TIDT386
April 2024
1
Description
Features
Applications
1
Test Prerequisites
1.1
Voltage and Current Requirements
1.2
Dimensions
2
Testing and Results
2.1
Efficiency Graphs
2.1.1
–7V Output Voltage
2.1.2
–11V Output Voltage
2.2
Efficiency Data
2.3
Thermal Images
2.3.1
8V Input Voltage
2.3.2
48V Input Voltage
2.4
Bode Plots
2.4.1
8V Input Voltage
2.4.1.1
–7V Output Voltage
2.4.1.2
–11V Output Voltage
2.4.2
48V Input Voltage
2.4.2.1
–7V Output Voltage
2.4.2.2
–11V Output Voltage
3
Waveforms
3.1
Switching
3.1.1
12V Input Voltage
3.1.1.1
–7V Output Voltage
3.1.1.1.1
Switchnode Referenced to –VOUT
3.1.1.1.2
Switchnode Referenced to VIN
3.1.1.2
–11V Output Voltage
3.1.1.2.1
Switchnode Referenced to –VOUT
3.1.1.2.2
Switchnode Referenced to VIN
3.1.2
48V Input Voltage
3.1.2.1
–7V Output Voltage
3.1.2.1.1
Switchnode Referenced to –VOUT
3.1.2.1.2
Switchnode Referenced to VIN
3.1.2.2
–11V Output Voltage
3.1.2.2.1
Switchnode Referenced to –VOUT
3.1.2.2.2
Switchnode Referenced to VIN
3.2
Input Voltage Ripple
3.2.1
12V Input Voltage
3.2.1.1
–7V Output Voltage
3.2.1.2
–11V Output Voltage
3.2.2
48V Input Voltage
3.2.2.1
–7V Output Voltage
3.2.2.2
–11V Output Voltage
3.3
Output Voltage Ripple
3.3.1
12V Input Voltage
3.3.1.1
–7V Output Voltage
3.3.1.2
–11V Output Voltage
3.3.2
48V Input Voltage
3.3.2.1
–7V Output Voltage
3.3.2.2
–11V Output Voltage
3.4
Load Transients
3.4.1
12V Input Voltage
3.4.1.1
–7V Output Voltage
3.4.1.2
–11V Output Voltage
3.4.2
48V Input Voltage
3.4.2.1
–7V Output Voltage
3.4.2.2
–11V Output Voltage
3.5
Level Shifters
3.6
Start-Up Sequence
Features
Negative output voltage
Selectable output voltage(–7V to –11V)
High-efficiency conversion due to use of synchronous rectification
Level shifters for enable and power good signals
Design is built and tested