AMMP-5 1 to GHz GaAs MMIC Sub-Harmonic Mixer In SMT Package Data Sheet Description Avago s AMMP-5 is an easy-to-use broadband subharmonic mixer, with the injected at half of the frequency of that required by a conventional mixer. AMMP-5 is similar to AMMP-55 except that the layout is a mirror image designed to ease integration into transmitter or receiver designs. The MMIC includes an balanced diode based mixer. The MMIC is fabricated using PHEMT technology. The surface mount package allows elimination of chip & wire assembly for lower cost. This MMIC is a cost effective alternative to multi-chip solution that have higher loss and complex assembly. Applications Microwave radio systems Satellite VSAT, DBS up/down link LMDS & Pt-Pt mmw long haul Broadband wireless access (including.1 and. WiMax) WLL and MMDS loops Package Diagram 1 3 Features Frequency : 1- GHz Frequency : - GHz Frequency : DC-3.5 GHz 5x5 mm Surface Mount Package Suitable for Up and Down Conversion Diode Mixer Typical Performance at = 1GHz Conversion Loss : db : +1 dbm -R Leakage : - dbm -I Leakage : -1 dbm Typical Performance at = 3GHz Conversion Loss : db : +. dbm -R Leakage : - dbm -I Leakage : - dbm Typical Performance at = GHz Conversion Loss : db : +. dbm -R Leakage : - dbm -I Leakage : - dbm Functional Block Diagram 5 GND x 1 3 PIN 1 3 5 FUTION 5 TOP VIEW PACKAGE BASE: GND Note: MSL Rating - Level A Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model (Class A) : 3V ESD Human Body Model (Class ) :V Refer to Avago Application Note AR: Electrostatic Discharge, Damage and Control.
Electrical Specifications 1. Small/Large -signal data measured in a fully de-embedded test fixture form TA = 5 C.. Pre-assembly into package performance verified % on-wafer. 3. This final package part performance is verified by a functional test correlated to actual performance at one or more frequencies.. Specifications are derived from measurements in a 5 Ω test environment. Aspects of the amplifier performance may be improved over a more narrow bandwidth by application of additional conjugate, linearity, or low noise (Гopt) matching. 5. NF is measure on-wafer. Additional bond wires (-.nh) at Input could improve NF at some frequencies. Table 1. Electrical Characteristics [1,] TA=5 C, Zo=5 Ω, =+dbm, =GHz Parameter =1GHz, =.5GHz =3GHz, =1.5GHz =GHz, =1GHz Min Typ Max Min Typ Max Min Typ Max Conversion Loss, CL 1 1 1 db Input Third Order Intercept, 1.5..5. db -R Leakage, -R - -35 - -35 - -3 dbm -I Leakage, -I -1-5.5 - -51. - -5 dbm =1-3GHz, =-GHz =3-GHz, =-GHz L-R Leakage, L-R -3-35 db L-I Leakage, L-I -35-3 db Note: 1. Production tested at 1, 3 and GHz in up-converter configuration at Low Side.. All tested parameters are guaranteed with the following measurement accuracy: =1GHz: ±1 dbm for -leakage, ±. dbm for -leakage, ±.5dB for Conversion Loss, ±.5 dbm for =3GHz: ±1 dbm for -leakage, ±.5 dbm for -leakage, ±.5dB for Conversion Loss, ±.5 dbm for =GHz: ±1 dbm for -leakage, ±.5 dbm for -leakage, ±.5dB for Conversion Loss, ±.5 dbm for Unit Table. Recommended Operating Range 1. Ambient operational temperature TA = 5 C unless otherwise noted. Parameter Min. Typical Max. Unit Comments Frequency, freq 1 GHz Frequency, freq GHz Frequency, freq DC 3.5 GHz Power, +1 + + dbm Absolute Minimum and Maximum Ratings Table 3. Minimum and Maximum Ratings Parameter Min. Max. Unit Comments CW Input Power, Pin +5 db Storage Temperature, Tstg -5 + C Maximum Assembly Temperature, Tmax 3 C second maximum 1. Operation in excess of any one of these conditions may result in permanent damage to this device.
AMMP-5 Typical Performance Curves (T A = +5 C, Zin=Zout=5Ω, Freq = GHz, Power = +dbm unless noted) C.L. (db) 1 1 3 5 3 3 3 3 3 5 Figure 1. Up-conversion loss at = + to + dbm (high side ) (dbm) 1 1 1 1 3 3 3 3 3 5 Figure. Up-conversion at = + to + dbm (high side ) C.L. (db) 1 1 3 5 1 1 3 3 3 3 3 (Frequency) Figure 3. Up-conversion loss at = + to + dbm (low side ) (dbm) 1 1 1 1 1 1 3 3 3 3 3 (Frequency) Figure. Up-conversion at = + to + dbm (low side ) \ C.L (db) Down Convertor TYP. Performance 1 1 3 5 1 3 3 3 3 3 Figure 5. Down-conversion loss at = + to + db (low side ) (dbm) 1 1 1 1 Down Convertor TYP. Performance 1 3 3 3 3 3 Figure. Down-conversion at = + to + dbm (low side ) 1. Typical values were derived using limited samples during initial product characterization and may not be representative of the overall distribution. 3
AMMP-5 Typical Performance Curves (T A = +5 C, Zin=Zout=5Ω, Freq = GHz, Power = +dbm unless noted) *-R Leakage (dbm) -3-35 - -5-55 - -5 - AMMP-5 *-R Leakage (dbm) _1dBm _1dBm 1 3 3 3 3 3 Figure. *-R leakage at = +1 to +1 dbm _1dBm *-I Leakage (dbm) - -5-55 - -5 - -5 - -5 - AMMP-5 *-I Leakage _1dBm _1dBm 1 3 3 3 3 3 Figure. *-I leakage at = +1 to +1 dbm _1dBm L-R Isolation (db) - -5-3 -35 - AMMP-5 L-R Isolation _1dBm _1dBm _1dBm L-I Isolation (db) 5 3 35 AMMP-5 L-I Isolation _1dBm _1dBm _1dBm -5 5 1 1 1 1 1 1 3 Frequency Figure. L-R isolation at = +1 to +1dBm 5 1 1 1 1 1 1 3 Frequency (GHz) Figure. L-I isolation at = +1 to +1dBm 1. Typical values were derived using limited samples during initial product characterization and may not be representative of the overall distribution. AMMP-5 Application and Usage 1 3 HP LP 5 Figure. Simplified schematic of the mixer
Package Dimension, PCB Layout and Tape and Reel information Please refer to Avago Technologies Application Note 55, AMxP-xxxx production Assembly Process (Land Pattern A). AMMP-5 Part Number Ordering Information Part Number No. of Devices Container AMMP-5-BLKG antistatic bag AMMP-5-TR1G Reel AMMP-5-TRG 5 Reel For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright 5- Avago Technologies. All rights reserved. AV-1EN - July,