MICROSEMI JANTXV1N6048

1N6036 and 1N6072A
1500 WATT BIDIRECTIONAL
TRANSIENT VOLTAGE SUPPRESSOR
SCOTTSDALE DIVISION
APPEARANCE
This popular Transient Voltage Suppressor (TVS) series for 1N6036 thru
1N6072A are JEDEC registered selections for bidirectional devices. All
have the same high Peak Pulse Power rating of 1500 W with extremely fast
response times. They are also available in military qualified selections as
described in the Features section herein. They are most often used for
protecting against transients from inductive switching environments,
induced RF effects, or induced secondary lightning effects as found in
lower surge levels of IEC61000-4-5. They are also very successful in
protecting airborne avionics and electrical systems. Since their response
time is virtually instantaneous, they can also protect from ESD and EFT per
IEC61000-4-2 and IEC61000-4-4.
DO-13
(DO-202AA)
WWW . Microsemi .C OM
DESCRIPTION
IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com
FEATURES
•
•
•
•
•
•
•
•
•
APPLICATIONS / BENEFITS
Bidirectional TVS series for thru-hole mounting
Suppresses transients up to 1500 watts @ 10/1000
µs (see Figure 1)
Clamps transient in less than 100 pico seconds
Working voltage (VWM) range 5.5 V to 185 V
Hermetic sealed DO-13 metal package
JAN/TX/TXV military qualifications also available per
MIL-PRF-19500/507 for the tighter tolerance “A”
suffix types by adding the JAN, JANTX, or JANTXV
prefix, e.g. JANTXV1N6036A, etc.
For unidirectional TVS in the same DO-13 package,
see separate data sheet for the 1N5629 – 1N5665A
series (also military qualified)
Surface mount equivalent packages also available
as SMCJ5.0C - SMCJ170CA or SMCG5.0C –
SMCG170CA in separate data sheet (consult factory
for other surface mount options)
Plastic axial-leaded equivalents available in the
1.5KE6.8C – 1.5KE220CA series in separate data
sheet
•
•
•
•
•
•
MAXIMUM RATINGS
MECHANICAL AND PACKAGING
•
•
•
•
•
•
•
CASE: DO-13 (DO-202AA), welded, hermetically
sealed metal and glass
FINISH: All external metal surfaces are Tin-Lead
plated and solderable per MIL-STD-750 method
2026
POLARITY: Not applicable for bidirectional TVS
MARKING: Part number
WEIGHT: 1.4 grams. (Approx)
TAPE & REEL option: Standard per EIA-296 (add
“TR” suffix to part number)
See package dimension on last page
TVS devices are not typically used for dc power dissipation and are instead operated at or less than their rated standoff voltage
(VWM) except for transients that briefly drive the device into avalanche breakdown (VBR to VC region).
Copyright  2002
11-06-2003 REV A
Microsemi
Scottsdale Division
8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503
Page 1
1N6036 thru 1N6072A
• 1500 Watts for 10/1000 µs with repetition rate of 0.01%
o
or less* at lead temperature (TL) 25 C (see Figs. 1, 2, &
4)
• Operating & Storage Temperatures: -65o to +175oC
• THERMAL RESISTANCE: 50oC/W junction to lead at
0.375 inches (10 mm) from body or 110 oC/W junction to
2
ambient when mounted on FR4 PC board with 4 mm
copper pads (1oz) and track width 1 mm, length 25 mm
• DC Power Dissipation*: 1 Watt at TL < +125oC 3/8” (10
mm) from body (see derating in Fig 3 and note below)
• Solder Temperatures: 260 o C for 10 s (maximum)
*
Protection from switching transients and induced RF
Protection from ESD and EFT per IEC 61000-4-2
and IEC 61000-4-4
Secondary lightning protection per IEC61000-4-5
with 42 Ohms source impedance:
Class 1: 1N6036 to 1N6072A
Class 2: 1N6036 to 1N6067A
Class 3: 1N6036 to 1N6061A
Class 4: 1N6036 to 1N6054A
Secondary lightning protection per IEC61000-4-5
with 12 Ohms source impedance:
Class 1 : 1N6036 to 1N6064A
Class 2: 1N6036 to 1N6057A
Class 3: 1N6036 to 1N6049A
Class 4: 1N6036 to 1N6042A
Secondary lightning protection per IEC61000-4-5
with 2 Ohms source impedance:
Class 2: 1N6036 to 1N6048A
Class 3: 1N6036 to 1N6041A
Inherently radiation hard as described in Microsemi
MicroNote 050
1N6036 and 1N6072A
1500 WATT BIDIRECTIONAL
TRANSIENT VOLTAGE SUPPRESSOR
SCOTTSDALE DIVISION
JEDEC
Type
No.
Copyright  2002
11-06-2003 REV A
Volts
5.5
6.0
6.5
7.0
7.0
7.5
8.0
8.5
8.5
9.0
9.0
10.0
10.0
11.0
11.0
12.0
12.0
13.0
14.0
15.0
16.0
17.0
17.0
18.0
19.0
20.0
21.0
22.0
24.0
25.0
26.0
28.0
29.0
30.0
31.0
33.0
34.0
36.0
38.0
40.0
41.0
43.0
45.0
47.0
48.0
53.0
55.0
58.0
60.0
64.0
66.0
70.0
Breakdown
Voltage
V(BR)
V(BR) min
V(BR) max
@ I(BR)
Volts
6.75
7.13
7.38
7.79
8.19
8.65
9.0
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
18.0
19.0
19.8
20.9
21.6
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
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
Volts
8.25
7.88
9.02
8.61
10.00
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.5
15.8
17.5
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
47.3
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
mA
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
1
1
1
1
1
1
1
1
1
1
1
1
1
Maximum
Clamping
Voltage
VC @ IPP
Maximum
Standby
Current
ID @ VWM
Maximum
Peak Pulse
Current
IPP
(See Fig. 2)
Volts
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
16.7
19.0
18.2
22.0
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
52.0
49.9
56.4
53.9
61.9
59.3
67.8
64.8
73.5
70.1
80.5
77.0
89.0
85.0
98.0
92.0
108.0
103.0
118.0
113.0
µA
1000
1000
500
500
200
200
50
50
10
10
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
5
Amps
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
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
Microsemi
Scottsdale Division
8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503
Maximum
Temperature
Coefficient of
V(BR)
αV(BR)
o
%/ C
.061
.061
.065
.065
.068
.068
.073
.073
.075
.075
.078
.078
.081
.081
.084
.084
.086
.086
.088
.088
.090
.090
.092
.092
.094
.094
.095
.096
.097
.097
.098
.098
.099
.099
.100
.100
.101
.101
.101
.101
.102
.102
.103
.103
.104
.104
.104
.104
.105
.105
.105
.105
Page 2
1N6036 thru 1N6072A
1N6036
*1N6036A
1N6037
*1N6037A
1N6038
*1N6038A
1N6039
*1N6039A
1N6040
*1N6040A
1N6041
*1N6041A
1N6042
*1N6042A
1N6043
*1N6043A
1N6044
*1N6044A
1N6045
*1N6045A
1N6046
*1N6046A
1N6047
*1N6047A
1N6048
*1N6048A
1N6049
*1N6049A
1N6050
*1N6050A
1N6051
*1N6051A
1N6052
*1N6052A
1N6053
*1N6053A
1N6054
*1N6054A
1N6055
*1N6055A
1N6056
*1N6056A
1N6057
*1N6057A
1N6058
*1N6058A
1N6059
*1N6059A
1N6060
*1N6060A
1N6061
*1N6061A
Rated
Standoff
Voltage
VWM
(NOTE 1)
WWW . Microsemi .C OM
ELECTRICAL CHARACTERISTICS @ 25oC (Test Both Polarities)
1N6036 and 1N6072A
1500 WATT BIDIRECTIONAL
TRANSIENT VOLTAGE SUPPRESSOR
SCOTTSDALE DIVISION
Maximum
Clamping
Voltage
VC @ IPP
Breakdown
Voltage
V(BR)
V(BR) min
V(BR) max
Maximum
Standby
Current
ID @ VWM
@ I(BR)
Maximum
Peak Pulse
Current
IPP
(See Fig. 2)
Maximum
Temperature
Coefficient of
V(BR)
Volts
Volts
Volts
mA
Volts
Volts
Amps
µA
1N6062
73.0
81.9
100.0
1
131.0
5
11.4
.106
*1N6062A
75.0
86.5
95.5
1
125.0
5
12.0
.106
1N6063
81.0
90.0
110.0
1
144.0
5
10.4
.106
*1N6063A
82.0
95.0
105.0
1
137.0
5
11.0
.106
1N6064
90.0
99.0
121.0
1
158.0
5
9.5
.107
*1N6064A
94.0
105.0
116.0
1
152.0
5
9.9
.107
1N6065
95.0
108.0
132.0
1
176.0
5
8.5
.107
*1N6065A
100.0
114.0
126.0
1
168.0
5
8.9
.107
1N6066
105.0
117.0
143.0
1
191.0
5
7.8
.107
*1N6066A
110.0
124.0
137.0
1
182.0
5
8.2
.107
1N6067
121.0
135.0
165.0
1
223.0
5
6.7
.108
*1N6067A
128.0
143.0
158.0
1
213.0
5
7.0
.108
1N6068
137.0
153.0
187.0
1
258.0
5
5.8
.108
*1N6068A
145.0
162.0
179.0
1
245.0
5
6.1
.108
1N6069
145.0
162.0
198.0
1
274.0
5
5.5
.108
*1N6069A
150.0
171.0
189.0
1
261.0
5
5.7
.108
1N6070
155.0
171.0
210.0
1
292.0
5
5.1
.108
*1N6070A
160.0
181.0
200.0
1
278.0
5
5.4
.108
1N6071
165.0
180.0
220.0
1
308.0
5
4.9
.108
*1N6071A
170.0
190.0
210.0
1
294.0
5
5.1
.108
1N6072
175.0
198.0
242.0
1
344.0
5
4.3
.108
*1N6072A
185.0
209.0
231.0
1
328.0
5
4.6
.108
* Also available in military qualified types by adding the prefix JAN, JANTX or JANTXV per MIL-PRF-19500/507.
NOTE 1: A TVS is normally selected according to the rated “Standoff Voltage” VWM that should be equal to or greater than the dc or continuous peak
operating voltage level.
Symbol
VWM
V(BR)
VC
Copyright  2002
11-06-2003 REV A
SYMBOLS & DEFINITIONS
Definition
Standoff Voltage: Applied Reverse Voltage to assure a nonconductive condition. (See Note 1 above)
Breakdown Voltage: This is the Breakdown Voltage the device will exhibit at 25oC
Maximum Clamping Voltage: The maximum peak voltage appearing across the TVS when subjected to the
peak pulse current in a one millisecond time interval. The peak pulse voltage is the combination of voltage rise
due to both the series resistance and thermal rise and positive temperature coefficient (αV(BR))
Peak Pulse Current: The peak current during the impulse (See Figure 2)
Peak Pulse Power: The pulse power as determined by the product of VC and IPP
Standby Current: The current at the standoff voltage (VWM)
Breakdown Current: The current used for measuring Breakdown Voltage (V(BR))
Microsemi
Scottsdale Division
8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503
Page 3
1N6036 thru 1N6072A
IPP
PPP
ID
I(BR)
WWW . Microsemi .C OM
JEDEC
Type
No.
Rated
Standoff
Voltage
VWM
(NOTE 1)
1N6036 and 1N6072A
1500 WATT BIDIRECTIONAL
TRANSIENT VOLTAGE SUPPRESSOR
SCOTTSDALE DIVISION
Exponential waveform (See FIG. 2)
10
Square-wave pulse
1.0
0.1kW
100ns
1µs
10µs
100µs
1ms
10ms
Steady-state power dissipation (watts)
Pulse Time (tp)
FIG. 1 – Non-repetitive peak pulse power rating curve
NOTE: Peak power defined as peak voltage times peak current
Peak Pulse Power (PPP) or current (IP)
o
in percent of 25 C rating
Peak Pulse Power (PPP) in kW
100
Peak Value
IPP
Pulse time duration (tp) is
defined as that point where
IP decays to 50% of peak
value (IPP).
WWW . Microsemi .C OM
GRAPHS
time (t) in milliseconds
FIG. 2 Pulse wave form for exponential surge
PACKAGE DIMENSIONS
TL – lead Temperature oC
DO-13
(DO-202AA)
o
TA Ambient Temperature C
FIG. 4 Derating Curve
Copyright  2002
11-06-2003 REV A
1N6036 thru 1N6072A
Pulse current (IP) in percent of IPP
FIG. 3 Steady-state power derating curve
Microsemi
Scottsdale Division
8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503
Page 4