Wide Input and Ultra-Low Quiescent Current Boost Converter with High Efficiency

EVB_RT4823WSC

ACTIVE

The RT4823 is a boost regulator designed to provide a minimum output voltage from a single-cell Li-Ion battery or two alkaline battery series, even when the battery voltage is below system minimum. The quiescent current in shutdown mode is less than 1µA, which maximizes battery life.

General Description

Performance Specification Summary

The boost converter has an input voltage range from 1.8V to 5.5V, and the output voltage is 5V. It can operate in force bypass mode and boost mode. And the power-on inrush current and current limit are implemented serval setting for difference application. The RT4823 is available in a WL-CSP-9B 1.3x1.2 (BSC) package.

Table 1. RT4823WSC Evaluation Board Performance Specification Summary

Specification	Test Conditions	Min	Typ	Max	Unit
Input Voltage Range		1.8	--	5.5	V
Output Current	V_IN > 3V, V_OUT = 5V	0	--	1.3	A
Default Output Voltage		--	5	--	V
Operation Frequency		3	3.5	4	MHz
Output Ripple Voltage	V_IN = 3.6V, V_OUT = 5V, I_OUT = 0.5A	--	40	--	mVp-p
Line Regulation	I_OUT = 0.5A, V_IN = 1.8V to 4.8V, V_OUT = 5V	--	±1	--	%
Load Regulation	V_IN = 3.6V, I_OUT = 0.2A to 1A, V_OUT = 5V	--	±1	--	%
Load Transient Response	V_IN = 3.6V, V_OUT = 5V ,I_OUT = 50mA to 500mA	--	±3	--	%
Maximum Efficiency	V_IN = 3.6V, V_OUT = 5V, I_OUT = 0.6A	--	93	--	%

Power-up Procedure

1. Connect input voltage (1.8V < V_IN < 5.5V) to the VIN pin.

2. Bypass operation is set EN = Low, BP = High.

3. Boost operation is set EN = High, BP = Low.

4. To connect an external load to output and verify the output voltage versus applied current.

Detailed Description of Hardware

Headers Description and Placement

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	Function
VIN	Input voltage positive connection. The power supply must be connected to input connectors, VIN, and GND.
EN	Enable test point. The test point can be used to measure the enable signal.
VOUT	Output voltage connection. The load must be connected to output connectors, VOUT and GND.
JP1	EN jumper. Connect EN to ground to disable, connect EN to logic high to enable.
GND	Ground. Input/Output voltage return connection.
JP5	Switch node test point. The test point can be used to measure the switching node.
JP3	Input voltage sense point.
JP4	Output voltage sense point.
JP2	BP jumper. Connect BP to ground to disable, connect BP to logic high(and EN=Low) to enable bypass function.

Bill of Materials

Reference	Count	Part Number	Value	Description	Package	Manufacturer
C1	1	EMK325BJ476KM-T	47µF	Capacitor, Ceramic, 16V, X5R	1210	TAIYO YUDEN
C3	1	GRM155R60J475ME47D	4.7µF	Capacitor, Ceramic, 6.3V, X5R	0402	Murata
C4	1	GRM188R60J106ME47	10µF	Capacitor, Ceramic, 6.3V, X5R	0603	Murata
L1	1	DFE252012F-1R0M=P2	1.0µH/3.3A	Power Inductor	2.5x2.0x1.2mm	Murata
U1	1	RT4823WSC	RT4823	Step-Up DC-DC Converter	WL-CSP-9B 1.3x1.2 (BSC)	RICHTEK

Typical Applications

EVB Schematic Diagram

1. C1 is placed on input side, and the capacitors are design for long wire effect. If input source is close the RT4823 then the capacitors are optional.

2. C4 is placed on output side, and the capacitor is optional for output voltage ripple improvement.

Measure Result

Output Ripple Measurement	Load Transient Response

Power On from EN	Output Ripple with Loading

Short Circuit Response	Sine Waveform Stability

Evaluation Board Layout

Figure 1. Top View (1^st layer)

Figure 2. PCB Layout—Inner Side (2^nd Layer)

Figure 3. PCB Layout—Inner Side (3^rd Layer)

Figure 4. Bottom View (4^th Layer)

Title	Last Update	Share
Evaluation Board User Guide	2024/03/08	Email RSS Facebook Google+ twitter Linkedin
Bill of Materials	2024/03/08	Email RSS Facebook Google+ twitter Linkedin
Schematic	2024/03/08	Email RSS Facebook Google+ twitter Linkedin
Gerber File	2024/03/08	Email RSS Facebook Google+ twitter Linkedin

RT4823

The RT4823 integrates built-in power transistors, synchronous rectification, and low supply current to provide a compact solution for systems using advanced Li-Ion battery chemistries. The RT4823 is capable of supplying significant energy when the battery voltage is lower than the required voltage for system power ICs.

The RT4823 is a boost regulator designed to provide a minimum output voltage from a single-cell Li-Ion battery, even when the battery voltage is below system minimum. In boost mode, output voltage regulation is guaranteed to a maximum load current of 1500mA. Quiescent current in shutdown mode is less than 1μA, which maximizes the battery life. The regulator transitions smoothly between bypass and normal boost mode. The device can be forced into bypass mode to reduce quiescent current.

The RT4823 is available in the WL-CSP-9B 1.3x1.2 (BSC) package.

Part Number	Distributor	Stock	Buy From Authorized Distributor
EVB_RT4823WSC	Digikey	4	Buy
	Mouser	Lead-Time: 14 weeks	Not Available
	WPG	Lead-Time: 14 weeks	Not Available

IC
Part Number	Package Type	Package Qty.	Free Sample	Distributor	Stock	Buy From Authorized Distributor
RT4823WSC	WL-CSP1.3x1.2-9(BSC)	3,000	Request	Digikey	2,830	Buy
				Mouser	Lead-Time: 14 weeks	Not Available
				WPG	Lead-Time: 14 weeks	Not Available

Please confirm with our distributor or sales representative for actual stock status.