ADF7021-NBCPZ Analog Devices Inc, ADF7021-NBCPZ Datasheet - Page 40

ADF7021-NBCPZ

Manufacturer Part Number

ADF7021-NBCPZ

Description

IC TXRX 80-650/842-916MHZ 48LFCS

Manufacturer

Analog Devices Inc

Datasheet

1.ADF7021-NBCPZ-RL.pdf (64 pages)

Specifications of ADF7021-NBCPZ

Frequency

80MHz ~ 650MHz, 842MHz ~ 916MHz

Data Rate - Maximum

33kbps

Modulation Or Protocol

2-FSK, 3-FSK, 4-FSK, MSK

Applications

Keyless Entery, Pagers, WMTS

Power - Output

-16dBm ~ 13dBm

Sensitivity

-130dBm

Voltage - Supply

2.3 V ~ 6 V

Current - Receiving

26mA

Current - Transmitting

32.3mA @ 10dBm

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

-40°C ~ 85°C

Package / Case

48-LFCSP

Receiving Current

26.4mA

Transmitting Current

20.2mA

Data Rate

24Kbps

Frequency Range

80MHz To 916MHz

Modulation Type

FSK, MSK

Rf Ic Case Style

LFCSP

No. Of Pins

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Product Depth (mm)

7mm

Product Length (mm)

7mm

Operating Supply Voltage (min)

2.3V

Operating Supply Voltage (typ)

2.5/3.3V

Operating Supply Voltage (max)

3.6V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

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Memory Size

Lead Free Status / Rohs Status

Compliant

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Manufacturer

Quantity

Price

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Part Number:

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Current page: 40 of 64
Download datasheet (3Mb)

ADF7021-N

External Rx/Tx Switch

Figure 51 shows a configuration using an external Rx/Tx switch.

This configuration allows an independent optimization of the

matching and filter network in the transmit and receive path.

Therefore, it is more flexible and less difficult to design than the

configuration using the internal Rx/Tx switch. The PA is biased

through Inductor L1, while C1 blocks dc current. Together, L1

and C1 form the matching network that transforms the source

impedance into the optimum PA load impedance, Z

output power, the frequency range, the supply voltage range,

and the temperature range. Selecting an appropriate Z

helps to minimize the Tx current consumption in the application.

Application Note AN-764 and Application Note AN-859 contain a

number of Z

certain conditions, however, it is recommended to obtain a suitable

Due to the differential LNA input, the LNA matching network

must be designed to provide both a single-ended-to-differential

conversion and a complex, conjugate impedance match. The

network with the lowest component count that can satisfy these

requirements is the configuration shown in Figure 51, consisting

of two capacitors and one inductor.

ANTENNA

Rx/Tx – SELECT

OPT

_PA value by means of a load-pull measurement.

_PA depends on various factors, such as the required

ADG919

Figure 51. ADF7021-N with External Rx/Tx Switch

OPT

_PA values for representative conditions. Under

OPTIONAL

(SAW)

BPF

LPF

BAT

OPT

_RFIN

_PA

ADF7021-N

PA_OUT

RFIN

RFINB

OPT

LNA

OPT

_PA.

_PA

Rev. 0 | Page 40 of 64

Depending on the antenna configuration, the user may need a

harmonic filter at the PA output to satisfy the spurious emission

requirement of the applicable government regulations. The

harmonic filter can be implemented in various ways, for example, a

discrete LC pi or T-stage filter. The immunity of the ADF7021-N

to strong out-of-band interference can be improved by adding a

band-pass filter in the Rx path. Alternatively, the ADF7021-N

blocking performance can be improved by selecting one of the

enhanced linearity modes, as described in Table 15.

IMAGE REJECTION CALIBRATION

The image channel in the ADF7021-N is 200 kHz below the

desired signal. The polyphase filter rejects this image with an

asymmetric frequency response. The image rejection performance

of the receiver is dependent on how well matched the I and Q

signals are in amplitude and how well matched the quadrature

is between them (that is, how close to 90° apart they are). The

uncalibrated image rejection performance is approximately

29 dB (at 450 MHz). However, it is possible to improve on this

performance by as much as 20 dB by finding the optimum I/Q

gain and phase adjust settings.

Calibration Using Internal RF Source

With the LNA powered off, an on-chip generated, low level RF

tone is applied to the mixer inputs. The LO is adjusted to make

the tone fall at the image frequency where it is attenuated by the

image rejection of the IF filter. The power level of this tone is then

measured using the RSSI readback. The I/Q gain and phase adjust

DACs (R5_DB[20:31]) are adjusted and the RSSI is remeasured.

This process is repeated until the optimum values for the gain

and phase adjust are found that provide the lowest RSSI readback

level, thereby maximizing the image rejection performance of

the receiver.

ADF7021-NBCPZ Analog Devices Inc, ADF7021-NBCPZ Datasheet - Page 40

ADF7021-NBCPZ

Specifications of ADF7021-NBCPZ

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