HMMC-5618 Datasheet, PDF(3/6 Page) Agilent(Hewlett-Packard) – 6-20 GHz Amplifier

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HMMC-5618 Datasheet, PDF (3/6 Pages) Agilent(Hewlett-Packard) – 6-20 GHz Amplifier

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HMMC-5618 Applications

The HMMC-5618 is a GaAs MMIC

amplifier designed for optimum

Class-A efficiency and flat gain

performance from 6 GHz to

20â£ GHz. It has applications as a

cascadable gain stage for EW

amplifiers, buffer stages, LO

drives, phased-array radar, and

transmitter amplifiers used in

commercial communication

systems. The MMIC solution is a

cost effective alternative to

hybrid assemblies.

Biasing and Operation

The MMIC amplifier is normally

biased with a single positive drain

supply connected to both VD1 and

VD2 bond pads as shown in

Figureâ£ 8a. The recommended

drain supply voltage is 3 to

5â£ volts. If desired, the first stage

drain bonding pad can be biased

separately to provide a small

amount of gain slope control or

bandwidth extension as demon-

strated in Figure 2.

No ground wires are required

because all ground connections

are made with plated through-

holes to the backside of the

device.

Gate bias pads (VG1 and VG2) are

also provided to allow adjust-

ments in gain, RF output power,

and DC power dissipation, if

necessary. No connection to the

gate pads is needed for single

drain-bias operation. However,

for custom applications, the DC

current flowing through the input

and/or output gain stage may be

adjusted by applying a voltage to

the gate bias pad(s) as shown in

Figure 8b. A negative gate-pad

voltage will decrease the drain

current. The gate-pad voltage is

approximately zero volts during

operation with no DC gate supply.

Refer to the Absolute Maximum

Ratings table for allowed DC and

thermal conditions.

Assembly Techniques

Solder die attach using a fluxless

gold-tin (AuSn) solder preform is

the recommended assembly

method. A conductive epoxy such

as ABLEBONDÂ® 71-1LM1 or

ABLEBONDÂ® 36-2 may also be

used for die attaching provided

the Maximum Thermal 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, RF output, and DC supply

connections be made using

0.7â£ mil diameter gold wire. The

device has been designed so that

optimum performance is realized

when the RF input and RF output

bond-wire inductance is approxi-

mately 0.2â£ nH as demonstrated in

Figures 4, 6, and 7. Therefore,

mesh or multiple-wire bonds are

not necessary. It is, however,

recommended that the RF wires

be as short as possible to mini-

mize assembly related perfor-

mance variations.

Thermosonic wedge is the

preferred method for wire

bonding to the gold bond pads.

Wires can be attached using a

guided-wedge at an ultrasonic

power level of roughly 64 dB for a

duration of 76 Â± 8 msec with a

stage temperature of 150 Â± 2Â°C.

For more detailed information

see HP application note #999

âGaAs MMIC Assembly and

Handling Guidelines.â

GaAs MMICs are ESD sensitive.

Proper precautions should be used

when handling these devices.

VD1

VD2

FEEDBACK

NETWORK

IN

MATCHING

MATCHING

MATCHING

OUT

2Kâ¦ 2Kâ¦

2Kâ¦ 1Kâ¦

VG1

Figure 1. HMMC-5618 Simplified Schematic.

VG2

6-66

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