ETC SG6849-65T

Product Specification
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
SG6849
FEATURES
Linearly Decreasing PWM Frequency
Green-Mode under Light-Load and Zero-Load
Conditions
Constant Voltage (CV) and Constant Current (CC)
No Secondary Feedback
Low Startup Current (5uA)
Low Operating Current (3.6mA)
Leading-Edge Blanking
Constant Power Limit
Universal AC Input Range
Synchronized Slope Compensation
150°C OTP Sensor with Hysteresis
VDD Over Voltage Clamping
Cycle-by-Cycle Current Limiting
Under Voltage Lockout (UVLO)
Fixed PWM Frequency (65kHz/100kHz)
Gate Output Maximum Voltage Clamped at 16.7V
Small SOT-26 Package
APPLICATIONS
Low-power flyback power converters, such as
Battery chargers for cellular phones, cordless phones,
PDAs, digital cameras, and power tools.
Power adapters for ink jet printers, video game
consoles, and portable audio players.
Open-frame SMPS for TV/DVD standby and other
auxiliary supplies, home appliances, consumer
electronics, and PC 5V standby-power.
Replacements for linear transformers and RCC
SMPS.
DESCRIPTION
This highly integrated PWM controller provides several
features to enhance the performance of low power flyback
converters. To minimize standby power consumption, the
proprietary green-mode function provides off-time
modulation to linearly decrease the switching frequency
under light-load and zero-load conditions. This
green-mode function enables the power supply to easily
meet international power conservation requirements. The
supply voltage VDD is also used for feedback
compensation, to regulate the output voltage without
requiring a conventional TL431 and a photo-coupler.
Another advantage of the SG6849 is that the typical
startup current is only 5uA, while the typical operating
current can be as low as 3.6mA. A large startup resistance
could be used to achieve even higher power conversion
efficiency. Built-in synchronized slope compensation
maintains the stability of peak current-mode control.
Proprietary internal compensation ensures constant output
power limiting over a universal range of AC input
voltages, from 90VAC to 264VAC.The SG6849 provides
many protection functions. Pulse-by-pulse current
limiting ensures a constant output current, even if a short
circuit occurs. Also, the internal protection circuit will
disable PWM output, if VDD exceeds 22.7V. The gate
output is clamped at 16.7V to protect the power MOS
from over-voltage damage. The built-in over temperature
protection (OTP) function will shutdown the controller at
150°C with a 20°C hysteresis. The SG6849 is designed to
provide a low-cost total solution for flyback converters. It
is available in a small footprint, 6-pin, SOT-26 package.
TYPICAL IC APPLICATION
V IN
DO
R IN
D1
VDD
G ATE
C IN
VO
W AU X
Q1
SE NSE
GN D
© System General Corp.
Version 1.0(IRO33.0002.B3)
CO
RS
-1-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
MARKING INFORMATION
PIN CONFIGURATION
SOT-26
M: Mask Version
X: B= SG6849-65T
MXYWW
C= SG6849-100T
Y: Year
1
GND
1
6
GATE
FB
2
5
VDD
NC
3
4
SENSE
WW: Work Week
8
DIP-8
ZZZ: 65 or 100
XXXXXXX: Wafer Lot
SG6849-ZZZD
YY: Year
XXXXXXXYYWWV
WW: Week
V: Assembly Location
1
GATE
1
8
GND
VDD
2
7
FB
NC
3
6
NC
SENSE
4
5
NC
ORDERING INFORMATION
Part Number
PWM Frequency
Package
SG6849-65T
65kHz
6-Pin SOT-26
SG6849-100T
100kHz
6-Pin SOT-26
SG6849-65D
65kHz
8-pin DIP-8
SG6849-100D
100kHz
8-pin DIP-8
PIN DESCRIPTIONS
Name
Pin No.
Type
DIP-8 SOT-26
Function
GATE
1
6
Driver Output The totem-pole output driver to drive the power MOSFET.
VDD
2
5
Supply
NC
3
NA
Power supply.
NC pin.
Current sense. It senses the voltage across a sensed resistor. To provide over-current
SENSE
4
4
NC
5
3
NC
6
NA
Analog Input protection, PWM output is disabled if the voltage exceeds an internal threshold. This pin
also provides current information for current-mode control.
NC pin.
NC pin.
Feedback. The FB pin provides feedback information to the internal PWM comparator.
FB
7
2
Analog Input This feedback is used to control the duty cycle. When no feedback is provided, this pin is
GND
8
1
Supply
left open.
© System General Corp.
Version 1.0(IRO33.0002.B3)
Ground.
-2-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
BLOCK DIAGRAM
GND
8(1)
VDD
OTP
SENSE
Internal
Supply
OSC
Driver
S
R
VDD 2(5)
Q
PWM
Comp
VDD
Power
Limiter
Blanking
Circuit
Slope
Compensation
UVLO
OCP
Comp
17V/8V
1(6) GATE
4(4) SENSE
4.5V
Σ
Green
Mode
Controller
VDD
VDDZ
7(2) FB
DIP-8(SOT-26)
© System General Corp.
Version 1.0(IRO33.0002.B3)
-3-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter
VDD
Value
Unit
DC Supply Voltage*
25
V
Zener Clamp
30
V
Zener Current
10
mA
VFB
FB Pin Input Voltage
-0.3 to 7
V
VSENSE
Sense Pin Input Voltage
-0.3 to 7
V
PD
Power Dissipation
300
mW
RθJA
Thermal Resistance (Junction to Air)
RθJC
Thermal Resistance (Junction to Case)
SOT-26
243.3
DIP-8
113.0
SOT-26
115
DIP-8
67.1
°C/W
°C/W
TJ
Operating Junction Temperature
150
°C
TSTG
Storage Temperature Range
-55 to +150
°C
TL
Lead Temperature (Soldering)
20 sec
SOT-26
220
10 sec
DIP-8
260
°C
ESD Capability, Human Body Model
3.0
kV
ESD Capability, Machine Model
300
V
*All voltage values, except differential voltages, are given with respect to the network ground terminal.
OPERATING CONDITIONS
Symbol
Parameter
Value
Unit
VDD
DC Supply Voltage
<22.7
V
TA
Operating Ambient Temperature
-30 to +85
°C
ELECTRICAL CHARACTERISTICS (VDD=15V, TA=25°C)
Feedback Input Section
Symbol
Parameter
IOZ
Zero Duty-Cycle FB Input Current
VFB
Open Loop Voltage
RFB
Input Impedance
VDDZ
VDD Feedback Threshold Voltage*
Test Condition
Min.
Typ.
Max.
Unit
1.15
1.4
mA
4.5
FB Input Current = 0.1mA
V
2.4
kΩ
FB Input Current = 0mA
20
22.7
25
V
FB Input Current = 0.8mA
18
20
22
V
*The feedback input is pulled by a transistor that is controlled by the VDD signal while VDD ≧ VDDZ.
© System General Corp.
Version 1.0(IRO33.0002.B3)
-4-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
Current Sense Section
Symbol
Parameter
TPD
Propagation Delay
Test Condition
Min.
Typ.
Max.
Unit
100
ns
VDD = 20V
0.84
0.89
0.94
V
Current Limiting Valley Threshold Voltage for 65kHz VDD = 15V
0.72
0.77
0.82
V
VDD = 10V
0.58
0.63
0.68
V
VDD = 20V
0.76
0.81
0.86
V
Current Limiting Valley Threshold Voltage for 100kHz VDD = 15V
0.65
0.70
0.75
V
VDD = 10V
0.52
0.57
0.62
V
VTH,VA
TON
VTH,FT
VLIMIT Ramp
TOFF
0.77V
High-Line
Low-Line Sense
Sense Voltage
VTH,VA
Voltage
0V
T1
T2
Oscillator Section
Symbol
Parameter
FOSC
SG6849–65 Frequency
Test Condition
Min.
Typ.
Max.
Unit
60
65
70
kHz
FOSC
SG6849–100 Frequency
92
100
108
kHz
FOSC-G-BK
Green-Mode Burst Back Frequency*
20
25
30
kHz
FOSC-G-OFF
Green-Mode OFF Frequency*
IFB-G-OFF
Green-Mode OFF FB Input Current
FDV
VDD-TH-G
0
kHz
0.9
1.15
VDD-Low Threshold Voltage for Exiting Green-Mode
VDD
VDD
VDD
OFF
OFF+1.0
OFF+1.5
OFF+2.0
Frequency Variation versus VDD Deviation
VDD = 10 to 20V
1.4
mA
2
%
V
*Please see the “Green-Mode Burst Back (FOSC-G-BK) and Green-Mode OFF Frequency (FOSC-G-OFF) vs. VDD” curves.
© System General Corp.
Version 1.0(IRO33.0002.B3)
-5-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
Output Section
Symbol
Parameter
DCYMAX
Maximum Duty Cycle
Test Condition
Bnk
Leading Edge Blanking Time
VOL
Output Voltage Low
VDD = 15V, IO = 10mA
VOH
Output Voltage High
VDD = 15V, IO = 10mA
TR
Rising Time
VDD = 15V, CL = 1nF
Min.
Typ.
Max.
Unit
70
75
80
%
310
ns
1.5
8
V
V
200
ns
TF
Falling Time
VDD = 15V, CL = 1nF
80
VCLAMP
Output Clamp Voltage
VDD = 20V
16.7
18
ns
Typ.
Max.
V
Over Temperature Protection (OTP)
Symbol
Parameter
Temp-Off
Protection Junction Temperature
Test Condition
Temp-Restart
Restart Junction Temperature
Min.
*1
*2
Unit
150
°C
130
°C
*1
When activated, the output is disabled and the latch is turned off.
*2
This is the threshold temperature for enabling the output again and resetting the latch, after over temperature protection has been
activated.
VDD Section
Symbol
Parameter
VDD ON
VDD OFF
IDD ST
Startup Current
IDD OP
Operating Supply Current
VDD CLAMP
Zener Diode Breakdown Voltage
Min.
Typ.
Max.
Unit
Turn-On Threshold Voltage
16
17
18
V
Turn-Off Threshold Voltage
7.5
8
8.5
V
5
30
uA
3.6
6
mA
28
30
V
© System General Corp.
Version 1.0(IRO33.0002.B3)
Test Condition
VDD = 15V
VDD = 15V
GATE is Open
IDD = 10mA
-6-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
TYPICAL CHARACTERISTICS
SG6849-65
Start-Up Current (I DD ST ) vs. Temperature
Operating Supply Current (I DD OP) vs. Temperature
4.5
9.0
4.3
8.0
V DD =15.0V
I DD OP (mA)
ID D ST (uA)
V DD =15.0V
4.0
7.0
6.0
3.8
5.0
3.5
4.0
3.3
3.0
3.0
-40
-25
-10
5
20
35
50
65
80
95
110
125
-40
-25
-10
5
T EMPERATURE (℃)
20
35
50
65
80
95
110
125
T EMPERATURE (℃)
VFB Open Loop Voltage (VFB) vs. Temperature
Maximum Duty Cycle (DCYMAX) vs. Temperature
5.0
80.0
VD D =15.0V
4.8
VD D =15.0V
78.0
V FB (V)
DCY MAX (%)
4.6
4.4
4.2
76.0
74.0
72.0
70.0
4.0
-40
-30
-15
0
25
50
75
100
125
-40
-25
-10
5
T EMPERATURE (℃)
35
50
65
80
95
110
125
T EMPERAT URE (℃)
Valley Threshold Voltage (VTH,VA) vs. Temperature
Oscillator Frequency (F OSC) vs. Temperature
70.0
0.80
0.78
65.0
V DD =15.0V
V TH ,VA (V)
FOSC (kHz)
20
60.0
0.76
V D D =15.0V
0.74
55.0
0.72
50.0
0.70
-40
-25
-10
5
20
35
50
65
80
95
110
-40
125
© System General Corp.
Version 1.0(IRO33.0002.B3)
-25
-10
5
20
35
50
65
80
95
110
125
T EMPERAT URE (℃)
TEMPERAT URE (℃)
-7-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
Turn-On Threshold Voltage (VDD ON) vs.
Temperature
Turn-Off Threshold Voltage (VDD OFF) vs.
Temperature
9.00
18.0
17.5
8.50
VD D OFF (V)
V DD ON (V)
17.0
16.5
8.00
16.0
7.50
15.5
15.0
7.00
-40
-25
-10
5
20
35
50
65
80
95
110
125
-40
-25
-10
5
T EMPERAT URE (℃)
20
35
50
65
80
95
110
125
TEMPERAT URE (℃ )
Green-Mode Burst Back(F OSC-G-BK) and Green-Mode
OFF Frequency(F OSC-G-OFF) vs. VDD
Output Voltage Low (VOL) vs. Temperature
30.0
0.40
FOSC -G- BK
25.0
0.30
FOSC (kHz)
V OL (V)
20.0
0.20
15.0
10.0
0.10
5.0
FOSC- G-OFF
0.00
-40
-25
-10
5
20
35
50
65
80
95
110
125
0.0
8
TEMPERAT URE (℃)
8.5
9
9.5
10
VD D (V)
Valley Threshold Voltage(VTH,VA) vs. VDD
VLIMIT Ramp vs. Duty Cycle
1.00
1.10
0.90
V DD =15.0V
0.80
Vlimit (V)
VTH,VA (V)
1.05
0.70
1.00
0.95
0.60
0.50
0.90
9
10
11
12
13
14
15
16
17
18
19
20
10
V D D (V)
© System General Corp.
Version 1.0(IRO33.0002.B3)
15
20
25
30
35
40
Duty Cycle (%)
-8-
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
OPERATION DESCRIPTION
Over Temperature Protection (OTP)
SG6849 devices integrate many useful functions for low
power switch mode power supplies. The following
descriptions highlight the key features of the SG6849.
The SG6849 has a built-in temperature sensing circuit to
shut down PWM output once the junction temperature
exceeds 150°C. While PWM output is shut down, the VDD
voltage will gradually drop to the UVLO voltage. Some of
the SG6849’s internal circuits will be shut down, and VDD
will gradually start increasing again. When VDD reaches
17V, all the internal circuits, including the temperature
sensing circuit, will start operating normally. If the
junction temperature is still higher than 150°C, the PWM
controller will be shut down immediately. This situation
will continue until the temperature drops below 130°C.
The PWM output will then be turned back on. The
temperature hysteresis window for the OTP circuit is
20°C.
Startup Current
The required startup current is only 5uA. This allows a
high-resistance, low-wattage startup resistor to be used to
supply the controller’s startup power. A 1.5 MΩ/0.25W
startup resistor can be used over a wide input range
(100V-240V AC) with very little power loss.
Operating Current
The operating current is normally 3.6mA. The low
operating current results in higher efficiency and reduces
the required VDD hold-up capacitance. A 10uF/25V VDD
hold-up capacitor can be used over a wide input range
(100V-240V AC) with very little power loss.
Green Mode Operation
The proprietary green-mode function provides off-time
modulation to linearly decrease the switching frequency
under light-load and zero-load conditions. The on-time is
limited to provide better protection against brownouts and
other abnormal conditions.
This green-mode function dramatically reduces power
consumption under light-load and zero-load conditions.
Power supplies using the SG6849 can easily meet
international
restrictions
regarding
standby
power-consumption.
Constant Voltage (CV) and Constant
Current (CC) without Feedback
The SG6849 can tightly regulate the output voltage and
provide over current protection without requiring
secondary-side feedback signals. For improved CV and
CC accuracy, the transformer leakage inductance should
be reduced as much as possible.
© System General Corp.
Version 1.0(IRO33.0002.B3)
VDD Over Voltage Clamping
VDD over voltage clamping is built in to prevent damage
from over-voltage conditions. When VDD exceeds 22.7V,
PWM output is shut down. Over-voltage conditions may
be caused by an open photo-coupler loop or a short circuit
in the output.
Oscillator Operation
The oscillation frequency is fixed at 65kHz for the
SG6849-65, and at 100kHz for the SG6849-100.
Leading Edge Blanking
Each time the power MOSFET is switched on, a turn-on
spike will inevitably occur at the sense-resistor. To avoid
premature termination of the switching pulse, a 310ns
leading-edge blanking time is built in. Conventional RC
filtering is not necessary. During this blanking period, the
current-limit comparator is disabled, and it cannot switch
off the gate drive.
Constant Output Power Limit
When the SENSE voltage across the sense resistor RS
reaches the threshold voltage (around 1.0V), the output
GATE drive will be turned off following a small
-9-
www.sg.com.tw
Dec.29, 2003
Product Specification
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
propagation delay TPD. This propagation delay will
introduce an additional current proportional to
TPD*VIN/LP. The propagation delay is nearly constant
regardless of the input line voltage VIN. Higher input line
voltages will result in larger additional currents. Thus,
under high input-line voltages the output power limit will
be higher than under low input-line voltages.
Over a wide range of AC input voltages, the variation can
be significant. To compensate for this, the threshold
voltage is adjusted by adding a positive ramp. This ramp
signal can vary from 0.77V to 1.05V for SG6849-65 and
0.70 to 1.03V for SG6849-100, and it flattens out at 1.05V
and 1.03V respectively. A smaller threshold voltage
forces the output GATE drive to terminate earlier, thus
reducing total PWM turn-on time and making the output
power equal to that of the low line input. This proprietary
internal compensation feature ensures a constant output
power limit over a wide range of AC input voltages
(90VAC to 264VAC).
SG6849
Gate Output
The SG6849 BiCMOS output stage is a fast totem pole
gate driver. Cross-conduction has been avoided to
minimize heat dissipation, increase efficiency, and
enhance reliability. The output driver is clamped by an
internal 16.7V Zener diode in order to protect the power
MOSFET transistors against any harmful over-voltage
gate signals.
Slope Compensation
The sensed voltage across the current sense resistor is
used for current mode control and pulse-by-pulse current
limiting. The built-in slope compensation function
improves power supply stability. Furthermore, it prevents
sub-harmonic oscillations that normally would occur
because of peak current mode control. A positively sloped,
synchronized ramp is activated by the SG6849 with every
switching cycle. The slope of the ramp is
Under Voltage Lockout (UVLO)
The turn-on/turn-off thresholds of the SG6849 are fixed
internally at 17V/8V. To enable the SG6849 during
startup, the hold-up capacitor must first be charged to 17V
through the startup resistor.
The hold-up capacitor will continue to supply VDD before
energy can be delivered from the auxiliary winding of the
main transformer. VDD must not drop below 8V during
this startup process. This UVLO hysteresis window
ensures that the hold-up capacitor can adequately supply
VDD during startup.
© System General Corp.
Version 1.0(IRO33.0002.B3)
0.33 × Duty .
Duty (max)
Noise Immunity
Noise from the current sense or the control signal may
cause significant pulse width jitter, particularly in
continuous-conduction mode. Slope compensation helps
alleviate this problem. Good placement and layout
practices should be followed. The designer should avoid
long PCB traces and component leads. Compensation and
filter components should be located near the SG6849.
Finally, increasing the power-MOS gate resistance is
advised.
- 10 -
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
REFERENCE CIRCUIT
3W Flyback 5V/0.6A Circuit, without Secondary-Side Feedback
F1
L1
1
1
L
CX1
2
BD1
2 -
+ 4
+
C1
R1
C2
C3
R3
R5
R4
D4
T1
10
2
1
1
L2
VO
2
R2
9
D1
R10
22
8
5
2
3
GATE
FB
VDD
NC
SENSE
+
D5
+
C9
Q1
1
2
GND
6
R7
5
3
1
U4
C7
C8
1
3
1
N
1,2
7
4
3,4
GND
SG6849
R6
R8
D2
1
2
CY1
+
C4
BOM
Symbol
Component
Symbol
Component
BD1
BD 1A/500V
L1
20mH 6*8mm
CX1
(Option)
YC 472pF/400V (Y1)
L2
10uH 6mm
CY1
(Option)
YC 102pF/400V (Y1)
Q1
MOSFET 1A/600V
C2
EC 10uF/400V 105℃
R1,R2
R 750kΩ 1206
C1
CC 103pF/500V
R3,R4
R 47kΩ 1206
C3
CC 1000pF/500V
R5
R 47Ω 1206
C4
EC 10uF/50V
R6
R 4.7Ω 1206
R 100Ω 0805
C7
CC 102pF/100V 1206
R7
C8
(Option)
EC 470uF/10V 105℃
R8
C9
EC 220uF/10V 105℃
R10
R 10Ω 1206
(Option)
R 10Ω 1206
D1
Diode FRI07
T1
EE-16
D2
Diode FR102
U4
IC SG6849 (Green PWM IC)
D4
D5
F1
Diode SB360
(Option)
ZD 6.8V 0.5W
R 1Ω/0.5W
© System General Corp.
Version 1.0(IRO33.0002.B3)
- 11 -
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
3W Flyback 5V/0.6A Circuit, with Secondary-Side Feedback
F1
L1
1
1
2 -
N
2
BD1
+ 4
+
+
C1
C3
R3
R5
R4
C2
T1
10
2
1,2
D4
1
L2
1
Vo
2
3
1
R1
9
D1
R10
22
R7
C7
8
5
1
L
+ C8
+ C9
D5
Q1
3
2
1
7
GND
3,4
R6
1
2
3
C6
U1
SG6849
GND
FB
NC
GATE
VDD
SENSE
R2
6
R8
5
4
D2
1
2
+ C4
R11
U2
4
1
3
2
R13
3
R14
C10
U3
CY1
1
2
R12
BOM
Symbol
Component
Symbol
Component
BD1
(Reference only)
DI106 1A/600V
L2
10uH 6mm
CY1
(Option)
YC 102p/400V
Q1
MOSFET 1A/600V
C2
10uF/400V 10Φ*16mm 105℃
R1,R2
750k 1206
C1
103p/500V (0.01uF/500V)
R4,R3
47k/1206
C3
1000p/500V CER
R5
47 1206
C4
10u/50V 5mm
R6
3.7 1206
C6
472p 0805
R7
100 0805
C7
102p/100V 1206
R10
10 1206
C8
470u/10V 8Φ*11.5mm 105℃
R8
5 1206
C9
470u/10V 8Φ*11.5mm 105℃
R11
100 1/8W
C10
222p 0805
R12
33k 0805
D1
FR107
R13
33k 1/8W
D2
FR102
R14
4.7k 0805
D4
SB360 (3A/60V; Schottky)
T1
EE-16
D5
ZD/6.8V 0.5W
U1
SG6849 (Green PWM IC)
F1
1Ω1/2W Resistor
U2
PC817
L1
20mH 6*8mm
U3
TL431
DI106 1A/600V
L2
10uH 6mm
BD1
(Option)
(Reference only)
© System General Corp.
Version 1.0(IRO33.0002.B3)
- 12 -
www.sg.com.tw
Dec.29, 2003
Product Specification
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
SG6849
PACKAGE INFORMATION
The SOT-26 Package
D
Detail A
b
4
1
e 3
E
E1
6
c
R1
R
θ
A
A2
1
L2
e1
L
A1
θ
L1
θ
1
Detail A
Dimensions:
Symbol
A
A1
A2
b
c
D
E
E1
e
e1
L
L1
L2
R
R1
θ˚
θ1˚
Millimeters
Min.
0.90
0.30
0.08
0.30
0.10
0.10
0˚
5˚
© System General Corp.
Version 1.0(IRO33.0002.B3)
Inches
Typ.
Max.
1.15
1.45
0.15
1.30
0.50
0.22
2.90
2.80
1.60
0.95
1.90
0.45
0.60
0.25
4˚
10˚
Min.
0.036
0.011
0.003
0.60
0.020
0.25
8˚
15˚
0.004
0.004
0˚
5˚
- 13 -
Typ.
Max.
0.045
0.057
0.006
0.051
0.020
0.009
0.114
0.110
0.063
0.037
0.075
0.018
0.024
0.010
4˚
10˚
0.24
0.25
8˚
15˚
www.sg.com.tw
Dec.29, 2003
Product Specification
SG6849
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
The DIP-8 Package
D
Θ°
5
E1
8
B
A
A2
4
A1
1
e
E
L
b1
b
e
Dimensions:
Symbol
A
A1
A2
b
b1
D
E
E1
e
L
eB
θ˚
Millimeter
Min.
Typ.
Inch
Min.
Max.
Typ.
5.334
0.381
3.175
9.017
6.223
2.921
8.509
0
© System General Corp.
Version 1.0(IRO33.0002.B3)
3.302
1.524
0.457
9.271
7.620
6.350
2.540
3.302
9.017
7
Max.
0.210
3.429
0.015
0.125
10.160
0.355
6.477
0.245
3.810
9.525
15
0.115
0.335
0
- 14 -
0.130
0.060
0.018
0.365
0.300
0.250
0.100
0.130
0.355
7
0.135
0.400
0.255
0.150
0.375
15
www.sg.com.tw
Dec.29, 2003
Product Specification
Low-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
SG6849
DISCLAIMERS
LIFE SUPPORT
System General’s products are not designed to be used as components in devices intended to support or sustain human life.
Use of System General’s products in components intended for surgical implant into the body, or other applications in
which the failure of System General’s products could create a situation where personal death or injury may occur, is not
authorized without the express written approval of System General’s Chief Executive Officer. System General will not be
held liable for any damages or claims resulting from the use of its products in medical applications.
MILITARY
System General's products are not designed for use in military applications. Use of System General’s products in military
applications is not authorized without the express written approval of System General’s Chief Executive Officer. System
General will not be held liable for any damages or claims resulting from the use of its products in military applications.
RIGHT TO MAKE CHANGES
System General reserves the right to change this document and/or this product without notice. Customers are advised to
consult their System General sales representative before ordering.
© System General Corp.
Version 1.0(IRO33.0002.B3)
- 15 -
www.sg.com.tw
Dec.29, 2003