SNVSCD1
September 2024
LM706A0-Q1
PRODUCTION DATA
1
1
Features
2
Applications
3
Description
4
Pin Configuration and Functions
5
Specifications
5.1
Absolute Maximum Ratings
5.2
ESD Ratings
5.3
Recommended Operating Conditions
5.4
Thermal Information
5.5
Electrical Characteristics
5.6
Typical Characteristics
6
Detailed Description
6.1
Overview
6.2
Functional Block Diagram
6.3
Feature Description
6.3.1
Input Voltage Range (VIN)
6.3.2
High-Voltage Bias Supply Regulator (VCC, BIAS, VDDA)
6.3.3
Enable (EN)
6.3.4
Power-Good Monitor (PG)
6.3.5
Switching Frequency (RT)
6.3.6
Dual Random Spread Spectrum (DRSS)
6.3.7
Soft Start
6.3.8
Output Voltage Setpoint (FB)
6.3.9
Minimum Controllable On-Time
6.3.10
Error Amplifier and PWM Comparator (FB, EXTCOMP)
6.3.11
Slope Compensation
6.3.12
Shunt Current Sensing
6.3.13
Hiccup Mode Current Limiting
6.3.14
Device Configuration (CONFIG)
6.3.15
Single-Output Dual-Phase Operation
6.3.16
Pulse Frequency Modulation (PFM) / Synchronization
6.3.17
Thermal Shutdown (TSD)
6.4
Device Functional Modes
6.4.1
Shutdown Mode
6.4.2
Standby Mode
6.4.3
Active Mode
6.4.4
Sleep Mode
7
Application and Implementation
7.1
Application Information
7.1.1
Power Train Components
7.1.1.1
Buck Inductor
7.1.1.2
Output Capacitors
7.1.1.3
Input Capacitors
7.1.1.4
EMI Filter
7.1.2
Error Amplifier and Compensation
7.1.3
Maximum Ambient Temperature
7.1.3.1
Derating Curves
7.2
Typical Applications
7.2.1
Design 1 – High Efficiency, Wide Input, 400kHz Synchronous Buck Regulator
7.2.1.1
Design Requirements
7.2.1.2
Detailed Design Procedure
7.2.1.2.1
Custom Design With WEBENCH® Tools
7.2.1.2.2
Custom Design With Excel Quickstart Tool
7.2.1.2.3
Buck Inductor
7.2.1.2.4
Current-Sense Resistance
7.2.1.2.5
Output Capacitors
7.2.1.2.6
Input Capacitors
7.2.1.2.7
Frequency Set Resistor
7.2.1.2.8
Feedback Resistors
7.2.1.2.9
Compensation Components
7.2.1.3
Application Curves
7.2.2
Design 2 – High Efficiency 24V to 3.3V 400kHz Synchronous Buck Regulator
7.2.2.1
Design Requirements
7.2.2.2
Detailed Design Procedure
7.2.2.3
Application Curves
7.3
Power Supply Recommendations
7.4
Layout
7.4.1
Layout Guidelines
7.4.1.1
Thermal Design and Layout
7.4.2
Layout Example
8
Device and Documentation Support
8.1
Device Support
8.1.1
Development Support
8.1.1.1
Custom Design With WEBENCH® Tools
8.2
Documentation Support
8.2.1
Related Documentation
8.2.1.1
PCB Layout Resources
8.2.1.2
Thermal Design Resources
8.3
Receiving Notification of Documentation Updates
8.4
Support Resources
8.5
Trademarks
8.6
Electrostatic Discharge Caution
8.7
Glossary
9
Revision History
10
Mechanical, Packaging, and Orderable Information
10.1
Tape and Reel Information
Package Options
Mechanical Data (Package|Pins)
RRX|29
MPQF604D
Thermal pad, mechanical data (Package|Pins)
Orderable Information
snvscd1_oa
8.1.1
Development Support
For development support see the following:
LM706A0-Q1
Quickstart Calculator tool
LM706A0-Q1
Simulation Models
For TI's reference design library, visit
TI Designs
For TI's WEBENCH Design Environment, visit the
WEBENCH®
Design Center
TI Designs:
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Automotive EMI and Thermally Optimized Synchronous Buck Converter Reference Design
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IN
Synchronous Buck Controller Reference Design Featuring LM5141-Q1
25W Automotive Start-Stop Reference Design Operating at 2.2 MHz
Synchronous Buck Converter for Automotive Cluster Reference Design
137W Holdup Converter for Storage Server Reference Design
Automotive Synchronous Buck With 3.3V @ 12.0A Reference Design
Automotive Synchronous Buck Reference Design
Wide Input Synchronous Buck Converter Reference Design With Frequency Spread Spectrum
Automotive Wide V
IN
Front-end Reference Design for Digital Cockpit Processing Units
Technical articles:
High-Density PCB Layout of DC/DC Converters
Synchronous Buck Controller Solutions Support Wide V
I
N
Performance and Flexibility
How to Use Slew Rate for EMI Control