*R
oH
S
CO
M
PL
IA
N
T
TISP4070H3LM THRU TISP4115H3LM,
TISP4125H3LM THRU TISP4220H3LM,
TISP4240H3LM THRU TISP4400H3LM
BIDIRECTIONAL THYRISTOR OVERVOLTAGE PROTECTORS
TISP4xxxH3LM Overvoltage Protector Series
TISP4xxxH3LM Overview
This TISP
®
device series protects central office, access and customer premise equipment against overvoltages on the telecom line. The
TISP4xxxH3LM is available in a wide range of voltages and has a high current capability, allowing minimal series resistance to be used.
These protectors have been specified mindful of the following standards and recommendations: GR-1089-CORE, FCC Part 68, UL1950, EN
60950, IEC 60950, ITU-T K.20, K.21 and K.45. The TISP4350H3LM meets the FCC Part 68 “B” ringer voltage requirement and survives the
Type A and B impulse tests. These devices are housed in a through-hole DO-92 package (TO-92 package with cropped center leg).
Summary Electrical Characteristics
Part #
TISP4070H3
TISP4080H3
TISP4095H3
TISP4115H3
TISP4125H3
TISP4145H3
TISP4165H3
TISP4180H3
TISP4220H3
TISP4240H3
TISP4250H3
TISP4260H3
TISP4290H3
TISP4300H3
TISP4350H3
TISP4395H3
TISP4400H3
V
DRM
V
58
65
75
90
100
120
135
145
160
180
190
200
220
230
275
320
300
V
(BO)
V
70
80
95
115
125
145
165
180
220
240
250
260
290
300
350
395
400
V
T
@ I
T
V
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
I
DRM
A
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
I
(BO)
mA
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
I
T
A
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
I
H
mA
150
150
150
150
150
150
150
150
150
150
150
150
150
150
150
150
150
C
o
@ -2 V
pF
120
120
120
120
65
65
65
65
65
55
55
55
55
55
55
55
55
Functionally
Replaces
P0640EC†
P0720EC†
P0900EC†
P1100EC†
P1300EC†
P1500EC
P1800EC
P2300EC†
P2600EC†
P3100EC
P3500EC†
E
T
E
L
O
S
B
O
I
TSP
A
10/160
250
5/320
200
10/560
160
10/1000
100
† Bourns part has an improved protection voltage
Summary Current Ratings
Parameter
Waveshape
Value
2/10
500
1.2/50, 8/20
300
I
TSM
A
1 cycle 60 Hz
60
di/dt
A/μs
2/10 Wavefront
400
NOVEMBER 1997 - REVISED JANUARY 2010
*RoHS Directive 2002/95/EC Jan 27 2003 including Annex.
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
TISP4xxxH3LM Overvoltage Protector Series
ITU-T K.20/21 Rating ............................ 8 kV 10/700, 100 A 5/310
Ion-Implanted Breakdown Region
Precise and Stable Voltage
Low Voltage Overshoot under Surge
LM Package
(Top View)
Device
‘4070
‘4080
‘4095
‘4115
‘4125
‘4145
‘4165
‘4180
‘4220
‘4240
‘4250
‘4260
‘4290
‘4300
‘4350
‘4395
‘4400
V
DRM
V
58
65
75
90
100
120
135
145
160
180
190
200
220
230
275
320
300
V
(BO)
V
70
80
95
115
125
145
165
180
220
240
250
260
290
300
350
395
400
T(A)
NC
R(B)
1
2
3
MD4XAT
NC - No internal connection on pin 2
LMF Package
(LM Package with Formed Leads) (Top View)
T(A)
NC
R(B)
1
2
3
MD4XAKB
Rated for International Surge Wave Shapes
Waveshape
2/10
µs
8/20
µs
10/160
µs
10/700
µs
10/560
µs
10/1000
µs
Standard
GR-1089-CORE
IEC 61000-4-5
FCC Part 68
ITU-T K.20/21
FCC Part 68
GR-1089-CORE
E
T
E
L
O
S
B
O
Device Symbol
T
I
TSP
A
500
300
250
200
160
100
R
NC - No internal connection on pin 2
SD4XAA
Terminals T and R correspond to the
alternative line designators of A and B
Low Differential Capacitance ...................................... 80 pF max.
................................................UL Recognized Component
Description
These devices are designed to limit overvoltages on the telephone line. Overvoltages are normally caused by a.c. power system or lightning
flash disturbances which are induced or conducted on to the telephone line. A single device provides 2-point protection and is typically used
for the protection of 2-wire telecommunication equipment (e.g. between the Ring and Tip wires for telephones and modems). Combinations
of devices can be used for multi-point protection (e.g. 3-point protection between Ring, Tip and Ground).
The protector consists of a symmetrical voltage-triggered bidirectional thyristor. Overvoltages are initially clipped by breakdown clamping
until the voltage rises to the breakover level, which causes the device to crowbar into a low-voltage on state. This low-voltage on state
causes the current resulting from the overvoltage to be safely diverted through the device. The high crowbar holding current
helps
prevent
d.c.
latchup as the diverted current subsides.
How to Order
Device
TISP4xxxH3LM
Package
Straight Lead DO-92 (LM)
Carrier
Bulk Pack
Tape and Reeled
Order As
TISP4xxxH3LM-S
TISP4xxxH3LMR-S
TISP4xxxH3LMFR-S
NOVEMBER 1997 - REVISED JANUARY 2010
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
Formed Lead DO-92 (LMF) Tape and Reeled
Insert xxx value corresponding to protection voltages of 070, 080, 095, 115 etc.
TISP4xxxH3LM Overvoltage Protector Series
Description (Continued)
This TISP4xxxH3LM range consists of seventeen voltage variants to meet various maximum system voltage levels (58 V to 320 V). They are
guaranteed to voltage limit and withstand the listed international lightning surges in both polarities. These protection devices are supplied
in a DO-92 (LM) cylindrical plastic package. The TISP4xxxH3LM is a straight lead DO-92 supplied in bulk pack and on tape and reel. The
TISP4xxxH3LMF is a formed lead DO-92 supplied only on tape and reel. For lower rated impulse currents in the DO-92 package, the 50 A
10/1000 TISP4xxxM3LM series is available.
Absolute Maximum Ratings, T
A
= 25 °C (Unless Otherwise Noted)
Rating
‘4070
‘4080
‘4095
‘4115
‘4125
‘4145
‘4165
‘4180
‘4220
‘4240
‘4250
‘4260
‘4290
‘4300
‘4350
‘4395
‘4400
Symbol
Value
±
58
±
65
±
75
±
90
±100
±120
±135
±145
±160
±180
±190
±200
±220
±230
±275
±320
±300
500
300
250
220
200
200
200
200
160
100
55
60
2.3
400
-40 to +150
-65 to +150
Unit
Repetitive peak off-state voltage, (see Note 1)
Non-repetitive peak on-state pulse current (see Notes 2, 3 and 4)
2/10
µs
(GR-1089-CORE, 2/10
µs
voltage wave shape)
8/20
µs
(IEC 61000-4-5, combination wave generator, 1.2/50 voltage, 8/20 current)
10/160
µs
(FCC Part 68, 10/160
µs
voltage wave shape)
5/200
µs
(VDE 0433, 10/700
µs
voltage wave shape)
0.2/310
µs
(I 31-24, 0.5/700
µs
voltage wave shape)
5/310
µs
(ITU-T K20/21, 10/700
µs
voltage wave shape)
5/310
µs
(FTZ R12, 10/700
µs
voltage wave shape)
5/320
µs
(FCC Part 68, 9/720
µs
voltage wave shape)
10/560
µs
(FCC Part 68, 10/560
µs
voltage wave shape)
10/1000
µs
(GR-1089-CORE, 10/1000
µs
voltage wave shape)
Non-repetitive peak on-state current (see Notes 2, 3 and 5)
20 ms (50 Hz) full sine wave
16.7 ms (60 Hz) full sine wave
1000 s 50 Hz/60 Hz a.c.
Initial rate of rise of on-state current, Exponential current ramp, Maximum ramp value < 100 A
Junction temperature
Storage temperature range
NOTES: 1.
2.
3.
4.
5.
E
T
E
L
O
S
B
O
V
DRM
I
TSP
I
TSM
di
T
/dt
T
J
T
stg
V
A
A
A/µs
°C
°C
See Applications Information and Figure 10 for voltage values at lower temperatures.
Initially, the TISP4xxxH3LM must be in thermal equilibrium with T
J
= 25
°C.
The surge may be repeated after the TISP4xxxH3LM returns to its initial conditions.
See Applications Information and Figure 11 for current ratings at other temperatures.
EIA/JESD51-2 environment and EIA/JESD51-3 PCB with standard footprint dimensions connected with 5 A rated printed wiring
track widths. See Figure 8 for the current ratings at other durations. Derate current values at -0.61 %/°C for ambient
temperatures above 25
°C.
NOVEMBER 1997 - REVISED JANUARY 2010
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
TISP4xxxH3LM Overvoltage Protector Series
TISP4xxxF3LM Overvoltage Protector Series
Electrical Characteristics, T
A
= 25 °C (Unless Otherwise Noted)
Parameter
Repetitive peak off-
state current
Test Conditions
V
D
=
±V
DRM
T
A
= 25
°C
T
A
= 85
°C
‘4070
‘4080
‘4095
‘4115
‘4125
‘4145
‘4165
‘4180
‘4220
‘4240
‘4250
‘4260
‘4290
‘4300
‘4350
‘4395
‘4400
‘4070
‘4080
‘4095
‘4115
‘4125
‘4145
‘4165
‘4180
‘4220
‘4240
‘4250
‘4260
‘4290
‘4300
‘4350
‘4395
‘4400
Min
Typ
Max
±5
±10
±70
±80
±95
±115
±125
±145
±165
±180
±220
±240
±250
±260
±290
±300
±350
±395
±400
±78
±88
±103
±124
±134
±154
±174
±189
±230
±250
±261
±271
±301
±311
±362
±408
±413
±0.6
±3
±0.6
Unit
I
DRM
V
(BO)
Breakover voltage
dv/dt =
±750
V/ms,
V
(BO)
Impulse breakover
voltage
dv/dt
≤ ±1000
Linear voltage ramp,
Maximum ramp value =
±500
V
di/dt =
±20
A
Linear current ramp,
Maximum ramp value =
±10
A
E
T
E
L
O
S
B
O
R
SOURCE
=
±0.15
±0.15
±5
T
A
= 85
°C
V
V
I
(BO)
V
T
I
H
dv/dt
I
D
Breakover current
On-state voltage
Holding current
Critical rate of rise of
off-state voltage
Off-state current
dv/dt =
±750
V/ms, R
SOURCE
=
I
T
=
±5
A,t
W
= 100
I
T
=
±5
A,d i/dt = - / +30 mA/ms
Linear voltage ramp, Maximum ramp value < 0.85V
DRM
V
D
=
±50
V
A
V
A
kV
±10
μA
NOVEMBER 1997 - REVISED JANUARY 2010
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
TISP4xxxH3LM Overvoltage Protector Series
TISP4xxxF3LM
Electrical Characteristics, T
A
= 25 °C (Unless Otherwise Noted) (Continued)
Parameter
Test Conditions
f = 100 kHz, V
d
= 1 V rms, V
D
= 0,
Min
4070 thru ‘4115
‘4125 thru ‘4220
‘4240 thru ‘4400
‘4070 thru ‘4115
‘4125 thru ‘4220
‘4240 thru ‘4400
‘4070 thru ‘4115
‘4125 thru ‘4220
‘4240 thru ‘4400
‘4070 thru ‘4115
‘4125 thru ‘4220
‘4240 thru ‘4400
‘4125 thru ‘4220
‘4240 thru ‘4400
Typ
172
95
92
157
85
80
145
78
72
70
33
28
25
22
Max
218
120
115
200
110
100
185
100
90
90
43
35
33
28
Unit
f = 100 kHz, V
d
= 1 V rms, V
D
= -1 V
C
off
Off-state capacitance
f = 100 kHz, V
d
= 1 V rms, V
D
= -2 V
pF
f = 100 kHz, V
d
= 1 V rms, V
D
= -50 V
f = 100 kHz, V
d
= 1 V rms, V
D
= -100 V
(see Note 6)
NOTE
6: To avoid possible voltage clipping, the ‘4125 is tested with V
D
= -98 V.
Thermal Characteristics
Parameter
R
θJA
Junction to free air thermal resistance
NOTE
7: EIA/JESD51-2 environment and PCB has standard footprint dimensions connected with 5 A rated printed wiring track widths.
E
T
E
L
O
S
B
O
Test Conditions
Min
EIA/JESD51-3 PCB, I
T
= I
TSM(1000)
,
T
A
= 25
°C,
(see Note 7)
265 mm x 210 mm populated line card,
4-layer PCB, I
T
= I
TSM(1000)
, T
A
= 25
°C
Typ
Max
105
Unit
°C/W
55
NOVEMBER 1997 - REVISED JANUARY 2010
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
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