SLUU274A
May 2007 – January 2022
TPS40193
Trademarks
1
Introduction
1.1
Description
1.2
Applications
1.3
Features
2
TPS40193EVM-001 Electrical Performance Specifications
3
Schematic
4
General Configuration and Description
4.1
Adjusting Output Voltage (R7)
4.2
Adjusting Short-Circuit Protection (R9)
4.3
Disable Jumper (JP1)
4.4
Test Point Descriptions
4.4.1
Input Voltage Monitoring (TP1, TP2)
4.4.2
Power-Good (TP3, TP4, TP5)
4.4.3
Compensation and Initialization (TP6)
4.4.4
Switching Waveforms (TP7, TP8, TP9, TP10)
4.4.5
Loop Analysis (TP11, TP12, TP13, TP14)
4.4.6
Output Voltage and Monitoring (TP15, TP16)
4.4.7
Pre-Bias Input (TP17)
5
Test Setup
5.1
Equipment
5.1.1
Voltage Source
5.1.2
Meters
5.1.3
Loads
5.1.4
Oscilloscope
5.1.5
Recommended Wire Gauge
5.1.6
Other
5.2
Equipment Setup
5.3
Start-Up/Shutdown Procedure
5.4
Output Ripple Voltage Measurement Procedure
5.5
Control Loop Gain and Phase Measurement Procedure
5.6
Equipment Shutdown
6
TPS40193EVM-001 Typical Performance Data and Characteristic Curves
6.1
Efficiency
6.2
Line and Load Regulation
6.3
Output Voltage Ripple
6.4
Switch Node
6.5
Control Loop Bode Plot
6.5.1
Low Line (VIN = 8 V)
6.5.2
High Line (VIN = 14 V)
7
EVM Assembly Drawings and Layout
8
Bill of Materials
9
Revision History
1.3
Features
8-V to 14-V input range
1.8-V fixed output, adjustable with single resistor
10-A
DC
steady state output current
300-kHz switching frequency (fixed by the TPS40193)
Single SO-8 MOSFETs for both the main switch and synchronous rectifier
Double-sided, two active layer printed circuit board (PCB) with all components on top side
Test point signals routed on internal layers
Active converter area of less than 1.2 inch
2
(<1.54 inch × 0.76 inch)
Convenient test points for probing switching waveforms and non-invasive loop response testing