AD8347ARU Analog Devices Inc, AD8347ARU Datasheet - Page 22

AD8347ARU

Manufacturer Part Number

AD8347ARU

Description

Quadrature Dmod 65MHz 28-Pin TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD8347-EVAL.pdf (28 pages)

Specifications of AD8347ARU

Package

28TSSOP

Device Type

Demodulator

Maximum I/q Frequency

65(Typ) MHz

Modulation Type

Quadrature

Typical Noise Figure

11 dB

Maximum Conversion Gain

39.5(Typ) dB

Rohs Status

RoHS non-compliant

Function

Demodulator

Lo Frequency

800MHz ~ 2.7GHz

Rf Frequency

800MHz ~ 2.7GHz

P1db

-30dBm

Gain

39.5dB

Noise Figure

11dB

Current - Supply

80mA

Voltage - Supply

2.7 V ~ 5.5 V

Package / Case

28-TSSOP

Lead Free Status / RoHS Status

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AD8347

If the VGA is operating in AGC mode, the detector inputs

(VDT1 and VDT2) can be tied either to the inputs or outputs of

the filter. Connecting the detector inputs to the inputs of the

filter (IMXO and QMXO) causes the VGA leveling point to be

determined by the composite of the wanted signal and any

unfiltered components, such as blockers or signal harmonics.

Alternatively, connecting VDT1 and VDT2 to the outputs of the

filters ensures that the leveling point of the AGC circuit is based

upon the amplitude of the filtered output only. The latter option

is more desirable as it results in a more constant baseband

output. However, when using this method, set the leveling point

of the AGC so that the out-of-band blockers do not overdrive

the mixer output.

Figure 52. Group Delay of 20 MHz Baseband Low-Pass Filter

FREQUENCY (MHz)

100

Rev. A | Page 22 of 28

DC OFFSET COMPENSATION

Feedthrough of the LO signal to the RF input port results in

self-mixing of the LO signal. This produces a dc component at

the mixer output that is frequency dependent.

The AD8347 includes an internal circuit that actively nulls any

dc offsets that appear at the mixer output. The dc bias level of

the mixer output (which should ideally equal V

level for the baseband sections of the chip) is continually com-

pared to V

and V

The time constant of this correction loop is set by the capacitors

that are connected to Pin IOFS and Pin QOFS (each output can

be separately compensated). For normal operation, 0.1 μF

capacitors are recommended. The corner frequency of the

compensation loop is given approximately by

The corner frequency must be set to a frequency that is much

lower than the symbol rate of the demodulated data. This

prevents the compensation loop from falsely interpreting the

data stream as a changing offset voltage.

To disable the offset compensation circuits, tie IOFS and QOFS

to VREF.

VREF

forces a compensating voltage on to the mixer output.

VREF

. Any differences between the mixer output level

OFS

(

OFS

μF

)

VREF

, the bias

AD8347ARU Analog Devices Inc, AD8347ARU Datasheet - Page 22

AD8347ARU

Specifications of AD8347ARU

Available stocks

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