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HMMC-5040RF

20–40 GHz Amplifier

HP => Agilent Technologies 

HMMC-5040 Applications

The HMMC-5040 broadband

amplifier is designed for both

military (35 GHz) applications

and wireless communication

systems that operate at 23, 28,

and 38 GHz. It is also suitable for

use as a frequency multiplier due

to excellent below-band input

return loss and high gain.

Biasing and Operation

The recommended DC bias

condition is with all drains

connected to single 4.5 volt (or

less) supply and all gates con-

nected to an adjustable negative

voltage supply as shown in Figure

12a. The gate voltage is adjusted

for a total drain supply current of

typically up to 300 mA. Figures 4,

5, 8, and 9 can be used to help

estimate the minimum drain

voltage and current necessary for

a given RF gain and output

power.

The second, third, and fourth

stage DC drain bias lines are

connected internally (Figure 1)

and therefore require only a

single bond wire. An additional

bond wire is needed for the first

stage DC drain bias, VD1.

Only the third and fourth stage

DC gate bias lines are connected

internally. A total of three DC

gate bond wires are required: one

for VG1, one for VG2, and one for

the VG3-to-VG4 connection.

The RF input has matching

circuitry that creates a 50 ohm

DC and RF path to ground. A DC

blocking capacitor should be

used in the RF input transmission

line. Any DC voltage applied to

the RF input must be maintained

below 1 volt. The RF output is

AC-coupled.

No ground wires are needed since

ground connections are made

with plated through-holes to the

backside of the device.

The HMMC-5040 can also be used

to double, triple, or quadruple the

frequency of input signals. Many

bias schemes may be used to

generate and amplify desired

harmonics within the device. The

information given here is

intended to be used by the

customer as a starting point for

such applications. Optimum

conversion efficiency is obtained

with approximately 14 dBm input

drive level.

As a doubler, the device can

multiply an input signal in the

10-20 GHz frequency range up to

20-40 GHz with conversion gain

for output frequencies exceeding

30 GHz. Similarly, 5-10 GHz

signals can be quadrupled to

20-40 GHz with some conversion

loss. Frequency doubling or

quadrupling is accomplished by

operating the first gain stage at

pinch-off (VG1 = VP ≅ -1.2 volts).

Stages 2, 3, and 4 are biased for

normal amplification. The assem-

bly diagram shown in Figure 12b

can be used.

To operate the device as a

frequency tripler the drain

voltage can be reduced to

approximately 2.5 volts and the

gate voltage can be set at about

-0.4␣ volts or adjusted to minimize

second harmonics if needed.

Either of Figures 12a or Figure

12b can be used.

Contact your local HP sales

representative for additional

information concerning multiplier

performance and operating

conditions.

Assembly Techniques

Solder die attach using a fluxless

gold-tin (AuSn) solder preform is

the recommended assembly

method. A conductive epoxy such

as ABLEBOND® 71-1LM1 or

ABLEBOND® 36-2 may also be

used for die attaching provided

the Absolute Maximum Ratings

are not exceeded. The device

should be attached to an electri-

cally conductive surface to

complete the DC and RF ground

paths. The backside metallization

on the device is gold.

It is recommended that the RF

input and output connections be

made using either 500 lines/inch

(or equivalent) gold wire mesh.

The RF connections should be

kept as short as possible to

minimize inductance. The DC

bias supply wires can be 0.7 mil

diameter gold.

Thermosonic wedge is the

preferred method for wire

bonding to the gold bond pads.

Mesh wires can be attached using

a 2 mil round tacking tool and a

tool force of approximately

22␣ grams with an ultrasonic

power of roughly 55 dB for a

duration of 76 ± 8 msec. A guided-

wedge at an ultrasonic power

level of 64 dB can be used for the

0.7 mil wire. The recommended

wire bond stage temperature is

150 ± 2°C.

For more detailed information

see HP application note #999

“GaAs MMIC Assembly and

Handling Guidelines.”

GaAs MMICs are ESD sensitive.

Proper precautions should be used

when handling these devices.

6-60

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