CHAMP CM6900GIS Resonant controller Datasheet

CM6900G
Resonant Controller
GENERAL DESCRIPTION
FEATURES
CM6900G is resonant controller tailor for series z
Supply Voltage Range : 10V to 15V.
topology with synchronous operation to achieve z
Typical Peak Drive from 12V supply : (PMOS~200 ohm
high efficiency to meet today’s power need. It is
and NMOS~100 ohm).
used
UVLO=13V with 3V Hystetesis.
for
DC-DC
conversion
in
the
offline z
application. Light load regulation is accomplished z
Reference OK Comparator.
by transitioning the controller from frequency z
FM/PWM Mode Operation.
modulation mode into PWM mode.
z
Softstart Capability with Shutdown Function.
z
Latch or Auto-Restart during Current Limit or OVP.
APPLICATIONS
z
DC-DC Power Supply.
z
LED Lighting Power Supply
z
Server Power
z
Industrial Power Supply
z
High Power Adaptor
CM6900G Pin Configuration
ORDERING INFORMATION
Part Number
Temperature Range
Package
CM6900GIS
-40℃ to 125℃
16-Pin SOIC (S016)
*Note: G : Suffix for Pb Free Product
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 1
CM6900G
Resonant Controller
TYPICAL APPLCATION CIRCUIT
+VDC
2
2
1
HS3
HS
1
1
CMT08N50
2
1
Q12
R43
10Ω
2
HS2
HS
D10 SCD14
DRVH
C30
100pF/1KV
R44
47KΩ
24VSY NDRVL
Lp(2.5mH)
L4
C31
T4
R45 47KΩ
CMT60N06
2
DRVHGND
200uh/RM8
L5
13
68nF/630V
D11 SCD14
C32
47nF/630V
Q14
CMT08N50
0.8uH/10A
14
R46
10Ω
+24V
Q13
1
15
24VSY NDRVH
DRVL
C35
0.1uF/63V
CMT60N06
C37
100pF/1KV
R49
47KΩ
16
ERL-35
+ C33
+ C34
C36
1000uF/35V
1000uF/35V
0.1uF/63V 0.1uF/63V
C47
R47 47KΩ
Q15
9
L6
Q16
10
+12V
24VSY NDRVL
SI4856ADY
2uH/3A
11
C40
0.1uF/63V
12
+ C38
+ C39
1000uF/16V
1000uF/16V
C41
0.1uF/63V
Q17
D12
T5
IPLIMIT
3
SI4856ADY
1
BAV99
C42
470nF/25V
R50
330Ω 1/4W
24VSY NDRVH
2
4
D13
CT-UU-9.8
BAV99
+24V
+24V
CN2
8
7
6
5
4
3
2
1
CN3
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
CN2.54-P10
+12V
8
7
6
5
4
3
2
1
5VSB
CN4
6
5
4
3
2
1
CN5
6
5
4
3
2
1
6
5
4
3
2
1
CN2.54-P6
CN2.54-P10
CN6
6
5
4
3
2
1
2
1
2
1
ENABLE
CN2.54-P6
12VS
Q18
BC817
C44
+ C43
T6
100uF/25V
5
2.2uF/63V
DRVH
Q20
BC807
6
3
DRVHGND
12VS
+12V
+24V
+12V
12VS
2
Q24
BC817
D14
R53
6.8KΩ
7
R54
15K
8
SCD12
R55
390Ω
U6
1
2
3
VREF
C50
4
5
R64
6.8KΩ
6
10nF/25V
7
SD
R57
910Ω
EE19
Q25
R56
620Ω
C49
R70
100KΩ
C51
470pF/25VN
R63
150K
1uF/16V
R65
4.7KΩ
R66 R67
33KΩ
NC
R68
NC
R69
240KΩ
8
C52
104pF
C53
0.1uF/25V
R71
R72
13KΩ
1KΩ
BC807
12VS
Rset
VREF
VFB
VCC
FEAO
PRIDRV
D_IN-
PRIDRVB
D_IN+
SRDRV
DEAO
SRDRVB
CSS
Ilim
GND
RT/CT
CM6900
C54
0.1uF/25V
16
VREF
15
12VS
14
Q19
BC817
13
12
R51
11
10
4.7Ω 1/4W
24VSY NDRVH
R73
9
12VS
VREF
Q22
BC807
39KΩ
C55
820pF/25VN
IPLIMIT
C56
0.1uF/25V
12VS
Q21
BC817
R52
4.7Ω 1/4W
24VSY NDRVL
Q23
BC807
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 2
DRVL
CM6900G
Resonant Controller
PIN DESCRIPTION
Pin
No.
Symbol
1
RSET
2
VFB
3
FEAO
Description
External resistor which convert FEAO voltage signal into current
Operating Voltage
Min. Typ. Max. Unit
0
5.5
V
3
V
signal for frequency modulation.
Non-inverting input into resonant error amplifier and OVP input.
0
2.5
Resonant error amplifier output and compensation node for
0
5.5
V
frequency modulation control.
4
D_IN-
Inverting input into PWM error amplifier.
0
6
V
5
D_IN+
Non-inverting input into PWM error amplifier.
0
6
V
6
DEAO
PWM error amplifier output and compensation node for PWM
0
4.5
V
0
5.5
V
1.25
V
1.2
3
V
control.
Soft start for FM/PWM operation with 1V enable threshold. Also,
7
CSS
8
ILIM
9
RTCT
Oscillator timing components which set the minimum frequency.
10
GND
Ground
11
SDRVB
Synchronous MOSFET driver output.
-0.3
VCC
V
12
SDRV
Synchronous MOSFET driver output.
-0.3
VCC
V
13
PRIDRV
Primary side MOSFET driver output.
-0.3
VCC
V
14
PRIDRVB
Primary side MOSFET driver output.
-0.3
VCC
V
15
VCC
Positive supply for the IC
10
17.5
V
16
VREF
2007/11/22 Rev1.0
use for auto-restart operation during current limit.
Input to current comparator with 1V threshold.
Buffered output for the 7.5V voltage reference
Champion Microelectronic Corporation
0
1
15
7.5
V
Page 3
CM6900G
Resonant Controller
BLOCK DIAGRAM
FEAO
VCC
UVLO/REF
VFB
VREF
GND
+
V To I
-
2.5V
RSET
D_IN-
+
OVP
1.25V
-
2.9V
+
D_IN+
DEAO
+
PRIDRV
+
VCC
PRIDRVB
Logic
SRDRV
CSS
+
SHDN
1V
SRDRVB
ILIM
+
ILim
RT CT
OSC
CLK
-
1V
ABSOULTE MAXIMUM RATINGS (TA=25℃, unless otherwise specified.)
The following ratings designate persistent limits beyond which damage to the device may occur.
Symbol
Parameter
Value
Unit
-0.3 to 20
V
VCC
DC Supply Voltage
SRDRV
SRDRV Voltage
-0.3 to VCC+0.3
V
SRDRVB
SRDRVB Voltage
-0.3 to VCC+0.3
V
PRIDRV
PRIDRV Voltage
-0.3 to VCC+0.3
V
PRIDRVB
PRIDRVB Voltage
-0.3 to VCC+0.3
V
VREF
VREF Voltage
-0.3 to 7.5
V
RTCT
RTCT Voltage
-0.3 to VREF+0.3
V
VILIM
VILIM Voltage
-0.3 to VREF+0.3
V
CSS
CSS Voltage
-0.3 to VREF+0.3
V
DEAO
PWM Error Amplifier Output Voltage
-0.3 to VREF+0.3
V
D_IN+
Non-Inverting Input Into PWM Error Amplifier Voltage
-0.3 to VREF+0.3
V
FEAO
Resonant Error Amplifier Output Voltage
-0.3 to VREF+0.3
V
VFB
Non-Inverting Input Into Resonant Error Amplifier Voltage
-0.3 to VREF+0.3
V
RSET
V to I Voltage
-0.3 to VREF+0.3
V
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 4
CM6900G
Resonant Controller
ELECTRICAL CHARACTERISTICS
(VCC=12V, RTCT Freq. =100 KHz, Duty Cycle=50% , Temp=25 degree C, unless otherwise specified.)
Parameter
Symbol
Conditions
Min.
Typ.
Max.
Unit
7.4
7.5
7.6
V
VREF (pin 16)
Reference Voltage
VREF
TA=25’C; Iref=1mA
Line Regulation
11V < Vcc < 16.5V
10
25
mV
Load Regulation
0mA < Iref < 7.5mA
10
25
mV
13
13.5
V
3.5
V
VCC (pin 15)
VCC Start up voltage
Vstart
12.5
UVLO Hysteresics
Hyst
3
Operating Current
ICC
1
mA
PRIDRV,PRIDRVB,SRDRV,SRDRVB (pin 11,12,13 and 14)
Output Low Voltage
Vol
Isrdrv=-6mA
Output High Voltage
Voh
Isrdrv=+6mA
Iout peak source current
0.6
V
10.8
V
Iout
0.12
A
Iout peak sink current
Iout
0.12
A
PMOS Rdson
Rout
200.0
250.0
Ohm
NMOS Rdson
Rout
100.0
150.0
Ohm
TDead
400
ns
Tdelay
500
ns
Tdelay
500
ns
Dead Time between
PRIDRV and PRIDRVB
Rising Edge Delay Between
PRIDRV and SRDRV
Falling Edge Delay Between
SRDRV and PRIDRV
Duty Cycle Range
9.6
1.2
0
50
%
1.1
V
ILIM (pin 8)
Threshold Voltage
Vth
0.9
1
CSS (pin 7)
Soft Start Current
Iss
Enable Voltage
Ven
Enable Hysteresis
Auto-restart Upper
Threshold
Auto-restart Lower
Threshold
2007/11/22 Rev1.0
7.5
0.9
Vhyst
Vup
1.0
uA
1.1
75
4.85
Vlw
Champion Microelectronic Corporation
5.0
V
mV
5.15
1-Vhyst
V
V
Page 5
CM6900G
Resonant Controller
ELECTRICAL CHARACTERISTICS
(VCC=12V, RTCT Freq. =100 KHz, Duty Cycle=50% , Temp=25 degree C, unless otherwise specified.)
Parameter
Symbol
Conditions
Min.
Typ.
Max.
Unit
6
V
FEAO Resonant Error Amplifier (pin 3)
Input Voltage Range
Transconductance
Gm
135
Feedback Reference Voltage
umho
2.45
2.5
-1
-0.5
uA
Output High Voltage
5.5+VBE
V
Output Low Voltage
0.1
Sink Current
-15
uA
Source Current
15
uA
Open Loop Gain
60
dB
Input Bias Current
2.55
0.4
V
V
DEAO PWM Error Amplifier (pin 6)
Input Voltage Range
Transconductance
6
Gm
V
135
umho
-0.5
uA
Output Voltage High
3+VBE
V
Output Voltage Low
0.1
Sink Current
-15
uA
Source Current
15
uA
Open Loop Gain
60
dB
Input Bias Current
-1.0
0.4
V
RTCT Oscillator;RT=61K;CT=470pF (pin 8)
Initial Accuracy
TA=25’C
Volatge Stability
11V < Vcc < 16.5V
95
100
105
Khz
1
%
Temperature Stability
2
%
Ramp Valley to Peak Voltage
2
V
350
nS
CT Discharge Time
Maxmum Duty cycle
DEAO > 3.0V
50
%
Minimum Duty Cycle
DEAO < 1.2V
0
%
2.94
V
17.5
V
VFB OVP Comparator
Threshold Voltage
VCC OVP Comparator
Input Voltage Range
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 6
CM6900G
Resonant Controller
Timing Diagram
Dead Time
PRIDRVB
PRIDRV
Delay Time
Delay Time
SRDRVB
SRDRV
Oscillator
The oscillator frequency is determined by the values of RT and CT.
fosc = 1 / (tRAMP + t DEADTIME)
tRAMP = RT * CT * ln((VREF + ICHG*RT -1.25)/(VREF + ICHG*RT -3)) where ICHG = 4*(FEAO-VBE)/RSET
tDEADTIME = 2.125V/2.5mA * CT = 850 * CT
Resonant Section
FM Modulator
Frequency modulation of the resonant controller section is accomplished by controlling the charging current of the
oscillator through resonant error amplifier. The frequency of the resonant section is ½ of the oscillator frequency.
Compensation is accomplished by connecting R and C in series to the FEAO pin.
ICHG = 4*(FEAO-VBE)/RSET
ICHG(max) = 20V/RSET
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 7
CM6900G
Resonant Controller
Vref
RT
VFB
+
V To I
2.5V
OSC
-
CT
RSET
PWM Section
Pulse Width Modulator
PWM control is used in voltage mode. In Applicaton1, when FEAO is equal to the external reference voltage at
D_IN+ due to light load, the frequency of the oscillator is fixed at a value determined by the voltage at FEAO, and
the controller enters into PWM mode. In this mode, both frequency modulator and pulse width modulator are active.
In Application 2 ,the offset voltage Vos is externally generated between the VFB pin and D_IN- through a resistor
network Rf1, Rf2 and Rf3 in order to separate the interaction between FM mode and PWM mode.
Vos = 2.5V×Rf2/Rf3
When the output load is reduced to a point where FEAO is railed to its maximum value of 5V+ VBE, the frequency is
fixed at a value determined by 5V+VBE. Further reduction in load will cause the controller to go into PWM mode
when the voltage at the VFB pin is 2.5V+Vos. During this light load operation, FM error amplifier is in open-loop
mode while PWM is in closed-loop mode. Compensation is accomplished by connecting R and C in series to the
DEAO pin.
In Application 3 , low gain configuration accomplished by connecting Rf4 and Rf5 in the closed loop
configuration . The gain for the PWM is determined by Rf4 and Rf5 where the gain is equal to -Rf5/Rf4. The voltage
of VRset at which the controller goes into FM and PWM simultaneously is equal to :
VRset = D_IN+ × (1+Rf4/Rf5) - (Rf4/Rf5) × 3 where 3 is the peak voltage of RTCT
Varyin Rset from VRset to VRset + 1.75 × Rf4/Rf5 will cause the duty cycle to vary from 50% to 0% while the
frequency will vary propotionally according to 1.75*Rf4/Rf5 where 1.75 is the peak-to-peak voltage of the RTCT
ramp. For proper operation, select Rf5 value so that the current through Rf5 {((D_IN+) - 1.2)/Rf5} should be less
than 5uA.
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 8
CM6900G
Resonant Controller
Vout
Rf1
RT
VFB
Rf3
Vout
Vref
Application 1
+
2.5V
Rf1
RT
VFB
FEAO
V To I
+
FEAO
OSC
-
CT
Vref
Application 2
Rf2
2.5V
V To I
OSC
-
CT
RSET
RSET
Vref
D_IN-
DEAO
D_IN+
+
DEAO
D_IN+
-
+
D_IN-
PWM
PWM
+
+
Rf3
RT CT
RT CT
Vout
Application 3
Vref
Rf1
RT
VFB
Rf3
2.5V
+
FEAO
V To I
OSC
-
CT
RSET
Rf4
Vref
Rf5
D_IN-
DEAO
D_IN+
+
PWM
+
RT CT
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 9
CM6900G
Resonant Controller
Soft Start and Enable
Soft start of the FM and PWM is controlled by the selection of the external capacitor at CSS pin. A current source
of 8uA supplies the charging current for the capacitor. Soft start of the FM and PWM begins at 1.25V. The soft start
pin CSS also serves as an enable function. The output drivers are enabled when CSS pin reached 1V.
Auto-retry Mode
During normal operation, CSS pin will be charged to 5.5V + VBE. When VFB exceeds 2.93V due to OVP or ILIM
exceeds 1V due to over current condition, output drivers are immediate set to low , and CSS begins to discharge
with 3.3uA current source. When CSS pin is below 0.9V, 8uA current source start charging the CSS pin. When
CSS pin reaches 1V, the output drivers are re-enable and the controller goes into soft start mode. If OVP or over
current condition still exists then, the outputs are immediately disabled, but CSS continues to charge toward 5V.
When CSS reaches 5V, 8uA charging current is disabled and 3.3uA current source begins to discharge the CSS,
and the cycle repeat until OVP or over current condition is removed.
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 10
CM6900G
Resonant Controller
PACKAGE DIMENSION
16-PIN PSOP (PS16)
θ
θ
2007/11/22 Rev1.0
Champion Microelectronic Corporation
Page 11
CM6900G
Resonant Controller
IMPORTANT NOTICE
Champion Microelectronic Corporation (CMC) reserves the right to make changes to its products or to discontinue any integrated
circuit product or service without notice, and advises its customers to obtain the latest version of relevant information to verify,
before placing orders, that the information being relied on is current.
A few applications using integrated circuit products may involve potential risks of death, personal injury, or severe property or
environmental damage. CMC integrated circuit products are not designed, intended, authorized, or warranted to be suitable for
use in life-support applications, devices or systems or other critical applications. Use of CMC products in such applications is
understood to be fully at the risk of the customer. In order to minimize risks associated with the customer’s applications, the
customer should provide adequate design and operating safeguards.
CMC assumes to no liability to customer product design or application support. CMC warrants the performance of its products to
the specifications applicable at the time of sale.
HsinChu Headquarter
Sales & Marketing
5F, No. 11, Park Avenue II,
Science-Based Industrial Park,
HsinChu City, Taiwan
T E L : +886-3-5679979
F A X : +886-3-5679909
7F-6, No.32, Sec. 1, Chenggong Rd.,
Nangang District, Taipei City 115,
Taiwan, R.O.C.
2007/11/22 Rev1.0
T E L : +886-2-2788 0558
F A X : +886-2-2788 2985
Champion Microelectronic Corporation
Page 12