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Introduction to SIDACtor

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Introduction to SIDACtor Overvoltage Protection Devices Outline Overvoltage Protection The race is on Clamp vs Crowbar Key Parameters Vdrm Vbo Vs Holding Current ... – PowerPoint PPT presentation

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Title: Introduction to SIDACtor

1
Introduction to SIDACtor Overvoltage Protection
Devices
2
Outline

Overvoltage Protection
The race is on
Clamp vs Crowbar
Key Parameters
Vdrm
Vbo
Vs
Holding Current
Surge Current Withstand
Double Exponential Waveforms
Power Cross Considerations

Protected Circuit Issues
Let-through voltage
Turn-on time
Capacitance
Vbo Dependence
Applied voltage dependence
Surge Capability dependence
Configurations
Single Devices
SLIC Devices
2-Chip Devices
3-chip Y Devices
Package Options
Selection Process

3
The Race is On!
Overvoltage Protector
Protected Circuit
Overvoltage Event
4
Clamping Devices vs Crowbar Devices
5
Outline

Overvoltage Protection
The race is on
Clamp vs Crowbar
Key Parameters
Vdrm
Vbo
Vs
Holding Current
Surge Current Withstand
Double Exponential Waveforms
Power Cross Considerations

Protected Circuit Issues
Let-through voltage
Turn-on time
Capacitance
Vbo Dependence
Applied voltage dependence
Surge Capability dependence
Configurations
Single Devices
SLIC Devices
2-Chip Devices
3-chip Y Devices
Package Options
Selection Process

6
Key Parameters

Voltage Current (V-I) Curve
Voltage is displayed left to right
Current is displayed up and down

7
Key Parameters VDRM
I
IT
IS
IH
IDRM
-V
V
VDRM
VBO
VS
VT
-I
8
Key Parameters VBO
I
IT
IS
IH
IDRM
-V
V
VDRM
VBO
VS
VT
-I
9
Key Parameters VS
I
IT
IS
IH
IDRM
-V
V
VDRM
VBO
VS
VT
-I
10
Key Parameters Holding Current (Ih)
I
IT
IS
IH
IDRM
-V
V
VDRM
VBO
VS
VT
-I
11
Key Parameters Surge Current Withstand

Double Exponential Waveforms
Simulate induced lightning events
Rise time decay time in microseconds

10 x 1000 8 x 20 2 x 10
10 x 700 10 x 560 5 x 320
12
Key Parameters Power Cross Events

Accidental contact with power lines
Construction Accidents
Traffic Accidents
Weather-related Accidents
Inductive coupling
Co-locating telephone cables with power cables
Improper grounding

13
Outline

Overvoltage Protection
The race is on
Clamp vs Crowbar
Key Parameters
Vdrm
Vbo
Vs
Holding Current
Surge Current Withstand
Double Exponential Waveforms
Power Cross Considerations

Protected Circuit Issues
Let-through voltage
Turn-on time
Capacitance
Vbo Dependence
Applied voltage dependence
Surge Capability dependence
Configurations
Single Devices
SLIC Devices
2-Chip Devices
3-chip Y Devices
Package Options
Selection Process

14
Protected Circuit IssuesLet-Through Voltage

Let-through voltage The peak voltage that the
protected circuit will see in the real
application.
Similar to the datasheet Vs value
Vs is defined as the peak voltage measured
directly across the SIDACtor at a particular
voltage rate of rise.
Dependent on
Actual incident voltage rate of rise
Board layout
SIDACtor should be as near the entrance to the
board as possible.
SIDACtor should be in-line so that the surge
must pass under the SIDACtor on the way to the
protected circuit..

15
Protected Circuit IssuesTurn-On Time

Turn-On Time
Time to clamp
Time to crowbar
Clamp to crowbar transition time

16
Protected Circuit IssuesCapacitance

Vbo Dependence

17
Protected Circuit IssuesCapacitance

Applied Voltage Dependence

18
Protected Circuit IssuesCapacitance

Surge Capability Dependence

P2300xx A B C D RE ME
Surge Rating (8x20) 150 250 400 1000 3000 5000
Capacitance (pF _at_ 2V) 30 38 55 65 220 475
19
Outline

Overvoltage Protection
The race is on
Clamp vs Crowbar
Key Parameters
Vdrm
Vbo
Vs
Holding Current
Surge Current Withstand
Double Exponential Waveforms
Power Cross Considerations

Protected Circuit Issues
Let-through voltage
Turn-on time
Capacitance
Vbo Dependence
Applied voltage dependence
Surge Capability dependence
Configurations
Single Devices
SLIC Devices
2-Chip Devices
3-chip Y Devices
Package Options
Selection Process

20
SIDACtor Device ConfigurationsStandard Single
Devices

The Original
Flexible Board Layout

21
SIDACtor Device ConfigurationsSLIC Single
Devices

SIDACtor Device for Negative Voltages
Diode Device for Positive Voltages
Subscriber
Line
Interface
Circuit

22
SIDACtor Device Configurations2-Chip Devices

TwinChip
2-in-1 Packaging
Matched Chips

TwinSLIC
2-in-1 Packaging
1 pkg per port

Broadband Optimized
Half the capacitance
Better linearity

23
SIDACtor Device Configurations3-Chip Y Devices

Lower Capacitance
Better Capacitance Balance
Better Voltage Balance
Better Surge Balance
3-for-1 Placement Advantage

24
SIDACtor Device ConfigurationsTracking Devices

BATTRAX Trademark
Sophisticated SLIC protection
Retains diodes for positive surges
Negative breakdown voltage determined by
reference
Positive voltage tracking also available

25
SIDACtor Device ConfigurationsBridge Devices

For Broadband Applications
And more!
Patented Bridge Design
Low Capacitance
Great Capacitance Balance
Perfect Voltage Balance
Perfect Surge Balance
Biasing provides flat lower and flatter
capacitance

26
Outline

Overvoltage Protection
The race is on
Clamp vs Crowbar
Key Parameters
Vdrm
Vbo
Vs
Holding Current
Surge Current Withstand
Double Exponential Waveforms
Power Cross Considerations

Protected Circuit Issues
Let-through voltage
Turn-on time
Capacitance
Vbo Dependence
Applied voltage dependence
Surge Capability dependence
Configurations
Single Devices
SLIC Devices
2-Chip Devices
3-chip Y Devices
Package Options
Selection Process

27
SIDACtor Part Numbering
A ITU K.20 K.21
B TIA-968-A
C GR-1089
28
Package OptionsThru-Hole
G
E
TO-218
M
R
A
29
Package OptionsSurface Mount
Q12
3x3 QFN 3.3x3.3 QFN
C
Q22
S
U
Q38
N
5x6 QFN
30
Outline