ADL5330-EVALZ Analog Devices, ADL5330-EVALZ Datasheet - Page 16

ADL5330-EVALZ

Manufacturer Part Number

ADL5330-EVALZ

Description

Amplifier IC Development Tools Evaluation board for ADL5330

Manufacturer

Analog Devices

Type

Variable Gain Amplifiersr

Series

ADL5330r

Datasheet

1.ADL5330-EVALZ.pdf (24 pages)

Specifications of ADL5330-EVALZ

Product

Evaluation Boards

Tool Is For Evaluation Of

ADL5330

Operating Supply Voltage

5 V

Available Set Gain

60 dB

Description/function

RF VGA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Supply Current

215 mA

Factory Pack Quantity

For Use With

ADL5330

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ADL5330

Figure 38 shows the transfer function of the output power vs.

the VSET voltage over temperature for a 900 MHz sine wave

with an input power of −1.5 dBm. Note that the power control

of the AD8318 has a negative sense. Decreasing VSET, which

corresponds to demanding a higher signal from the ADL5330,

tends to increase GAIN.

The AGC loop is capable of controlling signals just under the

full 60 dB gain control range of the ADL5330. The performance

over temperature is most accurate over the highest power range,

where it is generally most critical. Across the top 40 dB range of

output power, the linear conformance error is well within

±0.5 dB over temperature.

The broadband noise added by the logarithmic amplifier is

negligible.

–10

–20

–30

–40

–50

Figure 38. ADL5330 Output Power vs. AD8318 Setpoint Voltage,

0.4

0.6

0.8

1.0

SETPOINT VOLTAGE (V)

Figure 37. ADL5330 Operating in an Automatic Gain Control Loop in Combination with the AD8318

1.2

= −1.5 dBm

RF INPUT

SIGNAL

1.4

DAC

220pF

1.6

100pF

SETPOINT

1.8

VOLTAGE

2.0

INHI

INLO

412Ω

VPOS

+5V

ADL5330

VSET

CLPF

2.2

VOUT

GAIN

–1

–2

–3

–4

LOG AMP

AD8318

1kΩ

COMM

Rev. A | Page 16 of 24

OPLO

OPHI

VPOS

+5V

INLO

INHI

120nH

+5V

1nF

In order for the AGC loop to remain in equilibrium, the

AD8318 must track the envelope of the ADL5330 output signal

and provide the necessary voltage levels to the ADL5330’s gain

control input. Figure 39 shows an oscilloscope screenshot of the

AGC loop depicted in Figure 37. A 100 MHz sine wave with

50% AM modulation is applied to the ADL5330. The output

signal from the ADL5330 is a constant envelope sine wave with

amplitude corresponding to a setpoint voltage at the AD8318 of

1.5 V. Also shown is the gain control response of the AD8318 to

the changing input envelope.

120nH

Figure 39. Oscilloscope Screenshot Showing an AM Modulated Input Signal

100pF

CH1

CH3 250mV Ω

AM MODULATED INPUT

AD8318 OUTPUT

ADL5330 OUTPUT

DIRECTIONAL

COUPLER

250mV Ω

ATTENUATOR

RF OUTPUT

SIGNAL

M2.00ms

0.00000s

A CH4

1.80V

ADL5330-EVALZ Analog Devices, ADL5330-EVALZ Datasheet - Page 16

ADL5330-EVALZ

Specifications of ADL5330-EVALZ

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