CM6807
10-PIN Green-Mode PFC/PWM Combo CONTROLLER for High Density AC Adapte
r
GENERAL DESCRIPTION
The CM6807 is the Green-Mode PFC/PWM Combo
controller for High Density AC Adapter. For the power
supply less than 200Watt, it’s input current shaping PFC
performance could be very close to the performance of the
CM6800 or ML4800 leading edge modulation average
current topology.
CM6807 offers the use of smaller, lower cost bulk
capacitors, reduces power line loading and stress on the
switching FETs, and results in a power supply fully
compliant to IEC1000-3-2 specifications. The CM6807
includes circuits for the implementation of a leading edge,
input current shaping technique “boost” type PFC and a
trailing edge, PWM.
The CM6807’s PFC and PWM operate at the same
frequency, 67.5kHz. A PFC OVP comparator shuts down
the PFC section in the event of a sudden decrease in load.
The PFC section also includes peak current limiting for
enhanced system reliability.
Both PFC and PWM have the Green Mode Functions.
When the load is below GMth, Green Mode Threshold,
PFCOUT is turned off. The GMth can be programmed by
the designer. PWM Green Mode will happen when the
PWMCMP (PWM Comparator) Duty Cycle is less than ~
6%, in the next cycle, the PWMOUT pulse will be removed
until PWMCMP Duty Cycle is greater than 6%, then the
next cycle, PWMOUT pulse appears.
PWM has a PWMtrifault pin which can sense the PWM
short and determine the GMth to turn off PFC.
FEATURES
Patent Filed #5,565,761, #5,747,977, #5,742,151,
#5,804,950, #5,798,635
Both PFC and PWM have the Green Mode to meet blue
angel and energy star spec.
10-Pin SOIC package
PWM pulse skipping for the green mode
Use RAC as the Startup resistor which can be > 2000K or
higher at IAC pin
It can use the HV bipolar to start up the chip and it helps
green mode.
Easy to configure into Boost Follower
Enable lowest BOM for power supply with PFC
Internally synchronized PFC and PWM in one IC
Patented slew rate enhanced voltage error amplifier with
advanced input current shaping technique
Universal Line Input Voltage
CCM boost or DCM boost with leading edge modulation
PFC using Input Current Shaping Technique
Feedforward IAC pin to do the automatic slope
compensation
PFCOVP, VCCOVP, Precision -1V PFC ILIMIT, PFC
Tri-Fault Detect comparator to meet UL1950
Low supply currents; start-up: 100uA typical, operating
current: 2mA typical.
Synchronized leading PFC and trailing edge modulation
PWM to reduce ripple current in the storage capacitor
between the PFC and PWM sections and to reduce
switching noise in the system
VINOK Comparator to guarantee to enable PWM when
PFC reach steady state
High efficiency trailing-edge current mode PWM
Exact 50% PWM maximum duty cycle
UVLO, REFOK, and brownout protection
Digital PFC and PWM soft start, ~10mS
Precision PWM 1.5V current limit for current mode
operation
PWMtrifault to sense DC to DC short and Turn off PFC at
GMth
PWMtrifault also can be programmed to do the Thermal
Protection
2010/04/20 Rev1.0
Champion Microelectronic Corporation
Page 1
CM6807
10-PIN Green-Mode PFC/PWM Combo CONTROLLER for High Density AC Adapte
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APPLICATIONS
AC Adaptor
Open Frame
PIN CONFIGURATION
10 Pin SSOP (R10)
Top View
1
2
3
4
5
PWM OUT
PFC OUT
VCC
PWMTRIFAULT
V+I
GND
IAC
ISENSE
VEAO
VFB
10
9
8
7
6
PIN DESCRIPTION
Operating Voltage
Pin No.
1
2
3
4
5
6
7
8
9
10
Symbol
GND
IAC
I
SENSE
VEAO
V
FB
V+I
PWMTRIFAULT
Description
Min.
Ground
Feedforward input to do slope compensation and to start up
the system. During the start up, IAC is connected to VCC until
VCC is greater than 13V.
Current sense input to the PFC current limit comparator
PFC transconductance voltage error amplifier output
PFC transconductance voltage error amplifier input
PWM current limit comparator input
PWMTRIFAULT input; it can sense PWM Short or OVP
Positive supply
PFC driver output
PWM driver output
0
-5
0
0
0
0
10
0
0
2.5
7
0.7
6
3
1.5
VCC
18
VCC
VCC
V
V
V
V
V
V
V
V
V
Typ.
Max.
Unit
VCC
PFC OUT
PWM OUT
ORDERING INFORMATION
Initial Accuracy (KHz)
Part Number
CM6807GIR*
CM6807GIRTR*
CM6807XIR*
CM6807XIRTR*
Operation Frequency
Min
Fpwm = Fpfc = 67.5Khz
Fpwm = Fpfc = 67.5Khz
Fpwm = Fpfc = 67.5Khz
Fpwm = Fpfc = 67.5Khz
60
60
60
60
Typ
67
67
67
67
Max
74
74
74
74
-40℃ to 125℃
-40℃ to 125℃
-40℃ to 125℃
-40℃ to 125℃
10 Pin SSOP(R10)
10 Pin SSOP(R10)
10 Pin SSOP(R10)
10 Pin SSOP(R10)
Temperature Range
Package
Note:
1. G : Suffix for Pb Free Product
2. X : Suffix for Halogen Free and PB Free Product
3. TR : Package is Typing Reel
4. Initial Accuracy : T
A
=25℃
2010/04/20 Rev1.0
Champion Microelectronic Corporation
Page 2
CM6807
10-PIN Green-Mode PFC/PWM Combo CONTROLLER for High Density AC Adapte
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BLOCK DIAGRAM
IAC
. R1B
2
.
.
VCC
UVB
4
.VEAO
PFC CMP
-
.
ISENSE
3
1
1
. R1A
2
2
2
IAC
R1C
.
1
8
VCC
VFB
5
-
2.5V
17.9V
16.4V
0.5V
2.75V
2.5V
-1V
7
V=17uA
(VCC-1.4V)/2
+
GND
PROTECTED BY PATENT
ABSOLUTE MAXIMUM RATINGS
Absolute Maximum ratings are those values beyond which the device could be permanently damaged.
Parameter
V
CC
MAX
IAC (before start up)
IAC (after start up)
I
SENSE
Voltage
PFC OUT
PWM OUT
VEAO
PWMTrifault
Voltage on Any Other Pin
Peak PFC OUT Current, Source or Sink
Peak PWM OUT Current, Source or Sink
PFC OUT, PWM OUT Energy Per Cycle
Junction Temperature
Storage Temperature Range
Operating Temperature Range
Lead Temperature (Soldering, 10 sec)
Thermal Resistance (θ
JA
)
-65
-40
Min.
GND-0.3
GND-0.3
-5
GND – 0.3
GND – 0.3
0
GND – 0.3
GND-0.3
Max.
20
VCC + 0.3
7.0
0.7
VCC + 0.3
VCC + 0.3
6.3
VCC + 0.3
VCC + 0.3
0.5
0.5
1.5
150
150
125
260
80
Units
V
V
V
V
V
V
V
V
V
A
A
μJ
℃
℃
℃
℃
℃/W
2010/04/20 Rev1.0
+
PWMTRIFAULT
VCC-0.7V
-
+
.
+
+
-
-
.
-
.
+
+
-
-
.
-
.
+
-
-
V To Ramp
GMV
.
.
+
S
R
R
Q
Q
UVB
FAULT
VREFDK
9
PFCOUT
VCC OVP
UVLO
VCC
BROKENWIRE
PFCCLK
.
PWMCLK
.
.
.
PFC CLK
PWM CLK
fpfc=70KHz
PFC OVP
VFB
VIN-OK
+
-
-
.
S
R1
R2
Q
PFC ILIMIT
2.45V
0.75V
UVB
Q
VREFDK
10
PWMOUT
PWM SHORT
GREENPWM
PWMFAULT
GREENMODE
GND
PWMCLK
1.5V
.
.
-
-
+
10mS
PWM CMP
.
1
GND
SS
SOFT START
6
V+I
Champion Microelectronic Corporation
Page 3
CM6807
10-PIN Green-Mode PFC/PWM Combo CONTROLLER for High Density AC Adapte
r
ELECTRICAL CHARACTERISTICS
Unless otherwise stated, these specifications apply Vcc=+14V, T
A
=Operating Temperature Range (Note 1)
CM6807
Min.
0
V
NONINV
= V
INV
, VEAO = 3.75V
Note 2
5.8
V
FB
= 3V, VEAO = 6V
V
FB
= 1.5V, VEAO = 1.5V
11V < V
CC
< 16.5V
IAC
ISENSE = 0V, T
A
=25℃
VCC OVP Comparator
Threshold Voltage
Hysteresis
PFC OVP Comparator
Threshold Voltage
Hysteresis
PFC I
LIMIT
Comparator
Threshold Voltage
Delay to Output
V
IN
OK Comparator
Threshold Voltage
Hysteresis
PWM Digital Soft Start
Digital Soft Start Timer (Note 2)
Threshold Voltage
Delay to Output (Note 2)
Threshold Voltage
Fault Detect HIGH
Time to Fault Detect HIGH
Fault Detect LOW
PWM Tri-Fault Detect Comparator
DC to DC Short
Sweep PWMtrifault
VCC-0.9
-400mV+
Green Mode Threshold
Sweep PWMtrifault
(VCC-1.
4)/2
(VCC-1.4)
/2
VCC-0.1
+400mV
+(VCC-1
.4)/2
V
V
V
FB
=V
FAULT DETECT LOW
to V
FB
= OPEN,
470pF from V
FB
to GND
0.4
During soft start condition
PFC Tri-Fault Detect Comparator
2.70
2.77
2
0.5
2.85
4
0.6
V
ms
V
100
Right After Start Up
V + I Comparator
Normal operation without soft start
1.38
1.5
150
150
1.62
300
200
V
Ns
mV
10
ms
2.30
1.65
2.45
1.75
2.55
1.85
V
V
-1.1
-1
150
-0.9
300
V
ns
2.64
230
2.77
2.85
300
V
mV
17.3
1.3
17.9
1.5
18.5
1.75
V
V
30
50
50
35
30
2.43
65
2.5
-0.5
6.0
0.1
-35
40
60
60
40
45
0.4
-20
Typ.
Max.
5
90
2.56
-1.0
Symbol
Parameter
Test Conditions
Voltage Error Amplifier (g
mv
)
Unit
Input Voltage Range
Transconductance
Feedback Reference Voltage
Input Bias Current
Output High Voltage
Output Low Voltage
Sink Current
Source Current
Open Loop Gain
Power Supply Rejection Ratio
Input Impedance
V
μmho
V
μA
V
V
μA
μA
dB
dB
K
2010/04/20 Rev1.0
Champion Microelectronic Corporation
Page 4
CM6807
10-PIN Green-Mode PFC/PWM Combo CONTROLLER for High Density AC Adapte
r
ELECTRICAL CHARACTERISTICS
Vcc=+14V, T
A
=Operating Temperature Range (Note 1)
(Conti.)Unless otherwise stated, these specifications apply
CM6807
Symbol
Parameter
Test Conditions
Min.
Oscillator
Voltage Stability
Temperature Stability
Total Variation
PFC Dead Time (Note 2)
PFC
Minimum Duty Cycle
Maximum Duty Cycle
Output Low Rdson
Output Low Voltage
Output High Rdson
Output High Voltage
Rise/Fall Time (Note 2)
I
OUT
= 100mA, V
CC
= 15V
C
L
= 1000pF
PWM
Duty Cycle Range
Output Low Rdson
Output Low Voltage
Output High Rdson
Output High Voltage
Rise/Fall Time (Note 2)
I
OUT
= 100mA, V
CC
= 15V
C
L
= 1000pF
Supply
Start-Up Current
Operating Current
Undervoltage Lockout Threshold
Undervoltage Lockout Hysteresis
V
CC
= 11V, C
L
= 0
V
CC
= 15V, C
L
= 0
12.35
2.7
100
2
13
3
150
4.0
13.65
3.3
uA
mA
V
V
13.5
I
OUT
= -100mA
I
OUT
= -10mA, V
CC
= 8V
IC
0-46
15
0.8
0.7
30
14.2
50
0-50
22.5
1.5
1.5
45
%
ohm
V
V
ohm
V
ns
13.5
I
OUT
= -100mA
I
OUT
= -10mA, V
CC
= 8V
I
AC
=100uA,V
FB
=2.55V, I
SENSE
= 0V
I
AC
=0uA,V
FB
=2.0V, I
SENSE
= 0V
90
95
15
0.8
0.4
30
14.2
50
22.5
1.5
0.8
45
1
%
%
ohm
V
V
ohm
V
ns
Line, Temp
60
0.3
10V < V
CC
< 15V
1
2
67
0.45
74.5
0.65
%
%
kHz
us
Typ.
Max.
Unit
Note 1: Limits are guaranteed by 100% testing, sampling, or correlation with worst-case test conditions.
Note 2: Guaranteed by design, not 100% production test.
2010/04/20 Rev1.0
Champion Microelectronic Corporation
Page 5
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