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MXPLAD36KP160AE3

TVS DIODE 160V 259V PLAD

器件类别:电路保护   

厂商名称:Microsemi

厂商官网:https://www.microsemi.com

器件标准:

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器件参数
参数名称
属性值
类型
齐纳
单向通道
1
电压 - 反向关态(典型值)
160V
电压 - 击穿(最小值)
178V
电压 - 箝位(最大值)@ Ipp
259V
电流 - 峰值脉冲(10/1000µs)
139A
功率 - 峰值脉冲
36000W(36kW)
电源线路保护
应用
通用
工作温度
-55°C ~ 150°C(TJ)
安装类型
表面贴装
封装/外壳
非标准型 SMD
供应商器件封装
PLAD
通知
QPL 或军用规范仅供参考。非军用零件。参见条款和条件。
文档预览
MPLAD36KP14A
MPLAD36KP400CA
Available
Surface Mount 36,000 Watt Transient Voltage Suppressor
DESCRIPTION
These high power 36 kW rated transient voltage suppressors in a surface mount package
are provided with design features to minimize thermal resistance and cumulative heating.
Typical applications include lightning and automotive load dump protection.
They are particularly
effective at meeting the multi-stroke lightning standard RTCA DO-160, section 22 for aircraft
design. This efficient low profile package design is offered in standoff voltage selections
(V
WM
) of 14 volts to 400 volts in either unidirectional or bidirectional construction.
Important:
For the latest information, visit our website
http://www.microsemi.com.
High-Reliability
screening available in
reference to
MIL-PRF-19500
Tested in
accordance with the
requirements of
AEC-Q101
FEATURES
Available in both unidirectional and bidirectional construction (bidirectional with CA suffix)
High reliability with wafer fabrication and assembly lot traceability
All parts surge tested
Low profile surface mount package
Optional upscreening is available with various screening and conformance inspection options based
on MIL-PRF-19500. Refer to
Hirel Non-Hermetic Product Portfolio
brochure on our web site for
more details on the screening options.
Suppresses transients up to 36,000 W @ 10/1000 μs (see
Figure 1)
Moisture classification is Level 1 with no dry pack required per IPC/JEDEC J-STD-020B
RoHS compliant versions are available
3σ lot norm screening performed on standby current (I
D
)
(The cathode is the metal base
under the body of this device.)
PLAD
APPLICATIONS / BENEFITS
Protection from switching transients and induced RFI
Protection from ESD, and EFT per IEC 61000-4-2 and IEC 61000-4-4
Secondary lightning protection per IEC 61000-4-5 with 42 ohms source impedance:
Class 1,2,3,4,5: MPLAD36KP14A to 400CA
Class 5: MPLAD36KP14A to 400CA (short distance)
Class 5: MPLAD36KP14A to 260CA (long distance)
Secondary lightning protection per IEC 61000-4-5 with 12 ohms source impedance:
Class 1,2,3: MPLAD36KP14A to 400CA
Class 4: MPLAD36KP14A to 280CA
Secondary lightning protection per IEC 61000-4-5 with 2 ohms source impedance:
Class 2: MPLAD36KP10A to 400CA
Class 3: MPLAD36KP14A to 260CA
Class 4: MPLAD36KP14A to 130CA
Pin injection protection per RTCA/DO-160F for Waveform 4 (6.4/69 μs @ 25°C)*:
Level 4: MPLAD36KP14A to 400CA
Level 5: MPLAD36KP14A to 300CA
Pin injection protection per RTCA/DO-160F for Waveform 5A (40/120 μs @25°C)*:
Level 4: MPLAD36KP14A to 78CA
Level 5: MPLAD36KP14A to 38CA
*See
MicroNote 132
for further temperature derating selection.
RF01216, Rev B (12/15/16)
1
MPLAD36KP14A –
MPLAD36KP400CA
MAXIMUM RATINGS @ 25°C unless otherwise specified
Symbol
T
J
and T
STG
R
θJA
R
θJC
P
PP
Parameters / Test Conditions
Junction and Storage Temperature
Thermal Resistance Junction-to-Ambient
(1)
Thermal Resistance Junction-to-Case
Peak Pulse Power @ 10/1000 μs
(2)
t
clamping
(0 volts to V
(BR min)
V
FS
I
FSM
T
SP
P
D
Notes:
1.
2.
3.
4.
5.
Value
-55 to +150
50
1.0
36,000
Undirectional
Bidirectional
<100
<5
4.0
1500
260
T
A
=25°C
T
C
=100°C
2.5
(1)
71
(1)
Unit
°C/W
W
ps ns
V
A
°C
W
Forward Clamping Voltage @ 500 Amps
(3)
Forward Surge Current
(3)
Solder Temperature @ 10s
Steady-State Power dissipation
(5)
When mounted on FR4 PC board with recommended mounting pad (see
pad layout).
Also see
figures 1 and 2.
With impulse repetition rate (duty factor) of 0.05% or less.
At 8.3 ms half-sine wave (unidirectional devices only).
Case temperature controlled on heat sink as specified.
See
MicroNote 134
for derating P
PP
when also applying steady-state power.
MECHANICAL and PACKAGING
CASE: Void-free transfer molded thermosetting epoxy body meeting UL94V-0
TERMINALS: Tin-lead or RoHS compliant annealed matte-tin plating readily solderable per MIL-STD-750, method 2026
MARKING: Body marked with part number
POLARITY: For unidirectional devices, the cathode is on the metal backside (package bottom)
Available in bulk or custom tape-and-reel packaging
TAPE-AND-REEL: Standard per EIA-481-B (add “TR” suffix to part number). Consult factory for quantities.
WEIGHT: Approximately 1.7 – 2.0 grams
See
Package Dimensions
on last page.
PART NOMENCLATURE
M PLAD 36K P 14 CA (e3)
Reliability Level*
M
MA
MX
MXL
*(see
Hirel Non-Hermetic
Product Portfolio)
Package Designation
P
PP
Rating (W)
RF01216, Rev B (12/15/16)
RoHS Compliance
e3 = RoHS compliant
Blank = non-RoHS compliant
Polarity
A = Unidirectional CA
= Bidirectional
Reverse Standoff Voltage
Plastic
2
MPLAD36KP14A –
MPLAD36KP400CA
SYMBOLS & DEFINITIONS
Symbol
I
(BR)
I
D
I
PP
V
(BR)
V
C
V
WM
α
V(BR)
Definition
Breakdown Current: The current used for measuring breakdown voltage V
(BR)
.
Standby Current: The current at the rated standoff voltage V
WM
.
Peak Impulse Current: The peak current during the impulse.
Breakdown Voltage: The minimum voltage the device will exhibit at a specified current.
Clamping Voltage: Clamping voltage at I
PP
(peak pulse current) at the specified pulse conditions (typically shown as maximum value).
Related Working Standoff Voltage: The maximum peak voltage that can be applied over the operating temperature range.
Temperature Coefficient of Breakdown Voltage: The change in breakdown voltage divided by change temperature.
ELECTRICAL CHARACTERISTICS @ 25°C unless otherwise specified
MICROSEMI PART NUMBER
REVERSE
STANDOFF
VOLTAGE
V
WM
(Note 1)
Volts
14
15
16
17
18
20
22
24
26
28
30
33
36
40
43
45
48
51
54
58
60
64
70
75
78
85
90
100
110
120
130
150
160
170
180
200
220
260
280
300
350
400
BREAKDOWN
VOLTAGE
V
(BR)
@ I
(BR)
MAXIMUM
CLAMPING
VOLTAGE
V
C
@ I
PP
Volts
24.0
25.8
27.2
28.8
30.8
34.0
36.4
39.8
43.0
46.4
48.8
53.3
58.1
64.5
69.4
72.7
77.4
82.4
87.1
93.6
96.8
103.0
113
121
126
137
146
162
177
193
209
243
259
275
291
322
356
419
451
483
564
644
MAXIMUM
STANDBY
CURRENT
I
D
@ V
WM
μA
3000
750
450
150
60
45
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
MAXIMUM
PEAK
PULSE
CURRENT
I
PP
(FIG. 3)
MAXIMUM
TEMPERATURE
COEFFICIENT
α
V(BR)
mV/ ºC
10
12
12
14
16
18
20
22
24
26
30
35
38
44
50
51
54
58
64
70
72
75
84
90
95
104
109
122
132
145
157
183
195
207
219
243
269
318
344
368
430
490
Unidirectional
MPLAD36KP14A
MPLAD36KP15A
MPLAD36KP16A
MPLAD36KP17A
MPLAD36KP18A
MPLAD36KP20A
MPLAD36KP22A
MPLAD36KP24A
MPLAD36KP26A
MPLAD36KP28A
MPLAD36KP30A
MPLAD36KP33A
MPLAD36KP36A
MPLAD36KP40A
MPLAD36KP43A
MPLAD36KP45A
MPLAD36KP48A
MPLAD36KP51A
MPLAD36KP54A
MPLAD36KP58A
MPLAD36KP60A
MPLAD36KP64A
MPLAD36KP70A
MPLAD36KP75A
MPLAD36KP78A
MPLAD36KP85A
MPLAD36KP90A
MPLAD36KP100A
MPLAD36KP110A
MPLAD36KP120A
MPLAD36KP130A
MPLAD36KP150A
MPLAD36KP160A
MPLAD36KP170A
MPLAD36KP180A
MPLAD36KP200A
MPLAD36KP220A
MPLAD36KP260A
MPLAD36KP280A
MPLAD36KP300A
MPLAD36KP350A
MPLAD36KP400A
Bidirectional
MPLAD36KP14CA
MPLAD36KP15CA
MPLAD36KP16CA
MPLAD36KP17CA
MPLAD36KP18CA
MPLAD36KP20CA
MPLAD36KP22CA
MPLAD36KP24CA
MPLAD36KP26CA
MPLAD36KP28CA
MPLAD36KP30CA
MPLAD36KP33CA
MPLAD36KP36CA
MPLAD36KP40CA
MPLAD36KP43CA
MPLAD36KP45CA
MPLAD36KP48CA
MPLAD36KP51CA
MPLAD36KP54CA
MPLAD36KP58CA
MPLAD36KP60CA
MPLAD36KP64CA
MPLAD36KP70CA
MPLAD36KP75CA
MPLAD36KP78CA
MPLAD36KP85CA
MPLAD36KP90CA
MPLAD36KP100CA
MPLAD36KP110CA
MPLAD36KP120CA
MPLAD36KP130CA
MPLAD36KP150CA
MPLAD36KP160CA
MPLAD36KP170CA
MPLAD36KP180CA
MPLAD36KP200CA
MPLAD36KP220CA
MPLAD36KP260CA
MPLAD36KP280CA
MPLAD36KP300CA
MPLAD36KP350CA
MPLAD36KP400CA
Volts
15.6 – 17.2
16.7 – 18.5
17.8 – 19.7
18.9 – 20.9
20.0 – 22.1
22.2 – 24.5
24.4 – 26.9
26.7 – 29.5
28.9 – 31.9
31.1 – 34.4
33.3 – 36.8
36.7 – 40.6
40.0 – 44.2
44.4 – 49.1
47.8 – 52.8
50.0 – 55.3
53.3 – 58.9
56.7 – 62.7
60.0 – 66.3
64.4 – 71.2
66.7 – 73.7
71.1 – 78.6
77.8 – 86.0
83.3 – 92.1
86.7 – 95.8
94.4 - 104.0
100 – 111
111 – 123
122 – 135
133 – 147
144 – 159
167 – 185
178 – 197
189 – 209
200 – 221
222 – 245
245 – 271
289 – 320
311 – 345
333 – 369
389 – 431
444 – 492
mA
150
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
A
1500*
1396*
1324*
1250*
1169*
1059*
990
905
838
776
738
676
620
559
519
496
466
437
414
385
372
350
319
298
286
263
247
223
204
187
173
149
139
131
124
112
102
86
80
75
64
56
NOTE 1:
Transient Voltage Suppressors are normally selected with reverse standoff voltage VWM, which should be equal to or greater than peak operating voltage.
* Surge Testing is performed to 1000Amps due to equipment limitations
RF01216, Rev B (12/15/16)
3
MPLAD36KP14A –
MPLAD36KP400CA
GRAPHS
P
PP
Peak Pulse Power -kW
tp – Pulse Time – sec
Figure 1
Peak Pulse Power vs. Pulse Time
I
PP
Peak Pulse Current - % I
PP
tp – Pulse Time – sec
Figure 2
Pulse Waveform
Test waveform parameters: tr = 10 μs, tp = 1000 μs
RF01216, Rev B (12/15/16)
4
MPLAD36KP14A –
MPLAD36KP400CA
GRAPHS (continued)
P
PP
Peak Pulse Power -kW
T
L
Lead Temperature ºC
Figure 3
Derating Curve
RF01216, Rev B (12/15/16)
5
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