UM7000 / UM7100 / UM7200
HIGH POWER PIN DIODES
®
TM
RoHS Compliant Versions Available
KEY FEATURES
The UM7000 and UM7100 series offer moderately high power handling in
combination with reasonably low levels of both series resistance and
capacitance. The UM7200 series offers the lowest series resistance, but the
highest capacitance of the group. The differences in specified performance
for each of the series, results from different I-region thickness. The three
series have broad applicability in many RF and microwave switch and
attenuator circuits. Additionally, the UM7100 in leaded versions is usually the
most cost-effective diode choice in high volume usage.
Voltage ratings to 1000V (UM7000)
Average power dissipation to 10 W
Series resistance as low as 0.25 Ω
Carrier lifetime greater than 2.5 µs
Low capacitance
Low conductance (High RP)
Compatible with automated
assembly
www.MICROSEMI.com
DESCRIPTION
RoHS compliant packaging
1
Available
(Use UMX7202B, etc.)
IMPORTANT:
For the most current data, consult MICROSEMI’s website: www.MICROSEMI.com
1
The UM7000 series of products can be
supplied with a RoHS compliant finish
(UMX7000) or with a 90/10 Sn/Pb finish.
Stud Packages C/CR/D/DR are supplied
with a RoHS complaint Gold finish
Consult factory for details.
ABSOLUTE MAXIMUM RATINGS AT 25º C
(UNLESS OTHERWISE SPECIFIED)
Package
(PD ) Power
Dissapation
(W)
Conditions
O
A
25 C Pin Temperature
B
½ in. total length to 25 C
Contact Free Air
E
O
( Θ )Thermal
Resistance
( OC/W)
10
15V
5.5
27.5
1.5
O
10
15
O
7.5
20
O
8
17
100KW
APPLICATIONS/BENEFITS
Isolated stud package available
Surface mount package available
Soldering temperature:
o
260 C for 10 seconds
maximum
60 kW
35 kW
20 kW
C
25 C Stud Temperature
D
25 C Stud Temperature
25 C End Cap Temperature
ALL
1 us pulse (Single)
ALL
Storage Temperature (TOP)
-65 OC to + 175 OC
ALL
Operating Temperature (TOP)
-65 OC to + 175 OC
Copyright 2006
Rev.: 2009-01-19
Microsemi
Microwave Products
75 Technology Drive, Lowell, MA. 01851, 978-442-5600, Fax: 978-937-3748
UM700/UM7100/UM7200
SM
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