TIDUDS9B
December 2017 – November 2022
Description
Resources
Features
Applications
5
1
System Description
1.1
Key System Specifications
2
System Overview
2.1
Block Diagram
2.2
Design Considerations
2.2.1
Conditions of Use: Assumption
2.2.1.1
Generic Assumptions
2.2.1.2
Specific Assumptions
2.2.2
Diagnostics Coverage
2.2.2.1
Dual-Channel Monitoring
2.2.2.2
Checking ISO1211 Functionality With MCU (SIL1)
2.2.2.3
Checking TPS22919 Functionality With MCU (SIL1)
2.2.2.4
Checking TPS27S100 Functionality With MCU (SIL1)
2.2.2.5
Optional Monitoring Using RDY Pin of ISO5452, ISO5852S or UCC21750 Integrated Analog-to-PWM Isolated Sensor
2.2.3
Drive State
2.3
Highlighted Products
2.3.1
ISO1211
2.3.2
TPS27S100
2.3.3
TPS22919
2.3.4
ISO5852S, ISO5452
2.4
System Design Theory
2.4.1
Digital Input Receiver for STO
2.4.2
STO_1 Signal Flow Path for Controlling VCC1
2.4.3
STO_2 Signal Flow Path
2.4.3.1
High-Side Switch for Controlling Secondary-Side Supply Voltage of Gate Driver
2.4.3.2
Powering up Secondary Side: VCC2 of Gate Driver
2.4.4
Gate Driver Design
2.4.5
STO_FB Signal Flow Path
3
Hardware, Software, Testing Requirements, and Test Results
3.1
Getting Started Hardware
3.1.1
PCB Overview
3.2
Testing and Results
3.2.1
Logic High and Logic Low STO Thresholds
3.2.2
Validation of STO1 Signal
3.2.2.1
Propagation of STO1 to VCC1 of Gate Driver
3.2.2.2
1-ms STO Pulse Rejection
3.2.2.3
Diagnostic Pulses From MCU Interface
3.2.3
Validation of STO2 Signals
3.2.3.1
Propagation of STO2 to VCC2 of Gate Driver
3.2.3.2
1-ms Pulse Rejection
3.2.3.3
Diagnostic Pulses From MCU
3.2.3.4
Inrush Current Measurement
3.2.4
3.3-V Voltage Rail From Switcher
3.2.5
60-V Input Voltage and Reverse Polarity Protection
3.2.6
Validation of Trip Zone Functionality
4
Design Files
4.1
Schematics
4.2
Bill of Materials
4.3
Layer Plots
4.4
Altium Project
4.5
Gerber Files
4.6
Assembly Drawings
5
Related Documentation
5.1
Trademarks
6
About the Author
7
Recognition
8
Revision History
Features
Dual-channel STO architecture (1oo2) assessed by TUEV SUED to be suitable for SIL 3 (IEC 61508) and PL e | Cat. 3 (ISO 13849)
TUEV report, safety concept description and qualitative system FMEA available to further help designers implement the STO subsystem
Safe torque off (STO) subsystem for 3-phase inverters with CMOS input isolated IGBT gate drivers like ISO5852S, UCC21750, or UCC53x0
24-V isolated input receivers ISO1211 compliant to IEC 61131-2 and ±60-V input tolerance with reverse-polarity protection
Interface to MCU (SIL 1) for diagnostic coverage of the load switches in the STO subsystems
Option to monitor input and output supply UVLO of the ISO5852S gate driver through RDY pin
Additional monitoring capabilities with UCC21750 integrated analog-to-PWM isolated sensor
24-V isolated STO_FB output indicates drive state: Safe state (STO) or normal operation