TOREX XC9106

PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
June 26, 2003 Ver. 2
! Externally Applied Reference Voltage (Vref)
" APPLICATIONS
! Ceramic Capacitors Compatible
# Power Supply for LCD
! Input Voltage Range: 0.9V~10.0V
# PDAs
! Oscillation Frequency: 300kHz, 100kHz (±15%)
# Cellular Phones
! PWM Control (XC9106)
# Palmtop Computers
# Portable Audio Systems
PWM/PFM Automatic Switching Control (XC9107)
! SOT-25 / USP-6B Packages
# Various Multi-function Power Supplies
" GENERAL DESCRIPTION
" FEATURES
The XC9106 / 07 series are step-up DC/DC controller ICs
with an externally applied reference voltage (Vref).
Output voltage will be set with external resistors (RFB1 and 2)
and Vref value. The series make it easy to control output
voltage externally and are suited to software applications that
need to vary voltage, such as LCD power supply for PDA.
Output will be stable no matter which load capacitors are
used but if a low ESR capacitor is used, RSENSE of about
0.1Ω will be required and phase compensation will be
achieved. This makes the use of ceramic capacitors much
easier, and allows for lower output ripple and reduced PCB
area requirements. Tantalum and electrolytic capacitors can
also be used, in which case, RSENSE becomes
unnecessary.
Oscillation frequencies of high clock, low ripple 300kHz and
low supply current 100kHz are available.
The XC9107 series are PWM/PFM automatic switching
controlled. Control switches from PWM to PFM during light
loads with the XC9107 and the series is highly efficient from
light loads to large output currents. By bringing the whole
circuit down while the series is in the stand-by mode
(CE/PWM pin : low), supply current can be reduced to less
than 1.0µA.
Input Voltage Range:
0.9V ~ 10.0V
Power Supply Voltage Range:
1.8V ~ 10.0V and more than Vref+0.7V
VREF Input Range:
0.8V ~ 2.5V (±2.0%)
Output Voltage:
Vref x external split resistor ratio
VOUT=Vref x (RFB1+RFB2)/RFB2
Oscillation Frequency:
300kHz, 100kHz ±15%
Output Current:
more than 30mA
(VIN=3.3V, VOUT=20V, when peripheral
components are used as in the circuits below .)
Controls:
PWM (XC9106)
PWM/PFM auto-switching (XC9107)
High Efficiency:
85% (TYP.)
Stand-by Current:
ISTB=1.0µA (MAX.)
Load Capacitors:
Low ESR capacitors compatible
Packages:
SOT-25, USP-6B
" TYPICAL APPLICATION CIRCUIT
" TYPICAL APPLICATION PERFORMANCE
XC9107D003MR
30
25
L : 10µH
VOUT (V)
RSENSE : 100m Ω
for Ceramic CL SD : MA737
*
CFB : 27pF
VOUT = 8V~25V RFB1 :
IOUT = 30mA 270k Ω
Circuit as left
VDD=VIN=3.3V, IOUT=30mA
RFB2 :
30k Ω
20
15
10
5
0
CIN
Ceramic CL :
10µF
1
5
2
3
CE/Vref
VIN = 3.3V
0.0
Nch Power
MOS FET
2SK2159
0.5
1.0
1.5 2.0
Vref (V)
XC9107D003MR
30
4
2.5
3.0
Circuit as left
VDD=VIN=3.3V
25
0.8V~2.5V
D/A converter
VOUT (V)
2.5V
* RSENSE is of no use in light load (uncontinuous mode) applications such
as a small LCD, even using ceramic capacitor.
20
2.0V
15
1.5V
10
Vref=0.8V
5
0
0.1
1
1
10
100
IOUT (mA)
1000
Semiconductor Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" PIN CONFIGURATION
" PIN ASSIGNMENT
PIN NUMBER
SOT-25 USP-6B
5
1
4
2
1
6
2
5
3
4
3
USP-6B
(TOP VIEW)
SOT-25
(TOP VIEW)
PIN
NAME
FUNCTION
1
6
FB
Output Resistor Connection
2
2
VDD
Supply Voltage
3
4
CE/
Vref
Serves as both Chip Enable pin and
Reference Voltage Apply pin.
4
3
GND
Ground
5
1
EXT
External Transistor Connection
-
5
NC
No Connection
" ORDERING INFORMATION
XC9106D12345
XC9107D12345
XC9107 Series: PWM/PFM automatic switching control
XC9106 Series: PWM Control
Reference Voltage (apply external)
Fixed : 00
12
3
(Ordering information is the same as XC9106 Series)
3
Oscillation Frequency:
1
4
M
5
R
300kHz
100kHz
Package:
D
SOT-25 (1 reel = 3000 pcs.)
USP-6B (1 reel = 3000 pcs.)
Embossed Tape:
L
Standard Feed
Reverse Feed
" PACKAGING INFORMATION
$ SOT-25 (SOT-23-5)
$ USP-6B
2.0 + 0.15
(0.45) 0.5+0.1
3
5
4
O
45
(0.27)
2
A’
45 O
6
(0.27)
(
1.8+0.15
1
AAA
AAA
0.45)
1
A
(0.27)
φ
(0.05)
(0.45) (0.45)
O
+0.01
(0.05) -0.005
0.005+0.002
45
(0.65)+0.15
-0.05
(0.125)
45 O
1
6
1
1
1.0+0.1
0.25+0.1
2
1
.
0.5+0.1 0.5+0.1
5
1
1.6+0.15
4
2
00.1+0.03
3
1
0.2+0.05
5-0.2+0.05
0.7+0.03
0.25+0.1
Semiconductor Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" BLOCK DIAGRAM
Current
Ripple Detect
and FB
FB
Phase
Compensation
VDD
PWM
Comparator
Error Amp.
Vref with
Soft Start,
CE
Buffer,
Driver
EXT
Ramp Wave
Generator,
OSC
PWM/PFM
Controller
GND
CE / Vref
FB, CE : CMOS INPUT
EXT
: CMOS OUTPUT
" ABSOLUTE MAXIMUM RATINGS
Ta = 25OC
PARAMETER
SYMBOL
RATINGS
UNITS
VDD pin Voltage
VDD
-0.3 ~ 12.0
V
FB pin Voltage
VFB
-0.3 ~ 12.0
V
CE / Vref pin Voltage
VCE / Vref
-0.3 ~ 12.0
V
EXT pin Voltage
VEXT
-0.3 ~ VDD + 0.3
V
EXT pin Current
IEXT/
±100
mA
Power Dissipation
Pd
SOT-25
150
USP-6B
100
mW
Operating Ambient Temperature
Topr
-40 ~ +85
O
C
Storage Temperature
Tstg
-55 ~ +125
O
C
3
Semiconductor Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" ELECTRICAL CHARACTERISTICS
XC9106D001MR, XC9107D001MR
*1
*1
Ta=25OC
(FOSC=100 (kHz)
PARAMETER
SYMBOL
Output Voltage
VOUT
Reference Voltage Range
Vref
CONDITIONS
UNITS CIRCUIT
MIN.
TYP.
MAX.
Vref = 0.9V
8.820
9.000
9.180
V
2.5
V
1
-
Vref = 0.9V
0.784
0.800
0.816
Vref = 0.9V
0.882
0.900
0.918
V
4
Vref = 2.5V
2.450
2.500
2.550
10.0
V
0.9
V
3
0.8
V
4
0.8
FB Control Voltage
VFB
Power Supply Voltage Range
VDD
VDD as shown right or (Vref applied voltage+0.7V)
Operation Start Voltage
VST1
Recommended Circuit using 2SD1628, IOUT=1.0mA
Oscillation Start Voltage
VST2
1.8
No external connections
CE/Vref=0.9V, Voltage applied, FB=0V
24
Ω
3
4
4
5
4
4
1
1
1
5
5
4
4
Same as IDD2, CE=0.8V
-1.0
0.0
µA
5
Same as IDD2, CE=2.5V
0.0
2.5
5
5
5
Operation Holding Voltage
VHLD
Recommended Circuit using 2SD1628, IOUT=1.0mA
0.7
V
Supply Current 1
IDD1
Same as VST2, VDD=3.300V
29
41
µA
Supply Current 2
IDD2
Same as IDD1, FB=1.2V
14
19
µA
1.0
µA
85
100
115
KHz
75
81
87
%
20
28
36
Stand-by Current
ISTB
Same as IDD1, CE/Vref=0V
Oscillation Frequency
FOSC
Same as IDD1
Maximum Duty Ratio
MAXDTY
Same as IDD1
PFM Duty Ratio
PFMDTY
No Load
Efficiency
EFFI
Recommended Circuit using XP161A1355
Soft-start Time
TSS
Vref=0.9V
5.0
CE "High" Voltage
VCEH
Same as IDD1
0.65
CE "Low" Voltage
VCEL
Same as IDD1
EXT "High" ON Resistance
REXTH
Same as IDD1, VEXT=VOUT-0.4V
EXT "Low" ON Resistance
REXTL
Same as IDD1, VEXT=0.4V
CE "High" Current
ICEH
(XC9106 series)
85
10.0
%
%
20.0
mS
V
24
16
0.20
V
36
Ω
CE "Low" Current
ICEL
Same as IDD2, CE=0V
-0.1
µA
FB "High" Current
IFBH
Same as IDD2, FB=VDD
0.1
µA
FB "Low" Current
IFBL
Same as IDD2, FB=1.0V
-0.1
µA
Test Conditions: Unless otherwise stated, CL: ceramic, recommended MOS FET should be connected.
VDD =
3.30
(V) ! Vref =
0.09
(V) ,
VIN =
3.30
(V) ! IOUT =
50
(mA)
RFB1, 2 x 10
Notes 1* :
Although the IC starts step-up operations from a VDD of 0.8V, the output voltage and oscillation frequency are stabilized at
VDD ≥ 1.8V or (Vref applied voltage + 0.7V). Therefore, a VDD of more than 1.8V or (Vref applied voltage + 0.7V) is recommended when VDD is
supplied from VIN or other power sources.
4
Semiconductor Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" ELECTRICAL CHARACTERISTICS
XC9106D003MR, XC9107D003MR
*1
*1
Ta=25OC
(FOSC=300 (kHz)
PARAMETER
SYMBOL
Output Voltage
VOUT
Reference Voltage Range
Vref
MIN.
TYP.
MAX.
Vref = 0.9V
CONDITIONS
8.820
9.000
9.180
V
2.5
V
1
-
Vref = 0.8V
0.784
0.800
0.816
Vref = 0.9V
0.882
0.900
0.918
V
4
Vref = 2.5V
2.450
2.500
2.500
10.0
V
0.9
V
3
0.8
V
4
0.8
FB Control Voltage
VFB
Power Supply Voltage Range
VDD
VDD as shown right or (Vref applied voltage + 0.7V)
Operation Start Voltage
VST1
Recommended Circuit using 2SD1628, IOUT=1.0mA
Oscillation Start Voltage
VST2
1.8
No external connections
UNITS CIRCUIT
CE/Vref=0.9V, Voltage applied, FB=0V
24
Ω
3
4
4
5
4
4
1
1
1
5
5
4
4
Same as IDD2, CE=0.8V
-1.0
0.0
µA
5
Same as IDD2, CE=2.5V
0.0
2.5
5
5
5
Operation Holding Voltage
VHLD
Recommended Circuit using 2SD1628, IOUT=1.0mA
0.7
V
Supply Current 1
IDD1
Same as VST2, VDD=3.300V
62
88
µA
Supply Current 2
IDD2
Same as IDD1, FB=1.2V
16
22
µA
1.0
µA
255
300
345
KHz
75
81
87
%
24
32
40
Stand-by Current
ISTB
Same as IDD1, CE/Vref=0V
Oscillation Frequency
FOSC
Same as IDD1
Maximum Duty Ratio
MAXDTY
Same as IDD1
PFM Duty Ratio
PFMDTY
No Load
Efficiency
EFFI
Recommended Circuit using XP161A1355
Soft-start Time
TSS
Vref=0.9V
5.0
CE "High" Voltage
VCEH
Same as IDD1
0.65
CE "Low" Voltage
VCEL
Same as IDD1
EXT "High" ON Resistance
REXTH
Same as IDD1, VEXT=VOUT-0.4V
EXT "Low" ON Resistance
REXTL
Same as IDD1, VEXT=0.4V
CE "High" Current
ICEH
(XC9106 series)
85
10.0
%
%
20.0
mS
V
0.20
V
36
Ω
24
16
CE "Low" Current
ICEL
Same as IDD2, CE=0V
-0.1
µA
FB "High" Current
IFBH
Same as IDD2, FB=VDD
0.1
µA
FB "Low" Current
IFBL
Same as IDD2, FB=1.0V
-0.1
µA
Test Conditions: Unless otherwise stated, CL: ceramic, recommended MOS FET should be connected.
VDD =
3.30
(V) ! Vref =
0.09
(V) ,
VIN =
3.30
(V) ! IOUT =
50
(mA)
RFB1, 2 x 10
Notes 1* :
Although the IC starts step-up operations from a VDD of 0.8V, the output voltage and oscillation frequency are stabilized at
VDD ≥ 1.8V or (Vref applied voltage + 0.7V). Therefore, a VDD of more than 1.8V or (Vref applied voltage + 0.7V) is recommended when VDD is
supplied from VIN or other power sources.
" TYPICAL APPLICATION CIRCUIT
L
RSENSE
VIN
SD
VOUT
RFB1
CFB
RFB2
1
CL
5
Nch Power
MOS FET
Rb
2
3
Cb
4
CE/Vref
When obtaining VDD from a source other than VOUT, please insert a
capacitor CDD between the VDD pin and the GND pin in order to
provide stabler operations.
Please wire CL & CIN between the VOUT/VDD pin and the GND pin.
Strengthen the wiring sufficiently. When using a capacitor other than
ceramic or low ESR at CL, please take away RSENSE and short.
Insert Rb and CB when using a
bipolar NPN Transistor.
5
Semiconductor Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" OPERATIONAL DESCRIPTION
The XC9106 / 07 series are reference voltage (Vref) apply external step-up DC/DC Controler ICs. Output voltage will be set with external resistors
(RFB1 and 2) and Vref value. The series make it easy to control output voltage externally and are suited to software applications that need to vary
voltage such as LCD power supply for PDA.
<Error Amp.>
Error Amplifier is designed to monitor the output voltage, comparing the feedback voltage (FB) with the reference voltage Vref. In response to
feedback of a voltage lower than the reference voltage Vref, the output voltage of the error amp. decreases.
<OSC Generator>
This circuit generates the internal reference clock.
<Ramp Wave Generator>
The Ramp Wave Generator generates a saw-tooth waveform based on outputs from the OSC Generator.
<PWM Comparator>
The PWM Comparator compares outputs from the Error Amp. and saw-tooth waveform. When the voltage from the Error Amp's output is low, the
external switch will be set to ON.
<PWM/PFM Controler>
This circuit generates PFM pulses.
The PWM/PFM automatic switching mode switches between PWM and PFM automatically depending on the load. PWM/PFM control turns into
PFM control when threshold voltage becomes lower than voltage of error amps. Noise is easily reduced with PWM control since the switching
frequency is fixed. Because of the function, control suited to the application can easily be selected. The series suitable for noise sensitive portable
audio equipment as PWM control can suppress noise during operation and PWM/PFM switching control can reduce consumption current during light
loads in stand-by.
<Vref 1 with Soft Start>
The reference voltage of the XC9106/9107 series is adjusted and fixed by external applied voltage. (For output voltage settings, please refer to the
output voltage setting on page 7.)
To protect against inrush current, when the power is switched on, and also to protect against voltage overshoot, soft-start time is set internally to
10ms. It should be noted, however, that this circuit does not protect the load capacitor (CL) from inrush current. With the Vref voltage limited, and
depending upon the input to error amp, the operation maintains a balance between the two inputs of error amps and controls the EXT pin's ON time
so that it doesn't increase more than is necessary.
The XC9106/9107 series alters soft start times by the setting value of reference voltage in order to protect against voltage overshoot and also to
protect against inrush current. Please determine soft start time by the formula equation.
XC9106 / XC9107D xxx MR
TSS = 8.65 x Vref + 2.21
[Example Computation]
30
Soft Start Time : TSS (ms)
Vref = 0.9V, TSS = 8.65 x 0.9 + 2.21 = 10.0 ms
25
20
15
10
5
0
0.0
0.5
1.0
1.5
2.0
2.5
3.0
Reference Voltage Vref (V)
<Enable Function>
This function controls the operation and shutdown of the IC. When the voltage of the CE pin drops to 0.2V or less, disable mode will be entered, the
IC's operations will stop and the EXT pin will be kept at a low level (the external N-type MOSFET will be OFF) . When the IC is in a state of chip
disable, current consumption will be no more than 1.0µA.
When the CE pin's voltage rises to 0.65V or more, enable mode will be entered and operations will recommence. The CE pin also doubles with
reference voltage in the XC9106/9107 series, and the range of reference voltage can be varied externally from 0.8V to 2.5V.
6
Semiconductor
Semiconductor Ltd.
Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" FUNCTIONAL SETTINGS
< Output Voltage Setting>
Output voltage can be set by adding external split resistors. Output voltage is determined by the following equation, based on the values of RFB1
and RFB2. The sum of RFB1 and RFB2 should normally be 2 MΩ or less. The range of reference voltage of the series can be varied externally
from 0.8V to 2.5V.
VOUT = Vref applied voltage x (RFB1 + RFB2) / RFB2
The value of CFB1, speed-up capacitor for phase compensation, should result in fzfb = 1/(2 π × CFB × RFB1) equal to 5 to 30kHz. Adjustments are
required depending on the application, value of inductance (L), and value of load capacity (CL).
fzfb = 30kHz (L=10µH)
RFB1 : 270kΩ
fzfb = 20kHz (L=22µH)
CFB :
fzfb = 10kHz (L=47µH)
RFB2 : 30kΩ
20pF
(fzfb = 30kHz, L = 10µH)
27pF
(fzfb = 20kHz, L = 22µH)
56pF
(fzfb = 10kHz, L = 47µH)
< The use of ceramic capacitor CL >
The circuit of the XC9106/9107 series is organized by a specialized circuit which reenacts negative feedback of both voltage and current. Also by
insertion of approximately 100mΩ of a low and inexpensive sense resistor as current sense, a high degree of stability is possible even using a
ceramic capacitor, a condition which used to be difficult to achieve. Compared to a tantalum condenser, because the series can be operated in a
very small capacity, it is suited to use of the ceramic capacitor which is cheap and small.
" RECOMMENDED COMPONENTS
Tr:
*When a MOSFET is used :
*When a NPN Tr. Is used :
2SK2159 (NEC N-Channel Power MOSFET)
Note* : With direct voltages over 4.5V, use the
XP161A11A1PR.
2SD1628 (Sanyo)
Rb
: 500Ω (adjust with Tr's HFE or load)
Cb
: 2200pF (ceramic type)
Cb ≤ 1 / (2π × Rb× FOSC × 0.7)
SD:
L, CL :
MA2Q737 (Schottky Diode type, MATSUSHITA)
Adjust as below according to the condition and peripheral components
When Ceramic capacitor is used :
L:
22µH (SUMIDA CDRH5D28, FOSC = 100kHz)
10µH (SUMIDA CDRH5D18, FOSC = 300kHz)
CL :
10V 10µF (Ceramic capacitor, LMK325BJ106ML, TAIYOYUDEN)
Use the formula below when step-up ratio and output current is large.
CL = (CL standard value) × (IOUT(mA) / 300mA × VOUT / VIN)
RSENSE :
100mΩ
(FOSC = 300kHz)
50mΩ
(FOSC = 100kHz)
When Tantalum capacitor is used :
L:
22µH (SUMIDA CDRH5D28, FOSC = 300kHz)
47µH (SUMIDA CDRH5D28, FOSC = 100kHz)
Except when IOUT(mA) / 100mA × VOUT / VIN > 2 → 22µH
CL:
16V 47µF (tantalum type NIPPONCHEMI 16MCE476MD2)
Use the formula below when step-up ratio and output current is large.
CL = (CL standard value) × (IOUT(mA) / 300mA × VOUT / VIN)
RSENSE:
Not required, but short out the wire.
When AL Electrolytic capacitor is used :
L:
22µH (SUMIDA CDRH5D28, FOSC = 300kHz)
47µH (SUMIDA CDRH5D28, FOSC = 100kHz)
Except when IOUT(mA) / 100mA × VOUT / VIN > 2 → 22µH
CL:
16V 100µF (AL electrolytic type) + 10V 2.2µF (ceramic type)
Strengthen appropriately when step-up ratio and output current is large.
RSENSE:
Not required, but short out the wire.
CFB:
Set up so that fzfb = 100kHz.
7
Semiconductor Ltd.
PWM Control, PWM/PFM Switching Control,
XC9106 / 07 Series
Step-up DC/DC Converters
Preliminary
Externally Applied Reference Voltage (Vref)
" TEST CIRCUITS
Circuit
1
Circuit
SD
4
RP
RSENSE
VOUT
CP
L
OSC
A
CFB
RFB1
VDD
EXT
VIN
A
CL
Tr
OSC
V
FB
CE
CIN
GND
EXT
RFB2
RL
VDD
CE
A
CDD
FB
GND
Circuit
2
Circuit
5
A
VDD
EXT
A
SD
RSENSE
OSC
CB
CFB
EXT
VDD
CIN
A
A
RFB1
A
CL
Tr
VIN
FB
E
GND
L
A
C
CE
V
FB
CE
RB
GND
RFB2
RL
Circuit
3
SD
L
CB
A
OSC
CFB
EXT
CIN
VDD
RFB1
A
CL
Tr
VIN
RSENSE
RB
V
FB
CE
GND
RFB2
RL
8
Semiconductor Ltd.