TISP7180F3 Bourns, Inc., TISP7180F3 Datasheet

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TISP7180F3

Manufacturer Part Number
TISP7180F3
Description
Manufacturer
Bourns, Inc.
Datasheet
Planar Passivated Junctions
- Low Off-State Current.................................<10 µ µ µ µ µ A
Rated for International Surge Wave Shapes
- Single and Simultaneous Impulses
The TISP7xxxF3 series are 3-point overvoltage protectors
designed for protecting against metallic (differential mode) and
simultaneous longitudinal (common mode) surges. Each terminal
pair has the same voltage limiting values and surge current
capability. This terminal pair surge capability ensures that the
protector can meet the simultaneous longitudinal surge require-
ment which is typically twice the metallic surge requirement.
Patented Ion-Implanted Breakdown Region
- Precise DC and Dynamic Voltages
Description
How To Order
† For new designs use ‘7350F3 instead of ‘7380F3
Waveshape
‘7380F3†
‘7125F3
‘7150F3
‘7180F3
‘7240F3
‘7260F3
‘7290F3
‘7320F3
‘7350F3
TI S P 7x xxF3
TISP7xxxF3
10/1000
Device
............................................... UL Recognized Component
10/160
10/700
10/560
Device
2/10
8/20
GR-1089-CORE
GR-1089-CORE
IEC 61000-4-5
ITU-T K.20/21
FCC Part 68
FCC Part 68
FCC Part 68
SL, Single-in-line
Standard
D , S m al l - out l i n e
V
100
120
145
180
200
220
240
275
270
DRM
Package
V
V
125
150
180
240
260
290
320
350
380
T ape and Reel
I
(BO)
190
175
110
V
TSP
70
50
45
A
Carrier
T ube
Tube
TISP7xxxF3 (MV, HV) Overvoltage Protector Series
TISP7xxxF3DR-S
TISP7xxxF3SL-S
TISP7xxxF3D-S
BIDIRECTIONAL THYRISTOR OVERVOLTAGE PROTECTORS
Order As
NC - No internal connection.
NU - Non-usable; no external electrical connection should be
Specified ratings require connection of pins 5 and 8.
D Package (Top View)
SL Package (Top View)
Device Symbol
Customers should verify actual device performance in their specific applications.
MEDIUM & HIGH-VOLTAGE TRIPLE ELEMENT
made to these pins.
Terminals T, R and G correspond to the
alternative line designators of A, B and C
G
R
T
NC
NC
*RoHS Directive 2002/95/EC Jan 27 2003 including Annex
R
T
T
TISP7125F3 THRU TISP7180F3,
TISP7240F3 THRU TISP7380F3
2
1
3
Specifications are subject to change without notice.
1
2
3
4
G
MARCH 1994 - REVISED JANUARY 2007
SD7XAB
8
7
6
5
R
G
NU
NU
G
MD1XAB

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TISP7180F3 Summary of contents

Page 1

... Device Symbol A 190 175 110 Order As Carrier T ape and Reel TISP7xxxF3DR-S T ube TISP7xxxF3D-S Tube TISP7xxxF3SL-S Customers should verify actual device performance in their specific applications. TISP7125F3 THRU TISP7180F3, TISP7240F3 THRU TISP7380F3 MEDIUM & HIGH-VOLTAGE TRIPLE ELEMENT ...

Page 2

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Description (continued) Each terminal pair has a symmetrical voltage-triggered thyristor characteristic. Overvoltages are initially clipped by breakdown clamping until the voltage rises to the breakover level, which causes the device to crowbar into a ...

Page 3

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Electrical Characteristics for all Terminal Pairs Parameter Repetitive peak off DRM D state current V Breakover voltage dv/dt = ±250 V/ms, R (BO) dv/dt ≤ ±1000 ...

Page 4

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Parameter Measurement Information V DRM -v I DRM I (BO) V (BO) Quadrant III Switching Characteristic Figure 1. Voltage-Current Characteristic for T and R Terminals T and G and R and G Measurements are ...

Page 5

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and and G Terminals TISP7125F3 THRU TISP7180F3 OFF-STATE CURRENT vs JUNCTION TEMPERATURE 100 10 1 0·1 0·01 0·001 - Junction Temperature - °C J Figure 2. NORMALIZED BREAKDOWN VOLTAGES vs JUNCTION TEMPERATURE 1.2 1.1 V (BO) V (BR)M 1.0 V Normalized to V (BR) I (BR) 0.9 - ...

Page 6

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and and G Terminals TISP7125F3 THRU TISP7180F3 NORMALIZED BREAKDOWN VOLTAGES vs JUNCTION TEMPERATURE 1.2 1.1 V (BO) V (BR)M 1.0 V (BR) 0.9 - Junction Temperature - °C J Figure 6. ON-STATE CURRENT ON-STATE VOLTAGE 100 Positive Polarity 10 150 ° On-State Voltage - V T Figure 8 ...

Page 7

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and and G Terminals TISP7125F3 THRU TISP7180F3 ON-STATE CURRENT vs ON-STATE VOLTAGE 100 Negative Polarity 10 150 ° On-State Voltage - V T Figure 10. HOLDING CURRENT & BREAKOVER CURRENT 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 - Junction Temperature - °C J Figure 12. ...

Page 8

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and and G Terminals TISP7125F3 THRU TISP7180F3 NORMALIZED BREAKOVER VOLTAGE vs RATE OF RISE OF PRINCIPLE CURRENT 1.2 1.1 1.0 0·001 0·01 0·1 di/dt - Rate of Rise of Principle Current - A/µs Figure 14. SURGE CURRENT vs DECAY TIME 1000 100 Decay Time - µs Figure 16. ...

Page 9

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and T Terminals TISP7125F3 THRU TISP7180F3 OFF-STATE CURRENT JUNCTION TEMPERATURE 100 10 1 0·1 0·01 0·001 - Junction Temperature - °C J Figure 18. NORMALIZED BREAKDOWN VOLTAGES vs JUNCTION TEMPERATURE 1.2 1.1 V (BO) V 1.0 (BR)M V (BR) 0.9 - Junction Temperature - °C J Figure 20. ...

Page 10

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and T Terminals TISP7125F3 THRU TISP7180F3 ON-STATE CURRENT vs ON-STATE VOLTAGE 100 10 150 ° On-State Voltage - V T Figure 22. HOLDING CURRENT & BREAKOVER CURRENT vs JUNCTION TEMPERATURE 1.0 0.9 0.8 0.7 0.6 0.5 0.4 I (BO) 0.3 0 0.1 - Junction Temperature - ° Figure 24. ...

Page 11

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Typical Characteristics - R and T Terminals TISP7125F3 THRU TISP7180F3 NORMALIZED BREAKOVER VOLTAGE vs RATE OF RISE OF PRINCIPLE CURRENT 1.2 1.1 1.0 0·001 0·01 0·1 di/dt - Rate of Rise of Principle Current - A/µs Figure 26. TC7MAV 1.2 1.1 1 100 0·001 Customers should verify actual device performance in their specific applications. ...

Page 12

... TISP7xxxF3 (MV, HV) Overvoltage Protector Series Thermal Information TISP7125F3 THRU TISP7180F3 MAXIMUM NON-RECURRING 50 Hz CURRENT vs CURRENT DURATION 10 SL Package D Package 1 0· Current Duration - s Figure 28. THERMAL RESPONSE 100 D Package 10 SL Package 1 0·0001 0·001 0·01 0· Power Pulse Duration - s Figure 30. ...

Page 13

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Thermal Information Non-repetitive peak on-state pulse current, 0 °C < T 1/2 (Gas tube differential transient, 1/2 voltage wave shape) 2/10 (Telcordia GR-1089-CORE, 2/10 voltage wave shape) 1/20 (ITU-T K.22, 1.2/50 voltage wave shape, ...

Page 14

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Deployment These devices are three terminal overvoltage protectors. They limit the voltage between three points in the circuit. Typically, this would be the two line conductors and protective ground (Figure 32) In Figure 32, ...

Page 15

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Lightning Surge (continued) ITU-T 10/700 Generator (continued 2 µF 50 Ω 10/700 GENERATOR - SINGLE TERMINAL PAIR TEST ...

Page 16

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Lightning Surge (continued) ITU-T 10/700 Generator (continued) individual The series resistance from charge voltage output current will result °C, these protectors are rated at 70 ...

Page 17

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Lightning Surge (continued) 1.2/50 Generators (continued) There are 8/20 short circuit current defined generators. These are usually very high current more and are used for testing a.c. protectors, primary protection modules ...

Page 18

TISP7xxxF3 (MV, HV) Overvoltage Protector Series Protection Voltage The protection voltage, (V (BO) ), increases under lightning surge conditions due to thyristor regeneration. This increase is dependent on the rate of current rise, di/dt, when the TISP ® device is ...

Page 19

... GENERATOR Figure 38. Line Card Ring/Test Protection “TISP” trademark of Bourns, Ltd., a Bourns Company, and is Registered in U.S. Patent and Trademark Office. “Bourns” registered trademark of Bourns, Inc. in the U.S. and other countries. Customers should verify actual device performance in their specific applications. PROTECTED ...

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