Diodes DMTH6005LPSQ 60v 175c n-channel enhancement mode mosfet Datasheet

DMTH6005LPSQ
Green
60V +175°C N-CHANNEL ENHANCEMENT MODE MOSFET
®
POWERDI
Product Summary
Features
ADVANCED INFORMATION

BVDSS
RDS(ON) max
60V
5.5mΩ @ VGS = 10V
ID
TC = +25°C
(Note 10)
100A
Description and Applications
This MOSFET is designed to meet the stringent requirements of
automotive applications. It is qualified to AEC-Q101, supported by a
PPAP and is ideal for use in:

High Frequency Switching

Sync. Rectification

DCDC Converters

Rated to +175C – Ideal for High Ambient Temperature
Environments
100% Unclamped Inductive Switching – ensures more reliable
and robust end application
Low RDS(ON) – minimizes power losses





Low Qg – minimizes switching losses
Lead-Free Finish; RoHS Compliant (Notes 1 & 2)
Halogen and Antimony Free. “Green” Device (Note 3)
Qualified to AEC-Q101 Standards for High Reliability
PPAP Capable (Note 4)

Mechanical Data





Case: POWERDI®5060-8
Case Material: Molded Plastic, “Green” Molding Compound. UL
Flammability Classification Rating 94V-0
Moisture Sensitivity: Level 1 per J-STD-020
Terminal Finish - Matte Tin Annealed over Copper Leadframe.
Solderable per MIL-STD-202, Method 208
Weight: 0.097 grams (Approximate)
POWERDI®5060-8
Pin1
Bottom View
Top View
Internal Schematic
S
D
S
D
S
D
G
D
Top View
Pin Configuration
Ordering Information (Note 5)
Part Number
DMTH6005LPSQ-13
Notes:
Case
POWERDI®5060-8
Packaging
2,500 / Tape & Reel
1. EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant. All applicable RoHS exemptions applied.
2. See http://www.diodes.com/quality/lead_free.html for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free, "Green"
and Lead-free.
3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and
<1000ppm antimony compounds.
4. Automotive products are AEC-Q101 qualified and are PPAP capable. For more information, please refer to
http://www.diodes.com/product_compliance_definitions.html.
5. For packaging details, go to our website at http://www.diodes.com/products/packages.html.
Marking Information
D
D
D
D
= Manufacturer’s Marking
H6005LS = Product Type Marking Code
YYWW = Date Code Marking
YY = Year (ex: 15 = 2015)
WW = Week (01 - 53)
H6005LS
YY WW
S
S
S
G
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DMTH6005LPSQ
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DMTH6005LPSQ
Maximum Ratings (@TA = +25°C, unless otherwise specified.)
Characteristic
Symbol
VDSS
VGSS
Drain-Source Voltage
Gate-Source Voltage
TA = +25C
TA = +70C
TC = +25C
(Note 10)
TC = +100C
ADVANCED INFORMATION
Continuous Drain Current (Note 6)
Continuous Drain Current (Note 7)
Value
60
±20
20.6
17.2
ID
A
100
ID
Maximum Continuous Body Diode Forward Current (Note 7)
Pulsed Drain Current (10s pulse, duty cycle = 1%)
Avalanche Current, L=1mH
Avalanche Energy, L=1mH
Units
V
V
A
90
100
IS
IDM
IAS
EAS
14.8
98
A
A
A
mJ
Symbol
PD
RθJA
PD
RθJC
TJ, TSTG
Value
3.2
47
150
1
-55 to +175
Units
W
°C/W
W
°C/W
°C
Thermal Characteristics
Characteristic
Total Power Dissipation (Note 6)
Thermal Resistance, Junction to Ambient (Note 6)
Total Power Dissipation (Note 7)
Thermal Resistance, Junction to Case (Note 7)
Operating and Storage Temperature Range
Electrical Characteristics
TA = +25C
TC = +25C
(@TA = +25°C, unless otherwise specified.)
Characteristic
OFF CHARACTERISTICS (Note 8)
Drain-Source Breakdown Voltage
Zero Gate Voltage Drain Current
Gate-Source Leakage
ON CHARACTERISTICS (Note 8)
Gate Threshold Voltage
Symbol
Min
Typ
Max
Unit
BVDSS
IDSS
IGSS
60
-
-
1
±100
V
μA
nA
VGS = 0V, ID = 1mA
VDS = 48V, VGS = 0V
VGS = ±20V, VDS = 0V
VGS(TH)
RDS(ON)
VSD
4.4
5.7
7.7
0.9
3
5.5
7.2
10
-
V
Static Drain-Source On-Resistance
1
-
VDS = VGS, ID = 250μA
VGS = 10V, ID = 50A
VGS = 6V, ID = 20A
VGS = 4.5V, ID = 12.5A
VGS = 0V, IS = 50A
Ciss
Coss
Crss
Rg
Qg
Qg
Qgs
Qgd
tD(ON)
tR
tD(OFF)
tF
tRR
-
2962
965.2
59.8
0.66
47.1
23.1
10.2
12.5
8.3
9.4
22
8.9
40.4
-
QRR
-
49.7
-
Diode Forward Voltage
DYNAMIC CHARACTERISTICS (Note 9)
Input Capacitance
Output Capacitance
Reverse Transfer Capacitance
Gate Resistance
Total Gate Charge (VGS = 10V)
Total Gate Charge (VGS = 4.5V)
Gate-Source Charge
Gate-Drain Charge
Turn-On Delay Time
Turn-On Rise Time
Turn-Off Delay Time
Turn-Off Fall Time
Body Diode Reverse Recovery Time
Body Diode Reverse Recovery Charge
Notes:
mΩ
V
Test Condition
pF
VDS = 30V, VGS = 0V,
f = 1MHz
Ω
VDS = 0V, VGS = 0V, f = 1MHz
nC
VDD = 30V, ID = 50A
ns
VDD = 30V, VGS = 10V,
ID = 30A, RG = 3.3Ω
ns
nC
IF = 30A, di/dt = 100A/μs
6. Device mounted on FR-4 substrate PC board, 2oz copper, with thermal bias to bottom layer 1inch square copper plate.
7. Thermal resistance from junction to soldering point (on the exposed drain pad).
8. Short duration pulse test used to minimize self-heating effect.
9. Guaranteed by design. Not subject to product testing.
10. Package limited.
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VDS = 5V
VGS = 4.0V
40.0
25
ID, DRAIN CURRENT (A)
ID, DRAIN CURRENT (A)
30
VGS = 10.0V
VGS = 6.0V
VGS = 5.0V
VGS = 4.5V
30.0
20.0
VGS = 3.5V
10.0
20
15
10
125oC
85oC
150oC
5
25oC
175oC
-55oC
VGS = 3.0V
0
0.0
1 1.5 2 2.5 3 3.5 4 4.5
VDS, DRAIN-SOURCE VOLTAGE (V)
Figure 1. Typical Output Characteristic
VGS = 4.5V
0.007
VGS = 6.0V
0.005
0.004
VGS = 10V
0.003
0.002
0.001
0
5
10 15 20 25 30 35 40 45 50
ID, DRAIN-SOURCE CURRENT (A)
Figure 3. Typical On-Resistance vs. Drain Current and
Gate Voltage
0.01
VGS = 10V
0.009
150oC
175oC
0.008
0.007
0.006
125oC
0.005
85oC
0.004
25oC
0.003
-55oC
0.002
0.001
0
10
20
30
40
50
60
70
80
90
3
4
5
6
Figure 2. Typical Transfer Characteristic
0.009
0.006
2
VGS, GATE-SOURCE VOLTAGE (V)
0.01
0.008
1
5
RDS(ON), DRAIN-SOURCE ON-RESISTANCE (Ω)
0.5
0.06
0.05
0.04
0.03
ID = 50A
0.02
ID = 20A
0.01
ID = 12.5A
0
0
4
8
12
16
20
VGS, GATE-SOURCE VOLTAGE (V)
Figure 4. Typical Transfer Characteristic
RDS(ON), DRAIN-SOURCE ON-RESISTANCE
(NORMALIZED)
RDS(ON), DRAIN-SOURCE ON-RESISTANCE (Ω)
0
RDS(ON), DRAIN-SOURCE ON-RESISTANCE (Ω)
ADVANCED INFORMATION
50.0
100
ID, DRAIN CURRENT (A)
2
1.8
1.6
VGS = 10V, ID = 50A
1.4
1.2
1
VGS = 4.5V, ID = 12.5A
0.8
0.6
-50
-25
0
25
50
75
100 125 150 175
TJ, JUNCTION TEMPERATURE (℃)
Figure 5. Typical On-Resistance vs. Drain Current and
Junction Temperature
Figure 6. On-Resistance Variation with Junction
Temperature
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0.012
VGS = 4.5V, ID = 12.5A
0.01
0.008
0.006
0.004
VGS = 10V, ID = 50A
0.002
0
-50
-25
0
25
50
75
4
VGS(TH), GATE THRESHOLD VOLTAGE (V)
RDS(ON), DRAIN-SOURCE ON-RESISTANCE (Ω)
0.014
3.5
3
ID = 1mA
2.5
2
ID = 250µA
1.5
1
0.5
0
100 125 150 175
-50
0
25
50
75
100 125 150 175
Figure 8. Gate Threshold Variation vs. Junction
Temperature
100
CT, JUNCTION CAPACITANCE (pF)
10000
VGS = 0V
90
IS, SOURCE CURRENT (A)
-25
TJ, JUNCTION TEMPERATURE (℃)
TJ, JUNCTION TEMPERATURE (℃)
Figure 7. On-Resistance Variation with Junction
Temperature
80
70
60
50
TJ = 85oC
TJ = 125oC
40
TJ = 150oC
30
TJ = 25oC
TJ = 175oC
20
TJ = -55oC
10
f=1MHz
Ciss
1000
Coss
100
Crss
10
0
0
0.3
0.6
0.9
1.2
0
1.5
5
10
15
20
25
30
35
40
VDS, DRAIN-SOURCE VOLTAGE (V)
VSD, SOURCE-DRAIN VOLTAGE (V)
Figure 9. Diode Forward Voltage vs. Current
Figure 10. Typical Junction Capacitance
10
1000
RDS(ON) Limited
9
ID, DRAIN CURRENT (A)
8
7
VGS (V)
ADVANCED INFORMATION
DMTH6005LPSQ
6
5
4
VDS = 30V, ID = 50A
3
2
PW =100µs
PW =10ms
TJ(Max) = 175℃
TC = 25℃
Single Pulse
DUT on Infinite PW =100ms
Heatsink
PW =1s
VGS=10V
10
1
0
5
10
PW =1µs
PW =1ms
100
1
0
PW =10µs
Qg (nC)
1
10
VDS, DRAIN-SOURCE VOLTAGE (V)
Figure 11. Gate Charge
Figure 12. SOA, Safe Operation Area
15
20
25
30
35
40
45
50
0.1
100
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r(t), TRANSIENT THERMAL RESISTANCE
ADVANCED INFORMATION
1
D=0.7
D=0.5
D=0.9
D=0.3
0.1
D=0.1
D=0.05
D=0.02
0.01
D=0.01
D=0.005
RθJC(t) = r(t) * RθJC
RθJC = 1℃/W
Duty Cycle, D = t1 / t2
D=Single Pulse
0.001
1E-06
1E-05
0.0001
0.001
0.01
t1, PULSE DURATION TIME (sec)
0.1
1
10
Figure 13. Transient Thermal Resistance
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Package Outline Dimensions
Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for the latest version.
POWERDI®5060-8
D
Detail A
ADVANCED INFORMATION
D1
0(4X)
c
A1
E1 E
e
01 (4X)
1
b (8X)
e/2
1
L
b2 (4X)
D3
A
K
D2
E3 E2
M
b3 (4X)
M1
Detail A
L1
G
POWERDI®5060-8
Dim
Min
Max
Typ
A
0.90
1.10
1.00
A1
0.00
0.05
b
0.33
0.51
0.41
b2
0.200
0.350 0.273
b3
0.40
0.80
0.60
c
0.230
0.330 0.277
D
5.15 BSC
D1
4.70
5.10
4.90
D2
3.70
4.10
3.90
D3
3.90
4.30
4.10
E
6.15 BSC
E1
5.60
6.00
5.80
E2
3.28
3.68
3.48
E3
3.99
4.39
4.19
e
1.27 BSC
G
0.51
0.71
0.61
K
0.51
L
0.51
0.71
0.61
L1
0.100
0.200 0.175
M
3.235
4.035 3.635
M1
1.00
1.40
1.21
θ
10º
12º
11º
θ1
6º
8º
7º
All Dimensions in mm
Suggested Pad Layout
Please see AP02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version.
POWERDI®5060-8
X4
Y2
X3
Y3
Y5
Y1
X2
Y4
X1
Y7
Y6
G1
C
X
G
Y(4x)
Dimensions
C
G
G1
X
X1
X2
X3
X4
Y
Y1
Y2
Y3
Y4
Y5
Y6
Y7
Value (in mm)
1.270
0.660
0.820
0.610
4.100
0.755
4.420
5.610
1.270
0.600
1.020
0.295
1.825
3.810
0.180
6.610
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IMPORTANT NOTICE
ADVANCED INFORMATION
DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
(AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).
Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes
without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the
application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or
trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume
all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated
website, harmless against all damages.
Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales channel.
Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and
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indirectly, any claim of personal injury or death associated with such unintended or unauthorized application.
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noted herein may also be covered by one or more United States, international or foreign trademarks.
This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is the
final and determinative format released by Diodes Incorporated.
LIFE SUPPORT
Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express
written approval of the Chief Executive Officer of Diodes Incorporated. As used herein:
A. Life support devices or systems are devices or systems which:
1. are intended to implant into the body, or
2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the
labeling can be reasonably expected to result in significant injury to the user.
B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the
failure of the life support device or to affect its safety or effectiveness.
Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and
acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any
use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related
information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its
representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems.
Copyright © 2015, Diodes Incorporated
www.diodes.com
POWERDI is a registered trademark of Diodes Incorporated.
DMTH6005LPSQ
Document number: DS38359 Rev.1 - 2
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November 2015
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