Microsemi JAN2N2323S Silicon controlled rectifier Datasheet

TECHNICAL DATA
SILICON CONTROLLED RECTIFIER
Qualified per MIL-PRF-19500/276
Devices
Qualified
Level
2N2323
2N2323S
2N2323A
2N2323AS
2N2324
2N2324S
2N2324A
2N2324AS
2N2326
2N2326S
2N2326A
2N2326AS
2N2328
2N2328S
2N2328A
2N2328AS
JAN
JANTX
JANTXV
2N2329
2N2329S
MAXIMUM RATINGS
Ratings
Sym
2N2323,S/ 2N2324,S/ 2N2326,S/ 2N2328,S/
2N2329,S Unit
2N2323A,S 2N2324A,S 2N2326A,S 2N2328A,S
Reverse Voltage
VRM
50
100
200
300
400
Vdc
Working Peak Reverse Voltage VRM
75
150
300
400
500
Vpk
Forward Blocking Voltage
VFBXM
50(3/4)
100(3/4)
200(3/4)
300(3/4)
400(3)
Vpk
(1)
Average Forward Current
IO
0.22
Adc
Forward Current Surge Peak(2) IFSM
15
Adc
Cathode-Gate Current
VKGM
6
Vpk
0
Operating Temperature
Top
-65 to +125
C
0
Storage Junction Temp
Tstg
-65 to +150
C
1) This average forward current is for an ambient temperature of 800C and 180 electrical degrees of
conduction.
2) Surge current is non-recurrent. The rate of rise of peak surge current shall not exceed 40 A during
the first 5 µs after switching from the ‘off’ (blocking) to the ‘on’ (conducting) state. This is measured
from the point where the thyristor voltage has decayed to 90% of its initial blocking value.
3) Gate connected to cathode through 1,000 ohm resistor.
4) Gate connected to cathode through 2,000 ohm resistor.
TO-5
*See appendix A
for package outline
ELECTRICAL CHARACTERISTICS
Characteristics
Symbol
Min.
Max.
Unit
10
µAdc
SUBGROUP 2 TESTING
Reverse Blocking Current
R2 = 1 kµ
R2 = 2 kµ
VR = 50 Vdc
VR = 100 Vdc
VR = 200 Vdc
VR = 300 Vdc
VR = 400 Vdc
2N2323 thru 2N2329
2N2323S thru 2N2329S
2N2323A thru 2N2328A
2N2323AS thru 2N2328AS
2N2323, S, A, AS
2N2324, S, A, AS
2N2326, S, A, AS
2N2328, S, A, AS
2N2329, S,
6 Lake Street, Lawrence, MA 01841
1-800-446-1158 / (978) 794-1666 / Fax: (978) 689-0803
IRBX1
120101
Page 1 of 2
2N2323, A, AS, S; 2N2324, A, AS, S; 2N2326, A, AS, S; 2N2328, A, AS, S; 2N232, S JAN SERIES
ELECTRICAL CHARACTERISTICS (con’t)
Characteristics
Forward Blocking Current
R2 = 1 kΩ
R2 = 2 kΩ
VR = 50 Vdc
VR = 100 Vdc
VR = 200 Vdc
VR = 300 Vdc
VR = 400 Vdc
Reverse Gate Current
VKG = 6 Vdc
Gate Trigger Voltage and Current
V2 = VFBX = 6 Vdc; RL = 100 Ω
Re = 1 kΩ
Re = 2 kΩ
2N2323 thru 2N2329
2N2323S thru 2N2329S
2N2323A thru 2N2328A
2N2323AS thru 2N2328AS
2N2323, S, A, AS
2N2324, S, A, AS
2N2326, S, A, AS
2N2328, S, A, AS
2N2329, S
2N2323 thru 2N2329 and
2N2323S thru 2N2329S
2N2323A thru 2N2328A and
2N2323AS thru 2N2328AS
Symbol
Max.
Unit
IFBX1
10
µAdc
IKG
200
µAdc
0.80
200
0.60
20
Vdc
µAdc
Vdc
µAdc
VGT1
IGT1
VGT1
IGT1
Min.
0.35
0.35
SUBGROUP 4 TESTING
Exponential Rate of Voltage Rise TA = 1250C
50 Ω ≤ RL ≤ 400 Ω, C = 0.1 to 1.0 µF, repetition rate = 60 pps,
test duration = 15 seconds
dv/dt = 1.8 v/µs, R3 = 1 kΩ
2N2323 thru 2N2329 and
2N2323S thru 2N2329S
dv/dt = 0.7 v/µs, R3 = 2 kΩ
2N2323A thru 2N2328A and
2N2323AS thru 2N2328AS
VAA = 50 Vdc
2N2323, S, A, AS
VAA = 100 Vdc
2N2324, S, A, AS
VAA = 200 Vdc
2N2326, S, A, AS
VAA = 300 Vdc
2N2328, S, A, AS
VAA = 400 Vdc
2N2329, S
Forward “on” Voltage
iFM = 4a (pk) (pulse), pulse width = 8.5 ms, max; duty cycle = 2% max
Holding Current
VAA = 24 Vdc max, IF1 = 100 mAdc, IF2 = 10 mAdc
Gate trigger source voltage = 6 Vdc,
trigger pulse width = 25 µs min., R2 = 330 Ω
R3 = 1 kΩ
2N2323 thru 2N2329 and
2N2323S thru 2N2329S
R3 = 2 kΩ
2N2323A thru 2N2328A and
2N2323AS thru 2N2328AS
6 Lake Street, Lawrence, MA 01841
1-800-446-1158 / (978) 794-1666 / Fax: (978) 689-0803
Vdc
VFBX
47
95
190
285
380
VFM
2.2
V(pk)
IHOX
2.0
mAdc
120101
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