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PJDLC05C-05_15 Datasheet, PDF (1/5 Pages) Pan Jit International Inc. – ULTRA LOW CAPACITANCE DUAL TRANSIET VOLTAGE
PJDLC05C-05
VOLTAGE
5 Volt
POWER
400 Watt
ULTRA LOW CAPACITANCE DUAL TRANSIET VOLTAGE
SUPPRESSOR FOR HIGH SPEED DATA LINES
This transient overvoltage suppressor is intended to protect sensitive
equipment against electrostatic discharge events as well to offer a
minimum insertion loss in data transmission lines in communications ports
used in portable consumer, computing and networking applications. This
dual transient voltage suppressor comes in a single SOT-23, offering
board space reduction, where the application requires it.
This device comes with two pairs of high speed switching diodes
connected in series, where both pairs are electrically isolated, offering a
very low capacitance, minimizing the insertion losses in data transmission
lines.
FEATURES
• Maximum capacitance @ 0 Vdc Bias of 1 pF between terminals 1-3
or terminals 2-3
• IEC61000-4-2 esd 15kV Air, 8kV contact compliance
• Lead free in compliance with EU RoHS 2011/65/EU directive
• Green molding compound as per IEC61249 Std. . (Halogen Free)
MECHANICAL DATA
• Case: SOT-23, plastic
• Terminals: solderable per MIL-STD-750, Method 2026
• Approx. Weight: 0.0003 ounce, 0.0084 gram
• Marking: DEA
0.120(3.04)
0 . 11 0 ( 2 . 8 0 )
0.056(1.40)
0.047(1.20)
0.079(2.00)
0.070(1.80)
0.004(0.10)
0.000(0.00)
0.020(0.50)
0.013(0.35)
0.008(0.20)
0.003(0.08)
0.044(1.10)
0.035(0.90)
3
1
2
Fig.21
MAXIMUM RATINGS
Parameter
Operating Junction
St o r a g e Te mp e r a t ur e Ra ng e
Symbol
TJ
TSTG
Value
-55 to +150
-55 to +150
Units
OC
OC
ELECTRICAL CHARACTERISTICS
Parameter
Reverse Stand-Off Voltage
Reverse Breakdown Voltage
Reverse Leakage Current
Junction Capacitance
Peak Pulse Current
Clamping Voltage
Clamping Voltage
Symbol
VRWM
VBR
IR
CJ
I PP
V
C
VC
Conditions
Minimum
-
-
I T=1mA
6
VRWM = 5V,
T = 25OC
-
Between pin1.2 to 3
VR=0V,f=1MHz
-
t P=8/20 μsec
-
t
=8/20
P
μsec
@1A
-
t P=8/20 μsec @5A
-
Typical
-
-
0.8
-
-
-
-
Maximum
5
-
1.2
1
17
9.5
12
Units
V
V
μA
pF
A
V
V
March 23,2015-REV.04
PAGE . 1