Download Digital Power Block Set (DPBS)

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
page
21
page
22
page
23
page
24
page
25
page
26
page
27
page
28
page
29
page
30
page
31
page
32
Document related concepts
no text concepts found
Transcript 
Digital Power Block Set (DPBS)
Components
Background
Code-generable Control Loops
Compensators
Controllers
Filters
Frequently Used
Measurements
Examples
Components
Simulation
TI Developer's Kits
Tools
Simulation
Compensators
Controllers
Filters
Loads
MCU Peripherals
Power Converters
Readme
Sensors
Sources
Tools
Analog Coefficient Conversion
Digital Power Block Set (DPBS) – Components 1/2
Components
Background
Code-generable Control Loops
Compensators
Controllers
Filters
Frequently Used
Measurements
Background
Event Counter
Soft-start (Fixed-point)
Soft-start (FPU)
Window Comparator with hysteresis
Window Detector (Fixed-point)
Window Detector (FPU)
Code-generable Control Loops
Fixed-point
Average CM Control
Hysteretic CM Control
PSFB-VMC
Voltage Mode Control
Zero-transition CM Control
Compensators
16-bit Fixed-point
1p1z
1p1z (with pins)
2p2z
2p2z (with pins)
3p3z
3p3z (with pins)
PI
PID (traditional)
32-bit Fixed-point
FPU
Controllers
Fixed-point
Average CM Controller
Hysteretic CM Controller
PSFB Controller
Voltage Mode Controller
Zero-transition CM Controller
FPU
Time-slicer
Digital Power Block Set (DPBS) – Components 2/2
Filters
Fixed-point
1st order filter (with pins)
2nd order filter
2nd order filter (with pins)
Moving Average (10-step)
Moving Average (4-step)
Moving Median
FPU
Frequently Used
Counter
Delay
Detect change
Falling edge
limit
Max
Min
Oscillator
Rising edge
SR Flip-flop
Measurements
Fixed-point
Apparent Power
Average Value
Crest Factor
Form Factor
Maximum Value
Minimum Value
Power Factor
Reactive Power
Real Power
RMS Value
THD
Time-frequency
FPU
Digital Power Block Set (DPBS) – Simulation 1/2
Simulation
Compensators
Controllers
Filters
Loads
MCU Peripherals
Power Converters
Readme
Sensors
Sources
Compensators
3p3z
PI
PID (2p2z)
PID (traditional)
Type 1 (I-compensator)
Type 2
Type 3
Controllers
Average Current Mode Control (ACMC)
Hysteretic Current Mode Control (HCMC)
Multi-phase VMC
Peak Current Mode Control (PCMC)
Voltage Mode Control (VMC)
Zero-current Transition Control (ZCMC)
Filters
Anti-aliasing Filter
Moving Average Filter
Digital Power Block Set (DPBS) – Simulation 2/2
Loads
Constant-current Load
Constant-power Load
Load Profile
Parallel Connector
MCU Peripherals
ADC
Analog Comparator
DAC
Dual-PWM
Event Capture
Sensors
AC Current Transformer
Current Sense Resistor
Isolated Current Sensor
Isolated Voltage Sensor
Op-Amp
Resistor Divider (Voltage Sensor)
Sources
AC Supply
DC Supply
Simulation Time
Single-phase Rectifier
Three-phase AC Supply
Three-phase Rectifier
Power Converters
Boost Converter
Buck Converter
Buck-boost Converter
Full-bridge Converter with Center-tapped Secondary
Multi-phase Buck Converter
Digital Power Block Set (DPBS) - Tools
Tools
Analog Coefficient Conversion
Compensators
AC-PI
AC-PID
AC-Type II
AC-Type III
Digital Power Block Set (DPBS) – Examples 1/3
Examples
Components
Simulation
TI Developer's Kits
Tools
Simulation
Compensators
Control Characteristics
Converter Characteristics
Converter Configurations
Converter Control
Filters
MCU Peripherals
Parallel Converters
Sensors
Sources and Loads
Components
Compensators
2p2z compensators
Buck Converter - PID compensator and coefficients
Controllers
Time-slicing
Filters
Moving Average
Non-linear filters
Measurements
AC Measurements
AC Measurements - FixedPoint
Period-DutyCycle-frequency
THD example
Digital Power Block Set (DPBS) – Examples 2/3
Simulation
Compensators
Compensator Coefficients
Control Characteristics
Current limitation
Fixed-point Quantization
Input Voltage Feed-forward
Limit Cycling
PCMC - Compensating ramp, LEB
Time delay
Converter Characteristics
Inductor Saturation
Input Impedance
Saturation Curve
Synchronous Converters
Converter Configurations
Boost Converter - VMC
Boost-Buck Cascaded Converter
Buck-boost Converter - VMC
Multi-phase Buck Converter - VMC
Converter Control
Analog
Digital
MCU
Filters
Anti-aliasing
MCU Peripherals
ADC-DAC
Dual-PWM
Oversampling
Parallel Converters
Four Boosts - droop method
Two Bucks - active current sharing
Sensors
Current Sensors
Voltage Sensors
Sources and Loads
Loads
Rectifiers
Supplies
Digital Power Block Set (DPBS) – Examples 3/3
TI Developer's Kits
DPEK
Digital Power Experimenter's Kit
PSFB
PSFB DevKit SIM - PCMC - Im1
PSFB DevKit SIM - PCMC - Im2
PSFB DevKit SIM - PSVMC
Tools
Analog Coefficient Conversion
Buck Converter - Analog
Type II - PI Comparison
Type III - PID Comparison
Simulation - Power Converters - Buck
Simulation - Power Converters - Boost
Simulation - Power Converters - Buck-Boost
Simulation - Power Converters – Multi-phase Buck
Simulation - Power Converters – Multi-phase Buck
Simulation - Power Converters – Full-bridge
Simulation - Power Converters – Full-bridge
Simulation – MCU Peripherals - Dual PWM
Simulation – MCU Peripherals - Dual PWM
Simulation – MCU Peripherals - Dual PWM
Simulation – MCU Peripherals - ADC & DAC
Simulation – MCU Peripherals - Analog Comparator
Simulation – Sensors - Resistor Divider (Voltage Sensor)
- Current Sense Resistor
Simulation – Sensors – Op-Amp
Simulation – Sensors – ICS & IVS
Isolated Current Sensor
Isolated Voltage Sensor
Simulation – Sensors - CT
AC Current Transformer
Simulation – Sources – DC Supply
Simulation – Sources – DC Supply
Simulation – Sources – AC Supply
Simulation – Sources – AC Supply
Simulation –
Sources – AC
Supply
Simulation – Sources –
3-Phase AC Supply
Simulation – Sources – Single & Three-phase Rectifier
Related documents