UCC28511N ,Advanced PFC/PWM Combination ControllersELECTRICAL CHARACTERISTICST = –40°C to 105°C for the UCC2851x, T = T , VCC = 12 V, R = 156 kΩ, R = ..
UCC28512DW ,Advanced PFC/PWM Combination ControllersMAXIMUM RATINGS †over operating free-air temperature (unless otherwise noted)Supply voltage VCCIdl ..
UCC28512DWG4 ,Advanced PFC/PWM Combination Controllers 20-SOIC -40 to 105maximum ratings” may cause permanent damage to the device. These are stress ratings only, andfuncti ..
UCC28512DWRG4 ,Advanced PFC/PWM Combination Controllers 20-SOIC -40 to 105ELECTRICAL CHARACTERISTICST = –40°C to 105°C for the UCC2851x, T = T , VCC = 12 V, R = 156 kΩ, R = ..
UCC28513DW ,Advanced PFC/PWM Combination ControllersMAXIMUM RATINGS †over operating free-air temperature (unless otherwise noted)Supply voltage VCCIdl ..
UCC28513DWR ,Advanced PFC/PWM Combination ControllersELECTRICAL CHARACTERISTICST = –40°C to 105°C for the UCC2851x, T = T , VCC = 12 V, R = 156 kΩ, R = ..
UPA1720 ,SWITCHING N-CHANNEL POWER MOS FET INDUSTRIAL USEFEATURES• Low On-ResistanceRDS(on)1 = 25.0 mΩ MAX. (VGS = 10 V, ID = 4.0 A)RDS(on)2 = 33.0 mΩ MAX. ..
UPA1720G ,SWITCHING N-CHANNEL POWER MOS FET INDUSTRIAL USEELECTRICAL CHARACTERISTICS (TA = 25 °C, All terminals are connected.)CHARACTERISTICS SYMBOL TEST CO ..
UPA1720G-E1 ,N-channel enhancement type power MOS FETELECTRICAL CHARACTERISTICS (TA = 25 °C, All terminals are connected.)CHARACTERISTICS SYMBOL TEST CO ..
UPA1720G-E2 ,N-channel enhancement type power MOS FETFEATURES• Low On-ResistanceRDS(on)1 = 25.0 mΩ MAX. (VGS = 10 V, ID = 4.0 A)RDS(on)2 = 33.0 mΩ MAX. ..
UPA1721 ,SWITCHING N-CHANNEL POWER MOS FET INDUSTRIAL USEELECTRICAL CHARACTERISTICS (TA = 25 °C, All terminals are connected.)CHARACTERISTICS SYMBOL TEST CO ..
UPA1721G ,SWITCHING N-CHANNEL POWER MOS FET INDUSTRIAL USEFEATURES• Low on-resistanceRDS(on)1 = 10.5 mΩ MAX. (VGS = 10 V, ID = 5.0 A)6.0 ±0.3144.4RDS(on)2 = ..
UCC28511DW-UCC28511DWR-UCC28511N
Advanced PFC/PWM Combination Controllers
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SLUS517C − DECEMBER 2002 − REVISED SEPTEMBER 2005
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FEATURES Provides Control of PFC and PWM Power
Stages In One Device Leading-Edge PFC, Trailing-Edge PWM
Modulation for Reduced Ripple Built-In Sequencing of PFC and PWM
Turn-On 2-A Source and 3-A Sink Gate Drive for Both
PFC and PWM Stages Typical 16-ns Rise Time and 7-ns Fall Time
into 1-nF Loads
PFC Features
− Average-Current-Mode Control for
Continuous Conduction Mode Operation
− Highly-Linear Multiplier for Near-Unity
Power Factor
− Input Voltage Feedforward Implementation
− Improved Load Transient Response
− Accurate Power Limiting
− Zero Power Detect
PWM Features
− Peak-Current-Mode Control Operation
− 1:1 or 1:2 PFC:PWM Frequency Options
− Programmable maximum duty cycle
− Programmable Soft-Start
− Two Hysteresis Options for Differing
Hold-Up Time Requirements
DESCRIPTIONThe UCC28510 series of combination PFC/PWM
controllers provide complete control functionality
for any off-line power system requiring
compliance with the IEC1000−3−2 harmonic
reduction requirements. By combining the control
and drive signals for the PFC and the PWM stages
into a single device, significant performance and
cost benefits are gained. By managing the
modulation mechanisms of the two stages
(leading-edge modulation for PFC and
trailing-edge modulation for PWM), the ripple
current in the boost capacitor is minimized.
Based on the average current mode control
architecture with input voltage feedforward of prior
PFC/PWM combination controllers, these devices
offer performance advantages. Two new key
PWM features are programmable maximum duty
cycle and the 2x PWM frequency options to the
base PFC frequency. For the PFC stage, the
devices feature an improved multiplier and the
use of a transconductance amplifier for enhanced
transient response.
The core of the PFC section is in a three-input
multiplier that generates the reference signal for
the line current. The UCC28510 series features a
highly linearized multiplier circuit capable of
producing a low distortion reference for the line
current over the full range of line and load
conditions. A low-offset, high-bandwidth current
error amplifier ensures that the actual inductor
current (sensed through a resistor in the return
path) follows the multiplier output command
signal. The output voltage error is processed
through a transconductance voltage amplifier.