Features
Ɣ )DVW6ZLWFKLQJ'HYLFH755Q6
Ɣ3RZHU'LVVLSDWLRQRIP:
Ɣ+LJK6WDELOLW\DQG+LJK5HOLDELOLW\
Ɣ/RZUHYHUVHOHDNDJH
0echanical Data
Ɣ&DVH'2*ODVV&DVH
Ɣ3RODULW\&RORUEDQGGHQRWHVFDWKRGHHQG
Ɣ0RXQWLQJ3RVLWLRQ$Q\
3DUDPHWHUV 6\PERO
9DOXH
8QLW
5HYHUVH9ROWDJH
9
5  9
3HDN5HYHUVH9ROWDJH
9
50  9
3RZHU'LVVLSDWLRQ
3G  P:
2SHUDWLQJMXQFWLRQWHPSHUDWXUH
7M 
ć
Storage temperature range
Ts -65-+200
ć
Working Inverse Voltage
W
IV 75 V
Average Rectified Current
I
O 150 mA
Non-repetitive Peak Forward Current
I
FM 450 mA
@ t<1s and Tj=25ć
Valid provided that leads at a distance of 8 mm from case are kept at ambient temperature.
Limits
Symbols Parameter
Test Condition
Min
Max
Unit
IR=100uA 100
BV
Breakdown Voltage
IR=5uA 75
V
VR=20V --- 25 nA
IR
Reverse Leakage Current
VR=75 ---
5
uA
1N4448/1N914B IF=5mA 0.62 0.72
Forward Voltage
1N4148 IF=10mA --- 1
VF
1N4448/1N914B IF=100mA --- 1
V
IF= 10mA, IR=1.0mA
Reverse Recovery Time
RL=100ȍ
TRR
IRR=1mA
---
4 nS
C
Capacitance
VR=0V, f=1MHZ --- 4 pF
1
'2*ODVV6ZLWFKLQJ'LRGH
92/7$*(5$1*(9
3($.38/6(32:(5P:
0$;,080 5$7,1*6 $1' &+$5$&7(5,67,&6
5DWLQJV DW  & DPELHQW WHPSHUDWXUH XQOHVV RWKHUZLVH VSHFLILHG
(OHFWULFDO6SHFLILFDWLRQ
7$ XQOHVVRWKHUZLVHVSHFLILHG
http://www.lujingsemi.com 2017.6ͲRev.A
1
0.079(2.0)
MAX
0.020(0.52)
TYP
0.165 (4.2)
MAX
1.0 2(26.0)
MIN.
1.0 2(26.0)
MIN.
'LPHQVLRQVLQLQFKHVDQGPLOOLPHWHUV
DO-35(GLASS)
Forward characteris t ics
Dynamic forward resistance versus forward current
Admissible power dissipation versus ambient temperature
Valid provided that leads at a distance of 8 mm from case are kept at ambient t emperature
Relative capacitance versus reverse voltage
Leakage current versus junction temperature
$GPLVVLEOHUHSHWLWLYHSHDNIRUZDUGFXUUHQWYHUVXVSXOVHGXUDWLRQ9DOLGSURYLGHGWKDW
OHDGVDWDGLVWDQFHRIPPIURPFDVHDUHNHSWDWDPELHQWWHPSHUDWXUH
7\SLFDO&KDUDFWHULVWLFV
5$7,1*6 $1' &+$5$&7(5,67,& &859(6
http://www.lujingsemi.com 2017.6ͲRev.A
Ϯ