hpmx-7102 ETC-unknow, hpmx-7102 Datasheet

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hpmx-7102

Manufacturer Part Number
hpmx-7102
Description
Dual-band, Tri-mode Downconverter
Manufacturer
ETC-unknow
Datasheet
1.HPMX-7102.pdf (16 pages)
General Description
The HPMX-7102 downconverter
offers a highly integrated solution
for the CDMA Dual-Band, Tri-
Mode (DBTM) handsets. This
integrated solution leads to
improvement in cost and
reliability. The HPMX-7102 is part
of the Agilent Technologies
complete CDMAdvantage RF
chipset.
The downconverter has a high
input IP3 which is highly desirable
for CDMA receiver dynamic range,
noise, and spurious suppression.
The chip is comprised of three
amplifier and mixer combinations.
Individual mixers can be selected
through band and mode control
input.
The mixer outputs are differential
providing common mode rejection.
The outputs are high impedance
open collectors. The HPMX-7102
features a current control of all
three mixers through a DC voltage
input Vcs. By setting the current
varying linearity requirements can
be accommodated. If used,
dynamic current control reduces
overall current consumption
maximizing battery life.
Agilent HPMX-7102
Dual-Band, Tri-Mode
Downconverter
Data Sheet
The IC is housed in miniature
BCC-24 package and manufac-
tured on a high frequency, low
noise Si-Bipolar process (25 GHz
F
standby mode reducing current
consumption to under 150 A.
Plastic BCC-24
Functional Block Diagram
RFin CDMA
RFin AMPS
RFin PCS
t
). The entire IC can be put into a
LO PCS
LO PCS
LO cel
LO cel
Vcs
Current & Bias
Control
Select
Mode
Select
Band
IFout AMPS
IFout AMPS
IFout CDMA
IFout CDMA
IFout PCS
IFout PCS
Features
• Wide band operation
• 2.7 - 3.6 V operation
• Differential IF outputs
• High input IP3 and conversion gain
• Adjustable current
• JEDEC standard BCC-24 surface
Applications
• Cellular handsets
• Wireless data terminals
RF inputs:
Cellular AMPS/CDMA:
PCS CDMA: 1930 - 1990 MHz
IF outputs:
mount package
869 - 894 MHz
Cellular AMPS: 85.38 MHz
Cellular CDMA: 85.38 MHz
PCS CDMA: 210.38 MHz
Cellular AMPS: 4 - 11 mA
Cellular CDMA: 7 - 18 mA
PCS CDMA: 6 - 17 mA

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hpmx-7102 Summary of contents

Page 1

... The HPMX-7102 downconverter offers a highly integrated solution for the CDMA Dual-Band, Tri- Mode (DBTM) handsets. This integrated solution leads to improvement in cost and reliability. The HPMX-7102 is part of the Agilent Technologies complete CDMAdvantage RF chipset. The downconverter has a high input IP3 which is highly desirable for CDMA receiver dynamic range, noise, and spurious suppression ...

Page 2

... Case Temperature Storage Temperature Recommended operating range of Vcc = 2.7 to 3.6V, T HPMX-7102 Standard Test Conditions Unless otherwise stated, all test data was taken on packaged parts under the following conditions: Vcc = +3.0VDC Icc at Vcs = 3V for CDMA 1900 and AMPS and Vcs = 2.5V for CDMA 800 ...

Page 3

... HPMX-7102 Summary Characterization Information Standard test conditions apply unless otherwise noted. Symbol Parameters and Test Conditions PCS CDMA Gc Conversion Gain NF Noise Figure IIP3 Input Third Order Intercept OIP3 Output Third Order Intercept RL RF port Return Loss port Return Loss port Return Loss* ...

Page 4

... HPMX-7102 Pin Description Table No. Mnemonic Description 1 PCSIFoutP PCS differential IF output 2 PCSIFoutM PCS differential IF output 3 CellIFoutP CDMA differential IF output 4 CellIFoutM CDMA differential IF output 5 FMIFoutP AMPS differential IF output 6 FMIFoutM AMPS differential IF output 7 Gnd Ground 8 Band Band selection signal (PCS or cellular band) 9 Mode Mode selection signal (CDMA or AMPS mode) ...

Page 5

... HPMX-7102 Characterization Graphs for PCS CDMA - POWER (dBm) Figure 1. Gain vs. LO Power - + 1720 1750 1780 LO FREQUENCY (MHz) Figure 4. Gain vs. LO Frequency. Table 1. PCS CDMA, Gain vs. LO Power and Vcs. ...

Page 6

... HPMX-7102 Characterization Graphs for PCS CDMA, continued Table 3. PCS CDMA, NF vs. LO Power and Vcs. Vcs (V) LO Power (dBm) 1.4 1.8 -9 8.8 9.4 -6 8.4 8.9 -3 8.1 8.5 0 7.9 8.3 3 7.9 8.3 6 7.9 8 Vcc = 3.6V Vcc = 3.3V 8 Vcc = 3V Vcc = 2. Vcs (V) Figure 7A. Icc vs. Vcs - + 2.7 3 3.3 3.6 Vcc (V) Figure 9. Gain vs. Vcc. ...

Page 7

... HPMX-7102 Characterization Graphs for PCS CDMA, continued Input Impedance (Real) RF Input Impedance (Imaginary) 40 1980 1920 1940 1960 2000 FREQUENCY (MHz) Figure 12. RF Input Impedance vs. [1] Frequency. 50 Vcs=1.5V Vcs=2.0V Vcs=2.5V Vcs=3. 1930 1940 1950 1960 1970 1980 ...

Page 8

... HPMX-7102 Characterization Graphs for 800 MHz CDMA - + POWER (dBm) Figure 16. Gain vs. LO Power - + 954 966 978 LO FREQUENCY (MHz) Figure 19. Gain vs. LO Frequency. Table 4. Cell CDMA, Gain vs. LO Power and Vcs. ...

Page 9

... HPMX-7102 Characterization Graphs for 800 MHz CDMA, continued Table 6. Cell CDMA, NF vs. LO Power and Vcs. LO Power (dBm) 1.4 1.8 -12 9.2 10.4 -9 7.9 8.9 -6 7.1 7.8 -3 6.6 7.2 0 6.2 6.8 3 6.2 6 Vcc = 3.6V Vcc = 3.3V 10 Vcc = 3V Vcc = 2. Vcs (V) Figure 22A. Icc vs. Vcs - + 2.7 3 3.3 3.6 Vcc (V) Figure 24. Gain vs. Vcc. ...

Page 10

... HPMX-7102 Characterization Graphs for 800 MHz CDMA, continued 145 0 143 -2 141 -4 139 -6 137 -8 RF Input Impedance (Real) RF Input Impedance (Imaginary) 135 -10 860 865 870 875 880 885 890 895 900 FREQUENCY (MHz) Figure 27. RF Input Impedance vs. [1] Frequency. 150 140 130 120 Vcs=1 ...

Page 11

... HPMX-7102 Characterization Graphs for AMPS - + POWER (dBm) Figure 31. Gain vs. LO Power - + 954 966 978 LO FREQUENCY (MHz) Figure 34. Gain vs. LO Frequency. Table 7. Cell AMPS, Gain vs. LO Power and Vcs. ...

Page 12

... HPMX-7102 Characterization Graphs for AMPS, continued Table 9. Cell AMPS, NF vs. LO Power vs. Vcs. LO Power (dBm) 1.4 1.8 -12 7.1 7.7 -9 6.4 6.9 -6 6.0 6.3 -3 5.8 6.1 0 5.6 5.9 3 5.5 5 Vcc = 3.6V 4 Vcc = 3.3V Vcc = 3V Vcc = 2. Vcs (V) Figure 37A. Icc vs. Vcs - + 2.7 3 3.3 3.6 Vcc (V) Figure 39. Gain vs. Vcc. Note: 1 ...

Page 13

... HPMX-7102 Characterization Graphs for AMPS, continued 200 20 18 195 16 190 14 185 12 RF Input Impedance (Real) RF Input Impedance (Imaginary) 180 10 865 875 885 895 FREQUENCY (MHz) Figure 42. RF Input Impedance vs. Frequency. 220 Vcs=1.5V Vcs=2.0V Vcs=2.5V Vcs=3.0V 200 180 160 140 866 881 ...

Page 14

... RF (PCS) Vcc 2.7 2.7 1000 180 PCS Figure 46. HPMX-7102 Test Diagram. Note: This test diagram represents the testing configuration used to measure the data in the datasheet, and is not the demoboard diagram Mode 1000 Control Circuit 19 ...

Page 15

... Part Number Ordering Information Part Number No. of Devices HPMX-7102-BLK 10 HPMX-7102-TR1 1000 Package Dimensions JEDEC Standard BCC-24 Package 3.6 TYP 0.45 0.10 0.50 0.10 13 0.40 0.10 1PIN00.2 0.30 0.10 7 0.8 MAX 0.075 0.04 15 Container Bulk 7” Tape and Reel 19 3.6 TYP 1 4.00 0.10 4.00 0.10 PIN 1 ...

Page 16

Data subject to change. Copyright © 2000 Agilent Technologies, Inc. 5980-2432E (11/00) ...

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