ETC FT831D

Fremont Micro Devices
FT831D
Primary-Side-Control CC/CV Controller
DESCRIPTION
FEATURES
Constant-Current (CC) and Constant-Voltage
The FT831D controller device is optimized for
(CV) Control with Primary Side Control
high-performance, low power switching mode power
±5% Constant Voltage Regulation
supply applications That needed adjustable cable
±10% Constant Current Regulation
compensation. The FT831D facilitates CC/CV

Eliminates Opto-Coupler and TL431
charger design by eliminating an opto-coupler and

External Power NPN Transistor for Low Cost
TL431. Its highly integrated functions such as Under

Operation Frequency Modulation Improve
Voltage Lockout (UVLO), Leading Edge Blanking
System EMI
(LEB), external adjustable base driver and cable

Adjustable


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Cable
compensation
for
all
Loading
compensation offer the users a high efficiency and
low cost solution for AC/DC power applications.

Built-in Line Compensation

Cycle-by-Cycle Current Limiting
Furthermore, FT831D features fruitful protections

Over Voltage Protection (OVP)
like OTP (Over Temperature Protection), OVP (Over

Over Temperature Protection (OTP)
Voltage Protection), and Open Circuit Protection,

Open Circuit Protection
Short Circuit Protection to eliminate the external

Short Circuit Protection
protection circuits and provide reliable operation.

Pb-Free Device
FT831D is available in SOT23-6 packages.
TYPICAL APPLICATION

Adapter/Charger for Cell/Cordless Phones,
PDAs, MP3 and Other Portable Apparatus

Standby and Auxiliary Power Supplies
Set Top Boxes (STB)
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page1
Fremont Micro Devices
FT831D
TYPICAL APPLICATION CIRCUIT
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Figure 1: Typical Application Circuit
ABSOLUTE MAXIMUM RATINGS
FB to GND………………………………...…………………………………….…….……….….............. -0.3V to +9V
CS to GND…………………………………………...……………………………………….………….....-0.3V to +9V
VCC to GND…………………………………..………….…………………………………………..……-0.3V to +18V
OUT to GND…………………………………...…………………………….……….……………...…......-0.3V to +9V
CABLE to GND……………………………………………………………….………….……………........-0.3V to +9V
Operating Temperature Range……………………...……………………………………………...-40℃ to +125℃
Junction Temperature………………………………..…………………………………………..........-40℃ to +150℃
Storage Temperature Range ……………………………..…………………………………….…….-60℃ to +150℃
ESD Protection HBM……………….....…………………………………………………………………….….2000V
MM…………………..……………………………………………………………………….500V
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress
ratings only. Functional operation above the Recommended Operating Conditions is not implied.
Extended exposure to stresses above the Recommended Operating Conditions may affect device
reliability.
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page2
Fremont Micro Devices
FT831D
PIN CONFIGURATION
Figure 2: Pin Assignments
Pin
Definition
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Pat No.
Package
FT831D
SOT23-6
1
2
CS
FB
3
4
5
GND
OUT
VCC
6
CABLE
Table 2: Pin Definition
TERMINAL DEFINITION
Pin
Description
GND
Ground.
FB
Output voltage feedback pin
CS
Primary current sense
VCC
Supply voltage
OUT
NPN switch base driver
CABLE
Adjust cable compensation by an external resistor and capacitor to GND
Table 3
ORDERING INFORMATION
FT831D X –XX
Circuit Type
HSF and Packaging
Blank: RoHS and T&R
Package
-GT: Green and T&R
Blank: SOT23-6
Package
SOT23-6
Temperature
Range
-40℃-125℃
HSF
Packaging
Ordering
Code
RoHS
Tape and Reel
FT831D
Green
Tape and Reel
FT831D-GT
Table4
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page3
Fremont Micro Devices
FT831D
MARKING RULE
Figure 3: Marking Rule
SOT23-6:
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①: Represents Version (D)
②: Represents package (a: SOT23-5; b: SOT23-6)
③④: for internal reference
BLOCK DIAGRAM
VCC
VDD
Band Gap
LDO
Ref
POR
12.1/5.1V
Vcc_on/Vcc_off
Ibias
150uA
Ifb_open
Internal
reference
&bias
UVLO
OTP
OTP
FB_open
4.65V
Vovp
Delay
3uS
Ovp
COMP
POR
CCM
Protection
S
R
SET
CLR
Q
Q
CC
Controller
COMP
0.1V
Vcp
Ifb
FB
CV
Controller
EA
S
R
3 x (1+Kcab)V
SET
CLR
Driver
Q
Q
OUT
VDD
Loading
detect
3V
Vfb
CS
FT831D
LEB
400ns
COMP
Vline
0.5V
Vcs
CABLE
GND
Figure 4: FT831D Block Diagram
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page4
Fremont Micro Devices
FT831D
ELECTRICAL CHARACTERISTICS
(For typical values Tj=25℃, Vcc=10V, unless otherwise noted)
Characteristic
Symbol
Min
Typ
Max
Unit
Maximum Current Threshold
Vcs_max
0.49
0.5
0.51
V
Pre-drive Current Threshold
Vcs_pre
0.44
0.45
0.46
V
Current Sense
Vcs_limit Temperature Stability
(-40℃~125℃)
Leading Edge Blanking Duration
Tleb
Propagation Delay (OUT=1.0nF to GND)
Tpd
1
%
400
ns
200
ns
Feedback Section
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Feedback Voltage Threshold
Vfb
FB Pin minimum current
Ifb_open
OVP Protection Threshold Level
Vovp
CCM protection Threshold Level
Vcp
3.17
3.2
3.23
50
4.55
4.65
V
μA
4.75
0.1
V
V
Supply Section
Start Up Threshold Voltage
Vcc_on
13.5
15
17.2
V
Under Voltage Lockout Voltage
Vcc_off
4.8
5.4
6
V
VCC Start Up Current
Istart_up
Operating Current
6
uA
Iop
1.1
mA
Feedback Loop Open Protection
Ifb_open
150
uA
Over Temperature Protection
Tsd
140
℃
Protection Section
Base Driver
Output Maximum Sink current
Isink
50
mA
Output Maximum Source current
Isource
30
mA
Vline
45
mV
Compesation
Line Compensation (Ifb=1mA)
Percentage of Output Cable Resistance
Kcab*2
Compensation
Kcab
%
*1
(Kcab=6.5/560×R7 ×10e-3)
Table 5
*1
*2
(R7): Resistor connected between Pin CABLE and GND
(Kcab): Cable compensation percentage in output voltage
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page5
Fremont Micro Devices
FT831D
FUNCTIONAL DESCRIPTION
Operating Description
FT831D are cost effective and high-performance AC-DC power supply controller for off-line low power
AC-DC applications including battery chargers and adaptors. Without secondary feedback circuit, the
constant voltage (CV) and constant current (CC) control can be achieved accurately.
Start up Control
Start-up current of FT831D is very low so that a start-up resistor with high resistance and low-wattage is
allowed to supply the start-up power for the controller. The large value startup resistor can minimize the
power loss in application and starts up quickly. A 1.5Mo, 0.25W start-up resistor and a 10uF/25V Vdd
hold-up capacitor are sufficient for an AC-to DC power adapter.
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Operating current
The operating current of FT831D series is as low as 1mA. Good efficiency is achieved with the low
operating current together with valley turn on of the external power NPN transistor. Low operating
current also reduces the Vcc hold-up capacitance requirement.
Constant voltage (CV) and constant current (CC) Operation
The FT831D can accurately achieve CV/CC characteristic output without secondary side voltage and
current-feedback circuits. It operates in CV mode to regulate the output voltage by capturing the
auxiliary winding feedback voltage at FB pin. The auxiliary winding feedback voltage is proportional to
secondary winding, so it provides controller the feedback signal from secondary side and achieves
constant-voltage output. In CC mode, the controller detects the secondary discharger peak current and
the discharger time, which determines the off-time of the base driver to make the output average
current constant. In the CV or CC mode, the primary side peak current is constant if the Rcs is settled.
Leading edge blanking
Each time the power NPN transistor is switched on, a turn-on spike occurs at the sense resistor. To
avoid premature termination of the switching pulse, a 400ns leading edge blanking time is built in.
Conventional RC filtering can therefore be omitted. During this blanking period, the current limit
comparator is disabling and cannot switch off the base driver.
Under voltage lockout (UVLO)
FT831D turn-on [Vcc(on)] and turn-off [Vcc(off)] are 15V and 5.4V. During start-up, the hold-up
capacitor must to be charged to 15V through the start-up resistor. The hold-up capacitor continues to
supply Vcc until power can be delivered from the auxiliary winding of the transformer. Vcc must not drop
below 5.4V during this start-up process. This UVLO hysteresis window ensures that hold-up capacitor is
sufficient to supply Vcc during start-up.
Protection control
With rich protection features of FT831D, a good power supply system reliability is achieved. The
protection features including cycle by cycle current limiting, Vcc over voltage protection and clamp,
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page6
Fremont Micro Devices
FT831D
short circuit protection, feedback loop open protection, over temperature protection and under voltage
lockout on Vcc.
Base driver
To minimize loss in the primary power NPN and prevent from second breakdown, the driving current is
carefully controlled. The driving current have a default driving current 30mA.
Output cable compensation
The output cable compensation provides a constant output voltage at the end of the cable over the
entire load rang in constant voltage mode. As the converter load increase from no-load to the peak
power point, the voltage drop introduced across the output cable in compensated by increasing the
feedback pin reference voltage. The correct degree of compensation can be adjustable externally in
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product FT831D . With this feature, user can conveniently determine the correct degree of
compensation base on the cable selected.
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page7
Fremont Micro Devices
FT831D
SOT23-6 PACKAGE OUTLINE DIMENSIONS
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Symbol
Dimensions In Millimeters
Dimensions In Inches
Min
Max
Min
Max
A
1.050
1.250
0.041
0.049
A1
0.000
0.100
0.000
0.004
A2
1.050
1.150
0.041
0.045
b
0.300
0.500
0.012
0.020
c
0.100
0.200
0.004
0.008
D
2.820
3.020
0.111
0.119
E
1.500
1.700
0.059
0.067
E1
2.650
2.950
0.104
0.116
e
0.950 (BSC)
0.037（BSC）
e1
1.800
2.000
0.079
L
0.300
0.600
0.024
θ
0°
8°
© 2012 Fremont Micro Devices Inc.
0°
8°
DS831D-A0-page8
Fremont Micro Devices
FT831D
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* Information furnished is believed to be accurate and reliable. However, Fremont Micro Devices,
Incorporated (BVI) assumes no responsibility for the consequences of use of such information or for any
infringement of patents of other rights of third parties which may result from its use. No license is granted by
implication or otherwise under any patent rights of Fremont Micro Devices, Incorporated (BVI).
Specifications mentioned in this publication are subject to change without notice. This publication
supersedes and replaces all information previously supplied. Fremont Micro Devices, Incorporated (BVI)
products are not authorized for use as critical components in life support devices or systems without
express written approval of Fremont Micro Devices, Incorporated (BVI). The FMD logo is a registered
trademark of Fremont Micro Devices, Incorporated (BVI). All other names are the property of their
respective owners.
© 2012 Fremont Micro Devices Inc.
DS831D-A0-page9