DIODES AP64501SP-EVM Evaluation Board User Guide

May 15, 2024
DIODES

DIODES AP64501SP-EVM Evaluation Board

DIODES AP64501SP-EVM Evaluation Board

DESCRIPTION

The AP64501 is a 5A, synchronous buck converter with a wide input voltage range of 3.8V to 40V. The device fully integrates a 45mΩ high side power MOSFET and a 20mΩ low-side power MOSFET to provide high-efficiency stepdown DC-DC conversion.

The AP64501 device is easily used by minimizing the external component count due to its adoption of peak current mode control.

The AP64501 design is optimized for Electromagnetic Interference (EMI) reduction. The device has a proprietary gate driver scheme to resist switching node ringing without sacrificing MOSFET turn-on and turn-off times, which

FEATURES

  • VIN 3.8V to 40V
  • 5A Continuous Output Current
  • 0.8V ± 1% Reference Voltage
  • 25µA Low Quiescent Current (Pulse Frequency Modulation)
  • 570kHz Switching Frequency
  • Programmable Soft-Start Time
  • Up to 85% Efficiency at 5mA Light Load
  • Proprietary Gate Driver Design for Best EMI Reduction
  • Frequency Spread Spectrum (FSS) to Reduce EMI
  • Low-Dropout (LDO) Mode
  • Precision Enable Threshold to Adjust UVLO
  • Protection Circuitry
    • Undervoltage Lockout (UVLO)
    • Output Overvoltage Protection (OVP)
    • Cycle-by-Cycle Peak Current Limit
    • Thermal Shutdown
  • Totally Lead-Free & Fully RoHS Compliant
  • Halogen and Antimony Free. “ Green ” Device

APPLICATIONS

  • 5V, 12V, and 24V Distributed Power Bus Supplies
  • Power Tools and Laser Printers
  • White Goods and Small Home Appliances
  • Home Audio
  • Network Systems
  • Consumer Electronics
  • General Purpose Point of Load

TYPICAL APPLICATIONS CIRCUIT

Typical Applications Circuit

ABSOLUTE MAXIMUM RATINGS

Symbol Parameter Rating Unit
VIN Supply Pin Voltage -0.3 to +42.0 (DC) V

-0.3 to +45.0 (400ms)
VBST| Bootstrap Pin Voltage| VSW – 0.3 to VSW + 6.0| V
VEN| Enable/UVLO Pin Voltage| -0.3 to +42.0| V
VSS| Soft-Start Pin Voltage| -0.3 to +6.0| V
VFB| Feedback Voltage| -0.3V to +6.0| V
VCOMP| Compensation Pin Voltage| -0.3 to +6.0| V
VSW| Switch Node Voltage| -0.3 to VIN + 0.3 (DC)| V
-2.5 to VIN + 2.0 (20ns)
TJ| Junction Temperature| +160| °C
TL| Lead Temperature| +260| °C

RECOMMENDED OPERATING CONDITIONS

Symbol Parameter Min Max Unit
VIN Supply Voltage 3.8 40 V
VOUT Output Voltage 0.8 39 V
TA Operating Ambient Temperature Range -40 +85 °C
TJ Operating Junction Temperature Range -40 +125 °C

EVALUATION BOARD

Evaluation Board

QUICK START GUIDE

The AP64501SP-EVM has a simple layout and allows access to the appropriate signals through test points. To evaluate the performance of the AP64501SP, follow the procedure below:

  1. Connect a power supply to the input terminals VIN and GND. Set VIN to 12V.
  2. Connect the positive terminal of the electronic load to VOUT and negative terminal to GND.
  3. For Enable, to enable IC, place a jumper at JH6 to “ON” position to connect EN pin to VIN through 100KΩ resistor or leave it OPEN. Jump to “OFF” position to disable IC.
  4. The evaluation board should now power up with a 5.0V output voltage.
  5. Check for the proper output voltage of 5.0V (±1%) at the output terminals VOUT and GND. Measurement can also be done with a multimeter with the positive and negative leads between VOUT and GND.
  6. Set the load to 5A through the electronic load. Check for the stable operation of the SW signal on the oscilloscope. Measure the switching frequency.

MEASUREMENT/PERFORMANCE GUIDELINES

  1. When measuring the output voltage ripple, maintain the shortest possible ground lengths on the oscilloscope probe. Long ground leads can erroneously inject high frequency noise into the measured ripple.
  2. For efficiency measurements, connect an ammeter in series with the input supply to measure the input current. Connect an electronic load to the output for output current.

SETTING OUTPUT VOLTAGE

Table 1 shows a list of recommended component selections for common output voltages.

VOUT| R1| R2| L1| R7| C7| C1, C2| C5, C6, C13
---|---|---|---|---|---|---|---
1.2V| 4.99KΩ| 10KΩ| 1.2V| 3.74KΩ| 2.7nF| 2×10µF| 3×22µF
1.5V| 8.66KΩ| 10KΩ| 1.5V| 4.75KΩ| 2.7nF| 2×10µF| 3×22µF
1.8V| 12.4KΩ| 10KΩ| 1.8V| 5.62KΩ| 2.7nF| 2×10µF| 3×22µF
2.5V| 21.5KΩ| 10KΩ| 2.5V| 7.87KΩ| 2.7nF| 2×10µF| 3×22µF
3.3V| 31.6KΩ| 10KΩ| 3.3V| 10.5KΩ| 2.7nF| 2×10µF| 3×22µF
5.0V| 52.3KΩ| 10KΩ| 5.0V| 15.8KΩ| 2.7nF| 2×10µF| 3×22µF
12V| 140KΩ| 10KΩ| 12V| 37.4KΩ| 2.7nF| 2×10µF| 3×22µF

Table 1. Common Output Voltages

EVALUATION BOARD SCHEMATIC

Evaluation Board Schematic

PCB TOP LAYOUT

Pcb Top Layout

PCB BOTTOM LAYOUT

Pcb Bottom Layout

BILL OF MATERIALS for AP64501SP-EVM for VOUT=5V

Ref| Value| Description| Qty| Size| Vendor Name| Manufacturer PN| PCB Layer
---|---|---|---|---|---|---|---
C1, C2| 10µF| Ceramic Capacitor, 50V, X7R, 10%| 2| 1206| Samsung| CL31B106KBHNNNE| Top
C3, C4, C9| 0.1µF| Ceramic Capacitor, 50V, X7R, 10%| 3| 0603| Wurth Electronics| 885012206095| Top
C5, C6, C13| 22µF| Ceramic Capacitor, 16V, X7R| 3| 1210| Samsung| CL32B226 KOJ NE| Top
C7| 2.7nF| Ceramic Capacitor, 50V, X7R| 1| 0603| Murata| GRM1885C1H272JA01D| Top
C8| 10nF| Ceramic Capacitor, 25V, X7R| 1| 0603| Wurth Electronics| 885012206065| Top
R1| 52.3KΩ| SMD Resistor, 1%| 1| 0603| Panasonic| ERJ-3EKF5232V| Top
R2| 10KΩ| SMD Resistor, 1%| 1| 0603| Panasonic| ERJ-3EKF1002V| Top
R3, R8| 0Ω| RES SMD 1% 1/10W| 2| 0603| Vishay| CRCW06030000Z0EAC| Top
R4| 100KΩ| RES SMD 1% 1/10W| 1| 0603| Vishay| CRCW0603100KFKEA| Top
R7| 15.8KΩ| RES SMD 1% 1/10W| 1| 0603| Bourns Inc| CR0603-FX-1582ELF| Top
L1| 3.6µH| DCR=12.2mΩ, Ir=8.2A| 1| 10. 2x 10. 2x 4.5mm| Wurth Electronics| 7447797360| Top
JH6| | PCB Header, 40 POS| 1| 1X3| 3M| 2340-6111TG| Top
VIN, VOUT, GNDx2| 1598| Terminal Turret Triple 0.094″ L (Test Points)| ****

4

| Through- Hole| Keystone Electronics| 1598-2| Top
U1| AP64501| Sync DC-DC Converter| 1| SO-8EP| Diodes Incorporated (Diodes)| AP64501SP| Top

TYPICAL PERFORMANCE CHARACTERISTICS

Typical Performance Characteristics
Typical Performance Characteristics

IMPORTANT NOTICE

  1. DIODES INCORPORATED (Diodes) AND ITS SUBSIDIARIES MAKE NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO ANY INFORMATION CONTAINED IN THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON INFRINGEMENT OF THIRD PARTY INTELLECTUAL PROPERTY RIGHTS (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).
  2. The Information contained herein is for informational purpose only and is provided only to illustrate the operation of Diodes’ products described herein and application examples. Diodes does not assume any liability arising out of the application or use of this document or any product described herein. This document is intended for skilled and technically trained engineering customers and users who design with Diodes’ products. Diodes’ products may be used to facilitate safety related applications; however, in all instances customers and users are responsible for (a) selecting the appropriate Diodes products for their applications, (b) evaluating the suitability of Diodes’ products for their intended applications, (c) ensuring their applications, which incorporate Diodes’ products, comply the applicable legal and regulatory requirements as well as safety and functional-safety related standards, and (d) ensuring they design with appropriate safeguards (including testing, validation, quality control techniques, redundancy, malfunction prevention, and appropriate treatment for aging degradation) to minimize the risks associated with their applications.
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All other trademarks are the property of their respective owners
© 2024 Diodes Incorporated. All Rights Reserved.
www.diodes.com

AP64501SP-EVM
Rev. 2
www.diodes.com
February 2024
© 2024 Copyright Diodes Incorporated. All Rights Reserved.

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