ADF7021-NBCPZ Analog Devices Inc, ADF7021-NBCPZ Datasheet - Page 38

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

EVAL-ADF7021DBZ6 - BOARD EVAL ADF7021 608-614MHZEVAL-ADF7021DBZ5 - BOARD EVAL ADF7021EVAL-ADF7021DBZ3 - BOARD DAUGHTER FOR ADF7021EVAL-ADF7021DBZ2 - BOARD EVAL FOR ISM ADF7021

Memory Size

Lead Free Status / Rohs Status

Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

ADF7021-NBCPZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

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Manufacturer:

Quantity:

210

Current page: 38 of 64
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ADF7021-N

APPLICATIONS INFORMATION

IF FILTER BANDWIDTH CALIBRATION

The IF filter should be calibrated on every power-up in receive

mode to correct for errors in the bandwidth and filter center

frequency due to process variations. The automatic calibration

requires no external intervention once it is initiated by a write

to Register 5. Depending on numerous factors, such as IF filter

bandwidth, received signal bandwidth, and temperature variation,

the user must determine whether to carry out a coarse

calibration or a fine calibration.

The performance of both calibration methods is outlined in

Table 21.

Table 21. IF Filter Calibration Specifications

Filter Calibration

Method

Coarse Calibration

Fine Calibration

Calibration Setup

IF Filter calibration is initiated by writing to Register 5 and

setting the IF_CAL_COARSE bit (R5_DB4). This initiates a

coarse filter calibration. If the IF_FINE_CAL bit (R6_DB4) has

already been configured high, the coarse calibration is followed

by a fine calibration, otherwise the calibration ends.

Once initiated by writing to the part, the calibration is performed

automatically without any user intervention. Calibration time is

200 μs for coarse calibration and a few milliseconds for fine

calibration, during which time the ADF7021-N should not be

accessed. The IF filter calibration logic requires that the

IF_FILTER_DIVIDER bits (R5_DB[5:13]) be set such that

The fine calibration uses two internally generated tones at

certain offsets around the IF filter. The two tones are attenuated

by the IF filter, and the level of this attenuation is measured

using the RSSI. The filter center frequency is adjusted to allow

equal attenuation of both tones. The attenuation of the two test

tones is then remeasured. This continues for a maximum of

10 RSSI measurements, at which stage the calibration algorithm

sets the IF filter center frequency to within 0.6 kHz of 100 kHz.

The frequency of these tones is set by the IF_CAL_LOWER_

TONE_DIVIDE (R6_DB[5:12]) and IF_CAL_UPPER_TONE_

DIVIDE (R6_DB[13:20]) bits, outlined in the following equations:

After calibration.

FILTER

XTAL

[Hz]

DIVIDER

Center Frequency

Accuracy

100 kHz ± 2.5 kHz

100 kHz ± 0.6 kHz

kHz

Calibration

Time (Typ)

200 μs

8.2 ms

Rev. 0 | Page 38 of 64

Lower Tone Frequency (kHz)

Upper Tone Frequency (kHz)

It is recommended to place the lower tone and upper tone as

outlined in Table 22.

Table 22. IF Filter Fine Calibration Tone Frequencies

IF Filter

Bandwidth

9 kHz

13.5 kHz

18.5 kHz

Because the filter attenuation is slightly asymmetrical, it is

necessary to have a small offset in the filter center frequency to

give near equal rejection at the upper and lower adjacent

channels. The calibration tones given in Table 22 give this small

positive offset in the IF filter center frequency.

In some applications, an offset may not be required, and the

user may wish to center the IF filter exactly at 100 kHz. In this

case, the user can alter the tone frequencies from those given in

Table 22 to adjust the fine calibration result.

The calibration algorithm adjusts the filter center frequency

and measures the RSSI 10 times during the calibration. The

time for an adjustment plus RSSI measurement is given by

It is recommended that the IF tone calibration time be at least

800 μs. The total time for the IF filter fine calibration is given by

IF Filter Fine Calibration Time = IF Tone Calibration Time × 10

When to Use Coarse Calibration

It is recommended to perform a coarse calibration on every

receive mode power-up. This calibration typically takes 200 μs.

The FILTER_CAL_COMPLETE signal from MUXOUT can be

used to monitor the filter calibration duration or to signal the

end of calibration. The ADF7021-N should not be accessed

during calibration.

IF_CAL_LOW

IF_CAL_UPP

Tone

Calibratio

ER_TONE_DI

XTAL

Lower Tone

Frequency

78.1 kHz

79.4 kHz

78.1 kHz

Time

VIDE

IF_CAL_DWE

SEQ

Upper Tone

Frequency

116.3 kHz

119 kHz

CLK

LL_TIME

ADF7021-NBCPZ Analog Devices Inc, ADF7021-NBCPZ Datasheet - Page 38

ADF7021-NBCPZ

Specifications of ADF7021-NBCPZ

Available stocks

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