MGA-53543-TR2G Avago Technologies US Inc., MGA-53543-TR2G Datasheet

MGA-53543-TR2G

Manufacturer Part Number

MGA-53543-TR2G

Description

IC AMP RFIC GAAS 1.9GHZ SOT-343

Manufacturer

Avago Technologies US Inc.

Type

General Purpose Amplifierr

Datasheet

1.MGA-53543-TR1G.pdf (14 pages)

Specifications of MGA-53543-TR2G

P1db

18.6dBm

Noise Figure

1.5dB ~ 1.9dB

Package / Case

SC-70-4, SC-82-4, SOT-323-4, SOT-343

Current - Supply

40mA ~ 70mA

Frequency

50MHz ~ 6GHz

Gain

14dB ~ 17dB

Rf Type

Cellular, PCS, WLL, WLAN

Test Frequency

1.9GHz

Voltage - Supply

Operating Frequency

50 MHz to 6 GHz

Operating Supply Voltage

5.5 V

Supply Current

70 mA

Maximum Power Dissipation

400 mW

Maximum Operating Temperature

+ 150 C

Mounting Style

SMD/SMT

Number Of Channels

1 Channel

Manufacturer's Type

Linear Amplifier

Frequency (max)

6GHz

Operating Supply Voltage (max)

5.5V

Package Type

SOT-343

Mounting

Surface Mount

Pin Count

3 +Tab

Noise Figure (typ)

1.9@2400MHzdB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MGA-53543-TR2G

Manufacturer:

AVAGO/安华高

Quantity:

20 000

Current page: 1 of 14
Download datasheet (274Kb)

MGA-53543

50 MHz to 6 GHz High Linear Amplifier

Data Sheet

Description

Avago Technologies’s MGA-53543 is a high dynamic range

low noise amplifier MMIC housed in a 4-lead SC-70 (SOT-

343) surface mount plastic package.

The combination of high linearity, low noise figure and high

gain makes the MGA-53543 ideal for cellular/PCS/ W-CDMA

base stations, Wireless LAN, WLL and other systems in the

50 MHz to 6 GHz frequency range.

MGA-53543 is especially ideal for Cellular/PCS/ W-CDMA

basestation applications. With high IP3 and low noise

figure, the MGA-53543 may be utilized as a driver ampli-

fier in the transmit chain and as a second stage LNA in

the receive chain.

Surface Mount Package

SOT-343/4-lead SC70

Pin Connections and Package Marking

Note:

Top View. Package marking provides orientation and identification.

“53” = Device Code

“x” = Date code character identifies month of manufacture.

INPUT

GND

Attention: Observe precautions for

handling electrostatic sensitive devices.

ESD Machine Model (Class A)

ESD Human Body Model (Class 1A)

Refer to Avago Application Note A004R:

lectrostatic Discharge Damage and Control.

GND

OUTPUT

& V

Features

• Lead-free Option Available

• Very high linearity at low DC bias power

• Low noise figure

• Advanced enhancement mode PHEMT technology

• Excellent uniformity in product specifications

• Low cost surface mount small plastic package SOT-

• Tape-and-Reel packaging option available

Specifications

1.9 GHz, 5V, 54 mA (typ)

• OIP3: 39 dBm

• Noise figure: 1.5 dB

• Gain: 15.4 dB

• P-1dB: 18.6 dBm

Applications

• Base station radio card

• High linearity LNA for base stations, WLL, WLAN, and

Note:

1. The MGA-53543 has a superior LFOM of 15 dB. Linearity Figure of

Simplified Schematic

INPUT

343 (4-lead SC-70)

other applications in the 50 MHz to 6 GHz range

Merit (LFOM) is essentially OIP3 divided by DC bias power. There

are few devices in the market that can match its combination of

high linearity and low noise figure at the low DC bias power of

5V/54 mA.

bias

GND

OUTPUT, Vd

[1]

Related parts for MGA-53543-TR2G

MGA-53543-TR2G Summary of contents

Page 1

... High linearity LNA for base stations, WLL, WLAN, and other applications in the 50 MHz to 6 GHz range Note: 1. The MGA-53543 has a superior LFOM of 15 dB. Linearity Figure of Merit (LFOM) is essentially OIP3 divided by DC bias power. There are few devices in the market that can match its combination of high linearity and low noise figure at the low DC bias power of 5V/54 mA ...

Page 2

... MGA-53543 Absolute Maximum Ratings Symbol Parameter V Maximum Input Voltage in V Supply Voltage d P Power Dissipation [] Input Power in T Junction Temperature j T Storage Temperature STG Electrical Specifications T = +5° Ω 5V, unless noted Symbol Parameter and Test Condition I Current Drawn d NF Noise Figure ...

Page 3

... MGA-53543 Typical Performance All data measured 5° with input and output tuners tuned for maximum OIP3 while keeping c d VSWR better than :1 unless stated otherwise. 45 -40°C +25°C 40 +85° FREQUENCY (GHz) Figure 2. Output Third Order Intercept Point vs. Frequency and Temperature. ...

Page 4

... MGA-53543 Typical Scattering Parameters T = 5° 5.0V mA Freq (GHz) Mag. Ang. dB 0.05 0.83 -38.8 6.6 0.1 0.641 -66.7 4.39 0. 0.439 -98.7 1.55 0.3 0.349 -116.8 0.14 0.4 0.305 -18.9 19.39 0.5 0.51 -135.6 18.9 0.6 0.33 -14.5 18.6 0.7 0. -147.5 18.34 ...

Page 5

... MGA-53543 Typical Linearity Parameters T = 25° 5V Ω Γ Γ Freq [1] [1] Source Source Mag (°) 500 MHz 0.31 -10 900 MHz ...

Page 6

... This package also offers good thermal dissipation and RF characteristics. Application Guidelines For most applications, all that is required to operate the MGA is to apply a DC bias of +5 volts and match the RF input and output. RF Input The first step to achieve maximum linearity is to match the input of MGA-53543 to one of the linearity values listed on the data sheet ...

Page 7

... NF none opt RL S11* none in RL none S* out Gain S11* S* PCB Layout A recommended PCB pad layout for the miniature SOT- 343 (SC-70) package used by the MGA-53543 is shown in Figure 14. 1.30 0.051 1.00 0.039 2.00 0.60 0.079 0.024 0.9 0.035 1.15 0.045 mm Dimensions in inches Figure 14. Recommended PCB Pad Layout for Avago’ ...

Page 8

... Figure 16. MGA-53453 PCB Layout. 8 1900 MHz HLA Design The following describes a typical application for the MGA- 53543 as used in a PCS 1900 MHz band radio receiver optimized for maximum linearity. Steps include matching the input and output as well as providing a DC bias while maintaining acceptable stability, gain and noise figure ...

Page 9

... Included with the schematic is a complete RF layout (Fig- ure 4) which includes placement of all components and SMA connectors. A list of part numbers and manufacturer used is given below in Table 3. Table 3. Component parts list for the MGA-53543 HLA at 1900 MHz. 3.3 nH TOKO LL1608-FS3N3S 47 nH TOKO LL1005-FH47N .Ω ...

Page 10

... RF 5 2.2Ω +5V 2.2Ω Figure 23. Schematic diagram for 900 MHz HLA. Table 4. Component parts list for the MGA-53543 HLA at 900 MHz TOKO LL1608-FS TOKO LL1005-FS15N .Ω RHOM MCR01JR 4.7 pF Phycomp 040CG479C9B00 5.6 pF Phycomp 040CG569D9B00 1000 pF Phycomp 040R10K9B ...

Page 11

... RF 4 2.2Ω +5V Figure 27. Schematic for 900 MHz LNA design. Table 5. Component Parts List for the MGA-53543 HLA at 900 MHz TOKO LL1608-FS1 TOKO LL1005-FS15N 4.7 pF Phycomp 040CG479C9B00 .Ω RHOM MCR01JR 1000 pF Phycomp 040R10K9B00 Performance of MGA-53543 at 900 MHz Biased with a +5 Volt supply MGA-53543 delivers a Noise Figure of 1 ...

Page 12

... Figure 30. Schematic for 1900 MHz LNA design. Table 6 shows the complete parts list used for the 1900 MHz low noise amplifier. Table 6. Component parts list for the MGA-53453 LNA amplifier at 1900 MHz. 3.9 nH TOKO LL1608-FS3N9S 47 nH TOKO LL1005-FH47N .Ω ...

Page 13

... Summary In summary, the MGA-53543 offers very high IP3 as designed, but is versatile enough to give good NF per- formance wherever needed. Below is a summary of the preceding four examples. Table 7. 1900 MHz and 900 MHz HLA and 1900 MHz and 900 MHz LNA sum- mary. ...

Page 14

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

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