CFS0103-SB_08 MIMIX [Mimix Broadband], CFS0103-SB_08 Datasheet - Page 6

CFS0103-SB_08

Manufacturer Part Number

CFS0103-SB_08

Description

0.1-10.0 GHz Low Noise, Medium Power

Manufacturer

MIMIX [Mimix Broadband]

Datasheet

1.CFS0103-SB_08.pdf (8 pages)

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May 2008 - Rev 12-May-08

Considerations When Designing for Optimum

Noise Figure Using Noise Parameters

measure of the amount of noise added to a signal transmit-

ted through that network. In this datasheet we have given

the NFmin and the corresponding optimum source resis-

tance values for the device under various bias conditions.

NFmin represents the true minimum noise figure when the

device is presented with an impedance matching network

that transforms the source impedance typically 50 ohms to

that optimum noise matching impedance referred to as

Gopt. All stability considerations still apply, of course. If

the calculated Rollet stability factor (K) is less than 1, then

the source and load reflection coefficients must be carefully

chosen. For an accurate graphical depiction of the unstable

regions, it is best to draw stability circles.

figure is different from the impedance that minimizes the

return loss. Matching techniques such as inductive feedback

will be used to bring the noise match closer to this gain

match. An additional inherent danger of this technique is the

increased instability of the design at higher frequencies. As

the frequency increases the source inductance will also

increase, this increases the amount of feedback to the

devices source up to an oscillation level. This issue can be

reduced by carefully choosing the input and output match-

ing topology so that the transducer gain is limited at the fre-

quency of potential oscillation. Design of a high pass / low

pass matching network on the input and output is one solu-

tion that addresses this problem. Careful simulation is

essential using the wideband s-parameters provided and can

only be achieved through careful modeling of all compo-

nents utilized in the design, including:

Typical Reflow Profiles

0.1-10.0 GHz Low Noise, Medium Power

pHEMT in a Surface Mount Plastic Package

Export of this item may require appropriate export licensing from the U.S. Government. In purchasing these parts, U.S. Domestic customers accept

For any two-port network, the noise figure gives a

In practice the impedance that minimizes the noise

Mimix Broadband, Inc., 10795 Rockley Rd., Houston, Texas 77099

Tel: 281.988.4600 Fax: 281.988.4615 mimixbroadband.com

their obligation to be compliant with U.S. Export Laws.

mount components used.

including loss tangents and metal thickness.

grounds where used.

sen matching network is other than Gopt, then the noise fig-

ure of the device will be greater than NFmin. The losses of

the matching circuits are also non-zero and it must be con-

sidered that the noise figure of the completed amplifier is

equal to the noise figure of the device plus the losses of the

matching network preceding the device.

the Q of the components and associated printed circuit

board loss. In general larger gate width devices will typical-

ly have a lower Gopt as compared to smaller gate width

devices. Matching to higher impedance devices requires

very hi-Q components in order to minimize circuit losses.

The main reason for using smaller gate width devices is the

trade-off of current consumption and optimum noise perfor-

mance.

1. Accurate high frequency models for all surface

2. Accurate models of the board characteristics

3. Use of Via holes and via pads instead of perfect

In any case if the reflection coefficient of the cho-

The losses of the matching networks are related to

CFS0103-SB

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CFS0103-SB_08 MIMIX [Mimix Broadband], CFS0103-SB_08 Datasheet - Page 6

CFS0103-SB_08

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