EIE4402: Note on Guided assignment: Design of a Circuit-Programmed Controlled Boost Converter using LTSpice & UC3842
EIE4402 Power Electronics
Objectives:
1.
To understand the importance of computer-aided
design of switching power supplies;
2.
To learn and understand the basic
functionalities of SPICE circuit simulation software;
3.
To gain hands-on experience in the design,
construction, and testing of basic converter.
1.
Getting Started with LTspice
To download the latest version of LTspice, go to:
To view YouTube video of the quick start guide: https://youtu.be/JRcyHuyb1V0
To view the online document “LTspice Getting Started Guide”, go to:
2.
Simulating Boost Converter Using LTspice
Design
Specifications:
|
Input
voltage range |
20
V ~ 28 V |
|
Nominal
output voltage |
48
V |
|
Rated
output current |
1
A |
|
Line
regulation @ 1-A load |
<
2% |
|
Load
regulation @ 24-V input voltage |
<
2% |
|
Switching
frequency |
50
kHz ~ 100 kHz |
|
Output
voltage ripple @ switching frequency |
<
200 mVpp |
|
Startup
rise time |
<
1 s |
|
Startup
overshoot |
<
5 % |
|
Transient
output voltage’s overshoot/undershoot |
<
5% (0.25 A«0.75 A step at
0.1 A/µs) |
|
Efficiency |
>
90% |
Spice models for the following devices are included in the model library“eie402.lib”.
|
Device Name |
Model Name |
Model Type |
|
FQP33N10 (N-Channel Power MOSFET) |
FQP33N10 |
Sub-circuit |
|
MUR820 (Power Rectifier) |
Dmur820 |
Diode |
|
S-R Flip-Flop |
SRFF |
Sub-circuit |
|
Comparator |
COMP |
Sub-circuit |
|
Error Amplifier |
ERRAMP |
Sub-circuit |
|
Average Model for Current-Programmed-Controlled
Boost Converter |
BOOSTCM |
Sub-circuit |
(a) Open Loop
Figure 1: Boost converter with open loop.
(a) Open Loop
Draw the schematics of figure 1 as shown above.
For the voltage source V2, modify as voltage pulses (in LTSpice, right-click):
Simulation Results:
V(n003) (blue-color) is the voltage output of the boost converter, and V(n005) is the voltage of V2, DC pulses.
From the above graph, we can see that the voltage output of the boost converter goes to 80 V from time = 0 to 2.5 mS. Then it goes down to 48 V at about 40 mS.
Results:
Voltage mode - screen 1:
Photo 5:
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