IR2184(4)(S) (PbF) Datasheet by Infineon Technologies

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International IizR Rectifier q
IR2184(4)(S) & (PbF)
Typical Connection
HALF-BRIDGE DRIVER
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 both channels
3.3V and 5V input logic compatible
Matched propagation delay for both channels
Logic and power ground +/- 5V offset.
Lower di/dt gate driver for better noise immunity
Output source/sink current capability 1.4A/1.8A
Also available LEAD-FREE (PbF)
IR21844
IR2184
www.irf.com 1
Data Sheet No. PD60174 revG
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(Refer to Lead Assignments for correct
configuration). This/These diagram(s) show
electrical connections only. Please refer to
our Application Notes and DesignTips for
proper circuit board layout.
Packages
14-Lead PDIP
IR21844
8-Lead SOIC
IR2184S 14-Lead SOIC
IR21844S
8-Lead PDIP
IR2184
Description
The IR2184(4)(S) are high voltage,
high speed power MOSFET and IGBT
drivers with dependent high and low
side referenced output channels. Pro-
prietary HVIC and latch immune
CMOS technologies enable rugge-
dized monolithic construction. The
logic input is compatible with standard
CMOS or LSTTL output, down to 3.3V
logic. The output drivers feature a
high pulse current buffer stage designed for minimum driver cross-conduction. 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.
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IR2181/IR2183/IR2184 Feature Comparison
\mernoh'ono IOR Rectifier r d
IR2184(4)(S) & (PbF)
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Symbol Definition Min. Max. Units
VBHigh side floating absolute voltage -0.3 625
VSHigh side floating supply offset voltage VB - 25 VB + 0.3
VHO High side floating output voltage VS - 0.3 VB + 0.3
VCC Low side and logic fixed supply voltage -0.3 25
VLO Low side output voltage -0.3 VCC + 0.3
DT Programmable dead-time pin voltage (IR21844 only) VSS - 0.3 VCC + 0.3
VIN Logic input voltage (IN & SD) VSS - 0.3 VSS + 10
VSS Logic ground (IR21844 only) VCC - 25 VCC + 0.3
dVS/dt Allowable offset supply voltage transient 50 V/ns
PDPackage power dissipation @ TA +25°C (8-lead PDIP) 1.0
(8-lead SOIC) 0.625
(14-lead PDIP) 1.6
(14-lead SOIC) 1.0
RthJA Thermal resistance, junction to ambient (8-lead PDIP) 125
(8-lead SOIC) — 200
(14-lead PDIP) 75
(14-lead SOIC) 120
TJJunction temperature 150
TSStorage temperature -50 150
TLLead temperature (soldering, 10 seconds) 300
V
°C
°C/W
W
Absolute Maximum Ratings
Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters
are absolute voltages referenced to COM. The thermal resistance and power dissipation ratings are measured under board
mounted and still air conditions.
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. The VS and VSS offset rating are tested with all supplies biased at 15V differential.
Note 1: Logic operational for VS of -5 to +600V. Logic state held for VS of -5V to -VBS. (Please refer to the Design Tip
DT97-3 for more details).
Note 2: IN and SD are internally clamped with a 5.2V zener diode.
VB High side floating supply absolute voltage VS + 10 VS + 20
VSHigh side floating supply offset voltage Note 1 600
VHO High side floating output voltage VSVB
VCC Low side and logic fixed supply voltage 10 20
VLO Low side output voltage 0 VCC
VIN Logic input voltage (IN & SD) VSS VSS + 5
DT Programmable dead-time pin voltage (IR21844 only) VSS VCC
VSS Logic ground (IR21844 only) -5 5
TAAmbient temperature -40 125 °C
V
Symbol Definition Min. Max. Units
Internationo‘ 10R Rectifier
IR2184(4)(S) & (PbF)
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Dynamic Electrical Characteristics
VBIAS (VCC, VBS) = 15V, VSS = COM, CL = 1000 pF, TA = 25°C, DT = VSS unless otherwise specified.
Symbol Definition Min. Typ. Max. Units Test Conditions
ton Turn-on propagation delay 680 900 VS = 0V
toff Turn-off propagation delay 270 400 VS = 0V or 600V
tsd Shut-down propagation delay 180 270
MTon Delay matching, HS & LS turn-on 0 90
MToff Delay matching, HS & LS turn-off 0 40
trTurn-on rise time 40 60 VS = 0V
tfTurn-off fall time 20 35 VS = 0V
DT Deadtime: LO turn-off to HO turn-on(DTLO-HO) & 280 400 520 RDT= 0
HO turn-off to LO turn-on (DTHO-LO) 456µsec RDT = 200k
MDT Deadtime matching = DTLO - HO - DTHO-LO 0 50 RDT=0
0 600 RDT = 200k
nsec
nsec
Static Electrical Characteristics
VBIAS (VCC, VBS) = 15V, VSS = COM, DT= VSS and TA = 25°C unless otherwise specified. The VIL, VIH and IIN
parameters are referenced to VSS /COM and are applicable to the respective input leads: IN and SD. The VO, IO and Ron
parameters are referenced to COM and are applicable to the respective output leads: HO and LO.
Symbol Definition Min. Typ. Max. Units Test Conditions
VIH Logic “1” input voltage for HO & logic “0” for LO 2.7 VCC = 10V to 20V
VIL Logic “0” input voltage for HO & logic “1” for LO 0.8 VCC = 10V to 20V
VSD,TH+ SD input positive going threshold 2.7 —— V
CC = 10V to 20V
VSD,TH- SD input negative going threshold ——
0.8 VCC = 10V to 20V
VOH High level output voltage, VBIAS - VO — 1.2 IO = 0A
VOL Low level output voltage, VO — 0.1 IO = 0A
ILK Offset supply leakage current 50 VB = VS = 600V
IQBS Quiescent VBS supply current 20 60 150 VIN = 0V or 5V
IQCC Quiescent VCC supply current 0.4 1.0 1.6 mA VIN = 0V or 5V
IIN+ Logic “1” input bias current 25 60 IN = 5V, SD = 0V
IIN- Logic “0” input bias current 1.0 IN = 0V, SD = 5V
VCCUV+ VCC and VBS supply undervoltage positive going 8.0 8.9 9.8
VBSUV+ threshold
VCCUV- VCC and VBS supply undervoltage negative going 7.4 8.2 9.0
VBSUV- threshold
VCCUVH Hysteresis 0.3 0.7
VBSUVH
IO+ Output high short circuit pulsed current 1.4 1.9 VO = 0V,
PW10 µs
IO- Output low short circuit pulsed current 1.8 2.3 VO = 15V,
PW10 µs
V
µA
µA
V
A
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IR2184(4)(S) & (PbF)
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Functional Block Diagrams
2184
SD
UV
DETECT
DELAY
IN VS
HO
VB
PULSE
FILTER
HV
LEVEL
SHIFTER
R
R
S
Q
UV
DETECT
PULSE
GENERATOR
VSS/COM
LEVEL
SHIFT
VSS/COM
LEVEL
SHIFT
+5V
DEADTIME
COM
LO
VCC
21844
SD
UV
DETECT
DELAY
IN
DT
VSS
VS
HO
VB
PULSE
FILTER
HV
LEVEL
SHIFTER
R
R
S
Q
UV
DETECT
PULSE
GENERATOR
VSS/COM
LEVEL
SHIFT
VSS/COM
LEVEL
SHIFT
+5V
DEADTIME
COM
LO
VCC
Internationo‘ 10R Rectifier flflflflflflfl
IR2184(4)(S) & (PbF)
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14-Lead PDIP 14-Lead SOIC
IR21844 IR21844S
Lead Assignments
8-Lead PDIP 8-Lead SOIC
Lead Definitions
Symbol Description
IN Logic input for high and low side gate driver outputs (HO and LO), in phase with HO (referenced to COM
for IR2184 and VSS for IR21844)
SD Logic input for shutdown (referenced to COM for IR2184 and VSS for IR21844)
DT Programmable dead-time lead, referenced to VSS. (IR21844 only)
VSS Logic Ground (21844 only)
VBHigh side floating supply
HO High side gate drive output
VSHigh side floating supply return
VCC Low side and logic fixed supply
LO Low side gate drive output
COM Low side return
IR2184 IR2184S
1
2
3
4
8
7
6
5
IN
SD
COM
LO
VB
HO
VS
VCC
1
2
3
4
8
7
6
5
IN
SD
COM
LO
VB
HO
VS
VCC
1
2
3
4
5
6
7
14
13
12
11
10
9
8
IN
SD
VSS
DT
COM
LO
VCC
VB
HO
VS
1
2
3
4
5
6
7
14
13
12
11
10
9
8
IN
SD
VSS
DT
COM
LO
VCC
VB
HO
VS
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Figure 1. Input/Output Timing Diagram Figure 2. Switching Time Waveform Definitions
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 
 
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Figure 5. Delay Matching Waveform Definitions
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
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Figure 3. Shutdown Waveform Definitions
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Figure 4. Deadtime Waveform Definitions
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Internationo‘ 10R Rectifier
IR2184(4)(S) & (PbF)
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400
600
800
1000
1200
1400
-50 -25 0 25 50 75 100 125
Temperature (oC)
Turn-on Propagation Delay (ns)
Typ.
Max.
Figure 4A. Turn-on Propagation Delay
vs. Temperature
400
600
800
1000
1200
1400
10 12 14 16 18 20
Supply Voltage (V)
Turn-on Propagation Delay (ns)
Figure4B. Turn-on Propagation Delay
vs. Supply Voltage
Typ.
Max.
100
200
300
400
500
600
700
-50 -25 0 25 50 75 100 125
Temperature (oC)
Turn-off Propagation Delay (ns)
Typ.
Max.
Figure 5A. Turn-off Propagation Delay
vs. Temperature
100
200
300
400
500
600
700
10 12 14 16 18 20
Supply Voltage (V)
Turn-off Propagation Delay (ns)
Figure 5B. Turn-off Propagation Delay
vs. Supply Voltage
Typ.
Max.
\mernoh'ono IOR Rectifier
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0
100
200
300
400
500
-50 -25 0 25 50 75 100 125
Temperature (oC)
SD Propagation Delay (ns)
Typ.
Max.
Figure 6A. SD Propagation Delay
vs. Temperature
0
100
200
300
400
500
10 12 14 16 18 20
Supply Voltage (V)
SD Propagation Delay (ns)
Figure 6B. SD Propagation Delay
vs. Supply Voltage
Max.
Typ.
0
20
40
60
80
100
120
-50-25 0 255075100125
Temperature (oC)
Turn-on Rise Time (ns)
Typ.
Max.
Figure 7A. Turn-on Rise Time vs. Temperature
0
20
40
60
80
100
120
10 12 14 16 18 20
Supply Voltage (V)
Turn-on Rise Time (ns)
Figure 7B. Turn-on Rise Time vs. Supply Voltage
Typ.
Max.
Internationo‘ 10R Rectifier \ \\-_ \ _\
IR2184(4)(S) & (PbF)
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0
20
40
60
80
-50 -25 0 25 50 75 100 125
Temperature (oC)
Turn-off Fall Time (ns)
Typ
Max.
Figure 8A. Turn-off Fall Time vs. Temperature
0
20
40
60
80
10 12 14 16 18 20
Supply Voltage (V)
Turn-off Fall Time (ns)
Figure 8B. Turn-off Fall Time vs. Supply Voltage
Typ.
Max.
100
300
500
700
900
1100
-50 -25 0 25 50 75 100 125
Temperature (oC)
Deadtime (ns)
Min.
Figure 9A. Deadtime vs. Temperature
Typ.
Max.
100
300
500
700
900
1100
10 12 14 16 18 20
Supply Voltage (v)
Deaduime (ns)
Figure 9B. Deadtime vs. Supply Voltage
Typ.
Max.
Min.
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0
1
2
3
4
5
6
7
0 50 100 150 200
RDT (KΗ)
Deadtime ( Η
s)
Figure 9C. Deadtime vs. RDT
Typ.
Max.
Min.
0
1
2
3
4
5
6
-50 -25 0 25 50 75 100 125
Temperature (oC)
Logic "1" Input Voltage (V)
Min.
Figure 10A. Logic "1" Input Voltage
vs. Temperature
0
1
2
3
4
5
6
10 12 14 16 18 20
Supply Voltage (V)
Logic "1" Input Voltage (V)
Figure 10B. Logic "1" Input Voltage
vs. Supply Voltage
Min.
0
1
2
3
4
5
6
-50 -25 0 25 50 75 100 125
Temperature (oC)
Logic "0" Input Voltage (V)
Max.
Figure 11A. Logic "0" Input Voltage
vs. Temperature
Internationo‘ 10R Rectifier
IR2184(4)(S) & (PbF)
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0
1
2
3
4
5
6
10 12 14 16 18 20
Supply Voltage (V)
Logic "0" Input Voltage (V)
Figure 11B. Logic "0" Input Voltage
vs. Supply Voltage
Max.
0
1
2
3
4
5
6
-50 -25 0 25 50 75 100 125
Temperature (oC)
SD Input Positive Going Threshold (V)
Min.
Figure 12A. SD Input Positive Going Threshold
vs. Temperature
0
1
2
3
4
5
6
10 12 14 16 18 20
Supply Voltage (V)
SD Input Positive Going Threshold (V)
Figure 12B. SD Input Positive Going Threshold
vs. Supply Voltage
Min.
0
1
2
3
4
5
-50 -25 0 25 50 75 100 125
Temperature (oC)
SD Input Negative Going Threshold (V)
Max.
Figure 13A. SD Input Negative Going Threshold
vs. Temperature
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0
1
2
3
4
5
10 12 14 16 18 20
Supply Voltage (V)
SD Input Negative Going Threshold (V)
Figure 13B. SD Input Negative Going Threshold
vs. Supply Voltage
Max.
0
1
2
3
4
5
-50 -25 0 25 50 75 100 125
Temperature (oC)
High Level Output (V)
Max.
Figure 14A. High Level Output vs. Temperature
0
1
2
3
4
5
10 12 14 16 18 20
Supply Voltage (V)
High Level Output (V)
Figure 14B. High Level Output vs. Supply Voltage
Max.
0.0
0.1
0.2
0.3
0.4
0.5
-50 -25 0 25 50 75 100 125
Temperature (oC)
Low Level Output (V)
Max.
Figure 15A. Low Level Output vs. Temperature
Internationo‘ 10R Rectifier
IR2184(4)(S) & (PbF)
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0.0
0.1
0.2
0.3
0.4
0.5
10 12 14 16 18 20
Supply Voltage (V)
Low Level Output (V)
Figure 15B. Low Level Output vs. Supply Voltage
Max.
0
100
200
300
400
500
-50 -25 0 25 50 75 100 125
Temperature (oC)
Offset Supply Leakage Current ( Η
A)
Max.
Figure 16A. Offset Supply Leakage Current vs.
Temperature
0
100
200
300
400
500
100 200 300 400 500 600
VB Boost Voltage (V)
Offset Supply Leakage Current ( Η
A)
Figure 16B. Offset Supply Leakage Current vs.
VB Boost Voltage
Max.
0
50
100
150
200
250
-50 -25 0 25 50 75 100 125
Temperature (oC)
VBS Supply Current ( Η
A)
Min.
Figure 17A. VBS Supply Current
vs. Temperature
Typ.
Max.
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0
50
100
150
200
250
10 12 14 16 18 20
VBS Floating Supply Voltage (V)
VBS Supply Current ( Η
A)
Figure 17B. VBS Supply Current
vs. VBS Floating Supply Voltage
Typ.
Max.
Min.
0
1
2
3
4
5
-50 -25 0 25 50 75 100 125
Temperature (oC)
VCC Supply Current (mA)
Min.
Figure 18A. VCC Supply Current
vs. Temperature
Typ.
Max.
0
1
2
3
4
5
10 12 14 16 18 20
VCC Supply Voltage (V)
VCC Supply Current (mA)
Figure 18B. VCC Supply Current
vs. VCC Supply Voltage
Typ.
Max.
Min.
0
20
40
60
80
100
120
-50 -25 0 25 50 75 100 125
Temperature (oC)
Logic "1" Input Bias Current ( Η
A)
Figure 19A. Logic "1" Input Bias Current
vs. Temperature
Typ.
Max.
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0
20
40
60
80
100
120
10 12 14 16 18 20
Supply Voltage (V)
Logic "1" Input Bias Current ( Η
A)
Figure 19B. Logic "1" Input Bias Current
vs. Supply Voltage
Typ.
Max.
0
1
2
3
4
5
-50 -25 0 25 50 75 100 125
Temperature (oC)
Logic "0" Input Bias Current ( Η
A)
Max.
Figure 20A. Logic "0" Input Bias Current
vs. Temperature
0
1
2
3
4
5
10 12 14 16 18 20
Supply Voltage (V)
Logic "0" Input Bias Current ( Η
A)
Figure 20B. Logic "0" Input Bias Current
vs. Supply Voltage
Max.
6
7
8
9
10
11
12
-50 -25 0 25 50 75 100 125
Temperature (oC)
VCC and V BS UV Threshold (+) (V)
Min.
Figure 21. VCC and VBS Undervoltage Threshold (+)
vs. Temperature
Typ.
Max.
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6
7
8
9
10
11
12
-50 -25 0 25 50 75 100 125
Temperature (oC)
VCC and V BS UVThreshold (-) (V)
Min.
Figure 22. VCC and VBS Undervoltage Threshold (-)
vs. Temperature
Typ.
Max.
0
1
2
3
4
5
-50 -25 0 25 50 75 100 125
Temperature (oC)
Output Source Current (A)
Min.
Figure 23A. Output Source Current
vs. Temperature
Typ.
0
1
2
3
4
5
10 12 14 16 18 20
Supply Voltage (V)
Output Source Current (A)
Figure 23B. Output Source Current
vs. Supply Voltage
Typ.
Min.
1.0
2.0
3.0
4.0
5.0
-50 -25 0 25 50 75 100 125
Temperature (oC)
Output Sink Current (A)
Min.
Figure 24A. Output Sink Current
vs. Temperature
Typ.
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0
1
2
3
4
5
10 12 14 16 18 20
Supply Voltage (V)
Output Sink Current (A)
Figure 24B. Output Sink Current
vs. Supply Voltage
Typ.
Min.
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temprature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
Figure 21. IR2181 vs. Frequency (IRFBC 20),
R
gate
=33
, V
CC
=15V
Figure 22. IR2181 vs. Frequency (IRFBC30),
R
gate
=22
, V
CC
=15V
Figure 23. IR2181 vs. Frequency (IRFBC40),
R
gate
=15
, V
CC
=15V
\mernoh'ono IOR Rectifier
IR2184(4)(S) & (PbF)
18 www.irf.com
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
70v
0v
140v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
Figure 24. IR2181 vs. Frequency (IRFPE50),
R
gate
=10
, V
CC
=15V
Figure 25. IR21814 vs. Frequency (IRFBC20),
R
gate
=33
, V
CC
=15V
Figure 26. IR21814 vs. Frequency (IRFBC30),
R
gate
=22
, V
CC
=15V
Figure 27. IR21814 vs. Frequency (IRFBC 40),
R
gate
=15
, V
CC
=15V
Internationo‘ 10R Rectifier
IR2184(4)(S) & (PbF)
www.irf.com 19
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
70v
0v
140 v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
0v
140 v 70v
Figure 28. IR21814 vs. Frequency (IRFPE50),
R
g
ate
=10
, V
CC
=15V
Figure 29. IR2181s vs . Frequency (IRFBC 20),
R
gate
=33
, V
CC
=15V
Figure 30. IR2181s vs. Frequency (IRFBC30),
R
gate
=22
, V
CC
=15V
Figure 31. IR2181s vs. Frequency (IRFBC40),
R
gate
=15
, V
CC
=15V
\mernoh'ono IOR Rectifier
IR2184(4)(S) & (PbF)
20 www.irf.com
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Tempreture (
oC)
140 V 70V 0V
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v
70v
0v
Figure 35. IR21814s vs. Frequency (IRFBC40),
Rgate=15, VCC=15V
Figure 34. IR21814s vs. Frequency (IRFBC30),
Rgate=22, VCC=15V
Figure 33. IR21814s vs. Frequency (IRFBC20),
Rgate=33, VCC=15V
Figure 32. IR2181s vs. Frequency (IRFPE50),
Rgate=10, VCC=15V
Internationo‘ 10R Rectifier
IR2184(4)(S) & (PbF)
www.irf.com 21
20
40
60
80
100
120
140
1 10 100 1000
Frequency (KHz)
Temperature (
oC)
140v 70v
0v
Figure 36. IR21814s vs. Frequency (IRFPE50),
Rgate=10, VCC=15V
\mernoh'ono IOR Rectifier , 010L004] ’1 L
IR2184(4)(S) & (PbF)
22 www.irf.com
01-6014
01-3003 01 (MS-001AB)
8-Lead PDIP
01-6027
01-0021 11 (MS-012AA)
8-Lead SOIC
87
5
65
D B
E
A
e
6X
H
0.25 [.010] A
6
4312
4. OUTLINE CONFORMS TO JEDEC OUTLINE MS-012AA.
NOTES:
1. DIMENSIONING & TOLERANCING PER ASME Y14.5M-1994.
2. CONTROLLING DIMENSION: MILLIMETER
3. DIMENSIONS ARE SHOWN IN MILLIMETERS [INCHES].
7
K x 45°
8X L 8X c
y
FOOTPRINT
8X 0.72 [.028]
6.46 [.255]
3X 1.27 [.050] 8X 1.78 [.070]
5 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS.
6 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS.
MOLD PROTRUSIONS NOT TO EXCEED 0.25 [.010].
7 DIMENSION IS THE LENGTH OF LEAD FOR SOLDERING TO
A SUBSTRATE.
MOLD PROTRUSIONS NOT TO EXCEED 0.15 [.006].
0.25 [.010] CAB
e1 A
A1
8X b
C
0.10 [.004]
e1
D
E
y
b
A
A1
H
K
L
.189
.1497
.013
.050 BASIC
.0532
.0040
.2284
.0099
.016
.1968
.1574
.020
.0688
.0098
.2440
.0196
.050
4.80
3.80
0.33
1.35
0.10
5.80
0.25
0.40
1.27 BASIC
5.00
4.00
0.51
1.75
0.25
6.20
0.50
1.27
MIN MAX MILLIMETERSINC HE S MIN MAX
DIM
e
c .0075 .0098 0.19 0.25
.025 BASIC 0.635 BASIC
Internationd Ion Rectifier NETS: ‘ r‘nrwmm {; mmwrwc W mm mm mm : COMM m [wwsm VCH 5 w N; MAW u r LLNL H mm 4 [mug ‘ HE rm w w L m H MSW 1551
IR2184(4)(S) & (PbF)
www.irf.com 23
01-6019
01-3063 00 (MS-012AB)
14-Lead SOIC (narrow body)
01-6010
01-3002 03 (MS-001AC)
14-Lead PDIP
\mernoh'ono IOR Rectifier Internationct‘ IEZR Rectifier
IR2184(4)(S) & (PbF)
24 www.irf.com
Basic Part (Non-Lead Free)
8-Lead PDIP IR2184 order IR2184
8-Lead SOIC IR2184S order IR2184S
14-Lead PDIP IR21844 order IR21844
14-Lead SOIC IR21844 order IR21844S
Leadfree Part
8-Lead PDIP IR2184 order IR2184PbF
8-Lead SOIC IR2184S order IR2184SPbF
14-Lead PDIP IR21844 order IR21844PbF
14-Lead SOIC IR21844 order IR21844SPbF
ORDER INFORMATION
LEADFREE PART MARKING INFORMATION
Lead Free Released
Non-Lead Free
Released
Part number
Date code
IRxxxxxx
YWW?
?XXXX
Pin 1
Identifier
IR logo
Lot Code
(Prod mode - 4 digit SPN code)
Assembly site code
Per SCOP 200-002
P
?MARKING CODE
Thisproduct has been designed and qualified for the industrial market.
Qualification Standards can be found on IR’s Web Site http://www.irf.com
Data and specifications subject to change without notice.
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105
4/4/2006

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