TRIQUINT TGC1430F

Advance Product Information
August 29, 2000
20 - 40 GHz X2 Frequency Multiplier
TGC1430F
Key Features and Performance
•
•
•
•
•
•
0.25um pHEMT Technology
20 - 40 GHz Output Frequencies
10 - 20 GHz Fundamental Frequencies
-12 +/- 2dB Conversion Gain
18 dBm Input Drive Optimum
25dB Fundamental Isolation
Primary Applications
Chip Dimensions 1.50 mm x 1.50 mm
•
•
0.0
Conversion Gain (dB)
-10.0
-15.0
-20.0
@17.5dBm
-25.0
0
35
-5
30
-10
25
-15
20
-20
15
Input Drive of +17.5dBm
-30.0
6.0
8.0
10.0
12.0
14.0
16.0
18.0
20.0
22.0
Input Frequency (GHz)
Conversion Gain vs Input Frequency (Input @ 17.5dBm)
-25
13.5
14.0
14.5
15.0
Input Frequency (GHz)
15.5
10
16.0
Conversion Gain and Fundamental Isolation
for 27 - 32 GHz Output
Fundamental Isolation (dB)
45
40
35
30
25
20
15
10
5
0
6
8
10
12
14
16
Input Frequency (GHz)
18
20
22
@17.5dBm
Fundamental Isolation
Note: Devices designated as EPU are typically early in their characterization process prior to finalizing all electrical and process
specifications. Specifications subject to change without notice
TriQuint Semiconductor Texas : Phone (972)994-8465 Fax (972)994 8504 Web: www.triquint.com
1
Fund. Isolation (dB)
Conversion Gain (dB)
-5.0
Point-to-Point Radio
Point-to-Multipoint Communications
Advance Product Information
August 29, 2000
TGC1430F
TGC1430F - Recommended Assembly Drawing
Note: Devices designated as EPU are typically early in their characterization process prior to finalizing all electrical and process
specifications. Specifications subject to change without notice
TriQuint Semiconductor Texas : Phone (972)994-8465 Fax (972)994 8504 Web: www.triquint.com
Advance Product Information
August 29, 2000
TGC1430F
Assembly Process Notes
Reflow process assembly notes:
•=
•=
•=
•=
•=
AuSn (80/20) solder with limited exposure to temperatures at or above 300ΓC
alloy station or conveyor furnace with reducing atmosphere
no fluxes should be utilized
coefficient of thermal expansion matching is critical for long-term reliability
storage in dry nitrogen atmosphere
Component placement and adhesive attachment assembly notes:
•=
•=
•=
•=
•=
•=
•=
vacuum pencils and/or vacuum collets preferred method of pick up
avoidance of air bridges during placement
force impact critical during auto placement
organic attachment can be used in low-power applications
curing should be done in a convection oven; proper exhaust is a safety concern
microwave or radiant curing should not be used because of differential heating
coefficient of thermal expansion matching is critical
Interconnect process assembly notes:
•=
•=
•=
•=
•=
thermosonic ball bonding is the preferred interconnect technique
force, time, and ultrasonics are critical parameters
aluminum wire should not be used
discrete FET devices with small pad sizes should be bonded with 0.0007-inch wire
maximum stage temperature: 200ΓC
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
Note: Devices designated as EPU are typically early in their characterization process prior to finalizing all electrical and process
specifications. Specifications are subject to change without notice.
TriQuint Semiconductor Texas : Phone (972)994-8465 Fax (972)994 8504 Web: www.triquint.com