STMICROELECTRONICS ESDALC6V1-5P6

ESDALC6V1-5P6
ESD protection for high speed interface
Features
■
Diode array topology
■
Low capacitance (12 pF typical)
■
Lead-free package
SOT666
Benefits
■
Low capacitance uni-directional ESD
protection.
■
Low PCB space consuming, 2.5 mm2 max.
footprint
■
Low leakage current
■
High reliability offered by monolithic integration
Figure 1.
ESDALC6V1-5P6 functional
diagram
Complies with the following standards
■
IEC 61000-4-2 level 4:
– 8 kV (contact discharge)
– 15 kV (air discharge)
■
MIL STD 883G-Method 3015-7: class3B
– Human body model
Applications
Where transient overvoltage protection in ESD
sensitive equipment is required, such as:
■
Computers
■
Printers
■
Communication systems
■
Cellular phone handsets and accessories
■
Video equipment
Description
The ESDALC6V1-5P6 is a monolithic array
designed to protect up to 5 lines against ESD
transients.
The device is ideal for high speed interface
applications where both reduced printed circuit
board space and power absorption capability are
required.
November 2007
Rev 3
1/8
www.st.com
8
Characteristics
1
ESDALC6V1-5P6
Characteristics
Table 1.
Absolute ratings (Tamb = 25 °C)
Symbol
Parameter
IEC 61000-4-2 contact discharge
IEC 61000-4-2 air discharge
VPP(1)
Peak pulse voltage
PPP (1)
Peak pulse power dissipation (8/20 µs)
Value
Unit
±8
± 15
kV
30
W
Tj initial = Tamb
IPP
Peak pulse current (8/20 µs)
2.5
A
Tj
Junction temperature
125
°C
-55 to +150
°C
260
°C
- 40 + 125
°C
Storage temperature range
Tstg
TL
Maximum lead temperature for soldering during 10 s
Operating temperature range
TOP
1. For a surge greater than the maximum values, the diode will fail in short-circuit.
Table 2.
Electrical characteristics (Tamb = 25 °C)
Symbol
Parameter
VRM
Stand-off voltage
VBR
Breakdown voltage
VCL
Clamping voltage
IRM
Leakage current
IPP
Peak pulse current
αT
Voltage temperature coefficient
VF
Forward voltage drop
C
Capacitance
Rd
Dynamic resistance
Parameter
VRRM
VF
VCL VBR
VRM = 3 V
VCL
Non repetitive peak pulse voltage
(8/20 µs)
VF
IF = 10 mA
Rd
C
Min
Typ
6.1
Unit
5
V
7.2
V
70
nA
10
IPP = 2.5 A
14
V
1
IR = 1 mA
VR = 0 V DC, F = 1 MHz,
Vosc = 30 mV rms
Max
IPP = 1 A
2
1. ΔVBR = αT x (Tamb - 25 °C) x VBR (25 °C)
2/8
IPP
Reverse stand-off voltage
IRM
V
IRM
Test condition
IR = 1 mA
αT
VRM
Slope: 1/Rd
VBR
(1)
I
IF
12
V
3
Ω
5
10-4/°C
15
pF
ESDALC6V1-5P6
Figure 2.
Characteristics
Relative variation of peak pulse
power versus initial junction
temperature
Figure 3.
Peak pulse power versus
exponential pulse duration
(Tj initial = 25 °C)
PPP(W)
PPP[Tj initial] / PPP[Tj initial=25°C)
1.1
1000
Tj initial = 25°C
1.0
0.9
0.8
0.7
0.6
100
0.5
0.4
0.3
0.2
0.1
Tj(°C)
tp(µs)
0.0
10
0
25
Figure 4.
50
75
100
125
150
Clamping voltage versus peak
pulse current (typical values)
1
10
Figure 5.
IPP(A)
100
Relative variation of leakage
current versus junction
temperature (typical values)
IR[Tj] / IR[Tj=25°C]
10.0
1000
8/20 µs
Tj initial = 25°C
VR=3V
100
1.0
10
Tj(°C)
VCL(V)
1
0.1
5
6
Figure 6.
7
8
9
10
11
12
13
14
25
15
Breakdown voltage versus initial
junction temperature
50
Figure 7.
VBR
75
100
125
150
Junction capacitance versus
reverse voltage applied
(typical values)
C(pF)
8.0
14
1 mA
F=1MHz
VOSC=30mVRMS
Tj=25°C
12
10
8
7.0
6
4
2
VR(V)
Tj(°C)
6.0
0
25
50
75
100
125
0.0
0.4
0.8
1.2
1.6
2.0
2.4
2.8
3/8
Characteristics
Figure 8.
ESDALC6V1-5P6
ESD response to IEC 61000-4-2
(air discharge +15 kV surge)
Figure 9.
10 V per div.
ESD response to IEC 61000-4-2
(air discharge -15 kV surge)
10 V per div.
0.1 µs per division
0.1 µs per division
Figure 10. Frequency response curves
- all lines together
Figure 11. Crosstalk response curves
- 1/2 and 1/3
dB
dB
0.00
0.00
- 20.00
- 6.00
- 40.00
- 12.00
- 60.00
- 80.00
- 18.00
- 100.00
- 24.00
- 120.00
F (Hz)
- 30.00
100.0k
1.0M
Line 1
Line 3
4/8
10.0M
100.0M
Line 2
Line 5
1.0G
F (Hz)
- 140.00
100.0k
Xtalk
1.0M
1/2
10.0M
100.0M
Xtalk
1/3
1.0G
ESDALC6V1-5P6
2
Application information
Application information
Figure 12. Application schematic diagram
V DD
IMAGE PROCESSING
Viewfinder
FrontEnd
JPEG
Encoder
SCL
BB interface
Image Sensor
SDA
Sensor Controller
I2C
I2CBUS
BUS(115kbs)
(115khz)
EN
DCLCK
D0
D1
D2
D3
D4
D5
D6
D7
BB IC
BB IC
HSYNC
VSYNC
FLASH MEMORY
3
Ordering information scheme
Figure 13. Ordering information scheme
ESDA
LC
6V1 - 5 P6
ESD Array
Low Capacitance
Breakdown Voltage (min)
6V1 = 6.1 Volt
Number of lines protected
5
Package
P6 = SOT666
5/8
Package information
4
ESDALC6V1-5P6
Package information
●
Epoxy meets UL 94, V0
In order to meet environmental requirements, ST offers these devices in ECOPACK®
packages. These packages have a lead-free second level interconnect. The category of
second level interconnect is marked on the package and on the inner box label, in
compliance with JEDEC Standard JESD97. The maximum ratings related to soldering
conditions are also marked on the inner box label. ECOPACK is an ST trademark.
ECOPACK specifications are available at: www.st.com.
Table 3.
SOT666 dimensions
Dimensions
b1
Ref.
Millimeters
Inches
L1
Min.
L3
Typ.
Max.
Min.
Typ.
Max.
A
0.45
0.60 0.018
0.024
A3
0.08
0.18 0.003
0.007
b
0.17
0.34 0.007
0.013
b1
0.19
D
1.50
1.70 0.059
0.067
E
1.50
1.70 0.059
0.067
E1
1.10
1.30 0.043
0.051
b
D
E1
0.27
0.34 0.007 0.011 0.013
A
L2
E
A3
e
0.50
0.020
L1
0.19
0.007
L2
0.10
0.30 0.004
0.012
e
L3
0.10
Figure 14. SOT666 footprint (dimensions in mm)
0.50
0.62
0.99
0.30
6/8
2.60
0.004
ESDALC6V1-5P6
Ordering information
Figure 15. Tape and reel specifications
Dot identifying Pin A1 location
1.75 ± 0.1
Ø 1.5 ± 0.1
4 ± 0.1
3.5 ± 0.1
8 ± 0.3
0.69 ± 0.05
4 ± 0.1
User direction of unreeling
All dimensions in mm
Note:
Product marking may be rotated by 90° for assembly plant differentiation. In no case should
this product marking be used to orient the component for its placement on a PCB. Only pin
1 mark is to be used for this purpose.
5
Ordering information
Table 4.
Ordering information
Order code
Marking
Package
Weight
Base qty
Delivery mode
ESDALC6V1-5P6
J(1)
SOT666
2.9 mg
3000
Tape and reel
1. The marking can be rotated by 90° to diferentiate assembly location
6
Revision history
Table 5.
Document revision history
Date
Revision
Description of changes
29-May-2007
1
First issue.
30-Jul-2007
2
Upgrade VCL from 8 V to 10 V and from 9.5 V to 14 V.
15-Nov-2007
3
Reformatted to current standards. Marking changed to J
in Table 4. Notes on marking rotation added to Table 4
and Figure 15.
7/8
ESDALC6V1-5P6
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