SEMTECH SD24C.TC

SD05C through SD24C
Single Line TVS Diode for ESD
Protection in Portable Electronics
PRELIMINARY
PROTECTION PRODUCTS
Description
Features
The SDxxC TVS diodes are designed to replace multilayer varistors (MLVs) in portable applications such as
cell phones, notebook computers, and PDA’s. They
offer superior electrical characteristics such as lower
clamping voltage and no device degradation when
compared to MLVs. The SDxxC series TVS diodes are
designed to protect sensitive semiconductor components from damage or upset due to electrostatic
discharge (ESD) and other voltage induced transient
events.
‹ 350 Watts peak pulse power (tp = 8/20µs)
‹ Transient protection for data lines to
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The SDxxC is in a SOD-323 package and will protect
one bidirectional line. They are available with working
voltages of 5 - 24 volts. These devices will fit on the
same PCB pad area as an 0805 MLV device. They give
the designer the flexibility to protect one line in applications where arrays are not practical. Additionally, it
may be “sprinkled” around the board in applications
where board space is at a premium.
IEC 61000-4-2 (ESD) ±15kV (air), ±8kV (contact)
IEC 61000-4-4 (EFT) 40A (5/50ns)
IEC 61000-4-5 (Lightning) 24A (8/20µs)
Small package for use in portable electronics
Suitable replacement for MLV’s in ESD protection
applications
Protects one I/O or power line
Low clamping voltage
Working voltages: 5V, 12V, 15V, 24V
Low leakage current
Solid-state silicon avalanche technology
Mechanical Characteristics
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They may may be used to meet the ESD immunity
requirements of IEC 61000-4-2, Level 4 (±15kV air,
±8kV contact discharge).
EIAJ SOD-323 package
Molding compound flammability rating: UL 94V-0
Marking : Marking code
Packaging : Tape and Reel per EIA 481
Applications
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Cell Phone Handsets and Accessories
Microprocessor based equipment
Personal Digital Assistants (PDA’s)
Notebooks, Desktops, and Servers
Portable Instrumentation
Pagers
Peripherals
Schematic & PIN Configuration
1
2
SOD-323 (Top View)
Revision 07/06/04
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SD05C through SD24C
PROTECTION PRODUCTS
Absolute Maximum Rating
R ating
Symbol
Value
Units
Peak Pulse Power (tp = 8/20µs)
Pp k
350
Watts
ESD Voltage (HBM Waveform p er IEC 61000-4-2)
VESD
30
kV
Lead Soldering Temp erature
TL
260 (10 sec.)
°C
Op erating Temp erature
TJ
-55 to +125
°C
TSTG
-55 to +150
°C
Storage Temp erature
Electrical Characteristics
SD05C T VS
Parameter
Symbol
Conditions
Minimum
Typical
Maximum
Units
5
V
Reverse Stand-Off Voltage
VRWM
Reverse Breakdown Voltage
V BR
It = 1mA
Reverse Leakage Current
IR
VRWM = 5V, T=25°C
10
µA
Clamp ing Voltage
VC
IPP = 5A, tp = 8/20µs
9.8
V
Clamp ing Voltage
VC
IPP = 24A, tp = 8/20µs
14.5
V
Peak Pulse Current
IP P
tp = 8/20µs
24
A
Junction Cap acitance
Cj
VR = 0V, f = 1MHz
200
pF
Symbol
Conditions
Maximum
Units
12
V
6
V
SD12C T VS
Parameter
Minimum
Typical
Reverse Stand-Off Voltage
VRWM
Reverse Breakdown Voltage
V BR
It = 1mA
Reverse Leakage Current
IR
VRWM = 12V, T=25°C
1
µA
Clamp ing Voltage
VC
IPP = 5A, tp = 8/20µs
19
V
Clamp ing Voltage
VC
IPP = 15A, tp = 8/20µs
24
V
Peak Pulse Current
IP P
tp = 8/20µs
15
A
Junction Cap acitance
Cj
VR = 0V, f = 1MHz
100
pF
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SD05C through SD24C
PRELIMINARY
PROTECTION PRODUCTS
Electrical Characteristics (Continued)
SD15C T VS
Parameter
Symbol
Conditions
Minimum
Typical
Maximum
Units
15
V
Reverse Stand-Off Voltage
VRWM
Reverse Breakdown Voltage
V BR
It = 1mA
Reverse Leakage Current
IR
VRWM = 15V, T=25°C
1
µA
Clamp ing Voltage
VC
IPP = 5A, tp = 8/20µs
24
V
Clamp ing Voltage
VC
IPP = 12A, tp = 8/20µs
29
V
Peak Pulse Current
IP P
tp = 8/20µs
12
A
Junction Cap acitance
Cj
VR = 0V, f = 1MHz
75
pF
Symbol
Conditions
Maximum
Units
24
V
16.7
V
SD24C T VS
Parameter
Minimum
Typical
Reverse Stand-Off Voltage
VRWM
Reverse Breakdown Voltage
V BR
It = 1mA
Reverse Leakage Current
IR
VRWM = 24V, T=25°C
1
µA
Clamp ing Voltage
VC
IPP = 5A, tp = 8/20µs
40
V
Clamp ing Voltage
VC
IPP = 8A, tp = 8/20µs
44
V
Peak Pulse Current
IP P
tp = 8/20µs
8
A
Junction Cap acitance
Cj
VR = 0V, f = 1MHz
50
pF
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SD05C through SD24C
PROTECTION PRODUCTS
Typical Characteristics
Non-Repetitive Peak Pulse Power vs. Pulse Time
Power Derating Curve
10
100
90
% of Rated Power or PI P
Peak Pulse Power - Ppk (kW)
110
1
0.1
80
70
60
50
40
30
20
10
0.01
0
0.1
1
10
100
1000
0
25
Pulse Waveform
Percent of IPP
80
Clamping Voltage - VC (V)
90
e
-t
50
40
100
125
150
30
Waveform
Parameters:
tr = 8µs
td = 20µs
100
60
75
Clamping Voltage vs. Peak Pulse Current
110
70
50
Ambient Temperature - TA (oC)
Pulse Duration - tp (µs)
td = IPP/2
30
20
10
Waveform
Parameters:
tr = 8µs
td = 20µs
25
SD12C
20
15
SD05C
10
5
0
0
5
10
15
20
25
30
0
Time (µs)
0
5
10
15
20
25
30
Peak Pulse Current - IPP (A)
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SD05C through SD24C
PRELIMINARY
PROTECTION PRODUCTS
Applications Information
Device Connection Options
Device Schematic and Pin Configuration
The SDxxC TVS diodes are designed to protect one
data, I/O, or power supply line. The device is designed
to replace multi-layer varistors (MLVs) in portable
applications. It is easily implemented on existing 0805
MLV pads and is only slightly larger than 0603 MLV
pads. The device is bidirectional and may be used on
lines where the signal polarity is above and below
ground. The device is symmetrical, so there is no
cathode band.
Size Comparison to 0805 MLV
Circuit Board Layout Recommendations for Suppression of ESD.
Good circuit board layout is critical for the suppression
of fast rise-time transients such as ESD. The following
guidelines are recommended (Refer to application note
SI99-01 for more detailed information):
z
z
z
z
z
z
z
z
z
Place the TVS near the input terminals or
connectors to restrict transient coupling.
Minimize the path length between the TVS and
the protected line.
The ESD transient return path to ground should
be kept as short as possible.
Place a TVS and decoupling capacitor between
power and ground of components that may be
vulnerable to electrostatic discharges to the
ground plane.
Minimize all conductive loops including power
and ground loops.
Use multilayer boards when possible.
Minimize interconnecting line lengths
Never run critical signals near board edges.
Fill unused portions of the PCB with ground
plane.
SOD-323
0805 MLV
Note: Nominal dimensions in inches
Component Placement Comparison
0805 MLV on
0805 Solder Pad
Matte Tin Lead Finish
SOD-323 on 0805
MLV Pad
SOD-323 on Recommended
(SOD-323) Solder Pad
Matte tin has become the industry standard lead-free
replacement for SnPb lead finishes. A matte tin finish
is composed of 100% tin solder with large grains.
Since the solder volume on the leads is small compared to the solder paste volume that is placed on the
land pattern of the PCB, the reflow profile will be
determined by the requirements of the solder paste.
Therefore, these devices are compatible with both
lead-free and SnPb assembly techniques. In addition,
unlike other lead-free compositions, matte tin does not
have any added alloys that can cause degradation of
the solder joint.
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SD05C through SD24C
PROTECTION PRODUCTS
Outline Drawing - SOD-323
Land Pattern - SOD-323
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SD05C through SD24C
PRELIMINARY
PROTECTION PRODUCTS
Marking Codes
Part Number
Marking
Code
SD05C
5/
SD12C
6/
SD15C
7/
SD24C
8/
5
6
7
8
Ordering Information
Par t
Number
Lead Finish
Qty per
Reel
R eel Size
SD05C.TC
SnPb
3,000
7”
SD12C.TC
SnPb
3,000
7”
SD15C.TC
SnPb
3,000
7”
SD24C.TC
SnPb
3,000
7”
SD05C.TCT
Pb free
3,000
7”
SD12C.TCT
Pb free
3,000
7”
SD15C.TCT
Pb free
3,000
7”
SD24C.TCT
Pb free
3,000
7”
Contact Information
Semtech Corporation
Protection Products Division
200 Flynn Rd., Camarillo, CA 93012
Phone: (805)498-2111 FAX (805)498-3804
 2004 Semtech Corp.
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