We declare that the material of product compliance with
RoHS requirements and Halogen Free.
S- prefix for automotive and other applications requiring
unique site and control change requirements; AEC-Q101
qualified and PPAP capable.
2 Unidirectional transil functions
Low leakage current:IR max< 20 μA at VRM
300W peak pulse power(8/20μs)
Transient protection for data lines as per
IEC61000-4-2(ESD) 15KV(air) 8KV(contact)
IEC61000-4-5(Lightning) see IPPM below
SOT-23
Absolute Ratings (T
amb
=25
°C )
Symbol
Parameter
Value
Units
P
PP
Peak Pulse Power (t
p
= 8/20μs)
300
T
L
Maximum lead temperature for soldering duri ng 10s 260 °C
T
stg
Storage Temperature Range -55 to +150 °C
T
op
Operating Temperature Range -40 to +125 °C
T
j
Maximum junction temperature 150 °C
IEC61000-4-2 (ESD) air discharge
contact discharge
±15
±8
KV
W
Features
Circuit Diagram
ESD PROTECTION DIODE
Ordering information
ELECTRONICS CO.,LTD
HUAXUANYANG HXY
www.hxymos.com
Shenzhen HuaXuanYang Electronics CO.,LTD
Product ID
Pack
Qty(PCS)
PESD24VS2UT
SOT-23
3000
PESD24VS2UT
Discription
The PESD24VS2UT protects sensitive semiconductor
components from damage or upset due to electrostatic
discharge (ESD) and other voltage induced transient events.
Excellent clamping capability, low leakage, low capacitance,
and fast response time provide best in class
protection on designs that are exposed to ESD.
It gives designer the flexibility to protect 2 unidirectional
line in applications where arrays are not practical.
3
1
2
Electrical Characteristics
Ratings at 25°C ambient temperature unless otherwise specified.
V
RWM
(V)
I
R
(uA)
@ V
RWM
V
BR
(V)@ I
T
(Note 1)
I
T
V
C
(V)
@ Max I
PP
*
I
PP
(A)*
P
PK
(W)*
C
(pF)
Device
Max
Max
24
*Surge current waveform per Figure 1.
1. V
BR
is measu
red with a pluse test current I
T
at an ambient temperature of 25
℃.
50
6
25
300
Max
mA
Min
Typ
1
26
Max
1.0
ESD PROTECTION DIODE
ELECTRONICS CO.,LTD
HUAXUANYANG HXY
www.hxymos.com
Shenzhen HuaXuanYang Electronics CO.,LTD
Fig1. Peak Pulse Power VS Pulse Time
Max
PESD24VS2UT
PESD24VS2UT
Typical Characteristics
Fig2. Pulse Waveform
Fig3.Power Derating