25 Pages
English

Features Floating channel designed for bootstrap operation

-

Gain access to the library to view online
Learn more

Description

Features • Floating channel designed for bootstrap operation Fully operational to +600V Tolerant to negative transient voltage dV/dt immune • Gate drive supply range from 10 to 20V • Undervoltage lockout for all channels • Over-current shutdown turns off all six drivers • Independent half-bridge drivers • Matched propagation delay for all channels • 2.5V logic compatible • Outputs out of phase with inputs • Cross-conduction prevention logic Description The IR2130/IR2132(J)(S) is a high voltage, high speed power MOSFET and IGBT driver with three independent high and low side referenced output channels. Proprietary HVIC technology enables ruggedized monolithic construc- tion. Logic inputs are compatible with CMOS or LSTTL outputs, down to 2.5V logic. A ground-referenced operational amplifier provides analog feedback of bridge current via an external current sense resistor. A current trip function which terminates all six outputs is also derived from this resistor. An open drain FAULT signal indicates if an over-current or undervoltage shutdown has occurred. The output drivers feature a high pulse current buffer stage designed for minimum driver cross-conduction. 3-PHASE BRIDGE DRIVER Product Summary VOFFSET 600V max. IO+/- 200 mA / 420 mA VOUT 10 - 20V ton/off (typ.) 675 & 425 ns Deadtime (typ.) 2.5 µs (IR2130) 0.8 µs (IR2132) Packages 28-Lead PDIP 28-Lead SOIC 44-Lead PLCC w/o 12 Leads Data Sheet No.

  • operational amplifier

  • vcc

  • floating supply

  • logic input

  • ratings absolute

  • output voltage

  • absolute maximum

  • current


Subjects

Informations

Published by
Reads 21
Language English

Data Sheet No. PD60019-O

IR2130/IR2132 (
J
)(
S
)
3-PHASE BRIDGE DRIVER
FeaturesProduct Summary

Floating channel designed for bootstrap operation
Fully operational to +600V
V
OFFSET
600V max.
Tolerant to negative transient voltage
dV/dt immune
I
O
+/-200 mA / 420 mA

Gate drive supply range from 10 to 20V

Undervoltage lockout for all channels
V
OUT
10 - 20V

Over-current shutdown turns off all six drivers

Independent half-bridge drivers
t
on/off
(typ.)675 & 425 ns

Matched propagation delay for all channels

2.5V logic compatible

Outputs out of phase with inputs
Deadtime (typ.)2.5 µs (IR2130)

Cross-conduction prevention logic
0.8 µs (IR2132)
Description
The IR2130/IR2132(J)(S) is a high voltage, high speed
Packages
power MOSFET and IGBT driver with three independent
high and low side referenced output channels. Proprietary
HVIC technology enables ruggedized monolithic construc-
tion. Logic inputs are compatible with CMOS or LSTTL
outputs, down to 2.5V logic. A ground-referenced
operational amplifier provides analog feedback of bridge
28-Lead SOIC
current via an external current sense resistor. A current
trip function which terminates all six outputs is also
28-Lead PDIP
derived from this resistor. An open drain
FAULT
signal
indicates if an over-current or undervoltage shutdown has
occurred. The output drivers feature a high pulse current
44-Lead PLCC w/o 12 Leads
buffer stage designed for minimum driver cross-conduction.
Propagation delays are matched to simplify use at high frequencies. The floating channels can be used to drive
N-channel power MOSFETs or IGBTs in the high side configuration which operate up to 600 volts.
Typical Connection

(Refer to Lead Assignments for correct pin configuration). This/These diagram(s) show electrical connections only. Please refer
to our Application Notes and DesignTips for proper circuit board layout.

www.irf.com

1

IR2130/IR2132 (
J
)(
S
)

Absolute Maximum Ratings
eAtbesrso lautree aMbasxiolmutuem vRolattaignegss irnedfiecraetnec seud sttoa inVed .l iTmhites bTehyeromnda l wRhiecshis tdaanmcae gaen tdo tPhoew deer viDcies simpaayti oonc cruart.i nAglls vaorltea gmee paasruaremd-
under board mounted and still air conditions.
S
A
0
dditional information is shown in Figures 50 through 53.
SymbolDefinitionMin.Max.Units
V
B1,2,3
High Side Floating Supply Voltage-0.3625
V
S1,2,3
High Side Floating Offset VoltageV
B1,2,3
- 25V
B1,2,3
+ 0.3
V
HO1,2,3
High Side Floating Output VoltageV
S1,2,3
- 0.3V
B1,2,3

+ 0.3
V
CC
Low Side and Logic Fixed Supply Voltage-0.325
V
SS
Logic GroundV
CC
- 25V
CC

+ 0.3
V
LO1,2,3
Low Side Output Voltage-0.3V
CC

+ 0.3
V
IN
Logic Input Voltage (
HIN1,2,3
,
LIN1,2,3
& ITRIP)V
SS
- 0.3(V
SS

+ 15) orV
w(Vhi
C
c
C
h

e+v 0e.r 3i)s
rewolV
FLT
FAULT
Output VoltageV
SS
- 0.3V
CC

+ 0.3
V
CAO
Operational Amplifier Output VoltageV
SS
- 0.3V
CC

+ 0.3
V
CA-
Operational Amplifier Inverting Input VoltageV
SS
- 0.3V
CC

+ 0.3
dV
S
/dtAllowable Offset Supply Voltage Transient50V/ns
P
D
Package Power Dissipation @ T
A


+25
°
C(28 Lead DIP)1.5
(28 Lead SOIC)1.6W
(44 Lead PLCC)2.0
Rth
JA
Thermal Resistance, Junction to Ambient(28 Lead DIP)83
(28 Lead SOIC)78
°
C/W
(44 Lead PLCC)63
T
J
Junction Temperature150
T
S
Storage Temperature-55150
°
C
T
L
Lead Temperature (Soldering, 10 seconds)300
Recommended Operating Conditions
The Input/Output logic timing diagram is shown in Figure 1. For proper operation the device should be used within the
rweictho amllm seunpdpelide sc obinadsiteiod nast. 1A5llV v doilftfaegree npt
i
a
a
r
l
a
.
m
Ty
e
p
t
i
e
c
r
a
s
l


a
r
r
a
e
ti

n
a
g
b
s
s

o
a
l
t
u
o
t
t
e
h
v
e
o
r
l

t
b
a
ia
g
s
e

s
c

o
re
n
f
d
e
i
r
ti
e
o
n
n
c
s
e
a
d
r
t
e
o


s
V
h
S
o
0
w
.
n
T
i
h
n
e
F

i
V
g
S
u

r
o
e
ff

s
5
e
4
t
.
rating is tested
SymbolDefinitionMin.Max.Units
V
B1,2,3
High Side Floating Supply VoltageV
S1,2,3
+ 10V
S1,2,3
+ 20
V
S1,2,3
High Side Floating Offset VoltageNote 1600
V
HO1,2,3
High Side Floating Output VoltageV
S1,2,3
V
B1,2,3
V
CC
Low Side and Logic Fixed Supply Voltage1020
V
SS
Logic Ground-55
V
LO1,2,3
Low Side Output Voltage0V
CC
V
IN
Logic Input Voltage (
HIN1,2,3
,
LIN1,2,3
& ITRIP)V
SS
V
SS
+ 5V
V
FLT
FAULT

Output VoltageV
SS
V
CC
V
CAO
Operational Amplifier Output VoltageV
SS
V
SS
+ 5
V
CA-
Operational Amplifier Inverting Input VoltageV
SS
V
SS
+ 5
T
A
Ambient Temperature-40125
°
C
(NPolteea s1e: rLeofegir ct oo tpheer aDtieosnigaln f oTir pV D
S
To9f 7(-V3
S
f
0
o r- m5oVr) et od e(tVa
S
il
0
s )+. 600V). Logic state held for V
S
of (V
S0
- 5V) to (V
S0
- V
BS
).
Note 2: All input pins, CA- and CAO pins are internally clamped with a 5.2V zener diode.
2www.irf.com

IR2130/IR2132 (
J
)(
S
)
Dynamic Electrical Characteristics
Vel
B
e
I
c
A
tr
S
i c(aVl
C
c
C
h,a rVa
B
c
S
te
1,
ri
2
s
,
t
3
i)c s= a1r5eV d, eVfi
S
n
0
e
,1
d
,
i
2,
n
3


F=i gVu
S
re
S
s, 3C
L
t

h=r o1u0g0h0 5p.F and T
A
= 25
°
C unless otherwise specified. The dynamic
SymbolDefinitionFigureMin.Typ.Max.UnitsTest Conditions
t
on
Turn-On Propagation Delay11500675850
t
off
Turn-Off Propagation Delay12300425550V
IN

= 0 & 5V
t
r
Turn-On Rise Time1380125V
S1,2,3

= 0 to 600V
t
f
Turn-Off Fall Time143555
t
itrip
ITRIP to Output Shutdown Prop. Delay15400660920nsV
IN
, V
ITRIP

= 0 & 5V
t
bl
ITRIP Blanking Time400V
ITRIP

= 1V
t
flt
ITRIP to
FAULT

Indication Delay16335590845V
IN
, V
ITRIP

= 0 & 5V
t
flt,in
Input Filter Time (All Six Inputs)310V
IN

= 0 & 5V
t
fltclr
LIN1,2,3
to
FAULT

Clear Time176.09.012.0V
IN
, V
ITRIP

= 0 & 5V
DTDeadtime(IR2130)181.32.53.7
µ
sV
IN

= 0 & 5V
(IR2132)180.40.81.2
SR+Operational Amplifier Slew Rate (+)194.46.2V/
µ
s
SR-Operational Amplifier Slew Rate (-)202.43.2
NOTE: For high side PWM, HIN pulse width must be
1.5µ
sec
Static Electrical Characteristics
aVr
B
e
I

A
re
S
f e(rVe
C
n
C
c,e Vd
B
to
S

1
V
,2,3
) a=n 1d 5aVr,e Va
S
p
0
p
,
l
1
i
,
c
2
a
,3
b

l=e tVo
S
a
S
l l asnixd lTo
A
g i=c i2n5p
°
uCt luenaldess:s
H
ot
I
h
N
e
1
r
,
w
2
i
,
s
3
e &s p
L
e
I
c
N
ifi
1
e
,
d
2
.
,

3
T.h Te hVe
I

N
V, V
T
an
H
da Ind pI
I
a
N
r apmareatemresters
OOSSare referenced to V
S0,1,2,3
and are applicable to the respective output leads: HO1,2,3 or LO1,2,3.
SymbolDefinitionFigureMin.Typ.Max.UnitsTest Conditions
V
IH
Logic 0 Input Voltage (OUT = LO)212.2V
V
IL
Logic 1 Input Voltage (OUT = HI)220.8
V
IT,TH+
ITRIP Input Positive Going Threshold23400490580
V
OH
High Level Output Voltage, V
BIAS
- V
O
24100mVV
IN
= 0V, I
O
= 0A
V
OL
Low Level Output Voltage, V
O
25100V
IN
= 5V, I
O
= 0A
I
LK
Offset Supply Leakage Current2650
µ
AV
B
= V
S
= 600V
I
QBS
Quiescent V
BS
Supply Current271530V
IN
= 0V or 5V
I
QCC
Quiescent V
CC
Supply Current283.04.0mAV
IN
= 0V or 5V
I
IN+
Logic 1 Input Bias Current (OUT = HI)29450650
I
V
N
= 0V
I
IN-
Logic 0 Input Bias Current (OUT = LO)30225400
µ
A
I
V
N
= 5V
I
ITRIP+
High ITRIP Bias Current3175150ITRIP = 5V
I
ITRIP-
Low ITRIP Bias Current32100nAITRIP = 0V
V
BSUV+
V
BS
Supply Undervoltage Positive Going337.58.359.2
Threshold
V
BSUV-
V
BS
Supply Undervoltage Negative Going347.17.958.8
ThresholdV
V
CCUV+
V
CC
Supply Undervoltage Positive Going358.39.09.7
Threshold
V
CCUV-
V
CC
Supply Undervoltage Negative Going368.08.79.4
Threshold
R
on,FLT
FAULT

Low On-Resistance375575

www.irf.com

3

IR2130/IR2132 (
J
)(
S
)
Static Electrical Characteristics -- Continued
aVr
B
e
I

A
re
S
f (erVe
C
n
C
c,e Vd
B
to
S

1
V
,2S,3S
) a=n 1d 5aVr,e Va
S
p
0
p
,
l
1
i
,
c
2
a
,3
b

l=e tVo
S
a
S
l l asnixd lTo
A
g i=c i2n5p
°
uCt luenaldess:s
H
ot
I
h
N
e
1
r
,
w
2
i
,
s
3
e &s p
L
e
I
c
N
ifi
1
e
,
d
2
.
,

3
T.h Te hVe
I

N
V,
O
V
T
an
H
da In
O
d Ip
I
a
N
r apamreatemresters
are referenced to V
S0,1,2,3
and are applicable to the respective output leads: HO1,2,3 or LO1,2,3.
SymbolDefinitionFigureMin.Typ.Max.UnitsTest Conditions
I
O+
Output High Short Circuit Pulsed Current38200250V
O
= 0V, V
IN

= 0V
PW

10
µ
s
I
O-
Output Low Short Circuit Pulsed Current39420500mAV
O
= 15V, V
IN

= 5V
PW

10
µ
s
V
OS
Operational Amplifer Input Offset Voltage4030mVV
S0
= V
CA-
= 0.2V
I
CA-
CA- Input Bais Current414.0nAV
CA-
= 2.5V
CMRROp. Amp. Common Mode Rejection Ratio426080V
S0
=V
CA-
=0.1V & 5V
PSRROp. Amp. Power Supply Rejection Ratio435575dBV
S0
= V
CA-
= 0.2V
V
CC
= 10V & 20V
V
OH,AMP
Op. Amp. High Level Output Voltage445.05.25.4VV
CA-
= 0V, V
S0
= 1V
V
OL,AMP
Op. Amp. Low Level Output Voltage4520mVV
CA-
= 1V, V
S0
= 0V
I
SRC,AMP
Op. Amp. Output Source Current462.34.0V
CA-
= 0V, V
S0
= 1V
V
CAO
= 4V
I
SRC,AMP
Op. Amp. Output Sink Current471.02.1V
CA-
= 1V, V
S0
= 0V
mAV
CAO
= 2V
I
O+,AMP
Operational Amplifier Output High Short484.56.5V
CA-
= 0V, V
S0
= 5V
Circuit CurrentV
CAO
= 0V
I
O-,AMP
Operational Amplifier Output Low Short493.25.2V
CA-
= 5V, V
S0
= 0V
Circuit CurrentV
CAO
= 5V

Lead Assignments

4

28 Lead PDIP
IR2130 / IR2132

44 Lead PLCC w/o 12 Leads
IR2130J / IR2132J
Part Number

28 Lead SOIC (Wide Body)
IR2130S / IR2132S

www.irf.com

Functional Block Diagram

IR2130/IR2132 (
J
)(
S
)

Lead Definitions
SymbolDescription
HIN1,2,3Logic inputs for high side gate driver outputs (HO1,2,3), out of phase
LIN1,2,3Logic inputs for low side gate driver output (LO1,2,3), out of phase
FAULTIndicates over-current or undervoltage lockout (low side) has occurred, negative logic
V
CC
Low side and logic fixed supply
ITRIPInput for over-current shutdown
CAOOutput of current amplifier
CA-Negative input of current amplifier
V
SS
Logic ground
V
B1,2,3
High side floating supplies
HO1,2,3High side gate drive outputs
V
S1,2,3
High side floating supply returns
LO1,2,3Low side gate drive outputs
V
S0
Low side return and positive input of current amplifier

www.irf.com

5

IR2130/IR2132 (
J
)(
S
)

HIN1,2,3

LIN1,2,3

PIRTITLUAFHO1,2,3
LO1,2,3

Figure 1. Input/Output Timing Diagram

HIN1,2,3
50%50%
LIN1,2,3
LO1,2,3
50%50%
HO1,2,3
TDTDFigure 3. Deadtime Waveform Definitions

6

<50 V/ns

Figure 2. Floating Supply Voltage Transient Test Circuit

HIN1,2,3
LIN1,2,3
50%50%
t
on
t
r
t
off
t
f
90%90%
HO1,2,3
LO1,2,3
10%10%
Figure 4. Input/Output Switching Time Waveform
Definitions

www.irf.com

%05

%05

LIN1,2,3
ITRIP
50%
FAULT
50%
LO1,2,3
50%
t
flt
t
fltclr
t
itrip
Figure 5. Overcurrent Shutdown Switching Time
Waveform Definitions
t
in,fil

www.irf.com

IR2130/IR2132 (
J
)(
S
)

t
in,fil

HIN/LIN
onoffonoffonoff
hgihHO/LO
low
Figure 5.5 Input Filter Function
V
CC+V0S--ACVSS

CAO

VSSFigure 6. Diagnostic Feedback Operational Amplifier Circuit

7

IR2130/IR2132 (
J
)(
S
)

8

V51VCCV3+CA-CAO
V0-V
S0
V
SS
50 pF

T1

T2
V3%09V%01V0VVSR+ =

T1SR- =

T2
Figure 7. Operational Amplifier Slew Rate
Measurement

CAO

V51V
S0
+V
CC
-AC-VSS+k020.2V1k
V
OS
=V
CAO
- 0.2V
12Figure 8. Operational Amplifier Input Offset Voltage
Measurement

VCC15VV
S0
+
V
CC
CA--CAO
-CA-CAO V
SS
+V
S0
V
SS+
20k
0.2V1k
Measure V
CAO1
at V
S0
= 0.1V
V
CAO2
at V
S0
= 5VMeasureV
CAO1
at V
CC
= 10V
CMRR = -20LOG(V
CAO1
-0.1V) - (V
CAO2
-5V)(dB)V
CAO2
at V
CC
= 20V
*4.9VPSRR = -20*LOGV
CAO1
- V
CAO2
(10V) (21)
Figure 9. Operational Amplifier Common ModeFigure 10. Operational Amplifier Power Supply
Rejection Ratio MeasurementsRejection Ratio Measurements

www.irf.com

05.102.1.xaM09.0.pyT0.60
Min.
03.000.0-50-250255075100125
Temperature (°C)
Figure 11A. Turn-On Time vs. Temperature
05.1xaM02.1.pyT09.006.003.000.00123456
Input Voltage (V)
Figure 11C. Turn-On Time vs. Voltage
00.108.00.60
Max.
.pyT0.40
Min.
02.000.0101214161820
V
BIAS
Supply Voltage (V)
Figure 12B. Turn-Off Time vs. Supply Voltage
www.irf.com

IR2130/IR2132 (
J
)(
S
)

05.102.10.90
Max.
.pyT0.60
Min.
03.000.0101214161820
V
BIAS
Supply Voltage (V)
Figure 11B. Turn-On Time vs. Supply Voltage
00.108.00.60
Max.
0.40
Typ.
.niM02.000.0-50-250255075100125
Temperature (°C)
Figure 12A. Turn-Off Time vs. Temperature
05.102.109.0xaM06.0pyT0.30Min.
00.00123456
Input Voltage (V)
Figure 12C. Turn-Off Time vs. Input Voltage
9

IR2130/IR2132 (
J
)(
S
)

01

052002051100
Max.
.pyT050-50-250255075100125
Temperature (°C)
Figure 13A. Turn-On Rise Time vs. Temperature
5210015750
Max.
25
Typ.
0-50-250255075100125
Temperature (°C)
Figure 14A. Turn-Off Fall Time vs. Temperature
05.102.1.xaM09.0.pyT06.0.niM03.000.0-50-250255075100125
Temperature (°C)
Figure 15A. ITRIP to Output Shutdown Time vs.
Temperature

052002.xaM051100
Typ.
050101214161820
V
BIAS
Supply Voltage (V)
Figure 13B. Turn-On Rise Time vs. Voltage
52100175
Max.
50
Typ.
520101214161820
V
BIAS
Supply Voltage (V)
Figure 14B. Turn-Off Fall Time vs. Voltage
05.102.1.xaM09.0.pyT06.0.niM03.000.0101214161820
V
BIAS
Supply Voltage (V)
Figure 15B. ITRIP to Output Shutdown Time vs. Voltage
www.irf.com