SSDI TVS002

STM8057
SOLID STATE DEVICES, INC.
14830 Valley View Blvd * La Mirada, Ca 90638
Phone: (562) 404-7855 * Fax: (562) 404-1773
[email protected] * www.ssdi-power.com
Designer's Data Sheet
FEATURES:
• Available Voltages from 96V to 1600V. Consult Factory.
• Meets all Environmental Requirements of Mil-PRF-19500
• Custom Configurations Available
• Reverse Polarity Available (Add Suffix "R")
• 150oC Maximum Operating and Storage Temperature
• TX and TXV Level Screening Available
120 kWATTS
840 VOLTS
UNIDIRECTIONAL
TRANSIENT VOLTAGE
SUPPRESSOR
APPLICATIONS:
• Voltage Sensitive Components Protection
• Protection Against High Power Surges
• Lightning Protection
Maximum Ratings
SYMBOL
VALUE
UNITS
PD
120
kW
VRWM
800
V
Breakdown Voltage (Minimum)
VBR
840
W
Clamping Voltage at IPP 2/
VCC
1,000
V
Peak Current
IPP
120
A
Top, Tstg
-65 to +150
Peak Pulse Power Dissipation
2/
Stand off Voltage
Operating and Storage Temperature
NOTE: All specifications are subject to change without notification.
SCD's for these devices should be reviewed by SSDI prior to release.
DATA SHEET #: TVS002A
o
C
STM8057
SOLID STATE DEVICES, INC.
14830 Valley View Blvd * La Mirada, Ca 90638
Phone: (562) 404-7855 * Fax: (562) 404-1773
[email protected] * www.ssdi-power.com
Electrical Characteristics
SYMBOL
MIN
MAX
UNITS
Reverse Leakage Current
(VWM = 800V, TA = 25oC, 300 µsec pulse minimum)
IR1
-
100
µΑ
Reverse Leakage Current
(VWM = 800V, TA = 0oC, 300 µsec pulse minimum)
IR2
-
200
µΑ
Breakdown Voltage
(IBR = 15mA, TA = 25oC, 300 µsec pulse minimum)
VBR1
840
-
VDC
Breakdown Voltage
(IBR = 15mA, TA = 0oC, 300 µsec pulse minimum)
VBR2
810
-
VDC
VC
-
1000
V(pk)
Clamping Voltage
(IPP = 120A(pk), tR = 10µsec, tP = 1000µsec)
Package Outline:
% PEAK VALUE
Note:
This Surface to be Flush to
+.005" underflush with Plane -A-.
100
90
80
70
60
50
40
30
20
10
0
tp
0
1
2
TIME (ms)
3
4
Notes:
1. All voltages are measured with automated test set using 35
msec test time. Longer or shorter test times will have a
corresponding effect on the measured value due to the heating effects.
2. Current Pulse rises to peak value of IPP in 10µsec and
decay to half value, IPP/2, in 1msec.
3. Pulse width (tP) is defined as the time from peak pulse
current IPP to the point where peak pulse current decayed
to 50% of rated IPP. (10µsec x 100µsec wave form as
defined by R.E.A.)