P4SMAJ5.0
THRU
P4SMAJ170CA
400 Watt
Transient Voltage
Suppressors
5.0 to 170 Volts
www.mccsemi.com
0.05 5
0.0 85
0.0 58
SUGGESTED SOLDER
PAD LAYOUT
MAX 5
MIN 5
MIN 5
DIMENSIONS
INCHES MM
DIM MIN MAX MIN MAX NOTE
A .157 .181 4. 00 4.60
B .098 .114 2. 50 2.90
C .006 .012 0 .152 0 .305
D ..030 . 06 0 0. 76 1..52
E .188 .208 4. 80 5.28
F .078 .096 2. 00 2. 44
G .055 .062 1.40 1.60
H .002 .008 0 . 051 0.203
Features
For Surface Mount Applications
Unidirectional And Bidirectional
Low Inductance
High Temp Soldering: 250°C for 10 Seconds At Terminals
For Bidirectional Devices Add “C” To The Suffix Of The Part
Number: i.e. P4SMAJ5.0C or P4SMAJ5.0CA for 5% Tolerance
0HFKDQLFDO'DWD
Case: JEDEC DO-214AC
Terminals: Solderable per MIL-STD-750, Method 2026
Polarity: Indicated by cathode band except bi-directional types
0D[LPXP5DWLQJ
Operating Temperature: -55°C to +150°C
Storage Temperature: -55°C to +150°C
Typical Thermal Resistance: 25
:
/W Junction to Ambient
Peak Pulse Current on
10/1000
V :DYHIRUP
IPPM See Table 1 Note 1
Peak Pulse Power Dissipation PPPM Min 400 W Note 1, 5
Steady State Power Dissipation PM(AV) 1.0 W Note 2, 4
Peak Forward Surge Current IFSM 40A Note:4
Notes: 1. Non-repetitive current pulse, per Fig.3 and derated above
TA=25
:
per Fig.2.
2. Mounted on 5.0mm2 copper pads to each terminal.
3. 8.3ms, single half sine wave duty cycle = 4 pulses per
Minutes maximum.
4. Lead temperature at TL = 75
:
.
5. Peak pulse power waveform is 10/1000
V
.
A
B
D
C
E
F
G
H
DO-214AC
(SMAJ)( LEAD FRAME)
omponents
21201 Itasca Street Chatsworth

 !"#
$% !"#
MCC
www.mccsemi.com
MCC
1
00
10
1
.0
0
.1
0.1£gs
1.0£gs
10 £gs
100 £gs 1.0ms 10ms
M
O
U
N
T
E
D
O
N
5
.
0
m
m
2
C
O
P
P
E
R
L
A
N
D
A
R
E
A
S
N
O
N
-
R
E
P
E
T
I
T
I
V
E
P
U
L
S
E
W
A
V
E
F
O
R
M
S
H
O
W
N
I
N
F
I
G
U
R
E
3
T
A
=
2
5
¢J
t
d
,
P
U
L
S
E
W
I
D
T
H
,
S
E
C
100
75
50
25
0
0 25 50 75
100 125 150 175 200
T
A
,
A
M
B
I
E
N
T
T
E
M
P
E
R
A
T
U
R
E
,
¢J
Fig. 1-PEAK PULSE POWER RATING CURVE Fig. 2-PULSE RATING CURVE
150
100
50
00 1.0 2.0 3.0 4.
0
T
A
=
2
5
¢J
P
u
l
s
e
W
i
d
t
h
(
t
d
)
i
s
D
e
f
i
n
e
d
a
s
t
h
e
P
o
i
n
t
W
h
e
r
e
t
h
e
P
e
a
k
C
u
r
r
e
n
t
D
e
c
a
y
s
t
o
5
0
%
o
f
l
p
p
P
e
a
k
V
a
l
u
e
I
p
p
m
H
a
l
f
V
a
l
u
e
-
I
pp
2
1
0
/
1
0
0
0
£g
s
e
c
W
a
v
e
f
o
r
m
a
s
D
e
f
i
n
e
d
b
y
R
.
E
.
A
.
e-
kt
td
t
f
=
1
0
£g
s
e
c
t
,
T
I
M
E
,
m
s
10,000
40,000
20,000
1,000
6,000
4,000
2,000
100
500
200
10
1.0 2.0 5.0 10 20 50 100 200
M
E
A
S
U
R
E
D
A
T
S
T
A
N
D
-
O
F
F
V
O
L
T
A
G
E
(
V
M
W
)
T
J
=
2
5
¢J
f
=
1
.
0
M
H
z
V
s
i
g
=
5
0
m
V
p
-
p
M
E
A
S
U
R
E
D
A
T
Z
E
R
O
B
I
A
S
V
(
B
R
)
,
B
R
E
A
K
D
O
W
N
V
O
L
T
A
G
E
,
V
O
L
T
S
Fig. 3-PULSE WAVEFORMFig. 4-TYPICAL JUNCTION CAPACITANCE
50
40
30
20
10
1
2
4 10 20 40 100
0
T
J
= T
J
max
8.3mss SINGLE HALF
SINCE-WAVE JEDEC
METHOD
N
U
M
B
E
R
O
F
C
Y
C
L
E
S
A
T
6
0
H
z
Fig. 5-MAXIMUM NON-REPETITIVE PEAK FORWARD
SURGE CURRENT
PEAK PULSE POWER(Ppp) OR
CURRENT(Ipp) DERATING IN
PERCENTAGE %
Ip
pm, PEAK PULSE CURRENT, %
Ifsm, PEAK FORWARD SURGE
CURRENT, AMPERES
P
PPM, PEAK PULSE POWER, KW
CJ, CAPACITANCE, pF
P4SMAJ5.0 thru
P4SMAJ170CA