ADF7012BRUZ Analog Devices Inc, ADF7012BRUZ Datasheet - Page 22

ADF7012BRUZ

Manufacturer Part Number

ADF7012BRUZ

Description

IC XMITTER ASK/FSK/GFSK 24TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.EVAL-ADF7012EB1.pdf (28 pages)

Specifications of ADF7012BRUZ

Frequency

75MHz ~ 1GHz

Applications

Data Transfer, RKE, Remote Control/Security Systems

Modulation Or Protocol

ASK, FSK, GFSK, OOK

Data Rate - Maximum

179.2 kbps

Power - Output

-16dBm ~ 14dBm

Current - Transmitting

35mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

2.3 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Package / Case

24-TSSOP

Transmitting Current

16mA

Data Rate

179.2Kbps

Frequency Range

75MHz To 1GHz

Rf Ic Case Style

TSSOP

No. Of Pins

Supply Voltage Range

2.3V To 3.6V

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Product Depth (mm)

4.4mm

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-ADF7012DBZ4 - BOARD EVALUATION DB4 FOR ADF7012EVAL-ADF7012DBZ3 - BOARD EVALUATION DB3 FOR ADF7012EVAL-ADF7012DBZ2 - BOARD EVALUATION DB2 FOR ADF7012EVAL-ADF7012DBZ1 - BOARD EVALUATION DB1 FOR ADF7012EVAL-ADF7012DBZ5 - BOARD DAUGHTER FOR ADF7012

Features

Memory Size

Lead Free Status / Rohs Status

Compliant

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Current page: 22 of 28
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ADF7012

868 MHz OPERATION

The recommendations here are guidelines only. The design

should be subject to internal testing prior to ETSI site testing.

Matching components need to be adjusted for board layout.

The ETSI standard EN 300-220 governs operation in the

868 MHz to 870MHz band. The band is broken down into

several subbands each having a different duty cycle and output

power requirement. Narrowband operation is possible in the

50kHz channels, but both the output power and data rate are

limited by the −36 dBm adjacent channel power specification.

There are many different applications in this band, including

remote controls for security, sensor interrogation, metering

and home control.

Design Criteria

868.95 MHz center frequency (band 868.7MHz − 869.2 MHz)

FSK modulation

12 dBm output power

300 m range

Meets ETSI 300-220

38.4 kbps data rate

The design challenge is to enable the part to operate in this

particular subband and meet the ACP requirement 250 kHz

away from the center.

The center frequency is 868.95 MHz. It is possible to operate the

VCO at this frequency. Figure 31 shows the inductor value vs.

center frequency. The inductor chosen is 1.9 nH. Coilcraft

inductors such as 0402-CS-1N9XJBU are recommended.

Crystal and PFD

The phase noise requirement is such to ensure the power at

the edge of the band is < −36 dBm. This requires close to

−100 dBc/Hz phase noise at the edge of the band.

The PFD is chosen to minimize spurious levels (beat note and

reference), and to ensure a quick crystal power-up time. A PFD

of < 6 MHz places the largest PFD spur at a frequency of greater

than 862 MHz, and so reduces the requirement on the spur

level to −36 dBm instead of −54 dBm.

PFD = 4.9152 MHz − Power Up-Time 1.6 ms. Figure 10 shows a

typical power-on time for a 4MHz crystal.

N-Divider

The N divider is determined as being:

Nint = 176

Nfrac = (3229)/4096

VCO divide-by-2 is not enabled.

Rev. A | Page 22 of 28

Deviation

The deviation is set to ±19.2 kHz to accommodate a simple

receiver architecture and ensure that the modulation spectrum

is narrow enough to meet the adjacent channel power (ACP)

requirements.

The modulation steps available are in 4.9152 MHz/2

Bias Current

Because low current is desired, a 2.5 mA VCO bias can be used.

Additional bias current reduces any spurious, but increases

current consumption. A 2.5 mA bias current gives the best

spurious vs. phase noise trade-off.

The PA bias should be set to 7.5 mA to achieve 12 dBm.

Loop Filter Bandwidth

The loop filter is designed with ADIsimSRD Design Studio.

The loop bandwidth design requires that the channel power be

< −36 dBm at ±250 kHz from the center. A loop bandwidth of

close to <60 kHz is required to bring the phase noise at the edge

of the band sufficiently low to meet the ACP specification. This

represents a compromise between the data rate requirement and

the phase noise requirement.

Design of Harmonic Filter

The main requirement of the harmonic filter should ensure that

the second and third harmonic levels are < −30 dBm. A fifth-

order Chebyshev filter is recommended to achieve this, and a

suggested starting point is given next. The Pi format is chosen

to minimize the more expensive inductors.

Component Values—Crystal: 4.9152 MHz

Loop Filter

Icp

LBW

Matching

C14

Harmonic Filter

C15

C16

C17

Modulation steps = 300 Hz

Modulation number = 19.2 kHz/300 Hz = 64.

1.44 mA

60 kHz

1.5 nF

22 nF

560 pF

390 Ω

910 Ω

27 nH

6.2 nH

470 pF

8.2 nH

4.7 pF

6.8 pF

4.7 pF

ADF7012BRUZ Analog Devices Inc, ADF7012BRUZ Datasheet - Page 22

ADF7012BRUZ

Specifications of ADF7012BRUZ

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