Supertex inc.
High-Voltage, Current-Mode
PWM Controller
Features
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HV9113
General Description
10 to 120V input voltage range
Current-mode control
High efficiency
Up to 1.0MHz internal oscillator
Internal start-up circuit
Low internal noise
99% maximum duty cycle
The Supertex HV9113 is a BiCMOS/DMOS single-output, pulse width
modulator IC intended for use in high-speed, high-efficiency switch
mode power supplies. It provides all the functions necessary to
implement a single-switch current mode PWM, in any topology, with a
minimum of external parts.
Because the HV9113 utilizes Supertex’s proprietary BiCMOS/DMOS
technology, it requires less than one tenth of the operating power of
conventional bipolar PWM ICs, and can operate at more than twice
their switching frequency. The dynamic range for regulation is also
increased, to approximately 8 times that of similar bipolar parts. It starts
directly from any DC input voltage between 10 and 120VDC, requiring
no external power resistor. The output stage is push-pull CMOS and
thus requires no clamping diodes for protection, even when significant
lead length exists between the output and the external MOSFET. The
clock frequency is set with a single external resistor.
Accessory functions are included to permit fast remote shutdown
(latching or non-latching) and under voltage shutdown.
For similar ICs intended to operate directly from up to 450VDC input,
please consult the data sheets for the HV9120 and HV9123.
For detailed circuit and application information, please refer to
application notes AN-H13 and AN-H21 to AN-H24.
Applications
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DC/DC converters
Distributed power systems
ISDN equipment
PBX systems
Modems
Functional Block Diagram
14
FB
COMP
13
Error
Amplifier
10
–
+
REF
GEN
1
6
2
–
+
8.1V
8.6V
Current
Sources
4V
2V
–
+
+
To
Internal
Circuits
–
1.2V
–
+
Undervoltage
Comparator
Q
S
R
VDD
11
12
SHUTDOWN
RESET
Current Limit
Comparator
OSC
Modulator
Comparator
To V
DD
Q
4
5
DISCHARGE
9
OSC
IN
8
OSC
OUT
7
VREF
R
S
OUTPUT
-VIN
BIAS
VDD
+VIN
3
SENSE
Pre-regulator/Startup
Doc.# DSFP-HV9112
A031314
Supertex inc.
www.supertex.com
HV9113
Ordering Information
Part Number
HV9112NG-G
HV9112NG-G M905
Package Options
Packing
14-Lead SOIC (Narrow Body) 53/Tube
14-Lead SOIC (Narrow Body) 2500/Reel
Pin Configuration
-G denotes a lead (Pb)-free / RoHS compliant package
Absolute Maximum Ratings
Parameter
Input voltage, V
IN
Logic voltage, V
DD
Logic linear input,
FB and sense input voltage
Operating temperature range
Storage temperature range
Power dissipation
Value
120V
15.5V
-0.3V to V
DD
+0.3V
-55°C to +125°C
-65°C to +150°C
750mW
14-Lead SOIC (Narrow Body)
Product Marking
Top Marking
YWW
HV9113NG
LLLLLLLL
Bottom Marking
CCCCCCCCC AAA
Y = Last Digit of Year Sealed
WW = Week Sealed
L = Lot Number
C = Country of Origin*
A = Assembler ID*
= “Green” Packaging
*May be part of top marking
Stresses beyond those listed under “Absolute Maximum Ratings” may cause
permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in
the operational sections of the specifications is not implied. Exposure to absolute
maximum rating conditions for extended periods may affect device reliability.
Package may or may not include the following marks: Si or
14-Lead SOIC (Narrow Body)
Typical Thermal Resistance
Package
14-Lead Narrow Body SOIC
θ
ja
75°C/W
Electrical Characteristics
Sym
Reference
Parameter
(Unless otherwise specified, V
DD
= 10V, +V
IN
= 48V, Discharge = -V
IN
= 0V, R
BIAS
= 390kΩ, R
OSC
= 330kΩ, T
A
= 25°C.)
#
-
Min
3.92
3.82
15
-
-
1.0
80
160
-
-
Typ
4.00
4.00
30
125
0.25
3.0
100
200
-
170
Max
4.08
4.16
45
250
-
-
120
240
15
-
Units
Conditions
R
L
= 10MΩ
V
REF
Z
OUT
I
SHORT
ΔV
REF
Oscillator
f
MAX
f
OSC
-
-
Output voltage
Output impedance
Short circuit current
Change in V
REF
with temperature
Oscillator frequency
Initial accuracy
1
-
#
-
#
-
-
-
-
#
V
kΩ
μA
mV/°C
MHz
kHz
%
ppm/°C
R
L
= 10MΩ,
T
A
= -55°C to +125°C
---
V
REF
= -V
IN
T
A
= -55°C to +125°C
R
OSC
= 0Ω
R
OSC
= 330kΩ
R
OSC
= 150kΩ
9.5V< V
DD
<13.5V
T
A
= -55°C to +125°C
Voltage stability
Temperature coefficient
Note:
# Guaranteed by design.
1. Stray capacitance on OSC In pin must be ≤5pF.
Doc.# DSFP-HV9113
A031314
2
Supertex inc.
www.supertex.com
HV9113
Electrical Characteristics
(cont.)
Sym
PWM
D
MAX
Maximum duty cycle
Deadtime
D
MIN
Minimum duty cycle
Maximum pulse width before
pulse drops out
Maximum input signal
t
D
V
FB
I
IN
V
OS
A
VOL
GB
Z
OUT
I
SOURCE
I
SINK
PSRR
+V
IN
+I
IN
V
TH
V
LOCK
Supply
I
DD
I
Q
I
BIAS
V
DD
Supply current
Quiescent supply current
Nominal bias current
Operating range
-
-
-
-
-
-
-
9.0
0.75
0.55
20
-
1.0
-
-
13.5
mA
mA
μA
V
C
L
< 75pF
SHUTDOWN = -V
IN
---
---
Delay to output
Feedback voltage
Input bias current
Input offset voltage
Open loop voltage gain
Unity gain bandwidth
Out impedance
Output source current
Output sink current
Power supply rejection
Input voltage
Input leakage current
Vdd pre-regulator turn-off
threshold voltage
Undervoltage lockout
Error Amplifier
-
-
-
#
#
#
-
-
#
-
-
-
-
10
-
8.0
7.0
-1.4
0.12
3.96
-
60
1.0
4.00
25
80
1.3
see Fig. 1
-2.0
0.15
see Fig. 2
-
-
8.7
8.1
120
10
9.4
8.9
-
-
4.04
500
-
-
V
nA
-
dB
MHz
Ω
mA
mA
dB
V
μA
V
V
V
FB
shorted to COMP
V
FB
= 4.0V
---
---
---
---
V
FB
= 3.4V
V
FB
= 4.5V
---
I
IN
< 10µA; V
CC
> 9.4V
V
DD
> 9.4V
I
PREREG
= 10µA
---
#
#
-
#
95
-
-
-
97
225
-
80
99
-
0
125
%
ns
%
ns
---
---
---
---
Parameter
(Unless otherwise specified, V
DD
= 10V, +V
IN
= 48V, Discharge = -V
IN
= 0V, R
BIAS
= 390kΩ, R
OSC
= 330kΩ, T
A
= 25°C.)
#
Min
Typ
Max
Units
Conditions
Current Limit
-
#
1.0
-
1.2
80
1.4
120
V
ns
V
FB
= 0V
V
SENSE
= 1.5V, V
COMP
≤ 2.0V
nulled during trim
Pre-regulator/Startup
Note:
# Guaranteed by design. Not subject to production test.
Doc.# DSFP-HV9113
A031314
3
Supertex inc.
www.supertex.com
HV9113
Electrical Characteristics
(cont.)
Sym
t
SD
t
SW
t
RW
t
LW
V
IL
V
IH
I
IH
I
IL
Output
-
V
OH
Output high voltage
-
-
V
OL
Output low voltage
Pull up
R
OUT
Output resistance
Pull down
Pull up
Pull down
t
R
t
F
Rise time
Fall time
-
-
-
-
-
#
#
V
DD
- 0.25
V
DD
- 0.3
-
-
-
-
-
-
-
-
-
-
-
-
15
8.0
20
10
30
20
-
-
0.2
0.3
25
20
30
30
75
75
V
V
I
OUT
= 10mA
I
OUT
= 10mA,
T
A
= -55°C to 125°C
I
OUT
= -10mA
I
OUT
= -10mA,
T
A
= -55°C to 125°C
I
OUT
= ±10mA
I
OUT
= ±10mA,
T
A
= -55°C to 125°C
C
L
= 500pF
C
L
= 500pF
Parameter
SHUTDOWN delay
SHUTDOWN pulse width
RESET pulse width
Latching pulse width
Input low voltage
Input high voltage
Input current, input high voltage
Input current, input low voltage
Shutdown Logic
#
#
#
#
-
-
-
-
-
50
50
25
-
7.0
-
-
50
-
-
-
-
-
1.0
-25
100
-
-
-
2.0
-
5.0
-35
ns
ns
ns
ns
V
V
μA
μA
C
L
= 500pF, V
SENSE
= -V
IN
---
---
SHUTDOWN and RESET low
---
---
V
IN
= V
DD
V
IN
= 0V
(Unless otherwise specified, V
DD
= 10V, +V
IN
= 48V, Discharge = -V
IN
= 0V, R
BIAS
= 390kΩ, R
OSC
= 330kΩ, T
A
= 25°C.)
#
Min
Typ
Max
Units
Conditions
Ω
Ω
ns
ns
Note:
# Guaranteed by design. Not subject to production test.
Truth Table
SHUTDOWN
H
H
L
L
L→H
RESET
H
H→L
H
L
L
Output
Normal operation
Normal operation, no change
Off, not latched
Off, latched
Off, latched, no change
Doc.# DSFP-HV9113
A031314
4
Supertex inc.
www.supertex.com
HV9113
Test Circuits
Error Amp Z
OUT
+10V
(V
DD
)
–
+
0.1V swept
10Hz - 1.0MHz
60.4K
PSRR
100K1%
1.0V swept 100Hz - 2.2MHz
10.0V
Tektronix
P6021
(1 turn
secondary)
100K1%
4.0V
(FB)
Reference
GND
(-V
IN
)
–
+
V
1
V
2
40.2K
Reference
0.1µF
V
2
V
1
0.1µF
NOTE:
Set Feedback Voltage so that V
COMP
= V
DIVIDE
± 1.0mV
before connecting transformer
Detailed Description
The preregulator/startup circuit for the HV9113 consists of
a high-voltage n-channel depletion-mode DMOS transis-
tor driven by an error amplifier to form a variable current
path between the VIN terminal and the VDD terminal. The
maximum current (about 20 mA) occurs when V
DD
= 0, with
current reducing as V
DD
rises. This path shuts off altogether
when V
DD
rises to somewhere between 7.8 and 9.4V, so that
if V
DD
is held at 10 or 12V by an external source(generally the
supply the chip is controlling). No current other than leakage
is drawn through the high voltage transistor. This minimizes
dissipation.
An external capacitor between VDD and VSS is generally
required to store energy used by the chip in the time be-
tween shutoff of the high voltage path and the VDD supply’s
output rising enough to take over powering the chip. This
capacitor should have a value of 100X or more the effective
gate capacitance of the MOSFET being driven, i.e.,
C
STORAGE
≥ 100 x (gate charge of FET at 10V)
as well as very good high frequency characteristics. Stacked
polyester or ceramic caps work well. Electrolytic capacitors
are generally not suitable.
A common resistor divider string is used to monitor V
DD
for
both the under voltage lockout circuit and the shutoff circuit
of the high voltage FET. Setting the under voltage sense
point about 0.6V lower on the string than the FET shutoff
point guarantees that the under voltage lockout always re-
leases before the FET shuts off.
Preregulator
Bias Circuit
An external bias resistor, connected between the BIAS pin
and VSS is required by the HV9113 to set currents in a se-
ries of current mirrors used by the analog sections of the
chip. The nominal external bias current requirement is 15
to 20µA, which can be set by a 390kΩ to 510kΩ resistor if a
10V V
DD
is used, or a 510kΩ to 680kΩ resistor if V
DD
will be
12V. A precision resistor is not required; ± 5% is fine.
Clock Oscillator
The clock oscillator of the HV9113 consists of a ring of CMOS
inverters, timing capacitors, and a capacitor discharge FET.
A single external resistor between the OSC IN and OSC OUT
is required to set the oscillator frequency (see graph). The
Discharge pin can either be connected to VSS directly or
connected to VSS through a resistor used to set a deadtime.
One major difference exists between the Supertex HV9113
and competitive 9113s. On the Supertex part, the oscillator
is shut off when a shutoff command is received. This saves
about 150µA of quiescent current, which aids in the con-
struction of power supplies that meet CCITT specification
I-430, and in other situations where an absolute minimum of
quiescent power dissipation is required.
Doc.# DSFP-HV9113
A031314
5
Supertex inc.
www.supertex.com
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