TriQuint Semiconductor Texas : Phone (972)994 8465 Fax (972)994 8504 Web: www.triquint.com

Advance Product Information

36 - 40 GHz Power Amplifier TGA1071-EPU

Key Features and Performance

0.25um pHEMT Technology

36-40 GHz Frequency Range

22 dBm Nominal Pout @ P1dB

15 dB Nominal Gain

5V, 120 mA Bias

Chip Dimensions 3.4mm x 2.1mm

Primary Applications

Point-to-Point Radio

Point-Multipoint Radio

Small Signal Gain

Pout at 1dB Gain Compression

Note: Devices designated as EPU are typically early in their characterization process prior to finalizing all electrical and process
specifications. Specifications subject to change without notice

TGA1071 Typical RF Performance (Fixtured)

-25

-20

-15

-10

-5

32.0

33.0

34.0

35.0

36.0

37.0

38.0

39.0

40.0

41.0

42.0

Frequency (GHz)

Gain and Return Loss (dB)

s11

s22

The TriQuint TGA1071-EPU is a two stage
PA MMIC design using TriQuint's proven
0.25 um Power pHEMT process to support a variety
of millimeter wave applications including
point-to-point digital radio and point-to-multipoint
systems.

The two-stage design consists of two 300 um input
devices driving a pair of 400 um output devices.

The TGA1071 provides 22dBm of output power
across 36-40 GHz with a typical small signal gain
of 15dB.

The TGA1071 requires minimum off-chip
components. Each device is 100% DC and RF
tested on-wafer to ensure performance compliance.
The device is available in chip form.

TGA1071 RF Probe Summary Data

0.00

5.00

10.00

15.00

20.00

25.00

Frequency (GHz)

Pout (dBm)

TriQuint Semiconductor Texas : Phone (972)994 8465 Fax (972)994 8504 Web: www.triquint.com

Advance Product Information

RECOMMENDED MAXIMUM RATINGS

Symbol

Parameter

Value

Notes

Positive Supply Voltage

7 V

Positive Supply Current

.4 A

Power Dissipation

2.8 W

Input Continuous Wave Power

20 dBm

Operating Channel Temperature

150

1/, 2/

Mounting Temperature (30 seconds)

320

STG

Storage Temperature

-65

C to 150

These ratings apply to each individual FET

Junction operating temperature will directly affect the device mean time to failure
(MTTF). For maximum life it is recommended that junction temperatures be
maintained at the lowest possible levels.

Total current for both stages

DC PROBE TESTS

= 25

Symbol

Parameter

Minimum

Maximum Value

Idss

Saturated Drain Current (info
only)

140

658

P1-5

Pinch-off Voltage

-1.5

-0.5

GS1

Breakdown Voltage gate-source

-30

-8

GD1-5

Breakdown Voltage gate-drain

-30

-8

Electrical Characteristics

Note: Devices designated as EPU are typically early in their characterization process prior to finalizing all electrical and process
specifications. Specifications are subject to change without notice.

ON-WAFER RF PROBE CHARACTERISTICS

= 25

Symbol Parameter

Test Condition

Vd=5V, Id=120mA

Limit

Min Nom Max

Units

Small-signal
Power Gain

F = 36 to 40 GHz
F = 38 GHz

dB
dB
dB

IRL

Input Return
Loss

F = 36 to 40 GHz

-10

ORL

Output Return
Loss

F = 36 to 40 GHz

-10

PWR

Output Power

F = 36 to 40 GHz

dBm

Note: RF probe data is taken at 0.4 GHz steps

TriQuint Semiconductor Texas : Phone (972)994 8465 Fax (972)994 8504 Web: www.triquint.com

Advance Product Information

Statistical Performance Summary

Typical s-parameters

TGA1071 RF Probe Summary Data

36.0 36.4 36.8 37.2 37.6 38.0 38.4 38.8 39.2 39.6 40.0

Frequency (GHz)

Gain (dB)

Small Signal Gain

TGA1071 RF Probe Summary Data

-20

-18

-16

-14

-12

-10

-8

-6

-4

-2

36.4 36.8 37.2 37.6

38.4 38.8 39.2 39.6

Frequency (GHz)

s11 (dB)

Input Return Loss

TGA1071 RF Probe Summary Data

-16

-14

-12

-10

-8

-6

-4

-2

36.4 36.8 37.2 37.6

38.4 38.8 39.2 39.6

Frequency (GHz)

s22 (dB)

Output Return Loss

Freq

S11

S21

S12

S22

(GHz)

Mag

Ang

Mag

Ang

Mag

Ang

Mag

Ang

36.0

0.593

88.8

5.060

-116.0

0.024

179.8

0.215

125.6

36.4

0.569

83.3

5.037

-136.2

0.030

163.2

0.210

122.5

36.8

0.508

75.6

5.174

-156.1

0.031

148.6

0.182

136.4

37.2

0.448

66.9

5.327

-172.3

0.035

133.6

0.159

151.4

37.6

0.328

59.0

5.142

170.3

0.036

119.4

0.228

170.4

38.0

0.191

48.8

5.109

151.1

0.036

106.1

0.293

180.0

38.4

0.086

-18.0

5.480

132.6

0.040

90.8

0.353

-175.6

38.8

0.202

-147.6

5.274

108.3

0.036

69.8

0.494

174.7

39.2

0.324

-159.9

4.896

88.1

0.032

55.1

0.554

166.0

39.6

0.460

-170.3

4.527

67.1

0.029

44.9

0.566

161.5

40.0

0.567

179.8

3.929

47.1

0.023

27.3

0.576

157.2

TGA1071 RF Probe Summary Data

0.00

5.00

10.00

15.00

20.00

25.00

Frequency (GHz)

Pout (dBm)

Wafer 9818801-2

678 devices

Output Power

TriQuint Semiconductor Texas : Phone (972)994 8465 Fax (972)994 8504 Web: www.triquint.com

Advance Product Information

Chip Assembly and Bonding Diagram

Reflow process assembly notes:

AuSn (80/20) solder with limited exposure to temperatures at or above 300§C

alloy station or conveyor furnace with reducing atmosphere

no fluxes should be utilized

coefficient of thermal expansion matching is critical for long-term reliability

storage in dry nitrogen atmosphere

Component placement and adhesive attachment assembly notes:

vacuum pencils and/or vacuum collets preferred method of pick up

avoidance of air bridges during placement

force impact critical during auto placement

organic attachment can be used in low-power applications

curing should be done in a convection oven; proper exhaust is a safety concern

microwave or radiant curing should not be used because of differential heating

coefficient of thermal expansion matching is critical

Interconnect process assembly notes:

thermosonic ball bonding is the preferred interconnect technique

force, time, and ultrasonics are critical parameters

aluminum wire should not be used

discrete FET devices with small pad sizes should be bonded with 0.0007-inch wire

maximum stage temperature: 200§C

GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.

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