LTC7063

Half-Bridge Driver

The LTC7063 is a half-bridge driver from Analog Devices. View the full LTC7063 datasheet below including key specifications, electrical characteristics.

Manufacturer

Analog Devices

Key Specifications

Parameter	Value
Driven Configuration	Half-Bridge
Lifecycle Status	Production (Last Updated: 3 years ago)
Manufacturer Lifecycle Status	PRODUCTION (Last Updated: 3 years ago)
Mounting Type	Surface Mount
Number of Pins	12
Operating Temperature	-40°C ~ 150°C (TJ)
Package / Case	12-TSSOP (0.118", 3.00mm Width) Exposed Pad
RoHS	Compliant
Supplier Device Package	12-MSOP-EP
Supply Voltage	6V ~ 14V

Overview

Part: LTC7060 — Analog Devices (formerly Linear Technology)

Type: 100V Half-Bridge Driver with Floating Grounds and Adjustable Dead-Time

Description: The LTC7060 drives two N-Channel MOSFETs in a half-bridge configuration with supply voltages up to 100V, featuring a unique symmetric floating gate driver architecture for high noise immunity, 0.8Ω pull-down and 1.5Ω pull-up drivers, adaptive shoot-through protection, and programmable dead-time.

Operating Conditions:

Supply voltage: 6–14 V (VCC)
Operating temperature: -40 to 125 °C (suffix-dependent — see Order Information for grade-specific ranges)
Input supply operating range: up to 100 V

Absolute Maximum Ratings:

Max supply voltage (VCC): 15 V
Max top side driver voltage (BST): 115 V
Max bottom side driver voltage (BGVCC): 115 V
Max junction temperature: 150 °C

Key Specs:

VCC Undervoltage Lockout Threshold (VCC Falling): 5.3 V (typ)
VCC Overvoltage Lockout Threshold (VCC Rising): 14.6 V (typ)
BG Driver Supply Voltage Range (BGVCC-BGRTN): 4–14 V
TG Driver Supply Voltage Range (BST-SW): 4–14 V
TG Turn-On Input Threshold (PWM Rising): 3.1 V (typ)
BG Pull-Down Resistance: 0.8 Ω (typ, VBGVCC-BGRTN = 10V)
TG Pull-Down Resistance: 0.8 Ω (typ, VBST-SW = 10V)
BG/TG Low to TG/BG High Propagation Delay (Dead-Time, RDT = 0Ω): 32 ns (typ)

Features:

Unique Symmetric Floating Gate Driver Architecture
High Noise Immunity, Tolerates ±10V Ground Difference between Input and Output Grounds
100V Maximum Input Voltage Independent of IC Supply Voltage VCC
0.8Ω Pull-Down, 1.5Ω Pull-Up for Fast Turn-On/Off
Adaptive Shoot-Through Protection
Programmable Dead-Time
Three-State PWM Input with Enable Pin
VCC UVLO/OVLO and Floating Supplies UVLO
Drives Dual N-Channel MOSFETs
Open-Drain Fault Indicator
AEC-Q100 Automotive Qualification in Progress

Applications:

Automotive and Industrial Power Systems
Telecommunication Power Systems
Half-Bridge and Full-Bridge Converters

Package:

12-Lead Plastic MSSOP

Features

n Unique Symmetric Floating Gate Driver Architecture
n High Noise Immunity,Tolerates ±10V Ground Difference between Input and Output Grounds
n 100V Maximum Input Voltage Independent of IC Supply Voltage V CC
n 6V to 14V V CC Operating Voltage
n 4V to 14V Gate Driver Voltage
n 0.8Ω Pull-Down, 1.5Ω Pull-Up for Fast Turn-On/Off
n Adaptive Shoot-Through Protection
n Programmable Dead-Time
n Three-State PWM Input with Enable Pin
n VCC UVLO/OVLO and Floating Supplies UVLO
n Drives Dual N-Channel MOSFETs
n Open-Drain Fault Indicator
n Available in Thermally Enhanced 12-LEAD MSOP
n AEC-Q100 Automotive Qualification in Progress

Applications

n Automotive and Industrial Power Systems
n Telecommunication Power Systems
n Half-Bridge and Full-Bridge Converters

Pin Configuration

ELECTRICAL CHARACTERISTICS The l denotes the specifications which apply over the specified operating temperature range, otherwise specifications are at T A = 25°C (Note 2). V CC = V BGVCC = V BST =10V, V BGRTN = V SW = 0V, unless otherwise noted.

SYMBOL	PARAMETER	CONDITIONS		MIN	TYP	MAX	UNITS
Input Supply and V CC Supply	Input Supply and V CC Supply	Input Supply and V CC Supply	Input Supply and V CC Supply	Input Supply and V CC Supply	Input Supply and V CC Supply	Input Supply and V CC Supply	Input Supply and V CC Supply
V IN	Input Supply Operating Range					100	V
V CC	IC Supply Operating Range			6		14	V
I VCC	V CC Supply Current	V EN = V PWM = 0V, R DT = 100kΩ			0.4		mA
V UVLO_VCC	V CC Undervoltage Lockout Threshold	V CC Falling Hysteresis		5	5.3 0.3	5.6	V V
V OVLO_VCC	V CC OVLO Threshold	V CC Rising Hysteresis			14.6 0.8		V V
BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)	BG Gate Driver Supply (BGV CC -BGRTN)
V BGVCC-BGRTN	BG Driver Supply Voltage Range (With Respect to BGRTN)			4		14	V
I BGVCC	Total BGV CC Current (Note 4)	BG = Low BG = High		8	100		μA μA
V UVLO_BGVCC	Undervoltage Lockout Threshold	BGV CC Falling, With Respect to BGRTN Hysteresis			3.4 0.3		V V
TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)	TG Gate Driver Supply (BST-SW)
V BST-SW	TG Driver Supply Voltage Range (With Respect to SW)			4		14	V
I BST	Total BST Current (Note 4)	TG = Low TG = High			8 100		μA μA
V UVLO_BST	Undervoltage Lockout Threshold	BST Falling, With Respect to SW Hysteresis			3.4 0.3		V V
Input Signal (PWM, EN)	Input Signal (PWM, EN)	Input Signal (PWM, EN)	Input Signal (PWM, EN)	Input Signal (PWM, EN)	Input Signal (PWM, EN)	Input Signal (PWM, EN)	Input Signal (PWM, EN)
V IH(TG)	TG Turn-On Input Threshold	PWM Rising	l	2.6	3.1	3.6	V
V IL(TG)	TG Turn-Off Input Threshold	PWM Falling	l	2.45	2.95	3.45	V
V IH(BG)	BG Turn-On Input Threshold	PWM Falling	l	0.5	1	1.5	V
V IL(BG)	BG Turn-Off Input Threshold	PWM Rising	l	0.75	1.25	1.75	V
V PWM_TRI	PWM Input Three-State Float Voltage			1.9	2.1	2.3	V
R UP_PWM	PWM Internal Pull-Up Resistor	To Internal 4.5V Supply			48		kΩ
R DOWN_PWM	PWM Internal Pull-Down Resistor				42		kΩ
V ENR	EN Pin Rising Threshold	EN Rising	l	1.1	1.2	1.3	V
V ENF	EN Pin Falling Threshold	EN Falling			1.1		V
R EN	EN Pin Internal Pull-Down Resistor				2		MΩ
Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )	Dead-Time and FAULT (DT , FLT )
t PLH(BG) / t PLH(TG)	BG/TG Low to TG/BG High Propagation Delay (Dead-Time)	R DT = 0Ω R DT = 24.9kΩ R DT = 64.9kΩ R DT = 100kΩ R DT = Open			32 43 62 76 250		ns ns ns ns ns
R FLTb	Open Drain Pull-Down Resistance				60		Ω
t FLTb	FLT Pin Release Delay	Low to High			100		μs

Electrical Characteristics

The l denotes the specifications which apply over the specified operating temperature range, otherwise specifications are at T A = 25°C (Note 2). V CC = V BGVCC = V BST =10V, V BGRTN = V SW = 0V, unless otherwise noted.

SYMBOL	PARAMETER	CONDITIONS	TYP	MAX	UNITS
Low Side Gate Driver Output (BG)	Low Side Gate Driver Output (BG)	Low Side Gate Driver Output (BG)	Low Side Gate Driver Output (BG)	Low Side Gate Driver Output (BG)	Low Side Gate Driver Output (BG)
V OH(BG)	BG High Output Voltage	I BG = -100mA, V OH(BG) = V BGVCC - V BG	150		mV
V OL(BG)	BG Low Output Voltage	I BG = 100mA, V OL(BG) =V BG - V BGRTN	80		mV
R UP(BG)	BG Pull-Up Resistance	V BGVCC-BGRTN =10V	1.5		Ω
R DOWN(BG)	BG Pull-Down Resistance	V BGVCC-BGRTN =10V	0.8		Ω
High Side Gate Driver Output (TG)	High Side Gate Driver Output (TG)	High Side Gate Driver Output (TG)	High Side Gate Driver Output (TG)	High Side Gate Driver Output (TG)	High Side Gate Driver Output (TG)
V OH(TG)	TG High Output Voltage	I TG = -100mA, V OH(TG) = V BST - V TG	150		mV
V OL(TG)	TG Low Output Voltage	I TG = 100mA, V OL(TG) = V TG - V SW	80		mV
R UP(TG)	TG Pull-Up Resistance	V BST-SW = 10V	1.5		Ω
R DOWN(TG)	TG Pull-Down Resistance	V BST-SW = 10V	0.8		Ω
Switching Time	Switching Time	Switching Time	Switching Time	Switching Time	Switching Time
t PHL(BG)	PWM High to BG Low Propagation Delay		17		ns
t PHL(TG)	PWM Low to TG Low Propagation Delay		17		ns
t r(BG)	BG Output Rise Time	C LOAD = 3.3nF (Note 5)	18		ns
t f(BG)	BG Output Fall Time	C LOAD = 3.3nF (Note 5)	13		ns
t r(TG)	TG Output Rise Time	C LOAD = 3.3nF (Note 5)	18		ns
t f(TG)	TG Output Fall Time	C LOAD = 3.3nF (Note 5)	13		ns
t PH(EN)	EN High to TG/BG High Propagation Delay		30		ns
t PL(EN)	EN Low to TG/BG Low Propagation Delay		36		ns

Note 2: The LTC7060E is guaranteed to meet performance specifications from 0°C to 85°C junction temperature. Specifications over the -40°C to 125°C operating junction temperature range are assured by design, characterization and correlation with statistical process controls. The LTC7060I is guaranteed over the -40°C to 125°C operation junction temperature range. The LTC7060J is guaranteed over the -40°C to 150°C operation junction temperature range. The LTC7060H is guaranteed over the -40°C to 150°C operation junction temperature range. High junction temperature degrades operation lifetimes; operating lifetime is derated for junction temperatures greater than 125°C. Note that the maximum ambient temperature consistent with these specifications is determined by specific operating conditions in conjunction with board layout, the rated package thermal impedance and other environment factors.

Note 3: T J is calculated from the ambient temperature T A and power dissipation PD according to the following formula

T J = T A + (P D · 51°C/W) for LFCSP package; T J = T A + (P D · 40°C/W) for MSOP package.

Note 4: The total current includes both the current from BGV CC /BST to BGRTN/SW and the current to SGND. Dynamic supply current is higher due to the gate charge being delivered at the switching frequency.

Note 5: Rise and fall times are measured using 10% and 90% levels.

Typical Application

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
LTC7060	Analog Devices	—
LTC7060E	Analog Devices	—
LTC7060EMSE	Analog Devices	—
LTC7060H	Analog Devices	—
LTC7060HMSE	Analog Devices	—
LTC7060I	Analog Devices	—
LTC7060IMSE	Analog Devices	—
LTC7060J	Analog Devices	—
LTC7060JMSE	Analog Devices	—
LTC7060JMSE#TRPBF	Analog Devices	12-TSSOP (0.118", 3.00mm Width) Exposed Pad
LTC7061	Analog Devices	—
LTC7062	Analog Devices	—

Data on this page is extracted from publicly available manufacturer datasheets using automated tools including AI. It may contain errors or omissions. Always verify specifications against the official manufacturer datasheet before making design or purchasing decisions. See our Terms of Service. Rights holders can submit a takedown request.

Get structured datasheet data via API

Get started free