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AN26031A Datasheet

Download or read online Panasonic Corporation AN26031A SPECIALTY TELECOM CIRCUIT pdf datasheet.



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Ultra small, Single Band LNA-IC for 2.5 GHz Band Applications
FEATURES
• Low voltage operation
+3.0 V typ.
• Low current consumption
7.5 mA typ.
7.5 µA typ.
• High gain
18.5 dB typ.
• Low noise figure
0.8 dB typ.
• Low distortion
+2.5 dBm typ. (High-Gain mode)
• 5 pin Wafer level chip size package (WLCSP)
APPLICATIONS
WLAN
WiMAX
SIMPLIFIED APPLICATION
[ SIMPLIFIED APPLICATION for 2.5GHz Band ]
RF output
50 Ω
A3
B3
TOP VIEW
A2
A1
B1
C1
L1
RF input
50 Ω
Publication date: February 2013
DESCRIPTION
AN26031A is a single band LNA (Low Noise Amplifier)-
IC for 2.5 GHz Band applications.
Realizing high performance by using 0.18 µm SiGeC
(High-Gain mode)
Bi-CMOS process (f
(Low-Gain mode)
High/Low Gain-mode is changeable, controlled by
(High-Gain mode)
integrated CMOS logic circuit.
(High-Gain mode)
Achieving miniaturization by using small size Wafer
Level Chip Size Package (WLCSP).
Components
Size
V
CC
L1
0603
C1
0603
C2
C2
0603
Notes)
This application circuit is an example. The operation of mass
production set is not guaranteed. You should perform enough
evaluation and verification on the design of mass production
set. You are fully responsible for the incorporation of the
above application circuit and information in the design of your
CNT
equipment.
(Gain cnt)
1
AN26031A
= 90 GHz, f
= 140 GHz).
T
max
Value
Part Number
Vendor
3.9 nH
LQP03TN3N9H04
Murata
1 000 pF
GRM033B11C102KD01
Murata
100 000 pF
GRM33B30J104KE18
Murata
Ver. AEB
Specifications of Panasonic Corporation AN26031A
Telecom IC Type:
TELECOM CIRCUIT

Summary of Contents

Page 1

... input 50 Ω Publication date: February 2013 DESCRIPTION AN26031A is a single band LNA (Low Noise Amplifier)- IC for 2.5 GHz Band applications. Realizing high performance by using 0.18 µm SiGeC (High-Gain mode) Bi-CMOS process (f (Low-Gain mode) High/Low Gain-mode is changeable, controlled by (High-Gain mode) integrated CMOS logic circuit. ...

Page 2

... opr stg IN (Pin No.A1) CNT (Pin No.B1) OUT (Pin No.A3) HBM (Human Body Model) θ JA 1391/W Symbol Min AN26031A Rating Unit 3 °C 40 to 85 °C -40 to 125 °C 55 to 125 — (Ta25 °C) PD (Ta85 ° ...

Page 3

... Current at CNT pin IIH VIH Vcc Symbol Condition GHS High-Gain mode Low-Gain mode GLS PRX 20 dBm High-Gain mode f1 fRX 10 MHz IIP3H1S f2 fRX 20 MHz Input 2 signals (f1, f2) 3 AN26031A Limits Unit Note Min Typ Max 7 μA 7.5 15 — ...

Page 4

... Input 2 signals (f1, f2) IP1dBLa Low-Gain mode ISOHa High-Gain mode ISOLa Low-Gain mode S11Ha High-Gain mode S11La Low-Gain mode S22Ha High-Gain mode S22La Low-Gain mode 4 AN26031A Reference values Note Unit Min Typ Max 16.1 18.5 20 9 7 – ...

Page 5

... SW current (High) Note Checked by design, not production tested. Symbol Condition Vcc current at High-Gain mode IccHT No input signal Vcc current at Low-Gain mode IccLT No input signal Current at CNT pin IIHT VIH Vcc 5 AN26031A Reference values Note Unit Min Typ Max 7.5 11 μA ...

Page 6

... High-Gain mode NFLTa Low-Gain mode High-Gain mode f1 fRXa 10 MHz IIP3H1Ta f2 fRXa 20 MHz Input 2 signals (f1, f2) High-Gain mode f1 fRXa 10 MHz IIP3H2Ta f2 fRXa 20 MHz Input 2 signals (f1, f2) P1dBHTa High-Gain mode 6 AN26031A Reference values Note Unit Min Typ Max 14.6 18 10 7 – — ...

Page 7

... Input 2 signals (f1, f2) IP1dBLb Low-Gain mode ISOHb High-Gain mode ISOLb Low-Gain mode S11Hb High-Gain mode S11Lb Low-Gain mode S22Hb High-Gain mode S22Lb Low-Gain mode 7 AN26031A Reference values Note Unit Min Typ Max 13 15 9.2 7.2 5 ...

Page 8

... High-Gain mode NFLTb Low-Gain mode High-Gain mode f1 fRXb 10 MHz IIP3H1Tb f2 fRXb 20 MHz Input 2 signals (f1, f2) High-Gain mode f1 fRXb 10 MHz IIP3H2Tb f2 fRXb 20 MHz Input 2 signals (f1, f2) P1dBHTb High-Gain mode 8 AN26031A Reference values Note Unit Min Typ Max 11.5 15.5 19 10.2 7.2 4 — ...

Page 9

... You should perform enough CNT evaluation and verification on the design of mass production set. You are fully responsible for the incorporation of the (Gain cnt) above application circuit and information in the design of your equipment. 9 AN26031A Value Part Number Vendor 3.9 nH LQP03TN3N9H04 Murata 1 000 pF ...

Page 10

... This block diagram is for explaining functions. The part of the block diagram may be omitted may be simplified. Top View OUT GND Description RF Input GND RF Output High-Gain / Low-Gain switch L: Low-Gain Mode H: High-Gain Mode V CC Top View AN26031A VCC CNT Ver. AEB ...

Page 11

... PACKAGE INFORMATION ( Reference Data ) Package Code:ALGA005-W-0609ANA Body Material : Br/Sb Free Epoxy Resin Reroute Material : Cu Bump : SnAgCu 11 AN26031A Unit:mm Ver. AEB ...

Page 12

... Please use this product in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. Our company shall not be held responsible for any damage incurred as a result of your using the LSI not complying with the applicable laws and regulations. 12 AN26031A Ver. AEB ...

Page 13

... Due to unshielded structure of this LSI, under exposure of light, function and characteristic of the product cannot be guaranteed. During normal operation or even under testing condition, please ensure that LSI is not exposed to light. 8. Basically, chip surface is ground potential. Please design to ensure no contact between chip surface and metal shielding. AN26031A 13 Ver. AEB ...

Page 14

... The technical information described in this book is intended only to show the main characteristics and application circuit examples of the products. No license is granted in and to any intellectual property right or other right owned by Panasonic Corporation or any other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any other company which may arise as a result of the use of technical information described in this book ...

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