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9A, 6.5V, 1MHz, ACOT® Synchronous Step-Down Converter

EVB_RT5759GQUF

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The RT5759 is a high-performance, synchronous stepdown DC-DC converter that can deliver up to 9A output current from a 3V to 6.5V input supply. The output voltage can be programmable from 0.6V to 1.5V with I2C controlled 7-Bits VID. The device integrates low RDS(ON) power MOSFETs and an integrated diode of bootstrap circuit to offer a very compact solution.

Purpose

The RT5759 is a high efficiency synchronous step-down DC-DC converter. Its input voltage range is from 3V to 6V and provides an VID Control regulated output voltage from 0.6V to 1.5V step 10mV while delivering up to 9A of output current. This document explains the function and use of the RT5759 evaluation board (EVB), and provides information to enable operation, modification of the evaluation board and circuit to meet individual requirements.



Introduction

General Product Information

The RT5759 is a high-performance, synchronous stepdown DC-DC converter that can deliver up to 9A output current from a 3V to 6.5V input supply. The output voltage can be programmable from 0.6V to 1.5V with I2C controlled 7-Bits VID. The device integrates low RDS(ON) power MOSFETs and an integrated diode of bootstrap circuit to offer a very compact solution.

The RT5759 adopts Advanced Constant On-Time (ACOT®) control architecture that provides ultrafast transient response and further reduce the external-component count. In steady states, the ACOT® operates in nearly constant switching frequency over line, load and output voltage ranges and makes the EMI filter design easier. The RT5759 offers automatic PSM that maintains high efficiency during light load operation. The RT5759 can also operate in Forced-CCM through I2C setting that helps meet tight voltage regulation accuracy requirements.

The device offers a variety of functions for more design flexibility. The switching frequency, current limit level and over temperature threshold are selectable via I2C. Independent enable control input pin and power good indicator are also provided for easy sequence control. Besides, the designers can also command the device to be enabled or shutdown via the I2C interface.

The device offers Independent enable control input pin and power good indicator for easily sequence control. To control the inrush current during the startup, the device provides a programmable soft-start up by an external capacitor connected to the SS pin. Fully protection features are also integrated in the device including the cycle-by-cycle current limit control, UVP, input UVLO and OTP.

The RT5759 is available in a thermally enhanced UQFN-13L 3x3 (FC) package.


Product Feature

  • Dramatically Fast Transient Response
  • Steady 1MHz ±20% Switching Frequency
  • Advanced COT Control Loop
  • Optimized for Ceramic Output Capacitors
  • 3V to 6.5V Input Voltage Range
  • Integrated 12mΩ/8mΩ MOSFETs
  • Internal Start-Up into Pre-Biased Outputs
  • Power Good Indicator
  • Enable Control
  • Over-Current and Over-Temperature Protections
  • Under-Voltage Protection with Hiccup Mode
  • VID Control Range Via I2C Compatible Interface : 0.6V to 1.5V step = 10mV

Key Performance Summary Table

Key Features

Evaluation Board Number : PCB105_V1

Default Input Voltage

3.3V

Maximum Output Current

9A

Default Output Voltage

1.0V

Default Marking & Package Type

RT5759GQUF, UQFN-13L 3x3 (FC)

Operation Frequency

Steady 1MHz in CCM Mode



Bench Test Setup Conditions

Headers Description and Placement

Technical Document Image Preview

Carefully inspect all the components used in the EVB according to the following Bill of Materials table, and then make sure all the components are undamaged and correctly installed. If there is any missing or damaged component, which may occur during transportation, please contact our distributors or e-mail us at evb_service@richtek.com.


Test Points

The EVB is provided with the test points and pin names listed in the table below.

Test point/

Pin Name

Signal

Comment (expected waveforms or voltage levels on test points)

EN

Enable Control Input

Enable control input. A logic-high enables the converter; a logic-low forces the device into shutdown mode. EN can be connected to VIN for automatic start-up.

A0

I2C Setting

Device address select pin.

High : 0x60, Low : 0x63, Floating : 0x62.

BOOT

Bootstrap

Supply for high-side gate driver. Connect a 0.1µF ceramic capacitor between BOOT and SW pins.

SW

Switch Node

Switch node. Connect this pin to an external L-C filter.

PGND

Power Ground

Used for all large signal grounds.The exposed pad must be soldered to a large PCB copper area for maximum power dissipation.

VIN

Input Voltage

Support 3V to 6.5V input voltage. Connect this pin with a suitable

capacitance for noise decoupling. The bypass capacitor should be placed as close to VIN pin as possible.

AVCC

Output for Internal Analog Power

Connect a 4.7µF capacitor as close to the VCC pin as possible.

AGND

Analog GND

Signal ground of the FB network. AGND and PGND are connected with a short trace and at only one point to reduce circulating currents.

PGOOD

Power Good Indicator Output

This pin has an open drain structure. Pull this pin high to a voltage source with a 100kΩ resistor.

SDA

I2C interface

DATA.

SCL

I2C interface

CLK.

SS

Soft-Start Time Control Pin

Connect a capacitor between the SS pin and AGND to set the soft-start time. The default internal start-up time is 1.6ms without external capacitor.

FB

Feedback Input

The pin is used to set the output voltage of the converter via a resistor divider. Suggest placing the FB resistor divider as close to FB pin and AGND as possible. Keep away from high current loops and swithing voltages.


Power-up & Measurement Procedure

1. Apply a 3.3V/5V nominal input power supply (3V < VIN < 6.5V) to the VIN and GND terminals.

2. Set the jumper at JP2 to connect terminals H and EN, connecting EN to VIN through resistor R5 (100kΩ). The Enable pin can connected to VIN directly as well to enable operation.

3. Set the jumper at JP4 to connect terminals H and PG, Connenting AVCC to H through resistor R7 (100kΩ).

4. Both of the CP2 and CP3 are short.

5. Verify the output voltage (approximately 1V) between VOUT and GND.

6. Connect an external load up to 9A to the VOUT and GND terminals and verify the output voltage and current.



Schematic, Bill of Materials & Board Layout

EVB Schematic Diagram

RT5759HGQW demo board : VIN = 3.3V / 5V, VOUT 1.0V / 9A

Technical Document Image Preview


* Note :

1. The capacitance values of the input and output capacitors will influence the input and output voltage ripple.

2. MLCC capacitors have degrading capacitance at DC bias voltage, and especially smaller size MLCC capacitors will have much lower capacitance than specified :

3. MLCC 22µF/6.3V/X5R 0805 size will have ~13.6µF capacitance @ 1V DC bias and AC ripple effect.

4. MLCC 22µF/16V/X5R 0805 size will have ~8.18µF/11.75µF @ 5V/3.3V DC bias and AC ripple effect.

5. MLCC 47µF/10V/X5R 0805 size will have ~12.88µF/19.76µF @ 5V/3.3V DC bias and AC ripple effect.

6. Set default soft start time 1.6ms by C7 NC.


Bill of Materials

Reference

Qty

Part Number

Description

Package

Manufacturer

U1

1

RT5759GQUF

Step-Down DC-DC Converter

UQFN-13L 3x3 (FC)

RICHTEK

C3

1

GRM21BR61A476ME15L

47µF/10V/X5R

C-0805

MURATA

C4, C8, C13

3

C1608X7R1H104K080AA

100nF/50V/X7R

C-0603

TDK

C5

1

C1608X5R0J475K080AB

4.7µF/6.3V/X5R

C-0603

TDK

C9, C10, C11, C12

4

GRM21BR60J226ME39

22µF/6.3V

C-0805

MURATA

L1

1

WURTH 744314047

0.47µH

6.9x6.9x4.8mm

WE

R2, R4, R9

3

WR06X000 PTL

0

R-0603

WALSIN

R3

1

RTT032002FTP

20k

R-0603

RALEC

R5, R6, R7

3

WR06X1003FTL

100k

R-0603

WALSIN

R24, R25

2

WR06X1002FTL

10k

R-0603

WALSIN


Technical Document Image Preview

The RT5759 is I2C controlled : The parameters were set via Richtek I2C tool :

fSW = 600kHz

VOUT = 1V

Mode = Forced-PWM

Measurement Results

PWM mode, 600kHz

Output ripple measurement at VIN = 3.3V 10mA load

CH1 : VOUT , CH2 : VSW

Output ripple measurement at VIN = 3.3V 2A load

CH1 : VOUT , CH2 : VSW

TEK00006

TEK00007

Output ripple at 10mA load : 13.4mVpp

Output ripple at 2A load : 13.8mVpp

Output ripple measurement at VIN = 3.3V 6A load

CH1 : VOUT , CH2 : VSW

Output ripple measurement at VIN = 3.3V 9A load

CH1 : VOUT , CH2 : VSW

TEK00008

TEK00009

Output ripple at 6A load : 13.6mVpp

Output ripple at 9A load : 13.2mVpp

Output ripple measurement at VIN = 5V 10mA load

CH1 : VOUT , CH2 : VSW

Output ripple measurement at VIN = 5V 2A load

CH1 : VOUT , CH2 : VSW

TEK00013

TEK00012

Output ripple at 10mA load : 15mVpp

Output ripple at 2A load : 15mVpp

Output ripple measurement at VIN = 5V 6A load

CH1 : VOUT , CH2 : VSW

Output ripple measurement at VIN = 5V 9A load

CH1 : VOUT , CH2 : VSW

TEK00011

TEK00010

Output ripple at 6A load : 15.4mVpp

Output ripple at 9A load : 16mVpp

VIN ripple measurement at VIN = 5V 2A load

CH1 : VOUT , CH2 : VSW

Vin ripple measurement at VIN = 5V 8A load

CH1 : VOUT , CH2 : VSW

TEK00030

TEK00033

VIN Ripple at 2A load : 19mVpp

VIN Ripple at 8A load : 44.1mVpp

VIN ripple measurement at VIN = 3.3V 2A load

CH1 : VOUT , CH2 : VSW

VIN ripple measurement at VIN = 3.3V 8A load

CH1 : VOUT , CH2 : VSW

TEK00032

TEK00031

VIN Ripple at 2A load : 17.1mVpp

VIN Ripple at 8A load : 48mVpp

Dynamic load 160mA to 2.84A load step (PWM mode)

CH1 : VOUT, CH4 : IOUT

Dynamic load 2.24A to 5A load step (PWM mode)

CH1 : VOUT, CH4 : IOUT

TEK00015

TEK00018

Overshoot : 31mV, undershoot : 36mV

Overshoot : 33mV, undershoot : 36mV

Start-up measurement from Enable : EN pin low to high

CH1 : VOUT, CH2 : VEN, CH3 : VPG, CH4 : IOUT

Power off measurement from V-in : VIN from 3.3V to 0V

CH1 : VOUT, CH2 : VIN, CH3 : VPG

TEK00019

TEK00040

Start-up time 2.7msec. Soft-start 1.575msec

VOUT discharge during power off

OCP measurement : Gradually increase load

CH1 : VOUT, CH3 : VPG, CH4 : IOUT

TEK00022

Auto-recovery hiccup mode when OC limit is exceeded.


Efficiency : 600kHz, PWM mode

IC top temperature = 76°C on VIN = 3.3V, VOUT = 1V, IOUT = 9A

IC top temperature = 67.7°C on VIN = 5V, VOUT = 1V, IOUT = 9A

Technical Document Image Preview

Technical Document Image Preview

Technical Document Image Preview


PCB Layout

Technical Document Image Preview

Top View (1st layer)


Technical Document Image Preview

PCB Layout—Inner Side (2nd Layer)


Technical Document Image Preview

PCB Layout—Inner Side (3rd Layer)


Technical Document Image Preview

Bottom View (4th Layer)

Title Last Update Share Download
Evaluation Board User Guide 2023/07/14
Bill of Materials 2023/07/14
Schematic 2023/07/14
Gerber File 2023/07/14
RT5759
RT5759

The RT5759 is a high-performance, synchronous step-down DC-DC converter that can deliver up to 9A output current from a 3V to 6.5V input supply. The output voltage can be programmable from 0.6V to 1.5V with I2C controlled 7-Bits VID.

The device integrates low RDS(ON) power MOSFETs, accurate 0.6V reference and an integrated diode of bootstrap circuit to offer a very compact solution.

The RT5759 adopts Advanced Constant On-Time (ACOT®) control architecture that provides ultrafast transient response and further reduce the external-component count. In steady states, the ACOT® operates in nearly constant switching frequency over line, load and output voltage ranges and makes the EMI filter design easier. The RT5759 offers automatic PSM that maintains high efficiency during light load operation. The RT5759 can also operate in Forced-CCM through I2C setting that helps meet tight voltage regulation accuracy requirements.

The device offers a variety of functions for more design flexibility. The switching frequency, current limit level and over temperature threshold are selectable via I2C. Independent enable control input pin and power good indicator are also provided for easy sequence control. Besides, the designers can also command the device to be enabled or shutdown via the I2C interface.

The device offers Independent enable control input pin and power good indicator for easily sequence control. To control the inrush current during the startup, the device provides a programmable soft-start up by an external capacitor connected to the SS pin. Fully protection features are also integrated in the device including the cycle-by-cycle current limit control, UVP, input UVLO and OTP.

The RT5759 is available in a thermally enhanced UQFN-13L 3x3 (FC) package. The recommended junction temperature range is -40°C to 125°C, and the ambient temperature range is -40°C to 85°C.

IC
Part NumberPackage TypePackage Qty.Free SampleDistributorStockBuy From Authorized Distributor
RT5759GQUFUQFN3x3-13(FC)1,500 Request Digikey 1,355 Buy
Mouser Lead-Time: 14 weeks Not Available
WPG Lead-Time: 14 weeks Not Available
RT5759GQUFUQFN3x3-13(FC)3,000 Request Digikey 1,355 Buy
Mouser Lead-Time: 14 weeks Not Available
WPG Lead-Time: 14 weeks Not Available
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