Aeroflex / Metelics Microwave Diodes, Passive Semioconductors

Aeroflex / Metelics, Inc.
Microwave Diodes, Passive Semiconductors, & Hybrid Devices
Microwave
Diodes, Passive
Semiconductors,
& Hybrid Devices
ISO 9001: 2008
Aeroflex / Metelics, Inc.
Aeroflex / Metelics, Inc.
East Coast Operations
54 Grenier Field Road,
Londonderry, NH 03053
Tel: (603) 641-3800
Sales: (888) 641-SEMI (7364)
[email protected]
Aeroflex / Metelics, Inc.
West Coast Operations
975 Stewart Drive,
Sunnyvale, CA 94085
Tel: (408) 737-8181
www.aeroflex.com/Microwave
www.aeroflex.com/Metelics
Copyright 2011 Aeroflex / Metelics. All rights reserved.
Revision Date: 05/30/11
Our passion for performance is defined by three
attributes represented by these three icons:
solution-minded, performance-driven and customer–focused.
A17091(-)
Short Form Catalog
Aeroflex / Metelics, Inc. reserves the right to make changes to any
products and services herein at any time without notice. Consult Aeroflex
or an authorized sales representative to verify that the information in
this brochure is current before using these products. Aeroflex does not
assume any responsibility or liability arising out of the application or use of
any product or service described herein, except as expressly agreed to in
writing by Aeroflex; nor does the purchase, lease, or use of a product or
service from Aeroflex convey a license under any patent rights, copyrights,
trademark rights, or any other of the intellectual rights of Aeroflex or of
third parties.
Short Form Catalog
Discrete Integrated Technologies (DIT)
One of the significant advantages of utilizing discrete components
in designs is the inherent superior availability and variety of semiconductor and passive device selection. The ability to select devices
that are parametrically optimized for a particular circuit allows greater
design control that is not always possible with a MMIC process.
Using individual devices to design and build a circuit initially
appears to be cumbersome compared to employing a MMIC device.
However, there are certainly cases where MMICs are not the practical solution because of the nature of the monolithic process itself.
Take the example where different types of semiconductors are
required for a circuit application. If more than one species of
semiconductor is required in circuit design, discrete semiconductors become the practical solution. This is especially true if the circuit
design integrates a number of circuit functions.
Herein lies the advantage of using discrete integrated technologies
(DIT). This simply means using a variety of discrete silicon, gallium
arsenide or gallium nitride devices in conjunction with passive R, L,
C devices and available microwave packaging to provide a more
complete and optimized solution.
Using the DIT process, Metelics is able to provide multi-function,
modular, control component design solutions that incorporate Silicon
and GaAs semiconductors with their passive R, L, C elements into
Dedicated to today’s programs
and tomorrow’s challenges
compact, surface mount ceramic microwave packages.
These DIT devices are superior to MMICs in terms of high
Aeroflex / Metelics is familiar with the rapidly changing RF/Microwave
signal power handling, high signal linearity and small signal loss and
landscape. With our Product Lifeline Assurance program as a cornerstone
VSWR performance. This DIT approach allows surface mount control
to our commitment to providing you the utmost in customer service, we’re
component designs to push the frequency and power spectrums,
also investing millions in research and development to deliver the solu-
especially for unique integrated designs spanning 10 MHz to 10 GHz.
tions to your next challenges. They’re designed and produced in one of
two Centers of Excellence located on the east and west coast of the USA.
You’ll find these products in greater detail inside, but check our web site
often for our latest releases and detailed data sheets and design tools.
The DIT design approach provides the customer with design
hardware solutions in timeframes about four times faster than
a similar MMIC approach.
What’s Hot at Aeroflex / Metelics
High Power Surface Mount Limiter Modules
Surface Mount PIN Diode Switches
Our high power surface mount limiters are
making your receiver/protector sections a whole
lot easier to design. These drop-in devices include
11 completely integrated components that have
been optimized for S and C band radar systems.
New, surface mount PIN diode switches are
the preferred alternative to lower power QFN
packaged MMICs. These SP2T T-R and
symmetrical SP2T and SP3T switches provide:
In comparison to silicon and GaAs MMICs, which
lack thermal capacity and thermal conductivity,
these devices offer stable peak power handling
through 8 GHz.
• 650 W @ 10 µS, 1% duty incident power
handling @ +25° C
• Frequency bands from 20 to 8000 MHz
• Class 1C HBM ESD rating
• 100 W C.W. and 1 KW Peak Power Handling
Compare this superior performance to the
average QFN MMIC switch, which offers just
20 W C.W. or 100 W peak input power, and see
how your military radio, WiMAX, IED and MRI
designs excel.
• Flat Leakage Power of 20 dBm
• 8 x 5 x 2.5 mm SMT Packaging
We’ve put our semiconductor experience to work
in developing a variety of broadband and octave
band models.
• 150 W C.W. incident power handling @ +25° C
• 0.15 dB insertion loss
• 50 dB isolation
High Power MELF Diodes
These high power MELF PIN diodes are produced with
a propriety glassing process. This creates large, full-face
bonding surfaces on the anode and cathode, delivers low
electrical and thermal resistance, and allows for power
handling up to 100 Watts. Models are available with:
• Voltage breakdowns up to 1,000 Volts
• Typical lifetime speeds of 1.0 to 8.0 µsec
• Resistances at 100 mA of 0.5 to 2.0 ohms
www.aeroflex.com/metelics | 1
What’s Hot at Aeroflex / Metelics
Surface Mount Control Elements
We have created a suite of versatile control elements
designed to move your next switch to another level
of efficiency. The core component of the group is an
integrated SPDT switch in a 3x3 mm QFN package.
MSW2T-1001 gives you 0.3 dB of insertion loss and
24 dB of isolation up to 6 GHz. Five other SPST components offer a broad range of high power, low inductance,
low capacitance choices that also deliver through 6 GHz,
while 2 complimentary Schottky’s give you detection
solutions you can push to 18 GHz. They’re all efficiently
priced for high volume commercial applications.
GaAs Flip Chips
The MGS Series of GaAs Schottky diodes are designed for optimum
performance in millimeter wave components operating to 60 GHz.
They are available in many different configurations and feature passivated mesa construction and Aeroflex / Metelics’ tri-metallization for
ultra-reliable operation in the most demanding environments.
See also our innovatively packaged
Ring Quads and Attenuator Pads
2 | www.aeroflex.com/metelics
Table of Contents
Silicon Schottky P-Type Diodes
Zero Bias............................................................................................. 4
Low Barrier........................................................................................ 7
Medium Barrier.............................................................................. 10
Silicon Schottky N-Type Diodes
Low Barrier...................................................................................... 12
Medium Barrier............................................................................... 14
High Barrier.................................................................................... 16
Extra-High Barrier......................................................................... 18
Silicon Schottky Diodes: General Purpose................... 20
Tunnel Diodes: MBD Series..................................................... 22
Tunnel Diode Detectors: MTD Series................................. 23
Point Contact Diodes
Ka-Band Point Contact Mixer Diodes..................................... 24
X-Band Point Contact Mixer Diodes....................................... 25
S-Through X-Band Point Contact Mixer Diodes.................. 26
Ka Band Point Contact Detector Diodes................................27
GaAs Diodes
GaAs Schottky Diodes................................................................ 28
GaAs Abrupt Varactor Diodes.................................................. 29
GaAs Hyperabrupt Varactor Diodes....................................... 30
GaAs Beam Lead Detector Diodes: Zero Bias.....................31
GaAs Detector/Mixer Diodes................................................... 32
GaAs PIN Diodes.......................................................................... 33
GaAs GUNN Diodes.................................................................... 34
Surface Mount PIN Diode Limiters......................................... 85
PIN Diode Switch Drivers........................................................... 93
Silicon Abrupt Tuning Varactors.......................................... 94
30 Volt Plastic................................................................................ 94
30 Volt Plastic................................................................................ 96
45 Volt...............................................................................................97
60 Volt.............................................................................................. 98
90 Volt.............................................................................................. 99
Silicon Abrupt Varactors: General Purpose
Ultra-Low Leakage.....................................................................100
Glass Axial Leaded General Purpose...................................101
Silicon Hyperabrupt Tuning Varactors
Low Cost........................................................................................108
Portable..........................................................................................109
Wideband.......................................................................................110
VHF/UHF........................................................................................113
HF......................................................................................................114
VHF...................................................................................................115
UHF..................................................................................................116
Microwave.......................................................................................117
Silicon Zener Diodes...................................................................118
Current Limiter Field Effect Diodes...................................127
Capacitors
MNOS Series.................................................................................128
9000 / 9100 Series....................................................................131
Mounting Capacitors..................................................................133
Binary Chip Capacitors..............................................................135
Step Recovery Diodes................................................................. 35
Beam Lead Step Recovery Diodes......................................... 36
High “Q” Thin Film, Spiral Inductors................................136
Sampling Phase Detector..........................................................37
Thin Film Resistor Chips...........................................................137
Silicon PIN Diodes
High Power Switching & SOT23 & SOD 323....................... 38
Micro Strip PIN Diodes & Low Capacitance,
Fast Switching................................................................................ 39
Ultra Fast Switching.......................................................................41
Fast Switching, Low Power......................................................... 42
High Power Switching & Attenuators...................................... 43
Medium Power, General Purpose,
PIN Chips & Kilovolt PIN Pill...................................................... 44
Silicon MELF PIN Diodes........................................................... 45
Silicon NIP Diodes........................................................................ 46
Planar Silicon PIN / NIP Attenuators and
Switching Diodes...........................................................................47
PIN Diode SPDT Switch.............................................................. 50
Mesa and Planar Beam Lead PIN Diodes..............................51
Silicon Limiter Diodes.................................................................. 52
Thin Film Attenuator Pads.......................................................139
Silicon PIN Diode Switch Elements.................................... 54
Medium Power Series Switch Element
Medium Power Shunt Switch Element
High Power Shunt Switch Element
Series Shunt Integrated Switch Element
Medium Power Thermal to Ground Switch Element
Control Component Modules
Surface Mount PIN Diode SP2T Switches.............................77
Surface Mount PIN Diode SP3T Switches............................ 83
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Custom Fabricated Device Networks...............................140
InGap HBT Amplifiers
Darlington Gain Blocks..............................................................141
Low and Medium Power Amplifiers.......................................142
Silicon Epitaxial Products........................................................143
Quality and Reliability Screening.......................................144
Warranty and Ordering Information.................................150
Package Styles................................................................................151
Bare Die..........................................................................................151
Flip Chip..........................................................................................154
Beam Lead.....................................................................................154
Resistors & Attenuators.............................................................159
Ceramic Microwave Pill.............................................................160
Ceramic Epoxy SMT...................................................................161
Ceramic Hermetic SMT.............................................................165
Ceramic Module SMT................................................................166
Ceramic MELF.............................................................................167
Plastic SMT....................................................................................168
Glass Axial Leaded & Specialty...............................................171
Model Number Index..................................................................173
Package Number Cross Reference...................................182
www.aeroflex.com/metelics | 3
Silicon Schottky P-Type Diodes: Zero Bias
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Very low 1/f Noise
Ceramic Hermetic SMT
The Aeroflex / Metelics diodes are fabricated on P-Type substrates for low
1/f noise and are optimized for zero-bias operation. Zero-biased devices
are processed to yield two distinct video impedance classes, one 1,500
Ohms typical and the other 4,000 Ohms typical. Applications requiring
maximum stability and sensitivity will favor the higher video impedance.
Biased detector operation offers the designer improved temperature stability
and video impedance flexibility via bias current selection.
• Detector applications to 40 GHz
• Chip, beam lead or packaged devices
VBR @ 100 mA = 0.8 V min.
Chip and Beam Lead
CJ
RV
TSS
Frequency
Model
TYP
pF
MAX
pF
TYP
mV / mW
TYP
MAX
TYP
dBm
TYP
GHz
MSS20,046-C15
0.08
0.10
5,000
1,500
2,000
-58
18
C15p
MSS20,047-C15
0.08
0.10
8,000
4,000
6,000
-59
18
C15p
MSS20,050-C15
0.12
0.15
5,000
1,500
2,000
-58
12
C15p
MSS20,051-C15
0.12
0.15
8,000
4,000
6,000
-59
12
C15p
MSS20,054-C15
0.18
0.20
5,000
1,500
2,000
-58
8
C15p
MSS20,055-C15
0.18
0.20
8,000
4,000
6,000
-59
8
C15p
MSS20,140-B10D
0.06
0.08
5,000
1,500
2,000
-58
40
B10D
MSS20,141-B10D
0.06
0.08
8,000
4,000
6,000
-59
40
B10D
MSS20,142-B10D
0.08
0.10
5,000
1,500
2,000
-58
26
B10D
MSS20,143-B10D
0.08
0.10
8,000
4,000
6,000
-59
26
B10D
MSS20,145-B10D
0.10
0.12
5,000
1,500
2,000
-58
18
B10D
MSS20,146-B10D
0.10
0.12
8,000
4,000
6,000
-59
18
B10D
VR = 0.5 V
F = 1 MHz
Test Conditions
Maximum Ratings
Parameters
F = 10 GHz PIN = -30 dBm R l = 1 M
Video BW = 500 KHz NF = 3 dB
Rating
Reverse Voltage
Rated Vbr
Forward Current
35 mA
Operation Temperature
-65° C to + 150° C
Storage Temperature
-65° C to + 150° C
C.W. Power Dissipation
100 mW, derated linearly to zero at Ta = +150° C
Soldering Temperature (Packaged)
+230° C for 5 sec.
Absolute Maximum Power Rating
150 mW per junction
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Package
Silicon Schottky P-Type Diodes: Zero Bias
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
VBR @ 100 mA = 0.8 V min.
Packaged
RV
CT
Model
TSS
CP
LP
Frequency.
Package
TYP
pF
MAX
pF
TYP
mV / mW
TYP
MAX
TYP
dBm
TYP
pF
TYP
nH
MAX
GHz
MSS20,140-0402
0.12
0.15
5,000
1,500
2,000
-58
0.05
0.25
26
MSS20,141-0402
0.12
0.15
8,000
4,000
6,000
-59
0.05
0.25
26
0402
MSS20,142-0402
0.15
0.18
5,000
1,500
2,000
-58
0.05
0.25
20
0402
0402
MSS20,143-0402
0.15
0.18
8,000
4,000
6,000
-59
0.05
0.25
20
0402
MSS20,145-0402
0.18
0.20
5,000
1,500
2,000
-58
0.05
0.25
18
0402
MSS20,146-0402
0.18
0.20
8,000
4,000
6,000
-59
0.05
0.25
18
0402
MSS20,046-H27
0.20
0.25
5,000
1,500
2,000
-58
0.12
0.4
18
H27
MSS20,046-E25
0.15
0.20
5,000
1,500
2,000
-58
0.07
0.4
18
E25
MSS20,046-T86
0.26
0.31
5,000
1,500
2,000
-58
0.18
1.0
12
T86p
MSS20,046-0805-2
0.14
0.20
5,000
1,500
2,000
-58
0.06
0.4
20
0805-2
MSS20,047-H27
0.20
0.25
8,000
4,000
6,000
-59
0.12
0.4
18
H27
MSS20,047-E25
0.15
0.20
8,000
4,000
6,000
-59
0.07
0.4
18
E25
MSS20,047-T86
0.26
0.31
8,000
4,000
6,000
-59
0.18
1.0
12
T86p
MSS20,047-0805-2
0.14
0.20
8,000
4,000
6,000
-59
0.06
0.4
20
0805-2
MSS20,050-H27
0.24
0.30
5,000
1,500
2,000
-58
0.12
0.4
12
H27
MSS20,050-E25
0.20
0.25
5,000
1,500
2,000
-58
0.07
0.4
12
E25
MSS20,050-T86
0.30
0.36
5,000
1,500
2,000
-58
0.18
1.0
12
T86p
MSS20,050-0805-2
0.18
0.25
5,000
1,500
2,000
-58
0.06
0.4
18
0805-2
MSS20,051-H27
0.24
0.30
8,000
4,000
6,000
-59
0.12
0.4
12
H27
MSS20,051-E25
0.20
0.25
8,000
4,000
6,000
-59
0.07
0.4
12
E25
MSS20,051-T86
0.30
0.36
8,000
4,000
6,000
-59
0.18
1.0
12
T86p
MSS20,051-0805-2
0.18
0.25
8,000
4,000
6,000
-59
0.06
0.4
18
0805-2
MSS20,054-H27
0.30
0.35
5,000
1,500
2,000
-58
0.12
0.4
8
H27
MSS20,054-E25
0.25
0.30
5,000
1,500
2,000
-58
0.07
0.4
8
E25
MSS20,054-T86
0.36
0.41
5,000
1,500
2,000
-58
0.18
1.0
8
T86p
MSS20,054-0805-2
0.24
0.30
5,000
1,500
2,000
-58
0.06
0.4
12
0805-2
MSS20,055-H27
0.30
0.35
8,000
4,000
6,000
-59
0.12
0.4
8
H27
MSS20,055-E25
0.25
0.30
8,000
4,000
6,000
-59
0.07
0.4
8
E25
MSS20,055-T86
0.36
0.41
8,000
4,000
6,000
-59
0.18
1.0
8
T86p
MSS20,055-0805-2
0.24
0.30
8,000
4,000
6,000
-59
0.06
0.4
12
0805-2
Packaged
Test Conditions
VR = 0.5 V
F = 1 MHz
20 | www.aeroflex.com/Metelics
F = 10 GHz PIN = -30 dBm R L = 1 M
Video BW = 500 KHz NF = 3 dB
www.aeroflex.com/metelics | 5
Silicon Schottky Diodes: Zero Bias Detector
Plastic SMT
•Small footprint, only 50 x 30 mils.
•Simplest broadband detector as no
dc bias required
•Very low barrier height, good
sensitivity ( -54 dBm typical ) and
low flick noise
The Aeroflex / Metelics SMS Series are silicon Schottky diodes in a molded 0503
plastic DFN package designed for a broadband zero bias detector.
The SMS201 has a high cutoff frequency and can be used beyond 26.5 GHz for
power detection up to 10 dBm.
The SMS202 can be used up to 18 GHz and power detection up to 10 dBm.
•Very low parasitic package
inductance and low package
capacitance
TC = +25°C Electrical Specifications
Vf
VBR
Model
Configuration
RV
CT
‫ץ‬
TSS
MIN
MIN
TYP
MAX
TYP
MAX
mV
mV
pF
pF
pF
TYP
Ω
MAX
Ω
TYP
mV
MIN
Ω
TYP
V
dBm
mV/mW
MIN
Package
60
80
120
-
.08
.1
2000
4000
8000
-54
8000
1
60
80
120
-
.17
.20
2000
4000
8000
-54
8000
0503
Pair
1
60
80
120
-
.17
.20
2000
4000
8000
-54
8000
0406
Maximum Ratings
Parameters
I F = 50mA
Rating
VR
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V = 0V
F = 1 MHz
Test Conditions
I F = 100µA
SMS202UP
PIN = -30dBm
Video BW = 500 KHz
F = 10 GHz
1
Single
NF -3dB
F = 10 GHz
Single
SMS202
I R = 100µA
SMS201
Units
1.0
V
IF
20
mA
PDISS
100 de-rated to zero at 175°C
mW
TJ
+175
°C
TSTG
-65 to +150
TSOLDER
+260°C per JEDEC J-STD-20C
ESD
Class 0 (Human Body Model)
°C
0503
Silicon Schottky Diodes: Low Barrier
Plastic SMT
•Small footprint, only 40 x 24 mils
The Aeroflex / Metelics SMS302S is a silicon Schottky diode in a molded plastic
DFN package. It is designed for a broadband biased detector. It can be used up to
26 GHz and power detection up to 10 dBm.
•Cost effective choice for high
volume production
•Very low parasitic package
inductance and low package
capacitance.
SMS302S
Model
Vf
VBR
CT
RD
MIN
V
MIN
mV
TYP
mV
MAX
mV
MIN
pF
TYP
pF
MAX
pF
MIN
Ω
TYP
Ω
MAX
Ω
SMS302S
2.0
250
300
350
-
0.16
0.22
-
-
15
Test Conditions
IR =
10µA
Maximum Ratings
I F = 1mA
V = 0V
F = 1 MHz
I F = 5mA
Parameters
Rating
Units
VR
2.0
V
20 | www.aeroflex.com/Metelics
IF
50
mA
PDISS
100 de-rated to zero at 150°C
mW
TJ
+150
°C
TSTG
-65 to +150
°C
TSOLDER
+260°C per JEDEC J-STD-20C
ESD
Class 0 (Human Body Model)
www.aeroflex.com/metelics | 7
Silicon Schottky P-Type Diodes: Low Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Superior 1/f noise
Ceramic Hermetic SMT
The Aeroflex / Metelics Schottky diodes are optimized for superior 1/f noise
on P-type silicon epitaxial substrate with proprietary process. In general they
require a small forward bias (5 ~ 50 µA) for small power levels below -20dm
when used as microwave detectors. • Better temperature stability than zero bias
Schottky diode
• Low barrier height
• Passivated with silicon nitride
VF @ 1 mA = 220 ~ 330 mV, Vbr @ 10 mA = 3 V min.
CJ
Vf
Model
Chip and Beam Lead
Rd
F opt
Package
TYP
MAX
TYP
MAX
MAX
MAX
MSS25,047-C15c
260
300
0.08
0.10
65
18
C15c
MSS25,049-C15c
220
260
0.10
0.12
52
12
C15c
MSS25,141-B10D
280
330
0.06
0.08
65
40
B10D
MSS25,143-B10D
260
300
0.08
0.10
60
26
B10D
MSS25,145-B10D
220
260
0.10
0.12
52
18
B10D
I f = 5 mA
GHz
Test Conditions
Maximum Ratings
VR = 0.2 V
F = 1 MHz
I f = 1 mA
Parameters
Rating
Operation Temperature
-65° C to 150° C
Storage Temperature
-65° C to 150° C
Power Dissipation
150 mW per junction at 25° derate linearly to zero at Ta = +150° C
Soldering Temperature
230° C for 5 sec.
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Schottky Diode: Zero Bias Schottky Detector Module
Plastic SMT
•Small footprint, only 80 x 50 mils
The Aeroflex / Metelics MSDM20-0118 is a Silicon Zero Bias Schottky Detector
module in a molded plastic DFN 2012 package. It can be used up to 18 GHz and
power detection up to 10 dBm. This is a complete detector module with a Port 1 RF
in and Port 2 DC out.
•Simplest broadband detector as
no DC bias required
•Very low barrier height, good
sensitivity, -54 dBm typical.
Also low flick noise
•Very low parasitic package
inductance and low package
capacitance
•Cost effective choice for high
volume production
TC = +25°C MSDM20-0118
VBR
VF
CT
RV
TSS
V
MAX
mV
TYP
pF
MAX
pF
MIN
Ω
TYP
Ω
MAX
Ω
TYP
dBm
TYP
Mv/mW
MSDM20-0118
1.0
60
80
120
0.17
0.20
2000
4000
8000
-54
8000
Test Conditions
Maximum Ratings
N F = 3dB
F = 10 GHz
Zero Bias
PIN = -30dBm
Video BW = 500 KHz
Un-match input
F = 10 GHZ
TYP
mV
VR = 0V
F = 1 MHz
MIN
mV
I F = 100µA
MIN
V
I R = 100µA
Model
Parameters
Rating
Units
VR
1.0
V
IF
20
mA
PDISS
100 de-rated to zero at 150°C
mW
TJ
+175
°C
Storage Temperature
-65 to +150
°C
Solder Temperature
+260 °C per JEDEC J-STD-20C
ESD
Class 0 HBM
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 9
Silicon Schottky P-Type Diodes: Medium Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Very low 1/f Noise
Ceramic Hermetic SMT
The Aeroflex / Metelics MSS39,000 series of Schottky diodes is fabricated
on P-Type epitaxial substrates for superior 1/f noise performance in
microwave based-detector applications up to 40 GHz.
• Detector applications to 40 GHz
• Chip, beam lead or packaged devices
VF @ 1 mA = 380 ~ 480 mV
Chip and Beam Lead
CJ
VBR
Model
TSS
Frequency
MIN
V
TYP
pF
MAX
pF
TYP
mV / mW
TYP
dBm
TYP
GHz
Package
MSS39,045-C15
5.0
0.08
0.10
5,000
-58
18
C15p
MSS39,048-C15
5.0
0.12
0.15
5,000
-58
12
C15p
MSS39,144-B10B
3.5
0.06
0.08
5,000
-58
40
B10Bp
MSS39,146-B10B
3.5
0.08
0.10
5,000
-58
26
B10Bp
MSS39,148-B10B
3.5
0.10
0.12
5,000
-58
20
B10Bp
MSS39,152-B10B
3.5
0.15
0.18
5,000
-58
18
B10Bp
Test Conditions
Maximum Ratings
I R = 10 A
VR = 0 V
F = 1 MHz
F = 10 GHz DC BIAS = 20 A
Video BW = 2 MHz RL = 100 k
Parameters
Rating
Reverse Voltage
Rated Vbr
Forward Current
50 mA
Operation Temperature
-65° C to +150° C
Storage Temperature
-65° C to +150° C
Power Dissipation
Soldering Temperature (Packaged)
150 mW, derated linearly to zero at Ta = +150° C
+230° C for 5 sec.
Beam Lead Pull Strength, Min
4 grams
20 | www.aeroflex.com/metelics
10
www.aeroflex.com/Metelics
Silicon Schottky P-Type Diodes: Medium Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
Packaged
VF @ 1 mA = 380 ~ 480 mV
CT
Model
g
TSS
Cp
Lp
Package
TYP
pF
MAX
pF
TYP
mV / mW
TYP
dBm
TYP
pF
TYP
nH
MSS39,045-P55
0.21
0.26
5,000
-58
0.13
0.35
P55p
MSS39,045-P86
0.23
0.23
5,000
-58
0.15
1.0
P86p
MSS39,048-P55
0.25
0.31
5,000
-58
0.13
0.35
P55p
MSS39,048-P86
0.27
0.33
5,000
-58
0.15
1.0
P86p
MSS39,144-H27
0.18
0.24
5,000
-58
0.12
0.4
H27
MSS39,144-0402
0.11
0.16
5,000
-58
0.05
0.25
0402
MSS39,144-0805-2
0.12
0.17
5,000
-58
0.06
0.4
0805-2
MSS39,146-H27
0.20
0.25
5,000
-58
0.12
0.4
H27
MSS39,146-0402
0.13
0.18
5,000
-58
0.05
0.25
0402
MSS39,146-0805-2
0.14
0.20
5,000
-58
0.06
0.4
0805-2
MSS39,148-E25
0.17
0.22
5,000
-58
0.07
0.4
E25
MSS39,148-H20
0.28
0.33
5,000
-58
0.18
0.5
H20
MSS39,148-0402
0.15
0.20
5,000
-58
0.05
0.25
0402
MSS39,148-0805-2
0.16
0.22
5,000
-58
0.06
0.4
0805-2
MSS39,152-E25
0.22
0.28
5,000
-58
0.07
0.4
E25
MSS39,152-H20
0.33
0.39
5,000
-58
0.18
0.5
H20
MSS39,152-0402
0.20
0.25
5,000
-58
0.05
0.25
0402
MSS39,152-0805-2
0.21
0.27
5,000
-58
0.06
0.4
Test Conditions
VR = 0 V
F = 1 MHz
20 | www.aeroflex.com/Metelics
0805-2
F = 10 GHz DC BIAS = 20 A
Video BW = 2 MHz RL = 100 k
www.aeroflex.com/metelics | 11
Silicon Schottky N-Type Diodes: Low Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Vf , R d and Cj matching options
• Chip, beam lead or packaged devices
• Hi-Rel screening per MIL-PRF-19500 and
MIL-PRF-38534 available
Ceramic Hermetic SMT
The Aeroflex / Metelics MSS30,000 Series of Schottky diodes are
fabricated on N-Type epitaxial substrates using proprietary processes
that yield the highest FCOs in the industry. Optimum mixer performance
is obtained with LO power of -3 dBm to +3 dBm per diode. These can also
be used in doubler, limiter, detector and sampler applications.
VF @ 1 mA = 230 ~ 350 mV, VBR @ 10 mA = 2 V min.
RD
RS
FC O
MAX
pF
MAX
TYP
TYP
GHz
CJ
Model
Configuration
TYP
pF
Chip and Beam Lead
Package
MSS30,046-C15
Single Junction
0.10
0.12
18
10
160
C15
MSS30,050-C15
Single Junction
0.15
0.18
15
6
175
C15
MSS30,142-B10B
Single Junction
0.07
0.10
22
13
175
B10B
MSS30,148-B10B
Single Junction
0.12
0.15
15
7
190
B10B
MSS30,154-B10B
Single Junction
0.22
0.25
12
3
240
B10B
MSS30,242-B20
Series Tee
0.07
0.10
22
13
175
B20
MSS30,248-B20
Series Tee
0.12
0.15
15
7
190
B20
MSS30,254-B20
Series Tee
0.22
0.25
12
3
240
B20
B21
MSS30,346-B21
Anti-Parallel Pair
0.27
0.30
16
11
55
MSS30,442-B42
Ring Quad
0.07
0.10
22
13
175
B42
MSS30,448-B42
Ring Quad
0.12
0.15
15
7
190
B42
MSS30,454-B40
Ring Quad
0.22
0.25
12
3
240
B40
MSS30,B46-B45
Bridge Quad
0.10
0.125
25
15
80
B45
MSS30,B53-B45
Bridge Quad
0.20
0.25
15
5
80
B45
MSS30,CR46-B49
Crossover Ring Quad
0.09
0.125
22
10
118
B49
MSS30,CR53-B49
Crossover Ring Quad
0.15
0.250
15
5
106
B49
MSS30,PCB46-B48
Coplanar Bridge Quad
0.08
0.12
20
7
166
B48
MSS30,PCR46-B47
Coplanar Ring Quad
0.07
0.13
22
10
152
B47
MSS30,PCR53-B47
Coplanar Ring Quad
0.15
0.25
15
5
106
B47
Test Conditions
Maximum Ratings
VR = 0 V
F = 1 MHz
Parameters
Rating
Reverse Voltage
Rated Vbr
Forward Current
50 mA
Operation Temperature
-65° C to +150° C
Storage Temperature
Soldering Temperature (Packaged)
-65° C to +150° C
150 mW per junction at Ta = 25° C,
derate linearly to zero at Ta = +150°C
+260° C for 5 sec.
Beam Lead Pull Strength
4 grams minimum
Power Dissipation
20
1
2 || www.aeroflex.com/metelics
www.aeroflex.com/Metelics
I F = 5 mA
Silicon Schottky N-Type Diodes: Low Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
VF @ 1 mA = 230 ~ 350 mV, VBR @ 10 mA = 2 V min.
CT
Model
Configuration
MAX
pF
TYP
pF
Packaged
RD
MAX
CP
TYP
pF
LP
MAX
nH
Package
MSS30,046-P55
Single Junction
0.23
0.30
18
0.13
0.35
P55
MSS30,046-P86
Single Junction
0.25
0.33
18
0.15
1.0
P86
MSS30,050-P55
Single Junction
0.28
0.35
15
0.13
0.35
P55
MSS30,050-P86
Single Junction
0.30
0.38
15
0.15
1.0
P86
MSS30,142-E25
Single Junction
0.14
0.26
22
0.07
0.4
E25
MSS30,142-H20
Single Junction
0.25
0.31
22
0.18
0.5
H20
MSS30,148-E25
Single Junction
0.21
0.31
15
0.07
0.4
E25
MSS30,148-H20
Single Junction
0.30
0.36
15
0.18
0.5
H20
MSS30,154-E25
Single Junction
0.30
0.41
12
0.07
0.4
E25
MSS30,154-H20
Single Junction
0.40
0.46
12
0.18
0.5
H20
MSS30,242-E35
Series Tee
0.15
0.21
22
0.07
0.4
E35
MSS30,242-H30
Series Tee
0.25
0.31
22
0.18
0.5
H30
MSS30,248-E35
Series Tee
0.20
0.25
15
0.07
0.4
E35
MSS30,248-H30
Series Tee
0.30
0.36
15
0.18
0.5
H30
MSS30,254-E35
Series Tee
0.30
0.35
12
0.07
0.4
E35
MSS30,254-H30
Series Tee
0.40
0.46
12
0.18
0.5
H30
MSS30,346-E25
Anti-Parallel Pair
0.35
0.40
16
0.07
0.4
E25
MSS30,346-H20
Anti-Parallel Pair
0.45
0.50
16
0.18
0.5
H20
MSS30,442-E45
Ring Quad
0.15
0.21
22
0.07
0.4
E45
H40
MSS30,442-H40
Ring Quad
0.25
0.33
22
0.18
0.5
MSS30,448-E45
Ring Quad
0.20
0.26
15
0.07
0.4
E45
MSS30,448-H40
Ring Quad
0.30
0.35
15
0.18
0.5
H40
MSS30,454-E45
Ring Quad
0.30
0.35
12
0.07
0.4
E45
MSS30,454-H40
Ring Quad
0.40
0.46
12
0.18
0.5
H40
MSS30,B46-E45
Bridge Quad
0.17
0.25
25
0.07
0.4
E45
MSS30,B46-H40
Bridge Quad
0.28
0.35
25
0.18
0.5
H40
MSS30,B53-E45
Bridge Quad
0.27
0.35
15
0.07
0.4
E45
MSS30,B53-H40
Bridge Quad
0.38
0.46
15
0.18
0.5
H40
E45
MSS30,CR46-E45
Crossover Ring Quad
0.16
0.22
22
0.07
0.4
MSS30,CR46-H40
Crossover Ring Quad
0.27
0.33
22
0.18
0.5
H40
MSS30,CR53-E45
Crossover Ring Quad
0.22
0.35
15
0.07
0.4
E45
MSS30,CR53-H40
Crossover Ring Quad
0.33
0.45
15
0.18
0.5
H40
Test Conditions
20 | www.aeroflex.com/Metelics
VR = 0 V
F = 1 MHz
I F = 5 mA
www.aeroflex.com/metelics | 13
Silicon Schottky N-Type Diodes: Medium Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Vf , R d and Cj matching options
• Chip, beam lead or packaged devices
• Hi-Rel screening per MIL-PRF-19500 and
MIL-PRF-38534 available
Ceramic Hermetic SMT
The Aeroflex / Metelics MSS40,000 Series of Schottky diodes are
fabricated on N-Type epitaxial substrates using proprietary processes
that yield the highest FCOs in the industry. Optimum mixer performance
is obtained with LO power of 0 dBm to +6 dBm per diode. These can also
be used in doubler, limiter, detector and sampler applications.
VF @ 1 mA = 350 ~ 450 mV, VBR @ 10 mA = 3 V min.
CJ
Model
Configuration
TYP
pF
MAX
pF
Chip and Beam Lead
RD
RS
FC O
MAX
TYP
TYP
GHz
Package
MSS40,045-C15
Single Junction
0.09
0.12
15
7
253
C15
MSS40,048-C15
Single Junction
0.12
0.15
15
7
190
C15
MSS40,141-B10B
Single Junction
0.06
0.10
22
10
265
B10B
MSS40,148-B10B
Single Junction
0.12
0.15
17
7
190
B10B
MSS40,155-B10B
Single Junction
0.25
0.30
13
5
127
B10B
MSS40,244-B20
Series Tee
0.08
0.12
22
19
105
B20
MSS40,248-B20
Series Tee
0.12
0.15
17
10
133
B20
MSS40,255-B20
Series Tee
0.25
0.30
15
5
127
B20
MSS40,448-B42
Ring Quad
0.12
0.15
17
7
190
B42
MSS40,455-B40
Ring Quad
0.25
0.30
17
5
127
B40
MSS40,B46-B45
Bridge Quad
0.10
0.13
25
15
106
B45
MSS40,B53-B45
Bridge Quad
0.20
0.25
15
5
160
B45
B49
MSS40,CR46-B49
Crossover Ring Quad
0.09
0.125
22
10
177
MSS40,CR53-B49
Crossover Ring Quad
0.15
0.25
15
5
212
B49
MSS40,PCR46-B47
Coplanar Ring Quad
0.07
0.13
22
10
227
B47
MSS40,PCR53-B47
Coplanar Ring Quad
0.15
0.25
15
5
212
B47
MSS40,PCB46-B48
Coplanar Bridge Quad
0.08
0.12
20
7
190
B48
Test Conditions
Maximum Ratings
VR = 0 V
F = 1 MHz
Parameters
Rating
Reverse Voltage
Rated Vbr
Forward Current
50 mA
Operation Temperature
-65° C to +150° C
Storage Temperature
Soldering Temperature (Packaged)
-65° C to +150° C
150 mW per junction at Ta = 25° C,
derate linearly to zero at Ta = +150°C
+260° C for 5 sec.
Beam Lead Pull Strength
4 grams minimum
Power Dissipation
20
1
4 || www.aeroflex.com/metelics
www.aeroflex.com/Metelics
I F = 5 mA
Silicon Schottky N-Type Diodes: Medium Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
VF @ 1 mA = 350 ~ 450 mV, VBR = @ 10 mA 3 V min.
CT
Model
Configuration
MAX
pF
TYP
pF
Packaged
Rd
CP
LP
MAX
TYP
pF
TYP
nH
Package
MSS40,045-P55
Single Junction
0.22
0.28
15
0.13
0.35
P55
MSS40,045-P86
Single Junction
0.24
0.30
15
0.15
1.0
P86
MSS40,048-P55
Single Junction
0.25
0.30
15
0.13
0.35
P55
MSS40,048-P86
Single Junction
0.27
0.33
15
0.15
1.0
P86
MSS40,141-E25
Single Junction
0.13
0.22
18
0.07
0.4
E25
MSS40,141-H20
Single Junction
0.24
0.30
18
0.18
0.5
H20
MSS40,141-0402
Single Junction
0.11
0.18
18
0.05
0.25
MSS40,148-E25
Single Junction
0.19
0.28
15
0.07
0.4
E25
0402
H20
MSS40,148-H20
Single Junction
0.30
0.36
15
0.18
0.5
MSS40,148-0402
Single Junction
017
0.24
15
0.05
0.25
MSS40,155-E25
Single Junction
0.32
0.41
14
0.07
0.4
E25
H20
MSS40,155-H20
Single Junction
0.43
0.51
14
0.18
0.5
MSS40,155-0402
Single Junction
030
0.38
14
0.05
0.25
MSS40,244-E35
Series Tee
0.15
0.24
28
0.07
0.4
0402
0402
E35
MSS40,244-0805-4
Series Tee
0.29
0.36
28
0.06
0.4
0805-4
MSS40,248-E35
Series Tee
0.19
0.28
18
0.07
0.4
E35
0805-4
MSS40,248-0805-4
Series Tee
0.18
0.25
18
0.06
0.4
MSS40,255-E35
Series Tee
0.32
0.41
14
0.07
0.4
E35
MSS40,255-0805-4
Series Tee
0.17
0.40
14
0.06
0.4
0805-4
E45
MSS40,448-E45
Ring Quad
0.19
0.25
15
0.07
0.4
MSS40,448-H40
Ring Quad
0.30
0.36
15
0.18
0.5
H40
MSS40,455-E45
Ring Quad
0.32
0.40
14
0.07
0.4
E45
MSS40,455-H40
Ring Quad
0.42
0.52
14
0.18
0.5
H40
MSS40,B46-E45
Bridge Quad
0.17
0.24
25
0.07
0.4
E45
MSS40,B53-E45
Bridge Quad
0.27
0.36
15
0.07
0.4
E45
MSS40,CR46-E45
Crossover Ring Quad
0.16
0.23
15
0.07
0.4
E45
MSS40,CR46-H40
Crossover Ring Quad
0.27
0.35
15
0.18
0.5
H40
MSS40,CR53-E45
Crossover Ring Quad
0.22
0.35
15
0.07
0.4
E45
MSS40,CR53-H40
Crossover Ring Quad
0.33
0.46
15
0.18
0.5
H40
Test Conditions
20 | www.aeroflex.com/Metelics
VR = 0 V
F = 1 MHz
I F = 5 mA
www.aeroflex.com/metelics | 15
Silicon Schottky N-Type Diodes: High Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Vf , R d and Cj matching options
• Chip, beam lead or packaged devices
• Hi-Rel screening per MIL-PRF-19500 and
MIL-PRF-38534 available
Ceramic Hermetic SMT
The Aeroflex / Metelics MSS50,000 Series of Schottky diodes
are fabricated on N-Type epitaxial substrates using proprietary
processes that yield the highest FCOs in the industry. Optimum
mixer and detector performance is obtained with LO power of
+2 dBm to +8 dBm per diode. These can also be used in doubler,
limiter, detector and sampler applications.
VF @ 1 mA = 450 ~ 550 mV, VBR @ 10 mA = 4 V min.
RD
RS
FC O
MAX
pF
MAX
TYP
TYP
GHz
CJ
Model
Configuration
TYP
pF
Chip and Beam Lead
Package
MSS50,046-C26
Single Junction
0.10
0.12
20
10
190
C26
MSS50,048-C15
Single Junction
0.12
0.15
15
7
190
C15
C16
MSS50,062-C16
Single Junction
0.50
0.55
12
2
160
MSS50,146-B10B
Single Junction
0.07
0.12
18
9
253
B10B
MSS50,155-B10B
Single Junction
0.25
0.30
15
7
90
B10B
MSS50,244-B20
Series Tee
0.15
0.20
16
7
183
B20
MSS50,341-B21
Anti-Parallel Pair
0.20
0.26
16
7
114
B21
MSS50,448-B43
Ring Quad
0.20
0.25
14
6
133
B40
MSS50,B46-B45
Bridge Quad
0.10
0.13
20
10
159
B45
MSS50,B53-B45
Bridge Quad
0.20
0.25
15
5
159
B45
MSS50,CR46-B49
Crossover Ring Quad
0.09
0.125
22
10
177
B49
MSS50,CR53-B49
Crossover Ring Quad
0.15
0.25
15
5
212
B49
MSS50,PCB46-B48
Coplanar Bridge Quad
0.08
0.12
20
7
284
B48
MSS50,PCR46-B47
Coplanar Ring Quad
0.07
0.13
22
10
227
B47
MSS50,PCR53-B48
Coplanar Ring Quad
0.15
0.25
15
5
212
B47
Test Conditions
Maximum Ratings
20 | www.aeroflex.com/metelics
16
www.aeroflex.com/Metelics
VR = 0 V
F = 1 MHz
I F = 5 mA
Parameters
Rating
Reverse Voltage
Rated Vbr
Forward Current
50 mA
Operation Temperature
-65° C to +150° C
Storage Temperature
-65° C to +150° C
Power Dissipation
150 mW per junction at Ta = 25° C,
derate linearly to zero at Ta = +150°C
Soldering Temperature (Packaged)
+260° C for 5 sec.
Beam Lead Pull Strength
4 grams minimum
Silicon Schottky N-Type Diodes: High Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
VF @ 1 mA = 450 ~ 550 mV, VBR @ 10 mA = 4 V min.
CT
Model
Configuration
MAX
pF
TYP
pF
Packaged
RD
CP
LP
MAX
TYP
pF
MAX
nH
Package
MSS50,046-P55
Single Junction
0.23
0.28
20
0.13
0.35
P55
MSS50,046-P86
Single Junction
.025
0.30
20
0.15
1.0
P86
MSS50,048-P55
Single Junction
0.25
0.31
15
0.13
0.35
P55
MSS50,048-P86
Single Junction
0.27
0.33
15
0.15
1.0
P86
MSS50,062-P55
Single Junction
0.63
0.75
12
0.13
0.35
P55
MSS50,062-P86
Single Junction
0.65
0.78
12
0.15
1.0
P86
MSS50,146-E25
Single Junction
0.14
0.24
18
0.07
0.4
E25
MSS50,146-H20
Single Junction
0.25
0.34
18
0.18
0.5
H20
MSS50,146-0402
Single Junction
0.11
0.20
18
0.05
0.25
MSS50,146-0805-2
Single Junction
0.12
0.22
18
0.06
0.4
0805-2
0402
MSS50,155-E25
Single Junction
0.32
0.41
15
0.07
0.4
E25
MSS50,155-H20
Single Junction
0.43
0.51
15
0.18
0.5
H20
MSS50,155-0402
Single Junction
0.30
0.38
15
0.05
0.25
MSS50,155-0805-2
Single Junction
0.31
0.40
15
0.06
0.4
0402
0805-2
MSS50,244-E35
Series Tee
0.22
0.31
16
0.07
0.4
E35
MSS50,244-H30
Series Tee
0.33
0.42
16
0.18
0.5
H30
MSS50,244-0805-4
Series Tee
0.34
0.44
16
0.06
0.4
0805-4
MSS50,341-E25
Anti-Parallel Pair
0.27
0.36
16
0.07
0.4
E25
H20
MSS50,341-H20
Anti-Parallel Pair
0.38
0.48
16
0.18
0.5
MSS50,448-E45
Ring Quad
0.27
0.36
10
0.07
0.4
E45
MSS50,448-H40
Ring Quad
0.38
0.48
10
0.18
0.5
H40
0805-4
MSS50,448-0805-4
Ring Quad
0.26
0.35
10
0.06
0.4
MSS50,B46-E45
Bridge Quad
0.17
0.25
20
0.07
0.4
E45
MSS50,B46-H40
Bridge Quad
0.28
0.35
20
0.18
0.5
H40
MSS50,B53-E45
Bridge Quad
0.27
0.36
15
0.07
0.4
E45
MSS50,B53-H40
Bridge Quad
0.38
0.48
15
0.18
0.5
H40
E45
MSS50,CR46-E45
Crossover Ring Quad
0.16
0.25
22
0.07
0.4
MSS50,CR46-H40
Crossover Ring Quad
0.27
0.36
22
0.18
0.5
H40
MSS50,CR53-E45
Crossover Ring Quad
0.22
0.36
15
0.07
0.4
E45
MSS50,CR53-H40
Crossover Ring Quad
0.33
0.46
15
0.18
0.5
H40
Test Conditions
20 | www.aeroflex.com/Metelics
VR = 0 V
F = 1 MHz
I F = 5 mA
www.aeroflex.com/metelics | 17
Silicon Schottky N-Type Diodes: Extra High Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Vf , R d and Cj matching options
• Chip, beam lead or packaged devices
• Hi-Rel screening per MIL-PRF-19500 and
MIL-PRF-38534 available
Ceramic Hermetic SMT
The Aeroflex / Metelics MSS60,000 Series of Schottky diodes
are fabricated on N-Type epitaxial substrates using proprietary
processes that yield the highest FCOs in the industry. Optimum
mixer and detector performance is obtained with LO power of
+6 dBm to +12 dBm per diode. These can also be used in doubler,
limiter, detector and sampler applications.
VF @ 1 mA = 550 ~ 700 mV, VBR @ 10 mA = 3.5 V min.
CJ
Model
Configuration
MAX
pF
TYP
pF
Chip and Beam Lead
RD
RS
FCO
MAX
TYP
TYP
GHz
Package
MSS60,046-C26
Single Junction
0.10
0.12
18
10
190
C26
MSS60,048-C26
Single Junction
0.12
0.15
16
8
190
C26
MSS60,144-B10B
Single Junction
0.08
0.10
25
15
153
B10B
MSS60,148-B10B
Single Junction
0.12
0.15
18
10
133
B10B
MSS60,153-B10B
Single Junction
0.20
0.25
12
5
159
B10B
MSS60,244-B20
Series Tee
0.08
0.10
25
15
133
B20
MSS60,248-B20
Series Tee
0.12
0.15
18
7
133
B20
MSS60,253-B20
Series Tee
0.20
0.25
12
5
159
B20
MSS60,444-B42
Ring Quad
0.08
0.10
25
15
133
B42
MSS60,448-B42
Ring Quad
0.12
0.15
18
7
133
B42
MSS60,453-B41
Ring Quad
0.25
0.30
12
5
159
B41
MSS60,841-B80
8 Junction Ring Quad
0.06
0.08
28
18
133
B80
MSS60,846-B80
8 Junction Ring Quad
0.10
0.12
23
12
106
B80
MSS60,848-B80
8 Junction Ring Quad
0.12
0.15
18
7
133
B80
MSS60,B46-B45
Bridge Quad
0.10
0.13
25
15
106
B45
MSS60,B53-B45
Bridge Quad
0.20
0.25
18
7
114
B45
MSS60,CR46-B49
Crossover Ring Quad
0.09
0.125
22
10
177
B49
MSS60,CR53-B49
Crossover Ring Quad
0.15
0.25
15
7
152
B49
MSS60,PCB46-B48
Coplanar Bridge Quad
0.08
0.12
20
7
284
B48
MSS60,PCR46-B47
Coplanar Ring Quad
0.07
0.13
22
10
227
B47
MSS60,PCR53-B47
Coplanar Ring Quad
0.15
0.25
15
7
152
B47
Test Conditions
Maximum Ratings
VR = 0 V
F = 1 MHz
Parameters
Rating
Reverse Voltage
Rated Vbr
Forward Current
50 mA
Operation Temperature
-65° C to +150° C
Storage Temperature
Soldering Temperature (Packaged)
-65° C to +150° C
150 mW per junction at Ta = 25° C, derate linearly to
zero at Ta = +150°C
+260° C for 5 sec.
Beam Lead Pull Strength
4 grams minimum
Power Dissipation
20 | www.aeroflex.com/metelics
18
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I F = 5 mA
Silicon Schottky N-Type Diodes: Extra High Barrier
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
VF @ 1 mA = 550 ~ 700 mV, VBR @ 10 mA = 3.5 V min.
CT
Model
Configuration
MAX
pF
TYP
pF
Packaged
RD
CP
LP
MAX
TYP
pF
TYP
nH
Package
MSS60,046-P55
Single Junction
0.23
0.28
18
0.13
0.35
P55
MSS60,046-P86
Single Junction
0.25
0.30
18
0.15
1.0
P86
MSS60,048-P55
Single Junction
0.25
0.31
16
0.13
0.35
P55
MSS60,048-P86
Single Junction
0.27
0.33
16
0.15
1.0
P86
MSS60,144-E25
Single Junction
0.15
0.22
25
0.07
0.4
E25
MSS60,144-H20
Single Junction
0.26
0.31
25
0.18
0.5
H20
MSS60,148-E25
Single Junction
0.19
0.28
18
0.07
0.4
E25
MSS60,148-H20
Single Junction
0.30
0.38
18
0.18
0.5
H20
MSS60,153-E25
Single Junction
0.27
0.36
12
0.07
0.4
E25
MSS60,153-H20
Single Junction
0.38
0.48
12
0.18
0.5
H20
MSS60,244-E35
Series Tee
0.15
0.22
25
0.07
0.4
E35
MSS60,244-H30
Series Tee
0.26
0.36
25
0.18
0.5
H30
MSS60,248-E35
Series Tee
0.19
0.28
18
0.07
0.4
E35
MSS60,248-H30
Series Tee
0.30
0.40
18
0.18
0.5
H30
MSS60,253-E35
Series Tee
0.27
0.37
12
0.07
0.4
E35
MSS60,253-H30
Series Tee
0.38
0.48
12
0.18
0.5
H30
MSS60,444-E45
Ring Quad
0.15
0.22
25
0.07
0.4
E45
H40
MSS60,444-H40
Ring Quad
0.26
0.33
25
0.18
0.5
MSS60,448-E45
Ring Quad
0.19
0.27
18
0.07
0.4
E45
MSS60,448-H40
Ring Quad
0.30
0.38
18
0.18
0.5
H40
MSS60,453-E45
Ring Quad
0.32
0.42
12
0.07
0.4
E45
MSS60,453-H40
Ring Quad
0.43
0.53
12
0.18
0.5
H40
E45
MSS60,841-E45
8 Junction Ring Quad
0.13
0.20
28
0.07
0.4
MSS60,841-H40
8 Junction Ring Quad
0.24
0.31
28
0.18
0.5
H40
MSS60,846-E45
8 Junction Ring Quad
0.17
0.24
23
0.07
0.4
E45
H40
MSS60,846-H40
8 Junction Ring Quad
0.28
0.35
23
0.18
0.5
MSS60,848-E45
8 Junction Ring Quad
0.19
0.27
18
0.07
0.4
E45
MSS60,848-H40
8 Junction Ring Quad
0.30
0.38
18
0.18
0.5
H40
MSS60,B46-E45
Bridge Quad
0.17
0.25
25
0.07
0.4
E45
MSS60,B46-H40
Bridge Quad
0.28
0.36
25
0.18
0.5
H40
MSS60,B53-E45
Bridge Quad
0.27
0.37
18
0.07
0.4
E45
MSS60,B53-H40
Bridge Quad
0.38
0.48
18
0.18
0.5
H40
MSS60,CR46-E45
Crossover Ring Quad
0.16
0.25
22
0.07
0.4
E45
MSS60,CR53-E45
Crossover Ring Quad
0.22
0.37
15
0.07
0.4
E45
Test Conditions
20 | www.aeroflex.com/Metelics
VR = 0 V
F = 1 MHz
I F = 5 mA
www.aeroflex.com/metelics | 19
Silicon Schottky Diodes: General Purpose
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Fast switching
Ceramic Hermetic SMT
The Aeroflex / Metelics MGR-700 Series are general purpose Schottky
Barrier diodes specially designed to achieve a high voltage breakdown.
This series of diodes can be used in the UHF and VHF frequency bands
for pulse shaping, sampling and as fast logic gates.
• High breakdown voltage
• Low cost
Chip
Model
Breakdown Voltage
I r10 mA
Forward Voltage
1mA
Junction Capacitance
@0 Vdc 1 MHz
Leakage Current
80% Vb
MIN
V
TYP
V
MAX
pF
MAX
nA
MGR700
8.0
0.34
1.2
100.0
MGR701
8.0
0.34
1.0
100.0
MGR702
20.0
0.55
1.2
100.0
MGR703
20.0
0.41
1.0
100.0
MGR704
70.0
0.41
2.0
200.0
MGR705
70.0
0.41
1.2
200.0
1N5711
70.0
0.41
1.2
200.0
1N5712
20.0
0.41
1.0
100.0
Maximum Ratings
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Reverse Voltage
See Voltage Ratings
20 | www.aeroflex.com/metelics
www.aeroflex.com/Metelics
Silicon Schottky Diodes: General Purpose
Plastic SMT
SOT23 & SOD323
Model
Configuration
VBR
VF
CT
MIN
V
TYP
mV
MAX
pF
RD
MAX
Package
SMST3012-SOT23
-0S, 1S, 2ST, 3CA, 4CC
2.0
270
0.25
15
SOT23
SMST4012-SOT23
-0S, 1S, 2ST, 3CA, 4CC
2.0
350
0.25
15
SOT23
SMST6012-SOT23
-0S, 1S, 2ST, 3CA, 4CC
2.0
630
0.25
15
SOT23
SMST3004-SOT23
-0S, 1S, 2ST, 3CA, 4CC
2.0
270
0.60
10
SOT23
SMST4004-SOT23
-0S, 1S, 2ST, 3CA, 4CC
2.0
350
0.60
10
SOT23
SMST6004-SOT23
-0S, 1S, 2ST, 3CA, 4CC
2.0
600
0.60
10
SOT23
SMSD3012-SOD323
–
2.0
270
0.25
15
SOD323
SMSD4012-SOD323
–
2.0
350
0.25
15
SOD323
SMSD6012-SOD323
–
2.0
630
0.25
15
SOD323
SMSD3004-SOD323
–
2.0
270
0.60
10
SOD323
SMSD4004-SOD323
–
2.0
350
0.60
10
SOD323
SMSD6004-SOD323
–
2.0
600
0.60
10
SOD323
I F = 1 mA
VR = 0 V
F = 1 MHz
I F = 10 mA
Test Conditions
I R = 10 A
SOT143
Model
Configuration
VBR
VF
CT
MIN
V
TYP
mV
MAX
pF
RD
MAX
Package
SMSP3012-SOT143
Split Pair
2
270
0.40
15.0
SOT143
SMSP3004-SOT143
Split Pair
2
270
0.65
10.0
SOT143
SMSRQ1200-SOT143
Ring Quad
2
270
0.40
15.0
SOT143
SMSCQ1200-SOT143
Crossover Quad
2
270
0.40
15.0
SOT143
SMSRQ1500-SOT143
Ring Quad
2
270
0.65
8.0
SOT143
SMSCQ1500-SOT143
Crossover Quad
2
270
0.65
8.0
SOT143
SMSRQ2500-SOT143
Ring Quad
2
400
0.65
10.0
SOT143
SMSCQ2500-SOT143
Crossover Quad
2
400
0.65
10.0
SOT143
SMSRQ4500-SOT143
Ring Quad
3
600
0.65
8.0
SOT143
SMSCQ4500-SOT143
Crossover Quad
3
600
0.65
8.0
SOT143
SMSRQ5500-SOT143
Ring Quad
3
1,100
0.55
16.0
SOT143
SMSCQ5500-SOT143
Crossover Quad
3
1,100
0.55
16.0
SOT143
I F = 1 mA
VR = 0 V
F = 1 MHz
I F = 10 mA
Test Conditions
20 | www.aeroflex.com/Metelics
I R = 10 A
www.aeroflex.com/metelics | 21
Tunnel Diodes: MBD Series
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Rugged Germanium
Planar Construction
• Excellent temperature stability
• No DC Bias Required
• Wide Video Bandwidth
• MIL-STD-19500 & 883 Capability
Ceramic Hermetic SMT
The Aeroflex / Metelics MBD series of Planar Back (Tunnel) Diodes are fabricated
on germanium substrates with passivated, planar construction and all gold
metallization for reliable operation up to +110 ºC. Unlike the standard tunnel
diode I P is minimized for detector operation and binned in five values offering
varying degrees of sensitivity and video impedance. The back detector is
generally operated with zero bias and is known for its excellent temperature
stability and fast video rise times.
Chips
IP
Model
CJ
RV
I P / IV
VR
VF
MIN
MIN
mV
MAX
mV
Package
180
2.5
420
135
C18
130
2.5
410
130
C18
80
2.5
400
125
C18
MIN
A
MAX
pF
MAX
pF
TYP
mV / mW
TYP
MBD1057-C18
100
200
0.30
1,000
MBD2057-C18
200
300
0.30
750
MBD3057-C18
300
400
0.30
500
MBD4057-C18
400
500
0.30
275
65
2.5
400
120
C18
MBD5057-C18
500
600
0.30
250
60
2.5
400
110
C18
IR =
500 A
I F = 3 mA
VR = V V
F =100 MHz
Test Conditions
PIN = -20 dBm
R L = 10 K F = 10 GHz
Packaged
CT
I P / IV
VR
VF
MIN
MIN
mV
MAX
mV
Package
180
2.5
420
135
E28 / 28X
180
2.5
420
135
H20
1,000
180
2.5
420
135
T54p
0.65
1,000
180
2.5
420
135
T80p
200
0.40
1,000
180
2.5
420
135
0805-2
200
300
0.40
750
130
2.5
410
130
E28 / 28X
MBD2057-H20
200
300
0.50
750
130
2.5
410
130
H20
MBD2057-T54
200
300
0.55
750
130
2.5
410
130
T54p
MBD2057-T80
200
300
0.65
750
130
2.5
410
130
T80p
MBD2057-0805-2
200
300
0.40
750
130
2.5
410
130
0805-2
MBD3057-E28 / 28X
300
400
0.45
500
80
2.5
400
125
E28 / 28X
MBD3057-H20
300
400
0.55
500
80
2.5
400
125
H20
MBD3057-T54
MBD3057-T80
MBD3057-0805-2
300
300
300
400
400
400
0.60
0.70
0.45
500
500
500
80
80
80
2.5
2.5
2.5
400
400
400
125
125
125
T54p
T80p
0805.2
MBD4057-E28 / 28X
400
500
0.50
275
65
2.5
400
120
E28 / 28X
MBD4057-H20
400
500
0.60
275
65
2.5
400
120
H20
MBD4057-T54
400
500
0.65
275
65
2.5
400
120
T54p
MBD4057-T80
400
500
0.75
275
65
2.5
400
120
T80p
MBD4057-0805-2
400
500
0.5
275
65
2.5
400
120
0805-2
MBD5057-E28 / 28X
500
600
0.55
250
60
2.5
400
110
E28 / 28X
MBD5057-H20
500
600
0.65
250
60
2.5
400
110
H20
IP
Model
RV
MIN
A
MAX
pF
MAX
pF
TYP
mV / mW
TYP
MBD1057-E28 / 28X
100
200
0.40
1,000
MBD1057-H20
100
200
0.50
1,000
MBD1057-T54
100
200
0.55
MBD1057-T80
100
200
MBD1057-0805-2
100
MBD2057-E28 / 28X
MBD5057-T54
500
600
0.70
250
60
2.5
400
110
T54p
MBD5057-T80
500
600
0.80
250
60
2.5
400
110
T80p
MBD5057-0805-2
500
600
0.55
250
60
2.5
400
110
0805-2
IR =
500 A
I F = 3 mA
Test Conditions
20 | www.aeroflex.com/metelics
22
www.aeroflex.com/Metelics
VR = V V
F = 30 MHz
PIN = -20 dBm
R L = 10 K F = 10 GHz
Tunnel Diode Detectors: MTD Series
Ceramic Epoxy SMT
Specialty Packages
• Low temperature drift
The Aeroflex / Metelics MTD series of Planar Back (Tunnel) Diode Detectors include
a variety of options for your commercial and broadband applications. Commercial
products operate between 0.5 to 14.5 GHz and offer low temperature drift, high
sensitivity, low VSWR, and excellent flatness. Both positive and negative output
polarities are available. Broadband products offer high sensitivity and low VSWR.
• Excellent flatness
• High sensitivity
• Low VSWR
Commercial
Frequency Range
Sensitivity
GHz
MIN
mV / mW
MTDL-8015P
0.8 – 14.5
600
MTDL-8015N
0.8 – 14.5
600
MTDH-8015P
0.8 – 14.5
MTDH-8015N
MAX
VSWR
Flatness
Output Capacitance
dB
TYP
RV
3.50:1
± 1.0
250
50
3.50:1
± 1.0
250
50
700
2.75:1
± 0.75
250
50
0.8 – 14.5
700
2.75:1
± 0.75
250
50
MTDL-8007P
0.8 – 7.0
600
1.75:1
± 0.5
250
50
MTDL-8007N
0.8 – 7.0
600
1.75:1
± 0.5
250
50
MTDH-8007P
0.8 – 7.0
700
1.50:1
± 0.3
250
50
MTDH-8007N
0.8 – 7.0
700
1.50:1
± 0.3
250
50
MTDL-0611P
6.0 – 11.0
700
2.50:1
± 0.5
250
50
MTDL-0611N
6.0 – 11.0
700
2.50:1
± 0.5
250
50
MTDH-0611P
6.0 – 11.0
800
2.25:1
± 0.3
250
50
MTDH-0611N
6.0 – 11.0
800
2.25:1
± 0.3
250
50
MTDL-1015P
10.0 – 14.5
700
3.50:1
± 0.5
250
50
MTDL-1015N
10.0 – 14.5
700
3.50:1
± 0.5
250
50
MTDH-1015P
10.0 – 14.5
700
2.75:1
± 0.35
250
50
MTDH-1015N
10.0 – 14.5
700
2.75:1
± 0.35
250
50
Frequency Range
Sensitivity
GHz
MIN
mV / mW
MTD-1002N
0.1 – 2.0
700
MTD-0208N
2.0 – 8.0
700
MTD-0818N
8.0 – 18.0
MTD-0218N
2.0 – 18.0
Model
TYP
Pf
Package
(contact factory)
2514T / 2540T
Broadband
Model
20 | www.aeroflex.com/Metelics
MAX
VSWR
Flatness
Output Capacitance
dB
TYP
RV
2.0:1
± 0.5
200
100
2.0:1
± 0.8
130
20
400
2.3:1
± 1.2
100
10
400
2.5:1
± 1.5
100
10
TYP
Pf
www.aeroflex.com/metelics | 23
Ka Band Point Contact Mixer Diodes
Specialty Packages
•Mechanical Reliability
The Aeroflex / Metelics 1N series of Point Contact Mixer Diodes are designed for applications through Ka-Band. Each device in this series is in a coaxial package specially
designed for low noise figure performance. These diodes employ epitaxial silicon
optimized for low noise figure and uniformity. These devices are suitable for use in
waveguide, coaxial and stripline applications
•Low Noise Figure
Electrical Characteristics
Part Number
Noise Figure
VSWR
IF Impedance
Conversion Loss
34.860 GHz
L0=1.0 mW
RI=100 Ohms
MAX
(db)
34.860 GHz
L0=1.0 mW
RI=100 Ohms
MAX
(Ratio)
34.860 GHz
L0=1.0 mW
RI=100 Ohms
MIN/MAX
(Ohms )
34.860 GHz
L0=1.0 mW
RI=100 Ohms
MAX
(db)
11.0
10.0
9.5
8.5
1.6
1.6
1.6
350 - 800
350 - 800
350 - 800
350 - 800
350 - 800
9.0
8.5
7.5
Noise Figure
VSWR
IF Impedance
Conversion Loss
16.0 GHz
L0=1.0 mW
RI=100 Ohms
MAX
(db)
16.0 GHz
L0=1.0 mW
RI=100 Ohms
MAX
(Ratio)
16.0 GHz
L0=1.0 mW
RI=100 Ohms
Min/MAX
(Ohms )
16.0 GHz
L0=1.0 mW
RI=100 Ohms
MAX
(db)
12.0
12.0
10.0
9.5
8.5
8.0
7.5
7.0
1.6
1.6
1.6
1.5
1.5
1.5
325 - 650
325 - 650
325 - 650
325 - 650
325 - 650
325 - 650
325 - 650
325 - 650
9.0
8.5
7.5
7.0
6.5
6.0
1N53
1N53A
1N53B
1N53C
1N53D
Part Number
1N78
1N78A
1N78B
1N78C
1N78D
1N78E
1N78F
1N78G
Maximum Ratings
20 | www.aeroflex.com/metelics
24
www.aeroflex.com/Metelics
Parameters
Rating
Operating Temperature
-55°C to +150°C
Storage Temperature
-65°C to +200°C
Case Style
CS103
CS103
CS103
CS103
CS103
Case Style
CS102
CS102
CS102
CS102
CS102
CS102
CS102
CS102
X Band Point Contact Mixer Diodes
Glass Axial Leaded
•Mechanical Reliability
The Aeroflex / Metelics 1N series of Point Contact Mixer Diodes are designed for
applications through X-Band. These diodes employ epitaxial silicon optimized for
low noise figure, wide bandwidth and are specifically designed for use in stripline,
microstrip and coaxial environments. Each device in this series is in an axial lead glass
package.
•Low Noise Figure
•Wide Bandwidth
Applications
This 1N Series of Point Contact Mixers are suitable for use in waveguide, coaxial and
stripline applications.
Electrical Characteristics
Part Number
Noise Figure
VSWR
IF Impedance
Conversion Loss
3.060 GHz
L0 =1.0 mW
RI =100 Ohms
MAX
(db)
3.060 GHz
L0 =1.0 mW
RI =100 Ohms
MAX
(Ratio)
3.060 GHz
L0 =1.0 mW
MIN/MAX
(Ohms)
3.060 GHz
L0 =1.0 mW
RI =100 Ohms
MAX
(db)
8.5
7.0
6.5
6.0
-
300 - 500
300 - 500
300 - 500
300 - 500
-
Noise Figure
VSWR
IF Impedance
Conversion Loss
9.375 GHz
L0 =1.0m W
RI =100 Ohms
MAX
(db)
9.375 GHz
L0 =1.0 mW
RI =100 Ohms
MAX
(Ratio)
9.375 GHz
L0 =1.0 mW
MIN/MAX
(Ohms)
9.375 GHz
L0 =1.0 mW
RI =100 Ohms
MAX
(db)
9.5
7.5
7.0
6.5
-
250 - 550
250 - 550
250 - 550
250 - 550
-
1N831
1N831A
1N831B
1N831C
Part Number
1N832
1N832A
1N832B
1N832C
Maximum Ratings
20 | www.aeroflex.com/Metelics
Parameters
Rating
Operating Temperature
-55°C to +150°C
Storage Temperature
-65°C to +200°C
Case Style
CS85
CS85
CS85
CS85
Case Style
CS85
CS85
CS85
CS85
www.aeroflex.com/metelics | 25
S-X Band Point Contact Mixer Diodes
Specialty Packages
•Mechanical Reliability
The Aeroflex / Metelics 1N series of Point Contact Mixer Diodes are designed for
applications S-Band through X-Band. Each device in this series is in a cartridge
package specially designed for low noise figure performance.These diodes employ
epitaxial silicon optimized for low noise figure, wide bandwidth and are used in single
or multiple device mixer applications.
•Low Noise Figure
•Wide Bandwidth
Electrical Characteristics
Part Number
Noise Figure
VSWR
IF Impedance
Conversion Loss
3.060 GHz
L0 = 1.0 mW
Rl = 100 Ohms
Max
(db)
3.060 GHz
L0 = 1.0mW
RI = 100 Ohms
Max
(Ratio)
3.060 GHz
L0 = 1.0 mW
Min/Max
(Ohms )
3,060 GHz
L0 = 1.0 mW
RI = 100 Ohms
Max
(db)
8.5
7.5
7.0
7.0
6.0
5.5
5.5
8.5
7.5
7.0
6.5
6.0
1.5
1.5
1.3
1.3
1.3
1.5
1.3
1.3
1.3
1.3
325 - 465
325 - 465
350 - 450
350 - 450
350 - 450
350 - 450
350 - 450
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
5.0
5.0
-7.0
6.5
6.0
Noise Figure
VSWR
IF Impedance
Conversion Loss
9.375 Ghz
L0 = 1.0 mW
RI = 100 Ohms
Max
(db)
9.375 GHz
L0 = 1.0 mW
RI = 100 Ohms
Max
(Ratio)
9.375 GHz
L0 = 1.0 mW
RI = 100 Ohms
Min/Max
(Ohms )
9.375 GHz
L0 = 1.0 mW
RI = 100 Ohms
Max
(db)
12.0
11.0
10.0
9.0
8.5
7.5
7.5
7.0
6.5
6.5
6.0
9.0
8.5
7.5
7.0
6.5
6.0
1.5
1.5
1.3
1.3
1.3
1.3
1.3
1.3
1.3
1.5
1.3
1.3
1.3
1.3
1.3
200 - 600
200 - 600
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
335 - 465
7.0
7.0
6.5
6.0
6.0
5.5
7.0
6.5
6.0
5.5
1N21C
1N21D
1N21E
1N21WE
1N21F
1N21G
1N21WG
1N416C
1N416D
1N416E
1N416F
1N416G
Part Number
1N23
1N23A
1N23B
1N23C
1N23D
1N23E
1N23WE
1N23F
1N23G
1N23WG
1N23H
1N415C
1N415D
1N415E
1N415F
1N415G
1N415H
Maximum Ratings
Notes:
For matched Fwd pair use suffix M after P/N.
For reverse device use suffix R
For matched Fwd. and Rev. use suffix MR.
20 | www.aeroflex.com/metelics
26
www.aeroflex.com/Metelics
Parameters
Rating
Operating Temperature
-55°C to +150°C
Storage Temperature
-65°C to +200°C
Case Style
CS100
CS100
CS100
CS101
CS100
CS100
CS101
CS101
CS101
CS101
CS101
CS101
Case Style
CS100
CS100
CS100
CS100
CS100
CS100
CS101
CS100
CS100
CS101
CS100
CS101
CS101
CS101
CS101
CS101
CS101
Ka Band Point Contact Detector Diodes
Glass Axial Leaded
Specialty Packages
•Broadband Operations
The Aeroflex / Metelics 1N series of Point Contact Detector Diodes are designed
for applications through Ka-band. These diodes employ epitaxial silicon optimized
for high tangential signal sensitivity (TSS), and are suitable for use in waveguide,
coaxial and stripline, applications. Being point contact diodes, they are efficient
detectors not requiring the use of bias. Devices in this series are available in glass
or cartridge packaging.
•Bias Not Required
Applications
This 1N series of Point Contact Detectors are suitable for use in waveguide, coaxial
and stripline applications.
Electrical Characteristics
Part Number
Rectification Efficiency
MIN
1N830
Tangential Signal
Sensitivity
(-dbm)
Video Resistance
MAX
(K Ohms)
Operating
Frequency
(MHz)
Case Style
65%
-
-
100
CS85
65% @ 5Vdc
-
-
100
CS85
1N32
-
49
22
3000
CS100
1N32A
-
47
17
3000
CS100
1N833
-
40
18
9375
CS85
1N833A
-
45
18
9375
CS85
1N1611
-
51
3.1
9000
CS100
1N1611A
-
53
3.1
9000
CS100
1N1611B
-
53
3.1
9000
CS100
1N3778
-
50
10
9375
CS101
1N830A
Maximum Ratings
20 | www.aeroflex.com/Metelics
Parameters
Rating
Operating Temperature
-55°C to +150°C
Storage Temperature
-65°C to +200°C
www.aeroflex.com/metelics | 27
GaAs Schottky Diodes
Beam Lead Chips
Ceramic Epoxy SMT
• Passivated mesa construction
• Tri-metallization
• Supports limiter, mixer, multiplier and
sampler designs
• Operating to 60+ GHz
Millimeter wave performance in twelve configurations featuring passivated
mesa construction and Aeroflex / Metelics’ tri-metallization for ultra-reliable
operation in the most demanding environments. Topologies supporting
limiter, mixer, multiplier and sampler designs operating to 60+ GHz
are available in flip chip, beam lead and packaged form. Screening per
MIL-PRF-19500 and MIL-PRF-38534 is available.
Flip Chip
VF
Model
Configuration
VF
VB R
CJ
MIN
mV
MAX
mV
MAX
mV
MIN
V
MAX
pF
MAX
pF
CJ
MAX
RS
Package
GC110
MGS801
Single Junction
650
750
N/A
5
0.06
N/A
7
MGS801A
Single Junction
650
750
N/A
5
0.075
N/A
5
GC110
MGS802
Anti-parallel Pair
650
750
20
–
0.10
N/A
7
GC210
MGS802A
Anti-Parallel Pair
650
750
20
–
0.15
N/A
5
GC210
MGS803
Series Tee
650
750
20
5
0.06
0.02
7
GC310
Test Conditions
I F = 1 mA
IR = 10 A
VR = 0 V
F = 1 MHz
I F = 5 mA
Beam Lead
VF
Model
Configuration
VF
VB R
CJ
MIN
mV
MAX
mV
MAX
mV
MIN
V
MAX
pF
MAX
pF
CJ
MAX
RS
Package
MGS901
Single Junction
650
750
N/A
5
0.06
N/A
7
GB110
MGS902
Anti Parallel Pair
650
750
20
–
0.10
N/A
7
GB210
MGS903
Series Tee
650
750
20
5
0.06
0.02
7
GB310
MGS904
4 Junction Ring Quad
650
750
20
–
0.06
0.02
7
B85
MGS904A
4 Junction Ring Quad
650
750
20
–
0.08
0.02
5
B85
MGS905
4 Junction Bridge Quad
650
750
20
5
0.06
0.02
7
B86
MGS906
4 Junction Series Tee
1300
1500
40
10
0.04
0.02
14
B90
MGS907
8 Junction Ring Quad
1300
1500
40
–
0.04
0.02
14
B85
MGS907A
8 Junction Ring Quad
1300
1500
40
–
0.06
0.02
12
B85
MGS907B
8 Junction Ring Quad
1300
1500
40
–
0.08
0.02
10
B85
MGS908
8 Junction Bridge Quad
1300
1500
40
10
0.04
0.02
14
B86
MGS909
6 Junction Series Tee
1800
2100
60
15
0.10
0.03
21
B90
MGS910
12 Junction Ring Quad
1800
2100
60
–
0.10
0.03
21
B87
MGS911
12 Junction Bridge Quad
1800
2100
60
15
0.10
0.03
21
B88
MGS912
Four Junction
2500
2900
N/A
20
0.03
N/A
28
B89
Test Conditions
20 | www.aeroflex.com/metelics
28
www.aeroflex.com/Metelics
I F = 1 mA
IR = 10 A
VR = 0 V
F = 1 MHz
I F = 5 mA
www.aeroflex.com/metelics | 28
GaAs Abrupt Varactor Diodes
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Passivated mesa construction
Ceramic Hermetic SMT
Glass Axial Leaded
The Aeroflex / Metelics MGV series of abrupt varactor diodes feature
passivated mesa construction for low leakage and excellent post tuning
drift. These diodes will find application in tunable filters and oscillators up
to 40 GHz. Optimum performance is obtained using die however packaged
devices are available as well diodes screened per MIL-PRF-19500 and
MIL-PRF-38534. Contact your representative for these and other options.
• Applications in tunable filters and
oscillators up to 40 GHz
• Die and packaged devices available
Chips
VBR = 22 V min.
CJ
Model
Tuning Ratio
Q
Package
typ
MIN
pF
typ
pF
MAX
pF
MIN
TYP
MAX
MIN
MGV050-18
0.50
0.25
0.30
0.35
4.0
4.7
5.5
4,000
C01A
MGV050-20
0.50
0.50
0.55
0.61
4.0
4.7
5.5
4,000
C01A
MGV050-22
0.50
0.90
1.00
1.10
4.0
4.7
5.5
3,000
C01A
MGV050-24
0.50
1.35
1.50
1.65
4.0
4.7
5.5
3,000
C01A
MGV050-26
0.50
1.80
2.00
2.20
4.0
4.7
5.5
3,000
C01A
Test Conditions
VR = 4 V
F = 1 MHz
VR= 2 to 22 V
VR = 4 V
F = 50 MHz
VR = 0 to 22 V
VBR = 22 V min.
Packaged
CJ
Model
Tuning Ratio
Q
Package
typ
MIN
pF
typ
pF
MAX
pF
MIN
TYP
MAX
MIN
MGV050-18-E28 / 28X
0.50
0.31
0.38
0.45
3.0
3.4
3.9
4,000
E28 / 28X
MGV050-18-H20
0.50
0.41
0.48
0.55
2.0
2.6
3.2
4,000
H20
MGV050-18-0805-2
0.50
0.29
0.36
0.43
3.0
3.6
4.2
4,000
0805-2
MGV050-20-E28 / 28X
0.50
0.55
0.63
0.71
3.3
3.9
4.5
4,000
E28 / 28X
MGV050-20-H20
0.50
0.64
0.73
0.82
2.8
3.2
3.7
4,000
H20
MGV050-20-0805-2
0.50
0.53
0.61
0.69
3.4
4.0
4.8
4,000
0805-2
MGV050-22-E28 / 28X
0.50
0.95
1.08
1.21
3.6
4.2
5.0
3,000
E28 / 28X
MGV050-22-H20
0.50
1.04
1.18
1.32
3.2
3.7
4.4
3,000
H20
MGV050-22-0805-2
0.50
0.93
1.06
1.19
3.7
4.3
5.1
3,000
0805-2
MGV050-24-E28 / 28X
0.50
1.40
1.58
1.76
3.7
4.2
5.3
3,000
E28 / 28X
MGV050-24-H20
0.50
1.49
1.68
1.87
3.4
3.7
4.7
3,000
H20
MGV050-24-0805-2
0.50
1.38
1.56
1.74
3.8
4.3
5.3
3,000
0805-2
MGV050-26-E28 / 28X
0.50
1.85
2.08
2.31
3.8
4.4
5.3
3,000
E28 / 28X
MGV050-26-H20
0.50
1.94
2.18
2.42
3.5
4.0
4.9
3,000
H20
MGV050-26-0805-2
0.50
1.83
2.06
2.29
3.8
4.5
5.4
3,000
0805-2
Test Conditions
VR= 2 to 22 V
20 | www.aeroflex.com/Metelics
VR = 4 V
F = 1 MHz
VR = 0 to 22 V
VR = 4 V
F = 50 MHz
www.aeroflex.com/metelics | 29
GaAs Hyperabrupt Varactor Diodes
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Passivated mesa construction
• Available in three constant gamma families
• Applications in tunable filters and
oscillators up to 40 GHz
• Die and packaged devices available
Glass Axial Leaded
Ceramic Hermetic SMT
The Aeroflex / Metelics MGV series of hyperabrupt varactor diodes feature
passivated mesa construction for low leakage and excellent post tuning drift.
Available in three constant gamma families of 0.75, 1.0 and 1.25. These
diodes will find application in tunable filters and oscillators up to 40 GHz.
Optimum performance is obtained using die however packaged devices are
available as well diodes screened per MIL-PRF-19500 and MIL-PRF-38534.
Contact your representative for these and other options.
Chips
CJ
Model
Tuning Ratio
Q
Package
typ
MIN
pF
typ
pF
MAX
pF
MIN
TYP
MAX
MIN
MGV075-08*
0.75
0.25
0.30
0.35
2.2
2.8
3.5
4,000
C01A
MGV075-09*
0.75
0.35
0.40
0.45
2.2
2.8
3.5
4,000
C01A
MGV075-10*
0.75
0.45
0.50
0.55
2.2
2.8
3.5
3,000
C01A
MGV075-11*
0.75
0.63
0.70
0.77
2.2
2.8
3.5
3,000
C01A
MGV075-12*
0.75
0.72
0.80
0.88
2.2
2.8
3.5
3,000
C01A
MGV075-13*
0.75
0.90
1.00
1.10
2.2
2.8
3.5
3,000
C01A
MGV075-14*
0.75
1.08
1.20
1.32
2.2
2.8
3.5
3,000
C01A
MGV075-15*
0.75
1.35
1.50
1.65
2.2
2.8
3.5
3,000
C01A
MGV075-16*
0.75
1.62
1.80
1.98
2.2
2.8
3.5
3,000
C01A
MGV075-17*
0.75
1.80
2.00
2.20
2.2
2.8
3.5
3,000
C01A
MGV100-08
1.00
0.30
0.35
0.40
2.7
3.4
5.0
4,000
C01A
MGV100-09
1.00
0.40
0.45
0.50
2.7
3.4
5.0
4,000
C01A
MGV100-20
1.00
0.50
0.55
0.61
2.7
3.4
5.0
4,000
C01A
MGV100-21
1.00
0.58
0.65
0.72
2.7
3.4
5.0
4,000
C01A
MGV100-22
1.00
0.72
0.80
0.88
2.7
3.4
5.0
3,000
C01A
MGV100-23
1.00
0.90
1.00
1.10
2.7
3.4
5.0
3,000
C01A
MGV100-24
1.00
1.08
1.20
1.32
2.7
3.4
5.0
3,000
C01A
MGV100-25
1.00
1.35
1.50
1.65
2.7
3.4
5.0
3,000
C01A
MGV100-26
1.00
1.53
1.70
1.87
2.7
3.4
5.0
3,000
C01A
MGV100-27
1.00
1.80
2.00
2.20
2.7
3.4
5.0
3,000
C01A
MGV125-08
1.25
0.25
0.30
0.35
4.0
5.0
8.4
4,000
C01A
MGV125-09
1.25
0.35
0.40
0.45
4.0
5.0
8.5
4,000
C01A
MGV125-20
1.25
0.45
0.50
0.55
4.0
5.0
8.6
4,000
C01A
MGV125-21
1.25
0.63
0.70
0.77
4.0
5.0
8.8
4,000
C01A
MGV125-22
1.25
0.90
1.00
1.10
4.0
5.0
9.0
3,000
C01A
MGV125-23
1.25
1.08
1.20
1.32
4.0
5.0
9.5
3,000
C01A
MGV125-24
1.25
1.35
1.50
1.65
4.0
5.0
10
3,000
C01A
MGV125-25
1.25
1.53
1.70
1.87
4.0
5.0
10
3,000
C01A
MGV125-26
1.25
1.80
2.00
2.20
4.0
5.0
10
3,000
C01A
VR =
2 to 20 V
* Vr = 2 to
18 V
VR = 4 V
F = 50 MHz
Test Conditions
VR =
2 to 20 V
* Vr = 2 to
18 V
VR = 4 V
F = 1 MHz
Note: MGV075 Series is Vbr = 18 V min. and MGV100 and MGV125 Series are Vbr = 22 V min.
20 | www.aeroflex.com/metelics
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VR = 2 to 12 V
GaAs Beam Lead Detector Diodes: Zero Bias
Beam Lead Chips
• Low junction capacitance
• Lower temperature coefficient than silicon
• Operation to 110 GHz
The Aeroflex / Metelics MZBD-9161 is a GaAs beam lead detector diode.
This diode is designed for zero bias detecting applications at frequencies
through 110 GHz.
Ta = 25° C
Beam Lead
RV
Cl
Model
MZBD-9161
Typ
pF
MIN
K
MAX
K
.035
2.5
7.5
Juncition Capacitance
F = 1 MHz
Test Conditions
Maximum Ratings
Parameters
Video Reisistance
Zero Bias
0.5
Voltage Sensitivity
Zero Bias, 10GHz
shunt 50 input
matching resistor
Rating
Operating Temperature
-65° C to + 175° C
Storage Temperature
-65° C to + 200° C
Burnout Power
20 dBm
Beam Lead Strength
3 grams
Parameter
Units
D1
Bv
V
10
10
C jo
pF
0.030
0.030
D2
Eg
eV
1.42
1.42
I bv
A
10E-12
10E-12
Is
A
12 x 10E-6
84 x 10E-6
1.2
40.0
N
mV / W
Rs
OHM
50
10
P s (Vj )
V
0.26
0.26
P t (X Tl)
2
3
M
0.5
0.5
Note: D1 represents the characteristic of the MZBD-9161 under forward bias
and D2 (in the forward direction) gives the V-l curve of the MZBD-9161 under
reverse bias.
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 31
GaAs Detector/Mixer Diodes
Ceramic Epoxy SMT
• Low capacitance and low resistance
• Passivated with silicon dioxide
• Protected with polyimide
The Aeroflex / Metelics low cost surface mount single and anti-parallel pairs of
gallium arsenide Schottky diodes in QFN package 0503 (1.37 x 0.86 mm) can be
used through millimeter wave frequencies as they have low capacitance and low
resistance. They are passivated with silicon nitride and protected with polyimide
for high reliability. Typical applications include detectors and single ended mixer
on SMGS11 and single balanced and subharmonic pumped mixers and limiters on
SMGS21 in instruments, microwave radios, VSAT, and police radar detectors.
Surface Mount
DVf
Vf
Model
Configuration
Rd
RS
V br
MAX
pF
max
TYP
MIN
V
4.5
Ct
MIN
mV
max
mV
max
mV
TYP
pF
SMGS11
single
620
760
N/A
0.10
0.13
13
4
SMGS21
anti-parallel pairs
620
760
20
0.15
0.18
13
4
Test Conditions
Maximum Ratings
20 | www.aeroflex.com/metelics
32
www.aeroflex.com/Metelics
@ 1mA
@ 1mA
@ 0V, 1MHz
Parameters
Rating
Operating Temperature
-40° C to + 85° C
Storage Temperature
-65° C to + 125° C
Incident Power
20 dBm (at 25° C)
Soldering Temperature
260° C for 5 seconds
@ 5mA
4.5
@ 10 A
GaAs PIN Diodes
Bare Die
•Nanosecond switching speed
can be achieved with low-cost
TTL buffer logics
The Aeroflex / Metelics MGPN series GaAs PIN diodes are used for high frequency
(>26GHz) switch and high speed modulation applications.
•Low series resistance
•No reverse bias required for
low loss
TC= +25° Electrical Characteristics
Model
MGPN0515-C12
MGPN0518-C12
MGPN1506-C12
MGPN1504-C01A
MGPN1503-C01A
Test Conditions
VBR
VF
Cj
RS
TL
V
mV
pF
Ohms
nsec
TYP
MIN
TYP
TYP
MAX
TYP
MAX
TYP
MAX
68
68
150
150
150
50
50
205
205
205
1300
1300
1300
1350
1350
0.13
0.16
0.05
0.036
0.027
0.15
0.18
0.06
0.04
0.03
0.85
0.75
1.6
2.0
2.0
1.0
1.0
2.0
3.0
3.0
6
6
15
8
8
9
9
20
10
10
I R = 10µA
Maximum Ratings
IF =
10mA
Rating
VR
IF
PDISS
TJ
TSTG
T Die Attach
Electrostatic Discharge (ESD)
20 | www.aeroflex.com/Metelics
VR = 10v
F = 1 MHz
I F = 20mA
F = 1 GHz
Limits
I F = 10mA
I R = 6mA
Units
VBR
150
100 de-rated to zero at 150°C
+175
-65 to +200
<320°C for 5sec
Class 0 (Human Body Model)
V
mA
mW
°C
°C
www.aeroflex.com/metelics | 33
GaAs GUNN Diode EPI Up
•23 GHz to 25 GHz tuning range
The Aeroflex / Metelics MGDAH-24-10 is a GaAs EPI up (anode heatsink) GUNN
diode that is suitable for 23 GHz to 25 GHz local oscillators with ultra-low phase and
1/f noise. Typical applications include motion detectors, radar detectors, low power
transmitters, radars, beacons, and other ISM band applications.
•10dBm minimum output power
•Lower operating voltage, 4.2V
Package T86P (Anode Heatsink)
MGDAH-24-10, Ta = +25°C, F = 24.125 GHz
MGDAH-24-10
MIN
mA
TYP mA
MAX
mA
MIN V
TYP V
MAX V
TYP
V
MAX V
170
260
350
1.40
1.70
2.2
2.35
3.00
Vpk
MIN V TYP
4.30
Ppk
V MAX V
4.50
6.00
Test
Conditions
Maximum Ratings
Parameters
P
TYP
dBm
TYP mA
MAX
mA
MIN
dBm
TYP
dBm
11.8
210
250
10
11.3
Note:
1. Derate 10mW/°C for heatsink temp greater than 85°C
Rating
Units
VBK
10
V
θJC
100(1)
°C/W
TJ
+175
°C
TSTG
-55 to +150
°C
TSOLDER
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34
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Iop
VR = 4.2V
Model
Vstart
VR = 4.2V
Undercoupled cavity
Vth
Ith
+260°C per JEDEC J-STD-20C
Step Recovery Diodes
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
•Wide Selection of Tightend
Capacitance Ranges
Ceramic Epoxy SMT
Ceramic Hermetic SMT
Plastic SMT
The Aeroflex / Metelics MSD-700 Series Step Recovery Diodes are epitaxial silicon
varactors which provide high output power and efficiencies in harmonic generator
applications. Strict material and process controls result in high reproducibility. A
unique silicon dioxide passivation process assures greater stability, reliability and
low leakage currents at high temperatures.
•Low Transition Times
• High Efficiencies
Diodes are available in various capacitance ranges for each of the 4 voltage ratings.
These diodes represent the lowest transition times (snap time) available for each
voltage rating. Unless otherwise specified, capacitance will be within the range shown
above for each type. A capacitance tolerance of ± 10% is available at an additional
charge. Diodes can be optimized for custom electrical or mechanical specifications.
Custom parameters for capacitance, voltage, transition time, series resistance, etc.
are available upon request.
Chips
Cj
Vb
Tl
Tt
Rs
Q Cj
MIN
V
MIN
V
MIN
nS
MAX
pS
MAX
ohms
MAX
°C/W
MSD700
0.2 - 0.4
15
8
60
1.20
125
MSD701
0.4 - 0.6
15
8
60
1.00
100
MSD702
0.6 - 0.8
15
8
60
0.70
100
MSD703
0.8 - 1.0
15
8
60
0.50
75
MSD704
1.0 - 1.4
15
8
60
0.40
75
MSD705
1.4 - 2.0
15
8
60
0.30
60
MSD706
2.0 - 3.0
15
8
60
0.25
60
MSD710
0.2 - 0.4
20
11
70
1.00
100
MSD711
0.4 - 0.6
20
11
70
0.70
75
MSD712
0.6 - 0.8
20
11
70
0.60
75
MSD713
0.8 - 1.0
20
11
70
0.50
75
MSD714
1.0 - 1.4
20
11
70
0.40
75
MSD715
1.4 - 2.0
20
11
70
0.30
60
MSD716
2.0 - 3.0
20
11
70
0.25
60
MSD720
0.2 - 0.4
30
17
100
0.80
75
MSD721
0.4 - 0.6
30
17
100
0.60
60
MSD722
0.6 - 0.8
30
17
100
0.50
60
MSD723
0.8 - 1.0
30
17
100
0.40
60
MSD724
1.0 - 1.4
30
17
100
0.30
60
MSD725
1.4 - 2.0
30
17
100
0.25
50
MSD726
2.0 - 3.0
30
17
100
0.20
50
MSD730
0.2 - 0.4
40
21
150
0.80
50
MSD731
0.4 - 0.6
40
21
150
0.60
50
MSD732
0.6 - 0.8
40
21
150
0.50
50
MSD733
0.8 - 1.0
40
21
150
0.40
50
MSD734
1.0 - 1.4
40
21
150
0.30
50
MSD735
1.4 - 2.0
40
21
150
0.25
40
MSD736
2.0 - 3.0
40
21
150
0.20
40
@ -6 V, 1 MHz
@ 10 mA
IF 6 mA / IR 10mA
@ 25 mA
pulsed
Model
Test Conditions
Maximum Ratings
Parameters
Rating
Storage Temperature
-65° C to + 200° C
Operating Temperature
-55° C to + 150° C
Minimum Voltage Breakdown
15, 20, 30 and 40 V at 10 µA
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 35
Beam Lead Step Recovery Diodes
Beam Lead Chips
Plastic SMT
Ceramic Epoxy SMT
• Low Inductance
The Aeroflex / Metelics Silicon Mesa Beam Lead Step Recovery diodes provide
low capacitance, very fast transition times, and low inductance along with low
parasitic capacitance compared to packaged or chip devices.
•Rugged Beam Lead construction
• Transition times down to 30
picoseconds in 50 system
The fast transition times make these devices useful for fast sampling gate
drivers, frequency multipliers and comb generators to 40 GHz and beyond.
• Oxide and polymide passivation
Beam Lead
τ
Ct
pF
VB R
Volts
Model
Tt
pS
MIN
MAX
TYP
MAX
nS
TYP
TYP
MAX
MMDB30-B11
14
25
0.15
0.25
4
30
38
MMDB35-B11
16
30
0.13
0.20
4
35
45
MMDB45-B11
25
40
0.11
0.20
8
45
Test Conditions
VR = 6V
F = 1 MHz
I R = 10 A
58
I f = 3 mA
VR = 7 V
I f = 10 mA
I R = 6 mA
Packaged
Model
MIN
τ
Ct
pF
VB R
Volts
MIN
Tt
pS
nS
MAX
MIN
TYP
TYP
MAX
Cp
pF
Lp
nH
TYP
TYP
Package
MMDB30-E28 / 28X
14
0.28
0.36
1.0
4.0
30
38
0.08
0.4
MMDB30-0402
14
0.25
0.32
1.0
4.0
30
38
0.05
0.2
E28 / 28X
0402
MMDB30-0805-2
14
0.26
0.33
1.0
4.0
30
38
0.06
0.4
0805-2
E28 / 28X
MMDB35-E28 / 28X
16
0.25
0.31
1.0
4.0
35
45
0.08
0.4
MMDB35-0402
16
0.22
0.28
1.0
4.0
35
45
0.05
0.2
0402
MMDB35-0805-2
16
0.23
0.29
1.0
4.0
35
45
0.06
0.4
0805-2
E28 / 28X
MMDB45-E28 / 28X
25
0.24
0.31
3.0
8.0
45
58
0.08
0.4
MMDB45-0402
25
0.21
0.28
3.0
8.0
45
58
0.05
0.2
0402
MMDB45-0805-2
25
0.22
0.29
3.0
8.0
45
58
0.06
0.4
0805-2
Test Conditions
I R = 10 A
20 | www.aeroflex.com/metelics
36
www.aeroflex.com/Metelics
VR = 6V
F = 1 MHz
I f = 10 mA
I R = 6 mA
measured at 50%
recovery
I f = 3 mA
VR = 7 V
Sampling Phase Detector
Ceramic Epoxy SMT
Ceramic Hermetic SMT
• Phase locking to 22 GHz
The Aeroflex / Metelics MSPD Series Integrates an SRD reference frequency multiplier, coupling capacitors and a Schottky diode microwave sampler / phase detector
in a 0.075” by 0.100” hybrid. They are used to phase lock microwave oscillators up
to 22 GHz to a much lower reference frequency by deriving a locking voltage from
the sampled RF and the multiplied reference.
• Broadband capability
• Fully integrated module
• Phase locks DRO’s and VCO’s
Packaged
Cap.
Step Recovery Diode
Schottky Diode
F Mw
VBR
CJ
τ
tt
CT
CJ
VF
RD
MIN
V
TYP
pF
TYP
ns
MAX
ps
TYP
pF
TYP
pF
TYP
mV
TYP
TYP
GHz
MSPD1011-121
15
.22
10
100
.5
.08
300
20
20
121
MSPD1012-121
15
.22
10
100
.5
.08
450
20
20
121
MSPD1013-121
15
.22
10
100
.5
.08
550
20
20
121
MSPD1000-E50 / E50SM
15
1.0
35
95
20
0.4
270
7.0
0.50
E50 / E50SM
MSPD1000-H50
15
1.0
35
95
20
0.4
270
7.0
0.50
H50
MSPD1002-E50 / E50SM
15
0.5
20
70
3.5
0.22
270
8.0
2.0
E50 / E50SM
MSPD1002-H50
15
0.5
20
70
3.5
0.22
270
8.0
2.0
H50
MSPD1012-E50 / E50SM
15
0.5
10
70
2.5
0.18
270
9.0
12
E50 / E50SM
MSPD1012-H50
15
0.5
10
70
2.5
0.18
270
9.0
12
H50
MSPD2018-E50 / E50SM*
15
0.35
5
55
0.6
0.10
430
16.0
22
E50 / E50SM
MSPD2018-H50*
15
0.35
5
55
0.6
0.10
430
16.0
22
H50
I f = 1 mA
I f = 5 mA
Model
Test Conditions
Maximum Ratings
I R = 10 A
I F = 10 mA
VR = 0 V
VR = 6V I F = 10 mA VR = 10 V
F = 1 MHz
F = 1 MHz I R = 6 mA *I f = 3 mA
F = 1 MHz
Vr = 7 V
Parameters
Rating
Storage Temperature
-65 to +150° C
Operating Temperature
-65 to +150° C
Soldering Temperature
230° C for 5 sec.
20 | www.aeroflex.com/Metelics
Package
www.aeroflex.com/metelics | 37
Silicon PIN Diodes
Plastic SMT
Bare Die
• High Temperature Passivation
for Reliability
The Aeroflex / Metelics MPN-7000 Series and MMP-7000 Series PIN diodes
are manufactured using very high resistivity silicon epitaxial material grown on a
highly doped low resistivity substrate. Combined with a grown junction P++ layer,
MMP-7000 Series PIN diodes yield a very abrupt structured “I” region with minimum
outdoping and low voltage punch-through characteristics.
• Grown Junction for sharp “I”
Region Interface
• Full Area Gold Contact for the
Lowest Capacitance and Largest
Bonding Pad Available
Our high temperature passivation and state-of-the-art metallization produce diodes
that are designed to cover a wide range of applications that fall into the general
categories of switching, phase switching, attenuating and limiting. These devices
are rugged and able to meet all visual criteria in space and military applications.
• Lot Traceability and Lot Control,
Assuring High Reproducibility
High Power Switching and Attenuation
CJ
VBR
Model
Chips
MIN
V
TYP
pF
RS
MAX
pF
TYP
MAX
τ
I-layer
Contact
TYP
s
NOM
microns
MIN
mils
JC
MAX
ºC / W
Package
MPN7330
300
0.30
0.40
0.3
0.5
0.5
30
10
10
C40
MPN7345
300
0.30
0.40
0.3
0.5
0.5
45
10
10
C40
MPN7453A
300
0.10
0.15
0.7
1.0
0.7
60
8
20
C22
MPN7453B
400
0.15
0.2
0.6
0.9
2.5
60
8
20
C22
MPN7453C
300
0.18
0.25
0.4
0.7
1.0
60
8
15
C22
MPN7360
600
0.80
1.0
0.2
0.4
2.5
60
20
7
C37
MPN7370
700
2.00
2.3
0.2
0.3
5.0
70
40
5
C39
MPN7380
800
0.40
0.60
0.3
0.5
2.5
80
24
7
C38
MPN7420
400
0.06
0.08
1.0
1.5
1.0
100
5
30
C12
MPN73100
600
0.20
0.30
0.5
0.8
2.2
100
12
10
C32
MPN73120
700
0.30
0.40
0.5
0.8
3.5
120
15
10
C32
Test Conditions
I R = 10 A
VR = 50 V
F = 1 MHz
I F = 100 mA
F = 100 MHz
I F = 10 mA
I R = 6 mA
SOT23 & SOD323
Surface Mount
CT
VBR
Model
Configuration
MIN
V
TYP
pF
RS
MAX
pF
TYP
MAX
TYP
ns
Package
SOT23
SMPN7453-SOT23
-0S, 1S, 2ST, 3CA, 4CC
200
0.25
0.35
4.0
4.5
2500
SMPN7380-SOT23
-0S, 1S, 2ST, 3CA, 4CC
200
0.25
0.35
4.0
4.5
1500
SOT23
SMPN7310-SOT23
-0S, 1S, 2ST, 3CA, 4CC
100
0.40
0.50
0.60
1.2
120
SOT23
SMPN7316-SOT23
-0S, 1S, 2ST, 3CA, 4CC
100
0.25
0.55
0.60
1.0
200
SOT23
SMPN7335-SOT23
-0S, 1S, 2ST, 3CA, 4CC
200
0.30
0.40
1.50
2.0
500
SOT23
SMPN7320-SOT23
SOT23
-0S, 1S, 2ST, 3CA, 4CC
100
0.20
0.30
2.00
4.5
170
SMPN7453-SOD323
–
200
0.25
0.35
4.0
4.5
2500
SOD323
SMPN7380-SOD323
–
200
0.25
0.35
4.0
4.5
1500
SOD323
SMPN7310-SOD323
–
100
0.40
0.50
0.60
1.2
120
SOD323
SMPN7316-SOD323
–
100
0.25
0.55
0.60
1.0
200
SOD323
SMPN7335-SOD323
–
200
0.30
0.40
1.50
2.0
500
SOD323
SMPN7320-SOD323
–
100
0.20
0.30
2.00
4.5
170
SOD323
Test Conditions
20 | www.aeroflex.com/metelics
38
www.aeroflex.com/Metelics
IR =
10 A
VR = 10 V
VR = 50 V
F = 1 MHz
I F = 10 mA
F = 100 MHz
I F = 10 mA
I R = 6 mA
www.aeroflex.com/metelics | 38
Silicon PIN Diodes
Bare Die
Beam Lead Chips
Ceramic Microwave Pill
Ceramic Epoxy SMT
Plastic SMT
Ceramic Hermetic SMT
Glass Axial Leaded
MicroStrip PIN Diodes
Model
Configurations
IR
VBR
Insertion
Loss
Return
Loss
Isolation
MAX
nA
MIN
V
MAX
TYP
MIN
Package
MMPN080150
MicroStrip PIN
100
200
4.0
12
-50
C51
MMPN080045
MicroStrip PIN
100
200
1.0
12
-30
C50
VR = 30 V
I R = 10 A
Test Conditions
VR = 30 V
I F = 40 mA
F = 2 – 35 GHz
F = 2 – 35 GHz
F = 2 – 20 GHz
F = 2 – 20 GHz
Low Capacitance, Fast Switching
VBR
Model
MIN
V
Chips
CJ
TYP
pF
RS
MAX
pF
TYP
MAX
τ
Contact
TYP
ns
MIN
mils
MAX
ºC / W
Package
C11
JC
MPN7302
20
0.08
0.12
1.2
1.5
8
1.5
60
MPN7304
40
0.06
0.08
2.2
2.7
15
1.5
60
C11
MPN7304A
40
0.12
0.15
1.0
1.5
30
2.0
50
C12
MPN7306
70
0.08
0.10
1.2
1.2
50
2.0
50
C12
MPN7310
100
0.05
0.07
1.5
2.0
100
2.0
50
C12
MPN7310A
100
0.18
0.25
0.6
1.0
200
4.0
35
C12
MPN7312A
120
0.08
0.10
1.2
1.5
150
2.0
50
C12
MPN7312B
120
0.18
0.25
0.8
1.0
250
4.0
35
C12
MPN7315
150
0.08
0.12
1.2
1.5
180
2.0
50
C12
MPN7320*
150
0.02
0.03
3.0
4.0
120
1.5
60
C01
Test Conditions
Maximum Ratings
I R = 10 A
VR = 10 V
F = 1 MHz
*Vr = 50 V
I F = 10 mA
F = 500 MHz
I F = 10 mA
I R = 6 mA
Parameters
Rating
Power Dissipation
0.5 Watts at 25° C derate to zero at +175° C
Operating Temperature
-65° C to +175° C
Storage Temperature
-65° C to +200° C
Voltage
Vbr Rating
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 39
Silicon PIN Diodes
Bare Die
•Supports up to 40 Watts of power
The Aeroflex / Metelics MMSPN050-C53 broadband, medium power Microstrip PIN
diode is designed as a 50 Ohm microstrip when biased at zero or a negative voltage.
This device is usable up to 40 GHz.
•Low insertion loss, 0.4 dB typical up
to 40 GHz
•High Isolation, 58 dB typical at
10 GHz
Maximum Ratings
MAX
dB
0.30
TYP
dB
0.20
MAX
dB
0.40
MIN
dB
20
TYP
dB
25
TYP
dB
15
MIN
dB
55
TYP
dB
50
TYP
dB
50
Parameters
Rating
VR
100
V
IF
500
mA
θJC
65
°C/W
TJ
+150
°C
TSTG
-65 to +125
TSOLDER
20 | www.aeroflex.com/metelics
40
www.aeroflex.com/Metelics
TYP
dB
0.15
I F = 40mA
F = 5 – 40 GHz
TYP
Ω
0.6
I Sol
I F = 40mA
F = 10 GHz
TYP
nS
4000
IRL
F < 40 GHz
MIN
V
200
IL
F = 10 GHz
Test Conditions
R MIN
VR = -50V
F < 40 GHz
Microstrip PIN
TL
VR = -50V
F = 10 GHz
MMSPN050
VBR
I F = 100mA
F = 500 MHz
Configuration
I F = 10mA
I R = 6mA
10% / 90%
Model
I R = 10µA
Electrical Specification, TC = +25°C
Units
+260°C per JEDEC J-STD-20C
°C
Package
C53
Silicon PIN Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
Plastic SMT
Glass Axial Leaded
Low Capacitance, Fast Switching
VBR
Packaged
RS
τ
Cp
Lp
MIN
V
TYP
pF
MAX
pF
TYP
MAX
TYP
ns
TYP
pF
MAX
nH
Package
MPN7302-E28 / 28X
20
0.16
0.24
1.2
1.5
8
0.08
0.4
E28 / 28X
MPN7302-H20
20
0.26
0.35
1.2
1.5
8
0.18
0.5
H20
MPN7302-0805-2
20
0.14
0.22
1.2
1.5
8
0.06
0.4
0805-2
MPN7304-E28 / 28X
40
0.14
0.22
2.2
2.7
15
0.08
0.4
E28 / 28X
Model
CJ
MPN7304-H20
40
0.24
0.30
2.2
2.7
15
0.18
0.5
H20
MPN7304-0805-2
40
0.18
0.26
2.2
2.7
15
0.06
0.4
0805-2
MPN7304A-E28 / 28X
40
0.20
0.27
1.0
1.5
30
0.08
0.4
E28 / 28X
MPN7304A-H20
40
0.30
0.38
1.0
1.5
30
0.18
0.5
H20
MPN7304A-0805-2
40
0.18
0.23
1.0
1.5
30
0.06
0.4
0805-2
MPN7306-E28 / 28X
70
0.16
0.22
1.2
1.2
50
0.08
0.4
E28 / 28X
MPN7306-H20
70
0.26
0.33
1.2
1.2
50
0.18
0.5
H20
MPN7306-0805-2
70
0.14
0.20
1.2
1.2
50
0.06
0.4
0805-2
MPN7310-E28 / 28X
100
0.13
0.18
1.5
2.0
100
0.08
0.4
E28 / 28X
MPN7310-H20
100
0.23
0.29
1.5
2.0
100
0.18
0.5
H20
MPN7310-0805-2
100
0.11
0.17
1.5
2.0
100
0.06
0.4
0805-2
MPN7310A-E28 / 28X
100
0.26
0.36
0.6
1.0
200
0.08
0.4
E28 / 28X
MPN7310A-H20
100
0.36
0.57
0.6
1.0
200
0.18
0.5
H20
MPN7310A-0805-2
100
0.24
0.35
0.6
1.0
200
0.06
0.4
0805-2
MPN7312A-E28 / 28X
120
0.16
0.21
1.2
1.5
150
0.08
0.4
E28 / 28X
MPN7312A-H20
120
0.26
0.32
1.2
1.5
150
0.18
0.5
H20
MPN7312A-0805-2
120
0.14
0.20
1.2
1.5
150
0.06
0.4
0805-2
MPN7312B-E28 / 28X
120
0.26
0.36
0.8
1.0
250
0.08
0.4
E28 / 28X
MPN7312B-H20
120
0.36
0.57
0.8
1.0
250
0.18
0.5
H20
MPN7312B-0805-2
120
0.24
0.35
0.8
1.0
250
0.06
0.4
0805-2
MPN7315-E28 / 28X
150
0.16
0.23
1.2
1.5
180
0.08
0.4
E28 / 28X
MPN7315-H20
150
0.26
0.34
1.2
1.5
180
0.18
0.5
H20
MPN7315-0805-2
150
0.14
0.21
1.2
1.5
180
0.06
0.4
0805-2
MPN7320-E28 / 28X*
150
0.10
0.14
3.0
4.0
120
0.08
0.4
E28 / 28X
MPN7320-H20*
150
0.20
0.24
3.0
4.0
120
0.18
0.5
H20
MPN7320-0805-2*
150
0.08
0.12
3.0
4.0
120
0.06
0.4
0805-2
Test Conditions
VR = 10 V
F = 1 MHz
*Vr = 50 V
IR = 10 A
I F = 10 mA
F = 500 MHz
I F = 10 mA
I R = 6 mA
Ultra Fast Switching
Model
Vbr
Cj
Tl
Øjc
TS
Rs
Rs
MIN
V
MAX
pF
TYP
nS
MAX
°C/W
MAX
nS
MAX
Ohms
TYP
Ohms
MMP7010
25
0.1
10
60
1.5
0.7
1.0
MMP7011
25
0.15
10
50
1.5
0.55
0.8
MMP7012
25
0.2
10
40
1.5
0.45
0.7
MMP7013
25
0.25
10
35
1.5
0.4
0.6
pulsed
90% to 10% and
10% to 90%
transmission. Drive
output = +2- mA
and -4 V, 200 mA
spike with a rise
time of 2 nS
50 mA @ 1 GHz
10 mA @ 1 GHz
Test Conditions
@ 10 mA
@ -10 V, 1 MHz
20 | www.aeroflex.com/Metelics
IF = 10 mA
IR = 6 mA
www.aeroflex.com/metelics | 41
Silicon PIN Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
Plastic SMT
Glass Axial Leaded
Fast Switching, Low Power
V br
Cj
Tl
Djc
TS
Rs
Rs
MIN
V
MAX
pF
TYP
nS
MAX
°C/W
MAX
nS
MAX
Ohms
TYP
Ohms
MMP7020
70
0.05
60
80
5
0.9
1.2
MMP7021
70
0.1
60
70
5
0.7
1.0
MMP7022
70
0.15
60
60
5
0.6
0.9
MMP7023
70
0.2
60
55
5
0.5
0.7
MMP7024
70
0.25
60
50
5
0.45
0.5
Model
MMP7025
100
0.03
100
90
10
1.2
1.9
MMP7026
100
0.07
100
80
10
0.9
1.5
MMP7027
100
0.1
100
70
10
0.7
1.2
MMP7028
100
0.15
100
60
10
0.6
1.0
MMP7029
100
0.2
100
55
10
0.5
0.9
MMP7030
100
0.3
100
50
15
0.45
0.8
MMP7031
200
0.03
225
90
15
1.9
3.0
MMP7032
200
0.07
225
80
15
1.2
2.2
MMP7033
200
0.1
225
70
15
0.9
1.6
MMP7034
200
0.15
225
60
15
0.8
1.0
MMP7035
200
0.2
225
55
15
0.7
0.8
MMP7036
200
0.3
225
50
15
0.6
0.7
pulsed
90% to 10% and
10% to 90%
transmission.
Drive output
= +2- mA and
-4 volts, 200 mA
spike with a rise
time of 2 nS
75 mA @ 1 GHz
20 mA @ 1 GHz
Test Conditions
@ 10 mA
Maximum Ratings
@ -10 V, 1 MHz
IF = 10 mA
IR = 6mA
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Reverse Breakdown
from 25 volts to 500 volts
Voltage
volts at 10 mA
Junction Capacitance
(Cj -10) from 0.03 pF to 0.5 pF at 10 volts
Switching Speed
from 1 nS to 25 nS
Lifetime
from 5 nS to 6.0 mS
Chip Thickness
.004 – .007” thick
20 | www.aeroflex.com/metelics
42
www.aeroflex.com/Metelics
Silicon PIN Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
Plastic SMT
Ceramic Hermetic SMT
Glass Axial Leaded
High Power Switching & Attenuation
Model
V br
MIN
V
Cj
MAX
pF
Tl
TYP
µs
Rs
MAX
Ohms
Rs
MAX
Ohms
Rs
MAX
Ohms
Øjc
MAX
°C/W
MMP7060
250
0.05
1.0
25
10.0
2.0
20
MMP7061
250
0.08
1.0
20
8.0
1.5
20
MMP7062
250
0.1
1.0
15
6.0
1.2
20
MMP7063
250
0.2
1.0
8
3.5
1.0
15
MMP7064
250
0.3
1.5
6
2.0
0.8
15
MMP7065
500
0.08
1.5
40
8.0
1.5
15
MMP7066
500
0.1
1.5
15
5.0
1.2
15
MMP7067
500
0.2
1.5
10
4.0
1.0
12
MMP7068
500
0.3
2.0
8
3.5
0.8
10
MMP7069
500
0.5
0.7
10
Test Conditions
@ 10 mA
@ 50V 1 MHz
2.0
6
2.0
IF = 10 mA
IR = 10 mA
@ 1 mA
100 MHz
@ 10 mA
100 MHz
@ 100 mA
100 MHz
pulsed
High Average Power PIN Diode
Reverse
Leakage Current
TYP
nA
MIN
Ohms
1.00
100
20k
1.20
100
50k
1.00
100
200k
Vb
CT
Tl
RS
VF
MIN
MAX
MIN
usec
MAX
Ohms
TYP
MMP7070
100
2.20
6.00
0.50
MMP7071
100
2.00
8.00
1.00
MMP7072
100
0.7
3.00
0.8
Model
Rp
MMP7073
100
1.0
2.50
0.5
1.00
100
100k
MMP7074
200
2.20
6.00
0.5
1.00
100
20k
MMP7075
200
2.0
8.00
1.00
1.20
100
50k
MMP7076
200
0.7
3.00
0.8
1.00
100
200k
MMP7077
200
1.0
2.50
0.5
1.00
100
100k
MMP7078
400
1.0
2.50
0.5
1.00
100
100k
MMP7079
600
2.20
MMP7080
600
Testing Conditions
Maximum Ratings
@ 10 mA
0.7
@ 100 V
F = 1 MHz
6.00
3.00
IF = 10 mA
IR = 6 mA
0.5
0.8
100 mA
100 MHz
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Reverse Breakdown
from 25 volts to 1500 volts
Voltage
volts at 10 µA
20 | www.aeroflex.com/Metelics
1.00
100
1.00
100
@ 100 mA
20k
200k
@ 0 V, 100
MHz
www.aeroflex.com/metelics | 43
Silicon PIN Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
Plastic SMT
Ceramic Hermetic SMT
Glass Axial Leaded
Medium Power, General Purpose
Vbr
Cj
TL
Djc
TS
RS
RS
MIN
V
MAX
pF
TYP
nS
MAX
°C/W
MAX
NS
OHMS
MAX
OHMS
TYP
MMP7040
200
0.03
400
65
20
2.6
3.5
MMP7041
200
0.07
400
60
20
1.5
2.2
Model
MMP7042
200
0.1
400
55
20
1.3
2.0
MMP7043
200
0.15
400
50
20
1.0
1.9
MMP7044
200
0.2
400
45
20
0.8
1.7
MMP7045
200
0.3
400
40
20
0.7
1.4
MMP7046
200
0.5
400
20
20
0.6
1.2
MMP7047
200
0.03
600
60
25
2.6
3.5
MMP7048
200
0.07
600
55
25
1.6
3.2
MMP7049
200
0.1
600
50
25
1.2
2.0
MMP7050
200
0.15
600
45
25
0.9
1.9
MMP7051
200
0.2
600
40
25
0.8
1.7
MMP7052
200
0.3
600
35
25
0.7
1.4
MMP7053
200
0.5
600
15
25
0.6
1.2
@ 40 V 1 MHz
IF = 10 mA
IR = 6 mA
Test Conditions
@ 10 mA
pulsed
RF Switching
speed measured
from 90% to 10% @ 75 mA, 1 GHz @ 20 mA, 1 GHz
and 10% to 90%
transmission
PIN Chips
Vb
CT
Tl
RS
Thermal Resistance
MIN
MAX
pF
MIN
usec
MAX
Ohms
TYP
C/W
MMP7092
500
0.20
1.00
0.60
20
MMP7093
500
0.35
2.00
0.45
15
MMP7094
500
0.70
3.00
0.30
10
MMP7095
1000
0.30
3.00
1.00
15
MMP7096
1000
0.60
4.00
0.70
10
MMP7097
1000
1.30
0.40
7
Model
@ 10 µA
Test Conditions
5.00
IF = 10 mA
IR = 6 mA
@ -100 V 1 MHz
@ 100 mA, 100 MHz
Kilovolt Pin Pill pkg
Vb
CT
TL
Rs
MIN
Volts
MAX
pF
MIN
usec
MAX
Ohms
TYP
C/W
TYP
C/W
MMP7098
2000
3.20
10
0.20
1.20
1.00
MMP7099
3000
4.00
20
0.25
1.20
1.00
@ -100 V 1 MHz
IF = 10 mA
IR = 6 mA
@ 500 mA, 4 MHz
Model
Test Conditions
Maximum Ratings
@ 10 µA
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Reverse Breakdown
from 25 volts to 1500 volts
Voltage
volts at 10 µA
20 | www.aeroflex.com/metelics
44
www.aeroflex.com/Metelics
Thermal Resistance Thermal Resistance
Silicon MELF PIN Diodes
Ceramic MELF
• Voltage breakdowns up to
1,000 Volts
The Aeroflex / Metelics high power MELF PIN diodes are produced with a propriety
glassing process. This creates large, full-face bonding surfaces on the anode and
cathode, delivers low electrical and thermal resistance, and allows for power handling
up to 100 Watts. Available in non-magnetic package, denote -128.
• Typical lifetime speeds of
1.0 to 8.0 msec
• Resistances at 100 mA of
0.5 to 2.0 ohms
Low Loss Switching
Vb
CT
TL
Rs
VF
Reverse
Leakage Current
Rp
MIN
Volts
MAX
pF
MIN
usec
MAX
Ohms
TYP
Volts
TYP
MIN
Ohms
MMP7081-127
50
1.20
4.00
0.75
1.00
1.00
5k
MMP7082-127
50
1.50
4.00
0.75
1.00
1.00
6k
MMP7083-127
50
2.50
4.00
0.75
1.00
1.00
5k
@ 10 µA
@ 50 V
1 MHz
IF = 10 mA
IR = 6 mA
@ 50 mA
100 MHz
@100mA
@80 of rated Vb
Model
Test Conditions
General Purpose Switching Diodes
Model
Vb
CT
TL
Rs
MIN
MAX
pF
MIN
usec
MAX
Ohms
Power Dissipation
Rating Watts
MMP7084-127
35
1.20
0.30
0.50
1.00
MMP7085-127
200
0.50
1.50
3.00
1.00
MMP7086-127
200
1.50
3.00
0.60
2.00
MMP7087-127
200
0.50
2.00
6.00
1.00
MMP7088-127
200
0.80
6.00
25.00
2.00
@ 10 µA
@ -50, 1MHz
IF = 10 mA
IR = 6 mA
@ 50 mA
100 MHz
Vb
CT
Tl
Rs
MIN
Volts
MAX
pF
MIN
usec
MAX
Ohms
MMP7089-127
500
0.50
1.00
0.60
1.50
MMP7090-127
500
0.65
2.00
0.45
1.50
MMP7091-127
500
1.00
3.00
0.30
1.50
@ -100, 1 MHz
@ 10 mA
100 MHz
@ 10 mA
100 MHz
Test Conditions
High Voltage Pin
Model
Test Conditions
Maximum Ratings
@ 10 µA
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Reverse Breakdown
from 25 volts to 1500 volts
Voltage
volts at 10 µA
20 | www.aeroflex.com/Metelics
Power Dissipation
Rating Watts
www.aeroflex.com/metelics | 45
Silicon NIP Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
• Four different I-layers
The Aeroflex / Metelics MNP00XX series of NIP diodes are offered in four different
I-layers and feature fully passivated, mesa construction for low leakage and reliability.
Screening per MIL-PRF-19500 and MIL-PRF-3534 are available.
• Fully passivated
• Low leakage and reliability
Chips
CJ
V BR
Model
MIN
V
TYP
V
RS
MAX
pF
τ
TYP
ns
MAX
TYP
Contact
MIN
mils
I-Layer
NOM
microns
JC
MAX
ºC/W
Outline
MNP0008
100
0.08
0.12
2.0
2.5
150
2.0
10
50
C12p
MNP0010
150
0.08
0.12
2.0
2.5
300
3.0
20
50
C12p
MNP0012
300
0.08
0.12
3.5
4.0
350
4.0
40
40
C12p
MNP0012A
350
0.18
0.22
0.55
0.80
650
6.0
40
25
C22p
MNP0014
500
0.12
0.18
1.3
1.6
750
8.0
80
20
C22p
MNP0014A
500
0.18
0.22
0.8
1.2
1,400
10.0
80
10
C32p
Test Conditions
I R = 10 A
VR = 10 V
I F = 10 mA
VR = 50 V
* F = 1 MHz
IF = 100 mA
F = 500 MHz
I F = 10
mA
I R = 6 mA
50% rec.
Packaged
CT
V BR
Model
RS
τ
CP
LP
Outline
MIN
V
TYP
pF
MAX
pF
TYP
MAX
TYP
ns
TYP
pF
TYP
nH
MNP0008-ET47P
100
0.48
0.60
2.0
2.5
150
2 x 0.20
2 x 0.25
ET47p
MNP0008-T54P
100
0.28
0.37
2.0
2.5
150
0.20
0.4
T54p
MNP0008-T55P
100
0.21
0.29
2.0
2.5
150
.013
0.25
T55p
MNP0008-T89P
100
0.33
0.43
2.0
2.5
150
0.25
0.4
T89p
MNP0010-ET47P
150
.048
0.60
2.0
2.5
300
2 x 0.20
2 x 0.25
ET47p
T54p
MNP0010-T54P
150
0.28
0.37
2.0
2.5
300
0.20
0.4
MNP0010-T55P
150
0.21
0.29
2.0
2.5
300
.013
0.25
T55p
MNP0010-T89P
150
0.33
0.43
2.0
2.5
300
.025
0.4
T89p
MNP0012-ET47P
300
0.48
0.60
3.5
4.0
350
2 x 0.20
2 x 0.25
ET47p
MNP0012-T54P
300
0.28
0.37
3.5
4.0
350
0.20
0.4
T54p
MNP0012-T55P
300
0.21
0.29
3.5
4.0
350
0.13
0.25
T55p
MNP0012-T89P
300
0.33
0.43
3.5
4.0
350
0.25
0.4
T89p
MNP0012A-ET47P
350
0.58
0.72
0.55
0.8
650
2 x 0.20
2 x 0.25
ET47p
MNP0012A-T54P
350
0.36
0.47
0.55
0.8
650
0.20
0.4
T54p
MNP0012A-T55P
350
0.31
0.39
0.55
0.8
650
0.13
0.25
T55p
MNP0012A-T89P
350
0.43
0.53
0.55
0.8
650
0.25
0.4
T89p
MNP0014-ET47P
450
0.52
0.58
0.8
1.2
750
2 x 0.20
2 x 0.25
ET47p
MNP0014-T54P
450
0.32
0.48
0.8
1.2
750
0.20
0.4
T54p
MNP0014-T55P
450
0.25
0.35
0.8
1.2
750
0.13
0.25
T55p
MNP0014-T89P
450
0.37
0.50
0.8
1.2
750
0.25
0.4
T89p
Test Conditions
I R = 10 A
20 | www.aeroflex.com/metelics
46
www.aeroflex.com/Metelics
VR = 10 V
I F = 10 mA
VR = 50 V
F = 1 MHz
IF = 100 mA
F = 500 MHz
I F = 10 mA
I R = 6 mA
50% rec.
Planar Silicon PIN / NIP Attenuator & Switching Diodes
Bare Die
•Lower series resistance for
switching applications
The Aeroflex / Metelics MSAT-0XXX PIN / MSAT-1XXX NIP series of diodes are
Planar PIN / NIP diodes used for switching and attenuator applications. The
attenuator line of PIN / NIP diodes offers a predictable RS vs. I F curve and low
harmonic distortion.
•Lower harmonic distortion
for attenuators
•Silicon Nitride / Silicon Oxide
passivation
Electrical Characteristics TC = +25°C
VBR
VF
Cj
RS
TL
V
mV
pF
Ohms
nS
MIN
TYP
TYP
MAX
TYP
MAX
TYP
MAX
MIN
TYP
MSAT-0010-C19
MSAT-0011-C19
MSAT-0020-C19
MSAT-0021-C19
MSAT-1020-C19P
MSAT-0040-C12
MSAT-0041-C12
MSAT-1040-C12P
MSAT-1041-C12P
MSAT-0080-C22
MSAT-0081-C12
MSAT-1080-C22P
MSAT-0120-C22-8
MSAT-0140-C22-8
MSAT-1140-C22P-8
100
100
100
100
100
150
150
200
200
200
200
250
250
300
350
925
870
880
920
890
880
930
860
905
820
850
840
905
820
840
0.09
0.25
0.13
0.06
0.13
0.10
0.06
0.09
0.045
0.13
0.045
0.13
0.10
0.10
0.10
0.15
0.30
0.15
0.08
0.15
0.15
0.08
0.15
0.06
0.15
0.06
0.15
0.15
0.15
0.15
195
100
200
255
215
535
720
1000
1500
920
1750
1700
1475
2200
2900
250
150
300
350
300
700
900
1500
1700
1200
2200
2000
1900
2800
3300
1.0
0.6
1.0
1.85
1.0
1.7
2.4
2.3
3.0
2.0
4.1
3.0
3.3
5.0
5.0
1.5
1.0
1.5
2.2
1.5
2.2
3.0
3.0
3.8
2.8
5.0
4.0
4.2
6.0
6.0
150
200
400
350
400
900
500
800
800
1500
750
1100
1800
1500
2000
215
325
620
500
620
1300
700
1000
1000
2300
1000
1600
2600
2000
3300
Test Conditions
MSAT-0XXX PIN
MSAT-1XXX NIP
Voltage
where I R
< 10µA
IF =
50mA
Model
Maximum Ratings
VR = 10V
F = 1 MHz
I F = 10µA
F = 100 MHz
I F = 10mA
I R = 6mA
10 - 50%
I F = 10mA
F = 100 MHz
Rating
Limits
Units
VR
VR
V
IF
150
mA
PDISS
250 de-rated to zero at 150°C
mW
TJ
+175
°C
TSTG
-65 to +200
°C
T Die Attach
<400°C for 5sec
Electrostatic Discharge (ESD)
Class 0 (Human Body Model)
*Exceeding any of the above limits can permanently damage the part.
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 47
NIP Diode: Medium Power Shunt Attenuator Element
•Low Distortion Harmonics at
85dBc Typical
The Aeroflex / Metelics MSAT-N25 is a broadband, High Linearity medium power
shunt NIP Attenuator element in 1.9 x 1.1 mm DFN package is designed for wireless
Telecommunication infrastructure and test instrument applications. It is also suited for
other applications in 0.1 ~ 10 GHz range.
•Broadband performance, beyond
10 GHz
•Low Insertion loss & high attenuation
range, 27dB
Package 2012
MSAT-N25, TC = +25°C
Rs
Min
TL
VBR
Rs
Low
Rs
High
TYP
nS
MAX
nS
TYP
Ω
MAX
Ω
MIN
Ω
TYP
Ω
MAX
Ω
MIN
Ω
TYP
Ω
MAX
Ω
MSAT-N25
200
2000
3000
5000
1.5
2.5
30
40
50
2000
3000
4000
Test
Conditions
Maximum Ratings
I F = 10mA
F = 500 MHz
I F = -1mA
F = 500 MHz
Rating
Limits
VBR
200
V
IF
200
mA
Units
θJC
20
°C/W
PDIS
2 (C.W.)
Watts
TJ
+175
°C
TSTG
-65 to +125
TSOLDER
20 | www.aeroflex.com/metelics
48
www.aeroflex.com/Metelics
I F = 100mA
F = 500 MHz
MIN
nS
I F = 10mA
I R = 6mA
10% / 90%
MIN
V
I R = 10µA
Model
+260°C per JEDEC J-STD-20C
°C
PIN Diode: Medium Power Shunt Attenuator Element
•Low Distortion Harmonics at
85 dBc Typical
The Aeroflex / Metelics MSAT-P25 broadband, High Linearity medium power shunt
PIN Attenuator element 1.9 x 1.1 mm DFN package is designed for wireless Telecommunication infrastructure and test instrument applications. It is also suited for other
applications in 0.1 ~ 10 GHz range.
•Broadband performance, beyond
10 GHz
•Low Insertion loss & high attenuation
range, 27dB
Package 2012
MSAT-P25, TC = +25°C
VBR
Rs
Min
TL
Rs
Low
Rs
High
TYP
nS
MAX
nS
TYP
Ω
MAX
Ω
Min
Ω
TYP
Ω
MAX
Ω
MIN
dB
TYP
dB
MIN
Ω
TYP
Ω
MAX
Ω
MSAT-P25
200
2000
3000
5000
1.5
2.5
20
30
40
28
35
1200
2200
3000
Test
Conditions
I F = -10mA
F = 500 MHz
Rating
Limits
VR
200
V
IF
200
mA
θJC
20
°C/W
TJ
+175
°C
TSTG
-65 to +125
°C
TSOLDER
20 | www.aeroflex.com/Metelics
I F = -50mA
F = 500 MHz
I F = 10mA
IR = 6mA
10% / 90%
Maximum Ratings
I F = -50mA
F = <10.0 GHz
MIN
nS
I F = 100mA
F = 500 MHz
MIN
V
I R = 10µA
Model
Rs
Low
Units
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 49
PIN Diode: SPDT Switch
•Supports up to 20 watts power
The Aeroflex / Metelics MSW2T-1001 is a SPDT switch in a plastic 16L 3x3 QFN
package. Each pole is Electrical Series and Thermal direct to Ground. This device
is designed for wireless infrastructure, test instruments and other RF & microwave
applications from 100 MHz to 6 GHz.
•Low insertion loss typical 0.3dB
up to 6 GHz
•High Isolation 24dB typical up to
6 GHz
Plastic Molded 16L
3x3 QFN Package
VBR
TL
CT
Rlim
MIN
V
TYP
nS
TYP
pF
TYP
Ω
TYP
dB
MAX
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSW2T-1001
125
50
0.05
2
0.2
0.3
0.3
21
25
15
18
26
30
19
23
Test
Conditions
I R = 10µA
I F = 10mA
IR = 6mA
10% / 90%
VR = -20V
F = 1MHz
I F = 100mA
F = 500MHz
MSW2T-1001,TC = +25°C
IL
IL
IRL/ORL
IRL/ORL
I So
I So
Maximum Ratings
Rating
VR = -10 v
J1 – J2, J1 – J3
F < 6.0 GHz
VR = -10 v
J1 – J2, J1 – J3
F = 2.3 – 2.7
GHz
I F = 100mA
J1 – J2, J1 – J3
F < 6.0 GHz
Limits
Units
VR
125
V
IF
200
mA
θJC
130
°C/W
TJ
+175
°C
TSTG
-65 to +150
°C
TSOLDER
Typical RF performance on Demo Board at TA = 25°C, ZO = 50Ω, 10dBm small signal
20 | www.aeroflex.com/metelics
50
www.aeroflex.com/Metelics
I F = 100mA
J1 – J2, J1 – J3
F = 2.3 – 2.7
GHz
I F = 100mA
J1 – J2, J1 – J3
F < 6.0 GHz
I F = 100mA
J1 – J2, J1 – J3
F = 2.3 – 2.7
GHz
Model
+260°C per JEDEC J-STD-20C
Broadband, Mesa & Planar Beam Lead PIN Diodes
Beam Lead Chips
Plastic SMT
• Fast Switching Speed
The Aeroflex / Metelics MMP-1000 Series Beam Lead PIN diodes features a
unique glass and beam construction which allows for mechanical strength and
stability during assembly. They are designed for low resistance, low capacitance
and fast switching time.
• Low Capacitance
• Low Resistance
• Rugged Construction
The Aeroflex / Metelics Mesa Beam Lead PINs are suitable for microstrip or stripline
circuits and for circuits requiring high isolation from series mounted diodes as in
broadband multi-throw switches, phase shifters, attenuators, limiters and modulators.
Mesa Beam Lead PIN Diodes
Model
Vb
Cj
Rs
Rs
Tl
Ts
MIN
V
MAX
pF
MAX
Ohms
MAX
Ohms
TYP
nS
MAX
nS
5
MPN1000-12
100
.020
6.5
4.0
80
MPN1001-12
100
.027
6.0
3.5
80
5
MPN1002-12
100
.030
5.5
3.2
80
5
MPN1003-12
100
.035
5.0
2.9
80
5
MPN1004-12
100
.040
5.0
2.7
80
5
MPN1005-12
100
.048
5.0
2.5
80
5
MPN1006-12
100
.055
4.0
2.3
80
5
MPN1007-12
100
.065
4.0
2.1
80
5
MPN1100-12
50
.025
6.0
3.7
50
3
MPN1101-12
50
.030
5.0
3.5
50
3
MPN1102-12
50
.040
4.5
2.9
50
3
MPN1103-12
50
.060
4.0
2.5
@ 10 mA
@ -10 V, 1 MHz
@ 10 mA, 1 GHz
@ 50 mA, 1 GHz
50
IF = 10 mA
IR = 6 mA
Test Conditions
Maximum Ratings
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Power Dissipation
250 mW
Typical Lead Strength
6 grams
3
20% - 80%
Planar Beam Lead
CJ
VB R
Model
MIN
V
TYP
pF
τ
RS
MAX
pF
TYP
MAX
trr
TYP
ns
TYP
ns
PDISS
MAX
MW
Package
MPND4005-B15
100
0.018
0.020
5.5
6.5
125
–
250
B15
MPND4005-B16
100
0.018
0.020
5.5
6.5
125
–
250
B16
MPND4005-0402
100
0.070
0.090
5.5
6.5
125
–
250
0402
I F = 10 mA
VR = 10 V
TC = +25 ºC,
Derate
Linearly
to +175 ºC
Test Conditions
I R = 10 A
20 | www.aeroflex.com/Metelics
VR = 10 V
F = 15 GHz
CT
I F = 20 mA
F = 3 GHz
I F = 10 mA
I R = 6 mA
www.aeroflex.com/metelics | 51
Silicon Limiter Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Low Loss
Ceramic Hermetic SMT
Plastic SMT
The Aeroflex / Metelics MLP-7100 Series Limiter diodes are specially processed PIN
diodes with a thin intrinsic region designed for use in passive or active limiters over
the entire range of frequencies from 100 MHz to beyond 20 GHz. The different “I”
region thicknesses and capacitances provide variable threshold and leakage power
levels and power handling capability.
• Greater Bandwidth
• Fast Turn on Time
MLP7130 – MLP7122
DC Parameters
Vb
Cj
Cj
Rs
Rs
Tl
Pulsed
Thermal
Resistance
Thermal
Resistance
TYP
V
TYP
pF
MAX
pF
Typ
Ω
Typ
Ω
TYP
nS
TYP
C/W
MAX
°C/W
120
Model
MLP7130
15-30
0.12
0.10
2.0
4.0
5
30.0
MLP7131
15-30
0.20
0.15
1.5
3.0
5
20.0
80
MLP7100
20-45
0.20
0.15
1.5
5.0
5
20.0
100
MLP7101
20-45
0.50
0.30
1.2
4.5
10
12.0
80
MLP7102
20-45
0.70
0.50
1.0
4.0
10
10.0
55
100
MLP7140
30-60
0.12
0.10
2.0
4.0
7
20.0
MLP7141
30-60
0.20
0.15
1.5
4.0
7
15.0
70
MLP7110
45-75
0.20
0.15
1.5
4.0
10
15.0
80
MLP7111
45-75
0.50
0.30
1.2
3.5
15
10.0
60
MLP7112
45-75
0.70
0.50
1.0
3.0
20
6.0
40
MLP7120
120-180
0.20
0.15
1.5
3.5
50
1.2
40
MLP7121
120-180
0.60
0.30
1.0
3.0
50
0.5
20
MLP7122
120-180
0.80
0.50
0.5
3.0
100
0.3
15
@ 10 mA
@ 0 V, 1 MHz
@ -6 V, 1 MHz
@ 10 mA
1 GHz
@ 1 mA
1 GHz
IF = 10 MA
IR = 6 MA
1 usec
pulse
Test
Conditions
Maximum Ratings
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Maximum Leakage Current
0.5 mA at 88% of minimum rated breakdown
52
20 | www.aeroflex.com/metelics
www.aeroflex.com/Metelics
Silicon Limiter Diodes
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
Ceramic Hermetic SMT
Plastic SMT
MLP7130 – MLP7122
RF Characteristics
Model
continued
Peak Power In
Threshold
Leakage Pout
Insertion Loss
C.W. Power In
Recovery Time
MAX
dBm
TYP
dB
TYP
dBm
TYP
dB
MAX
W
TYP
nS
MLP7130
+47
+7
+19
0.1
2
5
MLP7131
+50
+7
+22
0.1
3
5
MLP7100
+50
+10
+22
0.1
2
10
MLP7101
+53
+10
+24
0.2
3
10
MLP7102
+56
+10
+25
0.2
4
10
MLP7140
+47
+12
+24
0.1
3
10
MLP7141
+50
+12
+27
0.1
4
10
MLP7110
+53
+15
+27
0.1
3
20
MLP7111
+56
+15
+29
0.2
4
20
MLP7112
+59
+15
+31
0.2
5
20
MLP7120
+60
+20
+39
0.1
5
50
MLP7121
+63
+20
+41
0.2
10
50
MLP7122
+66
+20
+44
0.2
15
50
Pulsed thermal
impedance is given
for 1 m pulse.
C.W. thermal
impedance presumes
infinite heat sink.
Threshold input
power produces
1 dB increase in
insertion loss.
1 GHz
Threshold input
power produces
1 dB increase in
insertion loss.
1 GHz
Chip loss can be
respresented as a
resistance in shunt
with the junction
capacitance.
3 GHz, zero Bias.
Loss data shown for
10 GHz for 0.15 and
0.30 pF chips, 5 CHz
for 0.50 pF chips.
Measured at
-10 dBm input.
Note that C.W. power
and average power
are not synonymous.
Power ratings are
computed in terms
of a peak junction
temperature of 200°
C, for short pulses,
an average junction
temperature of 125° C,
and an ambient of 25°
C. Duty factor 0.001
assumed for maximum
pulse power input.
Recovery time is
measured with
ground return
(less than 1.0 Ohms)
to 1 dB excess loss,
at 1 GHz.
Test
Conditions
Maximum Ratings
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Maximum Leakage Current
0.5 mA at 88% of minimum rated breakdown
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 53
PIN Diode: Medium Power Series Switch Element
•Small size (50 mils x 30 mils)
The Aeroflex / Metelics MSWSE-005-15 is a PIN diode SPST switch element designed
for medium incident power applications, up to 4W C.W. It has low insertion loss and
medium isolation below 6.0 GHz.
•Broadband performance up to
6.0 GHz
•Supports up to 4 watts power
when cold switched.
•Low insertion loss 0.5 dB typical
up to 6.0 GHz
•Cost effective choice for
switch applications
Molded Plastic DFN
Package 0503
MSWSE-005-15, TC = +25°C
MAX
pF
TYP
.05
0.11
.15
2.0
Maximum Ratings
MAX Ω
TYP
Ω
2.5
1.4
MAX Ω TYP nS
1.8
180
I SO
I SO
MAX
nS
TYP dB
MAX
dB
TYP
dB
MIN
dB
TYP dB
TYP
dB
300
0.25
0.40
0.5
13
16
10
Rating
Limits
Units
VR
200
V
IF
200
mA
θJC
50
°C/W
TJ
+175
°C
TSTG
-55 to +150
TSOLDER
20 | www.aeroflex.com/metelics
54
www.aeroflex.com/Metelics
Ω
IL
+260°C per JEDEC J-STD-20C
°C
VR = 50V
F < 6.0 GHz
TYP
pF
IL
TL
VR = 50V
F < 2.7 GHz
1050 0.035
MAX
pF
RS
I F = 50mA
F < 6.0 GHz
980
RS
I F = 50mA
F < 2.7 GHz
MSWSE-005-15 200
Test
Conditions
TYP
pF
VR = -50V
F = 1 MHz
MAX
mV
I F = 50mA
TYP
mV
I R = 10µA
MIN
V
CT
I F = 10mA
IR = 6mA
Measured
@ 50%
CJ
I F = 100mA
F = 500 MHz
VF
I F = 30mA
F = 500 MHz
VBR
VR = -50V
F = 1 MHz
Model
PIN Diode: Medium Power Series Switch Element
•Small size (50 mils x 30 mils)
The Aeroflex / Metelics MSWSE-010-15 is a PIN diode SPST switch element designed
for medium incident power applications, up to 10W C.W. It has low insertion loss and
medium isolation below 3.0 GHz.
•Broadband performance
up to 3.0 GHz
•Supports up to 10 watts power
when cold switched
•Low insertion loss 0.25 dB typical
up to 3.0 GHz
•Cost effective choice for switch
applications
Molded Plastic DFN
Package 0503
MSWSE-010-15, TC = +25°C
VBR
CT
RS
RS
TL
IL
IL
I SO
I SO
MAX
Ω
TYP
Ω
MAX
Ω
TYP
nS
MAX
nS
TYP
dB
MAX
dB
MIN
dB
TYP
dB
TYP
dB
MSWSE-010-15
200
870
950
0.14
0.21
0.25
0.8
1.0
0.6
0.8
500
900
0.25
0.30
13
17
11
Test
Conditions
Maximum Ratings
I F = 100mA
F = 500 MHz
Rating
Limits
Units
VR
200
V
IF
200
mA
θJC
50
°C/W
TJ
+175
°C
TSTG
-55 to +150
TSOLDER
20 | www.aeroflex.com/Metelics
VR = 50V
F < 2.0 GHz
TYP
Ω
VR = 50V
F < 1.0 GHz
MAX
pF
I F = 10mA
I R = 6mA
Measured @ 50%
TYP
pF
I F = 30mA
F = 500 MHz
TYP
pF
VR = -50V
F = 1 MHz
MAX
mV
VR = -50V
F = 1 MHz
TYP
mV
I F = 50mA
MIN
V
I F = 50mA
F < 2.0 GHz
CJ
I F = 50mA
F < 1.0 GHz
VF
I R = 10µA
Model
°C
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 55
PIN Diode: Medium Power Series Switch Element
Plastic SMT
•Small size (40 mils x 24 mils)
The Aeroflex / Metelics MSWSE-010-16S is a PIN diode SPST switch element
designed for medium incident power applications, up to 10W C.W. It has low
insertion loss and medium isolation below 3.0 GHz.
•Broadband performance
up to 3.0 GHz
•Supports up to 10 watts power
•Low insertion loss 0.25 dB typical
up to 3.0 GHz
•Cost effective choice for
switch applications
MSWSE-010-16S, TC = +25°C
0.11
0.15
Test
Conditions
Maximum Ratings
MAX Ω
0.2
1.0
1.3
0.6
MAX Ω TYP nS MAX nS
0.8
1000
1500
IL
TYP
dB
IL
I SO
MAX dB
TYP
dB
TYP dB
0.25
0.30
13
17
11
Rating
Limits
Units
VR
200
V
IF
200
mA
θJC
30
°C/W
TJ
+175
°C
TSTG
-55 to +150
TSOLDER
20 | www.aeroflex.com/metelics
56
www.aeroflex.com/Metelics
I SO
MIN
dB
+260°C per JEDEC J-STD-20C
°C
VR = 50V
F < 2.0 GHz
950
MAX pF
TL
VR = 50V
F < 1.0 GHz
870
RS
TYP
Ω
I F = 50mA
F < 2.0 GHz
250
RS
TYP
Ω
VR = -50V
F = 1 MHz
MSWSE-010-16S
VR = -50V
F = 1 MHz
TYP
pF
I F = 50mA
TYP
pF
I F = 50mA
F < 1.0 GHz
CT
MAX
mV
I F = 10mA
I R = 6mA
Measured @ 50%
CJ
TYP
mV
I F = 100mA
F = 500 MHz
VF
MIN
V
I F = 30mA
F = 500 MHz
VBR
I R = 10µA
Model
PIN Diode: Medium Power Series Switch Element
•Small size (50 mils x 30 mils)
The Aeroflex / Metelics MSWSE-020-05 is a PIN diode SPST switch element designed
for medium incident power applications, up to 20W C.W. It has low insertion loss and
medium isolation below 0.5 GHz.
•Broadband performance up to
1.0 GHz
•Supports up to 20 watts
power when cold switched
•Low insertion loss 0.05dB typical
up to 1.0 GHz
•Cost effective choice for switch
applications
Package 0503
MSWSE-020-05, TC = +25°C
CJ
Test
Conditions
Maximum Ratings
0.53 0.65
I SO
TYP
pF
MAX
pF
TYP
Ω
MAX Ω
TYP
Ω
MAX Ω
TYP
nS
MAX
nS
TYP
dB
MAX
dB
MIN
dB
TYP
dB
TYP
dB
0.62
0.75
0.3
0.5
0.1
0.3
600
1000
0.05
0.15
11
14
8
Rating
Limits
Units
VR
250
V
IF
500
mA
θJC
15
°C/W
TJ
+175
°C
TSTG
-55 to +150
TSOLDER
20 | www.aeroflex.com/Metelics
I SO
VR = 50V
F < 1.00 GHz
950
IL
VR = 50V
F < 0.50 GHz
850
TL
I F = 50mA
F < 1.00 GHz
250
MAX
pF
RS
I F = 10mA
I R = 6mA
Measured at 50%
MSWSE-020-05
TYP
pF
RS
I F = 100mA
F = 500 MHz
MAX
mV
VR = -50V
F = 1 MHz
TYP
mV
I F = 50mA
MIN
V
CT
I F = 10mA
F = 500 MHz
VF
VR = -50V
F = 1 MHz
VBR
I R = 10µA
Model
°C
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 57
PIN Diode: Medium Power Series Switch Element
• Supports up to 40 watts power
when cold switched
The Aeroflex / Metelics’ broadband, high linearity, medium power series switch
element in a 2.0 X 1.3 mm to QFN package 0805P. This device is designed for
WiMax, Wibro, WLAN, TD-SCDMA and other wireless infrastructure applications.
It is also suited for 0.1 ~ 3 GHz applications with up to 40 watts of power.
• Low insertion loss 0.25 dB typical
up to 2.7 GHz
• Medium isolation 11 dB typical
up to 2.7 GHz
Package 0805P
Vbr
Vf
Cj
RS
MIN
V
TYP
mV
MAX
pF
TYP
W
TYP
W
MSWSE-040-10
300
900
0.12
3.0
1.2
Test Conditions
I r = 10 mA
Vf = 50 mA
Vr = 50 V
I f = 10 mA, F = 500 MHz
MSWSE-040-10, Ta = +25° C
RS
TL
IL
IL
IRL
IRL
Iso
Iso
Model
Maximum Ratings
0.20
0.25
0.35
Rating
Limits
Vr
300 V
If
100 mA
Qjc
20° C/W
Tj
+150° C
Storage Temperature
-65° C to +125° C
Soldering Temperature
+260° C per JEDEC J-STD-20C
20 | www.aeroflex.com/metelics
58
www.aeroflex.com/Metelics
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
25
15
20
10
14
9
11
I f = 50 mA
F = 2.025 GHz
15
MIN
dB
Vr = 10 V
F= 2.3 ~ 2.7 GHz
0.12
TYP
dB
Vr = 10 V
F= 2.025 GHz
MAX MIN
dB
dB
I f = 50 mA
F = 2.3 ~ 2.7 GHz
TYP
dB
I f = 50 mA
F = 2.3 ~ 2.7 GHz
1.0
MAX
dB
I F = 10 mA
I R = 6 mA
I f = 50 mA
F = 500 MHz
2.0
TYP
dB
I f = 50 mA
F = 2.025 GHz
MAX MAX
W
mS
PIN Diode: Medium Power Shunt Switch Element
•Broadband performance up to
2.0 GHz
The Aeroflex / Metelics MSWSE-044-10 is a PIN diode SPST switch element designed
for medium incident power applications, up to 40W C.W. It has low insertion loss and
medium isolation below 2.0 GHz.
•Cost effective choice for
switch applications
Package 0805P
PIN Function:
1. Anode
2. Cathode
MSWSE-044-10, TC = +25°C
VBR
VF
CT
RS
TL
IL
IL
Iso
Iso
TYP
nS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
TYP
dB
MSWSE-044-10
300
900
1000
0.30
0.40
0.5
0.70
1200
0.20
0.30
0.25
0.35
11
14
10
Test
Conditions
Maximum Ratings
I F = 50mA
Rating
Limits
VR
300V
IF
200mA
θJC
20°C/W
TJ
+175°C
TSTG
-55 to +150°C
TSOLDER
+260°C per JEDEC J-STD-20C
20 | www.aeroflex.com/Metelics
VR = 50V
F < 2.0 GHz
MAX
Ω
VR = 50V
F < 1.0 GHz
TYP
Ω
I F = 50mA
F < 2.0 GHz
MAX
dB
I F = 50mA
F < 1.0 GHz
TYP
dB
IF = 10mA
I R = 6 mA
Measured @ 50%
MAX
mV
I F = 100mA
F = 500 MHz
TYP
mV
VR = 10 V
F = 1 MHz
MIN
V
I R = 10µA
Model
www.aeroflex.com/metelics | 59
PIN Diode: Medium Power Series Switch Element
•Broadband performance up to
3.0 GHz
The Aeroflex / Metelics MSWSE-050-17 is a PIN diode SPST switch element designed
for medium incident power applications, up to 60W C.W. It has low insertion loss.
•Low insertion loss
•Cost effective choice for switch
applications
Package 0805P
MSWSE-050-17, TC = +25°C
VBR
VF
CT
RS
TL
IL
IL
I SO
I SO
TYP
nS
TYP dB
MAX
dB
TYP dB
MAX
dB
MIN dB
TYP dB
MIN
dB
TYP
dB
MSWSE-050-17
500
850
950
0.20
0.25
0.25
0.30
1000
0.1
0.2
0.1
0.2
22
24
10
12
Test
Conditions
Maximum Ratings
VR = 50V
F = 1 MHz
Rating
Limits
Units
VR
500
V
IF
500
mA
θJC
10
°C/W
TJ
+175
°C
TSTG
-55 to +150
°C
TSOLDER
20 | www.aeroflex.com/metelics
60
www.aeroflex.com/Metelics
VR = 50V
F < 2.0 GHz
MAX
Ω
VR = 50V
F < 0.5 GHz
TYP
Ω
I F = 50mA
F < 2.0 GHz
MAX
PF
I F = 50mA
F < 0.5 GHz
TYP
PF
I F = 10mA
I R = 6mA
Measured @ 50%
MAX
mV
I F = 100mA
F = 100 MHz
TYP
mV
I F = 50mA
MIN
V
I R = 10µA
Model
+260°C per JEDEC J-STD-20C
PIN Diode: Medium Power SPST Switch Element
•Broadband performance
up to 0.8 GHz
The Aeroflex / Metelics MSWSER-070-10 is a PIN diode SPST switch element
designed for medium incident power applications, up to 80W C.W. It has low
insertion loss.
•Low insertion loss
•Cost effective choice for switch
applications
Package 3023
MSWSER-070-10, TC = +25°C
VBR
VF
CT
RS
TL
RP
IL
IL
I SO
I SO
TYP
Ω
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSER-070-10
500
850
950
0.9
1.0
0.20
0.30
5000
20K
30K
0.1
0.2
0.15
0.30
14
16
8
10
Test
Conditions
Maximum Ratings
Rating
Limits
Units
VR
500
V
IF
500
mA
θJC
10
°C/W
TJ
+175
°C
TSTG
-55 to +150
TSOLDER
20 | www.aeroflex.com/Metelics
VR = 50V
F < 8.0 GHz
MIN
Ω
VR = 50V
F < 0.4 GHz
TYP
nS
I F = 50mA
F < 8.0 GHz
MAX
Ω
I F = 50mA
F < 0.4 GHz
TYP
Ω
VR = 40V
F = 0.5 GHz
MAX
pF
I F = 10mA
I R = 6mA
Measured at 50%
TYP
pF
I F = 100mA
F = 100 MHz
MAX
mV
VR = 50V
F = 1 MHz
TYP
mV
I F = 50mA
MIN
V
I R = 10µA
Model
°C
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 61
PIN Diode: Medium Power Series Switch Element
•Broadband performance up to
0.8 GHz
The Aeroflex / Metelics MSWSER-100-05 is a PIN diode SPST switch element
designed for medium incident power applications, up to 80W C.W. It has low
insertion loss.
•Low insertion loss
•Cost effective choice for switch
applications
Package 3023
MSWSER-100-05, TC = +25°C
VBR
VF
CT
RS
TL
RP
IL
IL
I SO
I SO
MIN
dB
TYP
dB
MIN
dB
TYP
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSER-100-05
500
850
950
0.65
0.75
0.28
0.40
4000
20K
52K
0.10
0.20
0.15
0.30
14
16
8
10
Test
Conditions
Maximum Ratings
Limits
Units
VR
500
V
IF
500
mA
θJC
10
°C/W
TJ
+175
°C
TSTG
-55 to +150
°C
TSOLDER
20 | www.aeroflex.com/metelics
62
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VR = 40V
F = 0.5 GHz
Rating
+260°C per JEDEC J-STD-20C
VR = 50V
F < 8.0 GHz
TYP
nS
VR = 50V
F < 0.4 GHz
MAX
Ω
I F = 50mA
F < 8.0 GHz
TYP
Ω
I F = 50mA
F < 0.4 GHz
MAX
pF
I F = 10mA
I R = 6mA
Measured at 50%
TYP
pF
I F = 100mA
F = 100 MHz
MAX
mV
VR = 50V
F = 1 MHz
TYP
mV
I F = 50mA
MIN
V
I R = 10µA
Model
PIN Diode: Medium Power Shunt Switch Element
• Supports up to 20 watts power
when cold switched
The Aeroflex / Metelics’ broadband, high linearity, medium power shunt switch
element in a 1.9 X 1.1 mm QFN package. This device is designed for WiMax,
Wibro, WLAN, TD-SCDMA and other wireless infrastructure applications. It is
also suited for 0.1 ~ 6 GHz applications with up to 20 watts of power.
• Low insertion loss 0.25 dB typical
out to 2.7 GHz
• High Isolation 31 dB typical
up to 2.7 GHz
Package 2012
Vbr
Cj
MIN
V
TYP
pF
TYP
W
MAX
W
MAX
nS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSH-020-30
100
0.13
0.6
0.9
500
0.25
0.35
0.35
0.45
15
19
10
14
26
31
25
27
Test Conditions
I r = 10 mA
MSWSH-020-30, Tc = +25° C
RS
TL
IL
IL
IRL
IRL
Iso
Iso
Maximum Ratings
Rating
Limits
Vr
100 V
If
100 mA
Qjc
30° C/W
Tj
+150° C
Storage Temperature
-65° C to +125° C
Soldering Temperature
+260° C per JEDEC STD-J-20C
I f = 50 mA
F = 6.0 GHz
I f = 50 mA
F = 2.3 ~ 2.7 GHz
Vr = 10 V
F = 6.0 GHz
Vr = 10 V
F = 2.3 ~ 2.7 GHz
Vr = 10 V
F = 6.0 GHz
Vr = 10 V
F = 2.3 ~ 2.7 GHz
I F = 10 mA
I R = 6 mA
I f = 50 mA
F = 500 MHz
Vr = 10 V, F = 1 MHz
Model
www.aeroflex.com/metelics | 63
PIN Diode: Medium Power Shunt Switch Element
•Supports up to 40 watts power
The Aeroflex / Metelics MSWSH-040-30 is a broadband, high linearity, medium
power shunt switch element in a 1.9 x 1.1 mm DFN package. This device is designed
for wireless telecommunications infrastructure and test instrument applications. It is
also suited for other applications in 0.05-6 GHz.
•Low Insertion loss typical 0.10 dB
to 2.7 GHz
•Low Insertion loss typical 0.25 dB
typical out to 6.0 GHz
•High Isolation 25 dB typical to
6.0 GHz
Package 2012
VBR
TL
RS
CT
MIN
V
TYP
ns
TYP
Ω
TYP
pF
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSH-040-30
500
1000
0.36
0.42
0.10
0.30
0.30
0.50
18
22
13
15
29
32
24
26
Test Conditions
I R = 10µA
I F = 10mA
I R = 6 mA
Measured @ 50%
I F = 100mA
F = 500 MHz
Vr = -50V
1 MHz
MSWSH-040-30, TC = + 25°C
Maximum Ratings
20 | www.aeroflex.com/metelics
64
www.aeroflex.com/Metelics
Iso
Vr = 10V
F<6.0 GHz
Rating
Limits
VR
500V
IF
500mA
θJC
10°C/W
TJ
+175°C
TSTG
-55 to +150°C
TSOLDER
+260°C per JEDEC J-STD-20C
I F = 100mA
F<6.0 GHz
Iso
I F = 100mA
F = 2.7 GHz
IRL/ORL
Vr = 10V
F=2.7 GHz
IL
Vr = 10V
F<6.0 GHz
IL
Vr = 10V
F=2.7 GHz
Model
PIN Diode: Medium Power Shunt Switch Element
•Broadband performance up to
2.0 GHz
The Aeroflex / Metelics MSWSH-050-10 is a PIN diode SPST switch element
designed for medium incident power applications, up to 70W C.W. It has low insertion loss.
•Low Insertion Loss
•Cost effective choice for
switch applications
PIN Function:
1. Anode
2. Cathode
Package 0805P
MSWSH-050-10, TC = +25°C
RS
TL
IL
IL
Iso
Iso
TYP
nS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
850
950
500
0.53
0.65
0.4
0.60
3200
0.1
0.2
0.1
0.2
12
15
-
10
Maximum Ratings
Rating
Limits
VR
500V
IF
500mA
θJC
10°C/W
TJ
+175°C
TSTG
-55 to +150°C
TSOLDER
+260°C per JEDEC J-STD-20C
VR = 50V
F < 1.0 GHz
MAX
Ω
VR = 50V
F < 0.5 GHz
TYP
Ω
IF = 50mA
F < 1.0 GHz
MAX
dB
IF = 50mA
F < 0.5 GHz
TYP
dB
IF = 10mA
IR = 6mA
Measured @ 50%
MIN
V
IF = 100mA
F = 500 MHz
MAX
mV
VR = 50V
F = 1 MHz
Test
Conditions
CT
TYP
mV
IR = 10µA
MSWSH-050-10
VBR
VF
IF = 50mA
Model
www.aeroflex.com/metelics | 65
PIN Diode: Medium Power Shunt Switch Element
•Supports up to 40 watts power
The Aeroflex / Metelics MSWSHB-020-30 is a broadband, high linearity, medium
power shunt switch element in a 1.9 x 1.1 mm DFN package. This device is designed
for wireless telecommunications infrastructure and test instrument applications in
0.05 ~ 10 GHz.
•Low Insertion loss typical
0.2dB to 2.7 GHz
•Low Insertion loss typical
0.4dB to 10.0 GHz
•High Isolation 30dB typical to
10.0 GHz
Package 2012
VBR
TL
MIN
V
TYP
nS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSHB-020-30
200
4000
0.08
0.2
0.4
0.5
25
28
15
20
33
40
28
32
Test Conditions
I R = 10µA
I F = 10mA
I R = 6mA
Measured @ 50%
MSWSHB-020-30, TC = 25°C
Maximum Ratings
Rating
VR
IF
θJC
TJ
TSTG
TSOLDER
20 | www.aeroflex.com/metelics
66
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Iso
I F = 20mA
F < 10.0 GHz
Iso
I F = 20mA
F = 2.7 GHz
IRL/ORL
VR = 10V
F < 10.0 GHz
IRL/ORL
VR = 10V
F=2.7 GHz
IL
VR = 10V
F < 10.0 GHz
IL
VR = 10V
F = 2.7 GHz
Model
Limits
200
200
15
+175
-65 to +150
+260°C per JEDEC J-STD-20C
Units
V
mA
°C
°C
PIN Diode: Medium Power Shunt Switch Element
•Supports up to 40 watts power
The Aeroflex / Metelics MSWSHC-040-40 is a broadband, high linearity, medium
power shunt switch element in a 2.6 x 1.5 mm DFN package. This device is designed
for wireless telecommunications infrastructure and test instrument applications in
0.05 ~ 10 GHz.
•Low Insertion loss typical 0.2 dB
to 2.7 GHz
•Low Insertion loss typical 0.4 dB
to 8.0 GHz
•High Isolation 55 dB typical to
2.7 GHz
Package 2615
MSWSHC-040-40, TC = +25°C
Maximum Ratings
MIN
V
TYP
nS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
300
3000
0.2
0.3
0.4
0.5
20
25
14
16
50
55
35
40
Rating
Limits
VR
300V
IF
200mA
θJC
9°C/W
TJ
+175°C
TSTG
-65 to +150°C
TSOLDER
+260°C per JEDEC J-STD-20C
If=100mA
F<8.0 GHz
Iso
If = 100mA
F=2.3 - 2.7 GHz
Iso
Vr = 50V
F<8.0 GHz
IRL/ORL
Vr=50V
F=2.3 - 2.7 GHz
IL
Vr = 50V
F<8.0 GHz
IL
Vr = 50V
F = 2.3 - 2.7 GHz
Test Conditions
TL
I F = 10mA
IR = 6MA
Measured @ 50%
MSWSHC-040-40
VBR
IR = 10µA
Model
www.aeroflex.com/metelics | 67
PIN Diode: High Power Shunt Switch Element
• Supports up to 100 watts power
when hot switched
The Aeroflex / Metelics’ broadband, high linearity, high power shunt switch element in
a 10 X 4 mm bolt channel metal package CM22. This device is designed for WiMax,
Wibro, WLAN, TD-SCDMA and other wireless infrastructure applications. It is also
suited for 0.1 ~ 6 GHz applications with up to 100 watts of power.
• Supports up to 300 watts power
when cold switched
• Low insertion loss 0.15 dB typical
up to 2.7 GHz
• High isolation 31 dB typical
up to 2.7 GHz
Package CM22
Vbr
Vf
Cj
MIN
V
TYP
mV
TYP
pF
TYP
W
MSWSH-100-30
700
850
0.4
0.4
Test Conditions
I r = 10 mA
I f = 100 mA
Vr = 50 V, F = 1 MHz
MSWSH-100-30, Ta = +25° C
RS
TL
IL
IL
IRL
IRL
Iso
Iso
Model
Maximum Ratings
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
0.15
0.25
0.35
0.45
15
22
10
15
28
31
23
26
Rating
Limits
If
1 Amp
Qjc
5.0° C/W
Tj
+175° C
Storage Temperature
-65° C to +150° C
Soldering Temperature
+230° C for 30 seconds
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I f = 100 mA
F = 6.0 GHz
TYP
dB
I f = 100 mA
F = 2.3 ~ 2.7 GHz
MIN
dB
Vr = 50 V
F = 6.0 GHz
MAX
dB
Vr = 50 V
F = 2.3 ~ 2.7 GHz
TYP
dB
Vr = 50 V
F = 6.0 GHz
1.0
MAX
dB
I F = 10 mA
I R = 6 mA
I f = 100 mA
F = 500 MHz
0.6
TYP
dB
Vr = 50 V
F = 2.3 ~ 2.7 GHz
MAX MAX
W
mS
PIN Diode: Series Shunt Integrated Switch Element
•Supports up to 20 watt
The Aeroflex / Metelics MSWSSB-020-30 broadband, high linearity medium power
series shunt switch element in a 1.9 x 1.1 mm DFN package. This device is designed
for a wireless Telecommunications infrastructure and test instrument applications.
It is also suited for other applications in 0.1 - 10GHz.
•Low insertion loss typical 0.3dB @
2.7GHz
•Low insertion typical loss typical
0.4dB @ 10.0GHz
•High Isolation typical 55dB @
2.7GHZ
•High Isolation typical 33dB @
10.0GHZ
Package 2012
MIN
dB
15
TYP
dB
20
MIN
dB
45
TYP
dB
55
MIN
dB
28
TYP
dB
35
CT
CT
RS
RS
TYP
pF
0.26
TYP
pF
0.48
TYP
Ω
0.40
TYP
Ω
1.22
IF = 100mA
F = 500 MHz
Shunt Diode
TYP
dB
25
Iso
IF = 100mA
F = 500 MHz
Shunt Diode
MIN
dB
20
Iso
VR = 50V
F = 1 MHz
Series Diode
TYP MAX TYP MAX
dB
dB
dB
dB
0.3 0.5 0.6 0.8
IRL/ORL
I = +50mA*
F = 6.0 GHz
IRL/ORL
I = +50mA*
F = 2.3 ~ 2.7 GHz
IL
I = -50mA*
F <10.0 GHz
TYP
nS
1000
I F = 10mA
I R = 6mA
Measured @ 50%
Test Conditions
I R = 10µA
MIN
V
MSWSSB-020-30 200
IL
I = -50mA*
F = 2.3 ~ 2.7 GHz
TL
I = -50mA*
F <10.0 GHz
VBR
I = -50mA*
F= 2.3 ~ 2.7 GHz
Model
VR = 50V
F = 1 MHz
Shunt Diode
MSWSSB-020-30, TC = +25°C
* Positive current is defined as current going into PIN 2
Maximum Ratings
Rating
Limits
Units
VR
200
V
IF
200
mA
θJC
20
°C/W
TJ
+175
°C
TSTG
-65 to +150
°C
TSOLDER
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 69
PIN Diode: Series Shunt Integrated Switch Element
• Supports up to 20 watts power
when cold switched
The Aeroflex / Metelics’ broadband, high linearity, medium power series shunt
integrated switch element in a 1.9 X 1.1 mm QFN package. This device is designed
for WiMax, Wibro, WLAN, TD-SCDMA and other wireless infrastructure applications.
It is also suited for 0.1 ~ 6 GHz applications with up to 20 watts of power.
• Low insertion loss 0.4 dB typical
out to 2.7 GHz
• High isolation 45 dB typical
up to 2.7 GHz
Package 2012
Vbr
TL
MIN
V
MAX
mS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSS-020-40
100
1.0
0.3
0.5
0.6
0.8
15
21
10
13
15
22
10
13
40
50
30
35
Test Conditions
I r = 10 mA
I F = 10 mA
I R = 6 mA
MSWSS-020-40, Tc = +25° C
IL
IL
IRL
IRL
ORL
ORL
Iso
Iso
Maximum Ratings
Rating
Limits
Vr
100 V
If
100 mA
Qjc
30° C/W
Tj
+150° C
Storage Temperature
-65° C to +125° C
Soldering Temperature
+260° C per JEDEC STD-J-20C
* Positive current is defined as current going into PIN 3.
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I = +50 mA*
F = 6.0 GHz
I = +50 mA*
F = 2.3 ~ 2.7 GHz
I = -50 mA*
F = 6.0 GHz
I = -50 mA*
F = 2.3 ~ 2.7 GHz
I = -50 mA*
F = 6.0 GHz
I = -50 mA*
F = 2.3 ~ 2.7 GHz
I = -50 mA*
F = 6.0 GHz
I = -50 mA*
F = 2.3 ~ 2.7 GHz
Model
PIN Diode: Medium Power Shunt Switch Element
•Surface mountable series
shunt switch
The Aeroflex / Metelics MSWSS-040-30 is a surface mount medium power series
shunt switch. The shunt device is based on Metelics Stripline PIN™ which gives
broadband high isolation. This device can be surface mounted onto a PC board to
give a Low insertion loss and high Isolation switch. The device can handle up to 20
watts of power. Hot switching will depend on the speed of switch power.
•Low insertion loss <0.5dB to 3 GHz
•High Isolation dB typical >40dB out
to 3 GHz
Package 2012
MAX
mV
TYP
pF
TYP
Ω
MAX
Ω
MIN
nS
TYP
nS
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MSWSS-040-30
500
100
1000
0.15
0.8
1.0
1000
1500
0.3
0.5
0.6
0.8
-45
-55
-30
-35
Test
Conditions
VR = 80V
I F = 100mA
IL
Bias = -50mA
F <3.0 GHz
IL
I SO
I SO
Limits
Units
VR
125
V
IF
200
mA
θJC
130
°C/W
TJ
+175
°C
TSTG
-65 to +150
°C
TSOLDER
Bias = -50mA
F <8.0 GHz
MAX
nA
Rating
TL
Bias = -50mA
F <3.0 GHz
MIN
V
Maximum Ratings
RS
Bias = -50mA
F <8.0 GHz
CJ
I F = 10mA
I R = 6mA
Series/Shunt Diode
VF
I F = 100mA
F = 100 MHz
Series/Shunt Diode
IR
Model
VR = 10V
F = 1 MHz
Series/Shunt Diode
VBR
I R = 10µA
MSWSS-040-30, Tc = +25° C
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 71
PIN Diode: Medium Power Thermal to Ground Switch Element
The Aeroflex / Metelics MEST2G-010-20 is a broadband medium power switch
element in a 1.9 x 1.1 mm DFN package. This device is Electrical Series and
Thermal direct to Ground (EST²G), and can be designed for wireless infrastructure
applications and test instruments. It is also suited for other applications from
100 MHz up to 10 GHz.
•Supports up to 10 watts power
•Low Insertion loss typical 0.5dB
up to 2.7 GHz
•High Isolation typical 23dB typical
up to 2.7 GHz
Package 2012
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MEST2G-010-20
125
50
0.4
0.6
0.75
1.0
20
25
12
15
20
23
11
14
Test Conditions
Rating
IRL
IS
Limits
VR = -10V
F < 8.0 GHz
I F = 50mA
F < 8.0 GHz
IS
Units
VR
125
V
IF
100
mA
θJC
130
°C/W
TJ
+175
°C
TSTG
-65 to +150
TSOLDER
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IRL
VR = -10V
F = 2.3 ~ 2.7 GHz
TYP
nS
I F = 10mA, I R = 6mA
10% / 90%
IL
I F = 50mA
F = 2.3 ~ 2.7 GHz
MIN
V
Maximum Ratings
IL
I F = 50mA
F < 8.0 GHz
TL
Model
I F = 50mA
F = 2.3 ~ 2.7 GHz
VBR
I R = 10µA
MEST2G-010-20, TC = +25°C
+260°C per JEDEC J-STD-20C
°C
PIN Diode: Medium Power Thermal to Ground Switch Element
•Supports up to 20 watts power
The Aeroflex / Metelics MEST²G-020-15 is a broadband medium power switch
element in a 1.9 x 1.1 mm DFN package. This device is Electrical Series and Thermal
direct to Ground (EST²G). This device can be designed for wireless infrastructure
applications and test instruments. It is also suited for other applications from 100 MHz
up to 6 GHz.
•Low Insertion loss typical 0.2dB
up to 2.7 GHz
•High Isolation typical 18dB
up to2.7 GHz
Package 2012
MEST2G-020-15, TC = +25°C
MIN
dB
IRL
TYP
dB
MIN
dB
IRL
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
125
50
0.2
0.3
0.3
23
27
18
22
15
18
10
12
I F = 50mA
F <6.0 GHz
I So
I So
VR = -10V
F <6.0 GHz
IL
VR = -10V
F = 2.3 ~ 2.7 GHz
TYP
dB
I F = 50mA
F = 2.3 ~ 2.7 GHz
MAX
dB
Maximum Ratings
IL
I F = 50 mA
F <6.0 GHz
TYP
dB
I F = 50mA
F = 2.3 ~ 2.7 GHz
Test
Conditions
TL
TYP
nS
I F = 10mA
I R = 6mA
10% / 90%
MEST2G-020-15
VBR
MIN
V
I R = 10µA
Model
Parameters
Rating
Units
VR
125
V
IF
100
mA
θJC
65
°C/W
TJ
+175
°C
TSTG
-65 to +150
TSOLDER
°C
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 73
PIN Diode: Thermal to Ground Switch Element
•Low Insertion Loss <0.40 dB
at 2.0 GHz
The Aeroflex / Metelics MEST²G-150-020-CM26 is an Electrical Series Thermal
to Ground Series diode Switch Element in a bolt down Copper package. This part
is designed for a reliable high power switch application up to 150 watts. Usable
up to 10 GHz.
•Low Insertion Loss <0.85 dB
at 6.0 GHz
•Medium Isolation >20 dB
at 2.0 GHz
1
2
•Medium Isolation >10 dB
at 6.0 GHz
•High Power Handling 150 watts
Package CM26
VBR
IR
VF
RS
TL
MIN
V
MAX
nA
MAX
mV
TYP
Ω
TYP
ns
TYP
dB
MAX
dB
TYP
dB
MAX
dB
TYP
dB
MAX
dB
TYP
dB
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MEST2G-150-020-CM26
600
100
1850
1.8
1800
1.30:1
1.40:1
1.45:1
1.70:1
0.25
0.40
0.60
0.75
20.0
23
10.0
12.0
Test
Conditions
I R = 10µA
VR = 100V
I F = 50mA
I F = 100mA; F = 100 MHz
2 Diodes
I F = 10mA; I R = 6mA
Measured @ 50%
MEST2G-150-020-CM26, TC = +25°c
Maximum Ratings
Limits
VR
600
Units
V
I FDC
250
mA
θJC
8
°C/W
TJ
-40 to +175
°C
TSTG
-55 to +150
°C
+260°C per JEDEC J-STD-20C
VR = 10V
F <6.0 GHz
I SO
VR = 10V
F <2.0 GHz
I SO
I F = 100mA
F <6.0 GHz
IL
I F = 100mA
F <2.0 GHz
IL
I F = 100mA
F <6.0 GHz
VSWR
Rating
TSOLDER
20 | www.aeroflex.com/metelics
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VSWR
I F = 100mA
F <2.0 GHz
Model
PIN Diode: Thermal to Ground Switch Element
•Low Insertion Loss <0.35 dB at
2.0 GHz
The Aeroflex / Metelics MEST²G-080-25-CM27 is an Electrical Series Thermal To
Ground Series diode Switch Element in a bolt down Copper package. This part is
designed for a reliable high power switch application up to 80 watts. Usable up
to 10 GHz.
•Low Insertion Loss <0.60 dB at
6.0 GHz
•Medium Isolation >22 dB at 2.0 GHz
•Medium Isolation >14 dB at 6.0 GHz
•High Power Handling 80 watts at
2 GHz or less
Package CM27
500
40 100 0.93 1.05 0.90 0.97 1550 27
Test Conditions
Maximum Ratings
TYP
Ω
TYP
nS
TYP MAX TYP MAX
dB
dB
dB
dB
13
16
I F = 100mA
F <6.0 GHz
31
I F = 100 mA
F <2.0GHz
I F = 10mA, I R = 6 mA
Measured at 50%
TYP
pF
IF = 100mA, F = 100 MHz
Single Diode
IRL / ORL IRL / ORL
VR = 50V, F = 1 MHz
Single Diode
I F = 100mA
Single Diode
MAX
mV
TL
IL
TYP
dB
IL
MAX
dB
TYP
dB
I SO
I SO
MAX
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
0.20 0.35 0.45 0.60
22
25
14
17
Rating
Limits
VR
500
V
I FDC
200
mA
θJC
30
°C/W
TJ
-40 to +175
°C
TSTG
-55 to +150
°C
TSOLDER
VR = 10V
F <6.0 GHz
MEST²G-080-25-CM27
TYP
mV
RS
VR = 10V
F <2.0 GHz
TYP MAX
nS
nS
CJ
I F = 100 mA
F <6.0 GHz
MIN
V
VF
I F = 100 mA
F <2.0 GHz
IR
Model
VR = 100V
Single Diode
VBR
I R = 10µA
Single Diode
MEST2G-080-25-CM27, TC = +25°c
Units
+260°C per JEDEC J-STD-20C
www.aeroflex.com/metelics | 75
PIN Diode: Medium Power Series Switch Element
•Supports up to 10 watts power
•Low Insertion loss typical 0.4 dB
up to 40 GHz
•High Isolation typical 12 dB typical
at 10 GHz
The Aeroflex / Metelics MEST²GFC-010-25 broadband medium power series switch
element in chip form (26 x 12 mils). This is an Electrical Series device with a direct
Thermal path to Ground (EST2G). It can be used in place of beam lead devices for
medium power (up to 10 watts) series switching. It is also suited for other applications from 100 MHz up to 40 GHz.
Chip
Rmin
MIN
V
TYP
nS
TYP
Ω
TYP
dB
MAX
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
MIN
dB
TYP
dB
125
50
2.0
0.3
0.4
0.4
-25
-28
-
-15
10
12
15
18
Maximum Ratings
I So
VR = -10V
F <6.0 GHz
I F = 50mA
F <40 GHz
I So
VR = -10V
F = 10 GHz
IRL
I F = 50mA
F = 10 GHz
IRL
Rating
Limits
Units
VR
100
V
I FDC
100
mA
θJC
65
°C/W
TJ
+150
°C
TSTG
-65 to +150
TSOLDER
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IL
I F = 100mA
F <40 GHz
IL
I F = 50mA
F = 10 GHz
Test Conditions
TL
IF = 100mA
F = 500 MHz
MEST2GFC-010-25
VBR
I R = 10µA
Model
I F = 10mA
I R = 6mA
10% / 90%
MEST2GFC-010-25, TC = +25°c
+260°C per JEDEC J-STD-20C
°C
Surface Mount PIN Diode SP2T Switches
•Surface Mount SP2T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (125W C.W. Power)
•Higher Voltage >500 Volts for a
Higher RF Peak Power (500W Peak
Power)
The Aeroflex / Metelics MSW2000-200, MSW2001-200 and MSW2002-200 series
of Surface Mount Silicon PIN Diode SP2T T-R Switches are manufactured using Aeroflex / Metelics proven hybrid manufacturing process incorporating High Voltage PIN
Diodes and passive devices integrated within a ceramic substrate. This low profile,
compact, surface mount component, (8mm L x 5mm W x 2.5mm H) offers superior
low and high signal performance to comparable MMIC devices in QFN packages. The
SP2T switches are designed in an asymmetrical topology to optimize Tx-Ant Loss and
Tx-Rx Isolation performance.
•Lower Insertion Loss (0.25db) &
Higher IIP3 (65dBm)
Ant
An
t •Operates from + Voltage Only
(+5V & +28V to +125V)
TTx
x •RoHS Complaint
TxTx Series
Diode
Series Diode Rx Series Diodes
Rx Series Diode RF Bypass Cap
RF Bypass Cap Rx
R
x Rx Shunt Diodes
Rx Shunt Diode DC
D
C MSW2000-200, MSW2001-200, MSW2002-200 Electrical Characteristics
Frequency
(MHz)
Loss
(dB)
Isolation
(dB)
C.W. Incident
Power (dBm)
Part Number
Configuration
DC Power
MSW2000-200
SP2T T-R Switch
+ V Only
20 - 1000
0.2
1.2:1
52
+50
MSW2001-200
SP2T T-R Switch
+ V Only
200 - 4000
0.3
1.3:1
36
+50
MSW2002-200
SP2T-T-R Switch
+ V Only
2000 - 6000
0.6
1.5:1
34
+50
Maximum Ratings
VSWR
Parameters
Rating
Operating Temperature
-55°C to +150°C
Storage Temperature
-65°C to +200°C
www.aeroflex.com/metelics | 77
Surface Mount PIN Diode SP2T Switches
•Surface Mount SP2T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (158W C.W. Power)
•Higher Voltage >800 Volts for a
Higher RF Peak Power (500W Peak
Power)
The Aeroflex / Metelics MSW2020-202 Silicon PIN Diode, SP2T T-R Switch is manufactured using Aeroflex / Metelics proven hybrid manufacturing process incorporating
High Voltage PIN Diodes and passive devices integrated within a ceramic substrate.
This low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm
H) offers superior low and high signal performance to comparable MMIC devices in
QFN packages. The SP2T switches are designed in an asymmetrical Series & Series–
Shunt topology to optimize Tx & Rx performance. The MSW2020-202 operates from
10MHz - 1,000MHz to provide broadband performance for low and high signal
superior operation.
•Lower Insertion Loss (0.3db) &
Higher IIP3 (60dBm)
•Operates from +5V & -200V for
Lower Linear Frequency Operation
Ant
An
t •RoHS Complaint
Rx
R
x Tx
Tx B
B1
1 MSW2000-202 Electrical Characteristics
Part Number
Configuration
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
MSW2020-202
SP2T T-R Switch
+V&-V
10 - 1000
0.2
1.2:1
52
+52
20 | www.aeroflex.com/metelics
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Surface Mount PIN Diode SP2T Switches
•Surface Mount SP2T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (100W C.W. Power)
•Higher Voltage >500 Volts for a
Higher RF Peak Power (500W Peak
Power)
The Aeroflex / Metelics MSW2030-203, MSW2031-203 and MSW2032-203 series
of Surface Mount Silicon PIN Diode SP2T Switches are manufactured using Aeroflex
/ Metelics proven hybrid manufacturing process incorporating High Voltage PIN
Diodes and passive devices integrated within a ceramic substrate. This low profile,
compact, surface mount component, (8mm L x 5mm W x 2.5mm H) offers superior
low and high signal performance to comparable MMIC devices in QFN packages. The
SP2T switches are designed in a symmetrical topology to optimize Insertion Loss and
Isolation performance.
J0
•Lower Insertion Loss (0.30db) &
Higher IIP3 (65dBm)
•Operates from + Voltage Only
(+5V & +28V to +125V)
J1
•RoHS Complaint
J2
RF Bypass Caps
B1
B2
MSW2030-203, MSW2031-203, & MSW2032-203 Electrical Characteristics
Part Number
MSW2030-203
MSW2031-203
MSW2032-203
Configuration
Symmetrical
SP2T
Symmetrical
SP2T
Symmetrical
SP2T
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
+ V Only
20 - 1000
0.3
1.2:1
52
+50
+ V Only
200 - 4000
0.5
1.3:1
35
+50
+ V Only
2000 - 6000
0.6
1.5:1
35
+50
www.aeroflex.com/metelics | 79
Surface Mount PIN Diode SP2T Switches
•Surface Mount SP2T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing
than Plastic (158W C.W. Power)
•Higher Voltage >500 Volts for a
Higher RF Peak Power (500W
Peak Power)
•Lower Insertion Loss (0.25db) &
Higher IIP3 (65dBm)
The Aeroflex / Metelics MSW2040-204 and MSW2041-204 series of Surface Mount
Silicon PIN Diode SP2T Switches are manufactured using Aeroflex / Metelics proven
hybrid manufacturing process incorporating High Voltage PIN Diodes and passive
devices integrated within a ceramic substrate. This low profile, compact, surface
mount component, (8mm L x 5mm W x 2.5mm H) offers superior low and high
signal performance to comparable MMIC devices in QFN packages. The SP2T
switches are designed in a symmetrical topology to optimize Insertion Loss and
Isolation performance.
J0 J0
•Operates from + Voltage Only
(+5V & +28V to +125V)
•RoHS Complaint
J1 J1
J2 J2 B1 B1
B2
B2 MSW2040-204 & MSW2041-204 Electrical Characteristics
Part Number
MSW2040-204
MSW2041-204
Configuration
Symmetrical
SP2T
Symmetrical
SP2T
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
+ V Only
20 - 1000
0.2
1.2:1
50
+52
+ V Only
200 - 4000
0.5
1.3:1
33
+52
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Surface Mount PIN Diode SP2T Switches
•Surface Mount SP2T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (158W C.W. Power)
•Higher Voltage >500 Volts for a
Higher RF Peak Power (500W Peak
Power)
The Aeroflex / Metelics MSW2050-205 and MSW2051-205 series of Surface Mount
Silicon PIN Diode SP2T Switches are manufactured using Aeroflex / Metelics proven
hybrid manufacturing process incorporating High Voltage PIN Diodes and passive
devices integrated within a ceramic substrate. This low profile, compact, surface
mount component, (8mm L x 5mm W x 2.5mm H) offers superior low and high
signal performance to comparable MMIC devices in QFN packages. The SP2T
switches are designed in an asymmetrical topology to optimize Tx-Ant Loss and Tx-Rx
Isolation performance.
Ant
•Lower Insertion Loss (0.25db) &
Higher IIP3 (65dBm)
•Operates from + Voltage Only
(+5V & +28V to +125V)
Rx
Tx
•RoHS Complaint
DC
MSW2050-205 & MSW2051-205 Electrical Characteristics
Part Number
MSW2050-205
MSW2051-205
Configuration
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
SP2T T-R Switch
SP2T T-R Switch
+ V Only
+ V Only
20 - 1000
200 - 4000
0.2
0.3
1.2:1
1.3:1
52
40
+52
+52
www.aeroflex.com/metelics | 81
Surface Mount PIN Diode SP2T Switches
•Surface Mount SP2T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (100W C.W. Power)
•Higher Voltage >500 Volts for a
Higher RF Peak Power (500W
Peak Power)
The Aeroflex / Metelics MSW2060-206, MSW2061-206 and MSW2062-206 series
of Surface Mount Silicon PIN Diode SP2T Switches are manufactured using Aeroflex /
Metelics proven hybrid manufacturing process incorporating High Voltage PIN Diodes
and passive devices integrated within a ceramic substrate. This low profile, compact,
surface mount component, (8mm L x 5mm W x 2.5mm H) offers superior low and
high signal performance to comparable MMIC devices in QFN packages. The SP2T
switches are designed in a symmetrical topology to optimize Insertion Loss and Isolation performance.
J0
•Lower Insertion Loss (0.25db) &
Higher IIP3 (65dBm)
•Operates from -5V & -180V for
High Linearity
J1
•RoHS Complaint
J2
MSW2060-206, MSW2061-206, & MSW2062-206 Electrical Characteristics
Part Number
MSW2060-206
MSW2061-206
MSW2062-206
Configuration
Symmetrical
SP2T
Symmetrical
SP2T
Symmetrical
SP2T
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
+V&-V
20 - 1000
0.25
1.2:1
53
+50
+V&-V
400 - 4000
0.5
1.3:1
35
+50
+V&-V
2000 - 6000
0.7
1.5:1
34
+50
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Surface Mount PIN Diode SP3T Switches
•Surface Mount SP3T Switch in
Compact Outline: 8mm L x 8mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (100W C.W. Power)
•Higher Voltage >1000 Volts for a
Higher RF Peak Power (500W Peak
Power)
The Aeroflex / Metelics MSW3100-310 and MSW3101-310 series of Surface Mount
Silicon PIN Diode SP3T Switches are manufactured using Aeroflex / Metelics proven
hybrid manufacturing process incorporating High Voltage PIN Diodes and passive
devices integrated within a ceramic substrate. This low profile, compact, surface
mount component, (8mm L x 8mm W x 2.5mm H) offers superior low and high
signal performance to comparable MMIC devices in QFN packages. The SP3T
switches are designed in a symmetrical topology to optimize Insertion Loss and
Isolation performance.
•Lower Insertion Loss (0.45db) &
Higher IIP3 (65dBm)
•Operates From + Voltage Only
(+5V & +28V to +125V)
J0
J0 J1
J1 J3 J3
B1
B1 •RoHS Complaint
RF Bypass
RF Bypass Caps
Caps B3
B3 J2 J2
MSW3100-310 & MSW3101-310 Electrical Characteristics
Part Number
MSW3100-310
MSW3101-310
Configuration
Symmetrical
SP3T
Symmetrical
SP3T
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
+ V only
20 - 1000
0.4
1.2:1
57
+50
+ V only
200 - 4000
0.6
1.4:1
43
+50
www.aeroflex.com/metelics | 83
Surface Mount PIN Diode SP3T Switches
•Surface Mount SP3T Switch in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Higher Average Power Handing than
Plastic (100W C.W.)
•Higher Voltage > 1000 Volts for a
Higher RF Peak Power (500W)
The Aeroflex / Metelics MSW3200-320 and MSW3201-320 series of Surface Mount
Silicon PIN Diode SP3T Switches are manufactured using Aeroflex / Metelics proven
hybrid manufacturing process incorporating High Voltage PIN Diodes and passive
devices integrated within a ceramic substrate. This low profile, compact, surface
mount component, (8mm L x 5mm W x 2.5mm H) offers superior low and high
signal performance to comparable MMIC devices in QFN packages. The SP3T
switches are designed in a symmetrical topology to optimize Insertion Loss and
Isolation performance.
•Lower Insertion Loss (0.4db) &
Higher IIP3 (65dBm)
J0 J0
•Faster Switching Speed (1µS)
J1
J1 •Operates from +5V & -180V for
Higher Linearity
J3 J3 •RoHS Complaint
J2 J2
MSW3200-320 & MSW3201-320 Electrical Characteristics
Part Number
MSW3200-320
MSW3201-320
Configuration
Symmetrical
SP3T
Symmetrical
SP3T
DC Power
Frequency
(MHz)
Loss
(dB)
VSWR
Isolation
(dB)
C.W. Incident
Power (dBm)
+V& -V
20 - 1000
0.4
1.2:1
47
+50
+V& -V
400 - 4000
0.6
1.4:1
35
+50
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Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
The Aeroflex / Metelics LM200802-M-A-300 Surface Mount Silicon PIN Diode Limiter is manufactured using Aeroflex / Metelics proven hybrid manufacturing process
incorporating Silicon NIP and PIN Diodes integrated within a ceramic substrate. This
low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H) offers
superior low and high signal performance to comparable MMIC devices in QFN packages. The Limiter Modules are designed to optimize small signal insertion loss, (N.F.)
and high signal flat leakage performance in a compact, surface mount package.
•Incorporates Anti-Parallel
Limiter Diodes
•Broadband Performance
(20MHz - 8GHz)
•Higher Average Power Handling
than Plastic (44dBm Avg. Power)
•Lower Insertion Loss (1.4dB) &
Lower Flat Leakage Power (20dBm)
Zo = 50 Ω
RF Input
•RoHS Compliant
RF Output
High Power Surface Mount Limiters
Part Number
LM200802-M-A-300
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Medium Power, Broadband
20 - 8000
1.4
20
www.aeroflex.com/metelics | 85
Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
•Incorporates PIN Limiter Diodes,
D.C. Blocks & D.C. Return
•Higher Peak Power Handling than
Plastic (125W Peak Power)
The Aeroflex / Metelics LM501202-L-C-300 Surface Mount Silicon PIN Diode Limiter
is manufactured using Aeroflex / Metelics proven hybrid manufacturing process
incorporating PIN Diodes and passive devices integrated within a ceramic substrate.
This low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H)
offers superior low and high signal performance to comparable MMIC devices in QFN
packages. The Limiter Modules are designed to optimize small signal insertion loss,
(N.F.) and high signal flat leakage performance in a compact, surface mount package
from 0.5GHz - 2.0GHz.
•Higher Average Power Handling
than Plastic (5W C.W. Power)
Zo = 50 Ω
•Lower Insertion Loss (0.4dB) &
Lower Flat Leakage Power (21dBm)
RF Input
RF Output
•RoHS Compliant
High Power Surface Mount Limiters
Part Number
LM501202-L-C-300
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Octave Band, Low Power
500 - 2000
0.4
5
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Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
•Incorporates PIN Limiter Diodes,
D.C. Blocks & D.C. Return
•Higher Peak Power Handling than
Plastic (200W Peak Power)
The Aeroflex / Metelics LM501202-M-C-300 Surface Mount PIN Diode Limiter is
manufactured using Aeroflex / Metelics proven hybrid manufacturing process incorporating PIN Diodes and passive devices integrated within a ceramic substrate. This
low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H) offers
superior low and high signal performance to comparable MMIC devices in QFN packages. The Limiter Modules are designed to optimize small signal insertion loss, (N.F.)
and high signal flat leakage performance in a compact, surface mount package from
0.5GHz - 2.0GHz.
•Higher Average Power Handling
than Plastic (30W C.W. Power)
Zo = 50 Ω
•Lower Insertion Loss (0.4dB) &
Lower Flat Leakage Power (21dBm)
RF Input
RF Output
•RoHS Compliant
High Power Surface Mount Limiters
Part Number
LM501202-M-C-300
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Octave Band, Med Power
500 - 2000
0.4
30
www.aeroflex.com/metelics | 87
Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
•Incorporates PIN Limiter Diodes,
D.C. Blocks & D.C. Return
•Higher Peak Power Handling than
Plastic (100W Peak Power)
The Aeroflex / Metelics LM202802-L-C-300 Surface Mount Silicon PIN Diode Limiter
is manufactured using Aeroflex / Metelics proven hybrid manufacturing process
incorporating PIN Diodes and passive devices integrated within a ceramic substrate.
This low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H)
offers superior low and high signal performance to comparable MMIC devices in QFN
packages. The Limiter Modules are designed to optimize small signal insertion loss,
(N.F.) and high signal flat leakage performance in a compact, surface mount package
from 2GHz - 8GHz.
•Higher Average Power Handling
than Plastic (4W C.W. Power)
•Lower Insertion Loss (1.1dB) &
Lower Flat Leakage Power (19dBm)
Zo = 50 Ω
RF Input
RF Output
•RoHS Compliant
High Power Surface Mount Limiters
Part Number
LM202802-L-C-300
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Octave Band, Low Power
2000-8000
1.1
4
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Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
•Incorporates PIN Limiter Diodes,
D.C. Blocks & D.C. Return
•Higher Peak Power Handling than
Plastic (200W Peak Power)
The Aeroflex / Metelics LM202802-M-C-300 Surface Mount Silicon PIN Diode Limiter is manufactured using Aeroflex / Metelics proven hybrid manufacturing process
incorporating PIN Diodes and passive devices integrated within a ceramic substrate.
This low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H)
offers superior low and high signal performance to comparable MMIC devices in QFN
packages. The Limiter Modules are designed to optimize small signal insertion loss,
(N.F.) and high signal flat leakage performance in a compact, surface mount package
from 2GHz - 8GHz.
•Higher Average Power Handing than
Plastic (30W C.W. Power)
•Lower Insertion Loss (1.2dB) &
Lower Flat Leakage Power (20dBm)
Zo = 50 Ω
RF Input
RF Output
•RoHS Compliant
High Power Surface Mount Limiters
Part Number
LM202802-M-C-300
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Octave Band, Med Power
2000 - 8000
1.2
30
www.aeroflex.com/metelics | 89
Surface Mount PIN Diode Limiter
•Surface Mount Limiter in
Compact Outline: 8mm L x 5mm W
x 2.5mm H
•Incorporates PIN Limiter & Schottky
Diodes, D.C. Blocks & D.C. Return
•Higher Average Power Handling
than Plastic (100W C.W. Peak Power)
The Aeroflex / Metelics LM401102-Q-C-301 Surface Mount Silicon PIN Diode Limiter
is manufactured using Aeroflex / Metelics proven hybrid manufacturing process incorporating PIN Diodes and passive devices integrated within a ceramic substrate. This
low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H) offers
superior low and high signal performance to comparable MMIC devices in QFN packages. The Limiter Modules are designed to optimize small signal insertion loss, (N.F.)
and high signal flat leakage performance in a compact, surface mount package.
•Lower Insertion Loss (0.3dB) &
Lower Flat Leakage Power (18dBm)
•RoHS Compliant
Input PIN Diodes
Limiter PIN Diode
Si ZBD Schottky
Diode
High Power Surface Mount Limiters
Part Number
LM401102-Q-C-301
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Octave Band, High Power,
“Quasi-Active”
400 - 1000
0.3
100
20 | www.aeroflex.com/metelics
90
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Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
•Incorporates PIN Limiter & Schottky
Diodes, D.C. Blocks & D.C. Return
•Higher Average Power Handling
than Plastic (100W C.W. Power)
The Aeroflex / Metelics LM102202-Q-C-301 Surface Mount Silicon PIN Diode Limiter is manufactured using Aeroflex / Metelics proven hybrid manufacturing process
incorporating PIN Diodes and passive devices integrated within a ceramic substrate.
This low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H)
offers superior low and high signal performance to comparable MMIC devices in QFN
packages. The Limiter Modules are designed to optimize small signal insertion loss,
(N.F.) and high signal flat leakage performance in a compact, surface mount package.
•Lower Insertion Loss (0.35dB) &
Lower Flat Leakage Power (17dBm)
•RoHS Compliant
Input PIN Diodes
Limiter PIN Diode
Si ZBD Schottky
Diode
High Power Surface Mount Limiters
Part Number
LM102202-Q-C-301
Type
Frequency
(MHz)
Loss
(dB)
C.W. Power (W)
Octave Band, High Power,
“Quasi-Active”
1000 - 2000
0.35
100
www.aeroflex.com/metelics | 91
Surface Mount PIN Diode Limiter
•Surface Mount Limiter in Compact
Outline: 8mm L x 5mm W x
2.5mm H
•Incorporates PIN Limiter & Schottky
Diodes, D.C. Blocks & D.C. Return
•Higher Average Power Handling
than Plastic (100W C.W. Power)
The Aeroflex / Metelics LM202802-Q-C-301 Surface Mount Silicon PIN Diode Limiter is manufactured using Aeroflex / Metelics proven hybrid manufacturing process
incorporating PIN Diodes and passive devices integrated within a ceramic substrate.
This low profile, compact, surface mount component, (8mm L x 5mm W x 2.5mm H)
offers superior low and high signal performance to comparable MMIC devices in QFN
packages. The Limiter Modules are designed to optimize small signal insertion loss,
(N.F.) and high signal flat leakage performance in a compact, surface mount package.
•Lower Insertion Loss (1.1dB) &
Lower Flat Leakage Power (21dBm)
•RoHS Compliant
Input PIN Diodes
Limiter PIN Diode
Si ZBD Schottky
Diode
High Power Surface Mount Limiters
Part Number
LM202802-Q-C-301
Type
Frequency
(MHz)*
Loss
(dB)
C.W. Power (W)
Octave Band, High Power,
“Quasi-Active”
2000 - 8000
1.1
100
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MPD2T28125-700 PIN Diode Driver
•Higher Output Voltage and Higher
Output Current PIN Diode Driver in
Surface Mount Package
•Usable with
MSW2000,2010,2030,2040, and
2050 Series T-R and Symmetrical
High Power SP2T Switches.
•Operates from Positive Voltage Only:
+5V and (+28V to +125V)
•Higher Output Currents (200mA) for
Lower Switch Loss and Higher Isolation
•Single or Separate TTL Input Controls, 2 Complementary Outputs
•RoHS Complaint
The MPD2T28125-700 2 Channel Surface Mount PIN Diode Driver is designed to
provide higher voltage and higher current operation for higher power PIN Diode
Switches. In particular, this PIN Diode Driver is intended to operate with Aeroflex /
Metelics MSW2000,2010,2030,2040, and 2050 Series of Surface Mount, Higher
Power SP2T Transmit-Receive and Symmetrical Surface Mount Switches.
This PIN Diode Driver can supply voltages from +10V to +125V for reverse biasing
to successfully operate the MSW2000,2010,2030,2040,2050 Series PIN Diode
Switches from 20MHz – 6,000MHz for 100W C.W. or peak power levels. In addition,
the Driver can supply current of 200mA for the Series PIN Diode to provide lower
insertion loss and higher isolation. Single or dual TTL control is available in the design.
The Driver provides ( 2 ) complementary outputs that can drive ( 4 ) bias ports in the
SP2T PIN diode Switch. Switching Speed is on the order of 1µS and can be improved
with external RC, current spiking network.
The PIN Diode Driver is designed in a 1.3“ square x 0.33“ H (33mm sq x 8.4mm H)
surface mount package. This device is available in tube and tape-reel packaging for
high volume pick and place automated assembly and are fully RoHS compliant.
+VCC1
RTN
+VCC1
V1a
CTL 1
+VCC2
RTN
+VCC2
INVERTING DRIVER
CTL 0
+VCC1
RTN
+VCC1
V1b
CTL 2
+VCC2
RTN
+VCC2
NON-INVERTING DRIVER
CS 700 Outline I/O Table
I/O Port
Description
PIN1 (J1)
PIN2 (J2)
PIN3 (J3)
PIN4 (J4)
PIN5 (J5)
PIN6 (J6)
PIN7 (J7)
PIN8 (J8)
PIN9 (J9)
PIN10 (J10)
PIN11 (J11)
PIN12 (J12)
PIN13 (J13)
PIN14 (J14)
PIN15 (J15)
PIN16 (J16)
TTL Input Control (CTL1)
+VCC1 & +VCC2 RTN
TTL Input Control (CTL2)
CTL0 (Optional Connection)
+VCC1 & +VCC2 RTN
V18 (Voltage/Current Output #1)
+VCC1 & +VCC2 RTN
V1b (Voltage/Current Output #2)
+VCC1 & +VCC2 RTN
+VCC1 & +VCC2 RTN
+VCC1 & +VCC2 RTN
+VCC1 & +VCC2 RTN
+VCC2 (+28V to +125V High Voltage Input)
+VCC1 & +VCC2 RTN
+VCC1 (+5V Input)
+VCC1 & +VCC2 RTN
www.aeroflex.com/metelics | 93
Silicon Abrupt Tuning Varactors
Plastic SMT
• Available in Tape and Reel
The Aeroflex / Metelics abrupt tuning varactors provide extremely high Q and low
series resistance available in a 30 volt Silicon diode. These devices are available in
single junction, common anode and common cathode configurations. Consult factory
for availability.
• Small and High Volume
Commercial Applications
• High Q
• Wide Selection of
Capacitance Ranges
Single and Common Cathode
Ct
pF
Model
MSV1400-08-001
MSV1400-108-004
MSV1400-09-001
MSV1400-109-004
MSV1400-10-001
MSV1400-110-004
MSV1400-11-001
MSV1400-111-004
MSV1400-13-001
MSV1400-113-004
MSV1400-14-001
MSV1400-114-004
MSV1400-15-001
MSV1400-115-004
MSV1400-16-001
MSV1400-116-004
MSV1400-17-001
MSV1400-117-004
MSV1400-19-001
MSV1400-20-001
MSV1400-21-001
MSV1400-22-001
Capacitance Ratio
Rs
Ω
Q
MIN
MAX
MIN
MAX
MIN
1.62
1.62
1.98
1.98
2.43
2.43
2.97
2.97
3.51
3.51
4.23
4.23
5.04
5.04
6.12
6.12
7.38
7.38
9.00
10.8
13.5
16.2
1.98
1.98
2.42
2.42
2.97
2.97
3.63
3.63
4.29
4.29
5.17
5.17
6.16
6.16
7.48
7.48
9.02
9.02
11.0
13.2
16.5
19.8
4.1
4.1
4.1
4.1
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.3
4.3
4.3
4.3
4.3
4.3
4.4
4.4
4.4
4.4
0.60
0.60
0.50
0.50
0.45
0.45
0.40
0.40
0.35
0.35
0.30
0.30
0.27
0.27
0.24
0.24
0.22
0.22
0.20
0.18
0.18
0.18
2900
2900
2800
2800
2600
2600
2500
2500
2400
2400
2200
2200
2100
2100
2000
2000
1800
1800
1600
1500
1200
1000
C t 0/C t 30
@ -4 V, 50 MHz
@ -4 V, 50 MHz
Test Conditions
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@ 4 V, 1 MHz
Silicon Abrupt Tuning Varactors
Plastic SMT
Single and Common Cathode
Capacitance
pF
Model
Maximum Ratings
Capacitance Ratio
MIN
MIN
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
450
450
400
400
400
350
350
300
200
150
150
150
150
100
100
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.6
2.6
2.6
2.6
@ -4V, 1 MHz
@ -4V, 50 MHz
Cj 2V / Cj 30V, 1 MHz
SMV2101
SMV2102
SMV2103
SMV2104
SMV2105
SMV2106
SMV2107
SMV2108
SMV2109
SMV2110
SMV2111
SMV2112
SMV2113
SMV2114
SMV2115
Test Conditions
Quality Factor
Q
Parameters
Rating
DC Power Dissipation
@Ta = 25° C 250 mW
Reverse Breakdown Voltage
@10mA 30 V Min
Max Reverse Current
@Ta = 25° C 0.1 mA @25 Vdc
Operating Temperature
-55 to + 125° C
Storage Temperature
-65 to + 150° C
Capacitance Tolerance
±10%
www.aeroflex.com/metelics | 95
Silicon Abrupt Tuning Varactors: 30 Volt
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Low Series Resistance-High Q
Ceramic Hermetic SMT
Plastic SMT
Glass Axial Leaded
The Aeroflex / Metelics MTV-4030 Series Tuning Varactors are silicon abrupt
junction devices. They offer the highest Q and lowest resistance available in
30 volt tuning diodes.
• Extensive Selection of
Capacitance Values
A unique silicon dioxide passivation process assures greater stability, reliability
and low leakage currents at higher temperatures.
Model
Junction Capacitance
Ct
Capacitance Ratio
Quality Factor
Q
pF
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.2
2.7
3.3
3.6
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
MIN
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
MIN
5000
5000
4800
4800
4600
4400
4400
4200
4000
3800
3600
3400
3400
3200
3000
2800
2600
2400
2200
2000
1800
1600
1400
1400
1200
1000
@ -4 V, 1MHz
C t0 / C t 3 0 V
@ -4V, 50 MHz
MTV4030-01
MTV4030-02
MTV4030-03
MTV4030-04
MTV4030-05
MTV4030-06
MTV4030-07
MTV4030-08
MTV4030-09
MTV4030-10
MTV4030-11
MTV4030-12
MTV4030-13
MTV4030-14
MTV4030-15
MTV4030-16
MTV4030-17
MTV4030-18
MTV4030-19
MTV4030-20
MTV4030-21
MTV4030-22
MTV4030-23
MTV4030-24
MTV4030-25
MTV4030-26
Test Conditions
Maximum Ratings
Parameter
Rating
Operating Temperature
-55 to + 150 °C
Storage Temperature Range
-65 to + 200 °C
Reverse Voltage
30 V
Device Dissipation at TA = 25ºC
250 mW
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Silicon Abrupt Tuning Varactors: 45 Volt
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Low Series Resistance-High Q
Ceramic Hermetic SMT
Plastic SMT
Glass Axial Leaded
The Aeroflex / Metelics MTV-4045 Series Tuning Varactors are silicon abrupt
junction devices. They offer the highest Q and lowest resistance available in
45 volt tuning diodes.
• Extensive Selection of
Capacitance Values
A unique silicon dioxide passivation process assures greater stability, reliability
and low leakage currents at higher temperatures.
Model
Junction Capacitance
Capacitance Ratio
Quality Factor,
Q
pF
MIN
MIN
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.2
2.7
3.3
3.6
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
3000
3000
2800
2800
2600
2400
2400
2300
2200
2200
2100
2000
2000
2000
1900
1800
1700
1600
1500
1400
1300
1200
@ -4 V, 1MHz
C t0 / C t 4 5 V
@ -4V, 50 MHz
MTV4045-01
MTV4045-02
MTV4045-03
MTV4045-04
MTV4045-05
MTV4045-06
MTV4045-07
MTV4045-08
MTV4045-09
MTV4045-10
MTV4045-11
MTV4045-12
MTV4045-13
MTV4045-14
MTV4045-15
MTV4045-16
MTV4045-17
MTV4045-18
MTV4045-19
MTV4045-20
MTV4045-21
MTV4045-22
Test Conditions
Maximum Ratings
Parameter
Rating
Operating Temperature
-55 to + 150 °C
Storage Temperature Range
-65 to + 200 °C
Reverse Voltage
45 V
Device Dissipation at TA = 25ºC
250 mW
www.aeroflex.com/metelics | 97
Silicon Abrupt Tuning Varactors: 60 Volt
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Low Series Resistance-High Q
Ceramic Hermetic SMT
Plastic SMT
Glass Axial Leaded
The Aeroflex / Metelics MTV-4060 Series Tuning Varactors are silicon abrupt
junction devices. They offer the highest Q and lowest resistance available in
60 volt tuning diodes.
• Extensive Selection of
Capacitance Values
A unique silicon dioxide passivation process assures greater stability, reliability
and low leakage currents at higher temperatures.
Model
Junction Capacitance
Capacitance Ratio
MTV4060-01
MTV4060-02
MTV4060-03
MTV4060-04
MTV4060-05
MTV4060-06
MTV4060-07
MTV4060-08
MTV4060-09
MTV4060-10
MTV4060-11
MTV4060-12
MTV4060-13
MTV4060-14
MTV4060-15
MTV4060-16
MTV4060-17
MTV4060-18
Test Conditions
Maximum Ratings
pF
MIN
MIN
0.8
1.0
1.2
1.4
1.6
1.8
2.2
2.7
3.3
3.6
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
2100
2100
2100
2000
2000
2000
2000
1900
1800
1700
1700
1600
1500
1400
1300
1200
1100
1000
@ -4 V, 1MHz
C t0 / C t 6 0 V
@ -4 V, 50 MHz
Parameter
Rating
Operating Temperature
-55 to + 150 °C
Storage Temperature Range
-65 to + 200 °C
Reverse Voltage
60 V
Device Dissipation at TA = 25ºC
250 mW
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Quality Factor
Silicon Abrupt Tuning Varactors: 90 Volt
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• Low Series Resistance-High Q
Ceramic Hermetic SMT
Plastic SMT
Glass Axial Leaded
The Aeroflex / Metelics MTV-4090 Series Tuning Varactors are silicon abrupt
junction devices. They offer the highest Q and lowest resistance available in
90 volt tuning diodes.
• Extensive Selection of
Capacitance Values
A unique silicon dioxide passivation process assures greater stability, reliability
and low leakage currents at higher temperatures.
Model
Total Capacitance
Capacitance Ratio
Quality Factor
pF
MIN
MIN
MTV4090-01
MTV4090-02
MTV4090-03
MTV4090-04
MTV4090-05
MTV4090-06
MTV4090-07
MTV4090-08
MTV4090-09
MTV4090-10
MTV4090-11
MTV4090-12
MTV4090-13
MTV4090-14
MTV4090-15
MTV4090-16
0.8
1.0
1.2
1.4
1.6
1.8
2.2
2.7
3.3
3.6
3.9
4.7
5.6
6.8
8.2
10.0
Test Conditions
Maximum Ratings
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
@ -4 V, 1MHz
C t0 / C t 9 0 V
Parameter
Rating
Operating Temperature
-55 to + 150 °C
Storage Temperature Range
-65 to + 200 °C
Reverse Voltage
90 V
Device Dissipation at TA = 25° C
250 mW
1000
1000
900
900
850
850
850
850
800
800
800
800
800
750
750
750
@ -4V, 50 MHz
www.aeroflex.com/metelics | 99
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
Bare Die
Ultra-Low Leakage
Model
Total Capacitance
pF
Capacitance Ratio
Working Voltage
Vdc
Breakdown Voltage
Vdc
TYP
Max
Min
7
10
12
15
20
27
33
39
47
56
68
82
100
7
10
12
15
20
27
33
39
47
56
68
82
100
4.1
4.1
4.2
4.2
3.9
4.0
4.1
4.1
3.9
3.5
3.5
3.5
3.5
6.9
6.9
7.5
7.5
7.9
7.4
6.5
6.3
6.1
5.7
4.6
4.0
4.0
25
25
25
25
20
20
20
20
20
15
15
15
15
100
100
100
100
90
65
60
55
50
40
30
20
20
28
28
28
28
22
22
22
22
22
17
17
17
17
110
110
110
110
99
72
66
61
55
44
33
22
22
@ -4 V, 1MHz
C •0.5V / C •MW V
V907
V910
V912
V915
V920
V927
V933
V939
V947
V956
V968
V982
V900
V907E
V910E
V912E
V915E
V920E
V927E
V933E
V939E
V947E
V956E
V968E
V982E
V900E
Test Conditions
Maximum Ratings
Parameter
Rating
Forward Voltage Drop
1.0 Vdc
DC Power Dissipation
400 mW
Max Reverse Current
5 nA
Operating Temperature
-65° to +150 °C
Storage Temperature
-65° to +200 °C
Capacitance Tolerance
+20%
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I r = 100 µA
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
KSV2101 ­– KSV2115
Model
KSV2101
KSV2102
KSV2103
KSV2104
KSV2105
KSV2106
KSV2107
KSV2108
KSV2109
KSV2110
KSV2111
KSV2112
KSV2113
KSV2114
KSV2115
Test Conditions
Maximum Ratings
Glass Axial Leaded
Total Capacitance
Quality Factor
Q
Capacitance Ratio
pF
MIN
MIN
MAX
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
450
450
400
400
400
350
350
300
200
150
150
150
150
100
100
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.6
2.6
2.6
2.6
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.3
3.3
3.3
3.3
@ -4 V, 1MHz
@ -4 V, 50 MHz
Parameters
Rating
DC Power Dissipation
400 mW
Reverse Breakdown Voltage
30 V min
Max Reverse Current @ Ta
= 25° C
0.1 µA @ 25 Vdc
Operating Temperature Topr
-65° to 175° C
Storage Temperature Tstg
-65° to 200° C
Capacitance Tolerance:
+10%
C t 2 / C T 30 V, 1 MHz
www.aeroflex.com/metelics | 101
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
MV830 – MV840
Glass Axial Leaded
C T Diode Capacitance
pF
Model
MV830
MV831
MV832
MV833
MV834
MV835
MV836
MV837
MV838
MV839
MV840
MIN
Typ
13.5
6.2
19.8
24.3
29.7
35.1
42.3
50.4
61.2
73.8
90.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
Test Conditions
Maximum Ratings
Quality Factor
Q
MAX
MIN
TYP
MIN
30
25
25
25
20
20
15
15
15
10
10
35
30
30
30
25
25
20
20
20
15
15
1.8
1.8
1.8
1.8
1.9
1.9
1.9
1.9
2.0
2.0
2.0
16.5
19.8
24.2
29.7
36.3
42.9
51.7
61.6
74.8
90.2
10.0
@ -4 V, F= 1MHz
@ -4 V, 50 MHz
Parameters
Value
DC Power Dissipation
400 mW
Min Reverse Breakdown Voltage
30 Vdc
Max Reverse Current
@ 25 Vdc
Rating
0.2 µA
Operating Temperature
-65° to +150° C
Storage Temperature
-65° to +200° C
Junction Temperature
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Tuning Ratio
TR
+175° C
TYP
2.00
2.00
2.10
2.10
2.12
2.12
2.15
2.15
2.18
2.18
2.18
C t 4 V / C t 25V, 1 MHz
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
MV1620 – MV1650
Diode Capacitance
CT
pF
Model
MV1620
MV1622
MV1624
MV1626
MV1628
MV1630
MV1632
MV1634
MV1636
MV1638
MV1640
MV1642
MV1644
MV1646
MV1648
MV1650
MIN
TYP
MAX
6.1
7.4
9.0
10.8
13.5
16.2
18.0
19.8
24.3
29.7
35.1
42.3
50.4
61.2
73.8
90.0
6.8
8.2
10.0
12.0
15.0
18.0
20.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
7.5
9.0
11.0
13.2
16.5
19.8
22.0
24.2
29.7
36.3
42.9
51.7
61.6
74.8
90.2
110.0
Test Conditions
Maximum Ratings
Quality Factor
Q
MIN
MIN
300
300
300
300
250
250
250
250
200
200
200
200
150
150
150
150
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
@ 4 Vdc, F = 50
MHz
Vr = 4 Vdc, F = 1 MHz
Tuning Ratio
TR
Parameters
Value
Rating
DC Power Dissipation
@ TA = 25° C
400 mW
Min Reverse Breakdown Voltage
@ Ir = 10 µA
20 Vdc
Max Reverse Current
@ 15 Vdc
0.1 µA Max
Operating Temperature
-65° to +150° C
Storage Temperature
-65° to +200° C
Junction Temperature
175° C
TYP
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
Ct 2 V / Ct 20V, 1 MHz
MV1652 – MV1666
Diode Capacitance
CT
pF
Model
MV1652
MV1654
MV1656
MV1658
MV1660
MV1662
MV1664
MV1666
Capacitance Ratio
MIN
TYP
MAX
MIN
TYP
108
132
162
180
198
225
243
297
120
150
180
200
220
250
270
330
135
165
198
220
242
275
300
363
250
250
200
200
200
150
100
100
2.6
2.6
2.6
2.6
2.6
Test Conditions
Maximum Ratings
Quality Factor
Q
Vr = 4 Vdc, F = 1 MHz
VR = 4 Vdc,
F = 20 MHz
Parameters
Value
Rating
@ TA = 25° C
475 mW
Max Reverse Current
@ 15 Vdc
0.1 µA (MV1652-MV1660)
Max Reverse Current
@ 10 Vdc
0.1 µA (MV1662-MV1666)
Operating Temperature
-65° to +150° C
Storage Temperature
Junction Temperature
-65° to +200° C
175° C
TYP
MIN
2.3
2.3
2.3
20
20
20
20
20
15
15
15
Ct 2 V / Ct 20 V Ct 2 V / Ct 15 V
DC Power Dissipation
Reverse Voltage
Vdc
@ 10 µA
www.aeroflex.com/metelics | 103
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
1N5139 — 1N5148, 1N5139A — 1N5148A
Capacitance
pF
Model
1N5139
®1N5139A
1N5140
®1N5140A
1N5141
®1N5141A
1N5142
®1N5142A
1N5143
®1N5143A
1N5144
®1N5144A
1N5145
®1N5145A
1N5146
®1N5146A
1N5147
®1N5147A
1N5148
®1N5148A
Quality Factor
Q
MIN
TYP
MAX
MIN
MIN
6.12
6.46
9.0
9.5
10.8
11.4
13.5
14.3
16.2
17.1
19.8
20.9
24.3
25.7
29.7
31.4
6.1
37.1
42.3
44.7
6.8
6.8
10.0
10.0
12.0
12.0
15.0
15.0
18.0
18.0
22.0
22.0
27.0
27.0
33.0
33.0
39.0
39.0
47.0
47.0
7.48
7.14
11.0
10.5
13.2
12.6
16.5
15.7
19.8
18.9
24.2
23.1
29.7
28.3
36.3
34.6
42.9
40.9
51.7
49.3
2.7
2.7
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
350
350
300
300
300
300
250
250
250
250
200
200
200
200
200
200
200
200
200
200
C t 2 V / C t 60 V
@ 4 Vdc
F = 50 MHz
Test Conditions
Maximum Ratings
Capacitance Ratio
@ -4 Vdc, 1 MHz
Parameters
Value
DC Power Dissipation
400 mW
Forward Current
250 mA
Min Reverse Breakdown Voltage
@ I r = 10 µAdc
65 Vdc
Max Reverse Current
@ VR = 55 Vdc
20 µAdc
Max Reverse Current
@ VR = 55 Vdc; Ta = 150° C
20 µAdc
Temp Coefficient of Capacitance
@ Vr = 4 Vdc; Ta -40 to +85° C
03% / °C
Operating Temperature Range
-65° to +175° C
Storage Temperature Range
-65° to +200° C
Voltage Tolerance
Standard Device
Suffix A
+5%
® Denotes Military approval for JAN - JANTX - JANTXV
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Rating
+10%
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
1N5441 — 1N5456
Model
1N5441
1N5442
1N5443
1N5444
1N5445
1N5446
1N5447
1N5448
1N5449
1N5450
1N5451
1N5452
1N5453
1N5454
1N5455
1N5456
Test Conditions
Capacitance
pF
6.8
8.2
10.0
12.0
15.0
18.0
20.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
@ 4 Vdc, 1 MHz
Quality Factor
Q
Tuning Ratio
MIN
MAX
2.5
2.5
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.7
2.7
2.7
3.1
3.1
3.1
3.1
3.1
3.1
3.1
3.2
3.2
3.2
3.2
3.2
3.3
3.3
3.3
3.3
C t 2 V / C t 30 V
F=1-MHz
MIN
450
450
400
400
400
350
350
350
350
350
300
250
200
175
175
175
@ 4 Vdc
F = 50 MHz
www.aeroflex.com/metelics | 105
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
1N5461— 1N5476
Capacitance
pF
Model
®1N5461
®1N5462
®1N5463
®1N5464
®1N5465
®1N5466
®1N5467
®1N5468
®1N5469
®1N5470
®1N5471
®1N5472
®1N5473
®1N5474
®1N5475
®1N5476
Test Conditions
Maximum Ratings
6.8
8.2
10.0
12.0
15.0
18.0
20.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
@ 4 Vdc, 1 MHz
Quality Factor
Q
Tuning Ratio
MIN
MAX
MIN
2.7
2.8
2.8
2.8
2.8
2.9
2.9
2.9
2.9
2.9
2.9
2.9
2.9
2.9
2.9
2.9
3.1
3.1
3.1
3.1
3.1
3.1
3.1
3.2
3.2
3.2
3.2
3.2
3.3
3.3
3.3
3.3
600
600
550
550
550
500
500
500
500
500
450
400
300
250
225
200
C t 2 V / C t 30 V
F = 1 -MHz
@ 4 Vdc
F = 50 MHz
Parameters
Value
Rating
DC Power Dissipation (Pd)
@ Ta = 25° C
400 mW
Min Reverse Breakdown Voltage
@ Ir = 10 µA
30 V
Max Reverse Current
@ 25 Vdc
0.02 µA
Max Reverse Current
@ 25 Vdc 150° C
20 µA
Temp Coefficient of Capacitance
@ Vr = 4 Vdc; Ta -65 to +85° C
.04%/°C
Operating Temperature Range
-65° to +175° C
Storage Temperature Range
-65° to +200° C
Capacitance Tolerance
Standard Device
Suffix A
+10%
Suffix B
+5%
Suffix C
+2%
® Denotes Military Approval For JAN - JANTX - JANTXV (B&C Tolerance only)
20 | |www.aeroflex.com/Metelics
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+20%
Silicon Abrupt Varactors: General Purpose
Glass Axial Leaded
1N5681— 1N5709
Model
1N5681
1N5682
1N5683
1N5684
1N5685
1N5686
1N5687
1N5688
1N5689
1N5690
1N5691
1N5692
1N5693
1N5694
1N5695
1N5696
1N5697
1N5698
1N5699
1N5700
1N5701
1N5702
1N5703
1N5704
1N5705
1N5706
1N5707
1N5708
1N5709
Test Conditions
Maximum Ratings
Capacitance
pF
Quality Factor
Q
Working Voltage Reverse Breakdown
Vdc
Voltage
Capacitance Ratio
MIN
MIN
TYP
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
600
600
550
550
550
500
500
500
500
450
400
300
250
225
200
450
450
400
400
400
375
375
350
350
325
300
225
175
150
3.1
3.1
3.2
3.2
3.2
3.2
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.4
3.4
3.4
3.4
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
@ 4Vdc
1 MHz
@ 4 Vdc
F = 50 MHz
MIN
2.7
2.7
2.8
2.8
2.8
2.8
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
TYP
MAX
MIN
2.9
2.9
3.0
3.0
3.0
3.0
3.4
3.4
3.4
3.4
3.4
3.4
3.4
3.4
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
60
60
60
60
60
60
60
60
60
60
60
60
60
60
45
45
45
45
45
45
45
45
45
45
45
45
45
45
45
65
65
65
65
65
65
65
65
65
65
65
65
65
65
C t 2 V / C t 40 V C t 4 V / C t 60 V
Parameters
Value
DC Power Dissipation
400 mW
Max Reverse Current
@ Ta = 25° C
20 nA @ MWV
Max Reverse Current
@ Ta = 150° C
20 µA @ MWV
Operating Temperature Range
-65° to +175° C
Storage Temperature Range
-65° to +200° C
Capacitance Tolerance:
Standard Device
Suffix A
+10%
Suffix B
+5%
@ 10µA
Rating
+20%
www.aeroflex.com/metelics | 107
Low Cost Silicon Hyperabrupt Tuning Varactors
Glass Axial Leaded
• Low Inductance
The Aeroflex / Metelics Low Cost Hyperabrupts offer high Qs. These diodes are
excellent for octave tuning up to 800 MHZ and for straight-line frequency tuning
between 3 and 8 Volt of bias. They achieve high Q values when tuned between
9 and 20 volts.
• Wide Capacitance Swing
• High Q
• Superior Reproducibility
TV3201, TV3901, TV 3902
Ct
Diode Capacitance
pF
Model
TV3201
TV3901
TV3902
MIN/MAX
9/13
26/32
22.5/27.5
MIN/MAX
2.0/2.3
4.5/6.0
2.9/3.5
Test
Conditions
@ -3 Vdc
F = 1 MHz
@ -25 Vdc
F = 1 MHz
Maximum Ratings
Tr
Tuning Ratio
MIN
4.5
5.0
6.8
MAX
5.8
6.5
8.9
Q
MIN
300
200
115
C t -3 / C t -25
F = 1 MHz
Parameter
Reverse Voltage
Forward Current
Power Dissipation at TA = 25° C
Derate Above 25° C
Maximum Junction Temperature
Storage Temperature
TYP
415
280
160
@ -3 Vdc
F = 50 MHz
Vbr
Vdc
Ir
nA
MIN
30
30
30
MAX
50
50
50
@ 10 mA
@ -28 Vdc
Cathode
Strip
White
Yellow
Green
Case Style
DO34
DO34
DO34
Value
30 Vdc
200 mAdc
400 mW
4.0 mW / °C
+125 °C
-65 to +200 °C
KSV1401–KSV1412
Model
KSV1401
KSV1402
KSV1403
KSV1404
KSV1405
KSV1406
KSV1407
KSV1408
KSV1409
KSV1410
KSV1411
KSV1412
Test Conditions
Maximum Ratings
MIN
440
Diode Capacitance
Ct
pF
MAX
MIN
660
45
140
96
200
80
54
37
26
17
12
8
@ -1 V, F =1 MHz
Parameter
Device Dissipation TA = 25° C
Junction Temperature
Reverse Breakdown Voltage
Max Reverse Leakage Current
Operating Temperature
Storage Temperature
Capacitance Tolerance
Suffix A
Suffix B
MAX
69
210
144
300
120
82
57
40
27
18
12
@ -2 V, F = 1 MHz
Value
400 mW
175 °C
10 µAdc, 12 Vdc Min
Vr = 10 Vdc, 0.1 µVdc
-55° to + 150 °C
-65° to + 200 °C
+ 20%
+ 10%
+ 5%
To order devices screened to MIL-PRF-19500 JANTX level, Appendix E, Table IV add suffix H.
20 | |www.aeroflex.com/Metelics
108
www.aeroflex.com/metelics
Tuning Ratio
TR
MIN
14:1
Quality Factor
Q
MIN
10:1
10:1
10:1
10:1
10:1
10:1
10:1
10:1
9.5:1
8.5:1
7.5:1
Ct 1V / Ct 10V Ct 2V / Ct 10V
@ F = 1 MHz
@ F = 1 MHz
MIN
200
200
200
200
200
200
200
200
200
200
200
200
@ -2 V
F = 1 MHz
Silicon Hyperabrupt Tuning Varactors: Portable
Plastic SMT
• Available in Tape and Reel
The Aeroflex / Metelics Hyperabrupt Varactors come in a wide variety of capacitance
values and high capacitance ratios. These devices are available in single junction,
common anode and common cathode configurations.
• Small and High Volume
Commercial Applications
• Wide Selection of
Capacitance Ranges
Single and Common Cathode
Model
MSV1104-33-323
MSV1204-33-001
MSV1204-133-004
MSV1104-34-323
MSV1204-34-001
MSV1204-134-004
MSV1104-35-323
MSV1204-35-001
MSV1204-135-004
MSV1104-36-323
MSV1204-36-001
MSV1204-136-004
MSV1204-37-001
Test Conditions
Maximum Ratings
Surface Mount
Capacitance
pF
Capacitance
RATIO
Capacitance
RATIO
Rs
Ω
Q
MIN
MAX
MIN
MAX
MIN
MAX
MIN
MAX
3.00
3.00
3.00
5.8
5.85
5.85
10.35
10.35
10.35
15.50
15.50
15.50
45.00
3.60
3.60
3.60
7.15
7.15
7.15
12.65
12.65
12.65
18.50
18.50
18.50
54.00
1.40
1.40
1.40
1.60
1.60
1.60
1.60
1.60
1.60
1.60
1.60
1.60
1.60
1.90
1.90
1.90
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.60
2.60
2.60
2.80
2.80
2.80
2.90
2.90
2.90
3.00
3.00
3.00
3.00
3.30
3.30
3.30
3.40
3.40
3.40
3.40
3.40
3.40
3.50
3.50
3.50
3.50
1.20
1.20
1.20
0.80
0.80
0.80
0.60
0.60
0.60
0.50
0.50
0.50
0.25
1200
1200
1200
1000
1000
1000
750
750
750
700
700
700
500
@ 50 MHz
@ 3 V, 50
MHz
C t @ -1 Vdc, F = 1 MHz
Ct 1 V / Ct 3 V
Parameters
Rating
Reverse Breakdown Voltage
10 mA:15 V MIN
Reverse Leakage Current
12 V: 50 nA MAX
Ct 1 V / Ct 6 V
www.aeroflex.com/metelics | 109
Silicon Hyperabrupt Tuning Varactors: Wideband
Plastic SMT
• Available in Tape and Reel
The Aeroflex / Metelics Hyperabrupt Varactors come in a wide variety of capacitance
values and high capacitance ratios. These devices are available in single junction,
common anode and common cathode configurations.
• Small and High Volume
Commercial Applications
• Wide Selection of
Capacitance Ranges
Single and Common Cathode Super Hyperabrupt Varactors For VCXOs
Designed for 3 and 5 volt circuits
Ct
pF
Ct
pF
Model
MIN
18
36
54
72
SMV30222
SMV30223
SMV30224
SMV30225
Test Conditions
MIN
5
10
15
20
MAX
7
14
21
28
Ct
pF
Rs
MAX
2.4
4.8
7.2
9.6
MAX
4.0 Ω
2.3 Ω
1.9 Ω
1.5 Ω
@ -1 Vdc, F = 1 MHz
@ 2.5 Vdc, F = 1 MHz
@ -4 Vdc, F = 1 MHz
@ 50 Vdc, F = 50 MHz
Ct
RATIO
Ct
pF
Ct
RATIO
Rs
Designed for 3 volt circuits
Model
SMV30332
SMV30333
Test Conditions
Maximum Ratings
MIN
TYP
MIN
MAX
MIN
TYP
MAX
3.0
3.0
4.0
4.0
5.5
11.0
7.0
14.0
3.0
3.0
4.0
4.0
16.0 Ω
9.0 Ω
C t @ 0.3 V / C t @1.65
V
C t @ 1.65 V
C t @ 1.65 V / Ct @
3.0 V
Parameters
Value
Rating
Reverse Breakdown Voltage
10µAdc
8 Volt MIN
Max Reverse Leakage Current
VR = 6 Volts
0.1 µAdc
Device Dissipation
Ta = 25° C
250 mW
Operating Temperature
-55° to 125° C
Storage Temperature
-65° to 150° C
20
1
10 | | www.aeroflex.com/Metelics
www.aeroflex.com/metelics
@ 1.65 V 50 MHz
Silicon Hyperabrupt Tuning Varactors: Wideband
Plastic SMT
MSV1200-04-001
MSV1200-104-004
MSV1200-07-001
MSV1200-107-004
MSV1204-04-001
MSV1204-104-004
MSV1204-05-001
MSV1204-105-004
MSV1202-03-001
MSV1202-08-001
MSV1202-12-001
Test Conditions
Model
MSV1204-99-001
MSV1204-199-004
Test Conditions
MIN
10.5
10.5
25.0
25.0
02.5
02.5
04.5
04.5
18.0
45.0
100
Test Conditions
Test Conditions
MIN
2.1
2.1
4.5
4.5
0.6
0.6
0.9
0.9
3.1
7.3
15.0
lr
nA
MIN
12
12
MAX
50
50
@ 10mA
-8 Vdc
C t -2 @ Vr 2, F = 1 MHz
MIN
11
11
Ratio
Q @ Vr1,
50 MHz
Vr 1 V
Vr 2 V
MIN
4.60
4.60
4.80
4.80
3.00
3.00
4.20
4.20
4.60
5.00
5.20
MIN
400
400
300
300
500
500
500
500
300
200
125
TYP
3.0
3.0
3.0
3.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
TYP
20
20
20
20
20
20
20
20
20
20
20
Ct 1V / Ct 2V
@ -1 Vdc,
F = 50 MHz
Ct
pF
MAX
14
14
MIN
4.0
4.0
MAX
16.5
16.5
Ct
pF
TYP
100
50.0
22.0
16.0
09.5
—
MIN
40.0
18.0
08.5
06.5
04.3
—
MIN
1.2
1.2
TYP
1.9
1.9
MIN
250
250
@ -6 Vdc, F = 50 MHz
Ct
pF
TYP
65.0
27.0
10.5
07.8
5.50
—
Q
Ct
Ct @ -0.2 Vdc, F = 1 MHz C t @ -2 Vdc, F = 1 MHz
Ct
pF
MIN
95.0
42.0
17.0
14.5
8.7
85.0
MAX
2.50
2.50
5.30
5.30
0.85
0.85
1.20
1.20
3.90
9.20
20.00
Ct
pF
Vb
@ -2 Vdc,
F = 50 MHz
Q
MIN
20.0
09.0
04.0
03.0
02.0
15.0
TYP
25.0
12.0
05.5
04.8
02.9
30.0
MIN
80
150
200
300
350
500*
@ -1 Vdc, F = 1 MHz
@ -2.5 Vdc, F = 1 MHz
@ -4 Vdc, F = 1 MHz
@ -4 Vdc, F = 50 MHz
Ct
pF
Ct
RATIO
Ct
RATIO
Q
Model
MSV1204-22-001
MSV1204-23-001
MSV1204-24-001
MSV1204-25-001
MAX
12.5
12.5
31.0
31.0
03.3
03.3
05.5
05.5
22.0
55.0
125
@ -1 Vr 1, F = 1 MHz
Model
MSV1204-11-001
MSV1204-12-001
MSV1204-13-001
MSV1204-14-001
MSV1204-15-001
MSV1201-97-001
Ct
pF
Ct
pF
Model
MIN
18.0
09.0
06.0
04.2
MAX
27.0
13.0
80.0
05.6
@ 2.5 Vdc, F = 1 MHz
MIN
01.5
01.5
01.5
01.5
MAX
02.0
02.0
02.0
02.0
C t 1 V / Ct 2.5 V
MIN
1.50
1.50
1.50
1.50
MAX
2.00
2.00
2.00
2.00
C t 2.5 V / Ct 4 V
MIN
150
200
300
350
@ -4 V, F = 50 MHz
www.aeroflex.com/metelics | 111
Silicon Hyperabrupt Tuning Varactors: Wideband
Plastic SMT
• High Capacitance Ratios
• Linear Tuning Between 2 and 8 Volts
• Available Over a Broad Range of Junction Capacitances
• Satisfies a Large Number of Wideband Applications through the VHF Frequency Band
Model
SMV1401
SMV1402
SMV1403
SMV1404
SMV1405
SMV1406
SMV1407
SMV1408
SMV1409
SMV1410
SMV1411
SMV1412
Test Conditions
Maximum Ratings
Diode Capacitance
Ct
pF
Diode Capacitance
Ct
pF
MIN
440
MIN
MAX
45
140
96
200
80
54
37
26
17
12
8
69
210
144
300
120
82
57
40
27
18
12
MAX
660
@ 1 Vdc, F = 1 MHz
@ 2 Vdc, F = 1 MHz
Tuning Ratio
TR
MIN
14:1
Quality Factor
Q
MIN
MIN
200
200
200
200
200
200
200
200
200
200
200
200
10:1
10:1
10:1
10:1
10:1
10:1
10:1
10:1
9.5:1
8.5:1
7.5:1
Ct 1V/Ct 10V Ct 2V/Ct 10V
Parameters
Value
Rating
Device Dissipation
Ta - 25° C
250 mW
Reverse Breakdown Voltage
10 µAdc
12 Volt Vdc Min
Max Reverse Leakage Current
VR = 10 Vdc
0.1 µAdc
@ -2V, F = 50 MHz
Junction Temperature
125° C
Operating Temperature
-55° to + 125° C
Storage Temperature
-65° C to + 150° C
Capacitance Tolerance
Standard Device + 20%
20
1
12 || www.aeroflex.com/Metelics
www.aeroflex.com/metelics
Silicon Hyperabrupt Tuning Varactors: VHF/UHF
Plastic SMT
• Superior Performance in Highly Stable Oscillator Designs
• Uniform Capacitance / Temperature Coefficient
• Highly Reproducible Ion Implanted Structure
SMV20422
SMV20423
SMV20424
SMV20425
Test Conditions
Ct
RATIO
Ct
pF
Model
MIN
18.0
9.0
6.0
4.2
MAX
27.0
13.0
8.0
5.6
MIN
1.8
1.8
1.8
1.8
Ct
RATIO
MAX
2.5
2.5
2.5
2.5
MIN
1.8
1.8
1.8
1.8
Q
MAX
2.5
2.5
2.5
2.5
MIN
150
200
300
350
@ 2.5 Vdc, F = 1 MHz
C t @ 1 V / Ct 2.5 V
C t 2.5 V / C t 4 V
@ -4 Vdc,
F = 50 MHz
Ct
pF
Ct
pF
Ct
pF
Q
Model
SMV20411
SMV20412
SMV20413
SMV20414
SMV20415
Test Conditions
Maximum Ratings
MIN
95.0
42.0
17.0
14.5
8.7
TYP
100.0
54.0
22.0
16.0
11.3
@ -1 Vdc, F = 1 MHz
MIN
40.0
18.0
8.5
6.5
4.3
MAX
65
27
10.5
7.8
5.5
@ -2.5 Vdc, F = 1 MHz
TYP
20.0
8.7
4.0
3.0
2.2
MAX
25.0
12.0
5.5
4.8
2.9
@ -4 Vdc, F = 1 MHz
Parameters
Value
Rating
Reverse Breakdown Voltage
10 µAdc
12 Volt Min
Max Reverse Leakage Current
Vr = 8 Volts
20 nAdc
Power Dissipation
@ Ta = 25° C
250 mW
Junction Temperature
125° C
Operating Temperature
-55° to + 125° C
Storage Temperature
-65° C to + 150° C
MIN
80
150
200
300
350
@ -4 Vdc,
F = 50 MHz
www.aeroflex.com/metelics | 113
Silicon Hyperabrupt Tuning Varactors: HF
Bare Die
Ceramic Epoxy SMT
Glass Axial Leaded
• High Reliability, Silicon Planar
The Aeroflex / Metelics High Frequency Hyperabrupt Diodes feature ion implanted
epi construction. They are ideal for tuning LC resonant circuits up to 100 MHz
with frequency ratios as high as 4:1. Capacitance values range from 46 pF to
270 pF at -2 Vdc.
• Large Capacitance Ratios
• High Q
• Straight-Line Frequency Performance
Over a 1.5 to 4 Volt Tuning Range
Total Capacitance
pF
Model
MIN TYP MAX
TYP
Tuning Ratio
MIN TYP MAX
Vbr
Vdc
Q
Ir
nAdc
TYP
TYP
TV1401
46
57
68
6.1
4.2
4.7
5.2
81.5
13
MIN TYP MAX MIN TYP MIN TYP MIN TYP TYP MAX
10
12.0
17.0
—
–
75
140
12
20
10
50
TV1402
46
57
68
6.1
4.2
4.7
5.2
81.5
13
10
12.0
17.0
200
700
—
–
12
20
50
100
1000
TV1403
46
57
–
6.1
–
4.7
5.2
81.5
13
10
12.0
–
200
700
—
–
12
20
100
TV1501
100
125
150
13.0
8.6
9.6
10.6
180
14
10
13.0
17.5
—
–
50
130
12
20
10
50
TV1502
100
125
150
13.0
8.6
9.6
10.6
180
14
10
13.0
17.5
200
500
—
–
12
20
50
100
TV1503
100
125
–
13.0
–
9.6
10.6
180
14
10
13.0
–
200
500
—
–
12
20
100
1000
TV1601
140
175
210
18.5
12.6
14.0
15.4
255
14
10
12.5
17.0
—
–
50
120
12
20
10
50
TV1602
140
175
210
18.5
12.6
14.0
15.4
255
14
10
12.5
17.0
200
500
—
–
12
20
50
100
1000
TV1603
140
175
–
18.5
–
14.0
15.4
255
14
10
12.5
–
200
500
—
–
12
20
100
TV1701
180
225
270
24.0
16.2
18.0
19.8
325
14
10
12.5
17.0
—
–
50
115
12
20
10
50
TV1702
180
225
270
24.0
16.2
18.0
19.8
325
14
10
12.5
17.0
200
500
—
–
12
20
50
100
TV1703
180
225
–
24.0
–
18.0
19.8
325
14
10
12.5
–
200
500
—
–
12
20
100
1000
TV1801
–
350
–
30.5/35/37.5
–
26.5
–
400/500/550 12/14/18
–
13.0
–
—
–
—
–
12
20
10
50
TV1802
–
350
–
30.5/35/37.5
–
26.5
–
400/500/550 12/14/18
–
13.0
–
—
–
—
–
12
20
50
100
Test
Conds.
@ 2.0 Vdc, F=1 MHz
Maximum Ratings
@ -7 Vdc,
F=1 MHz
@ -10Vdc,
F = 1 MHz
Parameter
@ 1.25 Vdc,
F = 1 MHz
C t 1.25V/
C t 7V
Value
Reverse Voltage
Same as Vbr (Volts)
Forward Current
100 mA
Power Dissipation
250 mW
Operating Temperature
-55 to + 150 °C
Storage Temperature
-65 to + 200 °C
20
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C t 2V / C t 10V
@ -2 Vdc,
F=1 MHz
@ -2 Vdc,
F= 10 MHz
@10 mA
@ VR -10Vdc
Silicon Hyperabrupt Tuning Varactors: VHF
Bare Die
Glass Axial Leaded
Ceramic Epoxy SMT
• High Reliability, Silicon Planar
Hermetically Sealed
• Octave Tuning or Ultra-High
Q Applications
• Straight-Line Frequency Applications
Over a 3 to 8 Volt Bias Range
• Low Cost Applications
The Aeroflex / Metelics VHF Tuning Varactors are Ion-implanted highly reproducible
hyperabrupt diodes which allow octave tuning of LC tanks up to 500 MHZ or, with
a reduced 1.5 to 1 frequency ratio, straight-line frequency tuning over a 3 to 8 volt
tuning range. These UHF diodes give a full capacitance range of 20 to 200pF at 4
volts bias, ultra high Q and excellent large signal handling capabilities, along with a
2 to 1 capacitance ratio by tuning from 9 to 20 volts of reverse bias. Closely matched
sets of all VHF diodes are available along with “A” suffix versions having ± 5%
capacitance tolerance at 4 volts of reverse bias.
Total Capacitance
pF
Model
Tuning Ratio
MIN max MIN Max MIN MAX MIN MAX MIN MAX MIN
Ir
nAdc
Vbr
Vdc
Q
TYP
MIN
TYP
TV2001
18
22
7.5
10.5
3.1
3.9
—
–
5.4
6.6
160
220
22
30
TYP MAX TYP MAX TYP MAX
—
–
—
–
15
100
TV2001A
19
21
7.8
9.2
3.1
3.9
—
–
5.4
6.6
160
230
22
30
—
–
—
–
15
15
TV2002
18
22
7.5
10.5
—
–
1.8
2.7
—
–
160
220
15
18
—
–
15
100
—
–
TV2002A
19
21
7.8
9.2
—
–
2.0
2.7
—
–
160
220
15
18
—
–
15
100
—
–
TV2004
18
22
7
11
—
–
—
–
—
–
80
120
8
12
50
250
—
–
—
–
TV2201
45
55
18
25
7.3
9.2
—
–
5.6
6.9
125
165
22
30
—
–
—
–
20
100
47.5
52.5
18.4
21.6
7.3
9.2
—
–
5.6
6.9
125
165
22
30
—
–
—
–
20
100
45
55
18
25
—
–
1.8
2.8
—
–
125
165
15
18
—
–
20
100
—
–
47.5
52.5
18.4
21.6
—
–
2.2
2.8
—
–
125
165
15
18
—
–
20
100
—
–
TV2201A
TV2202
TV2202A
TV2204
45
55
17
26
—
–
—
–
—
–
65
100
8
12
50
250
—
–
—
–
TV2301
100
120
39
55
15
19
—
–
5.9
7.3
80
110
22
30
—
–
—
–
30
100
100
TV2301A
105
115
41.5
48.6
15
19
—
–
5.9
7.3
80
110
22
30
—
–
—
–
30
TV2302
100
120
39
55
—
–
1.8
2.8
—
–
80
110
15
18
—
–
30
100
—
–
TV2302A
105
115
41.5
48.6
—
–
2.15
2.8
—
–
80
110
15
18
—
–
30
100
—
–
TV2304
100
120
36
58
—
–
—
–
—
–
40
60
8
12
50
250
—
–
—
–
TV2401
140
170
55
80
22.5
28
—
–
5.8
7.1
70
90
22
30
—
–
—
–
50
500
500
TV2401A
147
163
59.8
70.2
22.5
28
—
–
5.8
7.1
70
90
22
30
—
–
—
–
50
TV2402
140
170
55
80
—
–
1.8
2.8
—
–
70
90
15
18
—
–
50
500
—
–
TV2402A
147
163
59.8
70.2
—
–
2.1
2.7
—
–
70
90
15
18
—
–
50
500
—
–
500
TV2404
140
170
50
85
—
–
—
–
—
–
35
50
8
12
50
500
—
–
70
TV2501
180
220
70
105
29
36
—
–
5.8
7.1
60
80
22
30
—
–
—
–
—
–
TV2501A
190
210
78
92
29
36
—
–
5.8
7.1
60
80
22
30
—
–
—
–
70
500
TV2502
180
220
70
105
—
–
1.8
2.8
—
–
60
80
15
18
—
–
70
500
—
–
TV2502A
190
210
78
92
—
–
2.0
2.7
—
–
60
80
15
18
—
–
70
500
—
–
TV2504
180
220
65
110
—
–
—
–
—
–
30
45
8
12
50
500
—
–
—
–
Test
Conditions
@ -4 Vdc,
F=1MHz
Maximum Ratings
@ -8 Vdc,
F=1MHz
@ -20 Vdc,
F= 1 MHz
Ct 4 / Ct 8
C t 4 / C t 20
Parameter
Value
Reverse Voltage
Same as Vbr (Volts)
Forward Current
100 mA
Power Dissipation
250 mW
Operating Temperature
-55 to + 150 °C
Storage Temperature
°C
@ -4 V,
F = 50 MHz
@ 10 mA
@ -6 V
@ -10 V
@ -20 V
www.aeroflex.com/metelics | 115
Silicon Hyperabrupt Tuning Varactors: UHF
Bare Die
Glass Axial Leaded
Ceramic Epoxy SMT
• High Reliability, Silicon Planar
The Aeroflex / Metelics UHF Tuning Varactors offer higher Qs than their VHF
counterparts, but have slightly lower capacitance ratios. These diodes are excellent
for octave tuning up to 800 MHz and for straight-line-frequency tuning between 3
and 8 volts of bias. They also achieve exceptionally high Q values and large signal
capabilities when tuned between 9 and 20 volts, which extends their useful range
to over 1 GHz. Closely matched sets are available, designed by suffix “A”.
• Octave Tuning at UHF
• Octave Tuning at VHF
• Straight-Line Frequency Applications
Over a 3 to 8 Volt Bias Range
• Low Cost Applications
Total Capacitance
pF
Model
Tuning Ratio
Q
Ir
nAdc
Vbr
min mAx min max min max min max min max min
typ
min
typ
typ
max
typ
max
Typ
max
TV2101
10.5
12.5
4.3
5.7
2.0
2.3
5.0
5.8
—
–
300
350
22
30
—
–
—
–
10
100
TV2101A
10.9
12.1
4.6
5.4
2.0
2.3
5.0
5.8
—
–
300
350
22
30
—
–
—
–
10
100
TV2102
10.5
12.5
4.3
5.7
2.0
2.4
4.7
5.5
—
–
200
300
22
30
—
–
—
–
10
100
TV2102A
10.9
12.1
4.6
5.4
2.0
2.4
4.7
5.5
—
–
200
300
22
30
—
–
—
–
10
100
TV2103
10.5
12.5
4.3
5.7
—
–
—
–
1.9
2.7
200
300
15
18
—
–
50
500
—
–
TV2103A
10.9
12.1
4.6
5.4
—
–
—
–
2.0
2.6
200
300
15
18
—
–
50
500
—
–
TV2104
10.5
12.5
—
–
—
–
—
–
—
–
100
150
8
12
50
500
—
–
—
–
TV2801
25.0
31.0
10.0
13.5
4.5
5.1
5.2
6.1
—
–
200
250
22
30
—
–
—
–
20
100
TV2801A
26.5
29.5
11.0
13.0
4.5
5.1
5.2
6.1
—
–
200
250
22
30
—
–
—
–
20
100
TV2802
25.0
31.0
10.0
13.5
4.5
5.3
4.9
5.8
—
–
150
200
22
30
—
–
—
–
20
100
TV2802A
26.5
29.5
11.0
13.0
4.5
5.3
4.9
5.8
—
–
150
200
22
30
—
–
—
–
20
100
TV2803
25.0
31.0
10.0
13.5
—
–
—
–
1.9
2.8
150
200
15
18
—
–
50
500
—
–
TV2803A
26.5
29.5
11.0
13.0
—
–
—
–
2.0
2.7
150
200
15
18
—
–
50
500
—
–
TV2804
25.0
31.0
—
–
—
–
—
–
—
–
75
100
8
12
50
500
—
–
—
–
Test
Conds.
@ -3 Vdc,
F = 1 MHz
Maximum Ratings
@ -8 Vdc,
F = 1 MHz
@ -20 Vdc,
F = 1 MHz
Parameter
C t 3 / C t 20
Ct 3 / Ct 8
Value
Reverse Voltage
Same as Vbr (Volts)
Forward Current
100 mA
Power Dissipation
250mW
Operating Temperature
-55 to + 150 °C
Storage Temperature
-65 to + 200 °C
20
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www.aeroflex.com/metelics
@ -3 Vdc,
F = 50 MHz
@ 10 mA
@ -6 V
@ -10 V
@ -20 V
Silicon Hyperabrupt Varactors: Microwave
Bare Die
Ceramic Microwave Pill
Ceramic Epoxy SMT
• All EPI Mesa Construction
Ceramic Hermetic SMT
The Aeroflex / Metelics MHV-500 Series Microwave Hyperabrupt Tuning Varactors
are silicon epitaxial mesa devices with high reliability glass passivation which ensures
optimum VCO settling time and flat post tuning drift response. They offer Q values
well above ion-implanted hyperabrupt diodes. These diodes offer octave tuning
through 9 GHz. They are available in a wide variety of case styles for surface mount
and/or cavity requirements. Chip devices are recommended for wide bandwidth
performance and frequency response.
• High Reliability
• Frequency Linear Profiles
• Glass Passivation
• High Q
• Wide Tuning Ratios
Junction Capacitance
pF
Model
MHV500
MHV501
MHV502
MHV503
MHV504
MHV505
MHV506
MHV507
MHV508
MHV509
MHV510
MHV511
MHV512
MHV513
Test
Conds.
MIN
2.25
2.8
3.3
4.2
5.0
6.1
7.2
9.0
10.8
13.1
15.7
18.9
22.9
27.9
TYP
2.5
3.1
3.7
4.7
5.6
6.8
8.4
10.0
12.0
14.6
17.4
21.0
25.4
31.0
MAX
2.75
3.4
4.1
5.2
6.2
7.5
9.2
11.0
13.2
16.1
19.1
23.1
28.0
34.1
Vr = 0 V, F = 1MHz
Maximum Ratings
MIN
.70
.90
.98
1.35
1.63
1.98
2.43
2.97
3.51
4.23
5.04
6.12
7.38
9.0
TYP
.80
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10.0
MAX
.90
1.1
1.32
1.65
1.98
2.42
2.97
3.63
4.29
5.17
6.16
7.48
9.02
11.0
Vr = 4 V, F = 1 MHz
Ratio
MIN
.13
.16
.18
.24
.30
.36
.44
.54
.64
.77
.91
1.11
1.34
1.64
TYP
.20
.24
.28
.36
.43
.52
.64
.78
.93
1.12
1.33
1.62
1.95
2.38
MAX
.30
.36
.44
.55
.66
.80
1.0
1.21
1.43
1.72
2.05
2.5
3.0
3.67
MIN
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
Vr = 20 V, F = 1 MHz
Q
MAX
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
2600
2500
2400
2300
2200
2000
1800
1500
1200
1000
800
700
650
600
Cj 4 / Cj 20
Parameter
Value
Units
Operating Temperature
-55 to + 150 °C
°C
Storage Temperature Range
-65 to + 200 °C
°C
Minimum Voltage Breakdown
22 Volts
Volts
Maximum Leakage Current
50 nA
nA
www.aeroflex.com/metelics | 117
Silicon Zener Diodes
Glass Axial Leaded
• Sharper Breakdown
The family of Aeroflex / Metelics Silicon Zener Avalanche Diodes includes a variety of
models in various voltage ranges. They feature sharp breakdown and low leakage LVA
regulators. Certain models also feature exceptionally low noise, low impedance and
sharp knees for high performance, low current applications.
• Lower Leakage Current
Characteristics in the
4–10 Volt range and the
5–9 Volt range
Sharp Breakdown, Low Leakage LVA Regulator, 4–10 Volt Range Model
Voltage Vz @ Izt
Vdc
Test Current Izt
mA
Zener Impedance
Zzt @ Izt
W
TYP
LVA43A
LVA47A
LVA51A
LVA56A
LVA62A
LVA68A
LVA75A
LVA82A
LVA91A
LVA100A
Maximum Rating
4.3
4.7
5.1
5.6
6.0
6.8
7.5
8.2
9.1
10.0
Max
20
10
5
1
1
1
1
1
1
1
Reverse Leakage Current
Max
I r µAdc
18
15
15
40
50
50
100
100
100
100
4.0
4.0
0.1
0.05
0.05
0.05
0.01
0.01
0.01
0.01
Parameters
Value
Package style
CS85 (DO-7)
Forward Voltage
@ If = 200 mAdc
1.5 Vdc
Noise Density
@ Iz = 250 µAdc
4.0µ V / √Hz
Power Dissipation
@ Ta = 25° C
400 mW
Operating Temperature
-65° C to + 175° C
Storage Temperature
-65° C to + 200° C
Voltage Tolerance
Standard Device
Suffix A
±5%
Suffix B
±2%
Noise Density measured from 1000 to 3000 Hz.
20
1
18 | | www.aeroflex.com/Metelics
www.aeroflex.com/metelics
Rating
±10%
Vr Vdc
1.5
2.0
2.0
3.0
4.0
5.0
6.0
6.5
8.0
9.0
Noise Density @
250 µA
Max
4
4
4
4
4
4
4
4
4
4
Silicon Zener Diodes
Glass Axial Leaded
Sharp Breakdown, Low Leakage LVA Regulator, 5–9 Volt Range
Voltage
Zener
Impedance1
typ
typ
µAdc
Max
Vdc
Max
DVz
Vdc
Max
Izh
mAdc
Max
IzL
µAdc
Max
5.0
5.3
5.6
5.9
6.2
6.5
6.8
7.1
7.4
7.7
8.0
8.3
8.6
8.9
9.2
9.5
9.8
700
250
100
100
100
100
100
175
175
175
175
175
175
175
175
175
175
10.0
5.0
1.0
0.5
0.1
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
4.00
4.24
4.48
4.72
4.96
5.20
5.44
5.68
5.92
6.16
6.40
6.64
6.88
7.12
7.36
7.60
7.84
0.40
0.20
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
100
100
50
10
10
10
10
10
10
10
10
10
10
10
10
10
10
@ 250 µA
@ 250 µAdc
Model
LVA450A
LVA453A
LVA456A
LVA459A
LVA462A
LVA465A
LVA468A
LVA471A
LVA474A
LVA477A
LVA480A
LVA483A
LVA486A
LVA489A
LVA492A
LVA495A
LVA498A
Test
Conditions
Maximum Rating
Reverse Leakage
Regulation Factor
I r @ Vr
Parameters
Value
Package style
CS85 (DO-7)
TC
Noise Density
typ
max
0.75
1.33
1.96
2.30
2.67
3.06
3.40
3.76
4.07
4.47
4.80
5.15
5.50
5.87
6.16
6.46
6.86
@ 250 µAdc
MV/°C
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
@ 250 µA
Rating
Forward Voltage
@ If=200 mAdc
1.5Vdc
Noise Density
@ Iz=250 µAdc2
1.0 µV / √Hz
Power Dissipation
@ Ta=25° C
400 mW
Operating Temperature
-65° C to + 175° C
Storage Temperature
-65° C to + 200° C
Voltage Tolerance:
Standard Device
+0.20 Vdc
Notes:
1. Impedance measured with 10% 60 Hz AC superimposed on Izt.
2. Noise Density on devices LVA489 to LVA498 increases to 2.0 max. Noise Density measured from 1000 to 3000 Hz.
www.aeroflex.com/metelics | 119
Silicon Zener Diodes
Glass Axial Leaded
• Designed for Use at Low Current Levels
• Low Leakage
• Low Impedance
• Low Noise
• Sharp Knees
IN5000 Series, Low Voltage, High Performance, Low Noise, Low Leakage
Model
Zener
Voltage
Vz
Test
Current
Izt mA
Zener
Impedance2
W
TYP
1N5518
1N5519
1N5520
1N5521
1N5522
1N5523
1N5524
1N5525
1N5526
1N5527
1N5528
1N5529
1N5530
1N5531
1N5532
1N5533
1N5534
1N5535
1N5536
1N5537
1N5538
1N5539
1N5540
1N5541
1N5542
1N5543
1N5544
1N5545
1N5546
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
22.0
24.0
25.0
28.0
30.0
33.0
Test
@ Izt (Volts)
Conditions
max
20
20
20
20
10
5
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
26
24
22
18
22
26
30
30
30
35
40
45
60
80
90
90
100
100
100
100
100
100
100
100
100
100
100
100
100
Zzt @ Izt
Reverse Leakage Current
Ir
µAdc
max
5.0
3.0
1.0
3.0
2.0
2.0
2.0
1.0
1.0
0.5
0.5
0.1
0.05
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Vr1
max
0.9
0.9
0.9
1.0
1.5
2.0
3.0
4.5
5.5
6.0
6.5
7.0
8.0
9.0
9.5
10.5
11.5
12.5
13.0
14.0
15.0
16.0
17.0
18.0
20.0
21.0
23.0
24.0
28.0
Vr2
Volts
max
1.0
1.0
1.0
1.5
2.0
2.5
3.5
5.0
6.2
6.8
7.5
8.2
9.1
9.9
10.8
11.7
12.6
13.5
14.4
15.3
16.2
17.1
18.0
19.8
21.6
22.4
25.2
27.0
29.7
Noise
Density3
max
0.5
0.5
0.5
0.5
0.5
0.5
1.0
1.0
1.0
2.0
4.0
4.0
4.0
5.0
10.0
15.0
20.0
20.0
20.0
20.0
20.0
20.0
20.0
25.0
30.0
35.0
40.0
45.0
50.0
@ Iz = 250
µA ND µV /
√Hz
Regulation Factor4
∆ Vz
Volts
max
0.90
0.90
0.85
0.75
0.60
0.65
0.30
0.20
0.10
0.05
0.05
0.05
0.10
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.25
0.30
0.35
0.40
0.45
0.50
Notes
1. Package style CS85 (DO-7)
2. Suffix denotes Vz tolerance: non suffix +20%, A suffix +10%: I r @ Vr1, Vz, + Vf only. Suffix B +5%: Ir @ Vr2, Vz, DVz, Vf, ND.
3. Measured with 10%, 60 Hz AC superimposed on Izt.
4. Measured from 1000 to 3000 Hz.
5. Difference between Vz as Izt and IzL
6. Forward Voltage (Vf): If = 200 mA, Ta = 25° C, mA = 1.1 Vdc.
MILITARY SCREENING AVAILABLE
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IzL
mAdc
max
2.0
2.0
2.0
2.0
1.0
0.25
0.25
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Regulator
Current
Izm mAdc
max
115
105
98
88
81
75
68
61
56
51
46
42
38
35
32
29
27
25
24
22
21
20
19
17
16
15
14
13
12
Silicon Zener Diodes
Glass Axial Leaded
1N6000 Series Low Voltage, High Performance, Low Noise, Low Leakage
Zener Voltage
Model
TYP
1N6082
1N6083
1N6084
1N6085
1N6086
1N6087
1N6088
1N6089
1N6090
1N6091
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10.0
Test
Conditions
Vz @ Izt
Volts
Test
Current Izt
mA
20
10
5
1
1
1
1
1
1
1
Zener
Impedance2
W
MAX
18
10
10
40
45
50
50
60
60
60
Zzt @ Izt
Reverse Leakage Current
Ir
µAdc
MAX
2.0
2.0
2.0
2.0
0.5
0.05
0.01
0.01
0.01
0.01
Vr2
Volts
MAX
1.5
2.0
3.0
4.5
5.6
6.2
6.8
7.5
8.2
9.1
Noise
Density3
MAX
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
2.0
2.0
@
Iz = 250
µA (ND µV
/ √Hz)
Regulation Factor4
∆ Vz
Volts
MAX
0.75
0.50
0.30
0.10
0.10
0.10
0.10
0.10
0.10
0.10
IzL
mAdc
MAX
2.0
1.0
0.25
0.05
0.01
0.01
0.01
0.01
0.01
0.01
LVA TYPE1
LVA343A
LVA347A
LVA351A
LVA356A
LVA362A
LVA368A
LVA375A
LVA382A
LVA391A
LVA3100A
Notes:
1. Suffix denotes Vz tolerance: non suffix +20%, A suffix +10%.
2. Measured with 10%, 60 Hz AC superimposed on Izt.
3. Measured from 1000 to 3000 Hz.
4. Difference between Vz as Izt and IzL.
5. VF @ 200mA = 1.2V max.
6. Power rating is 400 mW @ 25° C, derate linearly to zero @ 175° C.
www.aeroflex.com/metelics | 121
Silicon Zener Diodes
Glass Axial Leaded
Low Level, Very Low Voltage, Low Leakage
Model
K120
K150
K180
K210
K240
K270
K300
K330
K360
K390
K430
K470
K510
Test
Conditions
Maximum Rating
Zener Voltage
Vdc
TYP
1.2
1.5
1.8
2.1
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
Vz @ Iz = 10 mA
Reverse Current
Dynamic Impedance
W
Max
20
20
20
20
20
20
20
20
20
20
25
25
25
Zz @Iz = 10 mA
Ir
µAdc
Max
125
125
125
125
125
125
125
125
125
125
135
135
135
Max
.05
.05
.05
.05
.05
.05
.05
.05
.05
.05
.05
.05
.05
ZK @ Iz = 1 mA
Value
Rating
DC Power Dissipation
@ Ta = 50° C
250 mW
Operating Temperature (Topr)
-65 to + 175° C
Storage Temperature (Tstg)
-65 to + 200° C
Voltage Tolerance:
Standard Device
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0.4
0.5
0.6
0.9
1.2
1.7
1.9
2.2
2.5
2.7
3.1
3.5
3.8
@25° C
Parameters
Other package styles available
Vr
Vdc
+10%
Silicon Zener Diodes
Glass Axial Leaded
Low Level Zener Diodes, Sharp Knee, Low Impedance
Model
Zener Voltage
Vz
Vdc
TYP
K511
K561
K621
K681
Test Conditions
Maximum Rating
5.1
5.6
6.2
6.8
@ Iz = 250 µA
Dynamic Impedance
Zz
W
MAX
50
45
35
25
Reverse Current
Ir
µA
Max
.05
.05
.05
.05
Zzk
W
15
15
18
18
@ Iz = 250 µA
@ Iz = 1 mA
Parameters
Value
Rating
@Ta = 50° C
250 mW
Forward Voltage Drop
2 mW/° C
@ If = 100 mA
Operating Temperature
1.3 Vdc
-65 to + 175° C
Storage Temperature
Voltage Tolerance:
2.5
3.5
5.6
6.4
@ 25° C
DC Power Dissipation
Derate above 50° C
Vr
Vdc
-65 to + 200° C
Standard Device
+10%
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Silicon Zener Diodes
Glass Axial Leaded
Low Level Zener Diodes, Low Current: 250 m A - Low Noise
Model
Zener Impedance Zener Impedance
Zzt
Zzt
W
W
TYP
1N4099
1N4100
1N4101
1N4102
1N4103
1N4104
1N4105
1N4106
1N4107
1N4108
1N4109
1N4110
1N4111
1N4112
1N4113
1N4114
1N4115
1N4116
1N4117
1N4118
1N4119
1N4120
1N4121
Test
Conditions
6.8
7.5
8.2
8.7
9.1
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
22.0
24.0
25.0
27.0
28.0
30.0
33.0
@ 250 µA
Maximum Rating
Reverse Leakage Current
MAX
Ir
µAdc
Max
200
200
200
200
200
200
200
200
200
200
100
100
100
100
150
150
150
150
150
150
200
200
200
10.0
10.0
1.0
1.0
1.0
1.0
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
Vr
Vdc
Max
5.17
5.70
6.24
6.61
6.92
7.60
8.44
9.12
9.87
10.65
11.40
12.15
12.92
13.67
14.44
15.20
16.72
18.25
19.00
20.46
21.28
22.80
25.08
@ 250 µA
Zener Vol Max Noise Density
Volts
Regulator Current
Izm
mAdc
TYP
MAX
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
@
Iz = 250 µA µVz / √Hz tage
Vz @ = 250 µA
Parameters
Value
Rating
DC Power Dissipation
@ Ta = 50° C
250 mW
Operating Temperature (Topr)
-65 to + 175° C
Storage Temperature (Tstg)
-65 to + 200° C
Voltage Tolerance:
Standard Device
Other package styles available
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+10%
35.0
31.8
29.0
27.4
26.2
24.8
21.6
20.4
19.0
17.5
16.3
15.4
14.5
13.2
12.5
11.9
10.8
9.9
9.5
8.8
8.5
7.9
7.2
Silicon Zener Diodes
Glass Axial Leaded
Low Level Zener Diodes, Low Current: 250 m A - Low Noise
Model
1N4614
1N4615
1N4616
1N4617
1N4618
1N4619
1N4620
1N4621
1N4622
1N4623
1N4624
1N4625
1N4626
1N4627
Test
Conditions
Zener Voltage
Vz
Volts
Zener Impedance
Zzt
W
TYP
MAX
1.8
2.0
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
@ 250 µA
Maximum Rating
1200
1250
1300
1400
1500
1600
1650
1700
1650
1600
1550
1500
1400
1200
Reverse Leakage Current
Ir
µAdc
MAX
7.5
5.0
4.0
2.0
1.0
0.8
7.5
7.5
5.0
4.0
10.0
10.0
10.0
10.0
@ 250 µA
Vr
Vdc
MAX
1.0
1.0
1.0
1.0
1.0
1.0
1.5
2.0
2.0
2.0
3.0
3.0
4.0
5.0
Noise Density
Regulator
Current
Izm
mAdc
MAX
MAX
1
1
1
1
1
1
1
1
1
1
1
2
4
5
@
Iz = 250 µA
µVz / √Hz
120.0
110.0
100.0
95.0
90.0
85.0
80.0
75.0
70.0
65.0
60.0
55.0
50.0
45.0
Vz Tolerance ±5%.
Forward Voltage (VF) Maximum 1.0 Vdc (1N4614-1N4627 IF = 100 mA; 1N4099-1N4121 IF = 200mA).
Noise Density measured from 1000 to 3000 Hz.
MILITARY SCREENING AVAILABLE
www.aeroflex.com/metelics | 125
Silicon Zener Diodes
Glass Axial Leaded
Low Level Zener Diodes, Ultra-Low Current: 50 µA – Low Leakage
Model
Zener Voltage
Vz
Volts
TYP
1N4678
1N4679
1N4680
1N4681
1N4682
1N4683
1N4684
1N4685
1N4686
1N4687
1N4688
1N4689
1N4690
1N4691
1N4692
1N4693
1N4694
1N4695
1N4696
1N4697
1N4698
1N4699
1N4700
1N4701
1N4702
1N4703
1N4704
1N4705
1N4706
1N4707
1N4708
1N4709
1N4710
1N4711
1N4712
1N4713
1N4714
Test Conditions
Maximum Rating
1.8
2.0
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
8.7
9.1
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
22.0
24.0
25.0
27.0
28.0
30.0
33.0
@ 50 µA
Vz Tolerance ±5%.
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Reverse Leakage Current
Ir
µAdc
MAX
Vr
Vdc
MAX
7.5
5.0
4.0
2.0
1.0
0.8
7.5
7.5
5.0
4.0
10.0
10.0
10.0
10.0
10.0
10.0
1.0
1.0
1.0
1.0
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
1.0
1.0
1.0
1.0
1.0
1.0
1.5
2.0
2.0
2.0
3.0
3.0
4.0
5.0
5.1
5.7
6.2
6.6
6.9
7.6
8.4
9.1
9.8
10.6
11.4
12.1
12.9
13.6
14.4
15.2
16.7
18.2
19.0
20.4
21.2
22.8
25.0
Regulation Factor
Volts
Regulator Current
Izm
mAdc
MAX
MAX
0.70
0.70
0.75
0.80
0.85
0.90
0.95
0.95
0.97
0.99
0.99
0.97
0.96
0.95
0.90
0.75
0.50
0.10
0.08
0.10
0.11
0.12
0.13
0.14
0.15
0.16
0.17
0.18
0.19
0.20
0.22
0.24
0.25
0.27
0.28
0.30
0.33
100 µAdc To
10 µAdc DVz
120.0
110.0
100.0
95.0
90.0
85.0
80.0
75.0
70.0
65.0
60.0
55.0
50.0
45.0
35.0
31.8
29.0
27.4
26.2
24.8
21.6
20.4
19.0
17.5
16.3
15.4
14.5
13.2
12.5
11.9
10.8
9.9
9.5
8.8
8.5
7.9
7.2
Current Limiter Field Effect Diodes
Bare Die
Glass Axial Leaded
• Mechanical Reliability
• Low Noise Figure
Regulator Current
Ip
mA
Model
1N5283
1N5284
1N5285
1N5286
1N5287
1N5288
1N5289
1N5290
1N5291
1N5292
1N5293
1N5294
1N5295
1N5296
1N5297
1N5298
1N5299
1N5300
1N5301
1N5302
1N5303
1N5304
1N5305
1N5306
1N5307
1N5308
1N5309
1N5310
1N5311
1N5312
1N5313
1N5314
Knee Impedance
Zk
MW
Limiting Voltage
VL
MIN Volts
MAX
TYP
MIN
MAX
MIN
MIN
0.22
0.24
0.27
0.30
0.33
0.39
0.43
0.47
0.56
0.62
0.68
0.75
0.82
0.91
1.00
1.10
1.20
1.30
1.40
1.50
1.60
1.80
2.00
2.20
2.40
2.70
3.00
3.30
3.60
3.90
4.30
4.70
0.198
0.216
0.243
0.270
0.297
0.351
0.387
0.423
0.504
0.558
0.612
0.675
0.738
0.819
0.900
0.990
1.080
1.170
1.260
1.350
1.440
1.620
1.800
1.980
2.160
2.430
2.700
2.970
3.240
3.510
3.870
4.230
0.242
0.264
0.297
0.330
0.363
0.429
0.473
0.517
0.616
0.682
0.748
0.825
0.902
1.00
1.100
1.210
1.320
1.430
1.540
1.650
1.760
1.980
2.200
2.420
2.640
2.970
3.300
3.630
3.960
4.290
4.730
5.170
25.00
19.00
14.00
9.00
6.60
4.10
3.30
2.70
1.90
1.55
1.35
1.15
1.00
0.88
0.80
0.70
0.640
0.580
0.540
0.510
0.457
0.420
0.395
0.370
0.345
0.320
0.300
0.280
0.265
0.255
0.245
0.235
2.750
2.350
1.950
1.600
1.350
1.000
0.870
0.750
0.560
0.470
0.400
0.335
0.290
0.240
0.205
0.180
0.155
0.135
0.115
0.105
0.092
0.074
0.061
0.052
0.044
0.035
0.029
0.024
0.020
0.017
0.014
0.012
1.00
1.00
1.00
1.00
1.00
1.05
1.05
1.05
1.10
1.13
1.15
1.20
1.25
1.29
1.35
1.40
1.45
1.50
1.55
1.60
1.65
1.75
1.85
1.95
2.00
2.15
2.25
2.35
2.50
2.60
2.75
2.90
@ Vs = 25 V
@ Vk = 6 V
@ IL = 0.8 Ip
Test Conditions
Maximum Rating
Regulator Impedance
Zs
MW
@ Vs = 25V
Parameters
Rating
Operating Temperature
-55° C to + 175° C
Storage Temperature
-55° C to + 175° C
Package style
DO-7
DC Power Dissipation
500 mW
Peak Operating Voltage
100 V
www.aeroflex.com/metelics | 127
Capacitors: MNOS Series
Bare Die
• Low leakage current
The Aeroflex / Metelics MIS capacitors utlize a silicon nitride dielectric over a
thermally grown silicon dioxide base. The resultant composite dielectric exhibits
low leakage current and insertion loss with excellent long-term stability. The
temperature coefficient of capcitance is typically +55 ppm / ºC.
• Low insertion loss
• Excellent long-term stability
Chips
Capacitance Range
Model
MC2DXXX010-010
MC2DXXX015-015
MC2DXXX020-020
IR
TCC
MIN
pF
MAX
pF
MIN
V
MIN
M
TYP
ppm / ºC
D1
mils
D2
mils
0.10
1.5
5.0
5.0
15
50
50
50
50
1,000
1,000
1,000
+55
+55
+55
10
15
20
10
15
20
V = 25 V
-55 ºC to
+200 ºC
Test Conditions
DWV
F = 1 MHz
Dimensions
See Figure 1 in Outline Drawings
(XXX = Three digit capacitance code, ex. 005 = 5 pF , 082 = 82 pF, 1.5 = 1.5 pF)
Chips
Capacitance Range
Model
MIN
pF
MC2RXXX010-015
MC2RXXX015-020
MC2RXXX015-032
MC2RXXX022-042
MC2RXXX097-107
MC2RXXX099-138
MC2RXXXX127-145
MC2RXXXX142-160
2.0
5.0
5.0
15
100
100
200
200
Test Conditions
DWV
IR
TCC
MAX
pF
MIN
V
MIN
M
TYP
ppm / ºC
D1
mils
D2
mils
20
42
62
120
999
999
1,800
2,200
50
50
50
50
50
50
50
50
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
+55
+55
+55
+55
+55
+55
+55
+55
10
15
15
22
97
99
127
142
15
20
32
42
107
138
145
160
V = 25 V
-55 ºC to
+200 ºC
F = 1 MHz
See Figure 2 in Outline Drawings
(XXX = Three or four digit capacitance code, ex. 005 = 5 pF , 082 = 82 pF, 2.5 = 2.5 pF)
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Dimensions
Capacitors: MNOS Series
Bare Die
Chips
Capacitance Range
Dimensions
DWV
IR
TCC
Model
MIN
pF
MAX
pF
MIN
V
MIN
M
TYP
ppm / ºC
D1
mils
D2
mils
MC2SXXX010-010
MC2SXXX011-011
MC2SXXX015-015
MC2SXXX016-016
MC2SXXX020-020
MC2SXXX022-022
MC2SXXX025-025
MC2SXXX030-030
MC2SXXX035-035
MC2SXXX040-040
MC2SXXX050-050
MC2SXXX055-055
MC2SXXX060-060
MC2SXXX070-070
MC2SXXX080-080
MC2SXXX100-100
0.25
1.0
3.0
3.0
5.0
5.0
10
10
15
20
25
25
35
50
70
100
8.0
12
30
35
55
60
100
120
150
200
250
300
375
550
700
999
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
10
11
15
16
20
22
25
30
35
40
50
55
60
70
80
100
10
11
15
16
20
22
25
30
35
40
50
55
60
70
80
100
V = 25 V
-55 ºC to
+200 ºC
Test Conditions
F = 1 MHz
See Figure 3 in Outline Drawings
(XXX = Three digit capacitance code, ex. 005 = 5 pF , 082 = 82 pF)
Binary Chips
Capacitance Range
Model
MC2B0.8020-020
MC2B002020-020
MC2B004020-020
MC2B008020-020
MC2B016020-020
CT
20%
pF
C1
NOM
pF
C2
NOM
pF
C3
NOM
pF
C4
NOM
pF
DWV
MIN
V
IR
MIN
M
TCC
TYP
ppm / ºC
1.5
3.75
8.0
15
30
0.1
0.25
0.5
1.0
2.0
0.2
0.5
1.0
2.0
4.0
0.4
1.0
2.0
4.0
8.0
0.8
2.0
4.0
8.0
16
50
50
50
50
50
1,000
1,000
1,000
1,000
1,000
+55
+55
+55
+55
+55
V = 25 V
-55 ºC to
+200 ºC
Test Conditions
F = 1 MHz
Package
C20
C20
C20
C20
C20
See Figure 4 in Outline Drawings
20 | www.aeroflex.com/Metelics
www.aeroflex.com/metelics | 129
Capacitors: MNOS Series
Beam Lead Chips
Beam Lead
Model
MBC50-1B12
MBC50-2B12
MBC50-3B12
MBC50-4B12
MBC50-6B12
MBC50-8B12
MBC50-10B12
MBC50-15B12
MBC50-20B12
MBC50-33B13
MBC50-47B13
MBC50-68B13
MBC50-82B13
MBC50-100B13
MBC50-0.2B14
MBC50-1.0B14
MBC50-1.5B14
MBC50-2.0B14
Test Conditions
CT
DWV
IR
TCC
20%
pF
MIN
V
MIN
m
TYP
ppm / ºC
Package
1.0
2.0
3.0
4.0
6.0
8.0
10
15
20
33
47
68
82
100
0.2
1.0
1.5
2.0
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
+55
B12
B12
B12
B12
B12
B12
B12
B12
B12
B13
B13
B13
B13
B13
B14
B14
B14
B14
V = 25 V
-55 ºC to
+200 ºC
F = 1 MHz
20
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Capacitors: 9000 Series
• High Reliability Silicon
Nitride/Oxide Dielectric
• Low Loss and High Q
• Long Term Reliability and Stability
• Gold Metallization Front and Back
The Aeroflex / Metelics MMI-9000 and 9100 Series Chip Capacitors feature high
stand-off voltage and low dielectric loss due to our use of nitride/oxide dielectric
layers. Gold bonding surfaces, top and bottom provide ease of bonding and minimum
contact resistance. MIS capacitors have high insulation resistance, low dissipation
factor, and low temperature coefficient, which are features that produce devices with
excellent long term stability.
HOW TO ORDER:
• Go to CHART 1 (9100 Series > 100 Volt Working Voltage).
Select capacitance range required.
Check CHIP size for compatibility with your circuit.
• Go to CHART 2 (9000 Series > 50 Volt Working Voltage)
for smaller chip size with lower working voltage.
• Go to CHART 3 for Beam Lead product
• Specify part number.
CAPACITANCE (10PF)
100V WORKING VOLTAGE
The first two digits are the SERIES
TOLERANCE K (+10%)
91
10R
K
TOLERANCE — SEE CHART 4
The next three digits are the value
of capacitance with R used as a
decimal point.
EXAMPLES:
9110RK = > 100 WVDC 10 pF + 10% with a .020” CHIP SIZE.
902ROJ = > 50 WVDC 2.0 pF + 5% with a .010” CHIP SIZE
A
B
C
Gold
Bonding
Pad
Chip Outline
www.aeroflex.com/metelics | 131
Capacitors: 9000 Series
Bare Die
Beam Lead Chips
9100 Series Capacitors Working Voltage > 100V
Model
Capacitance Range
Chip Size + .002” Dim A x Dim B x Dim C
910R1 thru 911R9
.1 pF thru 1.9 pF
912R0 thru 919R9
2.0 pF thru 9.9 pF
.010” x .010” x .005”
.015” x .015” x .005”
9110R thru 9129R
10.0 pF thru 29 pF
.020” x .020” x .006”
9130R thru 9149R
30.0 pF thru 49 pF
.030” x .030” x .006”
9150R thru 9199R
50.0 pF thru 99 pF
.040” x .040” x .008”
91100 thru 91199
100 pF thru 199 pF
.050” x .050” x .008”
91200 thru 91399
200 pF thru 399 pF
.070” x .070” x .008”
Chart 2 9000 Series Capacitors Working Voltage > 50V
Model
Capacitance Range
Chip Size + .002” Dim A x Dim B x Dim C
902R0 thru 9010R
2.0 pF thru 10.0 pF
901R thru 9029R
10.0 pF thru 29 pF
.010” x .010” x .005”
.015” x .015” x .005”
9030R thru 9049R
30.0 pF thru 49 pF
.020” x .020” x .006”
9050R thru 9099R
50.0 pF thru 99 pF
.030” x .030” x .006”
90100 thru 90199R
100 pF thru 199 pF
.040” x .040” x .008”
90200 thru 90399R
200 pF thru 399 pF
.050” x .050” x .008”
90400 thru 90600R
400 pF thru 600 pF
.070” x .070” x .008”
Chart 3 Beam Lead Capacitors 9000 Series VB > 50V
Model
Capacitance Range
90R1 thru 90R9
901R0 thru 901R5
90R5 thru 901R0
901R0 thru 902R2
Pkg Style
.1 to .9 pF
14-1
1.0 to 1.5 pF
14-1
.5 to 1.0 pF
14-2
1.0 to 2.2 pF
14-2
902R2 thru 904R7
2.2 to 4.7 pF
14-2
905R6M
5.6 + 20% pF
14-2
906R8M
6.8 + 20% pF
14-2
908R2M
8.2 + 20% pF
14-2
9010R0M
10 + 20% pF
14-3
9015R0M
15 + 20% pF
14-3
9022R0M
22 + 20% pF
14-3
9033R0M
33 + 20% pF
14-3
9047R0M
47 + 20% pF
14-4
9068R0M
68 + 20% pF
14-4
9082R0M
82 + 20% pF
14-4
90100R0M
100 + 20% pF
14-4
D2
± 2 mils
Chart 4
Tolerance +
A = .05 pF
G = 2%
B = .1 pF
J = 5%
C = .25 pF
K = 10%
D = .5 pF
M = 20%
F = 1%
Standard Tolerance is +10%
Maximum Ratings
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Temperature Coefficient
190 ppm/ °C Max
40 ppm/ °C typical
Voltage Breakdown
Varies according
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www.aeroflex.com/metelics
2 mils
typical
D1
± 2 mils
Mounting Capacitors
• High Reliability Silicon
Nitride/Oxide Dielectric
• Low Loss and Very High Q
• Long Term Reliability and Stability
The Aeroflex / Metelics Mounting Capacitors are designed for transient protection for
MICs and FETs. Since the capacitor substrate is silicon, it provides an optimum match
both thermally and mechanically with the device to be mounted. A wide range of
sizes and capacitance values are available as standard products. Our design flexibility
and fast turn-around allow us to offer a custom design service with a two to four week
delivery of prototypes. There is virtually no limit to size or capacitance value available.
HOW TO ORDER:
Capacitance (100 pF)
91100RK-SP = 100 WVDC 100 pF + 10% With a chip size of .070 x .070
CHIP SIZE see chart
The first two digits are the SERIES
91
100R
K – SPXXX
TOLERANCE see chart 4 on page 132
The next three digits are the value of capacitance
with R used as a decimal point.
D
A
C
E
B
Chip Outline
www.aeroflex.com/metelics | 133
Mounting Capacitors
Bare Die
MIC Mounting Capacitors: Special Capacitance and Chip Sizes
Capacitance
Range
Model Suffix
Chip Size
Customer
Specified
Pad Size
A
B
D
E
C
15.0 – 150
0.013
0.120
0.009
16
.005 – .0207
-SP49
5.0 – 50.0
0.014
0.034
0.011
0.031
.005 – .020
-SP06
10.0 – 100.0
0.014
0.055
0.012
0.053
.005 – .020
-SP51
8.0 – 80.0
0.015
0.045
0.013
0.043
.005 – .020
-SP81
17.0 – 170.0
0.015
0.090
0.013
0.088
.005 – .020
-SP80
13.0 – 130
0.016
0.065
0.014
0.063
.005 – .020
-SP14
9.0 – 90.0
0.020
0.040
0.016
0.036
.005 – .020
-SP84
7.0 – 70.0
0.020
0.040
0.016
0.030
.005 – .020
-SP12
14.0 – 140
0.020
0.055
0.018
0.053
.005 – .020
-SP89
12.0 – 120
0.020
0.060
0.014
0.055
.005 – .020
-SP88
25.0 – 250
0.021
0.121
0.015
0.115
.005 – .020
-SP34
9.0 – 90.0
0.024
0.034
0.020
0.030
.005 – .020
-SP22
24.0 – 240
0.025
0.080
0.021
0.075
.005 – .020
-SP48
29.0 – 290
0.035
0.065
0.031
0.061
.005 – .020
-SP64
75.0 – 750
0.055
0.102
0.051
0.098
.005 – .020
-SP120
90.0 – 900
0.055
0.120
0.050
0.115
.005 – .020
-SP07
100 – 1000
0.085
0.085
0.081
0.081
.005 – .020
-SP38
200 – 2000
0.094
0.152
0.091
0.148
.005 – .020
-SP05
200 – 1000
0.100
0.100
0.095
0.095
.005 – .020
-SP68
175 – 1750
0.101
0.124
0.097
0.120
.005 – .020
-SP40
200 – 2000
0.107
0.134
0.103
0.130
.005 – .020
-SP02
150 – 1500
0.110
0.110
0.100
0.100
.005 – .020
-SP01
200 – 2000
0.110
0.140
0.100
0.130
.005 – .020
-SP55
360 – 3600
0.117
0.220
0.113
0.216
.005 – .020
-SP77
300 – 3000
0.118
0.175
0.114
0.171
.005 – .020
-SP39
200 – 2000
0.120
0.134
0.110
0.130
.005 – .020
-SP20
200 – 2000
0.120
0.140
0.110
0.130
.005 – .020
-SP29
200 – 2000
0.121
0.121
0.115
0.115
.005 – .020
-SP52
300 – 3000
0.130
0.170
0.124
0.164
.005 – .020
-SP44
350 – 3500
0.140
0.170
0.135
0.165
.005 – .020
-SP104
350 – 3500
0.142
0.171
0.138
0.167
.005 – .020
-SP111
350 – 3500
0.143
0.180
0.138
0.167
.005 – .020
-SP37
350 – 3500
0.151
0.168
0.147
0.164
.005 – .020
-SP87
Maximum Ratings
Parameters
Rating
Operating Temperature
-55° C to + 150° C
Storage Temperature
-65° C to + 200° C
Voltage Breakdown
>100V Dropping the working voltage to >50V will double the high capacitance range No.
D2
± 2 mils
2 mils
typical
D1
± 2 mils
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Binary Chip Capacitors
Capacitor Chips
• High Reliability Silicon
Nitride-Oxide Dielectric
The Aeroflex / Metelics BOO and BSP Series Capacitors are designed to facilitate
bread-boarding or to use where a trimming capability is required. These devices
feature the same dielectric layer and bonding surfaces as our 9000 and 9100 Series
chip capacitors. By connecting the pads in parallel, the capacitance values are add
tive, so many combinations are possible.
• Low Loss
• Long Term Reliability and Stability
The BSP-1 chip offers the same capacitance values as BOO and BSP-3, but in a
slightly larger chip with a more accommodating layout for ease of bonding.
.015 x .015
911R5K-BSP-3
913R0K-BSP-3
913R7K-BSP-3
915R6K-BSP-3
PAD 1
0.1 pF
0.2 pF
0.25 pF
0.35 pF
PAD 2
0.2 pF
0.4 pF
0.5 pF
0.75 pF
PAD 3
0.4 pF
0.8 pF
1.0 pF
1.5 pF
PAD 4
0.8 pF
1.6 pF
2.0 pF
3.0 pF
TOTAL
1.5 pF
3.0 pF
3.75 pF
5.6 pF
913R7K-BOO
917R5K-BOO
9115ROK-BOO
9122R5K-BOO
.020 x .020
PAD 1
0.25 pF
0.5 pF
1.0 pF
1.5 pF
PAD 2
0.5 pF
1.0 pF
2.0 pF
3.0 pF
PAD 3
1.0 pF
2.0 pF
4.0 pF
6.0 pF
PAD 4
2.0 pF
4.0 pF
8.0 pF
12.0 pF
TOTAL
3.75 pF
7.5 pF
15 pF
22.5 pF
.030 x .020
913R7K-BSP-1
917R5K-BSP-1
9115ROK-BSP-1
9122R5K-BSP-1
PAD 1
0.25 pF
0.5 pF
1.0 pF
1.5 pF
PAD 2
0.5 pF
1.0 pF
2.0 pF
3.0 pF
PAD 3
1.0 pF
2.0 pF
4.0 pF
6.0 pF
PAD 4
2.0 pF
4.0 pF
8.0 pF
12.0 pF
BSP-3 and BOO
TOTAL
3.75 pF
7.5 pF
15 pF
Maximum Ratings
Parameters
Operating Temperature
Storage Temperature
Temperature Coefficient
40 ppm/°C Typical
Voltage Breakdown
Insulation Resistance: 1012 Ohms Typ.
Thermal Conductivity: 1.2°C/cm/W
Capacitance Range: 0.1 pF to 600 pF
22.5 pF
3
Rating
-55° C to + 150° C
-65° C to + 200° C
190 ppm/°C Max
1
2
4
100 Volts
BSP-3 and BOO
Sizes
BSP-3 = .015” x .015”
BOO = .020” x .020”
BSP-1 = .020” x .030”
3
BSP-1
1
2
1
2
3
4
4
BSP-1
1
2
3
4
www.aeroflex.com/metelics | 135
High “Q”, Thin Film, Spiral Inductors
Inductor Chips
• NO need for “Staking” Coil
The Aeroflex / Metelics MMI-300 Series of Spiral Inductors are formed by
photolithography and plating techniques on quartz substrates. They eliminate
the need for hand forming and “staking” of coil in hybrid circuits.
• Passivated Protective Coating
Over Coil
They provide uniformity, durability and repeatability in circuit fabrication. The coils
are polyimide coated to protect from ambient contaminants, and to eliminate the
need for conformal coating. Quartz substrates are rugged and reduce dielectric
losses. Chips may be bonded using either conductive or non conductive epoxies,
and wire bonded with gold wire or ribbon by thermocompression bonding.
• Dimensional Uniformity
• Planar Solid Structure Coil
Dimensions: Inches
DIM “A” MAX
DIM “B” MAX
DIM “C” MAX
MMI297
.030
.030
.012
MMI298
.030
.030
.012
MMI299
.040
.040
.012
MMI300
.040
.040
.012
MMI301
.040
.040
.012
MMI302
.045
.045
.012
MMI303
.055
.055
.012
MMI304
.065
.065
.012
MMI305
.075
.075
.012
MMI306
.085
.085
.012
di
Model
INSIDE DIAMETER,
di = .0094 ± .0002
A
GOLD BONDING PADS
.003 x .003
B
C
Dimensions in Inches
Spiral Inductors
# of Turns
Inductance
Ls(nH) MIN/
TYP/MAX
Q @ F t MIN/
MAX
Test
Frequency, F t
(GHz)
Resonant
Frequency, Fr
(GHz)
MMI297
1.5
MMI298
2.5
1.0
60/75
1.5
4.0
1.4
50/60
1.5
MMI299
3.6
1.15
2.0
40/45
1.5
3.2
5.0/7.5/9.0
1.75
3.5
37/43
1.5
2.3
8.0/10/12.0
1.85
3.75
33/38
1.0
2.05
1.85
R s DC
R s 1GHz
1.0/1.5/2.0
8.5
2.0/2.3/2.6
1.0
3.5
3.6/4.2/5.0
MMI300
4.5
MMI301
5.5
Model
MMI302
7.5
15/20/25
2.4
4.25
27/33
0.5
MMI303
9.5
32/40/48
4.0
70
23/27
0.5
1.4
MMI304
12.5
80/90/100
9.5
22
18/24
0.5
0.975
MMI305
15.5
150/200/250
16.5
36
14/18
0.5
0.460
MMI306
18.5
250/300/350
20
42
10/15
0.5
0.250
Design Notes:
Other Values and sizes available on request. Custom design services also available.
20
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Thin Film Resistor Chips
Resistor Chips
• Low Noise
The Aeroflex / Metelics Thin Film Resistors offer proven stability, low noise
and excellent TCR of Tantalum Nitride in a large selection of resistance values
and tolerances.
• Excellent TCR
• Small Size
• Tight Tolerance to + .1%
Parameter
Test Condition
TCR
-55° C to +125° C
+150 ppm/°C (Standard value)
MAX
TCR
-55° C to +125° C
+100 ppm/°C
MAX
TCR
-55° C to +125° C
+50 ppm/°C
MAX
TCR
-55° C to +125° C
+10 ppm/°C (Special Request, NiCR only)
MAX
-55° C to 125° C
00 Vdc
MAX
Power Rating (RTotal)
@ 70° C (derate linearly to zero @ 150° C)
250 mW
MAX
Single Series
@ 70° C (derate linearly to zero @ 150° C)
250 mW
MAX
Center-Tap
@ 70° C (derate linearly to zero @ 150° C)
250 mW
MAX
Multi-Tap
@ 70° C (derate linearly to zero @ 150° C)
250 mW
MAX
Thermal Shock
Method 107 MIL-STD-202 F
[email protected]
MAX
High Temperature Exposure
100 Hrs @ 150° C Ambient
[email protected]
MAX
Moisture Resistance
Method 106 MIL-STD-202 F
[email protected]
MAX
Method 108 MIL-STD-202 F (125∞C/1000 hr)
[email protected]
MAX
Method 308 MIL-STD-202 F
-20 dB
MAX
@25° C
1 X 1012 Ohms
MIN
Operating Voltage
Life
Noise
Insulation Resistance
Mechanical Specification for Silicon Body Only (all others to customer requirements)
Substrate
Silicon 10 + 2 mils thick
Isolation Layer
Si02 10,000Å thick, min
Backing
Lapped surface only (no metal)
Solderable
Gold Plated Backside (optional)
Metallization
Gold 10,000Å thick, min, Front Contacts
Gold Bonding Pads
Front Contact (> .0035” Sq.)
www.aeroflex.com/metelics | 137
Thin Film Resistor Chips
Resistor Ordering System
4) Is the resistor value total % + tolerance See chart below
5) Is the 2nd resistor value total % ±tolerance (if applicable)
Example
1 2 3 4 5 6 7 8
MTR-2R2K-SR2- K - NA -G-1 -T
A
+ 0.5 Ohm
F
+ 1%
B
+ 1.0 Ohm
G
+ 2%
C
+ 2.5 Ohm
J
+ 5%
D
+ .01%
K
+ 10%
E
+ .1%
M
+ 20%
NA
1) Is the three letter device type designation
MTR
Single Value through Chip Resistor (Resistance top to bottom)
MIR
Single Value Pad to Pad Chip Resistor (Resistance Top pad to
Top pad)
MCR
Dual Value Center Tap Ratio Chip Resistor (Res. #1 = Prime
Value / Res. #2 = Ratio Value)
MMR
MultiTap Chip Resistor.
XXX
as needed.
Not applicable
A) On Dual Value Resistors, (MCR), this is the res. ratio of the 2nd resistor
(Ratio Res.) To value of the 1st resistor (Prime Res.).
B) On Multi Tap Resistors (MMR). This is the tolerance of each of the small
value Resistor Taps. The large value Resistor Taps are called out on (4)
6) Backing
G
Solderable Gold
GS
Gold Silicon eutectic attachment
B
Bare
7) The temperature coefficient (TCR) of the resistor, in PPM
2) Is the resistance value in ohms
2R2K
2,200 Ohms
200R
200 Ohms
20R
20 Ohms
2R2M
2,200,000 Ohms
20R2K
20,200 Ohms
200RK
200,000 Ohms
2R
2.0 Ohms
S
Silicon Body
R1
20 Tap Multi Tap
.038”X.038” SR1
C
Ceramic
(99.6% Alumina)
R2
Dual Value
.030”X.030” CR2
B
Berilium Oxide
R3
Single Value
.020”X.020” BR3
Q
Quartz
R3A*
Single Low Value
.020”X.020” QR3A
N
Aluminum Nitride
R4
Six Value Ladder
.020”X.060” NR4
SP
Special Material
R5
12 Tap Multi Tap
.030”X.030” SPR5
R6
Single Low Value
.030”X.030” XR6
R7
Single Value
.020”X.040” XR7
Please consult factory for special substrate materials (SP)
*R3A outline for resistances < 250 Ohms
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+ 150 PPM
1
+ 100 PPM
2
+ 50 PPM
3
+ 10 PPM
8) Resistor Material
3) is the chip substrate material and
chip outline dimensions (case style) R1 thru R8
R8
0
XR8
T
Tantalum Nitride TaN (Self Passivating)
N
NiChrome NiCr
Example: Aeroflex / Metelics part no. MTR-200RK-SR3-F-NA-G-0-T
This would be a silicon body .020” x .020” x .010” single value through chip
resistor with a total resistance tolerance of + 1%, a Solderable gold back, and
Tantalum Nitride as the resistor layer and a TCR of + 150PPM.
Example: Aeroflex / Metelics part no. MCR-10RK-SR2-F-E-B-1-T
This would be a silicon body .030” x .030” x .010” two value ratio resistor with
the first value resistance tolerance of + 1%, and the second, ratio resistor, tolerance being + .1% of the first value. Resistance would be the total value of the
two resistor. A Bare lapped silicon back, and Tantalum Nitride as the resistor
layer and a TCR of + 100PPM.
Example: Aeroflex / Metelics part no. MIR-2R5K-SR3-J-NA-B-2-N
This would be a silicon body .020” x .020” x .010” single value Top pad to Top
pad chip resistor with a total resistance tolerance of + 5%, a bare silicon back,
with NiChrome as the resistor layer and a TCR of + 50PPM.
Example: Aeroflex / Metelics part no. MMR-11RK-SR1-F-K-G-1-T
This would be a silicon substrate device .038” x .038” x .010”. It would have a
total resistance of 11KOhms + 1%. It would have ten large tops of 1KOhm + 1%
each and ten small tops of 100 Ohms + 10% each. It would have a solderable
gold back with a TCR of + 100ppm and a Tantalum Nitride resistive layer.
Thin Film Attenuator Pads
Attenuator Pads
• Dissipated Power Handling 2W C.W.
• Flat Response From DC to 40 GHZ
• Return Loss > 18 dB DC to 12 GHZ
• Return Loss > 16 dB 13 to 40 GHZ
• Space Saving Footprint .030” X
.030” (.762 X .762mm)
• Very Good Stability Over
Temperature (TCR < 100 PPM)
• Ground Wrap to Top (No ground
bonding required)
The Aeroflex / Metelics fixed attenuator chips are fabricated using our state of the
art thin film metallization and advanced photolithography technology.
All devices are available in chip form with a metallized ground connection on the
back. This ground is wrapped around on the four corners of the chip so additional
ground bonding ribbon is not required.
The chips may be attached using conductive epoxy or solder preform. Gold contacts
on the input and output pads make assembly, using standard bonding equipment, fast
and reliable.
Custom values and configuration available on request.
Attenuator Pads
Model
Attn. (dB)
IL (dB)
RL (dB)
MAT10010
1.0
+/- .30
>18
MAT10020
2.0
+/- .30
>18
MAT10030
3.0
+/- .30
>18
MAT10040
4.0
+/- .30
>18
MAT10050
5.0
+/- .30
>18
MAT10060
6.0
+/- .35
>18
MAT10070
7.0
+/- .35
>18
MAT10080
8.0
+/- .35
>18
MAT10090
9.0
+/- .35
>18
MAT10100
10.0
+/- .35
>18
MAT10110
11.0
+/- .40
>18
MAT10120
12.0
+/- .40
>18
MAT10130
13.0
+/- .40
>18
MAT10140
14.0
+/- .40
>18
MAT10150
15.0
+/- .40
>18
MAT10160
16.0
+/- .50
>18
MAT10170
17.0
+/- .50
>18
MAT10180
18.0
+/- .50
>18
MAT10190
19.0
+/- .50
>18
MAT10200
20.0
+/- .50
>18
MAT10210
21.0
+/- .60
>18
MAT10220
22.0
+/- .60
>18
MAT10230
23.0
+/- .60
>18
MAT10240
24.0
+/- .60
>18
MAT10250
25.0
+/- .60
>18
MAT10260
26.0
+/- 1.0
>18
MAT10270
27.0
+/- 1.0
>18
MAT10280
28.0
+/- 1.0
>18
MAT10290
29.0
+/- 1.0
>18
MAT10300
30.0
+/- 1.0
>18
Notes:
Resistor pattern may vary from one value to another.
Specifications are subject to change without notice or obligation.
www.aeroflex.com/metelics | 139
Custom Fabricated Device Networks
Aeroflex / Metelics Custom Fabricated Devices and Device Networks
In support of your ongoing device integration requirements, Aeroflex / Metelics is pleased to offer
the following turnkey device fabrication services. A wide variety of substrate materials are available.
• Resistor networks
• Inductor networks
• Capacitor networks
• Integrated Resistor, Inductor and Capacitor networks and circuit layouts
We continually improve our service in these areas by building on our state of the art wafer fabrication labs,
extensive device experience, and worldwide assembly capabilities.
Our application engineering team is available to assist you with integrating our products into ever smaller
and more economical packages. In fact, we’ve made it our mission to offer unsurpassed engineering support
and unrivaled customer service to offer you a total solution to your complex device integration requirements.
Please contact your Aeroflex / Metelics sales professional for a complete review of your custom application.
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InGaP HBT Amplifiers: Darlington Gain Blocks
Plastic SMT
Ceramic Epoxy SMT
Specialty Package
• Flat gain response from
100 MHz up to 12 GHz
The Aeroflex / Metelics InGaP Heterojunction Bipolar Transistor (HBT) MMIC
amplifiers are specially designed as broadband Darlington gain blocks for instruments,
CATV, and wireless infrastructure applications. These gain blocks combines different
levels of small signal gain, noise and bandwidth for applications where signal gain is
necessary. They are also ideal for buffer IF amplifier.
• High linearity
• RoHS compliant
• Also available as bare die and in
hermetic package
• Hi-Rel screening available in
accordance with MIL-PRF-38534
50
Input / Output Darlington Amplifiers: RF Specifications @ 2 GHz
Frequency
Range
MHz
SS
Gain
dB
Pout @
-1dB
dBm
OIP3
dBm
TYP
Noise
Figure
dB
MMA500
DC – 2000
20
+17
+28
MMA504
DC-2000
19.5
+15.5
MMA703
DC – 4000
18
MMA704
DC – 3000
MMA705
Model
VSWR
Device
Voltage
V
Ic
mA
Package
input
output
3.0
1.30:1
1.30:1
4.0
45
SOT89
+28
4.5
1.25:1
1.25:1
5.0
48
2012
+17
+28
3.5
1.30:1
1.20:1
5.0
45
2012
17
+17
+28
3.5
1.50:1
1.50:1
5.0
45
SOT89
DC – 4000
14
+14
+27
4.0
1.50:1
1.50:1
5.0
45
SOT89
MMA706
DC – 6000
15
+15
+27
4.0
1.40:1
1.40:1
5.0
45
2012
MMA708
DC – 4000
13
+20
+38
6.0
1.40:1
2.00:1
7.0
95
2012
MMA710
DC – 4000
13
+20
+38
6.5
1.40:1
1.90:1
7.0
95
SOT89
MMA712
DC – 12000
12
+11
+26
5.5
1.50:1
1.40:1
5.0
45
2012
CM22
www.aeroflex.com/metelics | 141
InGap HBT Amplifiers: Low and Medium Power
Ceramic Epoxy SMT
Plastic SMT
• High gain from 100 MHz up to
2650 GHz
The Aeroflex / Metelics InGaP Heterojunction Bipolar Transistor (HBT) low and
medium power amplifiers are specifically designed for high efficiency, Class A driver
devices in wireless infrastructure applications. Their high spur free dynamic range is
ideal for multi-carrier (OFDM) and digital applications. Their output power ranges
from 0.25 to 4 watts. They are also ideal for high efficiency, high linearity narrow
bandwidth IF amplifiers.
• Superior MTTF resulting from low
thermal resistance.
• RoHS compliant
• Also available as bare die and in
hermetic package
• Hi-Rel screening available in
accordance with MIL-PRF-19500
Medium Power Amplifiers (MPA)
Model
MMA701A
MMA707
MMA709
Frequency
MHz
Gain
dB
P1dB
dBm
OIP3
dBm
NF
dB
1930~1990
12.5
+27
+47
4.5
2110~2170
12.0
+27
+47
4.5
1930~1990
12.0
+31
+50
6.0
2110~2170
11.5
+31
+50
6.0
1930~1990
11.0
+34
+54
6.5
2110~2170
10.0
+34
+54
6.5
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Bias
Condition
V/mA
Package
7/130
SOT89
7/350
3030
SOIC8
7/700
3030
SOIC8
Silicon Epitaxial Wafers
Aeroflex / Metelics is a supplier of silicon epitaxial wafers. We offer a wide range of capabilities to serve manufacturers of discrete
Si devices. Our epi wafers are grown to customer-furnished specifications, based upon the following capabilities.
Epi Capabilities
Quality Assurance
Wafer Diameter:
3”, 100mm, 125mm
Aeroflex / Metelics is an ISO 9001 facility. Epi wafers are
inspected per the relevant SEMI standards. Our in-house
epi measurement equipment includes:
Silicon substrate:
Bulk Czochralski, bulk floatzone or SOI
• FTIR for measurement of epi layer thickness;
Substrate Dopant:
FZ: Boron or Phosphorus
Cz: Boron, Phosphorus, Arsenic or Antimony
• C-V Hg-probe for measurement of epi resistivity;
Epi Layer Dopant:
Boron, Phosphorus or Arsenic
• Four point probe for measurement of epi resistivity atop
a p-n junction;
Number of Epi Layers:
1, 2 or 3
• 100% visual inspection using a high intensity Yamada
inspection lamp.
Epi Layer Resistivity Available Range:
p-type: .009 to 1000 ohm-cm (thickness dependent)
n-type: .005 to 2000 ohm-cm (thickness dependent)
Capacity
Epi Layer Thickness Available Range:
0.5 to 500 m
• Spreading resistance profile (SRP) for measurement of
epi resistivity vs depth;
Aeroflex / Metelics can grow small quantity, one-time
orders as well as high volume blanket orders. We can
rapidly add production shifts in order to fulfill surge
demand for epi wafers.
Epi for a Variety of Devices
Aeroflex / Metelics is an experienced manufacturer of epi
wafers tailored for the following discrete silicon devices:
• PIN diodes (RF and photodiode)
• Varactor diodes
• Schottky diodes
• Bipolar transistors
• MOSFETs
• JFETs
• IGBTs
• MEMs
Experience
Aeroflex / Metelics silicon epi group is comprised of highly
skilled and experienced technical staff, some with over 25
years of experience in the silicon epi industry. Like the rest
of Aeroflex / Metelics, we are highly customer focused. We
conduct production / planning meetings daily in order to
promote on time delivery.
www.aeroflex.com/metelics | 143
Quality and Reliability
Aeroflex / Metelics is committed to quality through interactions between engineering, manufacturing, and quality assurance
groups at design, development, manufacture, test, and environmental screening levels for all Aeroflex / Metelics products.
Aeroflex / Metelics Sunnyvale, CA facility is ISO 9001 registered achieving certification to ISO9001:2008 in March of
2010. A copy of our ISO certificate is available upon request.
Aeroflex / Metelics is firmly committed to producing and providing the highest level of quality products free of defects and
deviations. Our primary goal is to achieve consistently high
standards and Customer satisfaction based on internal and
Customer expectations and requirements by:
Aeroflex / Metelics Londonderry, NH facility, is ISO 9001 registered achieving certification to ISO9001:2008 in July 2009. A
copy of our ISO certificate is available upon request.
• Documenting procedures and specifications used in the
manufacturing, testing, and environmental screening of all
Aeroflex / Metelics products
Element Evaluation, Environmental Screening,
and Conformance Inspection
• Calibrating equipment with standards traceable to National
Institute of Standards and Technology (NIST)
Aeroflex / Metelics provides standard high reliability test programs for our Semiconductor and Thin Film products. Element
Evaluations are performed in accordance with MIL-PRF-38534
Class H and Class K levels for passive components and semiconductor die. Environmental Screening and Conformance
Inspection are performed in accordance with MIL-PRF-19500
JAN, JANTX, JANTXV, and JANS requirements and/or per
Customer specified requirements.
• Adhering to Aeroflex / Metelics internal Electrostatic Discharge (ESD) program requirements based on ANSI/ESD
S20.20. All Aeroflex / Metelics Semiconductor and Thin Film
products are treated to the most sensitive product ESDS
threshold level Class 1 per MIL-STD-19500.
• Assuring all incoming materials conform to documented
specifications
• Verifying process controls at fabrication, manufacturing,
and test levels
• Performing environmental screening and conformance inspection up to and including space level per MIL-PRF-19500
and/or Customer specific requirements
Tables 1 and Table 2 represent Aeroflex / Metelics standard
Element Evaluation, Environmental Screening, and Conformance Inspection testing. Certain process steps may be
omitted or modified due to device performance restraints,
package styles, or screening levels.
Table 1 - MIL-PRF-38534 Element Evaluation for Passive Components
Step
Class
K
H
1
2
Conditions
Comments
Subgroup 1
X
X
3
4
Process
Die Electrical
Rs(Resistors) Vr, Cj (Capacitors)
100% electrical, remove rejects
MIL-STD-883, Meth 2032
100% visual inspection, remove rejects
Subgroup 2
X
X
5
Die Visual
Subgroup 3
6
X
Temperature Cycling
MIL-STD-883, Meth 1010, Cond C
10 Cycles, t= 10 minutes min,
Ta= -65∞ C to +150∞ C
7
X
Constant Acceleration
MIL-STD-883, Meth 2001, Cond D
20,000 g’s, Y1 direction
8
X
Aging (Capacitors only)
MIL-STD-883, Meth 1015, Cond A
t= 240 hrs min, Ta= +125∞ C, Vr= ______V
9
X
X
Visual Inspection
MIL-STD-883, Meth 2017
10
X
X
End-point Electricals
Rs (Resistors) Vr, Ir, Ct (Capacitors)
Read & Record
MIL-STD-883, Meth 2011 Bond strength= 3.0g min
.001” Au wire or equivalent,
10(0) wires or 20 (1) wires
11
12
Subgroup 4
X
X
Bond Strength
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Quality and Reliability
Table 2 - MIL-PRF-38534 Element Evaluation for Semiconductor Die
Step
Class
K
1
2
X
X
X
X
X
100% electrical, remove rejects
Die Visual
MIL-STD-883, Meth 2010
100% visual inspection, remove rejects
X
Internal Visual
MIL-STD-883,Meth 2010 or MIL-STD-750,
Meth 2072 or 2073
Subgroup 4
8
X
9
X
10
X
11
X
12
X
13
X
14
X
Temperature Cycling
MIL-STD-883, Meth 1010, Cond C
10 Cycles, t= 10 minutes min, Ta= -65° C
to +150° C
X
Constant Acceleration
MIL-STD-883, Meth 2001, Cond D
20,000 g’s Y1 direction
X
Pre Burn-In Electrical
HTRB
X
X
Go/No Go
MIL-STD-883, Meth 1015, Cond A
Post Burn-In Electrical
Steady State Life
(when conditions provided)
15
t= 240 hrs min, Ta= +125° C, Vr= ______V
Go/No Go
MIL-STD-883, Meth 1005, Cond B
Final Electricals
t= 1000 hrs min, Ta= +125° C, Vr= __V or
If=__mA
Read & Record
Subgroup 5
X
17
18
Die Electrical
Subgroup 3
7
16
Comments
Subgroup 2
5
6
Conditions
Subgroup 1
3
4
Process
H
X
Bond Strength
MIL-STD-883, Meth 2011
Bond strength= 3.0g min
.001” Au wire or equivalent, 10(0) wires or
20 (1) wires
Subgroup 6
X
SEM
MIL-STD-883, Meth 2018 or MIL-STD-750,
Meth 2077
www.aeroflex.com/metelics | 145
Quality and Reliability
Table 3 - MIL-PRF-19500 100% Environmental Screening Semiconductor Packaged Diodes
Step
Process
Conditions
Comments
Performed at chip level prior
to assembly
JANS
JANTXV
JANTX
X
when
specified
N/A
X
X
N/A
1
Visual Inspection
MIL-STD-750, Meth 2073
2
Pre-cap Visual
MIL-STD-750, Meth 2074
3
Temperature Storage
MIL-STD-750 Meth 1032
t=___ hrs, Ta= +150˚ C
X
X
X
4
Temperature Cycling
MIL-STD-750 Meth 1051, Cond F
20 Cycles, t(ext)= 10 min Ta=
-65∞ C to +150˚ C
X
X
X
5
Constant Acceleration
MIL-STD-750 Meth 2006
20,000 G’s min Y1 axis only
(Au ribbon/wire bond only)
X
X
X
6
PIND
MIL-STD-750 Meth 2052, Cond A
Shock Pulse= 1000 +200 g’s,
Noise= +20mV peak to peak
X
N/A
N/
7
FIST / BIST (axial lead diodes only)
MIL-STD-750 Meth 2081(FIST),
2082(BIST)
Acc=_, Pulse=_, t=_ms, f=_Hz
_blows in_direction, V=_V,I=_A
X
N/A
N/A
8
Fine Leak
MIL-STD-750 Meth 1071, Cond H
5x10-8 atm cc3/s max
N/A
X
X
9
Gross Leak
MIL-STD-750 Meth 1071, Cond C
N/A
X
X
10
Inital Electricals
Ir (or as specified)
Read & Record serialize diode
X
X
X
11
HTRB1
MIL-STD-750 Meth 1038, Cond A
t= 48 hrs min, Ta= +150˚ C,
Vr= ______V
X
X
X
12
Interim Electricals
Ir (or as specified)
Read & Record w/in 16 hrs from
removal of applied bias
X
X
X
13
Delta HTRB Measurements
Delta Ir= + _nA or 100% whichever
is greater
Read & Record delta Ir from Initial to
Interim electricals
X
X
X
14
PDA2
PDA = 5% max, Actual PDA = ___
PDA = (qty rej delta Ir/qty acc delta
Ir) x 100
X
X
X
15
Forward Burn In1
MIL-STD-750 Meth 1038, Cond B
t= 240 hrs min, Ta= + __˚C,
If=___ mA
X
X
X
16
Final Electricals
Ir (or as specified)
Read & Record w/in 96 hrs from
removal of applied bias
X
X
X
17
Delta Forward B Measurements
Delta Ir= + __nA or 100%
whichever is greater
Read & Record delta Ir from Interim
to Final electricals
X
X
X
18
PDA2
PDA = 5% max, Actual PDA = ___
PDA = (qty rej delta Ir/qty acc delta
Ir) x 100
X
X
X
19
Fine Leak
MIL-STD-750 Meth 1071, Cond H
5x10-8 atm cc3/s max
X
N/A
N/A
20
Gross Leak
MIL-STD-750 Meth 1071, Cond C
X
N/A
N/A
21
Radiography
MIL-STD-750, Meth 2076
X
N/A
N/A
22
External Visual Inspection
MIL-STD-750 Meth 2071
X
N/A
N/A
2 views, X and Y
Notes:
1 - Burn-In methods and conditions to be provided by Customer and agreed upon by Aeroflex / Metelics engineering.
2 - PDA for JANTX & JANTXV level screening is +10%; PDA for JANS level screening is +5%.
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Quality and Reliability
Table 4 - MIL-PRF-19500 Group A Conformance Inspection (all levels)
Group A Inspection
Sample size1
Conditions
Comments
Subgroup 1
Visual & Mechanical Inspection
15
MIL-STD-750, Meth 2071
Subgroup 2
116 (45)2
Ta= +25˚ C
Read & Record (satisfied with 100% Post BI data)
DC (static) tests
116 (45)2
Ta= -_____˚ C
Read & Record Ta= min rated operating temperature
DC (static) tests
116 (45)2
Ta= +_____˚ C
Read & Record Ta= max rated operating temperature
116 (45)2
Ta= +25˚ C
Electrical Tests
Subgroup 3
Subgroup 4
Dynamic tests
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Quality and Reliability
Table 5 - MIL-PRF-19500 Group B Conformance Inspection
Group B Inspection
Sample size1,2
Conditions
Subgroup 14
Physical Dimensions
Resistance to Solvents
Subgroup
JANS
JANTXV
JANTX
X
N/A
N/A
X
X
X
X
X
X
X
X
X
X
X
X
only when specified
X
X
X
5x10-8 atm cc3/s max
X
X
X
X
X
X
Read & Record
X
X
X
submit to 6000 cycles to
satisfy Grp C Subgrp 6 requirement
N/A
X
X
Read & Record
N/A
X
X
Electrical rejects may be used
22 (8)
MIL-STD-750 Meth 2066
Subgroup 24
Solderability
Comments
Specified case outline dimensions
Electrical rejects may be used
15 (6) leads
MIL-STD-750 Meth 2026
15 (6)
MIL-STD-750 Meth 1022
Leads from a minimum of 3 devices shall be
tested
34
Temperature Cycling
22 (6)
Thermal Shock
22 (6)
Surge
22 (6)
Fine Leak
22(6)
Gross Leak
22 (6)
Electrical Tests3
22 (6)
Intermittent Operating Life
22 (12)
Electrical Tests3
22 (12)
De-cap Internal Visual
MIL-STD-750 Meth 1051,
Cond F
MIL-STD-750 Meth 1056,
Cond B
MIL-STD-750, Meth 1071,
Cond H
MIL-STD-750 Meth 1071,
Cond C
MIL-STD-750 Meth 1037,
2000 cycles
45 Cycles including screening, t(ext)= 10 min
Ta= -65˚ C to +150˚ C (JANS 100 cycles)
10 Cycles (JANS 25 cycles)
(glass axial lead only)
6 (6)
MIL-STD-750 Meth 2075
Decap devices
X
X
X
22 (12) wires or
1 (6) devices
MIL-STD-750 Meth 2037
use for die shear
X
X
X
22 (12)
MIL-STD-750, METH 2077
when specified
X
X
X
11 (6)
MIL-STD-750, METH 2017
use bond pull samples
X
N/A
N/A
Intermittent Operating Life
22 (12)
MIL-STD-750 Meth 1037,
2000 cycles
submit to 6000 cycles
to satisfy Grp C Subgrp 6 requirement
X
N/A
N/A
Electrical Tests
22 (12)
Read & Record satisfy w/Grp C Subgrp 6
X
N/A
N/A
Bond Strength
SEM
Die Shear
Subgroup 44
Subgroup 54
Accelerated Steady
State Life
Electrical Tests3
22 (12)
MIL-STD-750, Meth 1027
*Schottky= Tj max, 240 hrs
22 (12)
t= 96 hrs, Ta= +275˚ C Vr=__V(pk), lo=__mA,
f=__Hz
X
N/A
N/A
Read & Record
X
N/A
N/A
Subgroup 64
Thermal Resistance
22 (8)
MIL-STD-750 Meth 408
(Meth 3101 option JANS)
Read & Record
X
X
X
High Temp Life
(Non-operating)
22 (12)
MIL-STD-750 Meth 1032
t= 340 hrs, Ta= T STG(MAX)
N/A
X
X
Electrical Tests3
22 (12)
Read & Record
N/A
X
X
Notes:
1 - Small lot sample size defined in parentheses ( ). Inspection lot quantity shall not exceed 2,500 pcs for JANTX & JANTXV
Group A small lot sampling; inspection lot quantity shall not exceed 1,000 pcs for JANS Group A small lot sampling.
Group B small lot sampling: inspection lot quantity shall not exceed 1,000 pcs for JANS Group B small lot sampling.
2 - Electrical test parameters shall be defined by product type and specific requirements; test limits at temperature may vary from those
published in this catalog.
3 - Endpoint electricals tests parameters shall be defined by product type and specific requirements.
4 - Test sequence may differ according to JAN screening level.
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Quality and Reliability
Table 6 - MIL-PRF-19500 Group C Conformance Inspection (all levels)
Group C Inspection
Sample
size1,2
Conditions
Comments
Subgroup 1
Physical Dimensions
15 (6)
MIL-STD-750, Meth 2066
Thermal Shock
22 (6)
MIL-STD-750 Meth 1056, Cond A
glass axial lead only
Terminal Strength
22 (6)
MIL-STD-750 Meth 2036, Cond E
leaded packages only, w=___oz, t=___sec
Fine Leak
22 (6)
MIL-STD-750 Meth 1071, Cond H
5x10-8 atm cc3/s max
Gross Leak
22 (6)
MIL-STD-750 Meth 1071, Cond C
Moisture Resistance
22 (6)
MIL-STD-750, Meth 1021
End-point Electricals2
22 (6)
Subgroup 2
Omit initial conditioning
Read & Record
Subgroup 3
Shock
22 (6)
MIL-STD-750 Meth 2016
Variable Frequency
22 (6)
MIL-STD-750 Meth 2056
Acceleration
22 (6)
MIL-STD-750 Meth 2006
End-point Electricals2
22 (6)
Non-operating,1500G, 0.5ms, 5 blows X1, Y1, Z1
1 minute min, 20K G X1, Y1, Z1
Read & Record
Subgroup 4
Salt Atmosphere
15 (6)
MIL-STD-750, Meth 1041
Electrical rejects may be used
15 (6)
MIL-STD-750, Meth 4081
Read & Record
MIL-STD-750, Meth 1037 6000 cycles
Units from Group B-2000 cycle test may be used to complete the 6000 cycles
Subgroup 5
Thermal Resistance
Subgroup 6
Intermittent Operating Life
22 (12)
End-point Electricals2
22 (12)
Bond Strength
11 wires
MIL-STD-750 Meth 2037
Only when Group B units continue to satisfy Group C requirement, Read & Record
3
MIL-STD-750, Meth 1018
3 devices c= 0 or 5 devices c= 1
Read & Record
Subgroup 7
Internal Water Vapor
Notes:
1 - Small lot sample size defined in parentheses ( ). Inspection lot quantity shall not exceed 2,500 pcs for JANTX & JANTXV Group A small lot sampling;
inspection lot quantity shall not exceed 1,000 pcs for JANS Group A small lot sampling.
2 - Electrical test parameters shall be defined by product type and specific requirements; test limits at temperature may vary from those published in this catalog.
www.aeroflex.com/metelics | 149
Warranty / Ordering
Orders
Orders may be placed with your local sales representative or directly with our sales team at:
Aeroflex / Metelics, Inc.
East Coast Operations
54 Grenier Field Road
Londonderry, NH 03053
Tel: (603) 641-3800
Fax: (603) 641-3500
Sales: (888) 641-SEMI (7364)
Email: [email protected]
Aeroflex / Metelics, Inc.
West Coast Operations
975 Stewart Drive
Sunnyvale, CA 94085
Tel: (408)737-8181
Fax: (408) 733-7645
Price and Delivery Information
The price and delivery of any items listed in this catalog ordered directly from the factory are quoted in U.S.
Dollars, F.O.B. factory origin and are subject to change without notice. All quoted prices are exclusive of any
federal, state or local taxes, and are the sole responsibility of the buyer. Terms are NET 30 days if credit has
been established. Foreign payments and terms are arranged on an individual basis.
Warranty
Aeroflex / Metelics warrants their products to be free of defects in material and workmanship for one year
from the date of original shipment. Our obligation at Metelics is limited to repair, replace, or credit. This warranty shall not apply to any products which have been subjected to accident, misuse, improper installation,
alteration or abuse. Metelics shall have the final determination in regard to the cause and existence of any
defect under warranty.
Applications
If you should have any application questions related to the products outlined in this catalog please contact our
engineering staff. We gladly offer consultations on circuit design or application problems. We also offer special
product design.
Returned Material
When returning material for repair or replacement, it is necessary to first contact the factory for an approval
and authorization number. Complete information must be included with the return shipment stating reason for
return, purchase order on which the product was originally purchased, new purchase order if applicable, and
address where material is to be returned.
Specifications
Aeroflex / Metelics reserves the right to discontinue products and change specifications without notice.
Federal Supply Code
Aeroflex / Metelics, Inc. Federal Supply Code for for manufactures assigned number is:
61322 Londonderry
59365 Sunnyvale
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Outline Drawings
Bare DIe
Fig. 1
Fig. 2
Fig. 3
D2
± 2 mils
Fig. 4
D2
± 2 mils
D2
± 2 mils
D1
± 2 mils
2 mils
typical
C3
D1
± 2 mils
2 mils
typical
D1
± 2 mils
C1
C2
C4
Ø 3 mils min.
C11/C12
C13
17 [.432]
13 [.330]
> 2 [0.051]
Top Contact
17 [.432]
13 [.330]
(C15)
6 [0.152]
4 [0.102]
Back Contact
(C15P)
Top contact is Anode
except for MSS20,000
and MSS39,000 series
diodes
Dimensions in mils
(C15P)
[mm]
(C15)
mils (mm)
C15
mils (mm)
C16
inches (mm)
C18
inches (mm)
C20
(C15P)
(C15P)
mils (mm)
mils (mm)
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Outline Drawings
Quality and Reliability
Bare DIe
C22
C24
0.018 [0.965]
0.022 [0.558]
17 [0.432]
13 [0.330]
Bonding Pad
1 mil minimum
ANODE (C22)
CATHODE (C22P)
ø0.002 (0.050)
MINIMUM
0.018 [0.965]
0.022 [0.558]
17 [0.432]
13 [0.330]
6 [0.152]
4 [0.102]
CATHODE (C22)
ANODE (C22P)
Back Contact
0.004 [0.101]
0.006 [0.101]
Bonding Pad is Anode
inches (mm)
inches (mm)
Dimensions in mils [mm]
C26
C32
0.028 [0.711]
0.032 [0.813]
ANODE (C22)
CATHODE (C22P)
ø0.002 (0.050)
MINIMUM
CATHODE (C22)
ANODE (C22P)
inches (mm)
0.004 [0.101]
0.006 [0.152]
inches (mm)
C40
C37
inches (mm)
C50
inches (mm)
C51
inches (mm)
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0.028 [0.711]
0.032 [0.813]
inches (mm)
Outline Drawings
Bare Die
C54
C01A
0.012 [0.305]
0.008 [0.203]
52 [1.320]
48 [1.219]
8.5 [0.191]
9.5 [0.241]
22 [0.559]
18 [0.457]
Ø
0.012 [0.305]
0.008 [0.203]
0.0015 [0.038] MIN.
ANODE
4.5 [0.114]
5.5 [0.140]
6 [0.152]
4 [0.102]
CATHODE
0.006 [0.152]
0.004 [0.102]
inches (mm)
inches (mm)
Dimensions in mils [mm]
CS08
CS09
.015 (.381)
NOM
.015 (.381)
NOM
.015 (.381)
NOM
.015 (.381)
NOM
GOLD WIRE
OR RIBBON
GOLD WIRE
OR RIBBON
.005 (.13) NOM.
NOTES:
1. TOP CONTACT & CHIP SIZE DEPENDS ON
DIODE PARAMETERS
2. TOP AND BOTTOM CONTACTS GOLD
3. CONSULT FACTORY
.005 (.13) NOM.
inches (mm)
NOTES:
1. TOP CONTACT & CHIP SIZE DEPENDS ON
DIODE PARAMETERS
2. TOP AND BOTTOM CONTACTS GOLD
3. CONSULT FACTORY
inches (mm)
SC110
Notes:
1. Chip Backside: Gold and Thermal Ground.
2. Bond Pads: Plated Gold.
inches (mm)
www.aeroflex.com/metelics | 153
Outline Drawings
Quality and Reliability
Flip Chip
Beam Lead
GC110
GB110
0.009 [0.228]
0.007 [0.177]
Top
View
11 [0.279]
8 [0.203]
0.012 [0.305]
0.010 [0.254]
0.006 [0.152]
0.004 [0.101]
6 [0.0152]
4 [0.102]
0.009 [0.228]
0.007 [0.177]
0.028 [0.711]
0.026 [0.660]
0.014 [0.356]
0.012 [0.305]
0.5 [0.013]
0.2 [0.005]
Bottom
View
2 Places
12 [0.305]
9 [0.229]
3.5 [0.089]
1.5 [0.038]
26 [0.660]
24 [0.609]
inches (mm)
GC210
GB210
22 [0.559]
18 [0.457]
0.012 [0.305]
0.010 [0.254]
0.006 [0.152]
0.004 [0.101]
0.009 [0.228]
0.007 [0.177]
0.028 [0.711]
0.026 [0.660]
mils (mm)
10 [0.254]
6 [0.152]
2 Places
0.009 [0.228]
0.007 [0.177]
0.014 [0.356]
0.012 [0.305]
0.5 [0.013]
0.2 [0.005]
3.5 [0.089]
1.5 [0.038]
13 [0.330]
9 [0.229]
Bottom
View
10 [0.254]
6 [0.152]
2 Places
inches (mm)
GC310
GB310
11 [0.279]
8 [0.203]
0.020 [0.510]
0.018 [0.457]
0.009 [0.228]
0.007 [0.177]
0.029 [0.737]
0.027 [0.686]
mils (mm)
0.021 [0.533]
0.019 [0.482]
0.006 [0.152]
0.004 [0.101]
6 [0.152]
4 [0.102]
CL
3 Places
0.5 [0.013]
0.2 [0.005]
3.5 [0.089]
1.5 [0.038]
0.009 [0.228]
0.007 [0.177]
3 places
0.011 [0.279]
0.009 [0.229]
CL
Bottom
View
15 [0.381]
12 [0.305]
0.011 [0.279]
0.009 [0.229]
0.010 [0.254]
0.008 [0.203]
0.006 [0.152]
0.004 [0.102]
3 places
inches (mm)
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8 [0.203]
6 [0.152]
3 Places
mils (mm)
Outline Drawings
Beam Lead
B10B
B10D
Cut lead is anode
Cut lead is anode
10 [0.254]
10 [0.254]
6 [0.152]
6 [0.152]
Cathode (B10B)
Cathode (B10B)
Anode (B10Bp)
Anode (B10Bp)
33 [0.8383]3 [0.838]
28 [0.7112]8 [0.711]
12 [0.30152] [0.305]
9 [0.2299] [0.229]
12 [0.30152] [0.305]
9 [0.2299] [0.229]
0.55 [0.014]
0.55 [0.014]
0.25 [0.006]
0.25 [0.006]
Cut lead is Anode
Cut lead is Anode
6.5 [0.165]
3.5 [0.0869.5] [0.165]
3.5 [0.089]
3.5 [0.089]
3.5 [0.089]
1.2 [0.030]
1.2 [0.030]
Back Back
3.5 [0.089]
1.2 [0.0330.5] [0.089]
1.2 [0.030]
31 [0.787]
27 [0.68361] [0.787]
27 [0.686]
12 [0.305]
9 [0.2291] 2 [0.305]
9 [0.229]
12 [0.305]
9 [0.2291] 2 [0.305]
9 [0.229]
Less ThLaenss0T
.5ha
[0n.001.53][0.013]
Back VieBwack View
Back
Back
Less Than 0.5 [0.013]
Less Than 0.5 [0.013]
Back View
Back View
mils (mm)
B11
0.55 [0.014]
0.25 [0.000.565] [0.014]
0.25 [0.006]
mils (mm)
B12
6.5 [0.165]
4.5 [0.114]
10 [0.254]
8 [0.203]
0.5 [0.013]
0.2 [0.005]
C a tho d e
35.5 [0.901]
32.5 [0.826]
8 [0.203] Min.
38 [0.965]
34 [0.864]
14 [0.356]
10 [0.254]
0.55 [0.014]
0.25 [0.006]
3.5 [0.089]
1.2 [0.030]
15 [0.381] Ma x.
Ba c k
Ba c k
11 [0.279]
7 [0.178]
13 [0.330] Ma x.
3.5 [0.089]
1.5 [0.038]
Ba c k Vie w
Le ss tha n 0.5 [0.013]
Ba c k V ie w
mils (mm)
mils (mm)
B13
B14
22 [0.559]
18 [0.457]
8 [0.203] Min.
0.55 [0.014]
0.25 [0.006]
3.5 [0.089]
1.2 [0.030]
3.5 [0.089]
3.0 [0.076]
15 [0.381]
14 [0.356]
45 [1.143] Ma x.
SQ
65 [1.651]
60 [1.524]
3 [0.076] Min.
0.55 [0.014]
0.25 [0.006]
3.5 [0.089]
1.2 [0.030]
9 [0.229] Ma x.
Ba c k
Ba c k
5.5 [0.140] Ma x.
Le ss tha n 0.5 [0.013]
Ba c k Vie w
Le ss tha n 0.5 [0.013]
B a c k Vie w
mils (mm)
mils (mm)
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Outline Drawings
Quality and Reliability
Beam Lead
B15
B16
4.3 [0.109]
3.1 [0.079]
0.5 [0.013]
0.2 [0.005]
4.3 [0.109]
Ca tho d e
0.5 [0.013]
3.1 [0.079]
0.2 [0.005]
13.3 [0.338]
11.7 [0.297]
12.6 [0.320]
11.0 [0.279]
30.0 [0.762]
25.2 [0.640]
30.5 [0.775]
13.2 [0.335]
25.5 [0.648]
11.6 [0.295]
Ba c k
Ba c k
Co m m o n Ano d e
10.2 [0.259]
10.2 [0.259]
8.6 [0.218]
3.5 [0.089]
8.6 [0.218]
3.5 [0.089]
1.5 [0.038]
1.5 [0.038]
Ba c k Vie w
Ba c k Vie w
mils (mm)
mils (mm)
B20
B21
12 [0.305]
8 [0.203]
7 [0.178]
3 Places
4 [0.102]
3.5 [0.089]
1.5 [0.038]
22 [0.559]
18 [0.457]
0.55 [0.014]
0.25 [0.006]
0.55 [0.014]
0.25 [0.006]
13 [0.330]
9 [0.229]
3.5 [0.089]
1.2 [0.030]
10 [0.254]
6 [0.152]
Bottom
View
Ba c k
23 [0.584]
19 [0.483]
10 [0.254]
6 [0.152]
14.5 [0.368]
3 Places
10.5 [0.267]
Le ss Tha n 0.5 [0.013]
Ba c k Vie w
mils (mm)
mils (mm)
B40
B41
13.5 [0.343]
21.5 [0.546]
17.5 [0.445]
SQ
10.5 [0.267]
SQ
0.55 [0.014]
0.25 [0.006]
6 [0.152]
4 [0.102]
4 Pls
0.55 [0.014]
0.25 [0.006]
4.75 [0.121]
3.5 [0.089]
1.2 [0.030]
3.25 [0.083]
3.5 [0.089]
1.2 [0.030]
4 Pls
CL
Ba c k
Ba c k
12 [0.305]
8 [0.203]
4 Pls
8.75 [0.222]
4.75 [0.121]
4 Pls
8.5 [0.216]
5.5 [0.140]
Le ss tha n 0.5 [0.013]
Ba c k Vie w
Le ss tha n 0.5 [0.013]
CL
mils (mm)
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4 Pls
Ba c k Vie w
mils (mm)
Outline Drawings
Beam Lead
B42
12 [0.305]
7 [0.178]
4 Pls
B45
12 [0.305]
7 [0.178]
4 Pls
0.55 [0.014]
0.25 [0.006]
Co m m o n Ca tho d e
0.55 [0.014]
0.25 [0.006]
3.5 [0.089]
1.2 [0.030]
21 [0.533]
14 [0.356]
SQ
7 [0.178]
4 [0.102]
4 Pls
3.5 [0.089]
1.2 [0.030]
21 [0.533]
14 [0.356]
SQ
Ba c k
Le ss tha n 0.5 [0.013]
Ba c k
Ba c k Vie w
7 [0.178]
4 [0.102]
4 Pls
Le ss tha n 0.5 [0.013]
Ba c k Vie w
mils (mm)
B47
mils (mm)
B48
5 [0.127]
3 [0.076]
4 Pls
1
2
0.55 [0.014]
0.25 [0.006]
3.5 [0.089]
1.2 [0.030]
Ba c k
10 [0.254]
7 [0.178]
SQ
4
3
3.5 [0.089]
2.5 [0.064]
4 Pls
Ba c k Vie w
Le ss tha n 0.5 [0.013]
mils (mm)
B49
mils (mm)
B80
12 [0.305]
7 [0.178]
4 Pls
0.55 [0.014]
0.25 [0.006]
3.5 [0.089]
1.2 [0.030]
24.5 [0.622]
20.5 [0.521]
SQ
Ba c k
7 [0.178]
4 [0.102]
4 Pls
Le ss tha n 0.5 [0.013]
Ba c k Vie w
mils (mm)
mils (mm)
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Outline Drawings
Quality and Reliability
Beam Lead
B85
B86
2 Places
2 Places
4 Places
4 Places
4 Places
4 Places
mils (mm)
B87
mils (mm)
B88
2 Places
2 Places
4 Places
4 Places
4 Places
4 Places
mils (mm)
B89
mils (mm)
B90
2 Places
2 Places
3 Places
2 Places
3 Places
2 Places
mils (mm)
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mils (mm)
Outline Drawings
Resistors
R1
R2
.036 (.914)
+/-.002 (.05)
.030 (.762)
+/-.003 (.08)
notes:
1. The top gold bonding pads
are .004” Square Typ. (.0035
Min and 15000 A thick Min)
2. There is a min separation
between the edge of the chip
and any top bonding pads
of .001”
.036 (.914)
+/-.002 (.05)
.010 (.054)
+/- .002 (.05)
R3A
.030 (.762)
+/-.003 (.08)
notes:
1. The top gold bonding pads
are .004” Square Typ. (.0035
Min and 15000 A thick Min)
2. There is a min separation
between the edge of the chip
and any top bonding pads
of .001”
.010 (.254)
+/-.002 (.05)
NOTES:
inches
1. THE TOP GOLD BONDING PADS ARE .004" SQUARE TYP.
(.0035 MIN AND 15000 Α THICK MIN)
2. THERE IS A MIN SEPARATION BETWEEN THE EDGE OF
THE CHIP AND ANY TOP BONDING PADS OF .001"
(mm)
R4
CHAMFER INDICATES
TOP CONTACT
notes:
1. The top gold bonding pads
are .004” Square Typ. (.0035
Min and 15000 A thick Min)
GOLD PLATED
CONTACTS TOP
SEVEN PLACES
R5
.030 +/-.002
(.760 +/-.05)
.060 +/-.004
.030 +/-.002
(.760 +/-.05)
.020 MAX
.015 MAX
(.380 MAX)
3. Available as thru-chip
inches (mm)
NOTES:
1. THE TOP GOLD BONDING PADS ARE .004" SQUARE TYP.
(.0035 MIN AND 15000 Α THICK MIN)
2. THERE IS A MIN SEPARATION BETWEEN THE EDGE OF
THE R6
CHIP AND ANY TOP BONDING PADS OF .001"
3. AVAILABLE AS THRU-CHIP
STANDARD BACK UN-METALIZED
(METALIZED BACK AVAILABLE)
R7
.022"±.003"
inches (mm)
.0065"±.001"
TWO PLCS.
inches (mm)
R8
CHAMFER INDICATES TOP CONTACT
notes:
1. The top gold bonding pads
are .004” Square Typ. (.0035
Min and 15000 A thick Min)
.038 (.965)
+/-.002 (.05)
2. There is a min separation
between
the edge of the chip
and any top bonding pads
of .001”
.030 +/-.002
(.762 +/-.05)
GOLD PLATED
CONTACTS TOP
TWO PLACES
.020"±.003"
.016"±.003"
.030 +/-.002
(.762 +/-.05)
.040"±.003"
STANDARD BACK
UN-METALIZED
(METALIZED BACK
AVAILABLE)
2nd top side
contact
inches (mm)
.020 +/-.004
2. There is a min separation
between
the edge of the chip
and any top bonding pads
of .001”
.010 (.254)
+/-.002 (.05)
Pad with chamfer indicates top
side contact (For MTR Style)
inches (mm)
NOTES:
1. THE TOP GOLD BONDING PADS ARE .004" SQUARE TYP.
(.0035 MIN AND 15000 Α THICK MIN)
2. THERE IS A MIN SEPARATION BETWEEN THE EDGE OF
THE CHIP AND ANY TOP BONDING PADS OF .001"
R3
Resistor material
Back contact on front Two
Places. (MTR Style only)
For MIR style all connections
are on front from Top pad
to Top pad
Via contact to back of
chip connection (MTR
Style only)
notes: 1. The top gold bonding pads are .004”
Square Typ. (.0035 Min and
10000 A thick Min); 2. there
is a min separation between
the edge of the chip and any
top bonding pads of .001”; 3.
Available as MIR or MTR.
Backside gold contact
.038 (.965)
+/-.002 (.05)
.025 MAX
(.635 MAX)
3. Available as thru-chip
.010 (.254)
+/-.002 (.05)
.010"±.002"
inches (mm)
inches (mm)
NOTES:
1. THE TOP GOLD BONDING PADS ARE .004" SQUARE TYP.
(.0035 MIN AND 15000 Α THICK MIN)
2. THERE IS A MIN SEPARATION BETWEEN THE EDGE OF
THE CHIP AND ANY TOP BONDING PADS OF .001"
3. AVAILABLE AS THRU-CHIP
inches (mm)
Attenuator Pad
CS07
Micrometrics Attenuator Pad
Front to Back
Metallization in Four
Places Bonding Pad
Sizes and Resistor
Outline may differ from
value to value
IN
OUT
.03" +/- .002
.010 +/- .002
.03" +/- .002
Front to Back Metallization in Four Places
Bonding Pad Sizes and Resisitor Outline
may differ from value to value
Front to Back Metallization in Four Places
www.aeroflex.com/metelics | 159
Outline Drawings
Quality and Reliability
Ceramic Microwave Pill (Hermetic)
P55 / P55p
P81 / P81p
P86 / P86p
64 [1.626] Dia.
60 [1.524]
Ø
.045 [1.397]
.055 [1.143]
Ø
0.124 [3.150]
0.118 [2.997]
0.082 [2.413]
0.078 [1.981]
Ø
0.027 (0.635)
MAX.
Ceramic
Body
64 [1.626]
60 [1.524]
210 [5.334]
190 [4.826]
Ceramic
Body
.045 [1.397]
.055 [1.295]
15 [0.381]
10 [0.254]
CATHODE (P81)
ANODE (P81P)
82 [2.083]
70 [1.778]
Ceramic
Body
0.095 [2.413]
0.080 [2.032]
CATHODE (P55)
ANODE (P55P)
inches (mm)
T54 / T54p
inches (mm)
T55 / T55p
Cathode (P86)
Anode (P86p)
mils (mm)
T80 / T80p
Ø
86 [2.184] Dia.
78 [1.981]
12 [0.305]
10 [0.254]
84 [2.134] Dia.
78 [1.981]
.045 [1.397]
.055 [1.143]
124 [3.150] Dia.
118 [2.997]
44 [1.118]
34 [0.864]
Ceramic
Body
Cathode (T54)
Anode (T54p)
27 [0.686]
Max.
52 [1.321] Dia.
48 [1.219]
Ceramic
Body
.045 [1.397]
.055 [1.295]
Cathode (T80)
Anode (T80p)
CATHODE (T55)
ANODE (T55P)
mils (mm)
T81 / T81p
Ceramic
Body
83 [2.108] Dia.
77 [1.956]
inches (mm)
T86 / T86p
65 [1.651]
55 [1.397]
mils (mm)
T89 / T89p
124 [3.150] Dia.
118 [2.997]
Ø
0.124 [3.150]
0.118 [2.997]
124 [3.150]
119 [3.023]
64 [1.626]
60 [1.524]
27 [0.686] Max.
diameter
27 [0.686] max.
Ø
0.082 [2.413]
0.078 [1.981]
0.027 (0.635)
MAX.
11 [0.279] max.
225 [5.715]
205 [5.207]
Ceramic
Body
CATHODE (T81)
ANODE (T81P)
Ceramic
Body
80 [2.032] dia. nom.
0.095 [2.413]
0.080 [2.032]
212 [5.385]
185 [4.699]
64 [1.626]
60 [1.524]
138 [3.505]
126 [3.200]
Cathode (T89)
Anode (T89P)
3– 48 UNC–2A
64 [1.626] Dia.
60 [1.524]
83 [2.108] Dia.
77 [1.956]
inches (mm)
20 | |www.aeroflex.com/Metelics
160
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Cathode (T86)
Anode (T86p)
mils (mm)
mils (mm)
Outline Drawings
Ceramic Epoxy SMT
E25
E28
55 [1.397] SQ.
45 [1.143]
Cut lead is Cathode
Cut Lead is Cathode
100 [2.540]
Min. 2 Pls
25 [0.635]
15 [0.381]
18 [0.457]
12 [0.305]
Epoxy
50 [1.270] Max.
95 [2.413]
85 [2.159]
5 [0.127] 2Pls
3 [0.076]
Ceramic
Epoxy
50 [1.270]
40 [1.016]
50 [1.270] Max.
5 [0.127]
3 [0.076]
14 [0.356]
8 [0.203]
14 [0.356] Max.
Ceramic
80 [2.032] Min.
mils (mm)
E28X
mils (mm)
E30
Cathode Dot
178 [4.521]
162 [4.115]
0.200 [5.08]
0.140 [3.56]
0.110 [2.794]
0.090 [2.286]
3 Places
50 [1.270]
40 [1.016]
25 [0.635]
15 [0.381]
95 [2.413]
85 [2.159]
Epoxy
EPOXY
ENCAPSULATION
15 [0.381]
8 [0.203]
30 [0.762] Max.
0.050 [1.27] MAX.
20 [0.508]
10 [0.254]
30 [0.762]
20 [0.508]
0.022 [0.559]
0.018 [0.457]
3 Places
0.022 [0.457]
0.018 [0.559]
0.005 [0.127]
0.003 [0.076]
8 [0.203]
4 [0.102]
Ceramic
mils (mm)
E35
inches (mm)
E45
55 [1.397] SQ.
45 [1.143]
55 [1.397] SQ.
45 [1.143]
18 [0.457] 3 Pls
12 [0.305]
18 [0.457] 4 Pls
12 [0.305]
Epoxy
Epoxy
5 [0.127] 3 Pls
3 [0.076]
50 [1.270] Max.
5 [0.127] 4 Pls
3 [0.076]
50 [1.270] Max.
14 [0.356]
8 [0.203]
Ceramic
14 [0.356]
8 [0.203]
80 [2.032] Min.
mils (mm)
Ceramic
80 [2.032] Min.
mils (mm)
www.aeroflex.com/metelics | 161
Outline Drawings
Quality and Reliability
Ceramic Epoxy SMT
E50
E50SM
2
3
22 [0.559]
18 [0.457]
105 [2.667]
95 [2.413]
35 [0.889]
25 [0.635]
80 [2.032]
70 [1.778]
4
23 [0.584] 5 Pls
17 [0.432]
1
20 [0.508] Typ. 4 Pls
55 [1.397] 5Pls
45 [1.143]
5
6 [0.152] 5Pls
3 [0.076]
13 [0.330]
7 [0.178]
Epoxy
50 [1.270] Max.
Ceramic
mils (mm)
ET47
inches (mm)
Cathode Dot
O402
1
0.042 [1.067]
0.038 [0.965]
2
0.270 [6.858] MIN.
2 places
2
Epoxy
0.075 [1.905]
0.065 [1.651]
33 [0.838] Max.
1
Ceramic
0.022 [0.559]
0.018 [0.457]
1 = ANODE (ET47)
CATHODE (ET47P)
2 = ANODE (ET47)
CATHODE (ET47P)
EPOXY
ENCAPSULATION
0.035 [0.889]
MAX.
44 [1.118]
36 [0.914]
0.005 [0.127]
0.003 [0.076]
24 [0.610]
16 [0.406]
13 [0.330]
11 [0.279]
inches (mm)
O805-2
mils (mm)
O805-4
85 [2.159]
75 [1.905]
85 [2.159]
75 [1.905]
Epoxy
55 [1.397]
45 [1.143]
Epoxy
55 [1.397]
45 [1.143]
50 [1.270] Max.
Cathode Dot
50 [1.270] Max.
Ceramic
Ceramic
12 [0.305]
8 [0.203]
Gold Metalization
33 [0.838]
27 [0.686]
23 [0.584]
17 [0.432]
16 [0.406]
12 [0.305]
Bottom View
Bottom View
40 [1.016] Min.
mils (mm)
20 | |www.aeroflex.com/Metelics
162
www.aeroflex.com/metelics
mils (mm)
Outline Drawings
Ceramic Epoxy SMT
CS16
EPOXY ENCAPSULATION
ALUMINIUM NITRIDE
0.020 (0.508) NOMINAL
GOLD PLATED
CONTACTS
Z
WRAP AROUND
TERMINATIONS
B
Y
DOT DENOTES
CATHODE END
X
C
W
W
C
A
SOLDER LAYOUT
PKG
STYLE
CS16-1
CS16-2
CS16-3
CS16-4
CS16-5
CS16-6
CS16-7
TOL. ±
W DIM.
DIMENSIONS
X DIM.
Y DIM.
Z DIM.
A
SOLDER LAYOUT (TYP.)
B
C
PACKAGE
CP AND LP
.012 (.304)
.060 (1.52)
.040 (1.01)
.050 (1.27)
.072 (1.83)
.040 (1.01)
.020 (.508)
.09 pF .35 nH
.012 (.304)
.075 (1.91)
.050 (1.27)
.050 (1.27)
.087 (2.21)
.070 (1.78)
.020 (.508)
.012 (.304)
.100 (2.54)
.050 (1.27)
.050 (1.27)
.112 (2.84)
.070 (1.78)
.020 (.508)
.012 (.304)
.120 (3.05)
.060 (1.52)
.050 (1.27)
.132 (3.35)
.080 (2.03)
.020 (.508)
.11 pF .4 nH
.14 pF .4 nH
.09 pF .4 nH
.012 (.304)
.200 (5.08)
.100 (2.54)
.050 (1.27)
.212 (5.38)
.120 (3.05)
.020 (.508)
.010 (.254)
.040 (1.01)
.020 (.508)
.050 (1.27)
.050 (1.27)
.030 (.762)
.018 (.457)
.010 (.254)
.060 (1.52)
.020 (.508)
.050 (1.27)
.070 (1.78)
.030 (.762)
.018 (.457)
.002 (.051)
.003 (.076)
.003 (.076)
MAX
NOM.
NOM.
NOM.
.09 pF .5 nH
.06 pF .35 nH
.08 pF .35 nH
NOM.
inches (mm)
CS19
EPOXY ENCAPSULATION
ALUMINA
0.010 (0.254) NOMINAL
GOLD PLATED
CONTACTS
Z
WRAP AROUND
TERMINATIONS
B
Y
DOT DENOTES
CATHODE END
X
W
W
C
C
A
SOLDER LAYOUT
PKG
STYLE
CS19-1
CS19-2
CS19-3
CS19-4
CS19-5
CS19-6
CS19-7
TOL. ±
W DIM.
DIMENSIONS
X DIM.
Y DIM.
Z DIM.
A
SOLDER LAYOUT (TYP.)
B
C
.012 (.304)
.060 (1.52)
.040 (1.01)
.030 (.762)
.072 (1.83)
.040 (1.01)
.020 (.508)
.012 (.304)
.075 (1.91)
.050 (1.27)
.035 (.889)
.087 (2.21)
.070 (1.78)
.020 (.508)
.012 (.304)
.100 (2.54)
.050 (1.27)
.035 (.889)
.112 (2.84)
.070 (1.78)
.020 (.508)
.012 (.304)
.120 (3.05)
.060 (1.52)
.035 (.889)
.132 (3.35)
.080 (2.03)
.020 (.508)
.012 (.304)
.200 (5.08)
.100 (2.54)
.035 (.889)
.212 (5.38)
.120 (3.05)
.020 (.508)
.010 (.254)
.040 (1.01)
.020 (.508)
.030 (.762)
.050 (1.27)
.030 (.762)
.018 (.457)
.010 (.254)
.060 (1.52)
.020 (.508)
.030 (.762)
.070 (1.78)
.030 (.762)
.018 (.457)
.002 (.051)
.003 (.076)
.003 (.076)
MAX
NOM.
NOM.
NOM.
PACKAGE
CP AND LP
.09 pF .35 nH
.11 pF .4 nH
.14 pF .4 nH
.09 pF .4 nH
.09 pF .5 nH
.06 pF .35 nH
.08 pF .35 nH
NOM.
inches (mm)
www.aeroflex.com/metelics | 163
Outline Drawings
Quality and Reliability
Ceramic Epoxy SMT
CS23
0.100
(2.54)
0.120
(3.05)
PORT 2
0.025
(0.64)
TYP. (3)
0.075
(1.91)
PORT 1
PORT 3
0.120
(3.05)
0.035
(0.89)
TYP. 3 PLCS.
0.035
(0.89)
SOLDER LAYOUT
0.080
(2.03)
0.040
(1.02)
CS223
ALUMINIUM NITRIDE
0.010 0.254 NOMINAL
0.0225 REF.
(0.57)
0.100
(2.54)
PORT 2
0.025
(0.64)
TYP. (3)
0.075
(1.91)
PORT 1
PORT 3
0.035
(0.89)
TYP. 3 PLCS.
STRUCTURAL EPOXY
SOLDER LAYOUT
0.040
(1.02)
0.0375 (0.95)
0.080
(2.03)
0.040
(1.02)
.254
0.0375 (0.95)
0.050
(1.27)
TYP. 3 PLCS.
See SOT 23 Configuration Code on page 113
CS121
CS145
4
.025 X .0035
(5 PLCS.)
5
WHITE INDELIBLE INK
LOCATED AT PORT 1
2
1
CERAMIC COVER
.050
.117
.100
CL
.081
.049
.031
CERAMIC SUBSTRATE
0
.013
.010
.110
.020 TYP.
(5 PLCS.)
.070
.052
CL
3
.034
.020
.130
.083
.065
.047
0
0
0.020 TYP.
(0.51)
inches (mm)
3
20 | |www.aeroflex.com/Metelics
164
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STRUCTURAL EPOXY
0.0375 (0.95)
0.040
(1.02)
0.020 TYP.
(0.51)
.020
0.05
(1.27)
(.508)
0.040
(1.02)
0.0375 (0.95)
0.050
(1.27)
TYP. 3 PLCS.
ALUMINA 0.020 0.508 NOMIN AL
0.0225 REF.
(0.57)
0.040
(1.02)
inches (mm)
Outline Drawings
Ceramic Hermetic SMT
H20
H27
H30
72 [1.829] Dia
65 [1.651]
102 [2.591] Dia
81 [2.057]
23 [0.584]
17 [0.432]
102 [2.591] Dia
81 [2.057]
23 [0.584]
17 [0.432]
Cut lead is Cathode
Cut lead is Cathode
23 [0.584]
17 [0.432]
Cut lead is Cathode
104 [2.642]
92 [2.337]
Square
75 [1.905]
65 [1.651]
Square
130 [3.302]
Min. 2 Pls
8 [0.203]
4 [0.102]
130 [3.302]
Min. 2 Pls
8 [0.203]
4 [0.102]
6 [0.152]
3 [0.076]
130 [3.302]
Min. 3 Pls
6 [0.152]
3 [0.076]
6 [0.152]
3 [0.076]
35 [0.889]
25 [0.635]
35 [0.889]
25 [0.635]
35 [0.889]
25 [0.635]
mils (mm)
H30X
104 [2.642]
92 [2.337]
Square
8 [0.203]
4 [0.102]
mils (mm)
H40
102 [2.591] Dia
81 [2.057]
H50
102 [2.591] Dia
81 [2.057]
23 [0.584]
17 [0.432]
mils (mm)
23 [0.584]
17 [0.432]
2
3
22 [0.559]
18 [0.457]
105 [2.667]
95 [2.413]
30 [0.762] Typ.
22 [0.559] 5Pls
18 [0.457]
130 [3.302]
Min. 4 Pls
104 [2.642]
92 [2.337]
Square
85 [2.159]
75 [1.905]
104 [2.642]
92 [2.337]
Square
8 [0.203]
4 [0.102]
55 [1.397] 5Pls
45 [1.143]
8 [0.203]
4 [0.102]
6 [0.152]
3 [0.076]
4
130 [3.302]
Min. 4 Pls
22 [0.559] 4Pls
18 [0.457]
6 [0.152]
3 [0.076]
1
5
50 [1.270] Max.
5 [0.127] 5Pls
3 [0.076]
35 [0.889]
25 [0.635]
35 [0.889]
25 [0.635]
mils (mm)
CS270
mils (mm)
mils (mm)
.210 (5.33)
.220 (5.59)
7X .008 (0.20)
.012 (0.30)
.255 (6.48)
.265 (6.73)
.760 (19.30)
.770 (19.56)
7X .004 (0.10)
.006 (0.15)
.715 (18.16)
.725 (18.41)
.039 (0.99)
.051 (1.29)
.0076 (0.19)
.0124 (0.31)
3X .040 (1.02)
.050 (1.27)
CL
CL
.0175 (0.44)
0.275 (0.70)
NOTE:
* HATCHED AREAS DENOTE METALIZATION
* DIMENSIONS IN PARENTHESIS ARE IN MILLIMETERS.
www.aeroflex.com/metelics | 165
Outline Drawings
Quality and Reliability
Ceramic Module SMT
CS200
CS201
.32 0.02
(8.1 0.5)
.32 0.02
(8.1 0.5)
ANT
ANT
.032 TYP.
(0.81)
4 PLCS.
.20 0.02
(5.1 0.5)
.20 0.02
(5.1 0.5)
Rx
Tx
D.C.
.032 TYP.
(0.81)
4 PLCS.
D.C.
.10 0.03
(2.5 0.8)
TOP VIEW
SIDE VIEW
.055 TYP.
(1.4)
4 PLCS.
.055 TYP.
(1.4)
4 PLCS.
CL
.021 TYP.
(0.53)
4 PLCS.
.080 TYP.
(2.0)
4 PLCS.
CL
.026 TYP.
(0.66)
CL
.32 0.02
(8.1 0.5)
CS202
.10 0.03
(2.5 0.8)
TOP VIEW
SIDE VIEW
.021 TYP.
(0.53)
4 PLCS.
.026 TYP.
(0.66)
4 PLCS.
Tx
Rx
.080 TYP.
(2.0)
4 PLCS.
CL
CS203
ANT
.032 TYP.
(0.81)
4 PLCS.
.20 0.02
(5.1 0.5)
Rx
Tx
B1
TOP VIEW
.067
0.10 0.03
(2.5 0.8)
SIDE VIEW
.045
.021 TYP.
(0.53)
4 PLCS.
.080 TYP.
(2.0)
4 PLCS.
CL
.026 TYP.
(0.66)
4 PLCS.
CL
CIRCUIT SIDE VIEW
.055 TYP.
(1.4)
3 PLCS.
.32 0.02
(8.1 0.5)
CS204
.32 0.02
(8.1 0.5)
ANT
CS205
J0
.032 TYP.
(0.81)
5 PLCS.
.20 0.02
(5.1 0.5)
J2
J1
B1
0.10 0.03
(2.5 0.8)
SIDE VIEW
.129
.055 TYP.
(1.4)
4 PLCS.
.045
.021 TYP.
(0.53)
5 PLCS.
CL
.026 TYP.
(0.66)
5 PLCS.
CL
CIRCUIT SIDE VIEW
.021 TYP.
(0.53)
4 PLCS.
.080 TYP.
(2.0)
3 PLCS.
CL
.026 TYP.
(0.66)
4 PLCS.
.055 TYP.
(1.4)
3 PLCS.
.32 0.02
(8.1 0.5)
CS300/301
J0
.032 TYP.
(0.81)
3 PLCS.
J1
J2
TOP VIEW
0.10 0.03
(2.5 0.8)
SIDE VIEW
.021 TYP.
(0.53)
3 PLCS.
CL
.026 TYP.
(0.66)
3 PLCS.
0.10 0.03
(2.5 0.8)
TOP VIEW
SIDE VIEW
.129
.20 0.02
(5.1 0.5)
Rx
D.C.
B2
TOP VIEW
.186
CS206
.032 TYP.
(0.81)
4 PLCS.
.20 0.02
(5.1 0.5) Tx
CL
CIRCUIT SIDE VIEW
.080 TYP.
(2.0)
3 PLCS.
.055 TYP.
(1.4)
3 PLCS.
20 | |www.aeroflex.com/Metelics
166
www.aeroflex.com/metelics
notes:
1. Substrate Material: 20 MIL Thick
Alumina Nitride (ALN) RF Cover:
Black Ceramic
2.Top Side and backside
metallization: 100 µ in. typical
plated Au Over Ti-Pd.
3.Dimension in Parenthesis are in mm.
CL
CIRCUIT SIDE VIEW
.080 TYP.
(2.0)
4 PLCS.
Outline Drawings
Ceramic Module SMT
CS310
Ceramic MELF
CS127
magnetic
A
B
C
D
E
F
DIMENSIONSIN
dimensions
inMILS
mils
A
B
.080"+.004
-.002
.080"+.004
-.002
.100" +.006
-.004
.143"+.005
-.004
Ø .050" ±.002
R .003/.005
Ø .050" ±.002
R .003/.007
Ø .063" ±.002
R .008/.012
Ø .097" ±.002
R .008/.012
CS
127-1
127-2
127-3
127-4
C
D
.112"+.003
-.002
.158"+.003
-.002
.188"+.003
-.004
.181"+.003
-.002
E
.096"MIN
.142"MIN
.155"MIN
.165"MIN
F
.008"/.025
TYP.
.008"/.025
TYP.
.017"/.008
TYP.
.025"/.008
TYP.
mils (mm)
CS320
CS128
non-magnetic
AA
BB
CC
DD
EE
FF
DIMENSIONSININ
MILS
dimensions
in
mils
DIMENSIONS
MILS
CS
CS
127-1
128-1
127-2
128-2
127-3
128-3
127-4
128-4
AA
.080"+.004
+.004
.080"
-.002
-.002
.080"+.004
+.004
.080"
-.002
-.002
.100
"
+.006
.100" +.006
-.004
-.004
.143"+.005
+.005
.143"
-.004
-.004
BB
CC
.050" ±.002
.003/.005
ØØ .050"
±.002 RR.003/.005
.003/.007
.050" ±.002
ØØ .050"
±.002 RR.003/.007
.063" ±.002
.008/.012
ØØ .063"
±.002 RR.008/.012
.097" ±.002
.008/.012
ØØ .097"
±.002 RR.008/.012
DD
.112"+.003
+.003
.112"
-.002
-.002
.158"+.003
+.003
.158"
-.002
-.002
.188"
+.003
.188" +.003
-.004
-.004
.181"+.003
+.003
.181"
-.002
-.002
EE
.096"MIN
.096"
MIN
.142"MIN
.142"
MIN
.155"MIN
.155"
MIN
.165"MIN
.165"
MIN
FF
.008"/.025
.008"/.025
TYP.
TYP.
.008"/.025
.008"/.025
TYP.
TYP.
.017"/.008
.017"/.008
TYP.
TYP.
.025"/.008
.025"/.008
TYP.
TYP.
mils (mm)
www.aeroflex.com/metelics | 167
Outline Drawings
Quality and Reliability
Plastic SMT
SOT23
SOT143
.120 [3.048]
.105 [2.667]
CL
MILLIMETERS
MIN
MAX
.021 [0.533]
.010 [0.254]
3
.055 [1.397] .098 [2.489]
.047 [1.194] .083 [2.108]
.004 [0.102]
.006 [0.152] .003 [0.076]
.003 [0.076]
2
1
.010 [0.254]
.005 [0.127]
.022 [0.559]
.017 [0.432]
.043 [1.092]
.034 [0.864]
Side View
.079 [2.007]
.071 [1.803]
0S
-1S
-2ST
-3CA
-4CC
A
A1
B
C
D
E
F
G
H
I
J
Ø
0.79
0.02
2.67
1.78
1.80
0.77
0.38
2.10
1.20
0.13
0.89
0.0
1.02
0.10
3.05
2.03
2.00
0.94
0.54
2.50
1.40
0.25
0.15
8.0
-015
INCHES
MIN
MAX
0.031
0.001
0.105
0.070
0.071
0.030
0.015
0.083
0.047
0.005
0.0035
0.0
-016
D
0.040
0.004
0.120
0.080
0.079
0.037
0.021
0.098
0.065
0.010
0.0059
0.8
J
H
A1
Ø
I
E
G
A
C
-017
-020
-021
-022
-023
inches (mm)
inches (mm)
SOD223
F
B
SOD323
.106 [2.692]
.094 [2.388]
.075 [1.905]
.063 [1.600]
mils (mm)
.057 [1.448]
.045 [1.143]
.016 [0.406]
.010 [0.254]
4
1
2
3
Cathode Strip
.043 [1.092]
.034 [0.864]
.006 [0.152]
.003 [0.076]
inches (mm)
20 | |www.aeroflex.com/Metelics
168
www.aeroflex.com/metelics
.004 [0.102]
.003 [0.076]
inches (mm)
Outline Drawings
Plastic SMT
0.050±0.003
(1.27±0.07)
0805P
MARKING
AREA
1
0.033
(0.838)
0.09±0.002
(0.23±0.05)
0.027
(0.685)
0.028±0.003
(0.71±0.07)
0.080±0.003
(2.03±0.07)
0.029
(0.736)
0.026±0.002
(0.66±0.05)
0.044
(1.117)
2
0.009 TYP
(0.23 TYP)
0.008 TYP
(0.20 TYP)
PIN FUNCTION
1 ANODE
2 CATHODE
0.032±0.003
(0.81±0.05)
0.021±0.003
(0.53±0.07)
0.045±0.005
(1.14±.13)
0.045±0.005
MARKING
(1.14±.13)
AREA
0.045±0.005
(1.14±.13)
2012
3
0.075±0.005
(1.91±.13) 2 4
0.012±0.002
(0.30±0.05)
0.012±0.002
(0.30±0.05)
0.025±0.002
(0.63±0.05)
0.012±0.002
(0.30±0.05)
1
0.008±0.002
(0.20±0.05)
0.032±0.003
0.008±0.002
(0.81±0.05)
0.008±0.002
(0.20±0.05)
0.012±0.002
(0.30±0.05)
0.012±0.002
(0.30±0.05)
0.015±0.003
0.012±0.002
(0.38±0.07)
(0.30±0.05)
SERIES SHUNT
1
3
1
2,4
0.025±0.002
(0.63±0.05)
0.015±0.003
(0.38±0.07)
0.184±0.001
Pin
functions
PIN FUNCTION 1
PIN FUNCTION
Series
Shunt
1Switch
INPUT Element
1 INPUTSHUNT
SERIES
3
3
OUTPUT
Pin #1 input 3 OUTPUT
2,4 RF andFUNCTION
DC GROUND
2,4 RF and DC GROUND
Pin #3 output PIN
1 INPUT
3
Pin #2 & #4 DC
and
RF ground
3 OUTPUT
2,4
2,4 RF and DC GROUND
2,4
31
0.025±0.001
(0.635±0.02)
0.013±0.001
(0.33±0.02)
0.025±0.001
(0.635±0.02)
0.107±0.001
(2.72±0.02)
0.025±0.001
(0.635±0.02)
Ø0.010±0.001
(Ø0.25±0.02)
Ø0.010±0.001
(Ø0.25±0.02)
PLATED THRU
(29) PLACES
PLATED THRU
(29) PLACES
0.020±0.001
(0.50±0.02)
Ø0.010±0.001
(Ø0.25±0.02)
PLATED THRU
(29) PLACES
45°
45°
0.011±0.001
(0.28±0.02)
45°
0.011±0.001
(0.28±0.02)
0.184±0.001
(4.67±0.02)
0.184±0.001
0.015±0.001
0.015±0.001(4.67±0.02)
(0.38±0.02)
(0.38±0.02)
0.035±0.001
(0.89±0.02)
0.041±0.001
(1.04±0.02)
PIN #1 & #3 Anode
1,3 ANODE
PIN #2 2,4
& #4
Cathode
CATHODE,
RF and DC GROUND
0.041±0.001
(1.04±0.02)
0.015±0.001
(0.38±0.02)
(0.89±0.02)
0.013±0.001
(0.33±0.02)
0.041±0.001
(1.04±0.02)
0.015±0.001
(0.38±0.02)
0.035±0.001
0.013±0.001
(0.33±0.02)
PIN FUNCTION
PIN FUNCTION3
functions
1,3 ANODE
1,3 ANODESHUNT Pin
2,4DC
CATHODE,
RF andElement
DC GROUND
2,4 CATHODE, RF and
GROUND
Shunt
Switch
1
3
PIN FUNCTION
2,4
0.107±0.001
(2.72±0.02)
0.020±0.001
(0.50±0.02)
0.011±0.001
(0.28±0.02)
(4.67±0.02)
0.015±0.003
(0.38±0.07)
0.107±0.001
(2.72±0.02)
0.013±0.001
(0.33±0.02)
0.020±0.001
(0.50±0.02)
SHUNT
SHUNT
2,4
0.013±0.001
(0.33±0.02)
1. Dimensions do not include mold flashing. 0.035±0.001
(0.89±0.02)
2. Burrs and dumbar shall not exceed 0.002˝ per
surface.
3. Lead co-planarity is 0.003˝ max.
0.012±0.002
(0.30±0.05)
1
0.025±0.002
(0.63±0.05)
0.032±0.003
NOTES
NOTES
(0.81±0.05)
Dimensions
not include mold flashing.
1. Dimensions do not1.include
mold do
flashing.
0.032±0.003
Burrs
dumbar
shallper
notsurface.
exceed 0.002˝ per surface.
2. Burrs and dumbar2.shall
notand
exceed
0.002˝
0.012±0.002
NOTES
(0.81±0.05)
(0.30±0.05)
Lead co-planarity
is 0.003˝ max.
3. Lead co-planarity 3.
is 0.003˝
max.
(0.20±0.05)
SERIES SHUNT
0.016±0.003
(0.41±0.07)
2
1
1
0.016±0.003
(0.41±0.07)
0.012±0.002
(0.30±0.05)
2
0.075±0.005
(1.91±.13) 4
inches (mm)
0.016±0.003
(0.41±0.07)
MARKING
AREA
3
3
0.075±0.005
(1.91±.13) 4
MARKING
AREA
Soldering Footprint
0.020±0.001
(0.50±0.02)
0.013±0.001
(0.33±0.02)
0.015±0.001
(0.38±0.02)
0.020±0.001
(0.50±0.02)
0.015±0.001
(0.38±0.02)
0.020±0.001
(0.50±0.02)
Soldering Footprint
inches (mm)
2,4
0503
inches (mm)
www.aeroflex.com/metelics | 169
Outline
Outline Drawings
Drawings
Quality and Reliability
Plastic SMT
2615
3023
16L 3x3 mm
20
1
70 | | www.aeroflex.com/Metelics
www.aeroflex.com/metelics
Outline Drawings
Glass Axial Leaded
A15
(hermetic)
CS65
.016 (0.41)
.014 (0.36)
.022 (0.56)
.018 (0.46)
Cathode Band
.076 (1.93)
.068 (1.73)
Dia.
.170 (4.32)
.150 (3.81)
1.00 (25.4) Min
2Pls
CS85
Cp = .07pF
L = 1.0 nH
Cathode Band
1.00 (25.4) Min
2Pls
.019 (0.53)
.021 (0.48)
.075 (1.90)
.050 (1.27)
.120 (3.04)
.085 (2.16)
inches (mm)
Cathode Band
.085 (2.16)
.105 (2.67)
Dia.
.300 (5.84)
.230 (7.62)
1.00 (25.4) Min
2Pls
inches (mm)
inches (mm)
Specialty
M21
(hermetic)
CM22
CL
.420 (10.668)
.400 (10.160)
.011 (0.297)
.005 (0.127)
.155 (3.937)
.120 (3.048)
1
2
.165 (4.191)
.155 (3.937)
.101 (2.565) Dia. Thru
.91 (2.311)
.020 (0.508)
Min
.255 (6.477)
.245 (6.223)
PIN FUNCTIONS
Shunt PIN
Switch Element
PIN #1 & #2 anode
.126 (3.200)
.122 (3.099)
inches (mm)
inches (mm)
M23
M33
.251 [6.375]
.241 [6.121]
.140 [3.556]
.130 [3.302]
.128 [3.251]
.118 [2.997]
4-.025 CHAMF.
45
.399 [10.135]
.389 [9.881]
.269 [6.833]
.259 [6.579]
.023 [0.584]
INPUT
.017 [0.432]
Input
.135 [3.429]
.125 [3.175]
.070 [1.778]
.060 [1.524]
OUTPUT
.144 [3.658]
.132 [3.353]
.076 [1.930] Dia 2 Pls
.066 [1.676]
.335 [8.509]
.325 [8.255]
.0065 [0.165]
.0003 [0.076]
.100 [2.540]
.080 [2.032]
.071 [1.803]
.059 [1.499]
.045 [1.143]
.033 [0.838]
.004 [0.102]
.0012 [0.030]
.160 [4.064]
.140 [3.556]
.050 [1.270] 2Pls
.025 [0.635]
.105 [2.667]
.075 [1.905]
.014 [0.356]
.010 [0.254]
inches (mm)
.068 [1.727]
.058 [1.473]
inches (mm)
www.aeroflex.com/metelics | 171
Outline Drawings
Quality and Reliability
Specialty
.296 (7.52)
.292 (7.42) D
CS100
.296 (7.52)
.292 (7.42) D
CS101
.250 (6.35)
.246 (6.25) D
.250 (6.35)
.246 (6.25) D
.057 (1.45)
.047 (1.19)
.199 (5.05)
.193 (4.90)
.792 (20.1)
.766 (19.5)
.057 (1.45)
.047 (1.19)
.199 (5.05)
.193 (4.90)
.792 (20.1)
.766 (19.5)
.840 (21.3)
.800 (20.3)
.840 (21.3)
.800 (20.3)
.030 (.762)
.020 (.508)
.030 (.762)
.020 (.508)
.190 (4.83)
.180 (4.57)
.190 (4.83)
.180 (4.57)
.094 (2.39)
.092 (2.34)
.094 (2.39)
.092 (2.34)
.215 (5.46)
.195 (4.95) D
.215 (5.46)
.195 (4.95) D
.240 (6.10)
.220 (5.64) D
.240 (6.10)
.220 (5.64) D
NOTE:
BASE REMOVABLE, ENCLOSING PRONG WITH
DIMENSIONS SAME AS OTHER PRONG.
NOTE:
BASE NON-REMOVABLE, ENCLOSING PRONG WITH
DIMENSIONS SAME AS OTHER PRONG.
.225 (5.71)
.215 (5.46)
CS102
CS103
(NOTE 2)
.765 (19.4)
.735 (18.7)
.406 (10.3) MIN
(NOTE 1)
.033 (.838)
.031 (.787) DIA
INNER CONDUCTOR
.147 (3.73)
MIN.
.063 (1.60) DIA
REF. ONLY
.184 (4.67) DIA
REF. ONLY
.220 (5.59)
.215 (5.46)
(NOTE 1)
1.300
.800 J3
.500 J2
0
.200 J1
(TOP VIEW)
CS700
1.100 J4
NOTES:
1. OUTSIDE DIA .220/.215 APPLIES
O
2. MARKING TO BE CONFINED TO THIS REGION.
METAL COVER
0
J5
J16 .200
J15 .500
J6
ARX
DATE CODE
PART NUMBER
J14 .800
CL
J7
1.03 SQ.
REF
J8
J13 1.100
.062 TYP.
(CIRCUIT SIDE VIEW)
J9
CL
J10
J11
J12
1.300
.040 SQ.
(16 PLCS.)
.33
notes:
1. Outside dia. .160 Applies only
to .281 length as shown.
2. Marking to be confined to
this region.
3. Space for matching
Transformer (when Used)
.040 REF.
(16 PLCS.)
CL
1.150 SQ.
.040 REF.
(16 PLCS.)
CL
CUSTOMER CIRCUIT BOARD KEEP
OUT AREA TO CONTAIN NO CONDUCTORS
OR RETURN (RTN) LINES.
CM26
.210 (5.33)
.220 (5.59)
CM27
7X .008 (0.20)
.012 (0.30)
.255 (6.48)
.265 (6.73)
.760 (19.30)
.770 (19.56)
7X .004 (0.10)
.006 (0.15)
.715 (18.16)
.725 (18.41)
.039 (0.99)
.051 (1.29)
.0076 (0.19)
.0124 (0.31)
3X .040 (1.02)
.050 (1.27)
CL
CL
.0175 (0.44)
0.275 (0.70)
NOTE:
* HATCHED AREAS DENOTE METALIZATION
* DIMENSIONS IN PARENTHESIS ARE IN MILLIMETERS.
20
1
72 | | www.aeroflex.com/Metelics
www.aeroflex.com/metelics
Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
1N21C
26
1N830A
27
1N5303
127
1N4116
124
1N21D
26
1N831
25
1N5304
127
1N4117
124
1N21E
26
1N831A
25
1N5305
127
1N4118
124
1N21F
26
1N831B
25
1N5306
127
1N4119
124
1N21G
26
1N831C
25
1N5307
127
1N4120
124
1N21WE
26
1N832
25
1N5308
127
1N4121
124
1N21WG
26
1N832A
25
1N5309
127
1N4614
125
1N23
26
1N832B
25
1N5310
127
1N4615
125
1N23A
26
1N832C
25
1N5311
127
1N4616
125
1N23B
26
1N833
27
1N5312
127
1N4617
125
1N23C
26
1N833A
27
1N5313
127
1N4618
125
1N23D
26
1N1611
27
1N5314
127
1N4619
125
1N23E
26
1N1611A
27
®1N5461
106
1N4620
125
1N23F
26
1N1611B
27
®1N5462
106
1N4621
125
1N23G
26
1N3778
27
®1N5463
106
1N4622
125
1N23H
26
®1N5139A
104
®1N5464
106
1N4623
125
1N23WE
26
®1N5140A
104
®1N5465
106
1N4624
125
1N23WG
26
®1N5141A
104
®1N5466
106
1N4625
125
1N32
27
®1N5142A
104
®1N5467
106
1N4626
125
1N32A
27
®1N5143A
104
®1N5468
106
1N4627
125
1N53
24
®1N5144A
104
®1N5469
106
1N4678
126
1N53A
24
®1N5145A
104
®1N5470
106
1N4679
126
1N53B
24
®1N5146A
104
®1N5471
106
1N4680
126
1N53C
24
®1N5147A
104
®1N5472
106
1N4681
126
1N53D
24
®1N5148A
104
®1N5473
106
1N4682
126
1N78
24
1N5283
127
®1N5474
106
1N4683
126
1N78A
24
1N5284
127
®1N5475
106
1N4684
126
1N78B
24
1N5285
127
®1N5476
106
1N4685
126
1N78C
24
1N5286
127
1N4099
124
1N4686
126
1N78D
24
1N5287
127
1N4100
124
1N4687
126
1N78E
24
1N5288
127
1N4101
124
1N4688
126
1N78F
24
1N5289
127
1N4102
124
1N4689
126
1N78G
24
1N5290
127
1N4103
124
1N4690
126
1N415C
26
1N5291
127
1N4104
124
1N4691
126
1N415D
26
1N5292
127
1N4105
124
1N4692
126
1N415E
26
1N5293
127
1N4106
124
1N4693
126
1N415F
26
1N5294
127
1N4107
124
1N4694
126
1N415G
26
1N5295
127
1N4108
124
1N4695
126
1N415H
26
1N5296
127
1N4109
124
1N4696
126
1N416C
26
1N5297
127
1N4110
124
1N4697
126
1N416D
26
1N5298
127
1N4111
124
1N4698
126
1N416E
26
1N5299
127
1N4112
124
1N4699
126
1N416F
26
1N5300
127
1N4113
124
1N4700
126
1N416G
26
1N5301
127
1N4114
124
1N4701
126
1N830
27
1N5302
127
1N4115
124
1N4702
126
Metelics East Plant
Metelics West Plant
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Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
1N4703
126
1N5525
120
1N5704
107
90100 thru 90199R
132
1N4704
126
1N5526
120
1N5705
107
90200 thru 90399R
132
1N4705
126
1N5527
120
1N5706
107
90400 thru 90600R
132
1N4706
126
1N5528
120
1N5707
107
91100RK-SP
133
1N4707
126
1N5529
120
1N5708
107
91100 thru 91199
132
1N4708
126
1N5530
120
1N5709
107
91200 thru 91399
132
1N4709
126
1N5531
120
1N5711
20
Mounting Capacitors
134
1N4710
126
1N5532
120
1N5712
20
BOO Series
135
1N4711
126
1N5533
120
1N6082
121
BSP-1 Series
135
1N4712
126
1N5534
120
1N6083
121
BSP-3 Series
135
1N4713
126
1N5535
120
1N6084
121
K120
122
1N4714
126
1N5536
120
1N6085
121
K150
122
1N5139
104
1N5537
120
1N6086
121
K180
122
1N5140
104
1N5538
120
1N6087
121
K210
122
1N5141
104
1N5539
120
1N6088
121
K240
122
1N5142
104
1N5540
120
1N6089
121
K270
122
1N5143
104
1N5541
120
1N6090
121
K300
122
1N5144
104
1N5542
120
1N6091
121
K330
122
1N5145
104
1N5543
120
90R1 thru 90R9
132
K360
122
1N5146
104
1N5544
120
90R5 thru 901R0
132
K390
122
1N5147
104
1N5545
120
901R0 thru 901R5
132
K430
122
1N5148
104
1N5546
120
901R0 thru 902R2
132
K470
122
1N5441
105
1N5681
107
901R thru 9029R
132
K510
122
1N5442
105
1N5682
107
902R0 thru 9010R
132
K511
123
1N5443
105
1N5683
107
902R2 thru 904R7
132
K561
123
1N5444
105
1N5684
107
905R6M
132
K621
123
1N5445
105
1N5685
107
906R8M
132
K681
123
1N5446
105
1N5686
107
908R2M
132
KSV1401
108
1N5447
105
1N5687
107
910R1 thru 911R9
132
KSV1402
108
1N5448
105
1N5688
107
912R0 thru 919R9
132
KSV1403
108
1N5449
105
1N5689
107
9000 Series
132
KSV1404
108
1N5450
105
1N5690
107
9010R0M
132
KSV1405
108
1N5451
105
1N5691
107
9015R0M
132
KSV1406
108
1N5452
105
1N5692
107
9022R0M
132
KSV1407
108
1N5453
105
1N5693
107
9030R thru 9049R
132
KSV1408
108
1N5454
105
1N5694
107
9033R0M
132
KSV1409
108
1N5455
105
1N5695
107
9047R0M
132
KSV1410
108
1N5456
105
1N5696
107
9050R thru 9099R
132
KSV1411
108
1N5518
120
1N5697
107
9068R0M
132
KSV1412
108
1N5519
120
1N5698
107
9082R0M
132
KSV2101
101
1N5520
120
1N5699
107
9100 Series
132
KSV2102
101
1N5521
120
1N5700
107
9110R thru 9129R
132
KSV2103
101
1N5522
120
1N5701
107
9130R thru 9149R
132
KSV2104
101
1N5523
120
1N5702
107
9150R thru 9199R
132
KSV2105
101
1N5524
120
1N5703
107
90100R0M
132
KSV2106
101
Metelics East Plant
Metelics West Plant
20
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74 | | www.aeroflex.com/Metelics
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Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
KSV2107
101
MAT10020
139
MBC50-82B13
130
MC2RXXX099-138
128
KSV2108
101
MAT10030
139
MBC50-8B12
130
MC2RXXXX127-145
128
KSV2109
101
MAT10040
139
MBD1057-0805-2
22
MC2RXXXX142-160
128
KSV2110
101
MAT10050
139
MBD1057-C18
22, 23
MC2SXXX010-010
129
KSV2111
101
MAT10060
139
MBD1057-E28 / 28X
22
MC2SXXX011-011
129
KSV2112
101
MAT10070
139
MBD1057-H20
22
MC2SXXX015-015
129
KSV2113
101
MAT10080
139
MBD1057-T54
22
MC2SXXX016-016
129
KSV2114
101
MAT10090
139
MBD1057-T80
22
MC2SXXX020-020
129
KSV2115
101
MAT10100
139
MBD2057-0805-2
22
MC2SXXX022-022
129
LM102202-Q-C-301
91
MAT10110
139
MBD2057-C18
22
MC2SXXX025-025
129
LM200802-M-A-300
85
MAT10120
139
MBD2057-E28 / 28X
22
MC2SXXX030-030
129
LM202802-L-C-300
88
MAT10130
139
MBD2057-H20
22
MC2SXXX035-035
129
LM202802-M-C-300
89
MAT10140
139
MBD2057-T54
22
MC2SXXX040-040
129
LM202802-Q-C-301
92
MAT10150
139
MBD2057-T80
22
MC2SXXX050-050
129
LM401102-Q-C-301
90
MAT10160
139
MBD3057-0805-2
22
MC2SXXX055-055
129
LM501202-L-C-300
86
MAT10170
139
MBD3057-C18
22
MC2SXXX060-060
129
LM501202-M-C-300
87
MAT10180
139
MBD3057-E28 / 28X
22
MC2SXXX070-070
129
LVA100A
118
MAT10190
139
MBD3057-H20
22
MC2SXXX080-080
129
LVA43A
118
MAT10200
139
MBD3057-T54
22
MC2SXXX100-100
129
LVA450A
119
MAT10210
139
MBD3057-T80
22
MEST²G-080-25-CM27
75
LVA453A
119
MAT10220
139
MBD4057-0805-2
22
MEST2G-010-20
72
73
LVA456A
119
MAT10230
139
MBD4057-C18
22
MEST2G-020-15
LVA459A
119
MAT10240
139
MBD4057-E28 / 28X
22
MEST2G-150-020-CM26 74
LVA462A
119
MAT10250
139
MBD4057-H20
22
MEST2GFC-010-25
76
LVA465A
119
MAT10260
139
MBD4057-T54
22
MGDAH-24-10
34
LVA468A
119
MAT10270
139
MBD4057-T80
22
MGPN0515-C12
33
LVA471A
119
MAT10280
139
MBD5057-0805-2
22
MGPN0518-C12
33
LVA474A
119
MAT10290
139
MBD5057-C18
22
MGPN1503-C01A
33
LVA477A
119
MAT10300
139
MBD5057-E28 / 28X
22
MGPN1504-C01A
33
LVA47A
118
MBC50-0.2B14
130
MBD5057-H20
22
MGPN1506-C12
33
LVA480A
119
MBC50-1.0B14
130
MBD5057-T54
22
MGR700
20
LVA483A
119
MBC50-1.5B14
130
MBD5057-T80
22
MGR701
20
LVA486A
119
MBC50-100B13
130
MC2B0.8020-020
129
MGR702
20
LVA489A
119
MBC50-10B12
130
MC2B002020-020
129
MGR703
20
LVA492A
119
MBC50-15B12
130
MC2B004020-020
129
MGR704
20
LVA495A
119
MBC50-1B12
130
MC2B008020-020
129
MGR705
20
LVA498A
119
MBC50-2.0B14
130
MC2B016020-020
129
MGS801
28
LVA51A
118
MBC50-20B12
130
MC2DXXX010-010
128
MGS801A
28
LVA56A
118
MBC50-2B12
130
MC2DXXX015-015
128
MGS802
28
LVA62A
118
MBC50-33B13
130
MC2DXXX020-020
128
MGS802A
28
LVA68A
118
MBC50-3B12
130
MC2RXXX010-015
128
MGS803
28
LVA75A
118
MBC50-47B13
130
MC2RXXX015-020
128
MGS901
28
LVA82A
118
MBC50-4B12
130
MC2RXXX015-032
128
MGS902
28
LVA91A
118
MBC50-68B13
130
MC2RXXX022-042
128
MGS903
28
MAT10010
139
MBC50-6B12
130
MC2RXXX097-107
128
MGS904
28
Metelics East Plant
Metelics West Plant
www.aeroflex.com/metelics | 175
Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
MGS904A
28
MGV100-22
30
MMA703
141
MMP7029
42
MGS905
28
MGV100-23
30
MMA704
141
MMP7030
42
MGS906
28
MGV100-24
30
MMA704X
141
MMP7031
42
MGS907
28
MGV100-25
30
MMA705
141
MMP7032
42
MGS907A
28
MGV100-26
30
MMA706
141
MMP7033
42
MGS907B
28
MGV100-27
30
MMA707
142
MMP7034
42
MGS908
28
MGV125-08
30
MMA708
141
MMP7035
42
MGS909
28
MGV125-09
30
MMA709
142
MMP7036
42
MGS910
28
MGV125-20
30
MMA710
141
MMP7040
44
MGS911
28
MGV125-21
30
MMA712
141
MMP7041
44
MGS912
28
MGV125-22
30
MMDB30-B11
36
MMP7042
44
MGV050-18
29
MGV125-23
30
MMDB35-B11
36
MMP7043
44
MGV050-18-0805-2
29
MGV125-24
30
MMDB45-B11
36
MMP7044
44
MGV050-18-E28 / 28X
29
MGV125-25
30
MMDB30-E28 / 28X
36
MMP7045
44
MGV050-18-H20
29
MGV125-26
30
MMDB30-0402
36
MMP7046
44
MGV050-20
29
MHV500
117
MMDB30-0805-2
36
MMP7047
44
MGV050-20-0805-2
29
MHV501
117
MMDB35-E28 / 28X
36
MMP7048
44
MGV050-20-E28 / 28X
29
MHV502
117
MMDB35-0402
36
MMP7049
44
MGV050-20-H20
29
MHV503
117
MMDB35-0805-2
36
MMP7050
44
MGV050-22
29
MHV504
117
MMDB45-E28 / 28X
36
MMP7051
44
MGV050-22-0805-2
29
MHV505
117
MMDB45-0402
36
MMP7052
44
MGV050-22-E28 / 28X
29
MHV506
117
MMDB45-0805-2
36
MMP7053
44
MGV050-22-H20
29
MHV507
117
MMI297
136
MMP7060
43
MGV050-24
29
MHV508
117
MMI298
136
MMP7061
43
MGV050-24-0805-2
29
MHV509
117
MMI299
136
MMP7062
43
MGV050-24-E28 / 28X
29
MHV510
117
MMI300
136
MMP7063
43
MGV050-24-H20
29
MHV511
117
MMI301
136
MMP7064
43
MGV050-26
29
MHV512
117
MMI302
136
MMP7065
43
MGV050-26-0805-2
29
MHV513
117
MMI303
136
MMP7066
43
MGV050-26-E28 / 28X
29
MLP7100
52, 53
MMI304
136
MMP7067
43
MGV050-26-H20
29
MLP7101
52, 53
MMI305
136
MMP7068
43
MGV075-08
30
MLP7102
52, 53
MMI306
136
MMP7069
43
MGV075-09
30
MLP7110
52, 53
MMP7010
41
MMP7070
43
MGV075-10
30
MLP7111
52, 53
MMP7011
41
MMP7071
43
MGV075-11
30
MLP7112
52, 53
MMP7012
41
MMP7072
43
MGV075-12
30
MLP7120
52, 53
MMP7013
41
MMP7073
43
MGV075-13
30
MLP7121
52, 53
MMP7020
42
MMP7074
43
MGV075-14
30
MLP7122
52, 53
MMP7021
42
MMP7075
43
MGV075-15
30
MLP7130
52, 53
MMP7022
42
MMP7076
43
MGV075-16
30
MLP7131
52, 53
MMP7023
42
MMP7077
43
MGV075-17
30
MLP7140
52, 53
MMP7024
42
MMP7078
43
MGV100-08
30
MLP7141
52, 53
MMP7025
42
MMP7079
43
MGV100-09
30
MMA500
141
MMP7026
42
MMP7080
43
MGV100-20
30
MMA504
141
MMP7027
42
MMP7081-127
45
MGV100-21
30
MMA701
142
MMP7028
42
MMP7082-127
45
Metelics East Plant
Metelics West Plant
20
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76 | | www.aeroflex.com/Metelics
www.aeroflex.com/metelics
Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
MMP7083-127
45
MNP0014-T89P
46
MPN7312B-0805-2
41
MSD705
35
MMP7084-127
45
MPD2T28125-700
93
MPN7312B-E28 / 28X
41
MSD706
35
MMP7085-127
45
MPN1000-12
51
MPN7312B-H20
41
MSD711
35
MMP7086-127
45
MPN1001-12
51
MPN7315
39
MSD710
35
MMP7087-127
45
MPN1002-12
51
MPN7315-0805-2
41
MSD712
35
MMP7088-127
45
MPN1003-12
51
MPN7315-E28 / 28X
41
MSD713
35
MMP7089-127
45
MPN1004-12
51
MPN7315-H20
41
MSD714
35
MMP7090-127
45
MPN1005-12
51
MPN7320
39
MSD715
35
MMP7091-127
45
MPN1006-12
51
MPN7320-0805-2
41
MSD716
35
MMP7092
44
MPN1007-12
51
MPN7320-E28 / 28X
41
MSD720
35
MMP7093
44
MPN1100-12
51
MPN7320-H20
41
MSD721
35
MMP7094
44
MPN1101-12
51
MPN7330
38
MSD722
35
MMP7095
44
MPN1102-12
51
MPN7345
38
MSD723
35
MMP7096
44
MPN1103-12
51
MPN7360
38
MSD724
35
MMP7097
44
MPN7302
39
MPN7370
38
MSD725
35
MMP7098
44
MPN7302-0805-2
41
MPN7380
38
MSD726
35
MMP7099
44
MPN7302-E28 / 28X
41
MPN7420
38
MSD730
35
MMPN080045
39
MPN7302-H20
41
MPN7453A
38
MSD731
35
MMPN080150
39
MPN7304
39
MPN7453B
38
MSD732
35
MMSPN050
40
MPN7304-0805-2
41
MPN7453C
38
MSD733
35
MNP0008
46
MPN7304-E28 / 28X
41
MPND4005-0402
51
MSD734
35
MNP0008-ET47P
46
MPN7304-H20
41
MPND4005-B15
51
MSD735
35
MNP0008-T54P
46
MPN7304A
39
MPND4005-B16
51
MSD736
35
MNP0008-T55P
46
MPN7304A-0805-2
41
MSAT-0010-C19
47
MSDM20-0118
9
MNP0008-T89P
46
MPN7304A-E28 / 28X
41
MSAT-0011-C19
47
MSPD1000-E50 / E50SM 36, 37
MNP0010
46
MPN7304A-H20
41
MSAT-0020-C19
47
MSPD1000-H50
MNP0010-ET47P
46
MPN7306
39
MSAT-0021-C19
47
MSPD1002-E50 / E50SM 36, 37
MNP0010-T54P
46
MPN7306-0805-2
41
MSAT-0040-C12
47
MSPD1002-H50
37
MNP0010-T55P
46
MPN7306-E28 / 28X
41
MSAT-0041-C12
47
MSPD1011-121
37
MNP0010-T89P
46
MPN7306-H20
41
MSAT-0080-C22
47
MSPD1012-121
37
MNP0012
46
MPN7310
39
MSAT-0081-C12
47
MSPD1013-121
37
MNP0012-ET47P
46
MPN7310-0805-2
41
MSAT-0120-C22-8
47
MSPD1012-E50 / E50SM 37
MNP0012-T54P
46
MPN7310-E28 / 28X
41
MSAT-0140-C22-8
47
MSPD1012-H50
MNP0012-T55P
46
MPN7310-H20
41
MSAT-1020-C19P
47
MSPD2018-E50 / E50SM 37
MNP0012-T89P
46
MPN73100
38
MSAT-1040-C12P
47
MSPD2018-H50
37
MNP0012A
46
MPN7310A
39
MSAT-1041-C12P
47
MSS20,046-0805-2
5
MNP0012A-ET47P
46
MPN7310A-0805-2
41
MSAT-1080-C22P
47
MSS20,046-C15
4
MNP0012A-T54P
46
MPN7310A-E28 / 28X
41
MSAT-1140-C22P-8
47
MSS20,046-E25
5
MNP0012A-T55P
46
MPN7310A-H20
41
MSAT-N25
48
MSS20,046-H27
5
MNP0012A-T89P
46
MPN73120
38
MSAT-P25
49
MSS20,046-T86
5
MNP0014
46
MPN7312A
39
MSD700
35
MSS20,047-0805-2
5
MNP0014-ET47P
46
MPN7312A-0805-2
41
MSD701
35
MSS20,047-C15
4
MNP0014-T54P
46
MPN7312A-E28 / 28X
41
MSD702
35
MSS20,047-E25
5
MNP0014-T55P
46
MPN7312A-H20
41
MSD703
35
MSS20,047-H27
5
MNP0014A
46
MPN7312B
39
MSD704
35
MSS20,047-T86
5
36, 37
37
Metelics East Plant
Metelics West Plant
www.aeroflex.com/metelics | 177
Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
MSS20,050-0805-2
5
MSS30,142-H20
13
MSS39,045-P86
11
MSS40,248-E35
15
MSS20,050-C15
4
MSS30,148-B10B
12
MSS39,048-C15
10
MSS40,255-0805-4
15
MSS20,050-E25
5
MSS30,148-E25
13
MSS39,048-P55
11
MSS40,255-B20
14
MSS20,050-H27
5
MSS30,148-H20
13
MSS39,048-P86
11
MSS40,255-E35
15
MSS20,050-T86
5
MSS30,154-B10B
12
MSS39,144-0402
11
MSS40,448-B42
14
MSS20,051-0805-2
5
MSS30,154-E25
13
MSS39,144-0805-2
11
MSS40,448-E45
15
MSS20,051-C15
4
MSS30,154-H20
13
MSS39,144-B10B
10
MSS40,448-H40
15
MSS20,051-E25
5
MSS30,242-B20
12
MSS39,144-H27
11
MSS40,455-B40
14
MSS20,051-H27
5
MSS30,242-E35
13
MSS39,146-0402
11
MSS40,455-E45
15
MSS20,051-T86
5
MSS30,242-H30
13
MSS39,146-0805-2
11
MSS40,455-H40
15
MSS20,054-0805-2
5
MSS30,248-B20
12
MSS39,146-B10B
10
MSS40,B46-B45
14
MSS20,054-C15
4
MSS30,248-E35
13
MSS39,146-H27
11
MSS40,B46-E45
15
MSS20,054-E25
5
MSS30,248-H30
13
MSS39,148-0402
11
MSS40,B53-B45
14
MSS20,054-H27
5
MSS30,254-B20
12
MSS39,148-0805-2
11
MSS40,B53-E45
15
MSS20,054-T86
5
MSS30,254-E35
13
MSS39,148-B10B
10
MSS40,CR46-B49
14
MSS20,055-0805-2
5
MSS30,254-H30
13
MSS39,148-E25
11
MSS40,CR46-E45
15
MSS20,055-C15
4
MSS30,346-B21
12
MSS39,148-H20
11
MSS40,CR46-H40
15
MSS20,055-E25
5
MSS30,346-E25
13
MSS39,152-0402
11
MSS40,CR53-B49
14
MSS20,055-H27
5
MSS30,346-H20
13
MSS39,152-0805-2
11
MSS40,CR53-E45
15
MSS20,055-T86
5
MSS30,442-B42
12
MSS39,152-B10B
10
MSS40,CR53-H40
15
MSS20,140-0402
5
MSS30,442-E45
13
MSS39,152-E25
11
MSS40,PCB46-B48
14
MSS20,140-B10D
4
MSS30,442-H40
13
MSS39,152-H20
11
MSS40,PCR46-B47
14
MSS20,141-0402
5
MSS30,448-B42
12
MSS40,045-C15
14
MSS40,PCR53-B47
14
MSS20,141-B10D
4
MSS30,448-E45
13
MSS40,045-P55
15
MSS50,046-C26
16
MSS20,142-0402
5
MSS30,448-H40
13
MSS40,045-P86
15
MSS50,046-P55
17
MSS20,142-B10D
4
MSS30,454-B40
12
MSS40,048-C15
14
MSS50,046-P86
17
MSS20,143-0402
5
MSS30,454-E45
13
MSS40,048-P55
15
MSS50,048-C15
16
MSS20,143-B10D
4
MSS30,454-H40
13
MSS40,048-P86
15
MSS50,048-P55
17
MSS20,145-0402
5
MSS30,B46-B45
12
MSS40,141-0402
15
MSS50,048-P86
17
MSS20,145-B10D
4
MSS30,B46-E45
13
MSS40,141-B10B
14
MSS50,062-C16
16
MSS20,146-0402
5
MSS30,B46-H40
13
MSS40,141-E25
15
MSS50,062-P55
17
MSS20,146-B10D
4
MSS30,B53-B45
12
MSS40,141-H20
15
MSS50,062-P86
17
MSS25,047-C15c
8
MSS30,B53-E45
13
MSS40,148-0402
15
MSS50,146-0402
17
MSS25,049-C15c
8
MSS30,B53-H40
13
MSS40,148-B10B
14
MSS50,146-0805-2
17
MSS25,141-B10D
8
MSS30,CR46-B49
12
MSS40,148-E25
15
MSS50,146-B10B
16
MSS25,143-B10D
8
MSS30,CR46-E45
13
MSS40,148-H20
15
MSS50,146-E25
17
MSS25,145-B10D
8
MSS30,CR46-H40
13
MSS40,155-0402
15
MSS50,146-H20
17
MSS30,046-C15
12
MSS30,CR53-B49
12
MSS40,155-B10B
14
MSS50,155-0402
17
MSS30,046-P55
13
MSS30,CR53-E45
13
MSS40,155-E25
15
MSS50,155-0805-2
17
MSS30,046-P86
13
MSS30,CR53-H40
13
MSS40,155-H20
15
MSS50,155-B10B
16
MSS30,050-C15
12
MSS30,PCB46-B48
12
MSS40,244-0805-4
15
MSS50,155-E25
17
MSS30,050-P55
13
MSS30,PCR46-B47
12
MSS40,244-B20
14
MSS50,155-H20
17
MSS30,050-P86
13
MSS30,PCR53-B47
12
MSS40,244-E35
15
MSS50,244-0805-4
17
MSS30,142-B10B
12
MSS39,045-C15
10
MSS40,248-0805-4
15
MSS50,244-B20
16
MSS30,142-E25
13
MSS39,045-P55
11
MSS40,248-B20
14
MSS50,244-E35
17
Metelics East Plant
Metelics West Plant
20
1
78 | | www.aeroflex.com/Metelics
www.aeroflex.com/metelics
Index
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
MSS50,244-H30
17
MSS60,253-E35
19
MSV1204-04-001
111
MSV1400-22-001
94
50
MSS50,341-B21
16
MSS60,253-H30
19
MSV1204-05-001
111
MSW2T-1001
MSS50,341-E25
17
MSS60,444-B42
18
MSV1204-104-004
111
MSW2000-200
77
MSS50,341-H20
17
MSS60,444-E45
19
MSV1204-105-004
111
MSW2001-200
77
MSS50,448-0805-4
17
MSS60,444-H40
19
MSV1204-11-001
111
MSW2002-200
77
MSS50,448-B40
16
MSS60,448-B42
18
MSV1204-12-001
111
MSW2020-202
78
MSS50,448-E45
17
MSS60,448-E45
19
MSV1204-13-001
111
MSW2030-203
79
MSS50,448-H40
17
MSS60,448-H40
19
MSV1204-133-004
109
MSW2031-203
79
MSS50,B46-B45
16
MSS60,453-B41
18
MSV1204-134-004
109
MSW2032-203
79
MSS50,B46-E45
17
MSS60,453-E45
19
MSV1204-135-004
109
MSW2040-204
80
MSS50,B46-H40
17
MSS60,453-H40
19
MSV1204-136-004
109
MSW2041-204
80
MSS50,B53-B45
16
MSS60,841-B80
18
MSV1204-14-001
111
MSW2050-205
81
MSS50,B53-E45
17
MSS60,841-E45
19
MSV1204-15-001
111
MSW2051-205
81
MSS50,B53-H40
17
MSS60,841-H40
19
MSV1204-199-004
111
MSW2060-206
82
MSS50,CR46-B49
16
MSS60,846-B80
18
MSV1204-22-001
111
MSW2061-206
82
MSS50,CR46-E45
17
MSS60,846-E45
19
MSV1204-23-001
111
MSW2062-206
82
MSS50,CR46-H40
17
MSS60,846-H40
19
MSV1204-24-001
111
MSW3100-310
83
MSS50,CR53-B49
16
MSS60,848-B80
18
MSV1204-25-001
111
MSW3101-310
83
MSS50,CR53-E45
17
MSS60,848-E45
19
MSV1204-33-001
109
MSW3200-320
84
MSS50,CR53-H40
17
MSS60,848-H40
19
MSV1204-34-001
109
MSW3201-320
84
MSS50,PCB46-B48
16
MSS60,B46-B45
18
MSV1204-35-001
109
MSWSE-005-15
54
MSS50,PCR46-B47
16
MSS60,B46-E45
19
MSV1204-36-001
109
MSWSE-010-15
55
MSS50,PCR53-B48
16
MSS60,B46-H40
19
MSV1204-37-001
109
MSWSE-010-16S
56
MSS60,046-C26
18
MSS60,B53-B45
18
MSV1204-99-001
111
MSWSE-020-05
57
MSS60,046-P55
19
MSS60,B53-E45
19
MSV1400-08-001
94
MSWSE-040-10
58
MSS60,046-P86
19
MSS60,B53-H40
19
MSV1400-09-001
94
MSWSE-044-10
59
MSS60,048-C26
18
MSS60,CR46-B49
18
MSV1400-10-001
94
MSWSE-050-17
60
MSS60,048-P55
19
MSS60,CR46-E45
19
MSV1400-108-004
94
MSWSER-070-10
61
MSS60,048-P86
19
MSS60,CR53-B49
18
MSV1400-109-004
94
MSWSER-100-05
62
MSS60,144-B10B
18
MSS60,CR53-E45
19
MSV1400-11-001
94
MSWSH-020-30
63
MSS60,144-E25
19
MSS60,PCB46-B48
18
MSV1400-110-004
94
MSWSH-040-30
64
MSS60,144-H20
19
MSS60,PCR46-B47
18
MSV1400-111-004
94
MSWSH-050-10
65
MSS60,148-B10B
18
MSS60,PCR53-B47
18
MSV1400-113-004
94
MSWSH-100-30
68
66
MSS60,148-E25
19
MSV1104-33-323
109
MSV1400-114-004
94
MSWSHB-020-30
MSS60,148-H20
19
MSV1104-34-323
109
MSV1400-115-004
94
MSWSHC-040-40
67
MSS60,153-B10B
18
MSV1104-35-323
109
MSV1400-116-004
94
MSWSS-020-40
70
MSS60,153-E25
19
MSV1104-36-323
109
MSV1400-117-004
94
MSWSS-040-30
71
MSS60,153-H20
19
MSV1200-04-001
111
MSV1400-13-001
94
MSWSSB-020-30
69
MSS60,244-B20
18
MSV1200-07-001
111
MSV1400-14-001
94
MTD-0208N
23
MSS60,244-E35
19
MSV1200-104-004
111
MSV1400-15-001
94
MTD-0218N
23
MSS60,244-H30
19
MSV1200-107-004
111
MSV1400-16-001
94
MTD-0818N
23
MSS60,248-B20
18
MSV1201-97-001
111
MSV1400-17-001
94
MTD-1002N
23
MSS60,248-E35
19
MSV1202-03-001
111
MSV1400-19-001
94
MTDH-0611N
23
MSS60,248-H30
19
MSV1202-08-001
111
MSV1400-20-001
94
MTDH-0611P
23
MSS60,253-B20
18
MSV1202-12-001
111
MSV1400-21-001
94
MTDH-1015N
23
Metelics East Plant
Metelics West Plant
www.aeroflex.com/metelics | 179
Index
Quality and Reliability
Model Number
Page
Model Number
Page
Model Number
Page
Model Number
Page
MTDH-1015P
23
MTV4045-07
97
MTV4090-12
99
SMPN7316-SOD323
38
MTDH-8007N
23
MTV4045-08
97
MTV4090-13
99
SMPN7316-SOT23
38
MTDH-8007P
23
MTV4045-09
97
MTV4090-14
99
SMPN7320-SOD323
38
MTDH-8015N
23
MTV4045-10
97
MTV4090-15
99
SMPN7320-SOT23
38
MTDH-8015P
23
MTV4045-11
97
MTV4090-16
99
SMPN7335-SOD323
38
MTDL-0611N
23
MTV4045-12
97
MV1620
103
SMPN7335-SOT23
38
MTDL-0611P
23
MTV4045-13
97
MV1622
103
SMPN7380-SOD323
38
MTDL-1015N
23
MTV4045-14
97
MV1624
103
SMPN7380-SOT23
38
MTDL-1015P
23
MTV4045-15
97
MV1626
103
SMPN7453-SOD323
38
MTDL-8007N
23
MTV4045-16
97
MV1628
103
SMPN7453-SOT23
38
MTDL-8007P
23
MTV4045-17
97
MV1630
103
SMS201
6
MTDL-8015N
23
MTV4045-18
97
MV1632
103
SMS202
6
MTDL-8015P
23
MTV4045-19
97
MV1634
103
SMS202UP
6
MTV4030-01
96
MTV4045-20
97
MV1636
103
SMS302S
7
MTV4030-02
96
MTV4045-21
97
MV1638
103
SMSCQ1200-SOT143
21
MTV4030-03
96
MTV4045-22
97
MV1640
103
SMSCQ1500-SOT143
21
MTV4030-04
96
MTV4060-01
98
MV1642
103
SMSCQ2500-SOT143
21
MTV4030-05
96
MTV4060-02
98
MV1644
103
SMSCQ4500-SOT143
21
MTV4030-06
96
MTV4060-03
98
MV1646
103
SMSCQ5500-SOT143
21
MTV4030-07
96
MTV4060-04
98
MV1648
103
SMSD3004-SOD323
21
MTV4030-08
96
MTV4060-05
98
MV1650
103
SMSD3012-SOD323
21
MTV4030-09
96
MTV4060-06
98
MV1652
103
SMSD4004-SOD323
21
MTV4030-10
96
MTV4060-07
98
MV1654
103
SMSD4012-SOD323
21
MTV4030-11
96
MTV4060-08
98
MV1656
103
SMSD6004-SOD323
21
MTV4030-12
96
MTV4060-09
98
MV1658
103
SMSD6012-SOD323
21
MTV4030-13
96
MTV4060-10
98
MV1660
103
SMSP3004-SOT143
21
MTV4030-14
96
MTV4060-11
98
MV1662
103
SMSP3012-SOT143
21
MTV4030-15
96
MTV4060-12
98
MV1664
103
SMSRQ1200-SOT143
21
MTV4030-16
96
MTV4060-13
98
MV1666
103
SMSRQ1500-SOT143
21
MTV4030-17
96
MTV4060-14
98
MV830
102
SMSRQ2500-SOT143
21
MTV4030-18
96
MTV4060-15
98
MV831
102
SMSRQ4500-SOT143
21
MTV4030-19
96
MTV4060-16
98
MV832
102
SMSRQ5500-SOT143
21
MTV4030-20
96
MTV4060-17
98
MV833
102
SMST3004-SOT23
21
MTV4030-21
96
MTV4060-18
98
MV834
102
SMST3012-SOT23
21
MTV4030-22
96
MTV4090-01
99
MV835
102
SMST4004-SOT23
21
MTV4030-23
96
MTV4090-02
99
MV836
102
SMST4012-SOT23
21
MTV4030-24
96
MTV4090-03
99
MV837
102
SMST6004-SOT23
21
MTV4030-25
96
MTV4090-04
99
MV838
102
SMST6012-SOT23
21
MTV4030-26
96
MTV4090-05
99
MV839
102
SMV1401
112
MTV4045-01
97
MTV4090-06
99
MV840
102
SMV1402
112
MTV4045-02
97
MTV4090-07
99
MZBD-9161
31
SMV1403
112
MTV4045-03
97
MTV4090-08
99
SMGS11
32
SMV1404
112
MTV4045-04
97
MTV4090-09
99
SMGS21
32
SMV1405
112
MTV4045-05
97
MTV4090-10
99
SMPN7310-SOD323
38
SMV1406
112
MTV4045-06
97
MTV4090-11
99
SMPN7310-SOT23
38
SMV1407
112
Metelics East Plant
Metelics West Plant
20 | |www.aeroflex.com/Metelics
180
www.aeroflex.com/metelics
Index
Model Number
Page
Model Number
Page
Model Number
Page
SMV1408
112
TV1503
114
TV2801
116
SMV1409
112
TV1601
114
TV2801A
116
SMV1410
112
TV1602
114
TV2802
116
SMV1411
112
TV1603
114
TV2802A
116
SMV1412
112
TV1701
114
TV2803
116
SMV20411
113
TV1702
114
TV2803A
116
SMV20412
113
TV1703
114
TV2804
116
SMV20413
113
TV1801
114
TV3201
108
SMV20414
113
TV1802
114
TV3901
108
SMV20415
113
TV2001
115
TV3902
108
SMV20422
113
TV2001A
115
V900
100
SMV20423
113
TV2002
115
V900E
100
SMV20424
113
TV2002A
115
V907
100
SMV20425
113
TV2004
115
V907E
100
SMV2101
95
TV2101
116
V910
100
SMV2102
95
TV2101A
116
V910E
100
SMV2103
95
TV2102
116
V912
100
SMV2104
95
TV2102A
116
V912E
100
SMV2105
95
TV2103
116
V915
100
SMV2106
95
TV2103A
116
V915E
100
SMV2107
95
TV2104
116
V920
100
SMV2108
95
TV2201
115
V920E
100
SMV2109
95
TV2201A
115
V927
100
SMV2110
95
TV2202
115
V927E
100
SMV2111
95
TV2202A
115
V933
100
SMV2112
95
TV2204
115
V933E
100
SMV2113
95
TV2301
115
V939
100
SMV2114
95
TV2301A
115
V939E
100
SMV2115
95
TV2302
115
V947
100
SMV30222
110
TV2302A
115
V947E
100
SMV30223
110
TV2304
115
V956
100
SMV30224
110
TV2401
115
V956E
100
SMV30225
110
TV2401A
115
V968
100
SMV30332
110
TV2402
115
V968E
100
SMV30333
110
TV2402A
115
V982
100
Thin Film Resistor Chips
137
TV2404
115
V982E
100
TV1401
114
TV2501
115
TV1402
114
TV2501A
115
TV1403
114
TV2502
115
TV1501
114
TV2502A
115
TV1502
114
TV2504
115
Metelics East Plant
Metelics West Plant
www.aeroflex.com/metelics | 181
Package Number Cross Reference
Quality and Reliability
Metelics
Device Description
Micrometrics
Metelics
Device Description
Micrometrics
B 10B
Single Junction, Si, BL Schottky
CS12
GB3 10
GaAs, Series Tee, Beam Lead
NA
B 10Bp
“P” Type Single J, Si, BL Schottky
CS12
GC1 10
GaAs, Single Junction, Flip Chip
NA
B 10D
Zero Bias, Single J, Si, BL Schottky
CS12
GC2 10
GaAs, Anti Parallel Pair, Flip Chip
NA
B 11
Beam Lead PIN & SRD
CS12
GC2 10
GaAs, Series Tee, Flip Chip
NA
B 12
Beam Lead Capacitor
CS14-1
2012
MSWSH-020-30 Shunt Switch Element
NA
B 13
Beam Lead Capacitor
CS14-2
C11
15X15 Diode chip Anode up, .0009” Min.
Anode Size
CS11
B 14
Beam Lead Capacitor
CS14-3
C11P
15X15 Diode chip Cathode up, .0009” Min.
Anode Size
CS11
B 15
Beam Lead PIN Diode
CS12,
C12
15X15 Diode chip Anode up, .002” Min.
Anode Size
CS11
B 16
Series Tee Beam Lead PIN Diode
NA
C12P
15X15 Diode chip Cathode up, .002” Min.
Anode Size
CS11
B 20
Series Tee, Beam Lead Schottky
NA
C15
5 Anode,15X15 Schottky Chip, Anode up, .
0009” Min. Anode Size
CS10
B 21
Anti Parallel Pair, B L Schottky
NA
C15P
5 Anode,15X15 Schottky Chip,
Cathode up, .0009” Min. Size
CS10
B 40
Ring Quad, BL Schottky
CS12-4
C18
5 Anode,15X15 Tunnel Chip
NA
B 41
Small, Ring Quad, BL Schottky
NA
C20
20X20, Binary Chip Capacitor
B00
B 42
Large, Ring Quad, BL Schottky
CS12-4
C22
20X20 Diode Chip, Anode up, Min. anode
size .002”
CS11
B 45
Bridge Quad, BL Schottky
NA
C20P
20X20 Diode Chip, Cathode up, Min. anode
size .002”
CS11
B 47
Coplanar Bridge Quad, BL Schottky
NA
C26
20X20 off set bonding pad Schottky
CS11
B 48
Coplanar Ring Quad, BL Schottky
NA
C32
30X30 Diode Chip, Anode up, Min. anode
size .002”
CS11
B 49
Crossover Ring Quad, BL Schottky
NA
C32P
30X30 Diode Chip, Cathode up, Min. anode
size .002”
CS11
B 80
8 Junction Ring Quad Schottky BL
NA
C37
37X37 Diode Chip, Cathode up, Min. anode
size .020”
CS11
B 85
4 Junction Ring Quad Schottky BL
NA
C40
30X30 Diode Chip, Cathode up, Min. anode
size .010”
CS11
B 86
4 Junction Bridge Quad Schottky BL
NA
C01A
10X10 Diode Chip, Anode up, Min. anode
size .0015”
CS11
B 87
12 Junction Ring Quad Schottky
NA
NA
Chip with Lead (Series)
CS08
B 88
12 Junction Bridge Quad Schottky
NA
NA
Chip with Lead (Shunt)
CS09
B 89
4 Junction Schottky BL
NA
C50
20 X45 Micro Strip PIN Diodes
NA
B 90
6 Junction Series Tee Schottky BL
NA
C51
20 X150 Micro Strip PIN Diodes
NA
GB1 10
GaAs, Single Junction, Beam Lead
NA
NA
100 X65 Glass Axial Lead Pkg.
CS65
GB2 10
GaAs, Anti Parallel Pair, Beam Lead
NA
A15
160 X70 Glass Axial Lead Pkg.
CS75 DO-35
20 | |www.aeroflex.com/Metelics
182
www.aeroflex.com/metelics
Package Number Cross Reference
Metelics
Device Description
Micrometrics
Metelics
Device Description
Micrometrics
NA
250 X95 Glass Axial Lead Pkg.
CS85 DO-7
P55
0.050” Dia. Solder Cap, Metal Ceramic Pkg.,
Anode up
CS32
M21
400X160 Hermetic Bolt Channel Pkg.
CS111
P55p
0.050” Dia. Solder Cap, Metal Ceramic Pkg.,
Cathode up
NA
SOD323
Two Lead 90X50 Plastic, Injection
Molded Pkg.
SOD323
P81
0.120” Dia. Weld Cap, Metal Ceramic Pkg.,
Anode up
CS35
SOT23
Three Lead 110X90 Plastic, Injection
Molded Pkg.
SOT23
P81p
0.120” Dia. Weld Cap, Metal Ceramic Pkg.,
Cathode up
NA
NA
Epoxy Top, SM, 3, Lead, Alumina,
SOT23 Footprint
CS23
P86
0.080” Dia. Solder Prong Cap, Metal Ceramic
Pkg., Anode up
CS50
NA
Epoxy Top, SM, 3,Lead, Aluminum Nitride,
SOT23 Footprint
CS223
P86p
0.080” Dia. Solder Prong Cap, Metal Ceramic
Pkg., Cathode up
NA
SOT143
Four Lead 110X55 Plastic, Injected
Molded Pkg.
SOT143
T54
.080” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Anode up
CS34sp
H20
Two Lead, 100X100, Hermetic, Ceramic,
Strip line Pkg.
CS20
T54p
.080” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Cathode up
NA
H27
Two Lead, 70X70, Hermetic, Ceramic,
Strip line Pkg.
NA
T55
.050” Dia. Solder Cap, Metal Ceramic Pkg., Cu
Base, Anode up
CS32sp
H30
Three Lead, 100X100, Hermetic,
Ceramic, Strip line Pkg.
CS21
T55p
.050” Dia. Solder Cap, Metal Ceramic Pkg., Cu
Base, Cathode up
NA
H30X
Three Lead, 100X100, Hermetic, Heat Sink
Strip line Pkg.
CS21
T80
0.120” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Anode up
CS40sp
H40
Four Lead, 100X100, Hermetic, Ceramic,
Strip line Pkg.
CS22
T80p
0.120” Dia. Weld Cap, Metal Ceramic Pkg.,
Cathode up
NA
H50
Five Lead, 100X80, Hermetic, Ceramic,
Strip line Pkg.
CS99H
T81
0.120” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Anode up
CS35sp
E25
Two Lead, 50 Sq, Epoxy Top, Strip line Pkg.
CS28
T81P
0.120” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Cathode up
NA
E28
Two Lead, 45X90, Epoxy Top, Strip line Pkg.
NA
T86
0.120” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Anode up
CS37sp
E28X
Two Lead, 45X90, Epoxy Top, Gull Wing,
Strip line Pkg.
NA
T86P
0.120” Dia. Weld Cap, Metal Ceramic Pkg., Cu
Base, Cathode up
NA
E30
Three Lead, 100 Round, Epoxy Top,
Strip line Pkg.
CS30
T89
0.120” Dia. Weld Cap, Metal Ce. Pkg., Cu
Screw Base, Anode up
CS106
E35
Three Lead, 50 Sq, Epoxy Top,
Strip line Pkg.
CS29
T89p
0.120” Dia. Weld Cap, Metal Ce. Pkg., Cu
Screw Base, Cathode up
NA
E45
Four Lead, 50 Sq, Epoxy Top, Strip line Pkg.
CS26
NA
0.080” Dia. Weld Cap, Cathode up
CS31
E50
Five Lead, 100X75, Epoxy Top, Ceramic, Pkg.
CS99
NA
0.080” Dia. Weld Cap, Cathode up
CS33
E50SM
Five Lead, 100X75, Epoxy Top, Ceramic,
Gull Wing, Pkg.
NA
NA
0.080” Dia. Weld Cap, Cathode up
CS34
ET47
Five Lead, 70 Round, Epoxy Top, Ceramic,
Transistor Pkg.
NA
NA
0.120” Dia.Weld Cap, Cathode up
CS36
0402
SM, Epoxy top, .040”X.020”X.033” 2 lead
Ceramic Body
NA
NA
0.120” Dia. Weld Cap, Cathode up
CS38
0805-2
SM, Epoxy top, .080”X.050”X.050” 2 lead
Ceramic Body
NA
NA
0.120” Dia. Weld Cap, Cathode up
CS39
0805-4
SM, Epoxy top, .080”X.050”X.050” 4 lead
Ceramic Body
NA
NA
0.120” Dia. Weld Cap, Cathode up
CS41
NA
SM, Epoxy top, .7 Sizes, 2 lead Aluminum
Nitride Body
CS16 7 Sizes
NA
0.120” Dia. Weld Cap, Cathode up
CS42
NA
SM, Epoxy top,. 7 Sizes, 2 lead Alumina Body
CS19 7 Sizes
NA
0.120” Dia. Weld Cap, Cathode up
CS43
www.aeroflex.com/metelics | 183
Two Centers of Excellence. One Serious Source of Supply
www.aeroflex.com/metelics
www.aeroflex.com/Metelics | 21
Discrete Integrated Technologies (DIT)
One of the significant advantages of utilizing discrete components
in designs is the inherent superior availability and variety of semiconductor and passive device selection. The ability to select devices
that are parametrically optimized for a particular circuit allows greater
design control that is not always possible with a MMIC process.
Using individual devices to design and build a circuit initially
appears to be cumbersome compared to employing a MMIC device.
However, there are certainly cases where MMICs are not the practical solution because of the nature of the monolithic process itself.
Take the example where different types of semiconductors are
required for a circuit application. If more than one species of
semiconductor is required in circuit design, discrete semiconductors become the practical solution. This is especially true if the circuit
design integrates a number of circuit functions.
Herein lies the advantage of using discrete integrated technologies
(DIT). This simply means using a variety of discrete silicon, gallium
arsenide or gallium nitride devices in conjunction with passive R, L,
C devices and available microwave packaging to provide a more
complete and optimized solution.
Using the DIT process, Metelics is able to provide multi-function,
modular, control component design solutions that incorporate Silicon
and GaAs semiconductors with their passive R, L, C elements into
Dedicated to today’s programs
and tomorrow’s challenges
compact, surface mount ceramic microwave packages.
These DIT devices are superior to MMICs in terms of high
Aeroflex / Metelics is familiar with the rapidly changing RF/Microwave
signal power handling, high signal linearity and small signal loss and
landscape. With our Product Lifeline Assurance program as a cornerstone
VSWR performance. This DIT approach allows surface mount control
to our commitment to providing you the utmost in customer service, we’re
component designs to push the frequency and power spectrums,
also investing millions in research and development to deliver the solu-
especially for unique integrated designs spanning 10 MHz to 10 GHz.
tions to your next challenges. They’re designed and produced in one of
two Centers of Excellence located on the east and west coast of the USA.
You’ll find these products in greater detail inside, but check our web site
often for our latest releases and detailed data sheets and design tools.
The DIT design approach provides the customer with design
hardware solutions in timeframes about four times faster than
a similar MMIC approach.
Aeroflex / Metelics, Inc.
Microwave Diodes, Passive Semiconductors, & Hybrid Devices
Microwave
Diodes, Passive
Semiconductors,
& Hybrid Devices
ISO 9001: 2008
Aeroflex / Metelics, Inc.
Aeroflex / Metelics, Inc.
East Coast Operations
54 Grenier Field Road,
Londonderry, NH 03053
Tel: (603) 641-3800
Sales: (888) 641-SEMI (7364)
[email protected]
Aeroflex / Metelics, Inc.
West Coast Operations
975 Stewart Drive,
Sunnyvale, CA 94085
Tel: (408) 737-8181
www.aeroflex.com/Microwave
www.aeroflex.com/Metelics
Copyright 2011 Aeroflex / Metelics. All rights reserved.
Revision Date: 05/30/11
Our passion for performance is defined by three
attributes represented by these three icons:
solution-minded, performance-driven and customer–focused.
A17091(-)
Short Form Catalog
Aeroflex / Metelics, Inc. reserves the right to make changes to any
products and services herein at any time without notice. Consult Aeroflex
or an authorized sales representative to verify that the information in
this brochure is current before using these products. Aeroflex does not
assume any responsibility or liability arising out of the application or use of
any product or service described herein, except as expressly agreed to in
writing by Aeroflex; nor does the purchase, lease, or use of a product or
service from Aeroflex convey a license under any patent rights, copyrights,
trademark rights, or any other of the intellectual rights of Aeroflex or of
third parties.
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