TI UC2854BDWTR

UC1854A/B
UC2854A/B
UC3854A/B
Enhanced High Power Factor Preregulator
FEATURES
DESCRIPTION
•
Controls Boost PWM to Near Unity
Power Factor
•
Limits Line Current Distortion To <3%
•
World-Wide Operation Without Switches
•
Accurate Power Limiting
•
Fixed Frequency Average Current Mode
Control
•
High Bandwidth (5MHz), Low Offset
Current Amplifier
•
Integrated Current and Voltage Amp
Output Clamps
•
Multiplier Improvements: Linearity,
500mV VAC Offset (eliminates external
resistor), 0-5V Multout Common Mode
Range
•
VREF "GOOD" Comparator
•
Faster and Improved Accuracy ENABLE
Comparator
•
UVLO Threshold Options
(16/10V / 10.5/10V)
•
300µA Startup Supply Current
UC1854A
UC1854B
UVLO Turn on UVLO Turn off
16V
10V
10.5V
10V
The UC1854A/B products are pin compatible enhanced versions of the
UC1854. Like the UC1854, these products provide all of the functions
necessary for active power factor corrected preregulators. The
controller achieves near unity power factor by shaping the AC input line
current waveform to correspond to the AC input line voltage. To do this
the UC1854A/B uses average current mode control. Average current
mode control maintains stable, low distortion sinusoidal line current
without the need for slope compensation, unlike peak current mode
control.
The UC1854A/B products improve upon the UC1854 by offering a wide
bandwidth, low offset Current Amplifier, a faster responding and
improved accuracy enable comparator, a V REF "good" comparator,
UVLO threshold options (16/10V for offline, 10.5/10V for startup from
an auxiliary 12V regulator), lower startup supply current, and an
enhanced multiply/divide circuit. New features like the amplifier output
clamps, improved amplifier current sinking capability, and low offset
VAC pin reduce the external component count while improving
performance. Improved common mode input range of the Multiplier
output/Current Amp input allow the designer greater flexibility in
choosing a method for current sensing. Unlike its predecessor, RSET
controls only oscillator charging current and has no effect on clamping
the maximum multiplier output current. This current is now clamped to
a maximum of 2 * IAC at all times which simplifies the design process
and provides foldback power limiting during brownout and extreme low
line conditions.
A 1% 7.5V reference, fixed frequency oscillator, PWM, Voltage
Amplifier with softstart, line voltage feedforward (VRMS squarer), input
supply voltage clamp, and over current comparator round out the list of
features.
BLOCK DIAGRAM
UDG-93001-1
6/98
UC1854A/B
UC2854A/B
UC3854A/B
ABSOLUTE MAXIMUM RATINGS
Supply Voltage VCC . . . . . . . . . . . . . . . . . . . .
GT Drv Current, Continuous . . . . . . . . . . . . .
GT Drv Current, 50% Duty Cycle. . . . . . . . . .
Input Voltage, VSENSE, VRMS . . . . . . . . . . . . .
Input Voltage, ISENSE, Mult Out . . . . . . . . . . .
Input Voltage, PKLMT . . . . . . . . . . . . . . . . . .
Input Current, RSET, IAC , PKLMT, ENA . . . . .
Power Dissipation . . . . . . . . . . . . . . . . . . . . .
Storage Temperature . . . . . . . . . . . . . . .
Lead Temperature (Soldering, 10 Seconds) .
. . . . . . . . . . 22V
. . . . . . . . . . 0.5A
. . . . . . . . . . 1.5A
. . . . . . . . . . 11V
. . . . . . . . . . 11V
. . . . . . . . . . . 5V
. . . . . . . . . 10mA
. . . . . . . . . . . 1W
–65°C to +150°C
. . . . . . . . +300°C
Note 1: All voltages with respect to Gnd (Pin 1).
Note 2: All currents are positive into the specified terminal.
Note 3: ENA imput is internally clamped to approximately 10V.
Note 4: Consult Unitrode Integrated Circuits databook for
information regarding thermal specifications and limitations of
packages.
CONNECTION DIAGRAMS
DIL–16 & SOIC-16
(Top View)
J, N & DW Packages
PLCC-20 & LCC-20
(Top View)
Q & L Packages
PACKAGE PIN FUNCTION
FUNCTION
PIN
N/C
Gnd
PKLMT
CA Out
ISENSE
N/C
Mult Out
IAC
VA Out
VRMS
N/C
VREF
ENA
VSENSE
RSET
N/C
SS
CT
VCC
GT Drv
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
ELECTRICAL CHARACTERISTICS Unless otherwise stated, VCC=18V, RT=8.2k, CT=1.5nF, PKLMT=1V,o VRMS =1.5V,
o
IAC=100µA, ISENSE=0V, CA Out=3.5V, VA Out=5V, VSENSE=3V, –55 C<TA<125 C
for the UC1854A/B, –40oC<TA<85oC for the UC2854A/B, and 0oC<TA<70oC for the
UC3854A/B, and TA =TJ.
PARAMETER
OVERALL
Supply Current, Off
Supply Current, On
VCC Turn-On Threshold
VCC Turn-Off Threshold
VCC Clamp
VOLTAGE AMPLIFIER
Input Voltage
VSENSE Bias Current
Open Loop Gain
VOUT High
VOUT Low
Output Short Circuit Current
Gain Bandwidth Product
TEST CONDITIONS
MIN
TYP
MAX
UNITS
400
18
17.5
11.2
9
18
250
12
16
10.5
10
20
µA
mA
V
V
V
V
3.0
–25
100
6
0.3
1.5
1
3.1
500
CAO, VAO = 0V, VCC = UVLO - 0.3V
UC1854A
UC1854B
UC1854A / B
I(VCC) = ICC(on) + 5mA
VOUT = 2 to 5V
ILOAD = –500µA
ILOAD = 500µA
VOUT = 0V
Fin = 100kHz, 10mV p-p, (Note 1)
2
2.9
–500
70
22
0.5
3.5
V
nA
dB
V
V
mA
mHz
UC1854A/B
UC2854A/B
UC3854A/B
Unless otherwise stated, VCC=18V, RT=8.2k, CT=1.5nF, PKLMT=1V, VRMS=1.5V,
ELECTRICAL
=0V, CA Out=3.5V, VA Out=5V, VSENSE=3V, –55oC<TA<125oC for the
CHARACTERISTICS (cont.) I AC=100µA, ISENSE
o
o
o
o
UC1854A/B, –40 C<TA <85 C for the UC2854A/B, and 0 C<TA<70 C for the UC3854A/B,
and TA =TJ.
PARAMETER
CURRENT AMPLIFIER
Input Offset Voltage
Input Bias Current(sense)
Open Loop Gain
VOUT High
VOUT Low
Output Short Circuit Current
Common Mode Range
Gain Bandwidth Product
REFERENCE
Output Voltage
Load Regulation
Line Regulation
Short Circuit Current
OSCILLATOR
Initial Accuracy
Voltage Stability
Total Variation
Ramp Amplitude (p-p)
Ramp Valley Voltage
ENABLE / SOFTSTART / CURRENT LIMIT
Enable Threshold
Enable Hysteresis
Enable Input Bias Current
Propagation Delay to Disable
SS Charge Current
PKLMT Offset Voltage
PKLMT Input Current
PKLMT Propagation Delay
MULTIPLIER
Output Current - IAC Limited
Output Current - Zero
Output Current - Power Limited
Output Current
Gain Constant
TEST CONDITIONS
VCM = 0V
MIN
TA = +25°C
OverTemp
VCM = 0V
VCM = 0V, VOUT = 2 to 6V
ILOAD = –500µA
ILOAD = 500µA
VOUT = 0V
−4
–5.5
–500
80
TYP
110
8
0.3
1.5
MAX
UNITS
0
0
500
mV
mV
nA
dB
V
V
mA
V
mHz
0.5
3.5
5
Fin = 100kHz, 10mV p-p, (Note 1)
–0.3
3
5
IREF = 0mA, TA = 25oC
IREF = 0mA
IREF = 1 to 10mA
VCC = 12 to 18V
VREF = 0V
7.4
7.35
0
0
25
7.5
7.5
8
14
35
7.6
7.65
20
25
60
V
V
mV
mV
mA
85
100
1
115
kHz
%
kHz
V
V
TA = 25oC
VCC = 12 to 18V
Line, Temp
80
4.9
0.8
2.35
VFAULT = 2.5V
VENABLE = 0V
Enable Overdrive = –100mV,(Note 1)
VSOFTSTART = 2.5V
10
–15
120
5.9
1.3
2.55
2.8
V
500
–2
300
14
600
–5
mV
µA
ns
VPKLMT = –0.1V
(Note 1)
–200
–100
150
IAC =100µA, VRMS = 1V, RSET = 10k
IAC =0µA, RSET = 10k
VRMS = 1.5V, Va = 6V
VRMS = 1.5V, Va = 2V
VRMS = 1.5V, Va = 5V
VRMS = 5V, Va = 2V
VRMS = 5V, Va = 5V
(Note 2) VRMS = 1.5V, TJ = 25°C, Va = 6V
–220
–2.0
–230
–200
–0.2
–200
–22
–156
–2
–14
–1.0
Note 1: Guaranteed by design, not 100% tested in production.
IAC × (Va − 1.5V)
Note 2: Gain constant (K) =
VRMS 2 × IMO
3
–1.1
24
15
mV
µA
ns
–170
2.0
–170
–0.9
µA
µA
µA
µA
µA
µA
µA
A/A
UC1854A/B
UC2854A/B
UC3854A/B
Unless otherwise stated, VCC=18V, RT=8.2k, CT=1.5nF, PKLMT=1V, VRMS =1.5V, IAC=100µA,
ELECTRICAL
=0V, CA Out=3.5V, VA Out=5V, VSENSE=3V, –55oC<TA<125oC for the UC1854A/B,
CHARACTERISTICS (cont.) ISENSE
o
o
o
o
–40 C<TA<85 C for the UC2854A/B, and 0 C<TA <70 C for the UC3854A/B, and TA=TJ.
PARAMETER
GATE DRIVER
Output High Voltage
Output Low Voltage
Output Low (UVLO)
Output Rise / Fall Time
Output Peak Current
TEST CONDITIONS
IOUT
IOUT
IOUT
IOUT
= –200mA, VCC = 15V
= 200mA
= 10mA
= 50mA, VCC = 0V
CLOAD = 1nF, (Note 1)
CLOAD = 10nF, (Note 1)
MIN
TYP
12
12.8
1
300
0.9
35
1.0
MAX
2.2
500
1.5
UNITS
V
V
mV
V
ns
A
Note 1: Guaranteed by design, not 100% tested in production.
IAC × (Va − 1.5V)
Note 2: Gain constant (K) =
VRMS 2 × IMO
FUNCTIONAL DESCRIPTION
The UC1854A/B products were designed as pin
compatible upgrades to the industry standard UC1854
active Power Factor correction circuits. The circuit
enhancements allow the user to eliminate in most cases
several external components currently required to
successfully apply the UC1854. In addition, linearity
improvements to the Multiply, Square, and Divide circuitry
optimizes overall system performance. Detailed
descriptions of the circuit enhancements are provided
below. For in-depth design applications reference data
refer to Unitrode application notes U-134 and DN-44.
VRMS should produce 1.5V at low line (85VAC). This will
put 4.77V on VRMS at high line (27VAC) which is well
within its operating range.
The VRMS pin linear operating range is improved with the
UC1854A/B as well. The input range for VRMS extends
from 0 to 5.5V. Since the UC1854A squaring circuit
employs an analog multiplier, rather than a linear
approximation, accuracy is improved, and discontinuities
are eliminated. The external divider network connected to
The Current Amplifier for an average current PFC
controller needs a low offset voltage in order to minimize
AC line current distortion. With this in mind, the
UC1854A/B Current Amplifier has improved the input
offset voltage from ±4mV to 0 to −3mV. The negative
The Voltage Amplifier output forms the third input to the
Multiplier and is internally clamped to 6.0V. This
eliminates an external zenerclamp often used in UC1854
designs. The offset voltage at this input to the Multiplier
has been raised on the UC1854A/B to 1.5V.
The Multiplier output pin, which is also common to the
Current Amplifier non-inverting input, has a −0.3V to 5.0V
output range,compared to the −0.3 to 2.5V range of the
MULTIPLY / SQUARE AND DIVIDE
UC1854. This improvement allows the UC1854A/B to be
The UC1854A/B Multiplier design maintains the same used in applications where the current sense signal
gain constant (K = −1), as the UC1854. The relationship amplitude is very large.
between the inputs and output current is given as:
VOLTAGE AMPLIFIER
IMO = IAC(V AO - 1.5V) / K•VRMS2
The UC1854A/B Voltage Amplifier design is essentially
This is nearly the same as the UC1854, but circuit
similar to the UC1854 with two exceptions. The first is with
differences have improved the performance and
the internal connection. The lower voltage reduces the
application.
amount of charge on the compensation capacitor, which
The first difference is with the IAC input. The UC1854A/B provides improved recovery from large signal events,
regulates this pin voltage to a nominal 500mV over the full such as line dropouts, or power interruption. It also
operating temperature range, rather than the 6.0V used minimizes the DC current flowing through the feedback.
on the UC1854. This low offset voltage eliminates the The output of the Voltage amplifier is also changed. In
need for a line zero crossing compensating resistor to addition to a 6.0V temperature compensated clamp, the
VREF from IAC that UC1854 designs require. The output short circuit current has been lowered to 2mA
maximum current at high line into IAC should be limited to typical, and an active pull down has replaced the passive
250µA for best performance. Therefore, if VAC (max) = pulldown of the UC1854.
270V, then RAC = 270(1.414) / 250µA = 1.53MΩ.
CURRENT AMPLIFIER
4
UC1854A/B
UC2854A/B
UC3854A/B
FUNCTIONAL DESCRIPTION (cont.)
offset of the UC1854A/B guarantees that the PWM circuit
will not drive the MOSFET if the current command is zero
(both Current amplifier inputs zero.).Previous designs
required an external offset cancellation network to
implement this key feature. The bandwidth of the Current
Amplifier has been improved as well to 5mHz typical.
While this is not generally an issue at 50 or 60Hz inputs, it
is essential for 400Hz input avionics applications.
desired. The lower startup supply current (250µA typical),
substantially reduces the power requirements of an offline
startup resistor. The 10.5/10V UVLO option (UC1854B)
enables the controller to be powered off of an auxiliary
12V supply.
The VREF "GOOD" comparator guarantees that the
MOSFET driver output remains low if the supply or the
7.5V reference are not yet up. This improvement
MISCELLANEOUS
eliminates the need for external Schottky diodes on the
Several other important enhancements have been PKL and CA+ pins that some UC1854 designs require.
implemented in the UC1854A/B. A VCC supply voltage The propagation delay of the disable feature has been
clamp at 20V allows the controller to be current fed if improved to 300ns typical. This delay was proportional to
TYPICAL CHARACTERISTICS at TA = TJ = 25°C
Gate Drive Rise and Fall Time
Gate Drive Maximum Duty Cycle
700
100%
600
95%
Rise Time
500
90%
Fall Time
400
ns
Duty
85%
Cycle
300
80%
200
75%
100
0
70%
0
0.01
0.02
0.03
0.04
0.05
1
10
Load Capacitance, µF
RSET, k Ω
UC1854A/B Multiplier Linearity
VAOUT = 3.5V
UC1854A/B Multiplier Linearity
VAOUT = 5V
1.2
1.2
1.16
1.16
1.12
1.12
1.08
1.04
K
100
VRMS=
1.5V
1
VRMS=
3.0V
1.08
VRMS=
5.0V
1.04
K
0.96
0.92
0.92
0.88
0.88
0.84
0.84
0.8
0
50
100
150
200
VRMS=
1.5V
1
0.96
VRMS=
3.0V
VRMS=
5.0V
0.8
250
0
IAC Current (µA)
5
50
100
150
IAC Current (µA)
200
250
UC1854A/B
UC2854A/B
UC3854A/B
TYPICAL CHARACTERISTICS at TA = TJ = 25°C (cont.)
Current Amplifier Frequency Response
Oscillator Frequency vs R SET and CT
1000
5.992 496 516 MHz
120
Gain
-90
100
Phase
-45 Phase
Gain (dB)
80
Degrees
0
60
100pF
Frequency
kHz 100
40
200pF
20
500pF
0
1nF
-20
10nF 5nF 3nF 2nF
-40
10
-60
10kHz
100kHz
1MHz
1
10MHz
10
100
RSET, k Ω
log f
Voltage Amplifier Gain and Phase vs Frequency
120
Phase
Margin
degrees
100
80
60
Open-Loop 40
20
Gain
dB
0
-20
0.1
1
10
100
1000
10000
Frequency
kHz
UNITRODE CORPORATION
7 CONTINENTAL BLVD. • MERRIMACK, NH 03054
TEL. (603) 424-2410 FAX (603) 424-3460
These products contain patented circuitry and are sold under license from Pioneer Magnetics, Inc.
6
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