DIODES AP62301Z6-EVM COT Synchronous DC-DC Buck Converter Instruction Manual
- June 13, 2024
- DIODES
Table of Contents
DIODES AP62301Z6-EVM COT Synchronous DC-DC Buck Converter Instruction
Manual
DESCRIPTION
The AP62301 is a 3A, synchronous buck converter with a wide input voltage
range of 4.2V to 18V. The device fully integrates a 75mΩ high-side power
MOSFET and a 45mΩ low-side power MOSFET to provide high-efficiency step-down
DC-DC conversion.
The AP62301 device is easily used by minimizing the external component count
due to its adoption of Constant On-Time (COT) control to achieve fast
transient response, easy loop stabilization, and low output voltage ripple.
The AP62301 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
reduces highfrequency radiated EMI noise caused by MOSFET switching. AP62301
is available in the space-saving SOT563 package.
FEATURES
- VIN Range: 4.2V to 18V
- Output Voltage range: 0.8V to 7V
- 3A Continuous Output Current
- 0.8V ± 1% Reference Voltage (TA = +25°C)
- 155µA Low Quiescent Current
- 750kHz Switching Frequency
- Up to 83% Efficiency at 5mA Light Load
- Proprietary Gate Driver Design for Best EMI Reduction
- Protection Circuitry
- Undervoltage Lockout (UVLO)
- Cycle-by-Cycle Valley Current Limit
- Thermal Shutdown
- Totally Lead-Free & Fully RoHS Compliant
- Halogen and Antimony Free. “Green” Device
APPLICATIONS
- Flat Screen TV Sets and Monitors
- Consumer Electronics
- Network Systems
- General Purpose Point of Load
ABSOLUTE MAXIMUM RATINGS
Symbol | Parameter | Rating | Unit |
---|---|---|---|
VIN | Supply Pin Voltage | -0.3 to +20.0 (DC) | V |
-0.3 to 22.0 (400ms)
VSW| Switch Pin Voltage| -1.0 to VIN + 0.3 (DC)| V
-2.5 to VIN + 2.0 (20ns)
VBST| Bootstrap Pin Voltage| VSW – 0.3 to VSW + 6.0| V
VEN| Enable/UVLO Pin Voltage| -0.3 to +6.0| V
VFB| Feedback Pin Voltage| -0.3 to +6.0| V
TST| Storage Temperature| -65 to +150| °C
TJ| Junction Temperature| +150| °C
TL| Lead Temperature| +260| °C
ESD Susceptibility
HBM| Human Body Mode| 2000| V
CDM| Charge Device Model| 500| V
RECOMMENDED OPERATING CONDITIONS
Symbol | Parameter | Rating | Unit |
---|---|---|---|
VIN | Supply Voltage | 4.2 to 18 | V |
VOUT | Output Voltage Range | 0.8 to 7 | V |
TA | Operating Ambient Temperature | **** -40 to +85 | °C |
TJ | Operating Junction Temperature | **** -40 to +125 | °C |
SETTING OUTPUT VOLTAGE:
Table 1 for AP62301 shows a list of recommended component selections for
common output voltages.
Vout | C1 | C2, C3 | R1 | R2 | L1 | C6 |
---|---|---|---|---|---|---|
1.2V | 10µF | 2 x 22µF | 4.99KΩ | 10KΩ | 1.5µH | 100nF |
1.5V | 10µF | 2 x 22µF | 8.66KΩ | 10KΩ | 1.5µH | 100nF |
1.8V | 10µF | 2 x 22µF | 12.4KΩ | 10KΩ | 2.2µH | 100nF |
2.5V | 10µF | 2 x 22µF | 21.5KΩ | 10KΩ | 2.2µH | 100nF – 220nF |
3.3V | 10µF | 2 x 22µF | 31.6KΩ | 10KΩ | 3.3µH | 100nF – 330nF |
5.0V | 10µF | 2 x 22µF | 52.3KΩ | 10KΩ | 3.3µH | 100nF – 330nF |
EVALUATION BOARD
QUICK START GUIDE
The AP62301Z6-EVM has a simple layout and allows access to the appropriate
signals through test points. To evaluate the performance of the AP62301Z6,
follow the procedure below:
- Connect a power supply to the input terminals VIN and GND. Set VIN to 12V.
- Connect the positive terminal of the electronic load to VOUT and negative terminal to GND.
- EN has a positive voltage through a 100K pull-up to VIN. No supply input is required for EN.
- The evaluation board should now power up with a 5.0V output voltage.
- 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.
- Set the load to 3A through the electronic load. Check for the stable operation of the SW signal on the oscilloscope. Measure the switching frequency.
MEASUREMENT/PERFORMANCE GUIDELINES:
- 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.
- 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.
BOOTSTRAP CAPACITOR GUIDELINES:
To ensure proper operation, a ceramic capacitor must be connected between the
BST and SW pins to supply the drive voltage for the high-side power MOSFET. A
100nF ceramic capacitor is sufficient for most applications. In the cases
where output voltage is higher than 2.5V, a higher capacitance is recommended
to help maintain stable voltage from BST to SW. Please refer to Tables 1 for
details.
EVALUATION BOARD SCHEMATIC
PCB TOP LAYOUT
PCB BOTTOM LAYOUT
BILL OF MATERIALS for AP62301Z6-EVM for VOUT=5V
Ref| Value| Description| Qty| Size| Vendor
Name| Manufacturer PN
---|---|---|---|---|---|---
C1| 10µF| Ceramic Capacitor,25V, X7R, 10%| 1| 1210|
KEMET| C1210C106K3RACTU
C2, C3| 22µF| Ceramic Capacitor, 25V, X7R, 10%| 2|
1210| KEMET| C1210C226K3RAC780 0
C4| 0.1µF| Ceramic Capacitor,50V, X7R, 10%| 1| 0603|
KEMET| C0603C104K5RACTU
C6| 0.33µF| Ceramic Capacitor, 16V, X7R, 10%| 1| 0603|
Samsung| CL10B334KO8NNNC
L1| 3.3µH| DCR=17.2mΩ, Ir=6.5A| 1| 6.9×6.9x4mm| Wurth
Electronics| 744311330
R1| 52.3KΩ| SMD Resistor, 1%| 1| 0603| Panasonic| ERJ-3EKF5232V
R2| 10KΩ| SMD Resistor, 1%| 1| 0603| Panasonic| ERJ-3EKF1002V
R3| 0Ω| SMD Resistor, 1%| 1| 0603| Panasonic| ERJ-3GEY0R00V
R4| 100KΩ| SMD Resistor, 1%| 1| 0603|
Panasonic| ERJ-3EKF1003V
JH4, JH5, JH6,JH7| **** 1598| Terminal Turret Triple 0.094″ L(Test
Points)| **** 4| Through- Hole| Keystone Circuit| ****
1598-2
JH8| | PCB Header, 40POS| 1| 1X3| 3M|
2340-6111TG
U1| AP62301| Sync BuckDC-DC Converter| 1| TSOT26|
Diodes Incorporated| AP62301Z6-7
TYPICAL PERFORMANCE CHARACTERISTICS
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