LC03-6R2G ON Semiconductor, LC03-6R2G Datasheet - Page 3
LC03-6R2G
Manufacturer Part Number
LC03-6R2G
Description
TVS 2KW 6V LO-CAP 8SOIC
Manufacturer
ON Semiconductor
Type
Diode Arraysr
Datasheet
1.LC03-6R2.pdf
(5 pages)
Specifications of LC03-6R2G
Voltage - Reverse Standoff (typ)
5V
Voltage - Breakdown
6.8V
Power (watts)
2000W
Polarization
2 Channel Array - Bidirectional
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Applications
General Purpose
Number Of Circuits
2
Voltage - Working
6V
Voltage - Clamping
15V
Technology
Diode Array
Capacitance Value
25 pF
Maximum Clamping Voltage
20 V
Number Of Elements Per Chip
2
Esd Protection Voltage
15@Air Gap|8@Contact Disc KV
Maximum Leakage Current
20 uA
Polarity
Unidirectional
Clamping Voltage
20 V
Operating Voltage
5 V
Breakdown Voltage
6.8 V
Termination Style
SMD/SMT
Peak Surge Current
100 A
Peak Pulse Power Dissipation
2000 W
Capacitance
16 pF
Maximum Operating Temperature
+ 150 C
Minimum Operating Temperature
- 55 C
Dimensions
4(Max) mm W x 5(Max) mm L
Diode Type
Bidirectional TVS
Clamping Voltage Vc Max
15V
Diode Case Style
SOIC
No. Of Pins
8
Termination Type
SMD
Breakdown Voltage Min
6.8V
Capacitance, Cd
16pF
Peak Pulse Power Ppk
2kW
Rohs Compliant
Yes
Pin Count
8
Rad Hardened
No
Filter Terminals
SMD
Leaded Process Compatible
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LC03-6R2G
Manufacturer:
SEMTECH/美国升特
Quantity:
20 000
array designed to protect sensitive electronics such as
communications
peripherals against damage due to transient overvoltage
conditions caused by lightning, electrostatic discharge
(ESD), and electrical fast transients (EFT). Because of its
relative low capacitance (<25 pf), it can be used in high speed
I/O data lines such as USB 1.1 ports.
surge rating, low capacitance steering diodes, and a TVS
diode integrated in a single package (SO-8). In addition, this
device offers compliance to Bellcore 1089 requirements
(intra-building).
LC03-6 Device's Configurations Options
Protection of Two High-speed I/O Data Lines
lines against transient overvoltage conditions by driving
them to a fixed reference point for clamping purposes.
Depending in the application's requirements, the LC03-6
device can be configured for protection in either differential
mode (Line-to-Line) or common mode (Line-to-ground).
The Figure 5 shows the connection for Differential mode
(Line-to-Line) and Common mode (Line-to-Ground)
protection. The inputs and outputs of the I/O data lines are
connected at terminals 1 to 8, and 4 to 5 while the terminals
2, 3, 6 and 7 are connected to ground; for better performance,
it is recommended to minimize parasitic inductances by
using ground planes and minimizing the PCB trace lengths
for the ground return connections.
The LC03- 6 ON Semiconductor's device is a TVS Diode
The integrated design of the LC03-6 device offers high
The LC03-6 device is able to protect two high speed data
Line 1
Line 2
Figure 5. Configuration for Differential
In
In
and Common Mode Protection
systems,
LC03-6
computers,
and
APPLICATIONS INFORMATION
Line 1
Out
Line 2
Out
computer
http://onsemi.com
LC03-6R2
3
applications, then the configuration for differential protection
is made as shown in the Figure 6:
T1/E1 Linecard Protection (Intra-Building)
card protection circuit. The LC03- 6 device is connected
between Tip and Ring on the transmit and receive line pairs.
it provides protection to metallic and common mode lightning
surges per Bellcore 1089 intra- building (For further
information, see Bellcore 1089 standard). A metallic voltage
is defined as a difference of potential between the T and R
terminals of a telecommunications pair. Currents caused by
lightning, in the absence of protector operation and with
balanced terminal equipment and telecommunications loop,
cause Tip and Ring conductors to attain the same potential
hence do not produce metallic transients. Common mode
surges are suppressed by the isolation of the transformer.
If differential protection is required by some particular
The Figure 7 shows a typical schematic for a T1/E1 line
Line 1
Line 2
In
In
Figure 6. Configuration for Differential
N/C
N/C
Protection (Line-to-Line)
LC03-6
N/C
N/C
Line 1
Out
Line 2
Out
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