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Datasheet
首页 > 器件类别 > 分立半导体 > 二极管

1.5SMC15CA

保护瞬态电压抑制器

器件类别:分立半导体    二极管   

厂商名称:强茂(PANJIT)

厂商官网:http://www.panjit.com.tw/

器件标准:

下载文档
器件参数
参数名称
属性值
是否无铅
不含铅
是否Rohs认证
符合
厂商名称
强茂(PANJIT)
零件包装代码
DO-214AB
包装说明
R-PDSO-C2
针数
2
Reach Compliance Code
not_compliant
ECCN代码
EAR99
Is Samacsys
N
最大击穿电压
15.8 V
最小击穿电压
14.3 V
配置
SINGLE
二极管元件材料
SILICON
二极管类型
TRANS VOLTAGE SUPPRESSOR DIODE
JEDEC-95代码
DO-214AB
JESD-30 代码
R-PDSO-C2
最大非重复峰值反向功率耗散
1500 W
元件数量
1
端子数量
2
最高工作温度
150 °C
最低工作温度
-55 °C
封装主体材料
PLASTIC/EPOXY
封装形状
RECTANGULAR
封装形式
SMALL OUTLINE
峰值回流温度(摄氏度)
NOT SPECIFIED
极性
BIDIRECTIONAL
最大重复峰值反向电压
12.8 V
表面贴装
YES
技术
AVALANCHE
端子形式
C BEND
端子位置
DUAL
处于峰值回流温度下的最长时间
NOT SPECIFIED
Base Number Matches
1
文档预览
1.5SMC SERIES
GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE SUPPRESSOR PEAK PULSE POWER 1500 Watts
BREAK DOWN VOLTAGE
FEATURES
• Plastic package has Underwriters Laboratory Flammability Classification 94V-O
• Glass passivated chip junction in SMC/DO-214AB package
• 1500W surge capability at 1.0ms
• Excellent clamping capability
• Low zener impedance
• Fast response time: typically less than 1.0 ps from 0 volts to BV min
• Typical IR less than 1µA above 10V
• High temperature soldering guaranteed: 260°C/10 seconds/.375" ,(9.5mm)
lead length/5lbs., (2.3kg) tension
• In compliance with EU RoHS 2002/95/EC directives
6.8 to 250 Volts
MECHANICAL DATA
• Case: JEDEC SMC/DO-214AB molded plastic
• Terminals: Axial leads, solderable per MIL-STD-750, Method 2026
• Polarity: Color band denoted cathode except Bipolar
• Mounting Position: Any
• Weight: 0.007 ounce, 0.021 gram
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types 1.5SMC6.8 thru types 1.5SMC250.
Electrical characteristics apply in both directions.
MAXIMUM RATINGS AND CHARACTERISTICS
Rating at 25°Cambient temperature unless otherwise specified.
Rating
Peak Power Dissipation at T
A
=25
O
C, T
P
=1ms(Note 1)
Typical Thermal Resistance Junction to Air (Note 2)
Peak Forward Surge Current, 8.3ms Single Half Sine-Wave
Superimposed on Rated Load (JECED Method) (Note 3)
Operating Junction and Storage Temperature Range
Symbol
P
P K
R
θ
JA
I
FSM
T
J
,T
S T G
Value
1500
50
200
-55 to +150
Units
Watts
O
C/W
Amps
O
C
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and derated above T
A
=25°C per Fig. 2.
2. Mounted on Copper Leaf area of 0.79 in
2
(20mm
2
).
3. 8.3ms single half sine-wave, duty cycle= 4 pulses per minutes maximum.
STAD-APR.01.2009
2
PAGE . 1
1.5SMC SERIES
V
BR
@ I
T
Part Number
V
R WM
Min .
U N I-
BI-
V
V
Ma x .
V
I
T
mA
U N I-
µ
A
BI-
µ
A
V
A
U N I-
BI-
I
R
@ V
RWM
V
C
@ I
PP
Marking
C ode
1500W Transient Voltage Suppressor
1.5SMC6.8
1.5SMC6.8A
1.5SMC7.5
1.5SMC7.5A
1.5SMC8.2
1.5SMC8.2A
1.5SMC9.1
1.5SMC9.1A
1.5SMC10
1.5SMC10A
1.5SMC11
1.5SMC11A
1.5SMC12
1.5SMC12A
1.5SMC13
1.5SMC13A
1.5SMC15
1.5SMC15A
1.5SMC16
1.5SMC16A
1.5SMC18
1.5SMC18A
1.5SMC20
1.5SMC20A
1.5SMC22
1.5SMC22A
1.5SMC24
1.5SMC24A
1.5SMC27
1.5SMC27A
1.5SMC30
1.5SMC30A
1.5SMC33
1.5SMC33A
1.5SMC36
1.5SMC36A
1.5SMC39
1.5SMC39A
1.5SMC43
1.5SMC6.8C
1.5SMC6.8CA
1.5SMC7.5C
1.5SMC7.5CA
1.5SMC8.2C
1.5SMC8.2CA
1.5SMC9.1C
1.5SMC9.1CA
1.5SMC10C
1.5SMC10CA
1.5SMC11C
1.5SMC11CA
1.5SMC12C
1.5SMC12CA
1.5SMC13C
1.5SMC13CA
1.5SMC15C
1.5SMC15CA
1.5SMC16C
1.5SMC16CA
1.5SMC18C
1.5SMC18CA
1.5SMC20C
1.5SMC20CA
1.5SMC22C
1.5SMC22CA
1.5SMC24C
1.5SMC24CA
1.5SMC27C
1.5SMC27CA
1.5SMC30C
1.5SMC30CA
1.5SMC33C
1.5SMC33CA
1.5SMC36C
1.5SMC36CA
1.5SMC39C
1.5SMC39CA
1.5SMC43C
5.5
5.8
6.05
6.4
6.63
7.02
7.37
7.78
8.1
8.55
8.92
9.4
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.1
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.8
28.2
29.1
30.8
31.6
33.3
34.8
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9
9.5
9.9
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18
19
19.8
20.9
21.6
22.8
24.3
25.7
27
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
7.48
7.14
8.25
7.88
9.02
8.61
10
9.5
11
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.5
15.8
17.6
16.8
19.8
18.9
22
21
24.2
23.1
26.4
25.2
29.7
28.4
33
31.5
36.3
34.7
39.6
37.8
42.9
41
47.3
10
10
10
10
10
10
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1000
1000
500
500
200
200
50
50
10
10
5
5
5
5
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2000
2000
1000
1000
400
400
100
100
20
20
10
10
5
5
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15
14.5
16.2
15.6
17.3
16.7
19
18.2
22
21.2
23.5
22.5
26.5
25.2
29.1
27.7
31.9
30.6
34.7
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52
49.9
56.4
53.9
61.9
139
143
128
132
120
124
109
112
100
103
93
96
87
90
79
82
68
71
64
67
56.5
59.5
51.5
54
47
49
43
45
38.5
40
34.5
36
31.5
33
29
30
26.5
28
24
FZA
FZB
FZC
FZD
FZE
FZF
FZG
FZH
FZJ
FZK
FZL
FZM
FZN
FZP
FZQ
FZR
FZS
FZT
FZU
FZV
FZW
FZX
FZY
FZZ
FX A
FX B
FX C
FX D
FX E
FX F
FX G
FX H
FX J
FX K
FX L
FX M
FX N
FX P
FX Q
JZA
JZB
JZC
JZD
JZE
JZF
JZG
JZH
JZJ
JZK
JZL
JZM
JZN
JZP
JZQ
JZR
JZS
JZT
JZU
JZV
JZW
JZX
JZY
JZZ
JX A
JX B
JX C
JX D
JX E
JX F
JX G
JX H
JX J
JX K
JX L
JX M
JX N
JX P
JX Q
STAD-APR.01.2009
2
PAGE . 2
1.5SMC SERIES
V
BR
@ I
T
Part Number
V
R WM
Min .
U N I-
BI-
V
V
Ma x .
V
I
T
mA
U N I-
µ
A
BI-
µ
A
V
A
U N I-
BI-
I
R
@ V
RWM
V
C
@ I
PP
Marking
C ode
1500W Transient Voltage Suppressor
1.5SMC43A
1.5SMC47
1.5SMC47A
1.5SMC51
1.5SMC51A
1.5SMC56
1.5SMC56A
1.5SMC62
1.5SMC62A
1.5SMC68
1.5SMC68A
1.5SMC75
1.5SMC75A
1.5SMC82
1.5SMC82A
1.5SMC91
1.5SMC91A
1.5SMC100
1.5SMC100A
1.5SMC110
1.5SMC110A
1.5SMC120
1.5SMC120A
1.5SMC130
1.5SMC130A
1.5SMC150
1.5SMC150A
1.5SMC160
1.5SMC160A
1.5SMC170
1.5SMC170A
1.5SMC180
1.5SMC180A
1.5SMC200
1.5SMC200A
1.5SMC220
1.5SMC220A
1.5SMC250
1.5SMC250A
1.5SMC43CA
1.5SMC47C
1.5SMC47CA
1.5SMC51C
1.5SMC51CA
1.5SMC56C
1.5SMC56CA
1.5SMC62C
1.5SMC62CA
1.5SMC68C
1.5SMC68CA
1.5SMC75C
1.5SMC75CA
1.5SMC82C
1.5SMC82CA
1.5SMC91C
1.5SMC91CA
1.5SMC100C
1.5SMC100CA
1.5SMC110C
1.5SMC110CA
1.5SMC120C
1.5SMC120CA
1.5SMC130C
1.5SMC130CA
1.5SMC150C
1.5SMC150CA
1.5SMC160C
1.5SMC160CA
1.5SMC170C
1.5SMC170CA
1.5SMC180C
1.5SMC180CA
1.5SMC200C
1.5SMC200CA
1.5SMC220C
1.5SMC220CA
1.5SMC250C
1.5SMC250CA
36.8
38.1
40.2
41.3
43.6
45.6
47.8
50.2
53
55.1
58.1
60.7
64.1
66.4
70.1
73.7
77.8
81
85.5
89.2
94
97.2
102
105
111
121
128
130
136
138
145
146
154
162
171
175
185
202
214
40.9
42.3
44.7
45.9
48.5
50.4
53.2
55.8
58.9
61.2
64.6
67.5
71.3
73.8
77.9
81.9
86.5
90
95
99
105
108
114
117
124
135
143
144
152
153
162
162
171
180
190
198
209
225
237
45.2
51.7
49.4
56.1
53.6
61.6
58.8
68.2
65.1
74.8
71.4
82.5
78.8
90.2
86.1
100
95.5
110
105
121
116
132
126
143
137
165
158
176
168
187
179
198
189
220
210
242
231
275
263
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
59.3
67.8
64.8
73.5
70.1
80.5
77
89
85
98
92
108
103
118
113
131
125
144
137
158
152
173
165
187
179
215
207
230
219
244
234
258
246
287
274
344
328
360
344
25.3
22.2
23.2
20.4
21.4
18.6
19.5
16.9
17.7
15.3
16.3
13.9
14.6
12.7
13.3
11.4
12
10.4
11
9.5
9.9
8.7
9.1
8
8.4
7
7.2
6.5
6.8
6.2
6.4
5.8
6.1
5.2
5.5
4.3
4.6
4.3
4.5
FX R
FX S
FX T
FX U
FX V
FX W
FX X
FX Y
FX Z
FYA
FYB
FYC
FYD
FYE
FYF
FYG
FYH
FYJ
FYK
FYL
FYM
FYN
FYP
FYQ
FYR
FYS
FYT
FYU
FYV
FYW
FYX
FYY
FYZ
FWA
FWB
FWC
FWD
FWE
FWF
JX R
JX S
JX T
JX U
JX V
JX W
JX X
JX Y
JX Z
JYA
JYB
JYC
JYD
JYE
JYF
JYG
JYH
JYJ
JYK
JYL
JYM
JYN
JYP
JYQ
JYR
JYS
JYT
JYU
JYV
JYW
JYX
JYY
JYZ
JWA
JWB
JWC
JWD
JWE
JWF
STAD-APR.01.2009
2
PAGE . 3
1.5SMC SERIES
P
PPM
,PEAK PULSE FORWARD,KW
100
Non-Repetitve
Pulse Wavefom
Shown in Figure.3
T
A
= 25
O
C
100
PEAK PULSE FORWARD (P
PP
) OR CURRENT (I
PP
)
DERATING IN PERCENTAGE %
75
10
50
1.0
25
0.1
0.1
0
1.0
10
100
1000
10000
0
25
50
75
100
125
150
175
200
td,PULSE WIDTH,usec
Fig.1 PEAK PULSE POWER RATING VERSUS
PULSE TIME CURVE
T
A
,AMBIENT TEMPERATURE, C
O
Fig.2 PULSE DERATING CURVE
I
PPM
,PEAK PULSE CURRENT,%
150
tf= 10u se c
Pea k Va lue
Ip p m
T
A
= 25 C
Pulse Wid th (td ) is Define d
a s the Point Where t he Pea k
Current De c a ys to 5 0% of Ip p
10
4
Tj= 25 C
f= 1.0MHZ
Vsig = 50mVp -p
Me a sured a t
Zero Bia s
100
CJ,CAPACIT
ANCE,p F
1,000
Ha lf Va lue -Ip p
2
50
10/1000u se c Wa ve form
a s Defined b ye R.E.A.
100
Unidirectional
Bidirectional
Me a sure d a t
Sta nd -Off
Volta ge(V
RWM
)
e-kt
td
10
1.0
2.0
3.0
4.0
0
5.0 10
20
50
100
200
500
0
T,TIME,ms
V
(BR)
, BREAKDOWN VOLTAGE, VOLTS
Fig.4 TYPICAL JUNCTION CAPACITANCE
Fig.3 PULSE WAVEFORM
I
FSM
, PEAK FORWARD SURGE CURRENT
AMPERES
200
Tj= Tj m a x
8.3ms S
INGLE HALF sinc e -WAVE
JEDEC METHOD
100
50
UNIDIRECTIONAL ONLY
10
1
5
10
50
100
NUMBER OF CYCLES AT 60 Hz
Fig.5 MAXIMUN NON-REPETITEVE PEAK FORWARD
SURGE CURRENT UNIDIRECTIONAL
STAD-APR.01.2009
2
PAGE . 4
1.5SMC SERIES
MOUNTING PAD LAYOUT
ORDER INFORMATION
• Packing information
T/R - 3K per 13" plastic Reel
T/R - 0.5Kper 7” plastic Reel
LEGAL STATEMENT
Copyright PanJit International, Inc 2009
The information presented in this document is believed to be accurate and reliable. The specifications and information herein
are subject to change without notice. Pan Jit makes no warranty, representation or guarantee regarding the suitability of its
products for any particular purpose. Pan Jit products are not authorized for use in life support devices or systems. Pan Jit
does not convey any license under its patent rights or rights of others.
STAD-APR.01.2009
2
PAGE . 3
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现在,搜索侧拨拨码开关。搜到的基本都是这样的。长长的拨码。手里有实物,拨码在不闭合的情况下,比较松。轻轻一模,就能动。记得原来拨码比现在要短啊。那时的拨码就比较紧。现在这种长的的拨码,如果产品工作时,发生运动,可能与外界接触。那是不是就容易被碰动了?拨码状态被改变?现在有一个板子就用的现在的长拨码。心里不太踏实。还没有在实际环境中充分验证。不明白为什么要把原来的短的,改成长的。不知大家是否用过这种长拨码。一些小的移动,触碰会改变状态吗?侧拨拨码开关的拨码为什么变长了。。“不明白为什么要把...
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几十年来,电源转换器拓扑结构一直以模拟技术为基础。虽然大多数转换器采用开关技术和脉宽调制(PWM),但出于功率半导体器件在处理层面上的兼容,以及成本效益的考虑,电路构成主要为模拟。不过,这种情况正在改变。在显著提高数据中心和电信系统效率的过程中,模拟技术及其电路暴露出自身的缺点。数字电源管理和控制提供实时智能,便于系统开发人员构建电源系统自动适应运行环境的变化,并优化每种特定应用场合的效率。智能数字电源IC可以自动补偿负载和系统温度的变化,利用自适应死区时间控制、动态电压调节、频移、相...
月亦雪 综合技术交流
ATX-100S线束测试仪如何快速测试线束导通、线序?
ATX-100S线束测试仪如何快速测试线束导通、线序?ATX-100S线束测试仪如何快速测试线束导通、线序?...
aigtekatdz 综合技术交流
【转帖】如何用示波器测试有源晶振波形
有源晶振通常都为四脚或四脚以上的脚位,内置起振芯片,是一个完整的振荡器,只要接通电源就可以起振,大类称之为主动元器件。无源晶体的脚位通常都是四脚以下包含四脚,它的工作原理即是在一个反相放大器的两端接入晶振,再有两个电容分别接到晶振的两端,每个电容的另一端再接地,这两个电容串联的容量值等于负载电容,请注意一般IC的引脚都有等效输入电容,这个不能忽略。有源晶振的频率输出一定要有某个波形作为输出载体,波形的输出也一定会伴随着某个负载值。在实际使用中,波形负载也是晶振的非常...
皇华Ameya360 综合技术交流
超声波气体流量传感器
1.经过相关文献介绍大部分超声波的发射与接收电路都采用分立元件,经过放大,滤波后交给后级处理但是我找到一款超声波专用集成电路LM1812,但该器件的手册上并未提及可用于气体的测量,那么我该做和改进呢?2.另外现在的气体流量传感器和传感器分为涡街式和超声波式,大量应用或者说较为成熟的是哪一种呢?3.超声波气体流量传感器一般采用时差法测量,此时为了提高测量精度会采用不同的安装方法,如V型,Z行等那么是不是说通过增加声程能够提高精度呢?此时又没有涉及到回波呢?以上问题可能三言两语难说清楚,...
yaoyong 综合技术交流