T6319A-40AXG [TMT]
High Efficiency 2X charge Pump; 高效率2倍电荷泵
| 型号: | T6319A-40AXG |
| 厂家: | 
TAIWAN MEMORY TECHNOLOGY |
| 描述: | High Efficiency 2X charge Pump |
| 文件: | 总9页 (文件大小:92K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
TE
tmCH
T6319A
High Efficiency 2X charge Pump
FEATURES
GENERAL DESCRIPTION
The The T6319A is a switched capacitor
voltage converter, that produces a regulated,
low ripple output voltage from an unregulated
input voltage. A wide-input supply voltage of
• Wide Input Range: 2.5V to 5.5V
• Available Output Voltages:
2.5V/2.7V/3.0V/3.3V/4.0V/4.5V /5.0V/5.5V
• Automatic Step-Up/Step-Down Operation
• Low Input Current Ripple
• Low Output Voltage Ripple
• Minimum Number of External
Components-No Inductors
2.5V to 5.5V makes the T6319A ideal for a
variety of battery sources, such as single cell
Li-Ion, or two and three cell nickel or alkaline-
based chemistries.
The input voltage may vary above and below
the output voltage and the output will remain
in regulation. It works equally well for step-up
or step-down applications without the need for
an inductor, providing low EMI DC/DC
conversion. The high switching frequency
allows the use of small surface-mount
capacitors, saving board space and reducing
cost. The T6319A is thermally protected.
• Shutdown Mode
• Thermal Protection
• High Output Current :
VIN>3.0V Output Current 100mA
Max. 250mA for pulsed loads
• Available Package : SOT23-6/ lead-free
PART NUMBER EXAMPLES
Output
APPLICATIONS
• Smart Card Readers
• Cellular Phones
• White LED Camera Flash
• White LED Backlighting
• Battery Backup Supplies
Part no.
Package type
Voltage
SOT23-6
lead-free
SOT23-6
lead-free
2.5V
T6319A-25AXG
T6319A-30AXG
3.0V
SOT23-6
lead-free
SOT23-6
lead-free
5.0V
5.5V
T6319A-50AXG
T6319A-55AXG
TM Technology Inc. reserves the right
P. 1
Publication Date: MAY. 2007
Revision: A
to change products or specifications without notice.
TE
tmCH
T6319A
PIN ARRANGEMENT
SOT23-6 (Top view)
VOUT
GND
EN
1
2
3
6
5
4
C+
VIN
C-
PIN DESCRIPTION
SYMBOL
Pin No.
DESCRIPTION
VOUT
GND
EN
1
2
3
4
5
6
Voltage output
Ground pin
Enable signal, high active
Flying capacitor “-“ terminal
Input supply pin.
C-
VIN
C+
Flying capacitor “+” terminal
TM Technology Inc. reserves the right
P. 2
Publication Date: MAY. 2007
Revision: A
to change products or specifications without notice.
TE
tmCH
T6319A
Absolute Maximum Ratings
Supply Voltage …………………………………………………………. -0.3V to 6V
EN Pin Input Voltage …………………………………………………… -0.3V to 6V
Operating Juction Temperature ………………………………………… -55°C to +150°C
Operating temperature range …………………………………………… -55°C to +125°C
Storage temperature range ……………………………………………… -65°C to +150°C
Lead temperature (soldering, 10sec) …………………………………… 300°C
Electrical Characteristics
( VIN=+3.3V, TA = 25°C, CIN = COUT = 10uF, unless otherwise noted )
Symbol
Description
Conditions
Min. Typ. Max Unit
VIN Input Voltage
2.5
5.5
V
%
V
Output Voltage Tolerance
4
2.5V< VIN<5.5V, IOUT=60mA
2.5V<VIN<VOUT,IOUT=100mA
2.5V 2.40 2.5 2.60
2.7V 2.59 2.7 2.80
3.0V 2.88 3.0 3.12
3.3V 3.16 3.3 3.43
V
V
V
V
V
VOUT
Output Voltage
3.0V<VIN<VOUT,IOUT=100mA 4.0V 3.84 4.0 4.16
4.5V 4.32 4.5 4.68
2.7V<VIN<3.0V, IOUT=40mA,
3.1V<VIN<VOUT, IOUT=80mA,
5.0V 4.80 5.0 5.20
V
5.5V 5.28 5.5 5.72
V
mA
uA
mA
%
3.0V<VIN<VOUT, IOUT=40mA
VIN=5V, Active, NoLoad Current
EN=0
ICC Operating Current
ISHDN Shutdown Current
IOUT Maximum Output Current
1.25
2
1.0
100
3.0V< VIN<5V
Efficiency
VIN=3.0V, IOUT =100mA, Output=5.0V
82
η
VENH EN Input Voltage Hight
VENL EN Input Voltage Low
IEN EN Input Bias Current
1.4
V
0.4
1.0
-1.0
uA
us
KHz
TSS Charge Pump Soft-Start Time
250
500
Charge Pump Clock Frequency
FCLK
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P. 3
Publication Date: MAY. 2007
Revision: A
TE
tmCH
T6319A
Functional Description
The T6319A regulated charge pump provides a regulated output voltage for input voltages ranging
from less than the output to greater than the output. This is accomplished by automatic mode
switching within the device.
PROTECTION
The regulator has thermal shutdown circuitry that protects it from damage caused by overload
conditions. The thermal protection circuitry disables the output when the junction temperature
reached approximately 140°C, allowing the device to cool. When the junction temperature cools to
approximately 130°C, the output circuitry is automatically reenabled. Continuously running the
regulator into thermal shutdown can degrade reliability.
SHUTDOWN MODE
A control pin on the regulator can be used to place the device into an energy-saving shutdown mode.
In this mode, the output is disconnected from the input as long as VIN is greater than or equal to
minimum VIN.
Charge Pump Efficiency
The core of the T6319A is a regulated output voltage doubling charge pump. The efficiency (η) or
an deal voltage doubling charge pump an typically be expressed as the output power divided by the
input power:
η = POUT/PIN
In addition, with anideal voltage doubling charge pump, the output current may be expressed as half
the input current. The expression to define the ideal efficiency (η) can be rewritten as:
η = POUT/PIN = VOUT x IOUT / VIN x 2IOUT
= VOUT / 2VIN
TM Technology Inc. reserves the right
P. 4
Publication Date: MAY. 2007
Revision: A
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TE
tmCH
T6319A
Capacitor Selection
The input capacitor stabilizes the input voltage and minimizes the peak current ripple from the
source. The value of the capacitor depends on the impedance of the input source used. Small ESR
(Equivalent Series Resistance) ceramic capacitor with value of 1uF to 10uF would be suitable.
The output capacitor is used to sustain the output voltage when the internal MOSFET is switched on
and smoothing the ripple voltage. The larger the output ripple, the larger the line regulation, which
means the LED current changes if the input voltage changes. Low ESR capacitor should be used to
reduce output ripple voltage. Use a 1uF to 10uF ceramic output capacitor with about 50mOhm to
150mOhm ESR to provide stable switching and good line regulation.
Layout Considerations
High switching frequencies make PC board layout a very important part of design. Good design
minimizes excessive EMI and voltage gradients in the ground plane, both of which can result in
instability or regulation errors.
Input filter capacitor, and output filter capacitor as close to the device as possible, and keep their
traces short, direct, and wide to reduce power loss so as to improve efficiency. Connect their ground
pins at a single common node in a star ground configuration, or at a full ground plane.
The output capacitor should be placed close to the output terminals to obtain better smoothing effect
on the output ripple.
TM Technology Inc. reserves the right
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Publication Date: MAY. 2007
Revision: A
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TE
tmCH
T6319A
APPLICATION INFORMATION
White LED Backlight Driver
LED Selection:
In applications where the T6319A is utilized as a white LED backlight driver, LEDs with forward
voltages up to 5.5V may be used. The T6319A is available in 8 regulated output voltage versions:
2.5V ~ 5.5V. The output voltage option selected will determine the maximum LED forward voltage
that can be driven. The trade-off for the lower 4.5V output voltage version is the device’s ability to
supply greater output current. Refer to the “Output Voltage vs. Output Current" curves in the
Typical Characteristics section of this datasheet to determine the best T6319A output voltage option
based on the requirements of given application.
LED Ballast Resistors:
To set the maximum brightness of white LEDs connected in parallel from a voltage source supply,
ballast resistor connected between each LED cathode and ground is required. Refer to the
application schematic in below Figure. The maximum brightness is determined by the forward
current(IF) through the respective LED for a given forward voltage(VF). The typical forward voltage
of a specific LED is usually stated in the typical characteristics of the given LED manufacturer's
datasheet. The correct ballast resistor value can be determined by the following quation:
RB=(VOUT-VF)/IF
Where: RB =Ballast resistor value in ohms
VOUT =Regulated charge pump output voltage
VF =LED forward voltage at the desired forward current
IF =Desired LED forward current
CFLY 1uF
C+
C-
VIN 2.5 to 5V
CIN
10uF
VIN
VOUT
COUT
10uF
T6319A
EN
D1
D2
D3
D4
D5
D6
Enable
GND
RB1
RB2
RB3
RB4
RB5
RB6
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to change products or specifications without notice.
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Publication Date: MAY. 2007
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TE
tmCH
T6319A
Flash LED Driver
The T6319A can source 250mA for pulsed loads up to 500ms from an input supply as low as 3.3V.
This makes the device well suited for low-cost flash LED driver applications in portable poducts.
Typically the 4.5V output version of the T6319A should be selected for photo-flash LED
applications, as it can maintain better voltage regulation at higher pulsed load current levels (refer to
figure “Flash LED Application”). The limitation of this option is that the greatest flash LED forward
voltage (VF) that can be driven is 4.5V at the maximum set forward current (IF) for the application.
Flash LEDs with forward voltage (VF) levels up to 5.0V can be driven by the T6319A 5.0V output
option. However, the maximum current for a 500ms pulse will be reduced. Refer to the Typical
Characteristics curves for peak output current levels for a given minimum input voltage.
The forward current (IF) through the flash LED may be determined with the use of a series ballast
resistor. The typical forward voltage (VF) for the flash LED in a given application should be derived
from the LED manufacturer's datasheet for the desired forward current (IF) of the flash application.
Once the forward current has been determined, the flash ballast resistor can be calculated using the
following equation:
RF=(VOUT-VF)/IF
Where: RF =Flash ballast resistor value in ohms
VOUT =Regulated charge pump output voltage (typically 4.5V)
VF = Flash LED forward voltage at the desired forward current
IF =Desired LED forward current
The flash LED function can be controlled by the T6319A enable pin in most applications. The
device start-up time into maximum load is about 200µs, this eliminating the need for pre-flash
control synchronization. If “light” or “movie” mode is also needed along with the flash function,
this can be accomplished with the addition of a second ballast resistor with a flash function gating
MOSFET switch as shown in Figure “Flash LED Driver with Gated Flash Application”. Refer to
the following equations for the calculation of flash and light resistors, RF and RL.
RL=(VOUT-VF)/IF
Where: RL =Light mode ballast resistor value in ohms
VOUT =Regulated charge pump output voltage (typically 4.5V)
VF = Flash LED forward voltage at the desired forward current
IF =Desired LED forward current in “light” mode
RF=[(VOUT-VF)/IF] - RDS Where: RF = Flash ballast resistor value in ohms
VOUT =Regulated charge pump output voltage (typically 4.5V)
VF =Flash LED forward voltage at the desired forward current
IF=Desired LED forward current
RDS= flash gating MOSFET on resistance
TM Technology Inc. reserves the right
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Publication Date: MAY. 2007
Revision: A
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tmCH
T6319A
Application Circuits
C F L Y 1 u F
C +
V IN
C -
V IN 2 .5 to 5 V
F la s h L E D
D 2
V O U T
C IN
1 u F
C O U T
1 u F
T 6 3 1 9 A
E N
D 1
D 3
D 4
E n a b le
G N D
R F
Flash LED Application
C
F L Y 1 u F
C +
C -
V
I N 2 . 5 t o 5 V
F l a s h L E D
D 2
V
I N
V
O U T
C
1 u F
I N
C
1 u F
O U T
T 6 3 1 9 A
E N
D 1
D 3
D 4
E n a b l e
G N D
R
F
R
L
F l a s h
E n a b l e
Flash LED Driver with Gated Flash Application
CFLY 1uF
C+
C-
VIN 2.5 to 5V
VIN
VOUT
CIN
1uF
COUT
1uF
T6319A
EN
D1
D2
D3
D4
Enable
GND
RB1
RB2
RB3
RB4
RB5
White LED Backlighting Application
TM Technology Inc. reserves the right
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Publication Date: MAY. 2007
Revision: A
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TE
tmCH
T6319A
PACKAGE DIMENSIONS
SOT23-6
B
B 1
B 2
A
1
A
C 1
C
H
C 2
F
D
G
E
I
Dimension in mm
Typ.
Dimension in inch
Typ.
Symbol
Min.
2.60
1.40
2.70
Max.
3.00
1.60
3.00
Min.
Max.
0.118
0.063
0.118
A
A1
B
2.80
0.102
0.055
0.106
0.110
1.575
0.062
2.85
0.112
B1
B2
C
1.90(BSC)
0.95(BSC)
1.20
0.075(BSC)
0.037(BSC)
0.047
0.95
0.90
0
1.45
1.30
0.150
0.037
0.035
0
0.057
0.051
0.06
C1
C2
D
1.10
0.043
0.075
0.003
0.40
0.015
E
0.30
0.08
0.45
0.60
0.22
0.012
0.003
0.018
0.023
0.009
F
0.15
0.006
G
0.60(REF)
H
0~8°
5~15°
I
5~15°
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Publication Date: MAY. 2007
Revision: A
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