Data Sheet

HT7660
CMOS Switched-Capacitor Voltage Converter
Features
· Simple conversion of VDD to -VDD
· No external diode required
· Cascade connection (two devices are connected,
· Typically with no load voltage conversion, 99.9% effi-
VOUT= -2 VDD)
ciency
· Boost pin for higher switching frequency
· Typical power efficiency is 98%
· Easy to use
· Wide operating voltage range: 3V to 12V
· 8-pin DIP/SOP package
- Requires only two external capacitors
Applications
· RS-232 power supply
· Operation amplifier supply
· On board negative supply for dynamic RAMS
· Data acquisition systems
· Supply voltage splitter, VO= ± VDD/2
· Positive voltage doubler
General Description
HT7660 is a monolithic CMOS switched-capacitor voltage converter. HT7660 is designed to complete a voltage conversion from positive to negative. The only
required external components are two low cost electrolytic capacitors.
an RC oscillator can be lowered by adding an external
capacitor between VDD and the OSC pin, or an external
clock can be connected to the OSC pin to replace the
original oscillator. The LV terminal may be tied to VSS to
disable the voltage regulator. By doing this, low voltage
operation can be improved.
HT7660 includes a voltage regulator, an RC oscillator
and four output power MOS switches. The frequency of
Block Diagram
VDD
OSC
BOOST
RC
Oscillator
CAP+
Voltage
Level Shifter
CAP
VOUT
LV
Voltage
Regulator
Logic
Network
VSS
Rev. 1.11
1
February 23, 2009
HT7660
Pin Assignment
B O O
C A
V
C A
S T
P +
S S
P 1
8
2
7
3
6
4
5
V D D
O S C
L V
V O U T
H T 7 6 6 0
8 D IP -A /S O P -A
Pin Description
Pin No. Pin Name I/O
1
BOOST
I
Internal
Connection
CMOS Pull-low
Description
Higher switching frequency selection input
This pin is connected to the positive terminal of Capacitor C1 for a
charge pump
2
CAP+
O
CMOS
3
VSS
¾
¾
4
CAP-
O
NMOS
This pin is connected to the negative terminal of Capacitor C1 for a
charge pump
5
VOUT
O
NMOS
This pin is connected to the negative terminal of Capacitor C2 for
charge reservoir. Output voltage pass through this pin
6
LV
I
¾
Floating this pin enables the voltage regulator. Connect this pin to
VSS (Ground) to bypass voltage regulator and improve low voltage
operation
7
OSC
I/O Transmission Gate
External clock input pin. This pin can be connected with an external
capacitor to reduce switching frequency
8
VDD
¾
Positive power supply
¾
Negative power supply, ground
Absolute Maximum Ratings
Supply Voltage ...........................VSS-0.3V to VSS+13V
Operating Temperature...........................-40°C to 85°C
Storage Temperature ............................-50°C to 125°C
Note: These are stress ratings only. Stresses exceeding the range specified under ²Absolute Maximum Ratings² may
cause substantial damage to the device. Functional operation of this device at other conditions beyond those
listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability.
Electrical Characteristics
Symbol
Parameter
VDD
Operating Voltage
ISTB
Standby Current
fOSC
System Frequency
ROUT
Output Source Resistance
VCON-EFF
Voltage Conversion Efficiency
PEFF
Power Efficiency
Rev. 1.11
Ta=25°C
Test Conditions
VDD
Conditions
¾
¾
3V
5V
No load
3V
¾
5V
Min.
Typ.
Max.
Unit
3
¾
12
V
¾
26
100
¾
80
160
2.5
4
¾
5
10
¾
3V
IOUT=10mA
¾
97
150
5V
IOUT=20mA
¾
60
100
3V
5V
3V
5V
No load
RL=5kW
2
99
¾
¾
99
99.9
¾
96
¾
¾
96
98
¾
mA
kHz
W
%
%
February 23, 2009
HT7660
Functional Description
For high voltage operation, the LV pin is left floating to
enable the voltage regulator. This can reduce the current consumption of the RC oscillator, and thus get a
fixed switching frequency fOSC with high voltage range.
For low voltage operation, the LV pin is connected to
VSS to bypass the voltage regulator of which inherent
voltage drop can degrade the operation at low voltages.
HT7660 needs only two external polarized electrolytic
capacitors to complete a negative voltage converter.
HT7660 has four MOS power switches: S1, S2, S3 and
S4. For the first half cycle, when S2 and S4 are open,
Capacitor C1 is charged to a voltage VDD through S1
and S3. During the second half cycle, when S1 and S3
are open, the charge on Capacitor C1 is shifted to Capacitor C2 through S2 and S4. Thereby, the voltage
across Capacitor C2 is VDD. Because the positive terminal of C2 is connected to VSS, we get a -VDD voltage at
VOUT pin.
V
S 1
D D
A capacitor may be connected between VDD and pin
OSC to lower the switching fOSC, and an external clock
may be added to replace the built-in RC oscillator.
S 2
C A P +
C 1
V
V
S S
S S
C 2
S 4
S 3
V
C A P -
O U T
= - V
D D
The operating mode of HT7660
Application Circuits
Simple Negative Voltage Converter
V
V
D D
1
2
B O O S T
8
V D D
C A P +
6
L V
1 0 m F
4
3
C A P -
D D
5
V O U T
V
V S S
O U T
= -V
D D
1 0 m F
H T 7 6 6 0
Simple Voltage Multiplier
V
2
V D D
C A P +
D D
8
2
1 0 m F
4
3
C A P V S S
V O U T
V D D
C A P +
8
1 0 m F
5
4
3
H T 7 6 6 0
C A P -
V O U T
5
V
O U T
= - 2 V
D D
1 0 m F
V S S
H T 7 6 6 0
1 0 m F
Rev. 1.11
3
February 23, 2009
HT7660
External Switching Frequency
V
2
8
V D D
C A P +
V
4
C A P -
3
C M O S
G a te
5
V O U T
V S S
D D
1 k W
7
O S C
1 0 m F
D D
V
O U T
1 0 m F
H T 7 6 6 0
Lower Switching Frequency
V
2
8
V D D
C A P +
4
3
N o te : C
C A P -
O S C
5
V O U T
V S S
C
7
O S C
1 0 m F
D D
V
O U T
1 0 m F
O S C
H T 7 6 6 0
is te n s o f p ic o fa r a d
Positive Voltage Doubler
V
2
8
V D D
C A P +
3
D D
D 1
V S S
D 2
5
V O U T
1 0 m F
H T 7 6 6 0
N o te : V
V
O U T
= 2 V
D D
- 2 V
D
1 0 m F
is fo r w a r d v o lta g e d r o p o f d io d e D 1 a n d D 2
D
Voltage Splitter
V
R
4 7 m F
L 1
V
R
O U T
=
V
D D -
2
V
2
E E
L 2
V D D
C A P +
L V
4 7 m F
4
3
C A P -
V O U T
8
6
5
V S S
4 7 m F
H T 7 6 6 0
V
Rev. 1.11
D D
4
E E
February 23, 2009
HT7660
Combined Negative Voltage Converter and Positive Voltage Doubler
V
2
8
V D D
C A P +
D D
V
D 1
1 0 m F
4
3
C A P -
O U T
= 2 V
D D
1 0 m F
D 2
V
Rev. 1.11
D D
V S S
1 0 m F
D
= - V
5
V O U T
H T 7 6 6 0
N o te : V
O U T
- 2 V
D
1 0 m F
is fo r w a r d v o lta g e d r o p o f d io d e D 1 a n d D 2
5
February 23, 2009
HT7660
Package Information
8-pin DIP (300mil) Outline Dimensions
A
8
5
B
1
4
H
C
D
I
G
E
F
Symbol
A
Rev. 1.11
Dimensions in mil
Min.
Nom.
Max.
355
¾
375
B
240
¾
260
C
125
¾
135
D
125
¾
145
E
16
¾
20
70
F
50
¾
G
¾
100
¾
H
295
¾
315
I
¾
¾
375
6
February 23, 2009
HT7660
8-pin SOP (150mil) Outline Dimensions
5
8
A
B
4
1
C
C '
G
H
D
E
a
F
· MS-012
Symbol
Rev. 1.11
Dimensions in mil
Min.
Nom.
Max.
A
228
¾
244
B
150
¾
157
C
12
¾
20
C¢
188
¾
197
D
¾
¾
69
E
¾
50
¾
F
4
¾
10
G
16
¾
50
H
7
¾
10
a
0°
¾
8°
7
February 23, 2009
HT7660
Product Tape and Reel Specifications
Reel Dimensions
D
T 2
A
C
B
T 1
SOP 8N
Symbol
Description
Dimensions in mm
A
Reel Outer Diameter
330.0±1.0
B
Reel Inner Diameter
100.0±1.5
C
Spindle Hole Diameter
D
Key Slit Width
T1
Space Between Flange
T2
Reel Thickness
Rev. 1.11
13.0
+0.5/-0.2
2.0±0.5
12.8
+0.3/-0.2
18.2±0.2
8
February 23, 2009
HT7660
Carrier Tape Dimensions
P 0
D
P 1
t
E
F
W
B 0
C
D 1
P
K 0
A 0
R e e l H o le
IC
p a c k a g e p in 1 a n d th e r e e l h o le s
a r e lo c a te d o n th e s a m e s id e .
SOP 8N
Symbol
Description
Dimensions in mm
12.0
+0.3/-0.1
W
Carrier Tape Width
P
Cavity Pitch
8.0±0.1
E
Perforation Position
1.75±0.1
F
Cavity to Perforation (Width Direction)
5.5±0.1
D
Perforation Diameter
1.55±0.1
D1
Cavity Hole Diameter
P0
Perforation Pitch
4.0±0.1
P1
Cavity to Perforation (Length Direction)
2.0±0.1
A0
Cavity Length
6.4±0.1
B0
Cavity Width
5.2±0.1
K0
Cavity Depth
2.1±0.1
t
Carrier Tape Thickness
C
Cover Tape Width
Rev. 1.11
1.50
+0.25/-0.00
0.30±0.05
9.3±0.1
9
February 23, 2009
HT7660
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Copyright Ó 2009 by HOLTEK SEMICONDUCTOR INC.
The information appearing in this Data Sheet is believed to be accurate at the time of publication. However, Holtek assumes no responsibility arising from the use of the specifications described. The applications mentioned herein are used
solely for the purpose of illustration and Holtek makes no warranty or representation that such applications will be suitable
without further modification, nor recommends the use of its products for application that may present a risk to human life
due to malfunction or otherwise. Holtek¢s products are not authorized for use as critical components in life support devices
or systems. Holtek reserves the right to alter its products without prior notification. For the most up-to-date information,
please visit our web site at http://www.holtek.com.tw.
Rev. 1.11
10
February 23, 2009