TPS61088RHLT

Synchronous Boost Converter

The TPS61088RHLT is a synchronous boost converter from Texas Instruments. View the full TPS61088RHLT datasheet below including key specifications, electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Key Specifications

Parameter	Value
Packaging	MouseReel
Standard Pack Qty	250

Overview

Part: TPS61088 — Texas Instruments

Type: Fully-Integrated Synchronous Boost Converter

Description: The TPS61088 is a high-power density, fully-integrated synchronous boost converter with a 2.7–12 V input, 4.5–12.6 V output, 10-A switch current capability, and up to 91% efficiency.

Operating Conditions:

Supply voltage: 2.7–12 V
Operating temperature: -40 to 125 °C
Output voltage range: 4.5–12.6 V
Inductance: 0.47–10 μH

Absolute Maximum Ratings:

Max supply voltage (VIN, SW, FSW, VOUT): 14.5 V
Max junction temperature: 150 °C
Max storage temperature: 150 °C

Key Specs:

Input voltage range (VIN): 2.7–12 V
Output voltage range (VOUT): 4.5–12.6 V
High-side MOSFET on-resistance: 13 mΩ (typ)
Low-side MOSFET on-resistance: 11 mΩ (typ)
Peak switch current limit in PFM mode: 11.9 A (typ)
Peak switch current limit in FPWM mode: 10.3 A (typ)
Switching frequency (ƒSW): 500 kHz (typ, R FREQ = 301 kΩ)
Output overvoltage protection threshold (V OVP): 13.2 V (typ)
Shutdown current into the VIN pin (I SD): 1 μA (typ)

Features:

10-A switch current
Up to 91% efficiency
Mode selection between PFM mode and forced PWM mode at light load
1.0-μA current into the VIN pin during shutdown
Resistor-programmable switch peak current limit
Adjustable switching frequency: 200 kHz to 2.2 MHz
Programmable soft start
Output overvoltage protection at 13.2 V
Cycle-by-cycle overcurrent protection
Thermal shutdown

Applications:

Portable POS terminal
Bluetooth speaker
E-cigarette
Thunderbolt interface
Quick charge power bank

Package:

VQFN (20) 4.50 mm × 3.50 mm

Features

2.7-V to 12-V input voltage range
4.5-V to 12.6-V output voltage range
10-A switch current
Up to 91% efficiency at V IN = 3.3 V, V OUT = 9 V, and I OUT = 3 A
Mode selection between PFM mode and forced PWM mode at light load
1.0-μA current into the VIN pin during shutdown
Resistor-programmable switch peak current limit
Adjustable switching frequency: 200 kHz to 2.2 MHz
Programmable soft start
Output overvoltage protection at 13.2 V
Cycle-by-cycle overcurrent protection
Thermal shutdown
4.50-mm × 3.50-mm 20-pin VQFN package
Create a custom design using the TPS61088 with the WEBENCH Power Designer

Applications

Pin Configuration

Figure 5-1. 20-Pin VQFN With Thermal Pad RHL Package(Top View)

Table 5-1. Pin Functions

PIN	PIN	I/O	DESCRIPTION
NAME	NUMBER	I/O	DESCRIPTION
VCC	1	O	Output of the internal regulator. A ceramic capacitor of more than 1.0 μF is required between this pin and ground.
EN	2	I	Enable logic input. Logic high level enables the device. Logic low level disables the device and turns it into shutdown mode.
FSW	3	I	The switching frequency is programmed by a resistor between this pin and the SW pin.
SW	4, 5, 6, 7	I	The switching node pin of the converter. It is connected to the drain of the internal low-side power MOSFET and the source of the internal high-side power MOSFET.
BOOT	8	O	Power supply for high-side MOSFET gate driver. A ceramic capacitor of 0.1 μF must be connected between this pin and the SW pin.
VIN	9	I	IC power supply input
SS	10	O	Soft-start programming pin. An external capacitor sets the ramp rate of the reference voltage of the internal error amplifier during soft start.
NC	11, 12	-	No connection inside the device. Connect these two pins to the ground plane on the PCB for good thermal dissipation.
MODE	13	I	Operation mode selection pin for the device in light load condition. When this pin is connected to ground, the device works in PWM mode. When this pin is left floating, the device works in PFM mode.
VOUT	14, 15, 16	O	Boost converter output
FB	17	I	Voltage feedback. Connect to the center tape of a resistor divider to program the output voltage.
COMP	18	O	Output of the internal error amplifier, the loop compensation network must be connected between this pin and the AGND pin.
ILIM	19	O	Adjustable switch peak current limit. An external resistor must be connected between this pin and the AGND pin.
AGND	20	-	Signal ground of the IC
PGND	21	-	Power ground of the IC. It is connected to the source of the low-side MOSFET.

Electrical Characteristics

Minimum and maximum values are at VIN = 2.7 V to 5.5 V and TJ = -40°C to 125°C. Typical values are at VIN = 3.6 V and TJ = 25°C

PARAMETER	PARAMETER	TEST CONDITIONS	MIN	TYP	MAX	UNIT
POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY
V IN	Input voltage range		2.7		12	V
	Undervoltage lockout (UVLO)	V IN rising			2.7	V
V IN_UVLO	threshold	V IN falling		2.4	2.5	V
V IN_HYS	VIN UVLO hysteresis			200		mV
V CC_UVLO	UVLO threshold	V CC falling		2.1		V
I	Operating quiescent current from the VIN pin	IC enabled, V EN = 2 V, no load, R ILIM = 100 kΩ		1	3	μA
Q	Operating quiescent current from the VOUT pin	V FB = 1.3 V, V OUT = 12 V, T J up to 85°C		110	250	μA
I SD	Shutdown current into the VIN pin	IC disabled, V EN = 0 V, no load, no feedback resistor divider connected to the VOUT pin, T J up to 85°C		1	3	μA
V CC	VCC regulation	I VCC = 5 mA, V IN = 8 V		5.8		V
EN AND MODE INPUT	EN AND MODE INPUT	EN AND MODE INPUT	EN AND MODE INPUT	EN AND MODE INPUT	EN AND MODE INPUT	EN AND MODE INPUT
V ENH	EN high threshold voltage	V CC = 6 V			1.2	V
V ENL	EN low threshold voltage	V CC = 6 V	0.4			V
R EN	EN internal pull-down resistance	V CC = 6 V		800		kΩ
V MODEH	MODE high threshold voltage	V CC = 6 V			4.0	V
V MODEL	MODE low threshold voltage	V CC = 6 V	1.5			V
R MODE	MODE internal pull-up resistance	V CC = 6 V		800		kΩ
OUTPUT	OUTPUT	OUTPUT	OUTPUT	OUTPUT	OUTPUT	OUTPUT
V OUT	Output voltage range		4.5		12.6	V
V	Reference voltage at the FB pin	PWM mode	1.186	1.204	1.222	V
REF		PFM mode		1.212		nA
I LKG_FB	FB pin leakage current	V FB = 1.2 V			100
I SS	Soft-start charging current			5		μA
ERROR AMPLIFIER	ERROR AMPLIFIER	ERROR AMPLIFIER	ERROR AMPLIFIER	ERROR AMPLIFIER	ERROR AMPLIFIER	ERROR AMPLIFIER
I SINK	COMP pin sink current	V FB = V REF +200 mV, V COMP = 1.5 V		20		μA
I SOURCE	COMP pin source current	V FB = V REF -200 mV, V COMP = 1.5 V		20		μA
V CCLPH	High clamp voltage at the COMP pin	V FB = 1 V, R ILIM = 100 kΩ		2.3		V
V CCLPL	Low clamp voltage at the COMP pin	V FB = 1.5 V, R ILIM = 100 kΩ, MODE pin floating		1.4
G EA	Error amplifier transconductance	V COMP = 1.5 V		190		μA/V
POWER SWITCH	POWER SWITCH	POWER SWITCH	POWER SWITCH	POWER SWITCH	POWER SWITCH	POWER SWITCH
	High-side MOSFET on-resistance	VCC = 6 V		13	18	mΩ
R DS(on)	Low-side MOSFET on-resistance	VCC = 6 V		11	16.5	mΩ
CURRENT LIMIT	CURRENT LIMIT	CURRENT LIMIT	CURRENT LIMIT	CURRENT LIMIT	CURRENT LIMIT	CURRENT LIMIT
	Peak switch current limit in PFM mode	R ILIM = 100 kΩ, V CC = 6 V, MODE pin floating	10.6	11.9	13	A
I LIM	Peak switch current limit in FPWM mode	R ILIM = 100 kΩ, V CC = 6 V, MODE pin short to ground	9.0	10.3	11.4	A
V ILIM	Reference voltage at the ILIM pin			1.204		V
SWITCHING FREQUENCY	SWITCHING FREQUENCY	SWITCHING FREQUENCY	SWITCHING FREQUENCY	SWITCHING FREQUENCY	SWITCHING FREQUENCY	SWITCHING FREQUENCY
ƒ SW	Switching frequency	R FREQ = 301 kΩ, V IN = 3.6 V, V OUT = 12 V		500		kHz
t ON_min	Minimum on-time	R FREQ = 301 kΩ, V IN = 3.6 V, V OUT = 12 V		90	180	ns

Absolute Maximum Ratings

over operating free-air temperature (unless otherwise noted) (1)

		MIN	MAX	UNIT
Voltage (2)	BOOT	-0.3	SW + 7	V
Voltage (2)	VIN, SW, FSW, VOUT	-0.3	14.5	V
Voltage (2)	EN, VCC, SS, COMP, MODE	-0.3	7	V
Voltage (2)	ILIM, FB	-0.3	3.6	V
T J	Operating junction temperature	-40	150	°C
T stg	Storage temperature	-65	150	°C

Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)

		MIN	NOM	MAX	UNIT
V IN	Input voltage range	2.7		12	V
V OUT	Output voltage range	4.5		12.6	V
L	Inductance, effective value	0.47	2.2	10	μH
C I	Input capacitance, effective value	10			μF
C O	Output capacitance, effective value	6.8	47	1000	μF
T J	Operating junction temperature	-40		125	°C

Thermal Information

(1)	THERMAL METRIC	TPS61088 RHL 20 PINS Standard	TPS61088 RHL 20 PINS EVM	UNIT
R θJA	Junction-to-ambient thermal resistance	38.8	29.7	°C/W
R θJC(top)	Junction-to-case (top) thermal resistance	39.8	N/A	°C/W
R θJB	Junction-to-board thermal resistance	15.5	N/A	°C/W
ψ JT	Junction-to-top characterization parameter	0.6	0.5	°C/W
ψ JB	Junction-to-board characterization parameter	15.5	9.8	°C/W
R θJC(bot)	Junction-to-case (bottom) thermal resistance	3.1	N/A	°C/W

Typical Application

The TPS61088 is designed for outputting voltage up to 12.6 V with 10-A switch current capability to deliver more than 30-W power. The TPS61088 operates at a quasi-constant frequency pulse-width modulation (PWM) in moderate-to-heavy load condition. In light load condition, the converter can either operate in PFM mode or in forced PWM mode according to the mode selection. The PFM mode brings high efficiency over entire load range, but PWM mode can avoid the acoustic noise as the switching frequency is fixed. The converter uses the adaptive constant off-time peak current control scheme, which provides excellent transient line and load response with minimal output capacitance. The TPS61088 can work with different inductor and output capacitor combination by external loop compensation. It also supports adjustable switching frequency ranging from 200 kHz to 2.2 MHz.

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
TPS61088	Texas Instruments	VQFN-20
TPS61088-Q1	Texas Instruments	—
TPS61088RHLR	Texas Instruments	20-VFQFN Exposed Pad
TPS61088RHLR.A	Texas Instruments	—
TPS61088RHLT.A	Texas Instruments	—

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