MGA-31189-TR1G [AVAGO]

0.25W High Gain Driver Amplifier; 0.25W高增益驱动放大器


型号：	MGA-31189-TR1G
厂家：	AVAGO TECHNOLOGIES LIMITED
描述：	0.25W High Gain Driver Amplifier 0.25W高增益驱动放大器放大器射频微波驱动
文件：	总15页 (文件大小：546K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MGA-31189

0.25W High Gain Driver Ampliﬁer

50 – 2000 MHz

Data Sheet

Description

Features

Avago Technologies MGA-31189 is a 0.25W high gain

with good gain ﬂatness Driver Ampliﬁer MMIC, housed

in a standard SOT-89 plastic package. The device features

high linearity performance, excellent input and output

return loss, and low noise ﬁgure. The device can be easily

matched to obtain optimum power and linearity.

•ꢀ ROHS compliant

•ꢀ Halogen free

[1]

•ꢀ Very high linearity at low DC bias power

•ꢀ High Gain

•ꢀ Good gain ﬂatness

•ꢀ Low noise ﬁgure

MGA-31189 is externally tunable to operate within 50MHz

to 2GHz frequency range applications. With high IP3, low

noise ﬁgure and wideband operation, the MGA-31189 can

be utilized as a driver ampliﬁer in the transmit chain and

as a second stage LNA in the receive chain.

•ꢀ Excellent uniformity in product speciﬁcation

•ꢀ SOT-89 standard package

Speciﬁcations

This device uses Avago Technologies proprietary 0.25um

GaAs Enhancement mode PHEMT process.

At 0.9GHz, Vdd = 5V, Idd = 111mA (typ) @ 25°C

•ꢀ OIP3 = 42dBm

Pin connections and Package Marking

•ꢀ Noise Figure = 2.0dB

•ꢀ Gain = 21dB; Gain Flatness (+/-50MHz) = 0.1dB

•ꢀ P1dB = 24 dBm

11X

•ꢀ IRL = 15.6dB, ORL = 12.8dB

Note:

1. The MGA-31189 has a superior LFOM of 14.5dB. Linearity Figure of

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

RFout

RFin

GND

GND RFout

Vdd

Top View

Bottom View

Notes:

Top View : Package marking provides orientation and identiﬁcation

“11” = Device Code

“X” = Date Code character identiﬁes month of manufacturing

Attention: Observe precautions for

handling electrostatic sensitive devices.

ESD Machine Model = 100 V

RFout

RFin

ESD Human Body Model = 400 V

Refer to Avago Application Note A004R:

Electrostatic Discharge, Damage and Control.

Figure 1. Simpliﬁed Schematic diagram

[1]

Thermal Resistance

MGA-31189 Absolute Maximum Rating T =25°C

[3]

Thermal Resistance

Symbol

I_d,max

V_d,max

P_d

Parameter

Units

Absolute Maximum

(V = 5.0V, T = 85°C) θ = 54.5°C/W

Drain Current

150

Notes:

1. Operation of this device in excess of any of

these limits may cause permanent damage.

2. Board temperature (T ) is 25°C, for T > 105°C

Device Voltage

5.5

Power Dissipation ^[2]

CW RF Input Power

Junction Temperature

Storage Temperature

dBm

°C

825

derate the device power at 18.3mW/°C rise

in board temperature adjacent to package

bottom.

P_in,max

T_j,max

T_stg

150

3. Thermal resistance measured using Infrared

measurement technique.

°C

-65 to 150

[1]

MGA-31189 Electrical Speciﬁcations

T = 25°C, V = 5V, unless noted

Symbol

I_ds

Parameter and Test Condition

Quiescent current

Noise Figure

Frequency

Units

Min.

Typ.

Max.

N/A

111

128

0.45GHz

0.9GHz

1.5GHz

2.7

2.0

1.8

–

2.6

–

Gain

OIP3 ^[2]

P1dB

PAE

Gain

0.45GHz

0.9GHz

1.5GHz

39.2

22.3

–

Output Third Order Intercept Point

Output Power at 1dB Gain Compression

Power Added Eﬃciency at P1dB

Input Return Loss

0.45GHz

0.9GHz

1.5GHz

41.5

41.3

dBm

0.45GHz

0.9GHz

1.5GHz

23.7

24.4

–

0.45GHz

0.9GHz

1.5GHz

42.7

42.5

44.3

–

IRL

0.45GHz

0.9GHz

1.5GHz

22.9

15.6

15.9

–

ORL

Output Return Loss

0.45GHz

0.9GHz

1.5GHz

12.8

–

ISOL

Notes:

Isolation

0.45GHz

0.9GHz

1.5GHz

27.9

27.6

27.5

–

1. Typical performance obtained from a test circuit described in Figure 34.

2. OIP3 test condition: F1 - F2 = 10MHz, with input power of -12dBm per tone measured at worst case side band.

(1, 2)

MGA-31189 Consistency Distribution Chart

100

110

120

130

1.2

1.4

1.6

1.8

2.2

2.4

2.6

2.8

Figure 2. Idd @ 900MHz, Vdd = 5V, LSL=93mA, Nominal=111mA, USL=128mA

Figure 3. NF @ 900MHz, Vdd = 5V, Nominal=2dB, USL=2.6dB

Figure 4. Gain @ 900MHz, Vdd = 5V, LSL=19dB, Nominal=21dB, USL=23dB

Figure 5. OIP3 @ 900MHz, Vdd = 5V, LSL=39.2dBm, Nominal=42dBm

Notes:

1. Data sample size is 3500 samples taken from 4 diﬀerent wafers and

2 diﬀerent lots. Future wafers allocated to this product may have

nominal values anywhere between the upper and lower limits.

2. Measurements are made on production test board which represents

a trade-oﬀ between optimal Gain, NF, OIP3 and OP1dB. Circuit losses

have been de-embedded from actual measurements.

Figure 6. P1dB @ 900MHz, Vdd = 5V, LSL=22.3dBm, Nominal=24dBm

MGA-31189 Application Circuit Data for 450MHz

T = 25°C, V = 5.0V, I = 111mA

25.0

24.5

24.0

23.5

23.0

22.5

22.0

21.5

21.0

85°C

25°C

-40°C

85°C

25°C

-40°C

150

250

350

450

550

650

750

150

250

350

450

550

650

750

Frequency (MHz)

Figure 7. OIP3 vs Frequency and Temperature

Figure 8. P1dB vs Frequency and Temperature

-5

-10

-15

-20

-25

-30

-35

85°C

25°C

-40°C

85°C

25°C

-40°C

150

250

350

450

550

650

750

150

250

350

450

550

650

750

Frequency (MHz)

Figure 9. Gain vs Frequency and Temperature

Figure 10. IRL vs Frequency and Temperature

-26

-28

-30

-32

-34

-36

-38

-5

85°C

25°C

-40°C

-10

-15

-20

-25

-30

85°C

25°C

-40°C

150

250

350

450

550

650

750

150

250

350

450

550

650

750

Frequency (MHz)

Figure 11. ORL vs Frequency and Temperature

Figure 12. Isolation vs Frequency and Temperature

MGA-31189 Application Circuit Data for 450MHz (continue)

85°C

25°C

-40°C

85°C

25°C

-40°C

150

250

350

450

550

650

750

0.0 2.0 4.0 6.0 8.0 10.0 12.0 14.0 16.0 18.0 20.0

Pout (dBm)

Frequency (MHz)

Figure 13. Noise Figure vs Frequency and Temperature

Figure 14. OIP3 vs Output Power and Temperature at 450MHz

140

120

100

85°C

25°C

-40°C

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5

Vdd (V)

Figure 15. Current vs Voltage and Temperature

MGA-31189 Application Circuit Data for 900MHz

T = 25°C, V = 5.0V, I = 111mA

25.0

24.5

24.0

23.5

23.0

22.5

22.0

85°C

25°C

-40°C

85°C

25°C

-40°C

600

700

800

900

1000

1100

1200

600

700

800

900

1000

1100

1200

Frequency (MHz)

Figure 16. OIP3 vs Frequency and Temperature

Figure 17. P1dB vs Frequency and Temperature

-10

-12

-14

-16

-18

-20

-22

22.0

21.5

21.0

20.5

20.0

19.5

19.0

85°C

25°C

-40°C

85°C

25°C

-40°C

600

700

800

900

1000

1100

1200

600

700

800

900

1000

1100

1200

Frequency (MHz)

Figure 18. Gain vs Frequency and Temperature

Figure 19. IRL vs Frequency and Temperature

-26.0

-26.5

-27.0

-27.5

-28.0

-28.5

-29.0

-29.5

-30.0

-5

-10

-15

-20

-25

85°C

25°C

-40°C

85°C

-30

25°C

-40°C

-35

600

700

800

900

1000

1100

1200

600

700

800

900

1000

1100

1200

Frequency (MHz)

Figure 20. ORL vs Frequency and Temperature

Figure 21. Isolation vs Frequency and Temperature

MGA-31189 Application Circuit Data for 900MHz (continue)

3.0

85°C

25°C

-40°C

2.8

25°C

2.6

-40°C

2.4

2.2

2.0

1.8

1.6

1.4

1.2

1.0

600

700

800

900

1000

1100

1200

0.0 2.0 4.0 6.0 8.0 10.0 12.0 14.0 16.0 18.0 20.0

Pout (dBm)

Frequency (MHz)

Figure 22. Noise Figure vs Frequency and Temperature

Figure 23. OIP3 vs Output Power and Temperature at 900MHz

140

120

100

85°C

25°C

-40°C

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5

Vdd (V)

Figure 24. Current vs Voltage and Temperature

MGA-31189 Application Circuit Data for 1500MHz

T = 25°C, V = 5.0V, I = 111mA

25.0

24.5

24.0

23.5

23.0

22.5

22.0

85°C

25°C

-40°C

85°C

25°C

-40°C

1200

1300

1400

1500

1600

1700

1800

1200

1300

1400

1500

1600

1700

1800

Frequency (MHz)

Figure 25. OIP3 vs Frequency and Temperature

Figure 26. P1dB vs Frequency and Temperature

-10

-12

-14

-16

-18

-20

-22

21.0

20.5

20.0

19.5

19.0

18.5

18.0

85°C

25°C

-40°C

85°C

25°C

-40°C

1200

1300

1400

1500

1600

1700

1800

1200

1300

1400

1500

1600

1700

1800

Frequency (MHz)

Figure 27. Gain vs Frequency and Temperature

Figure 28. IRL vs Frequency and Temperature

-5

-10

-15

-20

-25

-30

-26.0

-26.5

-27.0

-27.5

-28.0

-28.5

-29.0

-29.5

-30.0

85°C

25°C

-40°C

25°C

-40°C

1200

1300

1400

1500

1600

1700

1800

1200

1300

1400

1500

1600

1700

1800

Frequency (MHz)

Figure 29. ORL vs Frequency and Temperature

Figure 30. Isolation vs Frequency and Temperature

MGA-31189 Application Circuit Data for 1500MHz (continue)

3.0

2.5

2.0

1.5

1.0

85°C

25°C

-40°C

85°C

0.5

25°C

-40°C

0.0

1200

1300

1400

1500

Frequency (MHz)

1600

1700

1800

-2.0 0.0 2.0 4.0 6.0 8.0 10.0 12.0 14.0 16.0 18.0 20.0

Pout (dBm)

Figure 31. Noise Figure vs Frequency and Temperature

Figure 32. OIP3 vs Output Power and Temperature at 1500MHz

140

120

100

85°C

25°C

-40°C

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5

Vdd (V)

Figure 33. Current vs Voltage and Temperature

Application Circuit Description and Layout

Vdd

C12

C11

C10

CTxx

OUT

L1 C8

11X

AVAGO

TECHNOLOGIES

RFout

RFin

SOT-89

REV 3.2

Jul 2009

Figure 34. Circuit diagram

Figure 35. Demoboard

Bill of Materials

Description

For 0.45GHz

Value

(1)

(2)

(3)

For 0.9GHz

For 1.5GHz

Value

0.1µF

2.2µF

100pF

Circuit

Symbol

Size

Manufacturer

Murata

Value

0.1µF

2.2µF

100pF

39pF

Manufacturer

Murata

Manufacturer

Murata

0402

0603

0402

0.1µF

2.2µF

Murata

18pF

Murata

82pF

Murata

5.6pF

Murata

56nH

Coilcraft

39nH

Murata

12nH

Murata

18nH

Note: NA – not required in actual PCB design

DC_in

Input Matching Circuit

RF_in

Output Matching Circuit

1. Γ_mag = 0.063, Γ_ang = 96.75°

2. Γ_mag = 0.039, Γ_ang = -134.54°

3. Γ_mag = 0.062, Γ_ang = 128.17°

11X

RF_out

1. Γ_mag = 0.303, Γ_ang = -163.74°

2. Γ_mag = 0.071, Γ_ang = -113.02°

3. Γ_mag = 0.106, Γ_ang = -128.48°

Figure 36. Input and output tuned Gamma location for 450MHz⁽¹⁾, 900MHz⁽²⁾and 1.5GHz⁽³⁾

MGA-31189 is an input and output prematched component. To bias MGA-31189, a +5V supply (Vdd) is connected to the

output pin thru a RF choke, L1 (which isolates the inband signal from the DC supply). The bypass capacitors, C3 and C2

help to eliminate out of low band frequency signals from the power supply. Blocking capacitors are required for its input

(C7) and output (C8), to isolate the supply voltage from succeeding circuits. To improve on input match at 450MHz, L3

and C9 are added. The L1, together with C8 also act as the output tuning circuitry. The recommended output tuning is

for achieving best OIP3, while meeting typical speciﬁcations for other parameters.

(1)

MGA-31189 Typical Scatter Parameters

T = 25°C, V = 5.0V, I = 111mA, Z = 50W

S11

S21

S12

S22

Freq

GHz

Mag.

Ang.

Mag.

Ang.

Mag.

Ang.

Mag.

Ang.

0.05

0.10

0.20

0.30

0.40

0.50

0.60

0.70

0.80

0.90

1.00

1.10

1.20

1.30

1.40

1.50

1.60

1.70

1.80

1.90

2.00

2.10

2.20

2.30

2.40

2.50

3.00

3.50

4.00

5.00

6.00

7.00

8.00

9.00

10.00

11.00

12.00

13.00

14.00

15.00

16.00

17.00

18.00

19.00

20.00

0.229

0.217

0.221

0.225

0.226

0.223

0.218

0.214

0.213

0.218

0.224

0.231

0.241

0.251

0.262

0.275

0.290

0.306

0.324

0.344

0.367

0.392

0.421

0.453

0.488

0.687

0.822

0.882

0.910

0.918

0.931

0.935

0.933

0.936

0.946

0.954

0.957

0.951

0.943

0.939

0.943

0.948

0.946

0.931

-146.8

-161.0

-172.7

-179.8

173.9

167.0

158.5

148.4

136.1

121.8

106.2

91.9

-12.8

-13.3

-13.1

-13.0

-12.9

-13.1

-13.2

-13.4

-13.2

-13.0

-12.7

-12.4

-12.0

-11.6

-11.2

-10.8

-10.3

-9.8

12.340

11.850

11.590

11.480

11.390

11.300

11.210

11.100

10.980

10.840

10.670

10.480

10.310

10.120

9.912

9.675

9.412

9.125

8.815

8.486

8.139

7.776

7.403

7.023

6.641

6.260

4.472

3.082

2.138

1.070

0.524

0.258

0.141

0.085

0.051

0.029

0.014

0.007

0.005

0.008

0.007

0.004

0.006

0.008

163.1

163.6

158.1

150.5

142.3

133.9

125.2

116.4

107.5

98.4

21.8

21.5

21.3

21.2

21.1

21.0

20.9

20.8

20.7

20.6

20.4

20.3

20.1

19.9

19.7

19.5

19.2

18.9

18.6

18.2

17.8

17.4

16.9

16.5

15.9

13.0

9.8

0.040

0.041

0.042

0.041

0.040

0.039

0.038

0.037

0.036

0.034

0.033

0.032

0.030

0.023

0.018

0.014

0.013

0.014

0.013

0.011

0.008

0.004

0.003

0.004

0.007

0.008

0.005

0.003

0.004

0.006

0.008

5.0

-28.0

-27.9

-27.8

-27.7

-27.6

-27.5

-27.4

-27.5

-27.6

-27.7

-27.8

-28.0

-28.2

-28.4

-28.6

-28.9

-29.3

-29.6

-30.0

-30.4

-32.7

-35.1

-36.8

-37.6

-36.8

-37.6

-39.2

-42.2

-48.2

-51.5

-48.0

-43.6

-42.4

-45.4

-49.2

-48.6

-45.1

-41.9

0.499

0.494

0.483

0.465

0.438

0.406

0.370

0.335

0.303

0.279

0.263

0.251

0.240

0.230

0.221

0.212

0.205

0.198

0.193

0.187

0.183

0.180

0.178

0.177

0.178

0.199

0.227

0.278

0.467

0.580

0.576

0.569

0.594

0.650

0.728

0.799

0.844

0.866

0.867

0.857

0.851

0.835

0.813

0.803

-172.1

178.8

167.7

159.1

151.7

145.2

139.3

134.8

132.1

131.1

130.9

128.3

125.9

123.6

121.5

119.3

117.1

114.6

112.0

109.1

105.9

102.3

98.2

-6.0

1.041

0.0

-6.1

1.081

-6.2

-6.3

1.104

-11.5

-16.7

-21.9

-27.3

-32.8

-38.6

-44.7

-51.1

-57.5

-63.8

-70.1

-76.7

-83.4

-90.2

-97.2

-104.3

-111.5

-118.7

-126.1

-133.4

-140.8

-148.1

-155.4

169.3

138.1

111.6

66.7

-6.7

1.122

-7.2

1.142

-7.8

1.163

-8.6

1.185

-9.5

1.205

-10.4

-11.1

-11.6

-12.0

-12.4

-12.8

-13.1

-13.5

-13.8

-14.1

-14.3

-14.5

-14.7

-14.9

-15.0

-15.1

-15.0

-14.0

-12.9

-11.1

-6.6

1.224

1.242

89.2

1.259

80.4

1.277

79.0

71.3

1.294

65.7

62.1

1.314

52.2

52.7

1.338

38.3

43.3

1.367

24.2

33.9

1.402

9.9

24.5

1.445

-4.6

15.0

1.496

-19.0

-33.4

-47.6

-61.4

-74.9

-87.9

-100.3

-150.3

174.9

147.5

101.5

58.3

5.6

1.557

-9.3

-3.7

1.628

-8.7

-13.0

-22.2

-31.3

-40.3

-49.2

-91.1

-128.3

-161.5

137.8

80.9

1.710

-8.1

1.803

-7.5

93.4

1.906

-6.9

88.0

2.017

-6.2

81.8

2.133

-3.3

39.7

2.647

-1.7

-11.2

-60.5

-136.9

164.0

114.2

74.3

3.025

-1.1

6.6

3.496

-0.8

0.6

4.963

-0.7

-5.6

24.3

-4.7

7.125

21.3

-0.6

31.9

-11.8

-17.0

-21.4

-25.8

-30.9

-37.1

-43.7

-45.3

-42.4

-43.6

-47.5

-47.7

-44.5

-41.5

-13.9

-44.6

-71.9

-96.5

-103.3

-67.6

-35.1

-45.1

-69.8

-92.2

-78.5

-44.6

-29.4

-18.3

-4.8

12.313

23.268

45.258

89.931

223.521

434.262

466.907

332.034

242.204

439.706

1046.765

994.693

534.995

352.978

-8.9

-0.6

-10.4

-52.0

-93.7

-133.1

-171.3

132.0

50.6

-4.9

-39.5

-69.1

-92.3

-108.5

-121.0

-134.7

-151.9

-170.3

173.0

159.6

149.4

139.6

-0.6

39.7

-4.5

-0.6

4.1

-3.7

-0.5

-31.5

-61.5

-86.3

-110.5

-133.5

-150.2

-161.6

-174.5

167.6

147.2

-2.8

-0.4

-1.9

-0.4

-1.5

-0.4

-1.2

-0.5

-23.8

-70.9

-72.5

-44.6

-29.9

-21.8

-1.2

-0.5

-1.3

-0.5

-1.4

-0.5

-1.6

-0.5

-1.8

-0.6

-1.9

(1)

MGA-31189 K-Factor

T = 25°C, V = 5.0V, I = 111mA, Z = 50W

10 12 14 16 18 20

freq, GHz

(1)

MGA-31189 Typical Noise Parameters

T = 25°C, V = 5.0V, I = 111mA, Z = 50W

Freq

(GHz)

(dB)

opt

Ang

(dB)

min

opt

Mag

R /Z

0.5

0.8

0.9

2.02

1.69

1.75

1.79

1.77

1.89

2.43

2.66

3.38

4.91

7.01

8.49

9.71

11.64

0.112

0.132

0.153

0.143

0.115

0.207

0.458

0.670

0.772

0.845

0.889

0.895

0.892

0.903

1.9

0.28

0.24

0.26

0.21

0.20

0.22

0.06

0.10

0.80

5.86

10.58

25.29

56.34

21.89

21.28

21.04

20.93

20.17

19.17

18.16

16.20

15.54

13.85

12.29

9.57

30.3

0.7

5.4

1.5

83.6

117.5

132.2

176.8

-166.5

-143.6

-123.3

-103.5

-79.1

-57.0

2.5

3.5

4.5

5.5

7.15

4.63

Note:

1. Measurements are made on 10mils Rogers RO4350 TRL Board.

Part Number Ordering Information

Part Number

No. of Devices

Container

MGA-31189-BLKG

MGA-31189-TR1G

100

Antistatic Bag

13”Tape/Reel

3000

SOT89 Package Dimensions

POLISH

1.625

MATTE FINISH

HALF ETCHING

DEPTH 0.100

POLISH

Dimensions in mm

Dimensions in inches

Symbols

Minimum

1.40

0.89

0.36

0.41

0.38

4.40

1.40

1.45

3.94

2.40

2.90

0.65

1.40

Nominal

1.50

1.04

0.42

0.47

0.40

4.50

1.60

1.65

Maximum

1.60

1.20

0.48

0.53

0.43

4.60

1.75

1.80

4.25

2.60

3.10

0.85

1.60

Minimum

0.055

0.0350

0.014

0.016

0.014

0.173

0.055

0.155

0.094

0.114

0.026

0.054

Nominal

0.059

0.041

0.016

0.018

0.015

0.177

0.062

Maximum

0.063

0.047

0.018

0.030

0.017

0.181

0.069

0.167

0.102

0.122

0.034

0.063

2.50

3.00

0.75

1.50

0.098

0.118

0.030

0.059

Device Orientation

REEL

CARRIER

TAPE

USER FEED

DIRECTION

COVER TAPE

Tape Dimensions

Ø 1.5 +0.1/-0.0

8.00

Ø 1.50 MIN.

2.00 .05 SEE NOTE 3

4.00 SEE NOTE 1

1.75 .10

0.30 .05

R 0.3 MAX.

5.50 .05

SEE NOTE 3

12.0 .3

R 0.3 TYP.

SECTION A - A

Ao = 4.60

Bo = 4.90

Ko = 1.90

DIMENSIONS IN MM

NOTES:

1. 10 SPROCKET HOLE PITCH CUMULATIVE TOLERANCE 0.2

2. CAMBER IN COMPLIANCE WITH EIA 481

3. POCKET POSITION RELATIVE TO SPROCKET HOLE MEASURED

AS TRUE POSITION OF POCKET, NOT POCKET HOLE

Reel Dimensions – 13” Reel

LOKREEL

MINNEAPOLIS USA

U.S PAT 4726534

102.0

REF

ATTENTION

Electrostatic Sensitive Devices

Safe Handling Required

1.5

88 REF

330.0

REF

"A"

96.5

Detail "B"

+0.3

- 0.2

(MEASURED AT HUB)

8.4

11.1 MAX.

Detail "A"

Ø 20.2

Dimensions in mm

Ø 13.0 ^+0.5

-0.2

2.0 0.5

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.

AV02-2532N - May 23, 2013

MGA-31189-TR1G [AVAGO]

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