FRONTIER SMTPA240

Frontier Electronics Corp.
667 E. COCHRAN STREET, SIMI VALLEY, CA 93065
TEL: (805) 522-9998
FAX: (805) 522-9989
E-mail: [email protected]
Web: http://www.frontierusa.com
TELECOM EQUIPMENT PROTECTION：TRISILTM
SMTPA62 THRU SMTPA270
FEATURES
z BIDIRECTIONAL CROWBAR PROTECTION
z VOLTAGE RANGE FROM 62V TO 270V
z LOW CAPACITANCE FROM 15PF TO 30PF TYP.@50V
z LOW LEAKAGE CURRENT: IR = 2uA MAX.
z HOLDING CURRENT: IH = 150 mA MIN.
z REPETITIVE PEAK PULSE CURRENT: IPP = 50A (10/1000uS)
CATHODE
.086(2.20)
.077(1.96)
.220(5.59)
.205(5.21)
.180(4.57)
.160(4.06)
MAIN APPLICATIONS
TELECOMMUNICATION EQUIPMENT SUCH AS:
z ANALOG AND DIGITAL LINE CARDS (xDSL,T1/E1,ISDN..)
z TERMINALS (PHONE, FAX,MODEM…) AND CENTRAL
OFFICE EQUIPMENT.
.155(3.94)
.130(3.30)
.096(2.44)
.084(2.13)
DESCRIPTION
THE SMTPAxxx SERIES HAS BEEN DESIGNED TO PROTECT
TELECOMMUNICATION EQUIPMENT AGAINST LIGHTNING AND
TRANSIENT INDUCED BY AC POWER LINES.
THE PACKAGE / DIE SIZE RATIO HAS BEEN OPTIMIZED BY USING
THE SMB PACKAGE
.060(1.52)
.030(0.76)
CASE:DO-214AA (SMB)
DIMENSIONS IN INCHES AND (MILLIMETERS)
BENEFITS
TRISILS ARE NOT SUBJECT TO AGEING AND PROVIDE A FAIL
SAFE MODE IN SHORT CIRCUIT FOR A BETTER PROTECTION.
TRISILS ARE USED TO HELP EQUIPMENT TO MEET VARIOUS
SUCH AS UL1950, IEC950/CSA C22.2, UL1459 AND FCC PART68.
TRISILS HAVE UL94 V0 RESIN APPROVED. SMB PACKAGE IS JEDEC
REGISTERED.( TRISILS ARE UL497B APPROVED – FILE:E136224)
SMTP Axxx
IN COMPLIANCES WITH THE FOLLOWING STANDARDS
STANDARD
GR-1089 CORE
FIRST LEVEL
PEAK SURGE
VOLTAGE
VOLTAGE（V） WAVEFORM（μ s）
REQUIRED PEAK
CURRENT (A)
CURRENT
MIMIMUN SERIAL RESISTOR
WAVEFORM (μ s)
TO MEET STANDARD (Ω )
2500
1000
2/10
10/1000
500
100
2/10
10/1000
12
10
5000
2/10
500
2/10
24
1500
2/10
100
2/10
0
ITU-T-K20 / K21
6000
1500
10/700
150
37.5
5/310
ITU-T-K20
(IEC61000-4-2)
6000
8000
1/60 ns
ESD CONTACT DISCHARGE
ESD AIR DISCHARGE
GR-1089 CORE
SECOND LEVEL
GR-1089 CORE
INTRA-BUILDING
VDE0433
VDE0878
IEC61000-4-5
FCC PART 68, LIGHTNING
SURGE TYPE A
FCC PART 68, LIGHTNING
SURGE TYPE B
4000
2000
4000
2000
4000
4000
1500
800
1000
53
0
0
10/700
1.2/50
10/160
10/560
100
50
100
50
100
100
200
100
5/310
8/20
10/160
10/560
0
21.5
0
0
0
21.5
0
12.5
6.5
9/720
25
5/320
0
10/700
1.2/50
SMTPA62 THRU SMTPA270
5/310
1/20
Page: 1
THERMAL RESISTANCES
SYMBOL
Rth（j-a）
Rth（j-1）
PARAMETER
VALUE
UNIT
100
℃/W
20
℃/W
JUNCTION TO WITH RECOMMENDED FOOTPRINT
JUNCTION TO LEADS
ELECTRICAL CHARACTERISTICS
（Tamb = 25℃）
SYMBOL
PARAMETER
VRM
IRM
VR
VBR
VBO
IH
IBO
IPP
C
IPP
STAND-OFF VOLTAGE
LEAKAGE CURRENT AT VRM
CONTINUOUS REVERSE VOLTAGE
BREAKDOWN VOLTAGE
BREAK OVER VOLTAGE
HOLDING CURRENT
BREAK OVER CURRENT
PEAK PULSE CURRENT
CAPACITANCE
IBO
IH
IRM
VRM VR VBR VBO
ABSOLUTE RATING（Tamb = 25℃）
SYMBOL
PARAMETER
VALUE UNIT
REPETITIVE PEAK PULSE CURRENT：
50
100
55
65
75
100
150
10/1000μ s
8/20μ s
10/560μ s
IPP
5/310μ s
10/160μ s
A
1/20μ s
2/10μ s
IFS
FAIL SAFE MODE: MAXIMUM CURRENT
ITSM
I2t
TL
Tstg
Tj
2.5
8/2μ s
T = 20ms
NON REPETITIVE SURGE PEAK ON-STATE
T = 16.6ms
T = 0.2s
CURRENT（SINUSOIDAL）
T = 2s
T
=
16.6ms
I2t VALUE FOR FUSING
T = 20ms
MAXIMUM LEAD TEMPERATURE FOR SOLDERING DURING 10S.
30
32
17
9
8.5
9
260
STORAGE TEMPERATURE RANGE
MAXIMUM JUNCTION TEMPERATURE
REPETITIVE PEAK PULSE CURRENT
TR：RISE TIME（μ s）
-55 to + 150
150
KA
A
A2S
℃
℃
﹪ Ipp
100
TP：PULSE DURATION TIME（μ s）
50
EX.：PULSE WAVEFORM 10/1000μ s
0
t
tr
tp
TR = 10μ s TP = 1000μ s
SMTPA62 THRU SMTPA270
Page: 2
ELECTRICAL PARAMETERS（Tamb = 25℃）
IR@VR
DYNAMIC
IRM@VRM
MAX
VBO@ IBO
type
MAX
MAX
NOTE2
NOTE
V
V
V
mA
μ A
μ A
SMTPA62
SMTPA68
SMTPA100
SMTPA120
SMTPA130
SMTPA180
SMTPA200
SMTPA220
SMTPA240
SMTPA270
2
56
61
90
108
117
162
180
198
216
243
50
62
68
100
120
130
180
200
220
240
270
85
93
135
160
173
235
262
285
300
350
800
STATIC
VBO@ IBO
MAX
NOTE3
V
mA
82
90
133
160
173
240
267
293
320
360
800
IH
MIN
C
TYP.
C
TYP.
NOTE4
mA
NOTE5
PF
NOTE6
PF
150
150
150
150
150
150
150
150
150
150
30
30
20
20
20
15
15
15
15
15
50
45
40
40
35
30
30
30
30
30
NOTE 1：IR MEASURED AT VR GUARANTEE VBR MIN≧ VR
NOTE 2：SEE FUNCTIONAL BREAK OVER VOLTAGE TEST CIRCUIT 1.
NOTE 3：SEE TEST CIRCUIT 2.
NOTE 4：SEE FUNCTIONAL HOLDING CURRENT TEST CIRCUIT 3.
NOTE 5：VR = 50V BIAS，VRMS = 1V，F = 1MHZ
NOTE 6：VR = 2V BIAS，VRMS = 1V，F = 1MHZ
SMTPA62 THRU SMTPA270
Page: 3
RATINGS AND CHARACTERISTIC CURVE SMTPA62 THRU SMTPA270
FIG. 1-NON REPETITIVE SURGE PEAK ON-STATE
CURRENT VERSUS OVERLOAD DURATION
40
35
30
25
20
15
10
5
0
（TJ INITIAL = 25℃）
ITSM（A）
FIG. 2-ON-STATE VOLTAGE VERSUS ON-STATE
CURRENT（TYPICAL VALUES）.
IT（A）
50
F=50HZ
TJ=25oC
20
10
5
2
t（S）
Vt（V）
1
1E-2 1E-1
1E+0
1E+1
1E+2
1E+3
1.0
1.08
IH【TJ】/ IH【T= 25℃】
3.0
4.0
5.0
6.0
7.0
8.0
9.0
10.0
FIG. 4- RELATIVE VARIATION OF BREAK OVER
VOLTAGE VERSUS JUNCTION
TEMPERATURE .
FIG. 3-RELATIVE VARIATION OF HOLDING CURRENT
VERSUS JUNCTION TEMPERATURE .
1.8
1.6
1.4
1.2
2.0
VBO【TJ】/ VBO【TJ= 25℃】
1.06
1.04
TJ（oC）
1.02
1.0
1.00
0.8
0.98
0.6
0.96
0.4
TJ（oC）
0.94
0.2
0.0
-40
-40
–20
0
20
40
60
80
100
20
40
60
80
100
120
ZTH（J-A）（℃/W）
TEMPERATURE（TYPICAL VALUES）.
1000
0
FIG. 6-RELATIVE VARIATION OF THERMAL
IMPEDANCE VERSUS PULSE DURATION
FIG. 5-RELATIVE VARIATION OF LEAKAGE
CURRENT VERSUS JUNCTION
2000
–20
120
1E+2
IRM【TJ】/ IRM【T= 25℃】
ZTH（J-A）
VR=VRM
1E+1
100
TJ（oC）
1E+0
Tp（S）
10
1E-1
1E-3
1
25
50
75
100
125
1E-2
1E-1
1E+0
1E+1
1E+2
5E+2
FIG. 7-RELATIVE VARIATION OF JUNCTION
CAPACITANCE VERSUS REVERSE VOLTAGE
APPLIED（TYPICAL VALUES）.
2.5
C【VR】/ C【VR=50V】
TJ（25oC）
F=1MHZ
VRMS=1V
2.0
1.5
1.0
0.5
TJ（oC）
0.0
1
SMTPA62 THRU SMTPA270
2
5
10
20
50
100
300
Page: 4