FAIRCHILD FS6X0420R

FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ
Fairchild Power Switch (FPS™)
Features
Description
„ Current Mode PWM Control with a Fixed Operating Frequency (300kHz)
The FS6X-Series is specially designed for off-line DC-DC converters with minimal external components. This device combines a current mode PWM controller with a high voltage power
SenseFET in a single package. The PWM controller includes
integrated fixed frequency oscillator, line under voltage lockout,
sleep on/off function, thermal shutdown protection, over voltage
protection, pulse-by-pulse current limit, and temperature compensated precise current sources for a loop compensation.
Compared with the discrete MOSFET and PWM controller solution, the FS6X-Series can reduce total cost, component count,
size, and weight, while simultaneously increasing efficiency,
productivity, and system reliability.
„ Pulse by Pulse Current Limit
„ Over Load Protection
„ Over Voltage Protection
„ Thermal Shutdown
„ Line Under Voltage Detection and Sleep on/off Function
„ Internal High Voltage SenseFET (200V)
„ Supports Forward or Flyback Topology
Applications
„ DC-DC Converter
OUTPUT POWER TABLE(1)
„ PoE Device
Related Application Notes
„ AN4137 - Design Guidelines for Off-line Flyback Converters
Using Fairchild Power Switch (FPS)
„ AN4140 - Transformer Design Consideration for Off-line Flyback Converters using Fairchild Power Switch
PRODUCT
36VDC~72VDC
FS6X0420RJ
14W
FS6X0720RJ
26W
FS6X1220RJ
36W
Table 1. Maximum Output Power
„ AN4141 - Troubleshooting and Design Tips for Fairchild
Power Switch Flyback Applications
Note:
„ AN4148 - Audible Noise Reduction Techniques for FPS
Applications
1. Maximum practical continuous power in an open
frame design at 50°C ambient.
Ordering Information
Part Number
Operating Temp.
Range
Pb-Free
Package
Packing Method
Marking
Code
FS6X0420RJ
-25°C to +85°C
Yes
D2-Pak-6L
Tube
6X0420R
FS6X0720RJ
-25°C to +85°C
Yes
D2-Pak-6L
Tube
6X0720R
FS6X1220RJ
-25°C to +85°C
Yes
D2-Pak-6L
Tube
6X1220R
FS6X0420RJX
-25°C to +85°C
Yes
D2-Pak-6L
Tape & Reel
6X0420R
FS6X0720RJX
-25°C to +85°C
Yes
D2-Pak-6L
Tape & Reel
6X0720R
-25°C to +85°C
Yes
D2-Pak-6L
Tape & Reel
6X1220R
FS6X1220RJX
(2)
Note:
2. X : Tape & Reel
FPSTM is a trademark of Fairchild Semiconductor Corporation
©2006 Fairchild Semiconductor Corporation
FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Rev. 1.0.1
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FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Fairchild Power Switch (FPS™)
March 2006
FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Fairchild Power Switch (FPS™)
Typical Application Diagram
DC
OUT
DC
IN
Drain
PWM
L/S
Vfb
Vcc
GND
Figure 1. Typical Flyback Application
Internal Block Diagram
VLU
Line
Sense
VCC
Drain
3
1
VCC Good
Line
UVLO
9V/15V
6
Enable
Internal
Bias
Vref
VSL
VCC
Idelay
Vref
IFB
OSC
28R
FB 4
S
Q
R
Q
Gate
Driver
R
VSD
VCC
S
Q
R
Q
VOVP
2 GND
VCC Good
TSD
Line UVLO
5
N.C
Figure 2. Functional Block Diagram of FS6X-Series
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D2-PAK-6L
6. Line Sense
5. N.C.
4. Vfb
3. Vcc
2. GND
1. Drain
Figure 3. Pin Configuration (Top View)
Pin Definitions
Pin Number
Pin Name
1
Drain
This pin is the high voltage power SenseFET drain connection.
2
GND
This pin is the control ground and the SenseFET source.
3
Vcc
This pin is the positive supply input. This pin provides internal operating current for both
start-up and steady-state operation.
4
Feedback
(FB)
This pin is internally connected to the inverting input of the PWM comparator. The collector of an opto-coupler is typically tied to this pin. For stable operation, a capacitor should
be placed between this pin and GND. If the voltage of this pin reaches 7.5V, the over load
protection is activated resulting in shutdown of the IC.
5
N.C.
6
Line Sense (LS)
Pin Function Description
This pin is not connected.
According to the voltage of this pin, three operation modes are defined: normal operation
mode, line under voltage lock out mode, and sleep mode. If the voltage of this pin is
smaller than 2.55V, the IC goes into the line under voltage lock out, stopping switching
operation. If the voltage of this pin is smaller than 1.8V, the IC enters into sleep mode.
During sleep mode, reference voltage generation circuit including the shunt regulator is
disabled and only 300uA operation current is required.
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Pin Assignments
(Ta=25°C, unless otherwise specified.)
Parameter
Drain-source Voltage
Pulsed Drain Current (Tc=25°C)(1)
Continuous Drain Current (Tc=25°C)
Continuous Drain Current (Tc=100°C)
Symbol
Value
Unit
VDSS
200
V
IDM
ID
ID
FS6X0420RJ
10.2
FS6X0720RJ
16.2
FS6X1220RJ
23.7
FS6X0420RJ
3.4
FS6X0720RJ
5.4
FS6X1220RJ
12.4
FS6X0420RJ
2.1
FS6X0720RJ
3.4
FS6X1220RJ
7.9
A
A (rms)
A (rms)
Supply Voltage
VCC
35
Input Voltage Range
VFB
-0.3 to VCC
V
43
W
FS6X0420RJ
Total Power Dissipation (Tc=25°C)
PD
FS6X0720RJ
54
FS6X1220RJ
125
Internally limited
°C
TA
-25 to +85
°C
TSTG
-55 to +150
°C
Operating Junction Temperature
Tj
Operating Ambient Temperature
Storage Temperature Range
V
Note:
1. Repetitive rating: Pulse width limited by maximum junction temperature.
Thermal Impedance
Parameter
Junction-to-Ambient Thermal
Junction-to-Case Thermal(1)
Symbol
Value
Unit
θJA
-
°C/W
θJC
FS6X0420RJ
2.9
FS6X0720RJ
2.3
FS6X1220RJ
1.0
°C/W
Note:
1. Infinite cooling condition - Refer to the SEMI G30-88.
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Absolute Maximum Ratings
(Ta=25°C, unless otherwise specified.)
Parameter
Symbol
Min.
Typ
.
Max.
Unit
VGS = 0V, ID = 250μA
200
220
-
V
VDS = 200V, VGS = 0V
-
-
250
μA
VDS = 160V
VGS = 0V, TC = 125°C
-
-
250
μA
-
1.2
1.5
-
0.64
0.75
-
0.24
0.30
-
32
45
-
49
65
-
125
160
270
300
330
kHz
12V ≤ Vcc ≤ 23V
0
1
3
%
-25°C ≤ Ta ≤ 85°C
0
±5
±10
%
Condition
SENSE FET SECTION
Drain Source Breakdown Voltage
BVDSS
Zero Gate Voltage Drain Current
IDSS
FS6X0420RJ
Static Drain Source on Resistance
(1)
RDS(ON)
FS6X0720RJ
VGS = 10V, ID = 2.5A
FS6X1220RJ
FS6X0420RJ
Output Capacitance
FS6X0720RJ
COSS
VGS = 0V
VDS = 25V, f = 1MHz
FS6X1220RJ
Ω
pF
CONTROL SECTION
Initial Frequency
FOSC
Voltage Stability
FSTABLE
-
Temperature Stability (2)
ΔFOSC
Maximum Duty Cycle
DMAX
-
72
80
88
%
Minimum Duty Cycle
DMIN
-
-
-
0
%
Start Threshold Voltage
VSTART
VFB = GND
14
15
16
V
Stop Threshold Voltage
VSTOP
VFB = GND
8
9
10
V
IFB
VFB = GND
0.7
0.9
1.1
mA
1.2
1.4
1.6
2.3
2.7
3.1
2.8
3.2
3.6
23
25
27
V
140
160
-
°C
VFB ≥ 6.9V
6.9
7.5
8.1
V
VFB = 5V
4.0
5.0
6.0
μA
Feedback Source Current
PROTECTION SECTION
Peak Current Limit (3)
FS6X0420RJ
FS6X0720RJ
ILimit
-
FS6X1220RJ
Over Voltage Protection
VOVP
Thermal Shutdown Temperature (2)
TSD
Shutdown Feedback Voltage
VSD
Shutdown Delay Current
VCC > 6.9V
-
IDELAY
A
Notes:
1. Pulse test: Pulse width ≤ 300μS, duty ≤ 2%.
2. These parameters, although guaranteed at the design, are not tested in mass production.
3. These parameters indicate the inductor current.
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Electrical Characteristics
(Ta=25°C, unless otherwise specified.)
Parameter
Symbol
Condition
Min.
Typ
.
Max.
Unit
Istart
VFB = GND, VCC = 14V
-
60
120
uA
V = 1V, VCC = 16V
-
300
500
uA
-
10
15
mA
TOTAL DEVICE SECTION
Startup Current (1)
Sleep Mode Current
ISLEEP
IOP
VFB = GND, VCC = 16V
IOP(MIN)
VFB = GND, VCC = 12V
IOP(MAX)
VFB = GND, VCC = 20V
Line UVLO Threshold Voltage
VLU
-
2.4
2.55
2.7
V
Sleep On/Off Threshold Voltage
VSL
-
1.5
1.8
2.1
V
Operating Supply Current
(1)
Notes:
1. This parameter is the current flowing into the control IC.
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Electrical Characteristics
(These Characteristic Graphs are Normalized at Ta= 25°C.)
[mA]
[V]
11.0
16.0
10.5
15.5
10.0
15.0
9.5
14.5
14.0
9.0
-25
0
25
50
75
100
125
-25
150
0
25
50
75
100
125
150
Temp [℃]
Temp [℃]
Figure 4. Operating Current vs. Temp
Figure 7. Start Threshold Voltage vs. Temp
[V]
[KHz]
9.50
305.0
303.0
9.25
301.0
9.00
299.0
8.75
297.0
295.0
8.50
-25
0
25
50
75
100
125
150
-25
0
25
Temp [℃]
50
75
100
125
150
Temp [℃]
Figure 5. Stop Threshold voltage vs. Temp
Figure 8. Operating Frequency vs. Temp
[%]
[mA]
81.0
1.10
1.05
80.5
1.00
80.0
0.95
0.90
79.5
0.85
79.0
0.80
-25
0
25
50
75
100
125
150
-25
Temp [℃]
25
50
75
100
125
150
Temp [℃]
Figure 6. Maximum Duty vs. Temp
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Figure 9. Feedback Source Current vs. Temp
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Typical Performance Characteristics
(These Characteristic Graphs are Normalized at Ta= 25°C)
[V]
[uA]
7.60
5.3
5.2
7.55
5.1
7.50
5.0
4.9
7.45
4.8
7.40
4.7
-25
0
25
50
75
100
125
150
-25
0
25
Temp [℃]
50
75
100
125
150
Temp [℃]
Figure 10. Shutdown FB Voltage vs. Temp
Figure 13. Shutdown Delay Current vs. Temp
[V]
[V]
26.0
2.7
25.5
2.6
25.0
2.5
24.5
2.4
24.0
2.3
-25
0
25
50
75
100
125
150
-25
0
25
Temp [℃]
50
75
100
125
150
Temp [℃]
Figure 11. Over Voltage Protection vs. Temp
Figure 14. LineUVLO threshold Voltage
vs.Temp
[uA]
[A]
60
3.30
58
3.25
56
3.20
54
3.15
3.10
52
3.05
50
-25
0
25
50
75
100
125
150
3.00
-25
Temp [℃]
Figure 12. Start Up Current vs. Temp
FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Rev. 1.0.1
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25
50
75
100
125
150
Temp [℃]
Figure 15. Current Limit vs. Temp
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Typical Performance Characteristics (Continued)
1. Startup
3. Protection Circuit
To guarantee stable operation of the control IC, Vcc has under
voltage lockout (UVLO) with 6V hysteresis. Figure 16 shows the
relation between the supply current (Icc) and the supply voltage
(Vcc). Before Vcc reaches 15V, the start-up current is 60μA,
which is usually provided by the DC link through start-up resistor. When Vcc reaches 15V, the control IC begins operation and
the operating current increases to 10mA as shown. Once the
control IC starts operation, it continues its normal operation
unless Vcc goes below the stop voltage of 9V.
Besides pulse-by-pulse current limit, the FS6X-Series has the
following self protection functions: over load protection (OLP),
over voltage protection (OVP), and thermal shutdown (TSD).
Because these protection circuits are fully integrated into the IC
without external components, the reliability is improved. In the
event of a fault condition, FS6X-Series enters into auto-restart
operation. Once the fault condition occurs, switching operation
is terminated, and the MOSFET remains off, which causes Vcc
to be reduced. When Vcc reaches 9V, the protection is reset
and the supply current reduces to 60uA. Then, Vcc begin to
increase with the current provided through the start-up resistor.
When Vcc reaches 15V, FS6X-Series resumes its normal operation if the fault condition is removed. In this manner, the autorestart alternately enables and disables the switching of the
power MOSFET until the fault condition is eliminated as illustrated in Figure 18.
Icc
10mA
Vds
60uA
Power
on
Fault
occurs
Fault
removed
Vcc
Vstop=9V
Vstart=15V
Vz
Figure 16. Relation between Supply Current and
Voltage
Vcc
2. Feedback Control
The FS6X-Series employs current mode control. The voltage of
the feedback pin is compared with the current sense voltage for
pulse width modulation (PWM). Figure 17 illustrates the simplified PWM block. The feedback voltage determines the peak
drain current of the SenseFET. Usually, an opto-coupler, along
with the TL431(shunt regulator) are used to implement the feedback network. The collector of the opto-coupler transistor is
connected to the feedback pin and the emitter is connected to
the ground pin. When the voltage of the reference pin of the
TL431 exceeds the internal reference voltage of 2.5V, the optocoupler diode current increases, pulling down the feedback voltage.
15V
9V
Icc
10mA
60uA
Vcc
Vref
5uA
Vfb
Vo
t
0.9mA
Normal
operation
FB
4
OSC
D1
Cfb
Fault
situation
Normal
operation
Figure 18. Auto Restart Operation After Protection
D2
28R
Vfb*
Gate
Driver
R
3.1 Pulse-by-pulse Current Limit
431
VSD
As shown in Figure 17, the drain current of the power MOSFET
is limited by the inverting input of PWM comparator (Vfb*).
Assuming that the 0.9mA current source flows only through the
internal resistor (28R +R= 2.9k), the cathode voltage of diode
D2 is about 2.6V. Since D1 is blocked when the feedback voltage (Vfb) exceeds 2.6V, the maximum voltage of the cathode of
D2 is 2.6V. Therefore, the maximum value of Vfb* is about 0.1V,
which limits the peak value of the power MOSFET drain current.
OLP
Figure 17. Pulse Width Modulation (PWM) Circuit
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Applications Information
switching. To avoid undesired activation of OVP during normal
operation, Vcc should be properly designed to be below 25V.
Overload means that the load current exceeds a pre-set level
due to an abnormal situation. In this situation, the protection circuit should be activated to protect the SMPS (Switch Mode
Power Supplies). However, even when the SMPS is in normal
operation, the over load protection circuit can be activated during the load transition. To avoid this undesired operation, the
over load protection circuit is designed to be activated after a
specified period to determine whether it is a transient situation
or an overload situation. Because of the pulse-by-pulse current
limit capability, the maximum peak current through the SMPS is
limited, and therefore the maximum input power is restricted
with a given input voltage. If the output consumes beyond this
maximum power, the output voltage (Vo) decreases below the
set voltage. This reduces the current through the opto-coupler
diode which also reduces opto-coupler transistor current
increasing Vfb. If Vfb exceeds 2.6V, D1 is blocked and the 5mA
current source starts to charge Cfb slowly compared to when
the 0.9mA current source charges Cfb. In this condition, Vfb
continues increasing until it reaches 7.5V, and the switching
operation is terminated at that time as shown in Figure 19. The
delay time for shutdown is the time required to charge Cfb from
2.6V to 7.5V with 5mA. When Cfb is 10nF (103), T12 is approximately 9.8ms and when Cfb is 0.1mF (104), T12 is approximately 98ms. These values are enough to prevent SMPS from
being shut down during transient situations.
3.4 Thermal Shutdown (TSD)
The thermal shutdown circuitry senses the junction temperature. The threshold is set at 160×C. When the junction temperature rises above this threshold (160×C), the power MOSFET is
disabled.
4. Line UVLO and Sleep Mode
According to the voltage of the Line Sense pin, three operation
modes are defined: normal operation mode, line under voltage
lock out mode, and sleep mode, as shown in Figure 20. When
the voltage of this pin is over 2.55V, FS6X-Series operates in
normal mode. When the voltage of this pin is less than 2.55V, it
goes into line under voltage lock out mode terminating switching
operation. When the voltage of this pin is less than 1.8V, it
enters into sleep mode. During sleep mode, the reference voltage generation circuit, including the shunt regulator, is disabled
and only 300mA operation current is required.
VFB
Vin
Vcc
3
Over load protection
Vcc good
9V/15V
7.5V
R1
VSL
(1.8v)
Sleep
ON OFF
Enable
Vref
Line
Sense
6
2.6V
R2
VLU
(2.5V)
Line UVLO
Internal
Bias
T12= Cfb*(7.5-2.6)/Idelay
T1
T2
t
Figure 20. Line Sense Block
Figure 19. Over Load Protection
3.3 Over Voltage Protection (OVP)
In the case of a malfunction in the secondary side feedback circuit, or feedback loop open caused by a defect of solder, the
current through the opto-coupler transistor becomes almost
zero. Then, Vfb climbs up in a similar manner to the over load
situation, forcing the preset maximum current to be supplied to
the secondary side until the over load protection is activated.
Because more than required energy is provided to the output,
the output voltage may exceed the rated voltage before the over
load protection is activated, resulting in the breakdown of the
devices in the secondary side. To prevent this situation, an over
voltage protection (OVP) circuit is employed. In general, Vcc is
proportional to the output voltage and FS6X-Series uses Vcc
instead of directly monitoring the output voltage. If VCC
exceeds 25V, OVP circuit is activated resulting in termination of
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3.2 Over Load Protection (OLP)
Application
Output power
Input voltage
Output voltage (Max current)
PoE Device
15W
36-72Vdc
5V (3.0A)
Features
„ High switching frequency(300kHz)
„ High power density
„ Low component count
„ Enhanced system reliability through various protection functions
Key Design Notes
„ Capacitor C104 is employed to reduce the noise on sensed line voltage.
„ The delay time for over load protection is designed to be about 12ms with C103 of 22nF. If a faster triggering of OLP is required,
C103 can be reduced to 10nF.
1. Schematic
C301
2.2nF
1kV
DC Input
Voltage:
36Vdc~72Vdc
R301
10Ω
R221
15Ω
R222 R223 C221
15Ω 15Ω 1nF
50V
D201
STOS15L25G
T1 :
EPC19
C101
47uF
100V
R101
200kΩ
R102
100kΩ
C102
22uF
50V
C104
1nF
C201
10nF
50V
D102
1N4148
D103
P6KE160CA
4
GND
R210
1kΩ
IC201
FOD2741
C204
10nF
50V
C203
10nF
50V
L201
2.2uH
Output :
5V / 3A
C205
330uF
16V
R210
1kΩ
C210
R212 10nF
30kΩ 50V
Vfb
IC101
FS6X1220R
C202
10nF
50V
R104
1Ω
3
6
L/S Vcc 1
R105
15kΩ 5
Drain
N.C
2
C222
1nF
50V
C103
22nF
50V
R213
18kΩ
R214
18kΩ
Figure 21. Demo Circuit
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Typical Application Circuit
11
9
10
8
7
6
NVcc
Np/2
Np/1 Np/2
Ns/2
NVcc
Ns/2 Ns/1
Ns/1
Np/1
1
2
3
4
5
Figure 22. Transformer Schematic Diagram
3. Winding Specifications
No
Pin (s→f)
Wire
Turns
Winding Method
1 → 11
φ
0.35 × 1
25
Center Winding
0.4φ × 3
4
Solenoid Winding
0.35φ × 1
25
Center Winding
0.3φ × 1
12
Center Winding
Np/1
Insulation: Polyester Tape t = 0.050mm, 2Layers
6→5
Ns/1
Insulation: Polyester Tape t = 0.050mm, 2Layers
2 → 10
Np/2
Insulation: Polyester Tape t = 0.050mm, 2Layers
9→3
Nvcc
Insulation: Polyester Tape t = 0.050mm, 2Layers
4. Electrical Characteristics
Parameter
Pin
Specification
Remarks
Inductance
1,2 - 10,11
61uH ± 10%
100kHz, 1V
Leakage Inductance
1,2 - 10,11
8.8uH Max
2nd all short
5. Core & Bobbin
„ Core: EPC19
„ Bobbin: EPC19
„ Ae(mm2): 22.7
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FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Fairchild Power Switch (FPS™)
2. Transformer
Part
Value
Note
Part
Value
R101
200K
1/4W
C101
47uF/100V
R102
Electrolytic Capacitor
100K
1/4W
C102
22uF/50V
Electrolytic Capacitor
Resistor
Note
Capacitor
R104
1K
1/4W
C103
22uF/50V
Ceramic Capacitor
R105
18K
1/4W
C104
1nF/50V
Ceramic Capacitor
R210
40K
1/4W
C201
10uF/25V
Ceramic Capacitor
R201
1K
1/4W
C202
10F/25V
Ceramic Capacitor
R211
1K
1/4W
C203
10F/25V
Ceramic Capacitor
R212
30K
1/4W
C204
10F/25V
Ceramic Capacitor
R213
18K
1/4W
C205
330uF/16V
Electrolytic Capacitor
R214
18K
1/4W
C210
10nF/50V
Ceramic Capacitor
R221
15K
1/4W
C221
1nF/50v
Ceramic Capacitor
R222
15K
1/4W
C222
1nF/50v
Ceramic Capacitor
R223
15K
1/4W
C301
2.2nF/1kv
Film
R301
10K
1/4W
-
-
-
-
-
-
-
-
Diode
D102
IC
1N4148
IC101
FS6X1220RJ
FPSTM
D103
P6KE160CA
TVS
IC201
FOD2741
Optocoupler
D201
STPS15L25G
-
-
-
-
-
-
-
-
-
-
-
-
-
L201
2.2uH
-
-
-
-
-
-
-
-
-
-
Inductor
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FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Fairchild Power Switch (FPS™)
6. Demo Circuit Part List
Unit: mm
D2-Pak-6L
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FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Fairchild Power Switch (FPS™)
Mechanical Dimensions
The following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is
not intended to be an exhaustive list of all such trademarks.
ACEx™
FAST®
ActiveArray™
FASTr™
Bottomless™
FPS™
Build it Now™
FRFET™
CoolFET™
GlobalOptoisolator™
CROSSVOLT™ GTO™
DOME™
HiSeC™
EcoSPARK™
I2C™
E2CMOS™
i-Lo™
EnSigna™
ImpliedDisconnect™
FACT™
IntelliMAX™
FACT Quiet Series™
Across the board. Around the world.™
The Power Franchise®
Programmable Active Droop™
ISOPLANAR™
LittleFET™
MICROCOUPLER™
MicroFET™
MicroPak™
MICROWIRE™
MSX™
MSXPro™
OCX™
OCXPro™
OPTOLOGIC®
OPTOPLANAR™
PACMAN™
POP™
Power247™
PowerEdge™
PowerSaver™
PowerTrench®
QFET®
QS™
QT Optoelectronics™
Quiet Series™
RapidConfigure™
RapidConnect™
μSerDes™
ScalarPump™
SILENT SWITCHER®
SMART START™
SPM™
Stealth™
SuperFET™
SuperSOT™-3
SuperSOT™-6
SuperSOT™-8
SyncFET™
TCM™
TinyLogic®
TINYOPTO™
TruTranslation™
UHC™
UltraFET®
UniFET™
VCX™
Wire™
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY
PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY
ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT
CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF FAIRCHILD SEMICONDUCTOR CORPORATION.
As used herein:
2. A critical component is any component of a life
1. Life support devices or systems are devices or
support device or system whose failure to perform can
systems which, (a) are intended for surgical implant into
be reasonably expected to cause the failure of the life
the body, or (b) support or sustain life, or (c) whose
support device or system, or to affect its safety or
failure to perform when properly used in accordance
with instructions for use provided in the labeling, can be
effectiveness.
reasonably expected to result in significant injury to the
user.
PRODUCT STATUS DEFINITIONS
Definition of Terms
Datasheet Identification
Product Status
Definition
Advance Information
Formative or
In Design
This datasheet contains the design specifications for
product development. Specifications may change in
any manner without notice.
Preliminary
First Production
This datasheet contains preliminary data, and
supplementary data will be published at a later date.
Fairchild Semiconductor reserves the right to make
changes at any time without notice in order to improve
design.
No Identification Needed
Full Production
This datasheet contains final specifications. Fairchild
Semiconductor reserves the right to make changes at
any time without notice in order to improve design.
Obsolete
Not In Production
This datasheet contains specifications on a product
that has been discontinued by Fairchild semiconductor.
The datasheet is printed for reference information only.
Rev. I18
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FS6X0420RJ/ FS6X0720RJ/ FS6X1220RJ Fairchild Power Switch (FPS™)
TRADEMARKS