Champion CM6800GIP, CM6800GIS, CM6800XIP, CM6800XIS Schematics

LOW START-UP CURRENT PFC/PWM CONTROLLER COMBO
μ
GENERAL DESCRIPTION
The CM6800 is a controller for power factor corrected,
switched mode power suppliers. Power Factor Correction
(PFC) allows the use of smaller, lower cost bulk
capacitors, reduces power line loading and stress on the
switching FETs, and results in a power supply that fully
compiles with IEC-1000-3-2 specifications. Intended as a
BiCMOS version of the industry-standard ML4824,
CM6800 includes circuits for the implementation of leading
edge, average current, “boost” type power factor
correction and a trailing edge, pulse width modulator
(PWM). Gate-driver with 1A capabilities minimizes the
need for external driver circuits. Low power requirements
improve efficiency and reduce component costs.
An over-voltage comparator shuts down the PFC section
in the event of a sudden decrease in load. The PFC
section also includes peak current limiting and input
voltage brownout protection. The PWM section can be
operated in current or voltage mode, at up to 250kHz, and
includes an accurate 50% duty cycle limit to prevent
transformer saturation.
CM6800 includes an additional folded-back current limit
for PWM section to provide short circuit protection
function.
FEATURES
#5,804,950, #5,798,635
Pin to pin compatible with ML4800 and FAN4800
Additional folded-back current limit for PWM section.
23V Bi-CMOS process
VIN OK turn on PWM at 2.5V instead of 1.5V
Internally synchronized leading edge PFC and trailing
edge PWM in one IC
Slew rate enhanced transconductance error amplifier for
ultra-fast PFC response
Low start-up current (100
A typ.)
Low operating current (3.0mA type.)
Low total harmonic distortion, high PF
Reduces ripple current in the storage capacitor between
the PFC and PWM sections
Average current, continuous or discontinuous boost
leading edge PFC
VCC OVP Comparator, Low Power Detect Comparator
PWM configurable for current mode or voltage mode
operation
Current fed gain modulator for improved noise immunity
Brown-out control, over-voltage protection, UVLO, and
soft start, and Reference OK
CM6800
APPLICATIONS
PIN CONFIGURATION
Desktop PC Power Supply
Internet Server Power Supply
IPC Power Supply
UPS
Battery Charger
DC Motor Power Supply
Monitor Power Supply
Telecom System Power Supply
Distributed Power
SOP-16 (S16) / PDIP-16 (P16)
Top View
1
2
3
4
5
6
7
8
IEAO
IAC
ISENSE
VRMS
SS
VDC
RAMP1
RAMP2
PFC OUT
PWM OUT
DC ILIMIT
VEAO
VFB
VREF
VCC
GND
16
15
14
13
12
11
10
9
2008/10/23 Rev. 2.1 Champion Microelectronic Corporation Page 1
CM6800
LOW START-UP CURRENT PFC/PWM CONTROLLER COMBO
PIN DESCRIPTION
Pin No. Symbol Description
1 IEAO PFC transconductance current error amplifier output 0 4.25 V
2 IAC PFC gain control reference input 0 1 mA
Operating Voltage
Min. Typ. Max. Unit
3 I
4 V
5 SS Connection point for the PWM soft start capacitor 0 8 V
6
7
8 RAMP 2
9 DC I
10 GND Ground
11 PWM OUT PWM driver output 0 VCC V
Current sense input to the PFC current limit comparator -5 0.7 V
SENSE
Input for PFC RMS line voltage compensation 0 6 V
RMS
VDC
RAMP 1
(RTCT)
(PWM RAMP)
LIMIT
PWM voltage feedback input 0 8 V
Oscillator timing node; timing set by RT CT 1.2 3.9 V
When in current mode, this pin functions as the current sense input; when in voltage mode, it is the PWM input from PFC output (feed forward ramp).
PWM current limit comparator input 0 1 V
0 6 V
12 PFC OUT PFC driver output 0 VCC V
13 VCC Positive supply 10 15 18 V
14 V
15 VFB PFC transconductance voltage error amplifier input 0 2.5 3 V
16 VEAO
Buffered output for the internal 7.5V reference 7.5 V
REF
PFC transconductance voltage error amplifier output
0 6 V
2008/10/23 Rev. 2.1 Champion Microelectronic Corporation Page 2
LOW START-UP CURRENT PFC/PWM CONTROLLER COMBO
BLOCK DIAGRAM (CM6800)
16
3.5K
GMi
+
-
IEAO
.
OSCILLATOR
15
2
4
3
7
8
VFB
IAC
VRMS
ISENSE
RAMP1
RAMP2
2.5V
GMv
-
+
VEAO
0.3V
.
GAIN
MODULATOR
350
SW SPST
-
+
LOW POWER DETECT
3.5K
1
VCC
17.9V
0.5V
PFC CMP
+
-
VCC OVP
+
-
TRI-FAULT
-
+
DUTY CYCLE
2.75V
LIMIT
-1V
PFC OVP
+
.
-
+
-
PFC ILIMIT
PWM DUTY
SRQ
SRQ
REFERENCE
Q
Q
CM6800
13
VCC
7.5V
CLK
PFCOUT
PWMOUT
VREF
POWER FACTOR CORRECTOR
MPPFC
VCC
PFC OUT
MNPFC
GND
14
12
PWM
-
CMP
+
SS CMP
-
+
VDC
6
SS
5
DC ILIMIT
9
Vcc
20uA
VREF
350
1.5V
SW SPST
SW SPST SW SPST
ORDERING INFORMATION
Part Number Temperature Range Package
CM6800GIP
CM6800GIS
CM6800XIP*
CM6800XIS*
*Note:
G : Suffix for Pb Free Product
X : Suffix for Halogen Free Product
VFB
-
2.45V
+
VIN OK
-40 to 125
-40 to 125
-40 to 125
-40 to 125
VCC
MPPWM
SRQ
.
1.0V
-
+
DC ILIMIT
SRQ
VCC
Q
UVLO
PWM OUT
MNPWM
GND
PULSE WIDTH MODULATOR
GND
11
10
16-Pin PDIP (P16)
16-Pin Wide SOP (S16)
16-Pin PDIP (P16)
16-Pin Wide SOP (S16)
2008/10/23 Rev. 2.1 Champion Microelectronic Corporation Page 3
CM6800
μ
μ
μ
μ
μ
μ
LOW START-UP CURRENT PFC/PWM CONTROLLER COMBO
ABSOLUTE MAXIMUM RATINGS
Absolute Maximum ratings are those values beyond which the device could be permanently damaged.
Parameter Min. Max. Units
VCC 20 V IEAO 0 7.5 V I
Voltage -5 0.7 V
SENSE
PFC OUT
PWMOUT
Voltage on Any Other Pin I
10 mA
REF
IAC Input Current 1 mA Peak PFC OUT Current, Source or Sink 1 A Peak PWM OUT Current, Source or Sink 1 A
PFC OUT, PWM OUT Energy Per Cycle 1.5
Junction Temperature 150
Storage Temperature Range -65 150
Operating Temperature Range -40 125
Lead Temperature (Soldering, 10 sec) 260
Thermal Resistance (θJA) Plastic DIP Plastic SOIC
Power Dissipation (PD) TA<50℃
ELECTRICAL CHARACTERISTICS Unless otherwise stated, these specifications apply Vcc=+15V, R
= 30.16kΩ, C
Symbol Parameter Test Conditions
Input Voltage Range 0 6 V
Transconductance
Feedback Reference Voltage 2.45 2.5 2.55 V
Input Bias Current Note 2 -1.0 -0.05
Output High Voltage 5.8 6.0 V
Output Low Voltage 0.1 0.4 V
Sink Current VFB = 3V, VEAO = 6V -35 -20
Source Current VFB = 1.5V, VEAO = 1.5V 30 40
Open Loop Gain 50 60 dB
Power Supply Rejection Ratio 11V < VCC < 16.5V 50 60 dB
Input Voltage Range -1.5 0.7 V
Transconductance
Output High Voltage 4.0 4.25 V
Output Low Voltage 1.0 1.2 V
2008/10/23 Rev. 2.1 Champion Microelectronic Corporation Page 4
=1000pF, TA=Operating Temperature Range (Note 1)
T
Voltage Error Amplifier (gmv)
V
= V
NONINV
Current Error Amplifier (gmi)
V
NONINV
Input Offset Voltage -25 25 mV
INV
at room temp
= V
INV
at room temp
GND – 0.3 VCC + 0.3 V GND – 0.3 VCC + 0.3 V
GND – 0.3 VCC + 0.3 V
800 mW
, VEAO = 3.75V
, VEAO = 3.75V
80
105
CM6800
Min. Typ. Max.
50 70 90
50 85 100
J
/W
/W
Unit
mho
A
A
A
mho
T
CM6800
μ
μ
LOW START-UP CURRENT PFC/PWM CONTROLLER COMBO
ELECTRICAL CHARACTERISTICS (Conti.) Unless otherwise stated, these specifications apply
Vcc=+15V, RT = 30.16kΩ, CT =1000pF, TA=Operating Temperature Range (Note 1)
Symbol Parameter Test Conditions
Sink Current I
Source Current I
= +0.5V, IEAO = 4.0V -65 -35
SENSE
= -0.5V, IEAO = 1.5V 35 75
SENSE
Min. Typ. Max.
Open Loop Gain 60 70 dB
Power Supply Rejection Ratio 11V < VCC < 16.5V 60 75 dB
PFC OVP Comparator
Threshold Voltage 2.70 2.77 2.85 V
Hysteresis 230 290 mV
Low Power Detect Comparator
Threshold Voltage 0.2 0.3 0.4 V
VCC OVP Comparator
Threshold Voltage 17.5 17.9 18.5 V
Hysteresis 1.40 1.5 1.65 V
Tri-Fault Detect
Fault Detect HIGH 2.65 2.75 2.85 V
Time to Fault Detect HIGH VFB=V
FAULT DETECT LOW
V
=OPEN.470pF from VFB to GND
FB
to
2 4 ms
Fault Detect LOW 0.4 0.5 0.6 V
PFC I
Comparator
LIMIT
Threshold Voltage -1.10 -1.00 -0.90 V
(PFC I
LIMIT VTH
Output)
– Gain Modulator
20 100 mV
Delay to Output (Note 4) Overdrive Voltage = -100mV 250 ns
DC I
Comparator
LIMIT
Threshold Voltage 0.95 1.0 1.05 V
Delay to Output (Note 4) Overdrive Voltage = 100mV 250 ns
VIN OK Comparator
OK Threshold Voltage 2.35 2.45 2.55 V
Hysteresis 0.95 1.2 1.4 V
GAIN Modulator
Gain (Note 3)
Bandwidth
Output Voltage =
3.5K*(I
SENSE-IOFFSET
= 100μA, V
I
AC
at room temp
= 100μA, V
I
AC
at room temp
= 150μA, V
I
AC
at room temp
= 300μA, V
I
AC
at room temp I
AC
I
= 250μA, V
AC
)
=0, VFB = 1V
RMS
= 1.1V, VFB = 1V
RMS
= 1.8V, VFB = 1V
RMS
= 3.3V, VFB = 1V
RMS
= 100μA
= 1.1V, VFB = 1V
RMS
0.70 0.84 0.95
1.80 2.00 2.20
0.90 1.00 1.10
0.25 0.32 0.40
0.84 0.90 0.95 V
CM6800
10 MHz
Unit
A
A
2008/10/23 Rev. 2.1 Champion Microelectronic Corporation Page 5
CM6800
μ
LOW START-UP CURRENT PFC/PWM CONTROLLER COMBO
ELECTRICAL CHARACTERISTICS (Conti.) Unless otherwise stated, these specifications apply
Vcc=+15V, RT = 30.16kΩ, CT =1000pF, TA=Operating Temperature Range (Note 1)
Symbol Parameter Test Conditions
Min. Typ. Max.
Oscillator
Initial Accuracy
A
60 70 kHz
= 25
T
Voltage Stability 11V < VCC < 16.5V 1 %
Temperature Stability 2 %
Total Variation Line, Temp 52 74 kHz
Ramp Valley to Peak Voltage 2.5 V
PFC Dead Time (Note 4) 360 640 ns
CT Discharge Current V
RAMP2
= 0V, V
= 2.5V 6.5 15 mA
RAMP1
Reference
Output Voltage
= 25, I(V
T
A
) = 1mA
REF
7.4 7.5 7.6 V
Line Regulation 11V < VCC < 16.5V 10 25 mV
Load Regulation
0mA < I(V
0mA < I(V
) < 7mA; TA = 0℃~70℃
REF
) < 5mA; TA = -40℃~85℃
REF
Temperature Stability 0.4 %
Total Variation Line, Load, Temp 7.35 7.65 V
= 125, 1000HRs
T
Long Term Stability
J
PFC
Minimum Duty Cycle V
Maximum Duty Cycle V
I
Output Low Rdson
I
I
Output High Rdson
I
OUT
= -20mA at room temp 15 ohm
OUT
= -100mA at room temp 15 ohm
OUT
= 10mA, VCC = 9V at room temp 0.4 0.8 V
= 20mA at room temp 15 20 ohm
OUT
I
= 100mA at room temp 15 20 ohm
OUT
> 4.0V 0 %
IEAO
< 1.2V 92 95 %
IEAO
Rise/Fall Time (Note 4) CL = 1000pF 50 ns
PWM
Duty Cycle Range 0-43 0-47 0-49 %
I
Output Low Rdson
I
I
Output High Rdson
= -20mA at room temp 15 ohm
OUT
= -100mA at room temp 15 ohm
OUT
I
= 10mA, VCC = 9V 0.4 0.8 V
OUT
= 20mA at room temp 15 20 ohm
OUT
I
= 100mA at room temp 15 20 ohm
OUT
Rise/Fall Time (Note 4) CL = 1000pF 50 ns
PWM Comparator Level Shift 1.4 1.55 1.7 V
Supply
Start-Up Current VCC = 12V, CL = 0 at room temp 100 150
Operating Current 14V, CL = 0 3.0 7.0 mA
Undervoltage Lockout Threshold CM6800 12.74 13 13.26 V
Undervoltage Lockout Hysteresis CM6800 2.85 3.0 3.15 V
Note 1: Limits are guaranteed by 100% testing, sampling, or correlation with worst-case test conditions.
Note 2: Includes all bias currents to other circuits connected to the V
Note 3: Gain = K x 5.375V; K = (I
SENSE
– I
) x [IAC (VEAO – 0.625)]-1; VEAO
OFFSET
FB
pin.
MAX
= 6V
Note 4: Guaranteed by design, not 100% production test.
CM6800
Unit
10 20 mV
10 20 mV
5 25 mV
A
2008/10/23 Rev. 2.1 Champion Microelectronic Corporation Page 6
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