SNVS983A
April 2024 – August 2024
TPS7H4011-SP
PRODMIX
1
1
Features
2
Applications
3
Description
4
Device Options Table
5
Pin Configuration and Functions
6
Specifications
6.1
Absolute Maximum Ratings
6.2
ESD Ratings
6.3
Recommended Operating Conditions
6.4
Thermal Information
6.5
Electrical Characteristics
6.6
Quality Conformance Inspection
6.7
Typical Characteristics
7
Parameter Measurement Information
8
Detailed Description
8.1
Overview
8.2
Functional Block Diagram
8.3
Feature Description
8.3.1
VIN and Power VIN Pins (VIN and PVIN)
8.3.2
Voltage Reference
8.3.3
Remote Sensing and Setting VOUT
8.3.3.1
Minimum Output Voltage
8.3.3.2
Maximum Output Voltage
8.3.4
Enable
8.3.5
Fault Input (FAULT)
8.3.6
Power Good (PWRGD)
8.3.7
Adjustable Switching Frequency and Synchronization
8.3.7.1
Internal Clock Mode
8.3.7.2
External Clock Mode
8.3.7.3
Primary-Secondary Synchronization
8.3.8
Turn-On Behavior
8.3.8.1
Soft-Start (SS_TR)
8.3.8.2
Safe Start-Up Into Prebiased Outputs
8.3.8.3
Tracking and Sequencing
8.3.9
Protection Modes
8.3.9.1
Overcurrent Protection
8.3.9.1.1
High-Side 1 Overcurrent Protection (HS1)
8.3.9.1.2
High-Side 2 Overcurrent Protection (HS2)
8.3.9.1.3
COMP Shutdown
8.3.9.1.4
Low-Side Overcurrent Sinking Protection
8.3.9.2
Output Overvoltage Protection (OVP)
8.3.9.3
Thermal Shutdown
8.3.10
Error Amplifier and Loop Response
8.3.10.1
Error Amplifier
8.3.10.2
Power Stage Transconductance
8.3.10.3
Slope Compensation
8.3.10.4
Frequency Compensation
8.4
Device Functional Modes
9
Application and Implementation
9.1
Application Information
9.2
Typical Application
9.2.1
Design Requirements
9.2.2
Detailed Design Procedure
9.2.2.1
Operating Frequency
9.2.2.2
Output Inductor Selection
9.2.2.3
Output Capacitor Selection
9.2.2.4
Input Capacitor Selection
9.2.2.5
Soft-Start Capacitor Selection
9.2.2.6
Rising VIN Set Point (Configurable UVLO)
9.2.2.7
Output Voltage Feedback Resistor Selection
9.2.2.8
Output Voltage Accuracy
9.2.2.9
Slope Compensation Requirements
9.2.2.10
Compensation Component Selection
9.2.2.11
Schottky Diode
9.2.3
Application Curve
9.2.4
Parallel Operation Compensation
9.2.5
Inverting Buck-Boost
9.3
Power Supply Recommendations
9.4
Layout
9.4.1
Layout Guidelines
9.4.2
Layout Example
10
Device and Documentation Support
10.1
Documentation Support
10.1.1
Third-Party Products Disclaimer
10.1.2
Related Documentation
10.2
Receiving Notification of Documentation Updates
10.3
Support Resources
10.4
Trademarks
10.5
Electrostatic Discharge Caution
10.6
Glossary
11
Revision History
12
Mechanical, Packaging, and Orderable Information
12.1
Mechanical Data
1
Features
Total ionizing dose (TID) characterized
Radiation hardness assurance (RHA) availability of up to 100krad(Si)
Single-Event Effects (SEE) characterized
Single-event latchup (SEL), single-event burnout (SEB), and single-event gate rupture (SEGR) immune up to linear energy transfer (LET) = 75MeV-cm
2
/mg
Single-event functional interrupt (SEFI) and single-event transient (SET) characterized up to LET = 75MeV-cm
2
/mg
Input voltage range from 4.5V to 14V
12
A maximum output current
High efficiency (typical values for VIN = 12V, VOUT = 3.3V, f
SW
= 500kHz)
94% at 1A
86% at 9A
82% at 12A
Integrated 45mΩ (HS) and 33mΩ (LS) MOSFETs (typ at 12V)
Flexible switching frequency options:
100kHz to 1MHz, accurate (±15% or better), adjustable internal oscillator
100kHz to 1MHz external sync capability
SYNC pins can be configured 90° out of phase to parallel up to 4 devices
0.6V ± 0.67% voltage reference over line, temperature, and radiation
Differential remote sensing
Selectable current limit
FAULT input pin for flexible fault management
Monotonic start-up into prebiased outputs
Adjustable slope compensation and soft-start
Adjustable input enable and power-good output for power sequencing
Power-good output monitor for undervoltage and overvoltage
Supports inverting buck-boost topology
Plastic packages outgas tested per ASTM E595
Available in military (–55°C to 125°C) temperature range