ADM8839ACP [ADI]
Charge Pump Regulator for Color TFT Panels; 电荷泵稳压器为彩色TFT面板型号: | ADM8839ACP |
厂家: | ADI |
描述: | Charge Pump Regulator for Color TFT Panels |
文件: | 总8页 (文件大小:230K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Charge Pump Regulator
for Color TFT Panels
ADM8839
FEATURES
FUNCTIONAL BLOCK DIAGRAM
3 Voltages (+5 V, +15 V, –15 V) from
a Single 3 V Supply
C5, 2.2F
Power Efficiency Optimized for Use
with TFT in Mobile Phones
Low Quiescent Current
Low Shutdown Current (<5 ꢀA)
Shutdown Function
V
CC
C1+
ADM8839
VOLTAGE
DOUBLER
C1, 2.2F
C1–
VOUT
LDO_IN
Option to Use External LDO
OSCILLATOR
LDO
C6, 2.2F
VOLTAGE
REGULATOR
APPLICATIONS
Hand-held Instruments
TFT LCD Panels
CONTROL
LOGIC
+5VOUT
+5VIN
LDO_ON/OFF
+5V
C7, 2.2F
Cellular Phones
C2+
DOUBLE
C2, 0.22F
VOLTAGE
TRIPLER
C2–
C3+
TRIPLE
C3, 0.22F
TIMING
GENERATOR
C3–
+15VOUT
C4+
+15V
C8, 0.22F
VOLTAGE
SHUTDOWN
CONTROL
INVERTER
C4, 0.22F
SHDN
C4–
DISCHARGE
GND
–15VOUT
–15V
C9, 0.22F
GENERAL DESCRIPTION
The ADM8839 has a power save shutdown feature. The 5 V
output consumes the most power, so power efficiency is also
maximized on this output with an oscillator enabling scheme
(Green Idle™). This effectively senses the load current that is
flowing and turns on the charge pump only when charge needs
to be delivered to the 5 V pump doubler output.
The ADM8839 is a charge pump regulator used for color thin film
transistor (TFT) liquid crystal displays (LCDs). Using charge
pump technology, the device can be used to generate three
voltages (+5 V 2%, +15 V, –15 V) from a single 3 V supply.
These voltages are then used to provide supplies for the LCD
controller (5 V) and the gate drives for the transistors in the
panel (+15 V and –15 V). Only a few external capacitors are
needed for the charge pumps. An efficient low dropout (LDO)
voltage regulator ensures that the power efficiency is high and
provides a low ripple 5 V output. This LDO can be shut down
and an external LDO can be used to regulate the 5 V doubler
output and drive the input to the charge pump section that
generates the +15 V and –15 V outputs, if required by the user.
The ADM8839 is fabricated using CMOS technology for minimal
power consumption. The part is packaged in a 20-lead LFCSP
(lead frame chip scale package).
REV. A
Information furnished by Analog Devices is believed to be accurate and
reliable. However, no responsibility is assumed by Analog Devices for its
use, norforanyinfringementsofpatentsorotherrightsofthirdpartiesthat
may result from its use. No license is granted by implication or otherwise
under any patent or patent rights of Analog Devices. Trademarks and
registered trademarks are the property of their respective companies.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700
Fax: 781/326-8703
www.analog.com
© 2003 Analog Devices, Inc. All rights reserved.
(VCC = 3 V – 10%, 40%; TA = –40ꢀC to +85ꢀC; C1, C5, C6, C7 = 2.2 ꢁF; C2, C3,
ADM8839–SPECIFICATIONS C4, C8, C9 = 0.22 ꢁF; unless otherwise noted.)
Parameter
Test Conditions
Min
Typ
Max
Unit
INPUT VOLTAGE, VCC
SUPPLY CURRENT, ICC
2.7
4.2
V
Unloaded
Shutdown Mode, TA = 25°C
250
500
5
A
A
+5 V OUTPUT
Output Voltage
Output Current
Output Ripple
IL = 10 A to 8 mA
4.9
5.0
5
10
5
5.1
8
V
mA
mV p-p
s
8 mA Load
IL Stepped from 10 A to 8 mA
Transient Response
+15 V OUTPUT
Output Voltage
Output Current
Output Ripple
IL = 1 A to 150 A
IL = 100 A
14.0
15.0
1
50
16.0
150
V
A
mV p-p
–15 V OUTPUT
Output Voltage
Output Current
Output Ripple
IL = –1 A to –150 A
IL = –100 A
–16.0
–150
–15.0
–1
50
–14.0
V
A
mV p-p
POWER EFFICIENCY
R5VOUT Load = 5 mA,
Ϯ15 V Load = Ϯ150 A,
VCC = 3.0 V
82
%
CHARGE PUMP FREQUENCY
60
100
140
kHz
CONTROL PINS, SHDN
Input Voltage, VSHDN
SHDN Low = Shutdown Mode
SHDN High = Normal Mode
0.3 ϫ VCC
V
V
0.7 ϫ VCC
Digital Input Current
Digital Input Capacitance*
Ϯ1
10
A
pF
LDO_ON/OFF
Input Voltage
Low = External LDO
High = Internal LDO
0.3 ϫ VCC
V
V
0.7 ϫ VCC
Digital Input Current
Digital Input Capacitance*
Ϯ1
10
A
pF
*Guaranteed by design. Not 100% production tested.
Specifications are target values and are subject to change without notice.
(VCC = 3 V, TA = 25ꢀC; C1, C5, C6, C7 = 2.2 ꢁF; C2, C3, C4, C8, C9 = 0.22 ꢁF.)
TIMING SPECIFICATIONS
Parameter
Test Conditions/Comments
Min
Typ
Max
Unit
POWER-UP SEQUENCE
+5 V Rise Time, tR5V
10% to 90%, Figure 1
10% to 90%, Figure 1
90% to 10%, Figure 1
250
3
3
s
ms
ms
+15 V Rise Time, tR15V
–15 V Fall Time, tFM15V
Delay between –15 V Fall
and +15 V, tDELAY
Figure 1
600
s
POWER-DOWN SEQUENCE
+5 V Fall Time, tF5V
90% to 10%, Figure 1
90% to 10%, Figure 1
10% to 90%, Figure 1
35
10
20
ms
ms
ms
+15 V Fall Time, tF15V
–15 V Rise Time, tRM15V
Specifications are subject to change without notice.
–2–
REV. A
ADM8839
ABSOLUTE MAXIMUM RATINGS*
THERMAL CHARACTERISTICS
(TA = 25°C, unless otherwise noted.)
20-Lead LFCSP Package:
Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . –0.3 V to +6.0 V
Input Voltage on Digital Inputs . . . . . . . . . . . –0.3 V to +6.0 V
Output Short-Circuit Duration to GND . . . . . . . . . . . . .10 sec
Output Voltage
+5 V Output . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 V to 7.0 V
–15 V Output . . . . . . . . . . . . . . . . . . . . . . . . –17 V to +0.3 V
+15 V Output . . . . . . . . . . . . . . . . . . . . . . . –0.3 V to +17 V
Operating Temperature Range . . . . . . . . . . . . –40°C to +85°C
Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50 mW
Storage Temperature Range . . . . . . . . . . . . . –65°C to +150°C
ESD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Class I
JA = 31°C/W
ORDERING GUIDE
Temperature Range
Model
Package Option
ADM8839ACP –40°C to +85°C
CP-20
*Stresses above those listed under Absolute Maximum Ratings may cause perma-
nent damage to the device. This is a stress rating only; functional operation of the
device at these or any other conditions above those indicated in the operational
section of this specification is not implied. Exposure to absolute maximum rating
conditions for extended periods may affect device reliability.
CAUTION
ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily
accumulate on the human body and test equipment and can discharge without detection. Although the
ADM8839 features proprietary ESD protection circuitry, permanent damage may occur on devices
subjected to high energy electrostatic discharges. Therefore, proper ESD precautions are recommended
to avoid performance degradation or loss of functionality.
REV. A
–3–
ADM8839
PIN CONFIGURATION
PIN 1
15 C4ꢂ
14 C2ꢃ
13 C2ꢂ
12 C3ꢃ
11 C3ꢂ
V
1
CC
INDICATOR
VOUT 2
LDO_IN 3
ꢃ5VOUT 4
ꢃ5VIN 5
ADM8839
TOP VIEW
PIN FUNCTION DESCRIPTIONS
Pin No.
Mnemonic
VCC
Function
1
2
Positive Supply Voltage Input. Connect this pin to the 3 V supply with a 2.2 µF decoupling capacitor.
VOUT
Voltage Doubler Output. This was derived by doubling the 3 V supply. A 2.2 µF capacitor to
ground is required on this pin.
3
4
LDO_IN
+5VOUT
Voltage Regulator Input. The user may bypass this circuit by using the LDO_ON/OFF pin.
5 V Output. This was derived by doubling and regulating the 3 V supply. A 2.2 µF capacitor
to ground is required on this pin to stabilize the regulator.
5
6
+5VIN
5 V Input. This is the input to the voltage tripler and inverter charge pump circuits.
LDO_ON/OFF
Control Logic Input. 3 V CMOS logic. A logic high selects the internal LDO for regulation of
the 5 V voltage doubler output. A logic low isolates the internal LDO from the rest of the charge
pump circuits. This allows the use of an external LDO to regulate the 5 V voltage doubler
output. The output of this LDO is then fed back into the voltage tripler and inverter circuits of
the ADM8839.
7
SHDN
Digital Input. 3 V CMOS logic. Active low shutdown control. This shuts down the timing
generator and enables the discharge circuit to dissipate the charge on the voltage outputs, thus
driving them to 0 V.
8
VCC
Connect this pin to VCC.
9
GND
Connect this pin to GND.
10
+15VOUT
15 V Output. This was derived by tripling the 5 V regulated output. A 0.22 µF capacitor
is required on this pin.
11, 12
13, 14
15, 16
17
C3–, C3+
C2–, C2+
C4–, C4+
–15VOUT
External capacitor C3 is connected between these pins. A 0.22 µF capacitor is recommended.
External capacitor C2 is connected between these pins. A 0.22 µF capacitor is recommended.
External capacitor C4 is connected between these pins. A 0.22 µF capacitor is recommended.
–15 V Output. This was derived by tripling and inverting the 5 V regulated output. A 0.22 µF
capacitor is required on this pin.
18
GND
Device Ground.
19, 20
C1–, C1+
External capacitor C1 is connected between these pins. A 2.2 µF capacitor is recommended.
–4–
REV. A
Typical Performance Characteristics–ADM8839
5.10
5.05
5.00
4.95
4.90
4.85
4.80
4.75
4.70
84
DEVICE AT +25ꢀC
DEVICE AT +85ꢀC
83
82
81
80
79
78
77
76
75
DEVICE AT –40ꢀC
1
2
3
4
5
6
7
8
2.7
2.9
3.1
3.3
3.5
3.7
3.9
4.1 4.2
SUPPLY VOLTAGE – V
LOAD CURRENT – mA
TPC 1. LDO O/P Voltage Variation
over Temperature and Supply
TPC 4. LDO Power Efficiency vs. Load Current,
CC = 3 V
V
5.020
5.015
5.010
5.005
5.000
4.995
400
350
300
250
200
150
0
1
2
3
4
5
6
7
8
2.7
2.9
3.1
3.3
3.5
3.7
3.9
4.1 4.2
I
– mA
SUPPLY VOLTAGE – V
LOAD
TPC 2. LDO O/P Voltage vs. Load Current
TPC 5. Supply Current vs. Supply Voltage
100
90
80
70
60
50
40
30
15.1
15.0
14.9
14.8
14.7
14.6
14.5
14.4
14.3
14.2
14.1
+15V AT 25ꢀC
–15V AT 25ꢀC
10
20
30
40
50
60
70
80
90
100
0
50
100
– ꢁA
150
200
I
– ꢁA
I
LOAD
LOAD
TPC 3. +15 V/–15 V Power Efficiency vs. Load Current
TPC 6. +15 V/–15 V Output Voltage vs. Load
Current, Typical Configuration
REV. A
–5–
ADM8839
LOAD ENABLE
+15V OUTPUT
5V OUTPUT
–15V OUTPUT
5VOUT
TPC 10. Output Transient Response for
Maximum Load Current
TPC 7. +15 V and –15 V Outputs at Power-Up
V
RIPPLE (DOUBLER OUTPUT RIPPLE)
OUT
+15V OUTPUT
LDO OUTPUT RIPPLE
V
RIPPLE
CC
–15V OUTPUT
5VOUT
TPC 8. Output Ripple on LDO (5 V Output)
TPC 11. +15 V and –15 V Outputs at Power-Down
LOAD DISABLE
5V OUTPUT
TPC 9. 5 V Output Transient Response,
Load Disconnected
–6–
REV. A
ADM8839
POWER SEQUENCING
In order for the TFT panel to power up correctly, the gate drive
supplies must be sequenced such that the –15 V supply is up
before the +15 V supply. The ADM8839 controls this sequence.
When the device is turned on (a logic high on SHDN), the
ADM8839 allows the –15 V output to ramp immediately but
holds off the +15 V output. It continues to do this until the
negative output has reached –3 V. At this point, the positive
output is enabled and allowed to ramp to +15 V. This sequence
is highlighted in Figure 1.
C5, 2.2ꢁF
V
CC
C1+
ADM8839
VOLTAGE
DOUBLER
C1, 2.2ꢁF
C1–
VOUT
LDO_IN
OSCILLATOR
LDO
VOLTAGE
REGULATOR
C6, 2.2ꢁF
CONTROL
LOGIC
+5VOUT
+5VIN
LDO_ON/OFF
+5V
C7, 2.2ꢁF
C2+
DOUBLE
V
CC
C2, 0.22ꢁF
VOLTAGE
TRIPLER
C2–
C3+
TRIPLE
SHDN
C3, 0.22ꢁF
TIMING
GENERATOR
C3–
+15VOUT
+15V
tR5V
C8, 0.22ꢁF
90%
10%
C4+
tF5V
VOLTAGE
INVERTER
+5V
C4, 0.22ꢁF
SHUTDOWN
CONTROL
SHDN
C4–
DISCHARGE
GND
tR15V
–15VOUT
–15V
90%
10%
C9, 0.22ꢁF
tF15V
+15V
–15V
tDELAY
Figure 2. Typical Configuration
–3V
90%
10%
15.1
15.0
14.9
14.8
14.7
14.6
14.5
14.4
14.3
14.2
tRM15V
tFM15V
Figure 1. Power Sequence
+15V AT 25ꢀC
TRANSIENT RESPONSE
The ADM8839 features extremely fast transient response, mak-
ing it very suitable for fast image updates on TFT LCD panels.
This means that even under changing load conditions, there is
still very effective regulation of the 5 V output. TPCs 9 and 10
show how the 5 V output responds when a maximum load is
dynamically connected and disconnected. Note that the output
settles within 5 µs to less than 1% of the output level.
–15V AT 25ꢀC
14.1
0
50
100
– ꢁA
150
200
I
BOOSTING THE CURRENT DRIVE OF THE ꢄ15 V SUPPLY
The ADM8839 Ϯ15 V output can deliver 150 µA of current in
the typical configuration, as shown in Figure 2. It is also pos-
sible to draw 100 µA from the +15 V output and 200 µA from
the –15 V output, or vice versa. It is possible to draw only a
maximum of 300 µA combined from both the +15 V and the
–15 V outputs at any time (see Figure 3). In this configuration,
+5VOUT (Pin 4) is connected to +5VIN (Pin 5), as shown in
the Functional Block Diagram.
LOAD
Figure 3. +15 V/–15 V Output Voltage vs. Load
Current, Typical Configuration
REV. A
–7–
ADM8839
It is possible to configure the ADM8839 to supply up to 400 µA
on the 15 V outputs by changing its configuration slightly, as
shown in Figure 4.
The configuration in Figure 4 can supply up to 400 µA of current
on both the +15 V and the –15 V outputs. If the load on the
15 V does not draw any current, the voltage on the 15 V out-
puts can rise up to 16.5 V (see Figure 5). In this configuration,
VOUT (Pin 2) is connected to +5VIN (Pin 5).
C5, 2.2F
V
CC
17.0
C1+
ADM8839
VOLTAGE
DOUBLER
C1, 2.2F
C1–
16.5
+15V AT 25؇C
CURRENT BOOST
CONFIGURATION
CONNECTION
VOUT
LDO_IN
OSCILLATOR
16.0
LDO
C6, 2.2F
VOLTAGE
REGULATOR
–15V AT 25؇C
CONTROL
LOGIC
+5VOUT
+5VIN
15.5
+5V
LDO_ON/OFF
C7, 2.2F
C2+
15.0
14.5
14.0
DOUBLE
C2, 0.22F
VOLTAGE
TRIPLER
C2–
C3+
TRIPLE
C3, 0.22F
TIMING
GENERATOR
C3–
+15VOUT
0
100
200
I
300
– A
400
500
+15V
C8, 0.22F
LOAD
C4+
VOLTAGE
INVERTER
C4, 0.22F
SHUTDOWN
CONTROL
Figure 5. +15 V/–15 V Output Voltage vs. Load
Current, Current Boost Configuration
C4–
DISCHARGE
GND
SHDN
–15VOUT
–15V
C9, 0.22F
Figure 4. Current Boost Configuration
OUTLINE DIMENSIONS
20-Lead Leadframe Chip Scale Package [LFCSP]
4 ϫ 4 mm Body
(CP-20)
Dimensions shown in millimeters
0.60
MAX
4.0
BSC SQ
0.60
MAX
16
15
20
1
5
PIN 1
INDICATOR
2.25
2.10 SQ
1.95
TOP
VIEW
BOTTOM
VIEW
3.75
BSC SQ
11
10
0.75
0.55
0.35
6
1.00 MAX
0.65 NOM
0.30
0.23
0.18
12ꢀ MAX
1.00
0.90
0.80
0.05
0.02
0.00
SEATING
PLANE
COPLANARITY
0.08
0.50
BSC
0.20
REF
COMPLIANT TO JEDEC STANDARDS MO-220-VGGD-1
Revision History
2/03 – Data Sheet Changed from Rev. 0 to Rev. A
Changed SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Updated OUTLINE DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
–8–
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