MA-COM MADS-001317

MADS-001317-1320AG
GaAs Solder Bump Flip Chip Schottky Diode
M/A-COM Products
Rev. V2
Features
•
•
•
•
•
•
Low Series Resistance, 4 Ω
Low Capacitance, 45 fF
High Cutoff Frequency
Silicon Nitride Passivation
Polyimide Scratch Protection
Solderable Bump Die Attach
Mounting Side with Solder Bumps
Description
M/A-COM’s MADS-001317-1320AG is a Gallium
Arsenide Flip-Chip Schottky diode with solder
bumps. These devices are fabricated on OMCVD
epitaxial wafers using a process designed for high
device uniformity and extremely low parasitics.
This device can be used up to 80 GHz. This diode
is fully passivated with silicon nitride and has an
additional layer of a polymer for scratch protection.
The protective coatings prevent damage to the
junction during handling and circuit attachment.
Applications
The high cutoff frequency of this device allows use
through millimeter wave frequencies. Typical Applications include single and double balanced mixers in PCN transceivers, radios, police radar detectors and automotive radar detectors.
Electrical Specifications TA = 25°C
Parameters and Test Conditions
Symbol
Units
Min.
Typ.
Max.
Junction Capacitance at 0V at 1 MHz
Cj
pF
—
0.020
—
Total Capacitance at 0V at 1 MHz1
Ct
pF
.030
0.045
0.060
Vf
Volts
.60
.70
.80
Dynamic Resistance at 9.5 - 10.5 mA
Rd
Ohms
—
4
7
Reverse Breakdown Voltage at 10 µA
Vb
Volts
4.5
7
—
Forward Voltage at 1mA
1. Total Capacitance is equivalent to the sum of junction capacitance (Cj) and parasitic capacitance (Cp).
1
ADVANCED: Data Sheets contain information regarding a product M/A-COM is considering for
• North America Tel: 800.366.2266 / Fax: 978.366.2266
development. Performance is based on target specifications, simulated results, and/or prototype
• Europe Tel: 44.1908.574.200 / Fax: 44.1908.574.300
measurements. Commitment to develop is not guaranteed.
• Asia/Pacific Tel: 81.44.844.8296 / Fax: 81.44.844.8298
PRELIMINARY: Data Sheets contain information regarding a product M/A-COM has under developVisit www.macom.com for additional data sheets and product information.
ment. Performance is based on engineering tests. Specifications are typical. Mechanical outline has
been fixed. Engineering samples and/or test data may be available. Commitment to produce in
M/A-COM Inc. and its affiliates reserve the right to make changes to the product(s) or
volume is not guaranteed.
information contained herein without notice.
MADS-001317-1320AG
GaAs Solder Bump Flip Chip Schottky Diode
M/A-COM Products
Rev. V2
Circuit Mounting Dimensions (Inches)
0.008”
0.013”
(2) PL
0.011”
(2) PL
2
ADVANCED: Data Sheets contain information regarding a product M/A-COM is considering for
• North America Tel: 800.366.2266 / Fax: 978.366.2266
development. Performance is based on target specifications, simulated results, and/or prototype
• Europe Tel: 44.1908.574.200 / Fax: 44.1908.574.300
measurements. Commitment to develop is not guaranteed.
• Asia/Pacific Tel: 81.44.844.8296 / Fax: 81.44.844.8298
PRELIMINARY: Data Sheets contain information regarding a product M/A-COM has under developVisit www.macom.com for additional data sheets and product information.
ment. Performance is based on engineering tests. Specifications are typical. Mechanical outline has
been fixed. Engineering samples and/or test data may be available. Commitment to produce in
M/A-COM Inc. and its affiliates reserve the right to make changes to the product(s) or
volume is not guaranteed.
information contained herein without notice.
MADS-001317-1320AG
GaAs Solder Bump Flip Chip Schottky Diode
M/A-COM Products
Rev. V2
Device Installation Procedures
The following guidelines should be observed to avoid damaging GaAs Flip-Chips.
Cleanliness
These devices should be handled in a clean environment. Do not attempt to clean die after installation.
Static Sensitivity
Gallium Arsenide Schottky diodes are ESD sensitive and can be damaged by static electricity. Since Schottky
diodes are rated as Class 0, proper ESD techniques should be used when handling these devices.
General Handling
These devices have a polymer layer which provides scratch protection for the junction area and the anode air
bridge. Die can be handled with plastic tweezers or picked and placed automatically with a #27 tip vacuum pencil.
Assembly Requirements using Tin Lead Solder
This Flip Chip Diode employs a 6 µm thick, Sn 63/Pb 37 Solderable interface as part of the 50 µm high solder
bump. These chips are designed to be soldered onto hard or soft substrates with the junction side down. They
should be mounted onto silkscreened circuits using 60/40 Sn/Pb solder paste. A typical profile for a Sn 63/Pb
37soldering process is provided in Application Note, M538 Surface Mounting Instructions on the M/A-COM website www.macom.com
Typical Spice Parameters
Is
(A)
Rs
(Ω)
N
Ct0
(pF)
M
Ik
(A)
Vj
(V)
FC
BV
(V)
IBV
(A)
1.7 E-14
4.6
1.08
.047
.38
.016
.86
.99
7
1.0 E-5
Absolute Maximum Ratings @ 25°C 2
Parameter
Maximum Ratings
Operating Temperature
-65°C to +125°C
Storage Temperature
-65°C to +150°C
Incident LO Power
+20 dBm
Incident RF Power
+20 dBm
Mounting Temperature
+300°C for 10 seconds.
Ordering Information
Part Number
Packaging
MADS-001317-1320AG
Gel Pack
2. Exceeding these limits may cause permanent damage.
3
ADVANCED: Data Sheets contain information regarding a product M/A-COM is considering for
• North America Tel: 800.366.2266 / Fax: 978.366.2266
development. Performance is based on target specifications, simulated results, and/or prototype
• Europe Tel: 44.1908.574.200 / Fax: 44.1908.574.300
measurements. Commitment to develop is not guaranteed.
• Asia/Pacific Tel: 81.44.844.8296 / Fax: 81.44.844.8298
PRELIMINARY: Data Sheets contain information regarding a product M/A-COM has under developVisit www.macom.com for additional data sheets and product information.
ment. Performance is based on engineering tests. Specifications are typical. Mechanical outline has
been fixed. Engineering samples and/or test data may be available. Commitment to produce in
M/A-COM Inc. and its affiliates reserve the right to make changes to the product(s) or
volume is not guaranteed.
information contained herein without notice.