DIODES AP66300FVBW-EVM Integrated Circuits User Manual

AP66300FVBW-EVM

3.8V TO 60V INPUT, 3A LOW IQ SYNC BUCK CONVERTER

DESCRIPTION

The AP66300 is an adjustable switching frequency internal compensated synchronous DC-DC buck converter with a default internal frequency of 500kHz. The device fully integrates a 120mΩ high-side power MOSFET and a 55mΩ low-side power MOSFET to provide high-efficiency step-down DC-DC conversion.

The AP66300 enables continuous load current of up to 3A with efficiency as high as 95% in enhanced biased.

FEATURES

• VIN 3.8 to 60V
• 3A Continuous Output Current
• VOUT Adjustable from 0.8V to 50V
• Enhanced Efficiency Mode with Bias
• Adjustable Switching Frequency. 500kHz Default Frequency
• Start-up with Pre-biased Output
• External Soft-Start with Tracking – Sequential, Ratiometric, or Absolute. Default Internal Soft-Start of 2ms
• Enable Pin with 5% tolerance
• Soft Discharge
• ±5% Power Good Detection with Internal Pull-up Resistor
• Overvoltage Protection & Under voltage Protection
• Overcurrent Protection (OCP) with Hiccup
• Thermal Protection
• Totally Lead-Free & Fully RoHS Compliant
• Halogen and Antimony Free. “Green” Device

APPLICATIONS

• General Purpose Point-of-load DCDC Power Conversion
• Telecommunications
• Distributed Power Systems
• Home Audio
• Consumer Electronics
• Network Systems
• FPGA, DSP and ASIC Supplies

ABSOLUTE MAXIMUM RATINGS

ESD Susceptibility (Note 5)
HBM| Human Body Model| ±2500| V
CDM| Charged Device Model| ±1500| V

RECOMMENDED OPERATING CONDITIONS

ORDERING INFORMATION

Part Number| Package Code| Package| Identification Code| Tape and Reel
---|---|---|---|---
Quantity| Part Number Suffix
AP66300FVBW-13| FVBW| U-QFN4040-16| F3| 3000| -13

EVALUATION BOARD

Figure 1. AP66300FVBW-EVM

QUICK START GUIDE

The AP66300FVBW-EVM board has a simple layout and allows access to the appropriate signals through test points. To evaluate the performance of the AP66300, follow the procedure below:

1. Insert jumpers to configure the EVM board setting as described in the Application Information sections of the device datasheet.
2. Use jumper JP3 (100KΩ to VIN) set device enabled or JP2 (GND) to disable the device.
3. Remove jumpers JP2 and JP3 and connect external voltage source on EN pin directly.
4. Use jumper JP5 to set FS to default 500KHz (VCC) or 2.5MHz (GND).
5. Use jumper JP1 to set MSYNC to forced PWM (VCC) or PFM (GND) operation.
6. Remove jumper JP1 and force an external clock source on MSYNC pin for synchronization with positive edge trigger and PWM.
7. Use jumper JP6 for default external soft start (C7) of 2ms.
8. Remove jumper JP6 and use jumper JP7 (VCC) for internal soft start of 1.7ms.
9. Use jumper JP8 to connect BIAS pin to PGND.
10. Use jumper JP9 to connect BIAS pin to VOUT.
11. Remove JP8 and JP9 and connect an external voltage source on BIAS pin (<15V).
12. Connect a 12V power supply between the VIN and PGND terminals. Make sure the power supply is turned off.
13. Connect an adjustable current or resistive load to the VOUT and PGND terminals.
14. Turn on the power supply. Do not turn on the power supply until all connections are completed and fully checked.
15. The EVM board should now power up with a 5V output voltage.
16. Increase the load current and observe the output voltage change.
17. Check for the stable operation of the SW and VOUT signal on the oscilloscope.
18. Measure the switching frequency on SW probe jack in the EVM board.
19. Measure the output ripple on the VOUT probe jack in the EVM board.

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.

EVALUATION BOARD SCHEMATIC

Figure 2. AP66300FVBW-EVM Schematic

PCB LAYOUT

Figure 3. AP66300FVBW-EVM – Top Layer

Figure 4. AP66300FVBW-EVM – Layer 2

Figure 5. AP66300FVBW-EVM – Layer 3

Figure 6. AP66300FVBW-EVM – Bottom Layer

BILL OF MATERIALS for AP66300FVBW-EVM

Qty| Ref| Value| Description| Package| Manufacturer| Manufacturer P/N
---|---|---|---|---|---|---
1| C1| 10µF| Ceramic Capacitor, 100V| 1210| Murata| GRM32EC72A106KE05L
1| C2| 1µF| Ceramic Capacitor, 100V, X5R, 20%| 0805| Murata| GRJ21BC72A105KE11L
1| C3| 100nF| Ceramic Capacitor,50V, X7R, 10%| 0603| TDK| CGA3E2X7R1H104KTOYO
2| C4, C10| 1µF| Ceramic Capacitor,25V, X7R, 10%| 0603| Taiyo Yuden| 963-TMK107B7105KA-T
2| C5, C6| 22µF| Ceramic Capacitor, 25V, X5R| 1210| Taiyo Yuden| TMK325BJ226MM-T
1| C7| 2.2nF| Ceramic Capacitor,25V, X7R, 10%| 0603| AVX| 06033C222KAT2A
1| C8| 100pF| Ceramic Capacitor, 100V, X7R, 5%| 0603| AVX| 06031C101JAT2A
2| R1, R3| 100KΩ| Film Resistor| 0603| Panasonic| ERJ-3EKF1003V
1| R2| 19.1KΩ| Film Resistor| 0603| Yageo| AC0603FR-0719K1L
1| R4| 62KΩ| Film Resistor| 0603| Yageo| AC0603FR-1362KL
1| L1| 6.5µH| DCR=12.5mΩ, Isat=10A| 10.5×10.5×4.7mm| Wurth Electronics| 744325650
5| JP2, 3, 4, 6, 7| | PCB Header, 40 POS| 1X2| 3M| 2340-6111TG
2| JP1, 5| | PCB Header, 40 POS| 1X3| 3M| 2340-6111TG
4| PG, MSYNC, SW, EN| | PCB Turrent Term, 0.082″ | 0.082″| Keystone Electronics| 1573-2
4| VIN, VOUT, PGNDx2| | PCB Turrent Term, 0.094″X1/16| 0.082″| Keystone Electronics| 1598-2
1| AP66300| | IC| U-QFN4040-16| Diodes Incorporated (Diodes)| AP66300FVBW

Typical Performance Characteristics

Figure 7. PFM Efficiency vs. IOUT, VOUT=5V, L=6.5µH

Figure 8. PWM Efficiency vs. IOUT, VOUT=5V, L=6.5µH

Figure 9. PFM Efficiency vs. IOUT, VOUT=3.3V, L=5.5µH

Figure 10. PWM Efficiency vs. IOUT, VOUT=3.3V, L=5.5µH

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AP66300FVBW-EVM
Rev. 1

January 2024
© 2024 Copyright Diodes Incorporated. All Rights Reserved.

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