IR2110L6 [INFINEON]
HIGH AND LOW SIDE DRIVER; 高端和低端驱动器型号: | IR2110L6 |
厂家: | Infineon |
描述: | HIGH AND LOW SIDE DRIVER |
文件: | 总14页 (文件大小:357K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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Data Sheet No. PD-6.074
IR2110L6
HIGH AND LOW SIDE DRIVER
Features
Product Summary
n Floating channel designed for bootstrap operation
Fully operational to +600V
V
600V max.
2A / 2A
OFFSET
I +/-
O
Tolerant to negative transient voltage
dV/dt immune
n Gate drive supply range from 10 to 20V
n Undervoltage lockout for both channels
n Separate logic supply range from 5 to 20V
Logic and power ground ±5V offset
n CMOS Schmitt-triggered inputs with pull-down
n Cycle by cycle edge-triggered shutdown logic
n Matched propagation delay for both channels
n Outputs in phase with inputs
V
10 - 20V
120 & 94 ns
10 ns
OUT
(typ.)
t
on/off
Delay Matching
Description
The IR2110L6 is a high voltage, high speed power
MOSFET and IGBT driver with independent high and
low side referenced output channels. Proprietary HVIC
and latch immune CMOS technologies enable rugge-
dized monolithic construction. Logic inputs are com-
patible with standard CMOS or LSTTL outputs.The
output drivers feature a high pulse current buffer stage
designed for minimum driver cross-conduction. Propa-
gation delays are matched to simplify use in high fre-
quency applications.The floating channel can be used
to drive an N-channel power MOSFET or IGBT in the
high side configuration which operates up to 600 volts.
Absolute Maximum Ratings
Absolute Maximum Ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters are absolute volt-
ages referenced to COM. The Thermal Resistance and Power Dissipation ratings are measured under board mounted and still air conditions.
Parameter
High Side Floating SupplyVoltage
High Side Floating Supply Offset Voltage
High Side Floating Output Voltage
Low Side Fixed Supply Voltage
Low Side Output Voltage
Min.
-0.5
—
Max.
Units
V
V
V + 20
S
B
S
600
V
V
- 0.5
V
B
+ 0.5
20
HO
S
V
-0.5
CC
V
LO
-0.5
-0.5
V
+ 0.5
V
CC
V
Logic SupplyVoltage
V
+ 20
+ 0.5
+ 0.5
DD
SS
CC
DD
V
Logic Supply OffsetVoltage
V
- 20
V
V
SS
CC
SS
V
Logic InputVoltage (HIN, LIN & SD)
Allowable Offset SupplyVoltageTransient (Figure 2)
V
- 0.5
IN
dV /dt
s
—
50
V/ns
W
P
Package Power Dissipation @T ≤ +25°C
—
—
1.6
75
D
A
R
θJA
Thermal Resistance, Junction to Ambient
JunctionTemperature
°C/W
T
-55
-55
—
125
150
300
J
S
L
T
T
StorageTemperature
°C
g
LeadTemperature (Soldering, 10 seconds)
Weight
1.5 (typical)
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IR2110L6
Recommended Operating Conditions
The Input/Output logic timing diagram is shown in Figure 1. For proper operation the device should be used within the
recommended conditions. TheV andV offset ratings are tested with all supplies biased at 15V differential.Typical
S
SS
ratings at other bias conditions are shown in Figures 36 and 37.
Parameter
Min.
Max.
Units
V
High Side Floating Supply Absolute Voltage
High Side Floating Supply Offset Voltage
High Side Floating Output Voltage
Low Side Fixed SupplyVoltage
Low Side Output Voltage
V
+ 10
V + 20
S
600
B
S
V
S
-4
V
V
S
10
0
V
B
20
HO
V
V
CC
V
V
LO
CC
+ 20
V
DD
Logic Supply Voltage
V
+ 5
V
SS
SS
-5
V
Logic Supply Offset Voltage
5
SS
V
Logic Input Voltage (HIN, LIN & SD)
V
V
DD
IN
SS
Dynamic Electrical Characteristics
V
(V , V , V ) = 15V, andV = COM unless otherwise specified. The dynamic electrical characteristics are
CC BS DD SS
BIAS
measured using the test circuit shown in Figure 3.
Tj = 25°C
Tj =
-55 to 125°C
Parameter
Min.
—
Typ. Max. Min. Max. Units
Test Conditions
t
Turn-On Propagation Delay
Turn-Off Propagation Delay
Shutdown Propagation Delay
Turn-On RiseTime
120
94
150
125
140
35
—
—
—
—
—
—
260
220
235
50
V = 0V
S
on
t
off
—
V
= 600V
= 600V
S
S
ns
t
—
110
25
V
sd
t
—
C = 1000pf
L
r
t
f
Turn-Off FallTime
—
17
25
40
C = 1000pf
L
H
L
H
L
MT
Delay Matching, HS & LSTurn-On/Off
—
—
10
—
| ton - ton| /| toff - toff|
Typical Connection
600V
up to
HO
VB
VDD
HIN
SD
VDD
HIN
SD
VS
TO
LOAD
LIN
VSS
VCC
COM
LO
LIN
VSS
VCC
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IR2110L6
Static Electrical Characteristics
V
(V , V , V ) = 15V, unless otherwise specified.The V , V and I parameters are referenced toV and are
IN TH IN SS
BIAS CC BS DD
applicable to all three logic input pins: HIN, LIN and SD. The V and I parameters are referenced to COM or V and are
O
O
S
applicable to the respective output pins: HO or LO.
Tj = 25°C
Tj =
-55 to 125°C
Parameter
Min.
3.1
6.4
9.5
12.5
—
Typ. Max. Min. Max. Units
Test Conditions
V
Logic“1”InputVoltage
—
—
—
—
3.3
6.8
10
13.3
—
—
—
V
= 5V
= 10V
= 15V
= 20V
= 5V
IH
DD
V
V
DD
DD
V
V
—
—
—
—
—
—
V
DD
V
Logic “0” Input Voltage
High Level Output Voltage, V
—
1.8
3.8
6
1.7
3.6
5.7
7.9
1.5
0.1
250
500
600
60
V
DD
IL
—
—
—
V
= 10V
= 15V
= 20V
DD
—
—
—
V
DD
—
—
8.3
1.2
0.1
50
230
340
30
40
—
V
DD
V
OH
- V
O
—
0.7
—
—
V
=V
=V
I
IH, O
= 0A
= 0A
BIAS
O
IN
V
Low Level Output Voltage, V
—
—
V
IN
I
IH, O
OL
LK
I
Offset Supply Leakage Current
Quiescent V Supply Current
—
—
—
V
= V = 600V
B
S
I
—
125
180
5
—
µA
V
=0V or V
QBS
QCC
QDD
BS
IN
IN
IN
DD
DD
DD
I
I
Quiescent V
Supply Current
Supply Current
—
—
V
V
=0V orV
,
CC
DD
Quiescent V
—
—
=0V orV
,
I
Logic “1” Input Bias Current
Logic “0” Input Bias Current
—
15
—
70
V
= V
IN DD
IN+
I
—
—
1.0
9.7
—
—
10
—
V
IN
= 0V
IN-
V
V
Supply Undervoltage Positive
BS
7.5
8.6
BSUV+
Going Threshold
Supply Undervoltage Negative
V
V
7.0
7.4
7.0
2.0
2.0
8.2
8.5
8.2
—
9.4
9.6
9.4
—
—
—
—
—
—
—
—
—
—
—
BSUV-
BS
Going Threshold
Supply Undervoltage Positive
V
V
V
A
CCUV+
CC
GoingThreshold
Supply Undervoltage Negative
V
V
CC
CCUV-
Going Threshold
I
Output High Short Circuit Pulsed
Current
V
O
= 0V, V = V
IN DD
O+
PW ≤ 10 µs
I
Output Low Short Circuit Pulsed
Current
—
—
V
= 15V, V = 0V
O-
O IN
PW ≤ 10 µs
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IR2110L6
HV = 10 to 600V
Figure 1. Input/Output Timing Diagram
Figure 2. Floating Supply Voltage Transient Test Circuit
50%
50%
t
HIN
LIN
(0 to 600V)
t
t
t
f
on
off
r
90%
90%
HO
LO
10%
10%
Figure 3. Switching Time Test Circuit
Figure 4. Switching Time Waveform Definition
50%
50%
HIN
LIN
SD
LO
HO
50%
10%
t
sd
MT
MT
HO
LO
90%
90%
LO
HO
Figure 5. ShutdownWaveform Definitions
Figure 6. Delay Matching Waveform Definitions
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IR2110L6
250
200
150
100
50
250
200
150
100
50
Max.
Typ.
Max.
Typ.
0
0
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
20
20
Temperature (°C)
V
BIAS Supply Voltage (V)
Figure 7A.Turn-On Time vs.Temperature
Figure 7B. Turn-On Time vs.Voltage
250
200
150
100
50
250
200
150
100
50
Max.
Typ.
Max.
Typ.
0
0
-50
-25
0
25
50
75
100
125
10
12
14
16
18
Temperature (°C)
V
BIAS Supply Voltage (V)
Figure 8A. Turn-Off Time vs.Temperature
Figure 8B.Turn-Off Time vs.Voltage
250
200
150
100
50
250
200
150
100
50
Max.
Typ.
Max.
Typ.
0
0
-50
-25
0
25
50
75
100
125
10
12
14
16
18
Temperature (°C)
VBIAS Supply Voltage (V)
Figure 9A. Shutdown Time vs. Temperature
Figure 9B. Shutdown Time vs. Voltage
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IR2110L6
100
80
60
40
20
0
100
80
60
40
20
0
Max.
Typ.
Max.
Typ.
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
VBIAS Supply Voltage (V)
Figure 10A. Turn-On Rise Time vs.Temperature
Figure 10B.Turn-On Rise Time vs.Voltage
50
40
50
40
30
20
10
0
30
Max.
20
Max.
Typ.
Typ.
10
0
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
VBIAS Supply Voltage (V)
Figure 11A.Turn-Off Fall Time vs.Temperature
Figure 11B.Turn-Off Fall Time vs.Voltage
15.0
12.0
15.0
12.0
9.0
Min.
9.0
6.0
3.0
0.0
6.0
Min.
3.0
0.0
-50
-25
0
25
50
75
100
125
5
7.5
10
12.5
15
17.5
20
Temperature (°C)
V
DD Logic Supply Voltage (V)
Figure 12A. Logic “1” Input Threshold vs. Temperature
Figure 12B. Logic “1” Input Threshold vs. Voltage
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IR2110L6
15.0
15.0
12.0
9.0
12.0
9.0
6.0
3.0
0.0
Max.
6.0
3.0
Max.
0.0
-50
-25
0
25
50
75
100
125
5
7.5
10
12.5
15
17.5
20
Temperature (°C)
V
DD Logic Supply Voltage (V)
Figure 13A. Logic “0” Input Threshold vs. Temperature
Figure 13B. Logic “0” Input Threshold vs. Voltage
5.00
4.00
3.00
2.00
5.00
4.00
3.00
2.00
Max.
Max.
1.00
1.00
0.00
0.00
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
VBIAS Supply Voltage (V)
Figure 14A. High Level Output vs.Temperature
Figure 14B. High Level Output vs.Voltage
1.00
0.80
0.60
0.40
15.0
12.0
9.0
6.0
3.0
0.0
Min.
0.20
Max.
0.00
5
7.5
10
12.5
15
17.5
20
-50
-25
0
25
50
75
100
125
V
DD Logic Supply Voltage (V)
Temperature (°C)
Figure 15A. Low Level Output vs.Temperature
Figure 15B. Low Level Output vs. Voltage
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IR2110L6
500
400
300
200
100
0
500
400
300
200
100
0
Max.
Max.
-50
-25
0
25
50
75
100
125
0
100
200
300
400
500
Temperature (°C)
V
B Boost Voltage (V)
Figure 16A. Offset Supply Current vs.Temperature
Figure 16B. Offset Supply Current vs. Voltage
500
400
300
500
400
300
Max.
200
200
Max.
Typ.
100
100
Typ.
0
0
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
V
BS Floating Supply Voltage (V)
Figure 17A.VBS Supply Current vs.Temperature
Figure 17B.VBS Supply Current vs.Voltage
625
500
375
625
500
375
250
125
0
Max.
250
Max.
Typ.
Typ.
125
0
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
VCC Fixed Supply Voltage (V)
Figure 18A.VCC Supply Current vs.Temperature
Figure 18B.VCC Supply Current vs. Voltage
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IR2110L6
100
80
60
40
20
0
100
80
60
40
20
0
Max.
Typ.
Max.
Typ.
-50
-25
0
25
50
75
100
125
5
7.5
10
12.5
15
17.5
20
20
20
Temperature (°C)
V
DD Logic Supply Voltage (V)
Figure 19A.VDD Supply Current vs.Temperature
Figure 19B. VDD Supply Current vs.Voltage
100
100
80
80
60
40
20
0
60
40
Max.
Max.
T yp.
20
Typ.
0
-50
-25
0
25
50
75
100
125
5
7.5
10
12.5
15
17.5
Temperature (°C)
VDD Logic Supply Voltage (V)
Figure 20A. Logic “1” Input Current vs.Temperature
Figure 20B. Logic “1” Input Current vs.Voltage
5.00
4.00
3.00
2.00
5.00
4.00
3.00
2.00
Max.
Max.
1.00
1.00
0.00
0.00
-50
-25
0
25
50
75
100
125
5
7.5
10
12.5
15
17.5
Temperature (°C)
V
DD Logic Supply Voltage (V)
Figure 21A. Logic “0” Input Current vs.Temperature
Figure 21B. Logic “0” Input Current vs.Voltage
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IR2110L6
11.0
10.0
9.0
11.0
10.0
9.0
Max.
Typ.
Min.
Max.
Typ.
Min.
8.0
8.0
7.0
7.0
6.0
6.0
-50
-25
0
25
50
75
100
125
-50
-25
0
25
50
75
100
125
Temperature (°C)
Temperature (°C)
Figure 22. VBS Undervoltage (+) vs. Temperature
Figure 23. VBS Undervoltage (-) vs.Temperature
11.0
11.0
10.0
10.0
Max.
Max.
9.0
Typ.
8.0
9.0
Typ.
8.0
Min.
7.0
7.0
Min.
6.0
6.0
-50
-25
0
25
50
75
100
125
-50
-25
0
25
50
75
100
125
Temperature (°C)
Temperature (°C)
Figure 24. VCC Undervoltage (+) vs.Temperature
Figure 25. VCC Undervoltage (-) vs.Temperature
5.00
4.00
5.00
4.00
3.00
Typ.
3.00
Min.
2.00
2.00
Typ.
1.00
1.00
Min.
0.00
0.00
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
V
BIAS Supply Voltage (V)
Figure 26A. Output Source Current vs.Temperature
Figure 26B. Output Source Current vs. Voltage
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IR2110L6
5.00
4.00
3.00
2.00
1.00
0.00
5.00
4.00
3.00
2.00
1.00
0.00
Typ.
Min.
Typ.
Min.
-50
-25
0
25
50
75
100
125
10
12
14
16
18
20
Temperature (°C)
V
BIAS Supply Voltage (V)
Figure 27A. Output Sink Current vs. Temperature
Figure 27B. Output Sink Current vs. Voltage
320V
320V
150
150
125
100
75
50
25
0
125
100
75
50
25
0
140V
140V
10V
10V
1E+2
1E+3
1E+4
1E+5
1E+6
1E+2
1E+3
1E+4
1E+5
1E+6
Frequency (Hz)
Frequency (Hz)
Figure 28.IR2110L6TJ vs.Frequency (IRFBC20)
Figure 29.IR2110L6TJ vs. Frequency (IRFBC30)
RGATE = 33Ω, VCC = 15V
RGATE = 22Ω, VCC = 15V
320V
140V
320V
140V
150
150
125
100
75
50
25
0
125
100
75
50
25
0
10V
10V
1E+2
1E+3
1E+4
1E+5
1E+6
1E+2
1E+3
1E+4
1E+5
1E+6
Frequency (Hz)
Frequency (Hz)
Figure 30.IR2110L6TJ vs.Frequency (IRFBC40)
Figure 31. IR2110L6TJ vs. Frequency (IRFPE50)
RGATE = 15Ω, VCC = 15V
RGATE = 10Ω, VCC = 15V
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IR2110L6
320V
140V
320V
140V
150
125
100
75
150
125
100
75
10V
10V
50
50
25
25
0
0
1E+2
1E+3
1E+4
1E+5
1E+6
1E+2
1E+3
1E+4
1E+5
1E+6
Frequency (Hz)
Frequency (Hz)
Figure 32. IR2110L6STJ vs.Frequency (IRFBC20)
Figure 33. IR2110L6STJ vs.Frequency (IRFBC30)
RGATE = 33Ω,VCC = 15V
RGATE = 22Ω, VCC = 15V
320V 140V
320V 140V 10V
150
150
125
125
100
75
50
25
0
10V
100
75
50
25
0
1E+2
1E+3
1E+4
1E+5
1E+6
1E+2
1E+3
1E+4
1E+5
1E+6
Frequency (Hz)
Frequency (Hz)
Figure 34. IR2110L6STJ vs.Frequency (IRFBC40)
Figure 35. IR2110L6STJ vs.Frequency (IRFPE50)
RGATE = 15Ω, VCC = 15V
RGATE = 10Ω, VCC = 15V
0.0
20.0
16.0
12.0
-2.0
Typ.
-4.0
-6.0
8.0
Typ.
-8.0
4.0
0.0
-10.0
10
12
14
16
18
20
10
12
14
16
18
20
V
BS Floating Supply Voltage (V)
VCC Fixed Supply Voltage (V)
Figure 36. Maximum VS Negative Offset vs.
VBS Supply Voltage
Figure 37. Maximum VSS Positive Offset vs.
VCC Supply Voltage
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IR2110L6
Functional Block Diagram
VB
UV
VDD
DETECT
R
R
Q
HV
LEVEL
SHIFT
PULSE
FILTER
HO
R
Q
S
S
VDD/VCC
LEVEL
SHIFT
HIN
SD
PULSE
GEN
VS
VCC
UV
DETECT
VDD/VCC
LEVEL
SHIFT
LIN
VSS
LO
S
R
Q
DELAY
COM
Lead Definitions
Lead
Symbol Description
V
DD
Logic supply
HIN
SD
Logic input for high side gate driver output (HO), in phase
Logic input for shutdown
LIN
Logic input for low side gate driver output (LO), in phase
Logic ground
V
V
SS
High side floating supply
B
HO
High side gate drive output
High side floating supply return
Low side supply
V
S
V
CC
LO
COM
Low side gate drive output
Low side return
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IR2110L6
Case Outline and Dimensions — MO-036AB
Pin Assignment
WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, Tel: (310) 322 3331
EUROPEAN HEADQUARTERS: Hurst Green, Oxted, Surrey RH8 9BB, UK Tel: ++ 44 1883 732020
IR CANADA:7321 Victoria Park Ave., Suite 201, Markham, Ontario L3R 2Z8, Tel: (905) 475 1897
IR GERMANY: Saalburgstrasse 157, 61350 Bad Homburg Tel: ++ 49 6172 96590
IR ITALY: Via Liguria 49, 10071 Borgaro, Torino Tel: ++ 39 11 451 0111
IR FAR EAST: K&H Bldg., 2F, 3-30-4 Nishi-Ikeburo 3-Chome, Toshima-Ki, Tokyo Japan 171 Tel: 81 3 3983 0086
IR SOUTHEAST ASIA: 315 Outram Road, #10-02 Tan Boon Liat Building, Singapore 0316 Tel: 65 221 8371
http://www.irf.com/
Data and specifications subject to change without notice.
6/96
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