MGA-62563 Datasheet, PDF(2/18 Page) Agilent(Hewlett-Packard) – Current-Adjustable, Low Noise Amplifier

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MGA-62563 Datasheet, PDF (2/18 Pages) Agilent(Hewlett-Packard) – Current-Adjustable, Low Noise Amplifier

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MGA-62563 Absolute Maximum Ratings[1]

Symbol

Iref

Pdiss

TCH

TSTG

ï ï±ch_b

Parameter

Device Voltage (pin 6)[2]

Device Current (pin 6)[2]

CW RF Input Power (pin 3)[3]

Bias Reference Current (pin 4)

Total Power Dissipation[4]

Channel Temperature

Storage Temperature

Thermal Resistance[5]

Units

dBm

Â°C

Â°C/W

Absolute

Maximum

100

600

150

-65 to 150

Notes:

1. Operation of this device above any one of

these parameters may cause permanent

damage.

2. Bias is assumed at DC quiescent conditions.

3. With the DC (typical bias) and RF applied to

the device at board temperature TB = 25Â°C.

4. Total dissipation power is referred to board

(package belly) temperature TB = 85Â°C,

Pdiss is required to derate at 10 mW/Â°C for

TB > 85Â°C.

5. Thermal resistance measured using 150Â°C

Liquid Crystal Measurement method.

100 pF

6.8 nH

240

10 pF

68 pF

47 nH

MGA-62563

125

100 pF

Figure 1. Test circuit of the 0.5 GHz production test board used for NF, Gain and

OIP3 measurements. This circuit achieves a trade-off between optimal NF, Gain,

OIP3 and input return loss. Circuit losses have been de-embedded from actual

measurements.

Wire Supplying

Vbias from

Agilent 4142

Direct to

Ground

RF Output

Bias

BiaTsee

Vdd supply from

Agilent 4142

62x

Reference

Planes

Blocking

Cap

Input

Direct to

Ground

Figure 1b. A diagram showing the connection to the DUT during an S and Noise

parameter measurement using an automated tuner system.

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