ina-12063 Avago Technologies, ina-12063 Datasheet

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ina-12063

Manufacturer Part Number
ina-12063
Description
1.5 Ghz Low Noise Self-biased Transistor Amplifier - -packard
Manufacturer
Avago Technologies
Datasheet
1.5 GHz Low Noise Self-Biased
Transistor Amplifier
Technical Data
Features
• Integrated, Active Bias
• Single Positive Supply
• Current Adjustable, 1 to
• 2 dB Noise Figure at
• 16 dB Gain at 900 MHz
Applications
• Amplifier Applications for
Equivalent Circuit
(Simplified)
5965-5365E
GND 2
INPUT
Circuit
Voltage (1.5 – 5V)
10mA
900ּ MHz
25 dB Gain at 100 MHz
Cellular, Cordless, Special
Mobile Radio, PCS, ISM,
and Wireless LAN
Applications
RF
CIRCUIT
ACTIVE
BIAS
GND 1
V
FEEDBACK
NETWORK
d
RF
RF
OUTPUT
and V
I
bias
c
Surface Mount Package
SOT-363 (SC-70)
Pin Connections and
Package Marking
RF INPUT
Note:
Package marking provides orientation
and identification.
GND 2
I
bias
1
2
3
6-116
6
5
4 V
RF OUTPUT
and V
GND 1
d
C
INA-12063
Description
Hewlett-Packard’s INA-12063 is a
Silicon monolithic self-biased
transistor amplifier that offers
excellent gain and noise figure for
applications to 1.5 GHz. Packaged
in an ultra-miniature SOT-363
package, it requires half the board
space of a SOT-143 package.
The INA-12063 is a unique RFIC
that combines the performance
flexibility of a discrete transistor
with the simplicity of using an
integrated circuit. Using a pat-
ented bias circuit, the perfor-
mance and operating current of
the INA-12063 can be adjusted
over the 1 to 10ּ mA range.
The INA-12063 is fabricated using
HP’s 30 GHz f
Silicon bipolar process which
uses nitride self-alignment
submicrometer lithography,
trench isolation, ion implantation,
gold metalization, and polyimide
intermetal dielectric and scratch
protection to achieve superior
performance, uniformity, and
reliability.
MAX
ISOSAT™

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ina-12063 Summary of contents

Page 1

... GHz. Packaged in an ultra-miniature SOT-363 package, it requires half the board space of a SOT-143 package. The INA-12063 is a unique RFIC that combines the performance flexibility of a discrete transistor with the simplicity of using an integrated circuit. Using a pat- ...

Page 2

... INA-12063 Absolute Maximum Ratings Symbol Parameter V Supply Voltage, to Ground d V Collector Voltage c I Collector Current Input Power in T Junction Temperature j T Storage Temperature STG Electrical Specifications, T Symbol Parameters and Test Conditions 2 G Power Gain (| Noise Figure P Output Power Gain Compression ...

Page 3

... INA-12063 Typical Performance, 900 MHz LNA mA, unless noted -10 0.1 0.3 0.5 0.7 0.9 1.1 1.3 1.5 1.7 1.9 FREQUENCY (GHz) Figure 1. Gain vs. Frequency – 16.4 16.0 15.6 15.2 14 (V) d Figure 4. Gain at 900 MHz vs. Voltage and Temperature +85 C ...

Page 4

... INA-12063 Typical Scattering Parameters 3 Freq GHz Mag. Ang. 0.1 0.93 -8 12.6 0.2 0.92 -16 12.5 0.3 0.90 -24 12.3 0.4 0.89 -32 12.0 0.5 0.83 -38 11.7 0.6 0.79 -45 11.3 0.7 0.75 -52 10.9 0.8 0.72 -58 10.4 0.9 0.69 -64 10.1 1.0 0.65 -69 1.1 0.61 -74 1.2 0.59 -80 1.3 0.55 -84 1.4 0.52 -89 1.5 0.49 -94 1.6 0.47 -98 1.7 0.44 -103 1.8 0.42 -107 1.9 0.40 -112 2.0 0.38 -116 2.1 0.36 -120 2.2 0.34 -124 2.3 0.31 -129 2.4 0.31 -133 2.5 0.29 -137 2.6 0.28 -144 2.7 0.27 -149 2.8 0.25 -154 2.9 0.23 -156 3.0 0.24 -162 Note: 1. Reference plane per Figure 31 in Applications Information section. ...

Page 5

... INA-12063 Typical Scattering Parameters 3 Freq GHz Mag. Ang. 0.1 0.90 -10 16.0 0.2 0.88 -18 15.8 0.3 0.85 -27 15.5 0.4 0.82 -35 15.2 0.5 0.76 -42 14.6 0.6 0.71 -49 14.1 0.7 0.67 -56 13.5 0.8 0.62 -62 12.9 0.9 0.59 -67 12.4 1.0 0.54 -72 11.9 1.1 0.51 -76 11.4 1.2 0.49 -81 10.8 1.3 0.45 -84 10.4 1.4 0.42 -89 10.0 1.5 0.39 -93 1.6 0.37 -96 1.7 0.35 -100 1.8 0.33 -104 1.9 0.31 -108 2.0 0.29 -112 2.1 0.27 -115 2.2 0.25 -119 2.3 0.24 -122 2.4 0.23 -126 2.5 0.22 -131 2.6 0.20 -136 2.7 0.19 -142 2.8 0.18 -145 2.9 0.16 -146 3.0 0.17 -153 Note: 1. Reference plane per Figure 31 in Applications Information section. ...

Page 6

... INA-12063 Typical Scattering Parameters 3 Freq GHz Mag. Ang. 0.1 0.86 -11 19.6 0.2 0.82 -22 19.3 0.3 0.78 -31 18.7 0.4 0.73 -40 18.1 0.5 0.65 -46 17.3 0.6 0.59 -53 16.6 0.7 0.55 -59 15.8 0.8 0.50 -64 15.1 0.9 0.46 -68 14.4 1.0 0.43 -72 13.8 1.1 0.40 -76 13.2 1.2 0.37 -79 12.6 1.3 0.35 -81 12.0 1.4 0.33 -85 11.5 1.5 0.30 -87 11.0 1.6 0.28 -90 10.5 1.7 0.27 -94 10.1 1.8 0.25 -95 1.9 0.23 -99 2.0 0.22 -101 2.1 0.20 -104 2.2 0.18 -104 2.3 0.17 -107 2.4 0.17 -109 2.5 0.15 -114 2.6 0.14 -118 2.7 0.13 -123 2.8 0.12 -125 2.9 0.11 -126 3.0 0.11 -133 Note: 1. Reference plane per Figure 31 in Applications Information section. ...

Page 7

... INA-12063 Typical Scattering Parameters 3 Freq GHz Mag. Ang. 0.1 0.80 -13 22.3 0.2 0.76 -24 21.7 0.3 0.69 -35 20.9 0.4 0.63 -44 20.1 0.5 0.55 -49 19.0 0.6 0.50 -55 18.1 0.7 0.45 -59 17.1 0.8 0.41 -64 16.3 0.9 0.37 -67 15.6 1.0 0.34 -69 14.9 1.1 0.32 -72 14.1 1.2 0.30 -76 13.5 1.3 0.28 -76 12.9 1.4 0.26 -79 12.4 1.5 0.24 -82 11.7 1.6 0.23 -81 11.4 1.7 0.21 -84 10.8 1.8 0.20 -85 10.5 1.9 0.19 -89 2.0 0.17 -88 2.1 0.17 -91 2.2 0.15 -91 2.3 0.14 -93 2.4 0.14 -94 2.5 0.13 -98 2.6 0.12 -102 2.7 0.11 -103 2.8 0.10 -107 2.9 0.10 -101 3.0 0.09 -110 Note: 1. Reference plane per Figure 31 in Applications Information section. Typical Noise Parameters @ 900 MHz, I Fmin (dB) Mag ...

Page 8

... The result is a versatile gain stage that can be operated from a single +1 volt power supply with the device current set by the user. The INA-12063 is designed for use in battery powered equipment demanding high performance with low supply voltages and minimal current drain. Typical ...

Page 9

... Circuit. Amplifier Application Guidelines This section describes the general approach for designing amplifiers using the INA-12063. This is a generic design approach and is applicable for most low noise amplifiers or for general purpose gain and buffer stages. The following “10-step” program ...

Page 10

... PCB pad between the INA-12063 ground pin and the ground should be modeled as a microstripline (“MLIN” in Touch- stone), and the plated through ground holes as “VIA” elements.) ...

Page 11

... A simple manual optimization may be used to determine a starting value for the stabilizing resistor. By adding a shunt resistor to the output of the INA-12063 in the circuit file used in the previous stability analysis, K may be observed while adjust- ing the value of the resistor. The shunt resistor should be the highest value that will adequately stabilize the circuit ...

Page 12

... If the design goal is to obtain maximum power transfer (maxi- mum gain/minimum input VSWR), then the input of the INA-12063 is matched the source ms ms impedance resulting from the simultaneous conjugate match of the input and output of the device ...

Page 13

... Before proceeding to the next step, circuit stability and out-of- band gain should be re-checked. Step 7. Designing the Output Match The output of the INA-12063 is normally matched for maximum power transfer (maximum gain and lowest output VSWR.) Maximum power transfer occurs when the output is matched to the conjugate of ...

Page 14

... Step 4 above. To preserve NF, the stabilizing resistor, R1, shown in Figure 14, was added from the output of the INA-12063 to ground. Since the real part of the output impedance of the INA-12 is >50ּ resistor in the shunt configuration is used to move the overall impedance closer to 50ּ ...

Page 15

... B1 > 0, was also verified.) Results of this step: A 290 shunt resistor was added to the output of the INA-12063 for stability. 5. Allow for DC connections. The required DC connections to be made to this example amplifier are: +3 volts to the RF Output and V terminals (Pins 4 & ...

Page 16

... INPUT 0.59 pF Figure 18. Input Circuit. 7. Design of the output impedance matching network. Using the circuit file from step 4 (Figure 15), Touchstone was used to calculate the load impedance (0.62 + the INA-12063 ml to achieve maximum power transfer. The conjugate (0.62 - plotted as ml Point A on the Smith chart in Figure 19 ...

Page 17

... S-parameters. The Touchstone circuit file for the complete amplifier is shown in Appendix A and the simulation results in Appendix B. The schematic for the complete INA-12063 amplifier circuit is shown in Figure 22. A final simulation using optimized component values predicted performance of the amplifier at 900 MHz to be ...

Page 18

Actual, measured test results are shown in Figures 24 through 28. Output power for gain compression ( 900 MHz 1dB was measured as -4.6 dBm 800 850 900 950 1000 ...

Page 19

... The maximum temperature in the reflow zone (T ) should not MAX exceed 235 C. These parameters are typical for a surface mount assembly process for the INA-12063 general guideline, the circuit T MAX Reflow Zone Cool Down Zone 180 ...

Page 20

... ESD damage in any of the following areas: • Storage and handling • Inspection and testing • Assembly • In-circuit use The INA-12063 is a ESD Class 1 device. Therefore, proper ESD precautions are recommended when handling, inspecting, testing, assembling, and using these devices to avoid damage. ...

Page 21

... Appendix A - Touchstone Circuit File. ! Hewlett-Packard CMCD ! Bob Myers 20 Sept 1996 ! ! HP Touchstone circuit file ! INA-12063 Single Stage LNA ! fc = 900 MHz 3 2 Input Matched for NF DIM FREQ GHZ RES OH CAP PF IND NH LNG IN ANG DEG VAR ! Input match L1# 0 12.6477 20 A1# 0 0.201808 0.4 ! C1# 0 0.636904 ...

Page 22

... Stability Measure (B1 > 0) FREQ SWEEP 0.1 3.1 0.02 GRID FREQ 0.8 1.0 0.05 ! FREQ 0.1 3.1 0.1 GR1 GR2 0 -40 10 GR3 OPT FREQ 0.85 0.95 INA12 NF<1.6 5 INA12 DB[S22]<-20 1 Appendix B – Touchstone Output File. FREQ NF DB[S21] GHZ INA12 INA12 0.1 11.178 -43.253 0.2 9.706 -13.998 0.3 8.725 -4.922 0.4 7.627 1.602 0.5 6.366 6.760 0.6 4.929 11.048 0.7 3.388 13.713 ...

Page 23

... INA-12063 Part Number Ordering Information Part Number Devices per Container INA-12063-TR1 3000 INA-12063-BLK Package Dimensions Outline 63 (SOT-363/SC-70) 1.30 (0.051) REF. 2.20 (0.087) 1.35 (0.053) 2.00 (0.079) 1.15 (0.045) 0.650 BSC (0.025) 2.20 (0.087) 1.80 (0.071) 0.10 (0.004) 0.00 (0.00) 1.00 (0.039) 0.80 (0.031) 0.25 (0.010) 0.15 (0.006) DIMENSIONS ARE IN MILLIMETERS (INCHES) Container 7" reel tape strip in ...

Page 24

Device Orientation REEL CARRIER TAPE USER FEED DIRECTION COVER TAPE Tape Dimensions and Product Orientation For Outline MAX DESCRIPTION CAVITY LENGTH WIDTH DEPTH PITCH BOTTOM HOLE DIAMETER PERFORATION DIAMETER PITCH POSITION CARRIER TAPE WIDTH ...

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