POWERINT INT201PF1

®
INT201
High-side Driver IC
Floating Inputs
Floating High-side Drive
Product Highlights
Floating Control Inputs
• Connects directly to INT200 or INT202 HSD outputs
• No external level translators or transformers required
HV
Gate Drive Output for an External MOSFET
• Provides 300 mA sink/150 mA source current
• Can drive MOSFET gate at up to 15 V
• Floating source for driving high-side N-channel MOSFET
• External MOSFET allows flexibility in design for various
motor sizes
INT201
VDD
Built-in Protection Circuits
• Logic inputs include noise rejection circuitry
• Undervoltage lockout
HS IN
INT200
3-PHASE
BRUSHLESS
DC MOTOR
LS IN
PI-1764-020196
Figure 1. Typical Application.
Description
The INT201 high-side driver IC provides gate drive for an
external high-side MOSFET switch. When used in conjunction
with the INT200 or INT202 low-side drivers, the INT201
provides a simple, cost-effective interface between low-voltage
control logic and high-voltage loads.
Built-in noise rejection circuitry shared between the INT201
and the INT200 or INT202 provides reliable operation in the
harshest industrial environments. The INT201 is powered from
a ground-referenced low-voltage supply. A floating supply is
derived from this rail by using a simple bootstrap technique to
provide adequate gate drive for the external N-channel MOSFET.
Applications include motor drives, electronic ballasts, and
uninterruptible power supplies. The INT201 can also be used
to implement full-bridge and multi-phase configurations.
The INT201 is available in 8-pin plastic DIP and SOIC packages.
N/C 1
8
VDDH
N/C 2
7
N/C
HSD1 3
6
HS OUT
HSD2 4
5
SOURCE
PI–285D–091191
Figure 2. Pin Configuration.
ORDERING INFORMATION
PART
NUMBER
PACKAGE
OUTLINE
TEMP
RANGE
INT201PFI
P08A
-40 to 85°C
INT201TFI
T08A
-40 to 85°C
February 1996
INT201
Pin Functional Description
Pin 1:
No connection.
Pin 2:
No connection.
Pin 3:
Level shift input HSD 1 works in
conjunction with HSD 2 to provide
interface from the low side control logic
and to give noise immunity.
Pin 4:
Level shift input HSD 2 works in
conjunction with HSD 1 to provide
interface from the low side control logic
and to give noise immunity.
Pin 5:
SOURCE connection. Analog reference
point for the circuit, normally connected
to the source of the high side MOSFET.
Pin 6:
HS OUT is the output of the MOSFET
driver for the high side.
Pin 7:
No connection.
Pin 8:
VDDH supplies power to the control logic
and output driver.
VDDH
LINEAR
REGULATOR
UV
LOCKOUT
HSD1
DISCRIMINATOR
HSD2
S
Q
DELAY
HS OUT
R
SOURCE
PI-514B-021792
Figure 3. Functional Block Diagram of the INT201.
INT201 Functional Description
5 V Regulator
The 5 V linear regulator circuit provides
the supply voltage for the noise rejection
circuitry and control logic. This allows
the logic section and the driver circuitry
to be directly compatible with 5 V CMOS
logic without the need of an external 5 V
supply.
Undervoltage Lockout
The undervoltage lockout circuit disables
the HS OUT pin whenever the VDDH
power supply falls below 9.0 V, and
maintains this condition until the VDDH
power supply rises above 9.35 V. This
guarantees that the high side MOSFET
will be off during power-up or fault
conditions.
Noise Immunization Circuit
This circuit provides noise immunity by
combining a sampling circuit with a
flip-flop to turn on and off the driver
only when required to and not when
there is noise on the HSD inputs.
2
F
2/96
Driver
The CMOS driver circuit provides drive
power to the gate of the MOSFET used
on the high side of the half bridge circuit.
The driver consists of a CMOS buffer
capable of driving external transistors at
up to 15 V. The SOURCE pin is
connected to the source of the external
MOSFET to establish a reference for the
gate voltage.
INT201
HV+
8
7
6
5
Q2
R2
PHASE 2
C2
INT201
D1
1
2
3
4
PHASE 1
VDD
8
6
5
INT200
C1
HS IN
7
1
2
3
PHASE 3
Q1
4
3-PHASE
BRUSHLESS
DC MOTOR
R1
LS IN
HVPI-1467-042695
Figure 4. Using the INT200 and INT201 in a 3-phase Configuration.
General Circuit Operation
One phase of a three-phase brushless
DC motor drive circuit is shown in Figure
4 to illustrate an application of the
INT200/201. The LS IN signal directly
controls MOSFET Q1. The HS IN signal
causes the INT200 to command the
INT201 to turn MOSFET Q2 on or off as
required. The INT200 will ignore input
signals that would command both Q1
and Q2 to conduct simultaneously,
protecting against shorting the HV+ bus
to HV-.
The INT201 is latched on and off by the
edges of the appropriate low-side logic
signal (HS IN for the INT200 and HS IN
for the INT202). The high-side driver
will latch off and stay off if the bootstrap
capacitor discharges below the
Local bypassing for the low-side driver
is provided by C1. Bootstrap bias for the
high-side driver is provided by D1 and
C2. Slew rate and effects of parasitic
oscillations in the load waveforms are
controlled by resistors R1 and R2.
10
CBOOTSTRAP vs. ON TIME
PI-566B-030692
1000
Bootstrap Capacitance (µF)
The inputs are designed to be compatible
with 5 V CMOS logic levels and should
not be connected to VDD. Normal CMOS
power supply sequencing should be
observed. The order of signal application
should be VDD, logic signals, and then
HV+.
undervoltage lockout threshold.
Undervoltage lockout-induced turn off
can occur during conditions such as
power ramp up, motor start, or low speed
operation.
100
1
QG = 100 nC
0.1
0.01
0.01
QG = 20 nC
0.1
1
10
100
High Side ON Time (ms)
Figure 5. High-side On Time versus Bootstrap Capacitor.
F
2/96
3
INT201
HV+
8
7
6
5
D3
R2
PHASE 2
C2
INT201
D1
Q2
1
2
3
4
8
7
6
5
3-PHASE
SRM
VDD
PHASE 1
PHASE 3
INT202
C1
CONTROL
1
2
3
4
R1
Q1
D2
HVPI-1468-042695
Figure 6. Using the INT202 and INT201 to Drive a Switched Reluctance Motor.
General Circuit Operation (cont.)
The bootstrap capacitor must be large
enough to provide bias current over the
entire on time interval of the high-side
driver without significant voltage sag or
decay. The MOSFET gate charge must
also be supplied at the desired switching
frequency. Figure 5 shows the maximum
high-side on time versus gate charge of
4
F
2/96
the external MOSFET. Applications
with extremely long high-side on times
require special techniques discussed in
AN-10.
A three-phase switched reluctance motor
example using the INT202/201 is given
in Figure 6. The LS IN signal directly
controls MOSFET Q1. Unlike the
INT200, the INT202 allows both the
low and high-side drivers to be on at the
same time, as this is required in
applications where the load is placed
between the low and high-side output
MOSFETs.
INT201
ABSOLUTE MAXIMUM RATINGS1
VDDH Voltage ............................................................ 16.5 V
Logic Input Voltage ................................... -0.3 V to 5.5 V
HS OUT Voltage............................ -0.3 V to VDDH + 0.3 V
Storage Temperature ..................................... –65 to 125°C
Ambient Temperature ...................................... -40 to 85°C
Junction Temperature. .............................................. 150°C
Lead Temperature(2). ................................................ 260°C
Power Dissipation
PF Suffix (TA = 25˚C) .......................................... 1.25 W
PF Suffix (TA = 70˚C) ........................................ 800 mW
TF Suffix (TA = 25˚C) .......................................... 1.04 W
TF Suffix (TA = 70˚C) ........................................ 667 mW
Thermal Impedance (θJA)
PF Suffix ............................................................. 100°C/W
TF Suffix ............................................................. 120°C/W
1. Unless noted, all voltages referenced to SOURCE,
TA = 25˚C
2. 1/16" from case for 5 seconds.
Conditions
Parameter
Symbol
(Unless Otherwise Specified)
VDDH = 15 V, SOURCE = 0V
TA = -40 to 85°C
Min
Typ
Max
Units
-5
-2.5
mA
HSD INPUTS
Input Current
Threshold
IHSD1, IHSD2
HS OUT
Output Voltage,
High
VOH
Io= -20 mA
Output Voltage,
Low
VOL
Io= 40 mA
Output Short
Circuit Current
IOS
Turn-on
Delay Time
td(on)
See Figure 7
1.0
1.5
µs
tr
See Figure 7
80
120
ns
td(off)
See Figure 7
420
600
ns
tf
See Figure 7
50
100
ns
Rise
Time
Turn-off
Delay Time
Fall
Time
See Note 1
VDDH -1.0 VDDH-0.5
0.3
1.0
V
-150
V O= 0 V
VO= VDDH
V
mA
300
F
2/96
5
INT201
Conditions
Parameter
Symbol
(Unless Otherwise Specified)
VDDH= 15 V, SOURCE = 0V
TA = -40 to 85°C
Min
Typ
Max
Units
SYSTEM RESPONSE
Deadtime (Low Off
to High On)
DtP+
See Figure 8
0
450
ns
Deadtime (Low On
to High Off)
DtP-
See Figure 8
0
300
ns
Matching (Low On
to High On)
MtP+
See Figure 9
0.3
1.0
µs
Matching (Low Off
to High Off)
MtP-
See Figure 9
0.3
1.0
µs
8.5
9.0
10
V
175
350
UNDERVOLTAGE LOCKOUT
Input UV
Threshold Voltage
VDDH(UV)
Input UV
Hysteresis
mV
SUPPLY
Supply
Current
IDDH
Supply
Voltage
VDDH
1.5
10
3.0
mA
16
V
NOTES:
1. Applying a short circuit to the HS OUT pin for more than 500 µs will exceed the thermal rating of the package,
resulting in destruction of the part.
6
F
2/96
INT201
8
7
6
5
5V
INT201
1000 pF
1
2
3
INPUT
50%
4
50%
0V
td(off)
15 V
8
7
6
td(on)
tf
5
15 V
47 µF
35 V
90%
INT200
0.1 µF
1
2
3
tr
90%
HS OUT
10%
4
10%
0V
PI-1469-042695
Figure 7. Switching Time Test Circuit.
5V
8
7
6
5
INPUT
0V
INT201
1000 pF
1
2
3
4
8
7
6
5
15 V
LS OUT
15 V
47 µF
35 V
50%
50%
0V
Dtp-
INT200
0.1 µF
15 V
1
2
3
4
Dtp+
HS OUT
50%
50%
0V
1000 pF
PI-1470-042695
Figure 8. Dead Time Test Circuit.
5V
8
7
6
5
INPUT
0V
INT201
1000 pF
1
2
3
4
15 V
LS OUT
15 V
8
47 µF
35 V
7
6
5
50%
0V
Mtp+
Mtp-
INT202
0.1 µF
50%
15 V
1
2
3
1000 pF
4
HS OUT
50%
50%
0V
PI-1471-042695
Figure 9. Matching Test Circuit.
F
2/96
7
INT201
PACKAGE POWER DERATING
PI-1763-013196
Power Dissipation (W)
1.5
PF Suffix
1.0
TF Suffix
0.5
0
0
25
50
75
100
125
Junction Temperature (°C)
8
F
2/96
150
INT201
P08A
Plastic DIP-8
Dim.
inches
mm
A
B
C
D
E
F
G
H
.395 MAX
.090-.110
.015-.021
.040 TYP
.015-.030
.125 MIN
.015 MIN
.125-.135
10.03 MAX
2.29-2.79
0.38-0.53
1.02 TYP
0.38-0.76
3.18 MIN
0.38 MIN
3.18-3.43
J
K
L
.300-.320
.245-.255
.009-.015
7.62-8.13
6.22-6.48
0.23-0.38
8
5
Note 5
1
4
A
J
(3)
D
Notes:
1. Package dimensions conform to JEDEC
specification MS-001-AB for standard dual inline (DIP) package .300 inch row spacing
(PLASTIC) 8 leads (issue B, 7/85).
2. Controlling dimensions: inches.
3. Dimensions are for the molded body and do
not include mold flash or other protrusions.
Mold flash or protrusions shall not exceed .010
inch (.25 mm) on any side.
4. These dimensions measured with the leads
constrained to be perpendicular to package
bottom.
5. Pin 1 orientation identified by end notch or
dot adjacent to Pin 1.
(4)
K
(3)
H
F
G
E
0 – 15 °
L
C
B
PI-1842-050196
T08A
Plastic SO-8
DIM
inches
mm
A
B
C
D
E
F
G
H
J
K
0.189-0.197
0.050 TYP
0.014-0.019
0.012 TYP
0.053-0.069
0.004-0.010
0.228-0.244
0.007-0.010
0.021-0.045
0.150-0.157
4.80-5.00
1.27 TYP
0.35-0.49
0.31 TYP
1.35-1.75
0.10-0.25
5.80-6.20
0.19-0.25
0.51-1.14
3.80-4.00
8
5
K
1
Notes:
1. Package dimensions conform to JEDEC
specification MS-012-AA for standard small
outline (SO) package, 8 leads, 3.75 mm
(.150 inch) body width (issue A, June 1985).
2. Controlling dimensions are in mm.
3. Dimensions are for the molded body
and do not include mold flash or
protrusions. Mold flash or protrusions
shall not exceed .15 mm (.006 inch) on any
side.
4. Pin 1 side identified edge by chamfer on
top of the package body or indent on Pin 1
end.
4
(3)
A
G
E
D
B
C
(3)
H
F
J
0-8˚ TYP.
PI-1845-050196
F
2/96
9
INT201
Notes
10
F
2/96
INT201
Notes
F
2/96
11
INT201
Power Integrations reserves the right to make changes to its products at any time to improve reliability or manufacturability.
Power Integrations does not assume any liability arising from the use of any device or circuit described herein, nor does it
convey any license under its patent rights or the rights of others.
PI Logo and TOPSwitch are registered trademarks of Power Integrations, Inc.
©Copyright 1994, Power Integrations, Inc. 477 N. Mathilda Avenue, Sunnyvale, CA 94086
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12
F
2/96
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