Bourns CDSOT236-DSL0312 Tvs diode array sery Datasheet

T
PL
IA
N
M
CO
*R
oH
S
Features
Applications
■ RoHS compliant*
■ ADSL / VDSL cards
■ Low capacitance <5 pF
■ Personal Digital Assistants (PDAs)
■ ESD protection
■ Mobile phones and accessories
■ Surge protection
■ Portable electronics
CDSOT236-DSL03xx - TVS Diode Array Series
General Information
The CDSOT236-DSL03xx device provides ESD, EFT and surge protection for highspeed data ports to assist in meeting IEC 61000-4-2 (ESD), IEC 61000-4-4 (EFT)
and IEC 61000-4-5 (Surge) requirements. The Transient Voltage Suppressor array is
available with a Working Peak Reverse Voltage of 12 V or 24 V.
REF
REF
REF
I/O 1
GND
I/O 2
The SOT23-6L packaged device will mount directly onto the industry standard
SOT23-6L footprint and is easy to handle with standard pick and place equipment.
Absolute Maximum Ratings, TA = 25 °C (Unless Otherwise Noted)
Rating
Symbol
Working Peak Voltage
Peak Pulse Current (tp = 8/20 µs)
Peak Pulse Power (tp = 8/20 µs)
ESD (IEC61000-4-2 Contact)
ESD (IEC61000-4-2 Air)
Operating Temperature
Storage Temperature
VWM
IPPM
PPP
CDSOT236DSL0312
12
DSL0324
24
15
35
500
8
15
-40 to +125
-55 to +150
TL
TSTG
Unit
V
A
W
kV
kV
°C
°C
Electrical Characteristics, TA = 25 °C (Unless Otherwise Noted)
Parameter
Test Condition (Note 1)
VBR Breakdown Voltage
IBR = 1 mA
‘DSL0312
‘DSL0324
VC
Clamping Voltage
IP = 1 A, 8/20 µs
‘DSL0312
‘DSL0324
VC
Clamping Voltage
IP = 10 A, tw = 1 µs
‘DSL0312
‘DSL0324
VC
Clamping Voltage
ID
C
ΔC
Leakage Current
Capacitance
Capacitance Variation
‘DSL0312
IP = 35 A, 8/20 µs
‘DSL0324
IP = 15 A, 8/20 µs
VD = VWM
VD = 1 V, f = 10 MHz, 1 Vrms
VD = 1 V to VWM, f = 10 MHz, 1 Vrms
Min.
14
26
Typ.
Max.
Unit
V
18
31
21
37
34
40
1.4
0.2
Note 1: All measurements made between I/O 1 and I/O 2.
*RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011.
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
20
38
V
V
V
100
5
2
nA
pF
pF
CDSOT236-DSL03xx - TVS Diode Array Series
Performance Graphs
Maximum Current vs. Pulse Duration
Normalized Capacitance vs. VD
Capacitance Normalized to VD = 1 V
100
Maximum Current (Amps)
‘DSL0312
‘DSL0324
10
1
1.E-06
1.E-05
1.E-04
1.2
1.0
0.8
0.6
0.4
0.2
0.0
0
1.E-03
10
5
15
20
25
Pulse Duration (Seconds)
VD (Volts)
Clamping Waveform for ‘DSL0312 During a 20 A, 8/20 µs Surge
Clamping Waveform for ‘DSL0324 During a 10 A, 8/20 µs Surge
40
VOLTAGE
CURRENT
40
35
30
30
30
25
25
20
20
15
15
10
10
10
5
5
5
0
-10
0
0
-10
0
10
20
30
40
50
Time (µs)
60
70
80
90
Voltage (Volts)
35
Current (Amps)
Voltage (Volts)
35
20
VOLTAGE
CURRENT
15
25
20
10
15
Current (Amps)
40
5
0
0
10
20
30
40
50
60
70
80
90
Time (µs)
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
CDSOT236-DSL03xx - TVS Diode Array Series
Application Information
Communication systems with exposed signal lines are often subjected to high level transient threats. The CDSOT236-DSL03xx
family of devices was designed to help protect signal lines from
threats such as those defined in Telcordia GR-1089 and ITU-T.
Figure 1 shows the CDSOT236-DSL03xx TVS diode array used
in a design topology that protects a VDSL driver. The diode
array limits the peak differential voltage across the VDSL driver
outputs. The current limiting resistors (RP), typically about 1 ohm,
limit the peak current seen by the driver. Low voltage varistors
MOV1 and MOV2, with a typical working voltage of less than
20 V, limit the current in the line side of the transformer by limiting
the voltage across it. Exact values for the current limiting resistors
and the varistors are dependent on the characteristics of the
transformer as well as the sensitivity of the driver to overvoltage/
overcurrent conditions. The use of primary protectors downstream from the device will also influence the requirements for
this protection circuit design. In applications sensitive to very low
levels of leakage current, optional bias resistors RB1 and RB2
can be used. Both resistors would be required for dual supply
applications. Only RB1 is required for single supply applications.
In this case, the anodes of the diode array should be connected
to ground.
RP
MOV1
VCC
VDSL
Driver
*RB1
Feedback
To RJ11
Connector
RT
*RB2
CDSOT236-DSL03xx
VEE
MOV2
RP
*Optional
Figure 1. VDSL Driver Protection Design Topology
When routing differential signal traces on the PCB, such as in a
VDSL application, it is important to maintain symmetry in the
routing. Figure 2 below shows an example of how differential
traces that connect to the CDSOT236-DSL03xx TVS diode array
can be routed. As the signal traces approach the diode array
From IC
the traces should be flared out to make the connections with the
device and then brought back together on the opposite side of
the device. Routing to the next destination would continue from
there.
To Next
Connection
Figure 2. Connecting a Differential Signal to the Model CDSOT236-DSL03xx
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
CDSOT236-DSL03xx - TVS Diode Array Series
Application Information (Continued)
In applications where the current limiting resistors (RP in
Figure 1) cannot reduce the current into (or out of) the driver to
an acceptable level, the resistors can be replaced with a Bourns®
Transient Current Suppressor (TCS™) device as shown in
Figure 3. The Model TCS-DL004-750-WH shown in Figure 3 is a
dual channel device that has a nominal series resistance of only
1 ohm. The resistance between the two channels is very well
matched with a nominal maximum difference of + 0.02 ohms
between the channels. This device has a nominal trigger current
of 1.1 amps. The current through the device would be limited to
this level with up to 40 V across this device, making it dramatically more effective than a 1 ohm series resistor. Devices with
different trigger levels and series resistances are also available.
For additional information on the TCS™ family of devices, please
consult the data sheets on our website at http://www.bourns.com/
ProductLine.aspx?name=transient_current_suppressors.
MOV1
VCC
VDSL
Driver
Feedback
TCS-DL004- *RB1
750-WH
To RJ11
Connector
RT
*RB2
CDSOT236- VEE
DSL03xx
MOV2
*Optional
Figure 3. VDSL Driver Protection Design with Transient Current Suppressor Technology
Figure 4 shows how the trace routing should be done when the TCS™ device is used in conjunction with the CDSOT236-DSL03xx
TVS diode array.
TCS™
Device
From IC
TVS Diode
Array
To Next
Connection
Figure 4. Connecting a Differential Signal to the Model CDSOT236-DSL03xx and TCS™ Device
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
3312
- 2 mm SMD Trimming
Potentiometer
CDSOT236-DSL03xx
- TVS Diode
Array Series
Product Dimensions
Recommended Footprint
This is a molded SOT23-6L package with RoHS compliant 100 %
Matte Sn on the lead frame. It weighs approximately 15 mg and has
a flammability rating of UL 94V-0.
2.40
(0.094)
0.35 - 0.50
(0.014 - 0.020)
0.85 - 1.05
(0.033 - 0.040)
6
5
4
2.60 - 3.00
(0.102 - 0.118)
1
2
1.90
(0.074)
0.20
(0.007)
0.70
(0.028)
3
1.70 - 2.10
(0.067 - 0.083)
0.09 - 0.20
(0.004 - 0.008)
1.50 - 1.75
(0.059 - 0.070)
1.00
(0.039)
0.35 - 0.55
(0.014 - 0.022)
2.80 - 3.05
(0.110 - 0.120)
0.90 - 1.30
(0.035 - 0.051)
0.95
(0.037)
0 - 10 °
DIMENSIONS = MILLIMETERS
(INCHES)
0.90 - 1.45
(0.036 - 0.057)
DIMENSIONS = MILLIMETERS
(INCHES)
Typical Part Marking
CDSOT236-DSL0312 ....................................................................L2
CDSOT236-DSL0324 ....................................................................L4
How to Order
CD SOT236 - DSL03 12
Common Diode
Chip Diode
Package
SOT236 = SOT23-6 Package
Model
DSL03 = For use in ADSL/VDSL applications
Working Peak Reverse Voltage
12 = 12 VWM (Volts)
24 = 24 VWM (Volts)
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
CDSOT236-DSL03xx - TVS Diode Array Series
Packaging Information
The product is packaged in tape and reel format per EIA-481 standard.
P
0
P
1
d
PART
ORIENTATION
T
E
Index Hole
120 °
F
D2
W
B
PIN 1
D1 D
P
A
Trailer
.......
.......
End
C
Device
.......
.......
.......
.......
Leader
.......
.......
W1
Start
DIMENSIONS:
10 pitches (min.)
MM
(INCHES)
10 pitches (min.)
Direction of Feed
Item
Symbol
SOT23-6
Carrier Width
A
3.90 ± 0.10
(0.154 ± 0.004)
Carrier Length
B
3.90 ± 0.10
(0.154 ± 0.004)
Carrier Depth
C
0.90 ± 0.10
(0.035 ± 0.004)
Sprocket Hole
d
1.55 ± 0.05
(0.061 ± 0.002)
Reel Outside Diameter
D
178
(7.008)
Reel Inner Diameter
D1
50.0
MIN.
(1.969)
Feed Hole Diameter
D2
13.0 ± 0.20
(0.512 ± 0.008)
Sprocket Hole Position
E
1.75 ± 0.10
(0.069 ± 0.004)
Punch Hole Position
F
3.50 ± 0.05
(0.138 ± 0.002)
Punch Hole Pitch
P
4.00 ± 0.10
(0.157 ± 0.004)
Sprocket Hole Pitch
P0
4.00 ± 0.10
(0.157 ± 0.004)
Embossment Center
P1
2.00 ± 0.05
(0.079 ± 0.002)
Overall Tape Thickness
T
0.20 ± 0.10
(0.008 ± 0.004)
Tape Width
W
8.00 ± 0.20
(0.315 ± 0.008)
Reel Width
W1
Quantity per Reel
--
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The Americas: Tel: +1-951 781-5500 • Fax: +1-951 781-5700
www.bourns.com
14.4
MAX.
(0.567)
3000
05/13
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
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