip’s PD70201 and PD70211 devices are a part of a family of devices that support the IEEE® 802.3af, IEEE 802.3at, and HDBaseT standards PD interface.

The PD interface includes the following family of devices.

Table 1. Microchip Powered Device Products Offerings

Part| Type| Package| ® IEEE 802.3af| IEEE 802.3at| HDBaseT (PoH)| UPoE
---|---|---|---|---|---|---
PD70100| Front end| 3 mm × 4 mm 12L DFN| x| —| —| —
PD70101| Front end + PWM| 5 mm × 5 mm 32L QFN| x| —| —| —
PD70200| Front end| 3 mm × 4 mm 12L DFN| x| x| —| —
PD70201| Front end + PWM| 5 mm × 5 mm 32L QFN| x| x| —| —
PD70210| Front end| 4 mm × 5 mm 16L DFN| x| x| x| x
PD70210A| Front end| 4 mm × 5 mm 16L DFN| x| x| x| x
PD70210AL| Front end| 5 mm × 7 mm 38L QFN| x| x| x| x
PD70211| Front end + PWM| 6 mm × 6 mm 36L QFN| x| x| x| x
PD70224| Ideal diode bridge| 6 mm × 8 mm 40L QFN| x| x| x| x

Microchip’s EV96C70A evaluation board provides designers with the environment needed for evaluating the performance and implementation of PoE PD applications.

The board uses two PWM LX7309, which are an integral part of Microchip PD controllers PD70201 and PD70211.

This document provides all necessary procedures and instructions to install and operate this board.

Figure 1. EV96C70A Block Diagram

The board can be powered through an input connector J6 by a lab supply or by an output of PoE PD front end. See section 1.3. Electrical Characteristics for the input voltage range. The external load is connected to the evaluation board using the J1 (5V/25W) and J7 (55V/30W) output connectors. The following figure shows the location of input and output connectors.

D5 is the 55V indication LED and D9 is the 5V indication LED. These LEDs indicate the presence of the corresponding outputs.

The following figure shows a top view of the evaluation board.

Figure 2. EV96C70A Evaluation Board

Product Overview

This section provides the product overview of the evaluation board.

Evaluation Board Features

• Input DC voltage connector and two output voltage connectors.
• Onboard “output present” LED indicators.
• 36 VDC to 54 VDC input voltage range.
• Evaluation board working temperature: 0 ℃ to 70 ℃.
• RoHS compliant.

Evaluation Board Connectors

The following table lists the evaluation board connectors.

Table 1-1. Connector Details

Input Connector

The following table lists pinout of input connector.

Table 1-2. J1 Connector

• Manufacturer: On Shore Technology.
• Manufacturer part number: ED700/2.

Output Connectors

An external load is connected to the evaluation board using the J1 and J7 output connectors. The following tables list pinouts of the output connector.

The manufacturer and manufacturer part number details of the J1 and J7 output connectors are as follows:

• Manufacturer: Kaifeng Electronic.
• Manufacturer part number: KF350V-02P-14.

Table 1-3. J1 Connector

Table 1-4. J7 Connector

Electrical Characteristics

The following table lists the electrical characteristics of the EV96C70A evaluation board.

Table 1-5. Electrical Characteristics

| Min.| Max.| Unit
---|---|---|---
Input at J6| 36| 57| V
Output voltage at J1| 4.8| 5.25| V
Maximum output current at J1| —| 5| A
Port J1 isolation to input| 1500| —| VRMS
Output voltage at J7| 54| 56| V
Maximum output current at J7| —| 0.55| A
Port J7 isolation to input| 1500| —| VRMS
Port J1 isolation to port J7| 1500| —| VRMS
Ambient temperature| 0| 70| ℃

Installation

This section provides information about the installation procedure of the EV96C70A evaluation board.
Note: Ensure that power source of the board is turned OFF before all peripheral devices are connected.

Initial Configuration

Perform the following steps for initial configuration:

1. Connect load to the board (using J1 and J7).
2. Connect a DC supply to input connector J6.
3. Turn ON the DC supply.

Schematic

Figure 3-1. Schematic

Bill of Materials

The following table lists the bill of materials.

Table 4-1. Bill of Materials

Item| QTY| Reference| Value| Description| Part Number| Manufacturer
---|---|---|---|---|---|---
1| 10| VSEC1| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
VIN_RTN1| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
DRAIN1| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
V_OUT2| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
VSEC2| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
VIN_RTN2| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
GND_SEC2| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
DRAIN2| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
54_RTN| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
54V+| HK-2-G-S05| TEST POINT| HK-2-G-S05| MAC-8
2| 7| C3| 100 nF| Capacitor, X7R, 100 nF, 100V, 10% 0603| 06031C104KAT2A| AVX
C49| 100 nF| Capacitor, X7R, 100 nF,100V, 10% 0603| 06031C104KAT2A| AVX
C73| 100 nF| Capacitor, X7R, 100 nF,100V, 10% 0603| 06031C104KAT2A| AVX
C82| 100 nF| Capacitor, X7R, 100 nF, 100V, 10% 0603| 06031C104KAT2A| AVX
C83| 100 nF| Capacitor, X7R, 100 nF,100V, 10% 0603| 06031C104KAT2A| AVX
C157| 100nF| Capacitor, X7R, 100nF,100v, 10% 0603| 06031C104KAT2A| AVX
C179| 100 nF| Capacitor, X7R, 100 nF,100V, 10% 0603| 06031C104KAT2A| AVX
3| 3| C11| 10n| CAP CRM 10 nF, 50V, 10%X7R 0603 SMT| MCH185CN103KK| Rohm
| | C12| 10n| CAP CRM 10 nF, 50V, 10%X7R 0603 SMT| MCH185CN103KK| Rohm
C17| 10n| CAP CRM 10 nF 50V 10%X7R 0603 SMT| MCH185CN103KK| Rohm
4| 1| C13| 36p| CAP CRM 36 pF, 50V, 5% C0G 0603 SMT| 06035A360JAT2A| AVX
5| 4| C15| 1 μF| Capacitor, X7R, 1 μF, 25V, 10% 0603| GRM188R71E105KA12D| Murata
C18| 1 μF| Capacitor, X7R, 1μF, 25V, 10% 0603| GRM188R71E105KA12D| Murata
C171| 1 μF| Capacitor, X7R, 1uF, 25V, 10% 0603| GRM188R71E105KA12D| Murata
C174| 1 μF| Capacitor, X7R, 1 μF, 25V, 10% 0603| GRM188R71E105KA12D| Murata
6| 1| C19| 100 pF| CAP COG 100 pF, 50V, 5% 0603| C1608C0G1H101J| TDK
7| 1| C20| 47n| CAP CRM 47n, 50V, 0603| CL10B473KB8NNNC| Samsung
8| 1| C45| 1n| CAP CRM 1 nF/2000V, 10% X7R 1206| C1206C102KGRAC| Kemet
9| 2| C46| 22 μF| CAP ALU 22 μF, 100V, 20%8X11.5 105C| EEUFC2A220| Panasonic
C60| 22 μF| CAP ALU 22 μF, 100V, 20%8X11.5 105C| EEUFC2A220| Panasonic
10| 4| C47| 10 μF| CAP CER 10 μF, 100V, 20% X7R 2220| 22201C106MAT2A| AVX
---|---|---|---|---|---|---
C48| 10 μF| CAP CER 10 μF, 100V, 20% X7R 2220| 22201C106MAT2A| AVX
C56| 10 μF| CAP CER 10 μF, 100V, 20% X7R 2220| 22201C106MAT2A| AVX
C57| 10 μF| CAP CER 10 μF, 100V, 20% X7R 2220| 22201C106MAT2A| AVX
11| 2| C50| 2.2 μF| CAP CRM 2.2 μF, 100V, X7R 1210| C1210C225K1RACTU| Kemet
C51| 2.2 μF| CAP CRM 2.2 μF, 100V, X7R 1210| C1210C225K1RACTU| Kemet
12| 1| C55| 47 μF| CAP ALU 47 μF, 100V, 20% 105C| 100PX47MEFCT78X11.5| Rubicon
13| 1| C63| 1 nF| Cap 1 nF 100V 10% X7R 0603 SMT| CL10B102KC8NNNC| Samsung
14| 1| C64| 1 μF| Cap 1nF 100V 10% X7R 0603 SMT| CL10B105KA8NNNC| Samsung
15| 1| C65| 0.1 μF| CAP CRM 0.1 μF, 50V, X7R 0603| UMK105B7104KV-FR| Taiyo Yuden
16| 4| C66| 1 μF| Capacitor, X7R 1 μF 10V, 10% 0603| GRM188R71A105KA61D| Murata
C67| 1 μF| Capacitor, X7R, 1 μF, 10V, 10% 0603| GRM188R71A105KA61D| Murata
C176| 1 μF| Capacitor, X7R, 1μF, 10V, 10% 0603| GRM188R71A105KA61D| Murata
C177| 1 μF| Capacitor, X7R, 1 μF, 10V, 10% 0603| GRM188R71A105KA61D| Murata
17| 1| C68| 22 pF| CAP CRM 22 pF, 500V, 10% NPO 1206 SMT| VJ1206A220JXEAT| Vishay
18| 1| C69| 22n| CAP CRM 22 nF, 25V, 10%X7R 0603 SMT| VJ0603Y223KXXCW1BC| Vishay
19| 2| C70| 10 μF| Capacitor, X7R, 10 μF, 25V, 10% 1206| C1206C106K3RACTU| Kemet
C168| 10 μF| Capacitor, X7R, 10 μF, 25V, 10% 1206| C1206C106K3RACTU| Kemet
20| 2| C71| 100p| CAP CRM 100 pF 100V 5% NPO 0603 SMT| VJ0603A101JXBT| Vishay
C175| 100p| CAP CRM 100pF 100V 5%NPO 0603 SMT| VJ0603A101JXBT| Vishay
21| 1| C72| 6.8 nF| CAP CER 6.8 nF, 50V, 10% X7R 0603 SMT| 06035C682KAT2A| AVX
22| 2| C74| 4.7 μF| CAP CRM 4.7 μF, 10V, 10%X7R 0805 SMT| 0805ZC475KAT2A| AVX
| | C165| 4.7 μF| CAP CRM 4.7 μF, 10V, 10%X7R 0805 SMT| 0805ZC475KAT2A| AVX
23| 1| C75| 1μ| CAP CRM 1 μF 50V 10% X7R 0805 SMT| UMK212B7105KG-T| Taiyo Yuden
24| 1| C76| 1μ| CAP CRM 1 μF, 16V, 10% 0805 X7R SMT| CL10B105KO8NNNC| Samsung
25| 1| C77| 1μ| CAP CRM 1 μF, 50V, 10% X7R 0805 SMT| GRM21BR71H105KA12L| Murata
26| 1| C93| 2.2 μF| CAP CRM 2.2 μF 100V X7R 1210| C3225X7R2A225K| TDK
27| 1| C96| 820 pF| CAP CRM 820p, 200V, X7R 0805| 08052C821KAT2A| AVX
28| 1| C106| 3.3 nF| CAP CRM 3.3 nF, 16V, X7R 0603| C1608X7R1C332K| TDK
29| 2| C109| 100 nF| CAP CRM 100 nF, 10V, X7R 0603| GRM188R71H104KA01| Murata
| | C173| 100 nF| CAP CRM 100 nF, 10V, X7R 0603| GRM188R71H104KA01| Murata
30| 1| C110| 1 nF| CAP CRM 1 nF, 16V, X7R 0603| CL10B102KA8NNNC| Samsung
31| 1| C156| 100p| CAP CRM 100 pF, 200V, NPO 0805| 08052A101KAT2A| AVX
32| 2| C160| 180 μF| CAP Polymer Alum. 180 μF, 16V, 20%| RL81C181MDN1KX| Nichicon
33| 1| C163| 100n| CAP CRM 100 nF 16V 10%X7R 0603 SMT| VJ0603Y104KXJCW1BC| Vishay
---|---|---|---|---|---|---
34| 1| C170| 10n| CAP CRM 10 nF, 50V, 10%X7R 0603 SMT| C1608X7R1H103K080AA| TDK
35| 1| C172| 1n| CAP CRM 1 nF/2000V, 10%++X7R 1206 SMT| 1206B102K202CT| Walsin
36| 1| C178| 2.2n| CAP CRM 2.2 nF, 50V, 10%X7R 0603 SMT| C0603C222K5RAC| Kemet
37| 1| D3| SMAJ58A| DIO TVS 58V, 40A, SRG400WPK SMA SMT| SMAJ58A| Vishay
38| 2| D4| MBR0540T1G| DIO SCHOTTKY 40V, 500 mA, SOD123 REC. SMT| MBR0540T1G| ON Semi
D8| MBR0540T1G| DIO SCHOTTKY 40V, 500 mA, SOD123 REC. SMT| MBR0540T1G| ON Semi
39| 2| D5| LED| LED SuperYelGrn 100-130o 0603 SMD| 19-21-SYGCS530E3TR8| Ever light
| | D9| LED| LED SuperYelGrn 100-130o 0603 SMD| 19-21-SYGCS530E3TR8| Ever light
40| 1| D10| SMCJ220CA| TVS DIODE Bidirectional 220V WM 356VC SMC| SMCJ220CA| Littelfuse
41| 1| D11| C3D02060E| Diode Schottky Zero Recovery 600V DPAK| C3D02060E| Cree Inc
42| 3| D12| BAT46W-7-F| Diode Schottky 100V, 150 mA, SOD123F| BAT46W-7-F| Diodes Inc.
D17| BAT46W-7-F| Diode Schottky 100V, 150 mA, SOD123F| BAT46W-7-F| Diodes Inc.
D68| BAT46W-7-F| Diode Schottky 100V, 150 mA , SOD123F| BAT46W-7-F| Diodes Inc.
43| 1| D13| TL431BCDBVR| IC AdjPrec Shunt Reg 2.5V, 0.5%, SOT23-5| TL431BCDBVR| TI
44| 1| D14| BAT54A| DIO Schottky 30V 200 mASOT23| BAT54A| Philips
45| 1| D15| 1SMA5934BT3G| DIODE ZENER 24V, 1.5W, SMA SMT| 1SMA5934BT3G| ON Semi
46| 1| D16| BZT52C12-7-F| DIO ZENER 12V, 500 mW, SOD123 SMT| BZT52C12-7-F| Diodes Inc.
47| 1| D20| SMAJ40A| DIODE TVS 40V, 400W, 5 μA, 6.2A| SMAJ40A| Bourns
48| 2| D21| ES1D| DIODE ULTRA FAST 200V, 1A, DO-214AC| ES1D| Fairchild
D64| ES1D| DIODE ULTRA FAST 200V, 1A, DO-214AC SMT| ES1D| Fairchild
49| 2| D55| MMSD701T1G| DIODE SCHOTTKY 70V 0.2A, 225W, SOD123| MMSD701T1G| ON Semi
D61| MMSD701T1G| DIODE SCHOTTKY 70V 0.2A, 225W, SOD123| MMSD701T1G| ON Semi
50| 1| D58| BAV99W| Diode, Dual Switching BAV99W SOT323| BAV99W| NXP
51| 1| D59| SMBJ24A| TVS DIODE 24V 38.9V SMBJ| SMBJ24A| BRIGHTKING
52| 1| D62| TL431CDBVRE4| IC Prog Shunt Ref 2.5V, 2% SOT23-5 SMT| TL431CDBVRE4| TI
53| 1| D63| SMAJ58A-13-F| DIO TVS 58V 40A SRG400WPK SMA SMT| SMAJ58A-13-F| Diodes Inc.
54| 1| D65| DDZ9717-7| Diode, Zener, 500 mW, 43V, 5% SOD123| DDZ9717-7| Diodes Inc.
55| 1| D66| SMAJ58A-E3| DIO TVS 58V, 40A, SRG400WPK SMA SMT| SMAJ58A-E3| Vishay
56| 2| J1| PD-CON2| Terminal block 2 Pole interlocking 3.5 mm pitch| MB332-350M02| DECA
| | J7| PD-CON2| Terminal block 2 Pole interlocking 3.5mm pitch| MB332-350M02| DECA
---|---|---|---|---|---|---
57| 1| J6| ED700/2| TERMINAL BLOCK 5MM 2POS PCB| ED700/2| On Shore Tech
58| 2| J8| TMM-103-01-L-S| Con Male PIN Header 3P 2 mm Vertical SR TH| TMM-103-01-L-S| Samtec
J9| TMM-103-01-L-S| Con Male PIN Header 3P 2 mm Vertical SR TH| TMM-103-01-L-S| Samtec
59| 1| L1| 2.2 μH| Power Inductors 2.2 μHy, 1.5A, 110m SMT| LPS3015-222MR| Coilcraft
60| 1| L2| 3.3 μH| Inductor 3.3 μH, 0.015R, 6.4A, SMT| L0-3316-3R3-RM| ICE Comp
61| 1| L3| 0.33 μH| Power Inductor 0.33 μH, 20A , Shilded SMT| SRP7030-R33M| Bourns
62| 1| L4| 2.2 μH| Power Inductors 2.2 μHy, 1.5A , 110mΩ| LPS3015-222ML| Coilcraft
63| 2| Q1| TPH3300CNH,L1Q| MOSFET N-CH 150V, 18A 8-SOP| TPH3300CNH,L1Q| Toshiba
Q16| TPH3300CNH,L1Q| MOSFET N-CH 150V, 18A 8-SOP| TPH3300CNH,L1Q| Toshiba
64| 1| Q2| ZXTN25100BFHTA| TRANSISTOR NPN 100V, 3A, SOT23-3 SMT| ZXTN25100BFHTA| Diodes Inc.
65| 1| Q15| BSS123LT1G| FET NCH 100V 0.15A 6RLogic Level SOT23| BSS123LT1G| ON Semi
66| 1| Q93| FMMT549| TRN PNP -30V -1A SOT23| FMMT549| Fairchild
67| 1| Q100| BSC0902NSI| MOSFET N-Ch 30V, 100A, TDSON-8| BSC0902NSI| Infineon
68| 2| R31| 392K| RES 392K, 0.1W, 1%, 0603 SMT MTL FLM| RC0603FR-07392KL| Yageo
R78| 392K| RES 392K, 0.1W 1%, 0603 SMT MTL FLM| RC0603FR-07392KL| Yageo
69| 1| R34| 43.2K| RES 43.2K, 100 mW, 0603SMT 1%| ERJ3EKF4322V| Panasonic
70| 1| R36| 10K| RES 10K 62.5 mW 1% 0603 SMT MTL FLM| RC0603FRF-0710KL| Yageo
71| 1| R44| 0.082| RES 0.082Ω 1/4W 1% 0805 SMT| UR732ATTD82L0F| KOA
72| 1| R51| 1| RES 1R 125mW 1% 0805 SMT MTL FLM| RC0805FR-071R| Yageo
73| 2| R52| 56K| Resistor, SMT 56K, 1%, 1/10W 0603| CRCW060356K0FKEA| Vishay
R54| 56K| Resistor, SMT 56K, 1%, 1/10W 0603| CRCW060356K0FKEA| Vishay
74| 1| R53| 332| RES 332R 62.5 mW 1% 0603 SMT MTL FLM| RC0603FRF07332R| Yageo
75| 1| R55| 5.1K| RES TCK FLM 5.1K, 62.5 mW, 1% 0603 SMT| CRCW06035K1FKEA| Vishay
76| 4| R58| 0| RES TCK FLM 0R 62.5 mW, 5% 0603 SMT| ERJ3GEY0R00V| Panasonic
R65| 0| RES TCK FLM 0R 62.5 mW, 5% 0603 SMT| ERJ3GEY0R00V| Panasonic
R68| 0| RES TCK FLM 0R 62.5mW, 5% 0603 SMT| ERJ3GEY0R00V| Panasonic
R210| 0| RES TCK FLM 0R 62.5 mW, 5% 0603 SMT| ERJ3GEY0R00V| Panasonic
77| 1| R63| 62 mΩ| RES .062Ω, 1/2W, 1%, 1206 SMT| ERJ8BWFR062V| Panasonic
78| 4| R66| 100| RES TCK FLM 100R 62.5mW 1% 0603 SMT| RC0603FR-07100RL| Yageo
---|---|---|---|---|---|---
R67| 100| RES TCK FLM 100R, 62.5 mW, 1% 0603 SMT| RC0603FR-07100RL| Yageo
R204| 100| RES TCK FLM 100R, 62.5 mW, 1% 0603 SMT| RC0603FR-07100RL| Yageo
R213| 100| RES TCK FLM 100R 62.5 mW 1% 0603 SMT| RC0603FR-07100RL| Yageo
79| 1| R69| 10K| RES 10K 62.5 mW 1% 0603 SMT MTL FLM| RC1608F1002CS| Samsung
80| 2| R70| 30.9| Resistor, 30.9R, 1%, 1/10W, 0603| CRCW060330R9FKEA| Vishay
R72| 30.9| Resistor, 30.9R, 1%, 1/10W, 0603| CRCW060330R9FKEA| Vishay
81| 2| R71| 10K| RES 10K, 62.5mW, 1% 0603 SMT MTL FLM| CR16-1002FL| ASJ
R208| 10K| RES 10K, 62.5 mW, 1% 0603 SMT MTL FLM| CR16-1002FL| ASJ
82| 1| R73| 1.2K| Resistor, SMT 1.2K, 5% 1/10W 0603| CRCW06031K20JNEA| Vishay
83| 2| R74| 20K| RES 20K, 62.5 mW, 1% 0603 SMT MTL FLM| ERJ3EKF2002V| Panasonic
R75| 20K| RES 20K 62.5mW 1% 0603 SMT MTL FLM| ERJ3EKF2002V| Panasonic
84| 4| R77| 100K| RES 100K 62.5 mW 1% 0603 SMT MTL FLM| MCR03EZPFX1003| Rohm
R81| 100K| RES 100K, 62. 5 mW, 1% 0603 SMT MTL FLM| MCR03EZPFX1003| Rohm
R94| 100K| RES 100K 62.5 mW, 1% 0603 SMT MTL FLM| MCR03EZPFX1003| Rohm
R207| 100K| RES 100K 62.5 mW, 1% 0603 SMT MTL FLM| MCR03EZPFX1003| Rohm
85| 2| R79| 10K| RES 10K, 250 mW, 1% 1206 SMT MTL FLM| RC1206FR-0710KL| Yageo
R80| 10K| RES 10K 250 mW, 1% 1206 SMT MTL FLM| RC1206FR-0710KL| Yageo
86| 2| R82| 7.5K| RES 7.5K 250 mW, 1% 1206 SMT MTL FLM| CR1206-FX-7501ELF| Bourns
R88| 7.5K| RES 7.5K 250 mW, 1% 1206 SMT MTL FLM| CR1206-FX-7501ELF| Bourns
87| 2| R83| 309K| RES 309K 62.5 mW, 1% 0603 SMT MTL FLM| RC0603FR-07309KL| Yageo
R199| 309K| RES 309K 62.5 mW, 1% 0603 SMT MTL FLM| RC0603FR-07309KL| Yageo
88| 2| R84| 11.8K| RES 11.8K 0.1W 1% 0603 SMT MTL FLM| RC1608F1182CS| Samsung
R200| 11.8K| RES 11.8K, 0.1W, 1% 0603 SMT MTL FLM| RC1608F1182CS| Samsung
89| 1| R85| 1K| RES TCK FLM 1K, 1%, 62.5 mW, 0402

SMT, 100 PPM

| CR0402-FX-1001GLF| Bourns
115| 1| U13| LX7309ILQ| Synchronous Flyback DC/DC Controller| LX7309ILQ| Microchip
---|---|---|---|---|---|---
116| 1| U19| LX7309ILQ| Synchronous Flyback DC/DC Controller| LX7309ILQ| Microchip
117| 1| U14| FOD817ASD| OPTOISOLATOR 5 KV TRANSISTOR 4 SMD| FOD817ASD| Fairchild
118| 1| U18| FOD817ASD| OPTOISOLATOR 5 KV TRANSISTOR 4 SMD| FOD817ASD| Fairchild
119| 1| U23| LMV321M5| IC OPAMP SINGLE RAIL-RAIL SOT23-5| LMV321M5| National
120| 1| VR1| MMSZ4702| DIODE ZENER 15V 500MW SOD123| MMSZ4702| Fairchild

Note: Third-party components can be replaced by approved equivalents. N.C = not installed (optional).

Board Layout

This section describes the layout of the evaluation board. This is a four- layer board with 2 Oz copper. The following figures show the silk of the board for tracking devices placements.

Figure 5-1. Top Silk

Figure 5-2. Bottom Silk

Figure 5-3. Top Copper

Figure 5-4. Bottom Copper

Ordering Information

The following table lists the evaluation board ordering information.

Table 6-1. Evaluation Board Ordering Information

Revision History

• Updated Figure 3-1.
• Updated item 95 in Table 4-1.

A| 01/2022| Initial revision.

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• Embedded Solutions Engineer (ESE)
• Technical Support

Customers should contact their distributor, representative or ESE for support. Local sales offices are also available to help customers. A listing of sales offices and locations is included in this document.

Technical support is available through the website at: www.microchip.com/support

Microchip Devices Code Protection Feature

Note the following details of the code protection feature on Microchip products:

• Microchip products meet the specifications contained in their particular Microchip Data Sheet.
• Microchip believes that its family of products is secure when used in the intended manner, within operating specifications, and under normal conditions.
• Microchip values and aggressively protects its intellectual property rights. Attempts to breach the code protection features of Microchip product is strictly prohibited and may violate the Digital  Millennium Copyright Act.
• Neither Microchip nor any other semiconductor manufacturer can guarantee the security of its code. Code protection does not mean that we are guaranteeing the product is “unbreakable”. Code protection is constantly evolving. Microchip is committed to continuously improving the code protection features of our products.

Legal Notice

This publication and the information herein may be used only with Microchip products, including to design, test, and integrate Microchip products with your application. Use of this information in any other manner violates these terms. Information regarding device applications is provided only for your convenience and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications. Contact your local Microchip sales office for additional support or, obtain additional support t at www.microchip.com/en-us/support/ design-help/client-support- services.

THIS INFORMATION IS PROVIDED BY MICROCHIP “AS IS”. MICROCHIP MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED, WRITTEN OR ORAL, STATUTORY OR OTHERWISE, RELATED TO THE INFORMATION INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, AND FITNESS FOR A PARTICULAR PURPOSE, OR WARRANTIES RELATED TO ITS CONDITION, QUALITY, OR PERFORMANCE.

IN NO EVENT WILL MICROCHIP BE LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL, OR CONSEQUENTIAL LOSS, DAMAGE, COST, OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE INFORMATION OR ITS USE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE POSSIBILITY OR THE DAMAGES ARE FORESEEABLE. TO THE FULLEST EXTENT ALLOWED BY LAW, MICROCHIP’S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY RELATED TO THE INFORMATION OR ITS USE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY, THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THE INFORMATION.

Use of Microchip devices in life support and/or safety applications is entirely at the buyer’s risk, and the buyer agrees to defend, indemnify and hold harmless Microchip from any and all damages, claims, suits, or expenses resulting from such use. No licenses are conveyed, implicitly or otherwise, under any Microchip intellectual property rights unless otherwise stated.

Quality Management System

For information regarding Microchip’s Quality Management Systems, please visit www.microchip.com/quality.

Worldwide Sales and Service

AMERICAS

Corporate Office
2355 West Chandler Blvd.
Chandler, AZ 85224-6199
Tel: 480-792-7200
Fax: 480-792-7277
Technical Support:
www.microchip.com/support
Web Address:
www.microchip.com
Atlanta
Duluth, GA
Tel: 678-957-9614
Fax: 678-957-1455
Austin, TX
Tel: 512-257-3370
Boston
Westborough, MA
Tel: 774-760-0087
Fax: 774-760-0088
Chicago
Itasca, IL
Tel: 630-285-0071
Fax: 630-285-0075
Dallas
Addison, TX
Tel: 972-818-7423
Fax: 972-818-2924
Detroit
Novi, MI
Tel: 248-848-4000
Houston, TX
Tel: 281-894-5983
Indianapolis
Noblesville, IN
Tel: 317-773-8323
Fax: 317-773-5453
Tel: 317-536-2380
Los Angeles
Mission Viejo, CA
Tel: 949-462-9523
Fax: 949-462-9608
Tel: 951-273-7800
Raleigh, NC
Tel: 919-844-7510
New York, NY
Tel: 631-435-6000
San Jose, CA
Tel: 408-735-9110
Tel: 408-436-4270
Canada – Toronto
Tel: 905-695-1980
Fax: 905-695-2078

References

• Empowering Innovation | Microchip Technology

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