SLUSCD4B
March 2017 – May 2018
TPS543C20
PRODUCTION DATA.
1
Features
2
Applications
3
Description
Device Images
Simplified Schematic
4
Revision History
5
Device Comparison Table
6
Pin Configuration and Functions
Pin Functions
7
Specifications
7.1
Absolute Maximum Ratings
7.2
ESD Ratings
7.3
Recommended Operating Conditions
7.4
Thermal Information
7.5
Electrical Characteristics
7.6
Typical Characteristics
8
Detailed Description
8.1
Overview
8.2
Functional Block Diagram
8.3
Feature Description
8.4
Device Functional Modes
8.4.1
Soft-Start Operation
8.4.2
Input and VDD Undervoltage Lockout (UVLO) Protection
8.4.3
Power Good and Enable
8.4.4
Voltage Reference
8.4.5
Prebiased Output Start-up
8.4.6
Internal Ramp Generator
8.4.6.1
Ramp Selections
8.4.7
Switching Frequency
8.4.8
Clock Sync Point Selection
8.4.9
Synchronization and Stackable Configuration
8.4.10
Dual-Phase Stackable Configurations
8.4.10.1
Configuration 1: Master Sync Out Clock-to-Slave
8.4.10.2
Configuration 2: Master and Slave Sync to External System Clock
8.4.11
Operation Mode
8.4.12
API/BODY Brake
8.4.13
Sense and Overcurrent Protection
8.4.13.1
Low-Side MOSFET Overcurrent Protection
8.4.13.2
High-Side MOSFET Overcurrent Protection
8.4.14
Output Overvoltage and Undervoltage Protection
8.4.15
Overtemperature Protection
8.4.16
RSP/RSN Remote Sense Function
8.4.17
Current Sharing
8.4.18
Loss of Synchronization
9
Application and Implementation
9.1
Application Information
9.2
Typical Application: TPS543C20 Stand-alone Device
9.2.1
Design Requirements
9.2.2
Detailed Design Procedure
9.2.2.1
Custom Design With WEBENCH® Tools
9.2.2.2
Switching Frequency Selection
9.2.2.3
Inductor Selection
9.2.2.4
Input Capacitor Selection
9.2.2.5
Bootstrap Capacitor Selection
9.2.2.6
BP Pin
9.2.2.7
R-C Snubber and VIN Pin High-Frequency Bypass
9.2.2.8
Output Capacitor Selection
9.2.2.8.1
Response to a Load Transient
9.2.2.8.2
Ramp Selection Design to Ensure Stability
9.2.3
Application Curves
9.3
System Example
9.3.1
Two-Phase Stackable
9.3.1.1
Application Curves
10
Power Supply Recommendations
11
Layout
11.1
Layout Guidelines
11.2
Layout Example
11.3
Package Size, Efficiency and Thermal Performance
12
Device and Documentation Support
12.1
Device Support
12.1.1
Development Support
12.1.1.1
Custom Design With WEBENCH® Tools
12.1.2
Documentation Support
12.1.2.1
Related Documentation
12.2
Receiving Notification of Documentation Updates
12.3
Community Resources
12.4
Trademarks
12.5
Electrostatic Discharge Caution
12.6
Glossary
13
Mechanical, Packaging, and Orderable Information
Package Options
Mechanical Data (Package|Pins)
RVF|40
MPQF268C
Thermal pad, mechanical data (Package|Pins)
RVF|40
QFND333E
Orderable Information
sluscd4b_oa
sluscd4b_pm
1
Features
Internally-Compensated Advanced Current Mode Control
40
-A POL
Input Voltage Range: 4 V to
14
V
Output Voltage Range: 0.6 V to 5.5 V
Integrated
3/0.9-mΩ
Stacked NexFET™ Power Stage With Lossless Low-Side Current Sensing
Fixed Frequency - Synchronization to an External Clock and/or Sync Out
Pin Strapping Programmable Switching Frequency
300
kHz to 2 MHz for Standalone
300 kHz to 1 MHz for Stackable
Stack 2× for up to
80
A With Current Share, Voltage Share, and CLK Sync
Pin Strapping Programmable Reference from 0.6 V to 1.1 V With 0.5% Accuracy
Differential Remote Sensing
Safe Start-Up into Prebiased Output
High-Accuracy Hiccup Current Limit
Asynchronous Pulse Injection (API) and Body Braking
40-pin, 5-mm × 7-mm LQFN Package with 0.5-mm Pitch and Single Thermal Pad
Create a Custom Design Using the TPS543C20 With the
WEBENCH® Power Designer
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