Electrostatic Discharge (ESD) Suppression Design Guide

Electrostatic Discharge (ESD)
Suppression Design Guide
ESD
Electrostatic Discharge
(ESD) Suppression
Design Guide
Electrostatic Discharge (ESD) is an electrical transient that poses a serious threat to electronic
circuits. The most common cause is friction between two dissimilar materials, causing a
buildup of electric charges on their surfaces. Typically, one of the surfaces is the human body,
and it is not uncommon for this static charge to reach a potential as high as 15,000 volts. At
6,000 static volts, an ESD event will be painful to a person. Lower voltage discharges may go
unnoticed, but can still cause catastrophic damage to electronic components and circuits.
about this Guide
Choosing the most appropriate suppressor technology requires a balance between equipment
protection needs and operating requirements, taking into account the anticipated threat level. In
addition to the electrical characteristics of suppression devices, the form factor/package style
must also be considered. This guide is designed to summarize some of the comprehensive ESD
solutions that Littelfuse offers, and help designers narrow to technologies appropriate to their
end application:
Table of Contents
Page
ESD Suppression Technologies
2
ESD Damage, Suppression Requirements and Considerations
3
ESD Data Protocol, Application and Product Selection
4
Port Protection Examples
5-10
ESD Suppressor Product Selection Guide
• PULSE-GUARD® ESD Suppressors
• Multilayer Varistors (MLVs)
• TVS Diode Arrays ( SPA® Diodes)
11-16
Legal Disclaimers
17
© 2014 Littelfuse, Inc.
Specifications descriptions and illustrative material in this literature are as accurate as known at the time of publication,
but are subject to changes without notice. Visit littelfuse.com for more information.
ESD Suppresion Design Guide
ESD Suppression Technologies
Protection
Technology
Multilayer Varistor
(MLVs)
Data Rate
Span
Peak/
Clamp
(8kV)
ESD Level
Discrete
Options
Array
Options
Applications and
Circuits
Key
Advantages
Good
Good
0402
0603
0805
1206
1206
Keypad/switch,
audio, analog video,
USB1.1, RS232
Lowest cost;
broad discrete offering
SOT143
SOT23
SC70
SOT553
SOT563
SOT953
MSOP 8
MSOP 10
µDFN
TDFN
Keypad/switch,
USB1.1, USB2.0, USB3.0,
audio, analog video,
FireWire 1394,
HDMI, Ethernet,
MMC interface,
LCD module..
RS232, RS485,
CAN, LIN
Lowest peak and
clamp voltages
SOT23
USB2.0, FireWire 1394,
HDMI/USB3.0, RF antenna
Lowest capacitance
< 125Mbps
TVS Diode Arrays
(SPA® Diodes)
0 - > 5Gbps
Excellent
Excellent
0805 (SOD323)
0402 (SOD882,
SOD723)
0201 (Flipchip,
µDFN-2)
01005 (Flipchip)
PULSE-GUARD®
ESD Suppressors
100Mbps ->
5Gbps
Good
Good
0201
0402
0603
When to Choose PULSE-GUARD® ESD Suppressors
•
•
•
The application tolerates very little added capacitance (high speed data lines or RF circuits)
ESD is the only transient threat
Protection is required on data, signal, and control lines (not power supply lines)
When to Choose TVS Diode Arrays (SPA® Diodes)
• The device being protected requires the lowest possible clamp voltage, low capacitance (0.30pF – 400pF) and low
leakage (0.01µA – 10µA)
•
•
Board space is at a premium and space-savings multi-line protection is needed
Transients other than ESD, such as EFT or lightning, must also be considered
When to Choose Multilayer Varistors (MLVs)
•
•
•
•
•
Surge currents or energy beyond ESD is expected in the application (EFT, lightning)
Looking to replace high wattage TVS Zener diodes (300W – 1500W)
Added capacitance is desirable for EMI filtering (3pF – 6000pF)
Power supply line or low/medium speed data and signal lines are to be protected
The operating voltage is above silicon or PULSE-GUARD® ESD suppressor ratings
© 2014 Littelfuse • ESD Suppression Design Guide
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ESD Suppresion Design Guide
ESD Damage, Suppression Requirements and Considerations
ESD Damage
Figure 1. ESD Test Waveform
ESD is characterized by fast rise times and high peak
voltages and currents up to 30 amps (per IEC 610004-2, level 4), which can melt silicon and conductor
traces. However, ESD effects can be more subtle. The
three types of damage are:
Current (I) %
100
90
%
1. Soft Failures
Electrical currents due to ESD can change the state of
internal logic, causing a system to latch up or behave
unpredictably, or cause corruption of a data stream. While
this is temporary, it may slow down communications, or
require a system reboot in the case of lockup.
I60
30ns
60ns
tr = 0.7 to 1.0ns
2. Latent Defects
A component or circuit may be damaged by ESD and its
function degraded though the system will continue to
work. However, this type of defect often progresses to a
premature failure.
ESD Suppression and Circuit Design Considerations
3. Catastrophic Failures
Of course, ESD can damage a component to the point
where it does not function as intended, or doesn’t work at
all.
Proper use of ESD circuit protection helps prevent these
failures. Still, selection of a suppression device must
recognize that ESD has very short rise and fall times—
less than one nanosecond (1ns) in most cases. The
International Electrotechnical Commission (IEC) has
developed a specification (IEC 61000-4-2) for ESD testing
that helps determine if products are susceptible to ESD
events.
ESD Suppression Requirements
The likelihood of electronic circuit damage is increasing as
integrated circuit (IC) dimensions are shrinking to nanometer sizes. Most ICs operate at low voltages and have
structures and conductive paths that cannot survive the
high currents and voltages associated with ESD transients.
Littelfuse device engineers use specifications like these
to design ESD suppressors with the speed, clamping
voltage, and residual current levels that will protect today’s
sensitive semiconductors and electronic circuitry. Many of
these designs have the low internal capacitance needed
for high bandwidth communications.
Another significant trend is the migration to higher frequency communication devices to transmit more information in less time. This means that ESD solutions must
not compromise stringent signal integrity requirements at
the higher data rates. Therefore, ESD suppressors must
have low internal capacitance so that data communication
signals are not distorted.
When selecting ESD suppressors, circuit designers need
to consider potential coupling paths that would allow
ESD to enter their equipment and circuits. These weak
points identify areas that should be considered for ESD
suppressor installation. Ultimately, designers need to
select ESD suppressors with characteristics appropriate
for their type of equipment, the component sensitivity, and
the environment where it will be used.
IC designers add a limited amount of ESD suppression
to their chips to help avoid damage during manufacturing
and assembly processes. However, the level of protection that is added may not be sufficient to protect ICs
and other semiconductor devices from ESD during actual
usage. Many electronic products, especially portable ones,
are used in uncontrolled environments. Portable devices
can experience a charge buildup as they are carried by
users on their person or in a purse. This energy can then
be discharged to another device as the two are connected,
usually when a user touches I/O pins on a cable connector. Therefore, end product designers should consider
adding ESD suppressors to their circuits.
© 2014 Littelfuse • ESD Suppression Design Guide
I30
3
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ESD Suppresion Design Guide
Data Protocol, Application and Product Selection
The chart below shows the relationship between Data The chart below shows the relationship between Data Rates
(Protocol), Applications, and Littelfuse ESD suppression products. The top of the chart shows the standard data protocols, associated data rates, and example end applications that may
use the protocols, while the body of the chart shows the applicable Littelfuse ESD suppressors for the various data rates,
protocols and applications.
The characteristic of concern here is capacitance. High capacitance suppression devices will tend to add signal distortion as
signal frequencies increase; low capacitance devices will maintain signal integrity at high data rates.
Note that an application may use several different data protocols and could use as many different ESD suppressor
products. For example, a laptop computer could have RS232, USB 2.0, video, and PS2 mouse ports, as well as others. The RS232 and mouse ports use relatively slow data rates and could use any Littelfuse suppressor (although higher
capacitance multi-layer or silicon parts are preferred for EMI filtering capabilities). The appropriate protector for the video
port would depend on the data rate, and since the USB 2.0 port requires an extremely low capacitance suppression device,
PULSE-GUARD ® ESD Suppressor or TVS Diode Array (SPA® Diodes) devices should be considered.
If you require further assistance in selecting the appropriate Littelfuse ESD suppressor for your specific circuit, please
contact your local Littelfuse products representative.
product series and applicable Data Rates and ProtocolS
Data Rate
(Mbit/sec)
0
.03
Audio
Data
Protocols
.05
.13
2
12
RS232
IEEE 1284
USB 1.1
CAN/LIN
25
125
RS485
10/100 Ethernet
Video
320
400
480
800
USB 2.0
IEEE1394b
IEEE 1394a
LCDs
3,000
5,000
SATA
HDMI/USB3.0
1Gb Ethernet
SP05, SMxx SDxx,
SDxxC, SM24CANx
SP1001, SP1003, SP1005,
SP1006,
SP1006,SP1010, SP1011, SPHVxx
SP1002, SPHVxx-C, SM712
SP1004, SP1007, SP1012
SLVU2.8, SLVU2.8-4,SP03-x
LC03-3.3, SRDA3.3, SRDA05
SP720 thru SP725
SP2502L, SP2504N, SP2574N
SP3304N, SP3051,SP4020, SP4021
SP4060, SP4065, SRV05-4
SP3001.SP3002, SP3003,SP3004
SP3006, SP3014, SP3031
SP0524P, SP3010, SP3011
SP3012, SP3021, SP3022,SP3030
SP500x
PGB1, PGB2
Typical
Applications
Speaker
Serial Port (com)
Microphone
Keyboard
Audio Headset
Mouse
DC Power Bus Set - Top Box (com)
Keypad
VCR
Buttons
Video In/Out
Parallel Port
(LPT)
Printer
Scanner
Coputer Input
Network Hardware
and Periperal Control System PCI Adapter
Devices
Hub
Router
PDA / PMP /
Webswitch
Cell Phone/
Cable/xDSL modem
Digital Camera/ &
Game Controller Ports
PC Accessories Set Top Box
Digital Still Camera
DVD
Scanner
Digital Video Recorder and Peripherals
Digital Video Recorder
with
Serial Data
PVR
Printer
Hard Disk Drive
Hard Disk Drive
Interfaces HDTV Monitor
Hard
Disk
Drive
Video
Editing
System
Video Editing System
LCD TV
Hub
Scanner
Scanner
LCD Projector
Desktop / Laptop
Desktop / Laptop
Desktop
Webpad
Laptop
Internet Appliance
TFT Display
The information above is intended to help circuit designers determine which Littelfuse ESD suppressors are applicable for
given data protocols and data rates. Other key characteristics such as clamping voltage, leakage current, number of lines of
protection and ESD capabilities need to be considered, especially where there are overlaps in the recommended Littelfuse
ESD suppressor line (ex. IEEE 1284 and Ethernet). This information is detailed on the following pages. At the upper data rate bounds of the products included above, the capacitances of the suppression device and the circuit
board need to be taken into account in order to maintain the signal integrity of the overall system.
© 2014 Littelfuse • ESD Suppression Design Guide
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ESD Suppresion Design Guide
Port Protection Examples
Broadband network port Protection
The following are examples of the implementation of ESD and lightning suppression for Ethernet ports (RJ-45
connectors). Note that the diagrams shown below represent 10Mbps and 100Mbps applications -- For 1Gbps
applications, the circuit protection should be double of what is shown. For additional design examples, guidance
and application assistance, please contact Littelfuse.
Inter-Building - Robust Lightning Protection
Intra-Building - Robust Lightning Protection
The diagram show below is typical for outdoor network line and
equipment applications. The SIDACtor ® and TVS Diode Array
combination is rated up to 500A, per the GR-1089 standard.
The diagram show below is typical for indoor network line and
equipment applications. The TVS Diode Array device combination is
rated up to 100A, per the GR-1089 standard.
RJ-45
Connector
F1
J1
Ethernet
PHY
SEP0xx
RJ-45
Connector
VF2
V+
F1
J1
TX+
Ethernet
PHY
LC03-3.3
TX+
TX-
F2
F3
VF4
J8
SEP0xx
Outside World
Outside World
TXSP3304N
V+
PHY
Ground
RX+
RX-
F3
LC03-3.3
RX+
F4
RXJ8
F1-F4 =
461Series
Telelink Fuses
Case
Notes:
Ground
- Devices shown as transparent for actual footprint
F1-F4 =
461Series
Telelink Fuses
Case
Ground
SRV05-4
PHY Ground
Notes:
- Devices shown as transparent for actual footprint
- LC03-3.3 pins 2, 3, 6, 7 are Not Connected
Basic Lightning Protection
Basic ESD Protection
The diagram shown below is typical for basic lightning (differential
only) of indoor/outdoor network line and equipment applications
(Example: office environment equipment).
The diagram shown below is typical for basic ESD protection of
indoor network line and equipment applications (Examples: home
office / consumer electronics peripheral devices).
RJ-45
Connector
J1
SLVU2.8-4
RJ-45
Connector
Ethernet
PHY
Ethernet
PHY
J1
TX+
TX+
TXOutside World
Outside World
TX-
RX+
RX-
J8
RX+
RX-
J8
NC
Case
Ground
Case
Ground
* Devices shown as transparent for actual footprint
© 2014 Littelfuse • ESD Suppression Design Guide
5
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ESD Suppresion Design Guide
Port Protection Examples (continued)
peripheral / storage Data Port Protection
The following are examples of ESD suppression for high speed data ports such as USB and eSATA.
For additional design examples, guidance and application assistance, please contact Littelfuse.
USB 1.1 port ESD protection
Data speeds up to 12 Mbps
USB
Port
V5.5MLA0603
USB 1.1
Controller
0805L110SL
VBUS
VBUS
D+
D+
D-
D-
Outside World
Outside World
1206L075
USB
Port
USB 1.1
Controller
SP0502
SP1003
(2) V0402MHS03
Signal
Ground
Case
Ground
Case
Ground
Signal
Ground
Note:
The SP0503BAHTG could be used if it's preferred
to have all 3 channels in 1 package.
USB 2.0 port ESD protection
Data speeds up to 480 Mbps
USB
Port
USB 2.0
Controller
USB
Port
1206L075
D+
D+
D-
D-
SP3014-02
Signal
Ground
(2x) PGB1010603
Case
Ground
Case
Ground
© 2014 Littelfuse • ESD Suppression Design Guide
V5.5MLA0603
VBUS
Outside World
Outside World
VBUS
USB 2.0
Controller
6
Signal
Ground
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ESD Suppresion Design Guide
Port Protection Examples (continued)
USB 3.0 port ESD protection
Data speeds up to 5 Gbps
USB
Port
USB
Port
USB 3.0
Controller
USB
Controller
0603L150SL
1206L150
VBUS
D+
D-
NC
SP3003-02
SSTX+
SSTXGround
SP3012-04
Outside World
Outside World
Optional
SSTX+
SSTXSSRX+
SSRXGround
D+
D-
SP3012-06
SSRX+
SSRXSignal
Ground
Case
Ground
Signal
Ground
Case
Ground
* Package is shown as transparent
* Package is shown as transparent
eSATA port protection
1394a/b Firewire port ESD protection
Data speeds up to 3 Gbps
Data speeds up to 800 Mbps
eSATA
Port
1394b
Port
eSATA
Interface
1394
Interface
SP3003-04
Ground
TPBTPB+
Outside World
Outside World
TX+
TXSP3003-02
Ground
RXRX+
SP3003-02
TPATPA+
Grounds
TPA Shield Ground
Ground
1812L110/33
V33MLA1206
NC
Power
Ground
* Package is shown as transparent
Case
Ground
Case
Ground
Devices shown as transparent for actual footprint.
© 2014 Littelfuse • ESD Suppression Design Guide
7
Grounds
TPB Shield Ground
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ESD Suppresion Design Guide
Port Protection Examples (continued)
entertainment Electronics Port Protection
The following are examples of ESD suppression for ports common to entertainment electronics. For additional design examples, guidance and application assistance, please contact Littelfuse.
Analog audio (Speaker/Microphone) port ESD protection
Audio
Port
Audio
Codec
Audio
Codec
Left
Left
Right
Right
Outside World
Outside World
Audio
Port
SP1002-02
(2x) SP1005-01
Case
Ground
Case
Ground
Analog video port ESD protection
Video
Port
Video
ADC
Luminance
Chrominance
Composite
Outside World
Coaxial
Composite
Y
Video
C
Video
RF
SP1004-04
SP1002-01
Case
Ground
Case
Ground
© 2014 Littelfuse • ESD Suppression Design Guide
Video
ADC
Outside World
Video
Port
8
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ESD Suppresion Design Guide
Port Protection Examples (continued)
High Definition Multimedia Inteface (HDMI) port ESD protection
Data speeds up to 3.4 Gbps per pair
HDMI
Port
HDMI Transmitter
or Receiver
HDMI
Port
D2+
Ground
D2-
SP3012-04
D1+
D1-
Ground
Outside World
Outside World
D2+
D2D1+
D1D0+
D0CLK+
CLK-
HDMI
Chipset
D0+
Ground
D0-
SP3012-04
CLK+
Ground
(8x) PGB1010603
Signal
Ground
Case
Ground
4
7
2
ABC
5
JKL
8
3
DEF
Case
Ground
Signal Ground
Keypad / push button ESD protection
6
MNO
9
PQR
STUV
WXYZ
Call
0
Cancel
I/O
Controller
Outside World
Keypads
I/O
Controller
Keypads
P1
P1
P2
P2
P3
P3
P4
P4
Outside World
1
GHI
CLK-
* Package is shown as transparent
SP1001-04
(4x) SP1006-01
Case
Ground
© 2014 Littelfuse • ESD Suppression Design Guide
Case
Ground
9
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ESD Suppresion Design Guide
Port Protection Examples (continued)
1
4
GHI
7
2
3
ABC
DEF
5
6
JKL
8
MNO
9
PQR
STUV
WXYZ
Call
0
Cancel
Automotive Electronics Port Protection
The following are examples of ESD suppression for automotive electronics. For additional design examples,
guidance and application assistance, please contact Littelfuse.
Automotive AEC-Q101 qualified ESD protection
LIN BUS protection
BAT
CAN BUS protection
LIN
SPLIT
CANH
C MASTER/SLAVE
LIN
Transceiver
R T/2
CAN BUS
Transceiver
LIN mode
Connector
CAN
BUS
R T/2
SD24C-01FTG
CANL
Common
Mode Choke
(optional)
GND
CG
SM24CANA-02HTG (200W)
SM24CANB-02HTG (500W)
1
4
GHI
7
2
ABC
5
JKL
8
3
RF Antenna protection
DEF
6
MNO
9
PQR
STUV
WXYZ
Call
0
Cancel
The following are examples of ESD suppression for RF antenna. For additional design examples,
guidance and application assistance, please contact Littelfuse.
Antenna
Element
RF Amplifier
Module
Antenna
Element
RF Amplifier
Module
PGB1010603
Shield
Ground
© 2014 Littelfuse • ESD Suppression Design Guide
RF
Outside World
Outside World
RF
Signal
Ground
10
SP3022-01
Shield
Ground
Signal
Ground
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ESD Suppresion Design Guide
ESD Suppressor Product Selection Guide
PULSE-GUARD® ESD Suppressors
Multilayer Varistors (MLVs)
MLA, MLE, MHS series
PULSE-GUARD®
ESD Suppressors
Mounting Options
MLN series
Multilayer Varistors (MLVs)
Surface Mount
Surface Mount
Surface Mount
Surface Mount
Surface Mount
PGB1, PGB2
MLA
MLE
MHS
MLN
Technology Type
Voltage Variable Material
MLV
ZnO
MLV
ZnO
MLV
ZnO
MLV
ZnO
Working Voltage
0–24VDC
0–120VDC
range by type
0–18VDC
0–42VDC
0–18VDC
Array Package
(No. of Lines)
SOT23 (2)
NA
NA
NA
1206 (4)
0201, 0402, 0603
0402–1210
0402–1206
0402, 0603
NA
0.04-0.12pF
40–6000pF
40–1700pF
3–22pF
45-430pF
<1nA typ
<25µA typ
<25µA max
<25µA typ
<25µA max
Rated Immunity to
IEC 61000-4-2 level 4
Yes
Yes
Yes
Yes
Yes
Also Rated for EFT
or Lightning
No
Yes
Yes
Yes
Yes
Bidirectional (transients
of either polarity)
Yes
Yes
Yes
Yes
Yes
Performs Low Pass
Filtering
No
Yes
Yes
Yes
Yes
Lead-Free
Yes
No
No
No
No
RoHS Compliant
Yes
Yes
Yes
Yes
Yes
Green
N/A
N/A
N/A
N/A
N/A
AEC-Q Qualified
(Automotive Grade )
No
No
No
No
No
Series Name
Single Line Package
Typical Device
Capacitance
Leakage Current
Please refer to this table and the next few pages in selecting the ESD suppressors that may best serve the circuit requirements.
Detailed data sheets can be downloaded from our web site www.littelfuse.com
Terms:
EFT: Electrical Fast Transient
TVS: Transient Voltage Suppressor
© 2014 Littelfuse • ESD Suppression Design Guide
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ESD Suppresion Design Guide
ESD Suppressor Product Selection Guide (continued)
TVS Diode Arrays (SPA® Diodes)
Please refer to this table and the nextMLN
few pages
seriesin selecting the ESD
suppressors that may best serve the circuit requirements.
Detailed data sheets can be downloaded from our web site www.
littelfuse.com
Terms:
EFT: Electrical Fast Transient
TVS: Transient Voltage Suppressor
TVS Diode Arrays (SPA® Diodes)
Surface Mount
& Thru-Hole
Surface
Mount
Surface
Mount
Surface Mount
Surface
Mount
Surface
Mount
Surface
Mount
Surface
Mount
Surface
Mount
SP72x
SP03xx(LC03)
SP05x
SP10xx
SP30xx
SLVU2.8x
SP500x
SMxx
SPHVxx(-C)
Technology Type
Silicon
Controlled
Rectifier /
Diode
Lightning
Surge
Protection
Diode Arrays
General
Purpose
ESD
Protection
Diode
Arrays
General
Purpose
ESD
Protection
Diode Arrays
and
Discretes
Low
Capacitance
Diode Arrays
Lightning
Surge
Protection
Diode Arrays
Low
Capacitance
Common
Mode Filters
with ESD
Protection
General
Purpose
ESD
Protection
Diode Arrays
Discrete
General
Purpose
ESD
Protection
Working Voltage
0–30VDC
0–6VDC
0–5.5VDC
0–6VDC
0–6VDC
0–2.8V
5VDC
5-36VDC
12-36VDC
PDIP, SOIC
(6, 14)
SOT23 (4)
SOIC (2)
SOT23 (2,
4, 5),
S0T143 (3),
MSOP-8
(6),
SC70 (2,
4, 5)
SC70 (1, 2,
4, 5),
SOT5x3 (2,
4, 5),
SOT953 (4),
µDFN (4)
SC70 (2, 4),
SOT5x3 (2,
4),
SOT23 (4),
MSOP10 (4),
µDFN (2,
4, 6)
TDFN (10/16)
SOT23 (2)
NA
NA
NA
NA
0402 (SOD723
and SOD882)
0201 (Flip
Chip)
0402
(SOD882)
0201
(Flipchip)
SOT23
NA
NA
0402
(SOD882)
3–5pF
4.5-8pF
30pF
5–30pF
0.30–2.4pF
2.0pF
0.8pF
11-400pF
13-60pF
<0.02µA max
<0.5µA max
<10µA max
<0.5µA max
<1.5µA max
<1µA max
<1µA max
<20µA max
<1µA max
Rated Immunity to
IEC 61000-4-2 level 4
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Also Rated for EFT
or Lightning
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
Bidirectional
(transients
of either polarity)
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Performs Low Pass
Filtering
No
No
No
SP1005 only
No
No
Yes
Yes
Yes
Lead-Free
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
RoHS Compliant
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
(except PDIP)
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
AEC-Q101
AEC-Q101
No
AEC-Q101
AEC-Q101
AEC-Q101
Mounting Options
Series Name
Array Package
(No. of Lines)
Single Line Package
Typical Device
Capacitance
Leakage Current
Green
AEC-Q Qualified
(Automotive Grade )
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ESD Suppresion Design Guide
ESD Suppressor Product Selection Guide (continued)
TVS DIODE Array – SPA® DIODES
Series Name
Capacitance
(pF)
Clamping Voltage
(v)
Working
Voltage
(VDC)
Package
Number of
Channels
ESD Rating
(Contact
Discharge,
IEC61000-4-2)
Maximum
Surge Rating
(tp=8/20μs)
AEC-Q101
Qualified
TVS Diode Arrays offer a high level of protection (up to 30kV per IEC 61000-4-2) with very low capacitance, leakage current
and clamping voltage. For more robust applications, Lightning Surge devices are available for EFT and Lightning transient
threats per IEC 61000-4-4/5.threats per IEC 61000-4-4/5.
General Purpose ESD Protection (SCR Diode Array)
SP720
3
2 at 1A
2-30
PDIP-16, SOIC-16
14
4kV
3A
SP721
3
2 at1A
2-30
PDIP-8, SOIC-8
6
4kV
3A
SP723
5
2 at 2A
2-30
PDIP-8, SOIC-8
6
8kV
7A
SP724
3
2 at 1A
2-20
SOT23-6
4
8kV
3A
SP725
5
2 at 2A
2-30
SOIC-8
4
8kV
9A
2/3/4/5/6
30kV
-
2/4/5
15kV
2A
1/2
8kV
2A
General Purpose ESD Protection (TVS Discretes and Array)
SC70-3, SC70-5, SC70-6,
SOT23-3, SOT23-5,
SOT23-6, SOT143,
MSOP-8
SC70-3, SC70-5, SC706, SOT553, SOT563,
SOT963
SP05
30
-
5.5
SP1001
8
8.0 at 1A
5.5
SP1002
5
9.2 at 1A
6.0
SC70-3, SC70-5
SP1003
30
12.0 at 7A
5.0
SOD723, SOD882
1
30kV
7A
SP1004
5
10 at 1A
6.0
SOT953
4
8kV
1A
SP1005
30
9.3 at 1A
6.0
0201 (Flipchip), 0402
(SOD882)
1
30kV
10A
SP1006
25
8.3 at 1A
6.0
0201 (µDFN2)
1
30kV
5A
1
8kV
2A
SP1007
3.5
11.2 at 1A
6.0
0201 (Flipchip), 0402
(SOD882)
SP1008
6
10.7 at 1A
6.0
0201 (Flipchip)
1
15kV
2.5A
SP1011
7
8.7 at 1A
6.0
µDFN6
4
15kV
2A
•
•
•
SP1012
6.5
10.2 at 1A
5.0
0.94x0.61mm Flipchip
5
15kV
3A
SDxx
50-350
9.8-50 at 1A
5-36
SOD323
1
30kV
5-30A
•
SDxx-C
30-260
10-52 at 1A
5-36
SOD323
1
30kV
5-30A
•
SM24CANA
11
36 at 1A
24.0
SOT23-3
2
24kV
3A
•
SM24CANB
30
34 at 1A
24.0
SOT23-3
2
30kV
10A
•
SM712
75
11V at 1A
-7V-12
SOT23-3
2
24kV
19A
•
1
30/30/24/15 kV
2-8A
•
1
30/24/17/13kV
2-8A
•
SOD882, SOD882 with
side lead exposure
SOD882, SOD882 with
side lead exposure
SPHVxx
25-60
19-52 at 1A
12-36
SPHVxx-C
13-30
19-52 at 1A
12-36
SMxx
65-400
9.8-36 at 1A
5.0
SOT23-3
2
30kV
7-24A
•
•
Low Capacitance ESD Protection
SP3022
0.35
12 at1A
5.3
0201 (Flipchip), 0402
(SOD882)
1
20kV
3A
SP3011
0.4
11 at 1A
6.0
µDFN14
6
8kV
3A
SP3010
0.4
10.8 at 1A
6.0
µDFN10
4
8kV
3A
SP0524P
0.5
6.6 at 1A
5.0
µDFN10
4
12kV
4A
•
6.6 at 1A
5.0
µDFN14, µDFN10,
µDFN6, SOT23-6
4/6
12kV
4A
•
•
SP3012
0.5
SP3030
0.5
9.2 at 1A
5.0
0402 (SOD882)
1
20kV
3A
SP3021
0.5
13.1 at 1A
5.0
0402 (SOD882)
1
8kV
2A
SP3006
0.5
12.5 at 1A
6.0
SOT563
2
8kV
2A
© 2014 Littelfuse • ESD Suppression Design Guide
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ESD Suppresion Design Guide
ESD Suppressor Product Selection Guide (continued)
TVS DIODE Array – SPA® DIODES
Series Name
Capacitance
(pF)
Clamping
Voltage
(v)
AEC-Q101
Qualified
TVS Diode Arrays offer a high level of protection (up to 30kV per IEC 61000-4-2) with very low capacitance, leakage current
and clamping voltage. For more robust applications, Lightning Surge devices are available for EFT and Lightning transient
threats per IEC 61000-4-4/5.threats per IEC 61000-4-4/5.
Package Type
Number of
Channels
ESD Rating
(Contact
Discharge,
IEC61000-4-2)
Maximum
Surge Rating
(tp=8/20μs)
6.0
SC70-6
4
8kV
2.5A
SC70-5,SC70-6, SOT553,
SOT563, MSOP10,
µDFN6L
2/4/8
8kV
2.5A
•
Working
Voltage
(VDC)
Low Capacitance ESD Protection
SP3001
0.65
9.5 at 1A
SP3003
0.65
10 at 1A
6.0
SP5001
0.8
-
5.0
TDFN10
4
15kV
-
•
SP5002
0.8
-
5.0
TDFN16
6
15kV
-
•
SP5003
0.8
-
5.0
TDFN10
4
15kV
-
•
SP3031
0.8
6.9 at 1A
5.0
0402 (SOD882)
1
10kV
5A
SP3002
0.85
9.5 at 1A
6.0
SC70-6, SOT23-6, µDFN6
4
12kV
4.5A
SP0504S
0.85
9.5 at 1A
6.0
SOT23-6
4
12kV
4.5A
SP3004
0.85
10.0 at 1A
6.0
SOT563
4
12kV
4A
SP3014
1.0
6.6 at 1A
5.0
µDFN6L
2
15kV
8A
SRV05-4
2
11.5 at 1A
6.0
SOT23-6
4
20kV
10A
SP4060
4.4
8.0 at 10A
2.5
MSOP10
8
30kV
20A
•
SP4065
4.4
5.5 at 1A
3.3
MSOP10
8
30kV
20A
SP2504N
3.5
6.3 at 5A
2.5
µDFN10
4
30kV
20A
SP3304N
3.5
7.0 at 5A
3.3
µDFN10
4
30kV
20A
SP3051
3.8
9 at 1A
6
SOT23-6
4
30kV
20A
•
SP4021
2.5
9.3 at 1A
5.0
SOD323
1
30kV
25A
•
SR05
6
9.8 at 1A
5.0
SOT143
2
30kV
25A
SRDA05
8
9.2 at 1A
5.0
SOIC-8
4
30kV
30A
SP4020
2.5
6 at 1A
3.3
SOD323
1
30kV
30A
SRDA3.3
8
5.7 at 1A
3.3
SOIC-8
4
30kV
35A
SP2574N
3.8
4.5 at 1A
2.5
µDFN10
-
3.kV
40A
SLVU2.8
2.0
13.9 at 24A
2.8
SOT23-3
1
30kV
40A
SLVU2.8-4
2.0
13.9 at 24A
2.8
SOIC-8
4
30kV
40A
SR70
2.0
12 at 30A
70
SOT143
2
30kV
40A
SP2502L
5
20 at 5A
3.3
SOIC-8
2
30kV
75A
LC03-3.3
4.5
17 at 100A
3.3
SOIC-8
2
30kV
150A
SP03-3.3
8
15 at 100A
3.3
SOIC-8
2
30kV
150A
SP03-6
8
20 at 100A
6
SOIC-8
2
30kV
150A
© 2014 Littelfuse • ESD Suppression Design Guide
14
•
•
•
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ESD Suppresion Design Guide
ESD Suppressor Product Selection Guide (continued)
multilayer Varistors (MLVS)
MLVs provide board level protection against ESD, EFT, and other transients that occur on power supply, data and control lines.
Single line devices are available in popular industry standard formats, and for more efficient board space usage, four-line devices
are also available. Some MLVs also offer low band-pass filtering characteristics that filter high frequency noise from the circuit.
MLA
MLE
MLN
MHS
Part Number
Capacitance
(pF)
Clamp
Voltage
(V)2
Operating
Voltage
(VDC)3
Leakage
Current
(Max nA)
Package
Lines
Input Polarity
ESD
Protection
Level(1)
V5.5MLA0402
220
19 at 1A
0–5.5
<5
0402
1
Bi-polar
8kV
V5.5MLA0603
660
19 at 2A
0–5.5
<25
0603
1
Bi-polar
8kV
V5.5MLA0402L
70
30 at 1A
0–5.5
<5
0402
1
Bi-polar
8kV
V9MLA0402
120
26 at 1A
0–9
<5
0402
1
Bi-polar
8kV
V9MLA0402L
33
30 at 1A
0–9
<5
0402
1
Bi-polar
8kV
V9MLA0603
420
28 at 2A
0–9
<25
0603
1
Bi-polar
8kV
V9MLA0805L
450
20 at 2A
0–9
<25
0805
1
Bi-polar
8kV
V12MLA0805L
350
25 at 2A
0–12
<25
0805
1
Bi-polar
8kV
V14MLA0402
70
35 at 1A
0–14
<5
0402
1
Bi-polar
8kV
V14MLA0603
150
40 at 2A
0–14
<25
0603
1
Bi-polar
8kV
V14MLA0805
480
30 at 5A
0–14
<25
0805
1
Bi-polar
8kV
V14MLA0805L
270
30 at 2A
0–14
<25
0805
1
Bi-polar
8kV
V18MLA0402
40
46 at1A
0–18
<5
0402
1
Bi-polar
8kV
V18MLA0603
100
46 at 2A
0–18
<25
0603
1
Bi-polar
8kV
V18MLA0805
450
40 at 5A
0–18
<25
0805
1
Bi-polar
8kV
V18MLA0805L
250
40 at 2A
0–18
<25
0805
1
Bi-polar
8kV
V18MLE0402
40
50 at 1A
0–18
<5
0402
1
Bi-polar
8kV
V18MLE0603
100
50 at 2A
0–18
<25
0603
1
Bi-polar
8kV
V18MLE0603L
60
50 at 1A
0–18
<25
0603
1
Bi-polar
8kV
V18MLE0805
500
50 at 5A
0–18
<25
0805
1
Bi-polar
8kV
V18MLE0805L
100
50 at 2A
0–18
<25
0805
1
Bi-polar
8kV
V5.5MLN41206
430
19 at 2A
0–5.5
<5
1206
4
Bi-polar
8kV
V9MLN41206
250
28 at 2A
0–9
<5
1206
4
Bi-polar
8kV
V14MLN41206
140
40 at 2A
0–14
<5
1206
4
Bi-polar
8kV
V18MLN41206
100
50 at 2A
0–18
<5
1206
4
Bi-polar
8kV
V18MLN41206L
45
50 at 1A
0–18
<5
1206
4
Bi-polar
8kV
V0402MHS03
3
160 at 1A
0–42
<0.5 at 15V
0402
1
Bi-polar
8kV
V0402MHS12
12
70 at 1A
0–18
<5 at 15V
0402
1
Bi-polar
8kV
V0402MHS22
22
40 at 1A
0–9
<1 at 5.5V
0402
1
Bi-polar
8kV
V0603MHS03
3
160 at 1A
0–42
<0.5 at 15V
0603
1
Bi-polar
8kV
V0603MHS12
12
70 at 1A
0–18
<5 at 15V
0603
1
Bi-polar
8kV
V0603MHS22
22
40 at 1A
0–9
<1 at 5.5V
0603
1
Bi-polar
8kV
1. Minimum ESD withstand voltage, tested according to IEC 61000-4-2, level 4 (Contact Discharge).
2. Clamp Voltage using 8/20µS waveform.
3. LEAKAGE CURRENT AT MAX OPERATING VOLTAGE UNLESS OTHERWISE STATED.
© 2014 Littelfuse • ESD Suppression Design Guide
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ESD Suppresion Design Guide
ESD Suppressor Product Selection Guide (continued)
PULSEGUARD® ESD SuppressorS
Pulse-Guard ESD protection devices offer extremely low capacitance for use in high-speed data circuits (IEEE 1394, USB 2.0,
USB3.0, HDMI, DVI, etc.). Available in single-line and multi-line packages, they provide ESD protection while ensuring that
signal integrity is maintained.
Clamp
Voltage
(V)
Operating
Voltage
(VDC)
Leakage
Current (Max
nA)
0.07
55
0–12
0.04
250
0–12
PGB2010402
0.07
40
PGB1010603
0.06
PGB102ST23
0.12
Part Number
Capacitance
(pF)
PGB2010201
PGB1010402
Protection
Input Polarity ESDLevel
(1)
Package
Lines
1
0201
1
Bi-polar
8kV
1
0402
1
Bi-polar
8kV
0–12
1
0402
1
Bi-polar
8kV
150
0–24
1
0603
1
Bi-polar
8kV
150
0–24
1
SOT23
2
Bi-polar
8kV
© 2014 Littelfuse • ESD Suppression Design Guide
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ESD Suppresion Design Guide
Legal Disclaimers
Liability
Disclaimer
Littelfuse, Inc. its affiliates, agents, and employees,
and all persons acting on its or their behalf (collectively,
“Littelfuse”), disclaim any and all liability for any errors,
inaccuracies or incompleteness contained here or in any
other disclosure relating to any product. Littelfuse disclaims
any and all liability arising out of the use or application
of any product described herein or of any information
provided herein to the maximum extent permitted by law.
The product specifications do not expand or otherwise
modify Littelfuse terms and conditions of purchase,
including but not limited to the warranty expressed therein,
which apply to these products.
Specifications, descriptions and data contained in this
document are believed to be accurate. However, users
should independently evaluate each product for the
particular application. Littelfuse reserves the right to
change any information contained herein without notice
and may, at its sole discretion, change the design,
manufacture or construction of any product. Visit
www.littelfuse.com for the most up-to-date information.
Littelfuse’s only obligations for any of its products are
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Littelfuse shall not be liable for any indirect, consequential
or incidental damages from any sale or use of any of its
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Right to Make Changes
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the products described herein without notice.
Not Intended for Use in Life Support or Life Saving
Applications
The products shown herein are not designed for use
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